Plant Inventory No. 215 - The Germplasm Resources Information ...
Plant Inventory No. 215 - The Germplasm Resources Information ...
Plant Inventory No. 215 - The Germplasm Resources Information ...
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United States<br />
Department of<br />
Agriculture<br />
Agricultural<br />
Research<br />
Service<br />
<strong>Plant</strong> <strong>Inventory</strong><br />
<strong>No</strong>. <strong>215</strong><br />
<strong>Plant</strong> Materials Introduced in 2006<br />
(<strong>No</strong>s. 641918 - 644217)
Foreword<br />
<strong>Plant</strong> <strong>Inventory</strong> <strong>No</strong>. <strong>215</strong> is the official listing of plant materials accepted into the U.S. National <strong>Plant</strong><br />
<strong>Germplasm</strong> System (NPGS) between January 1 and December 31, 2006 and includes PI 641918 to<br />
PI 644217. <strong>The</strong> NPGS is managed by the U.S. Department of Agriculture (USDA), Agricultural<br />
Research Service (ARS). <strong>The</strong> information on each accession is essentially the information provided<br />
with the plant material when it was obtained by the NPGS. <strong>The</strong> information on an accession in the<br />
NPGS database may change as additional knowledge is obtained.<br />
<strong>The</strong> <strong>Germplasm</strong> <strong>Resources</strong> <strong>Information</strong> Network (http://www.ars-grin.gov/npgs/index.html) is the<br />
database for the NPGS and should be consulted for the current accession and evaluation information<br />
and to request germplasm.<br />
While the USDA/ARS attempts to maintain accurate information on all NPGS accessions, it is not<br />
responsible for the quality of the information it has been provided.<br />
For questions about this volume, contact the USDA/ARS/National <strong>Germplasm</strong> <strong>Resources</strong><br />
Laboratory/Database Management Unit: dbmu@ars-grin.gov<br />
<strong>The</strong> United States Department of Agriculture (USDA) prohibits discrimination in its programs on<br />
the basis of race, color, national origin, sex, religion, age, disability, political beliefs and marital or<br />
familial status. (<strong>No</strong>t all prohibited bases apply to all programs.) Persons with disabilities who require<br />
alternative means for communication of program information (Braille, large print, audiotape, etc.)<br />
should contact the USDA Office of Communications at (202) 720-2791.<br />
To file a complaint, write the Secretary of Agriculture, U.S. Department of Agriculture, Washington,<br />
DC 20250, or call (202) 720-7327 (voice) or (202) 720-1127 (TDD). USDA is an equal employment<br />
opportunity employer.
<strong>The</strong> following were collected by Jon Rebman, USDA, ARS, U.S. Water<br />
Conservation Laboratory, 4331 East Broadway, Phoenix, Arizona 85040, United<br />
States. Received 11/09/2000.<br />
PI 641918. Lesquerella fendleri (A. Gray) S. Watson<br />
Wild. 1834; PARL 168. Collected 2000 in New Mexico, United States.<br />
Latitude 31° 56' N. Longitude 108° 56' W. Elevation 4240 m. 5.7<br />
miles east of route 80 on route 9 toward Animas.<br />
<strong>The</strong> following were collected by Charlotte Christy, USDA, ARS, U.S. Water<br />
Conservation Laboratory, 4331 East Broadway Road, Phoenix, Arizona 85040,<br />
United States. Donated by David A. Dierig, USDA, ARS, U.S. Water Conservation<br />
Laboratory, 4331 E. Broadway Rd., Phoenix, Arizona 85040, United States.<br />
Received 09/1998.<br />
PI 641919. Lesquerella fendleri (A. Gray) S. Watson<br />
Wild. 2226; PARL 173; W6 20828. Collected 1994 in Texas, United States.<br />
Latitude 27° 22' N. Longitude 98° 56' W. Elevation 244 m. SE of<br />
Aguilares; FM 649, 6.3 miles S of jct 649/Rte. 359 and 11.4 miles N of<br />
jct. FM 649/3073.<br />
<strong>The</strong> following were collected by David A. Dierig, USDA, ARS, U.S. Water<br />
Conservation Laboratory, 4331 E. Broadway Rd., Phoenix, Arizona 85040, United<br />
States; Andrew Salywon, U.S. Water Conservation Laboratory, 4331 E. Broadway,<br />
Phoenix, Arizona 85040, United States. Received 11/09/2000.<br />
PI 641920. Lesquerella fendleri (A. Gray) S. Watson<br />
Wild. 4001; PARL 178. Collected 1999 in Coahuila, Mexico. Latitude<br />
27° 35' 25" N. Longitude 101° 10' 51" W. Elevation 1294 m. Hwy<br />
51 about 51 miles north of Monclova, km post 83, roadcut. Vegetation:<br />
Acacia, Leucophyllium, Platyopuntia, Yucca. Limestone soils.<br />
PI 641921. Lesquerella argyraea (A. Gray) S. Watson<br />
Wild. 4004; PARL 180. Collected 1999 in Coahuila, Mexico. Latitude<br />
28° 32' 9" N. Longitude 100° 54' 53" W. Elevation 1200 m. 20km<br />
northwest Allende, Hwy 29 Acuna-Allende. Vegetation: Leucophyllium,<br />
Prosopis, Platyopuntia.<br />
PI 641922. Lesquerella fendleri (A. Gray) S. Watson<br />
Wild. 4006; PARL 182. Collected 1999 in Coahuila, Mexico. Latitude<br />
28° 54' 4" N. Longitude 100° 31' 34" W. Elevation 1000 m. On<br />
road to Rancho Nuevo from Piedras Negras, 2km from junction Route 257.<br />
Vegetation: Leucophyllium, Acacia, Cercidium, Cylindropuntia, abuntant<br />
small plants.<br />
PI 641923. Lesquerella fendleri (A. Gray) S. Watson<br />
Wild. 4007; PARL 183. Collected 1999 in Coahuila, Mexico. Latitude<br />
28° 36' 45" N. Longitude 100° 30' 8" W. Elevation 911 m. On road<br />
to Rancho San Francisci & Rio Bravokm from junction with Rt57(Superion<br />
Sign). 3km north of hwy 2. Rocky, limestone soils. Leucophyllium, Acacia<br />
berlanderi, Platyopuntia lindhimeri, Caulinia, Krameria erecta<br />
vegetation.<br />
1
PI 641924. Lesquerella fendleri (A. Gray) S. Watson<br />
Wild. 4024; PARL 186. Collected 1999 in Durango, Mexico. Latitude<br />
24° 35' 29" N. Longitude 103° 55' 23" W. Elevation 1935 m. Hwy<br />
40 11.7 miles/18km SW of Yerbanis past 103km post between Durango &<br />
Torreon. Roadside disturbed, limestone rocky soils both sides of hwy.<br />
<strong>The</strong> following were developed by Francis K. Padi, Savanna Agricultural<br />
Research Institute, CSIR, SARI, P.O. Box 52, Tamale, Ghana; A.B. Salifu,<br />
CSIR, Savanna Agricultural Research Institute, Box 52, Tamale, Ghana; J.<br />
Kombiok, CSIR, Savanna Agricultural Research Institute, Box 52, Tamale, Ghana;<br />
K.O. Marfo, CSIR, Savanna Agricultural Research Institute, Box 52, Tamale,<br />
Ghana; A. Frimpong, CSIR, Savanna Agricultural Research institute, P.O. Box<br />
52, Tamale-Nyankpala, Ghana. Received 12/21/2005.<br />
PI 641925 QUAR. Arachis hypogaea L.<br />
Cultivar. Pureline. "EDORPO-MUNIKPA"; F-mix x ICG-66-3-26; SARGV-88001.<br />
CV-83. Pedigree - F5 derived line selected from a cross between F-mix as<br />
female parent and ICGS 66 as male parent. Virginia-type peanut<br />
possessing alternate branching pattern, spreading-bunch growth habit,<br />
and medium green leaves. Pods are typically two-seeded, slightly beaked,<br />
and constriction between seeds is slight with average sized seeds (65<br />
g/100) possessing dark tan testa. Classified as an early maturing<br />
cultivar flowering at 27 d after planting (DAP) and maturing at 100 DAP.<br />
Has oil content of 48% and is moderately resistant to early and late<br />
leaf spot infections caused by Cercospora arachidicola and<br />
Phaeoisariopsis personata respectively.<br />
PI 641926 QUAR. Arachis hypogaea L.<br />
Cultivar. Pureline. "NKATIESARI"; F-mix x ICG-20-1-45; SARGV 88002.<br />
CV-84. Pedigree - F5 derived line selected from a cross between F-mix as<br />
female parent and ICG(FDRS)-20as male parent. Virginia-type peanut<br />
possessing alternate branching pattern, erect bunch habit, medium green<br />
leaves. Pods are typically two-seeded, slightly beaked, and constriction<br />
between seeds is slight with seed size of 50 g/100, possessing light tan<br />
testa. Has high kernel yields, has good fresh seed dormancy, resistant<br />
to early and late leaf spot infections caused by Cercospora arachidicola<br />
and Phaeoisariopsis personata, respectively. Average oil content of<br />
seeds is 46%. Classified as a medium maturing cultivar flowering at 29 d<br />
after planting (DAP) and maturing at 110 DAP.<br />
<strong>The</strong> following were developed by J. Mitchell McGrath, USDA, ARS, Department of<br />
Crop and Soil Science, Michigan State University, East Lansing, Michigan<br />
48824-1325, United States. Received 12/20/2005.<br />
PI 641927. Beta vulgaris L. subsp. vulgaris<br />
Breeding. Population. EL53. GP-258. Pedigree - Involves 7 released<br />
smooth-root germplasm lines, two unreleased smooth-root breeding<br />
populations and 3 traditional East Lansing germplasm releases involving<br />
SR80 (PI 607898), SR87 (PI 607899), SR94 (PI 598076), SR95 (PI 603947),<br />
SR96 (PI 628272), SR97 (PI 628273), EL0204 (PI 632750), EL50 (PI<br />
598073), EL52 (PI 628274), USH20 (PI 631354). <strong>Germplasm</strong> substantially<br />
derived from previously released smooth-rooted, low soil tare germplasm<br />
releases with two cycles of selection for freedom from crown and root<br />
rot disease caused by Rhizoctonia solani AG2-2. Previous low soil tare<br />
2
eleases have been uniformly susceptible to Rhizoctonia crown and root<br />
rot, and the moderately resistant germplasm EL52 was used as a source of<br />
resistance during the development of EL53. Has shown good agronomic<br />
performance. Moderately resistant to Rhizoctonia crown and root rot,<br />
Cercospora leaf spot, and Aphanomyces diseases as evaluated over two<br />
years in disease nurseries. Was more susceptible, but not significantly<br />
different from the moderately resistant check.<br />
<strong>The</strong> following were developed by Richard Percy, USDA, ARS, Maricopa<br />
Agricultural Research Ctr., 37860 W. Smith-Enke Rd., Maricopa, Arizona 85239,<br />
United States; Lloyd May, University of Georgia, Coastal Plain Experiment<br />
Station, 115 Coastal Way, Tifton, Georgia 31793-0748, United States; Roy<br />
Cantrell, Cotton Incorporated, 6399 Weston Parkway, Cary, <strong>No</strong>rth Carolina<br />
27513, United States; Mauricio Ulloa, USDA, ARS, W.I.C.S. Research Unit,<br />
17053 N. Shafter Ave., Shafter, California 93263, United States. Received<br />
12/22/2005.<br />
PI 641928. Gossypium hirsutum L.<br />
Breeding. Pureline. AGC85. GP-860. Pedigree - FiberMax 958/SG248.<br />
Advanced generation testing of AGC85 was conducted in replicated trials<br />
at Tifton, GA, Maricopa, AZ, and Shafter, CA in 2004. Averaged over<br />
locations, the lint yield of AGC85 (2021 kg ha-1) was equivalent to that<br />
of a high yielding check variety, SG747 (1938 kg ha-1), and superior to<br />
the high fiber quality parent cultivar FiberMax 958 (1651 kg ha-1).<br />
Lint percentage of AGC85 (42.2%) was equivalent to that of the parent<br />
cultivar Fibermax 958 (42.7%). <strong>The</strong> plant height at maturity of line<br />
AGC85 (1.24 m) exceeded that of FiberMax 958 (1.00 m). Ratings of<br />
pollen sterility due to heat stress were recorded at the Maricopa<br />
location in 2004. Averaged across three dates, AGC85 exhibited pollen<br />
sterility rates significantly lower than those of the high fiber quality<br />
cultivar Fibermax 958. Fiber length (UHM) of AGC85 was equivalent to<br />
the FiberMax 958 parent (28.7mm). Short fiber contents (HVI) of AGC85<br />
was 9.1%. Fiber bundle strength of AGC85 (33.3cN) was stronger than the<br />
FiberMax 958 parent (31.4cN). Fiber elongation of AGC85 (4.3%) was<br />
superior to the parent cultivar FiberMax 958 (3.4%). <strong>The</strong> micronaire<br />
value of AGC85 (5.28) was equivalent to that of FiberMax 958 (5.30).<br />
Fiber fineness (AFIS) of AGC85 (181mtex) was equal to FiberMax 958<br />
(181mtex). PCR testing of AGC85 has revealed the presence of promoter<br />
sequences sometimes associated with transgenes (
that of FiberMax 958 (3.4%). ACG208 produced a micronaire value (4.95)<br />
lower than that of FiberMax 958 (5.30) and a fiber fineness value<br />
(174mtex) lower than FiberMax 958 (181mtex). PCR testing of AGC208 has<br />
revealed the presence of promoter sequences sometimes associated with<br />
transgenes (
experimental line. It has consistently shown high levels of resistance<br />
to Rhizoctonia solani (sheath blight).<br />
<strong>The</strong> following were donated by Alton Arakaki, Maui County CES, Molokai<br />
Extension Offic, P.O. Box 269, Hoolehua, Hawaii 96729, United States.<br />
Received 10/2004.<br />
PI 641933. Ipomoea batatas (L.) Lam. var. batatas<br />
Uncertain. "Agena"; UH Agena. Purple flesh. Tan to whitish skin.<br />
PI 641934. Ipomoea batatas (L.) Lam. var. batatas<br />
Uncertain. "Molokai Purple"; UH 88-7 RxP; Mokuau Purple; Mokuau R x P.<br />
Purple flesh. Red skin.<br />
<strong>The</strong> following were developed by K. B. Singh, Int. Center For Agricultural<br />
Research in the Dry Areas, P.O. Box 5466, Aleppo, Syria; R.S. Malhotra, Int.<br />
Center for Agricultural Research in the Dry Areas, P.O. Box 5466, Aleppo,<br />
Syria; N. Aydin, Central Research Institute for Field Crops, Ankara, Turkey;<br />
Ismail Kusmenoglu, Exporter Union Seed and Research Company, Ergazi Mah,<br />
Koyici Serpmeleri, <strong>No</strong>. 4, Batikent, Ankara, Turkey. Received 01/04/2006.<br />
PI 641935. Cicer arietinum L.<br />
Cultivar. Pureline. "GOKCE"; FLIP 87-8C. CV-266. Pedigree - ILC 3398 /<br />
FLIP 83-13C. <strong>Plant</strong>s are erect with a mean plant height of 35 cm at<br />
maturity, permitting harvest by combine. Exhibits indeterminate<br />
flowering habit and bears white flowers. Pods are generally hairy and<br />
single-seeded. Seeds weigh 45-47 g 100 seed-1, are light cream in color.<br />
20 to 30% of seeds are above 9mm in diameter, 70-80% between 8 and 9 mm;<br />
5% are less than 8mm diameter. Escapes drought because of early<br />
maturity.<br />
<strong>The</strong> following were developed by R.S. Malhotra, Int. Center for Agricultural<br />
Research in the Dry Areas, P.O. Box 5466, Aleppo, Syria; G. Khalaf, ICARDA,<br />
Integrated Gene Management Program, P.O. Box 5466, Aleppo, Syria; S.H.<br />
Sabagpour, Dryland Agricultural Research Institute, Kermanshah, Iran; R.<br />
Sarparast, Dryland Agricultural Research Institute, Maragheh, Iran; M.<br />
Safikhani, Dryland Agricultural Research Institute, Maragheh, Iran; S.H.<br />
Alizadeh, Dryland Agricultural Research Institute, Maragheh, Iran; A.<br />
Jahangeri, Dryland Agricultural Research Institute, Maragheh, Iran. Received<br />
01/04/2006.<br />
PI 641936. Cicer arietinum L.<br />
Cultivar. Pureline. "ARMAN"; FLIP 90-96C. CV-264. Pedigree - ILC 5342 /<br />
FLIP 84-93C. <strong>Plant</strong>s are erect with a mean plant height of 75 cm at<br />
maturity and plants bear pods at a height of about 18 cm above ground<br />
level permitting harvest by combine. Exhibits indeterminate flowering<br />
habit and bears white flowers. Seeds weigh 37 g 100 seed-1; are beige in<br />
color. On average takes 151 d to flower and 171 d to mature. <strong>Plant</strong>s bear<br />
average 23 pods per plant. Pods on average bear 1.1 seeds per pod.<br />
<strong>The</strong> following were developed by Fred Allen, University of Tennessee,<br />
Department of <strong>Plant</strong> Sciences, 2431 Joe Johnson Drive, Knoxville, Tennessee<br />
37996, United States; Vincent R. Pantalone, University of Tennessee,<br />
5
Department of <strong>Plant</strong> Sciences, 2431 Joe Johnson Drive, Knoxville, Tennessee<br />
37996, United States; Prakash R. Arelli, USDA-ARS, 605 Airways Blvd.,<br />
Jackson, Tennessee 38301, United States; Alemu Mengistu, USDA/ARS, West<br />
Tennessee Experiment Station, 605 Airways Blvd., Jackson, Tennessee 38301,<br />
United States. Received 01/06/2006.<br />
PI 641937. Glycine max (L.) Merr.<br />
Breeding. Pureline. JTN-5303. GP-328. Pedigree - F6 derived line from<br />
cross: Caviness x Anand. Developed and released with unique combination<br />
of high yield, resistance to several predominant nematode populations<br />
and resistance to important fungal pathogens. <strong>Plant</strong>s selected based on<br />
desirable agronomic traits, superior yield and resistance to soybean<br />
cyst nematode (Heterodera glycines Ichinohe - SCN). Selection for<br />
nematode resistance involved both molecular markers and greenhouse<br />
phenotyping with nematode populations. Was evaluated with SCN races<br />
(2,3,5,14; corresponding to HG Types 1.2.5.7; 0; 2.5.7; 1.3.6.7,<br />
respectively) and was found to be resistant at USDA-ARS, Jackson, TN.<br />
Simple sequence repeat markers (SSR) Satt 309. Satt 632, Satt 162 and<br />
Satt 082 have confirmed resistance to SCN races. Resistant to sudden<br />
death syndrome [caused by Fusarium solani], stem canker [caused by<br />
Diaporthe phaseolorum var. caulivora] and frogeye leaf spot (caused by<br />
Cercospora sojina). Was found moderately resistant to charcoal rot<br />
[caused by Macrophomina phaseolina] but susceptible to root-knot<br />
nematode (caused by Meloidogyne incognita). Is maturity group V line<br />
(relative maturity 5.4) and has determinate growth habit. Has white<br />
flowers, tawny pubescence and seeds are yellow with imperfect black<br />
hila. Averaged 3604 kilograms/hectare seed yield slightly higher than<br />
5002T. Produced 200 g/kg seed oil, 408 g/kg protein and 15g seed weight<br />
(100 seeds), respectively. Has great value as a parent in soybean<br />
improvement because of its broad resistance to SCN, fungal pathogens and<br />
high yield.<br />
<strong>The</strong> following were developed by Lawrence D. Young, USDA, ARS, MSA Crop<br />
Genetics & Prod. Res. Unit, P.O. Box 345, Stoneville, Mississippi 38776-0345,<br />
United States; Prakash R. Arelli, USDA-ARS, 605 Airways Blvd., Jackson,<br />
Tennessee 38301, United States; Alemu Mengistu, USDA/ARS, West Tennessee<br />
Experiment Station, 605 Airways Blvd., Jackson, Tennessee 38301, United<br />
States. Received 01/06/2006.<br />
PI 641938. Glycine max (L.) Merr.<br />
Breeding. Pureline. JTN-5503. GP-326. Pedigree - Selection from the<br />
cross Fowler x Manokin. Is an F7 derived line. F2 plants resistant to<br />
soybean cyst nematode (SCN) (Heterodera glycines Ichinohe) race 2<br />
(corresponding to HG Type 1.2-) were selected and grown in F3 rows.<br />
Progenies were advanced through mass selection for superior agronomic<br />
types with resistance to both soybean cyst nematode and predominant<br />
fungal pathogens. Marker assisted selection (MAS) identified a soybean<br />
line with combined resistance to SCN races 2,3,5,14 (corresponding to HG<br />
Types 1.2.5.7, 0, 2.5.7, 1.3.6.7 respectively). Satt 309, Satt 632, Satt<br />
162 and Satt 082 were used for marker assisted selection. Resistance in<br />
this line was confirmed with nematode populations in greenhouse<br />
phenotyping tests at USDA-ARS, Jackson, TN. Highly resistant to stem<br />
canker [caused by Diaporthe phaseolorum var. caulivora], frogeye leaf<br />
spot (caused by Cercospora sojina), cercospora leafblight [caused by<br />
Cercospora kikuchii] and moderately resistant to sudden death syndrome<br />
[caused by Fusarium solani] and charcoal rot [caused by Macrophomina<br />
6
phaseolina]. Is a maturity group V line (relative maturity 5.4) with<br />
white flowers, tawny pubescence and a determinate growth habit. Seeds<br />
are yellow with black hila. In 2004 Tennessee State Variety Test,<br />
averaged 3808 kilograms per hectare in seed yield. In 2003-2004 USDA<br />
Southern Reg. Preliminary and Uniform Group V tests, produced 3675<br />
kilograms per hectare in seed yield, 187 g per kilogram seed oil, 398<br />
grams per kilogram seed protein and 13.6 g seed weight (100 seeds),<br />
respectively. <strong>The</strong> release matured 2 d later and was 5 cm shorter in<br />
height compared with 5601T. Has great value as a parent in soybean<br />
improvement because of its higher yield and high level of resistance to<br />
SCN and fungal pathogens.<br />
<strong>The</strong> following were developed by Dolores W. Mornhinweg, USDA, ARS, <strong>Plant</strong><br />
Science Research Laboratory, 1301 N. Western Street, Stillwater, Oklahoma<br />
74075, United States. Received 01/06/2006.<br />
PI 641939. Hordeum vulgare L. subsp. vulgare<br />
Cultivar. Pureline. "SIDNEY". Pedigree - Otis*4/STARS 9301B. Released<br />
2006. 2-rowed, spring, mid-season maturing, drought resistant feed<br />
barley with high tolerance to Russian wheat aphid (RWA), Diruaphis<br />
noxia. On Webster's scale of 1-9 (1=immune, 9=dead), Sidney rated 2 in<br />
greenhouse seedling screenings. Resistant to all currently known<br />
biotypes of RWA. Field testing has shown this resistance to persist<br />
throughout the life of the plant. Over 7 location years of testing<br />
including a wide range of temperature and moisture extremes, Sidney out<br />
yielded the recurrent parent, Otis, as well as Otis + Gaucho, both in<br />
the presence and absence of RWA. In extremely hot, dry years, only Otis<br />
and Otis derived lines survived to produce seed.<br />
PI 641940. Hordeum vulgare L. subsp. vulgare<br />
Cultivar. Pureline. "STONEHAM". Pedigree - Otis*4/STARS 9577B. Released<br />
2006. 2-rowed, spring, early maturing, drought resistant, feed barley<br />
with high tolerance to Russian wheat aphid (RWA), Diruaphis noxia. On<br />
Webster's scale of 1-9 (1=immune, 9=dead) Stoneham rated 3 in greenhouse<br />
seedling screenings. Resistant to all currently known biotypes of RWA.<br />
Field testing has shown this resistance to persist throughout the life<br />
of the plant. Over 7 location years of testing including a wide range of<br />
temperature and moisture extremes, Stoneham out yielded the recurrent<br />
parent, Otis, as well as otis + Gaucho, both in the presence and absence<br />
of RWA. In extremely hot, dry years, only Otis and Otis derived lines<br />
survived to produce seed.<br />
<strong>The</strong> following were collected by Terry Tolbert, Escalante Bureau of Land<br />
Management, 755 W. Main, Escalante, Utah 84726, United States. Received<br />
08/25/2005.<br />
PI 641941. Solanum jamesii Torr.<br />
Wild. TOL 1; WRF 3627 - 641941 x 605361. Collected 08/18/2005 in Utah,<br />
United States. Latitude 37° 46' 35" N. Longitude 111° 34' 40" W.<br />
Elevation 1731 m. Garfield County. East of Escalante in the Escalante<br />
River Gorge; upriver from the confluence with Pine Creek; South side of<br />
river. Located in sandy soil with an overstory of Quercus gambelii and<br />
under some cover from Artemisia tridentata. About 500 plants. <strong>The</strong><br />
aspect is NW on the toe slope beneath the Navajo sandstone ledges. <strong>The</strong><br />
patch was 20 X 100 feet.<br />
7
PI 641942. Solanum jamesii Torr.<br />
Wild. TOL 2. Collected 08/18/2005 in Utah, United States. Latitude<br />
37° 46' 35" N. Longitude 111° 34' 34" W. Elevation 1731 m.<br />
Garfield County. East of Escalante in the Escalante River Gorge;<br />
upriver from the confluence with Pine Creek; South side of river.<br />
Located in sandy loam among Quercus gambelii, Chenopodium femontii,<br />
Bromus tectorum and Mirabilis oxybaphoides as the major plants. About<br />
150 plants. <strong>The</strong> aspect is <strong>No</strong>rth on fairly steep hillside in the shade<br />
of Gambel oak. <strong>The</strong> patch was 2 X 10 feet and is covered by a couple of<br />
inches of oak leaves.<br />
PI 641943. Solanum jamesii Torr.<br />
Wild. TOL 3. Collected 08/18/2005 in Utah, United States. Latitude<br />
37° 46' 36" N. Longitude 111° 34' 38" W. Elevation 1734 m.<br />
Garfield County. East of Escalante in the Escalante River Gorge;<br />
upriver from the confluence with Pine Creek; South side of river.<br />
Located in sandy loam growing alone, with only some cheat grass on the<br />
outer most individuals. About 75 plants. <strong>The</strong> aspect is <strong>No</strong>rth on a very<br />
steep slope in the shade of Gabel oak. <strong>The</strong> patch was 10 X 10 feet and<br />
is covered with oak leaf duff three or four inches thick.<br />
PI 641944. Solanum jamesii Torr.<br />
Wild. TOL 4. Collected 08/22/2005 in Utah, United States. Latitude<br />
37° 46' 36" N. Longitude 111° 34' 36" W. Elevation 1734 m.<br />
Garfield County. East of Escalante in the Escalante River Gorge;<br />
upriver from the confluence with Pine Creek; South side of river.<br />
Located in sandy and sandy loam soil. <strong>Plant</strong>s concentrated in a couple<br />
of cracks in the cliff wall about three feet wide; others on flat ground<br />
or on the toe slope of the ledges. About 1000 plants. <strong>The</strong> aspect of<br />
this patch is mostly East but curves around to <strong>No</strong>rth facing. Most<br />
plants receive direct sunlight until later in the day. <strong>Plant</strong>s<br />
flowering.<br />
<strong>The</strong> following were donated by Matt Erasmus, ARC, Range and Forage Institute,<br />
Private Bag X05, Lynn East, South Africa. Received 02/23/1996.<br />
PI 641945. Acanthosicyos naudinianus (Sond.) C. Jeffrey<br />
Wild. 020308; Prime <strong>No</strong>. 02F4; Grif 14025. Collected in South Africa.<br />
Naboonspruit.<br />
<strong>The</strong> following were collected by Umesh Srivastava, NBPGR, New Delhi, Delhi,<br />
India; James D. McCreight, USDA, ARS, Agricultural Research Station, 1636<br />
East Alisal Street, Salinas, California 93905, United States; Jack E. Staub,<br />
USDA, ARS, University of Wisconsin, Department of Horticulture, Madison,<br />
Wisconsin 53706, United States. Donated by James D. McCreight, USDA, ARS,<br />
Agricultural Research Station, 1636 East Alisal Street, Salinas, California<br />
93905, United States; Jack E. Staub, USDA, ARS, University of Wisconsin,<br />
Department of Horticulture, Madison, Wisconsin 53706, United States. Received<br />
01/11/1993.<br />
PI 641946. Lagenaria siceraria (Molina) Standl.<br />
USM 115; Grif 5609. Collected 1992 in India.<br />
8
<strong>The</strong> following were collected by James M. Stewart, University of Arkansas,<br />
Department of Crop, Soil, & Environmental Sciences, Fayetteville, Arkansas<br />
72701, United States; L. Jones. Donated by James Wolfe, USDA, SCS, Suite<br />
1321, Federal Building, 100 West Capitol Street, Jackson, Mississippi 39269,<br />
United States. Received 01/18/1991.<br />
PI 641947. Chamaecrista fasciculata (Michx.) Greene<br />
9021656; MS 4828; Grif 7787. Collected 10/01/1980 in Arkansas, United<br />
States. MLRA 134, Woodruff County, Arkansas.<br />
<strong>The</strong> following were donated by Cindy Wildeus, University of Virgin Islands,<br />
Kingshill, St. Croix 008850, Virgin Islands (U.S.). Received 08/22/1989.<br />
PI 641948. Clitoria ternatea L.<br />
VI 21; Grif 5546. Collected 1982 in St. Croix, Virgin Islands (U.S.).<br />
Highway 83, near junction with highway 62, St. Croix, V.I. Roadside.<br />
PI 641949. Teramnus labialis (L. f.) Spreng.<br />
VI 46; Grif 5582. Collected 07/29/1988 in St. Croix, Virgin Islands<br />
(U.S.). Pangola grass (Digitaria decumbens) pasture near junction of<br />
highways 58 and 765, St. Croix, V.I.<br />
<strong>The</strong> following were developed by H. Thomas Stalker, <strong>No</strong>rth Carolina State<br />
University, Department of Crop Science, Box 7629, Raleigh, <strong>No</strong>rth Carolina<br />
27695-7620, United States; Hassan A. Melouk, USDA, ARS, Oklahoma State<br />
University, Department of <strong>Plant</strong> Pathology, Stillwater, Oklahoma 74078, United<br />
States; Thomas G. Isleib, <strong>No</strong>rth Carolina State University, Department of Crop<br />
Science, Box 7629, Raleigh, <strong>No</strong>rth Carolina 27695-7629, United States; P.W.<br />
Rice, <strong>No</strong>rth Carolina State University, Dept. of Crop Science, Box 7629,<br />
Raleigh, <strong>No</strong>rth Carolina 27695-7629, United States; B.B. Shew, <strong>No</strong>rth Carolina<br />
State University, Dept. of <strong>Plant</strong> Pathology, Raleigh, <strong>No</strong>rth Carolina<br />
27695-7629, United States; R.W., Ii Mozingo, <strong>No</strong>rth Carolina State University,<br />
Dept. of Crop Science, Box 7629, Raleigh, <strong>No</strong>rth Carolina 27695-7629, United<br />
States; S.C. Copeland, <strong>No</strong>rth Carolina State University, Dept. of Crop<br />
Science, Box 7629, Raleigh, <strong>No</strong>rth Carolina 27695-7629, United States; J.B.<br />
Graeber, <strong>No</strong>rth Carolina State University, Dept. of Crop Science, box 7629,<br />
Raleigh, <strong>No</strong>rth Carolina 27695-7629, United States; D.L. Smith, <strong>No</strong>rth Carolina<br />
State University, Dept. of <strong>Plant</strong> Pathology, Box 7903, Raleigh, <strong>No</strong>rth Carolina<br />
27695-7903, United States. Received 01/19/2006.<br />
PI 641950. Arachis hypogaea L.<br />
Breeding. Pureline. N96076L. GP-125. Pedigree - F4 derived line selected<br />
from cross X91053 using breeding line N90004 as female and leaf<br />
spot-resistant germplasm line GP NC WS 13 as male. N96076L is a<br />
large-seeded Virginia-type peanut (Arachis hypogaea L. subsp. hypogaea<br />
var. hypogaea) germplasm line with resistance to multiple diseases<br />
including early leaf spot caused by Cercospora arachidicola S. Hori,<br />
Cylindrocladium black rot (CBR) caused by Cylindrocladium parasiticum<br />
Crous, Wingfield & Alfenas [syn. C. crotalariae (Loos) D.K. Bell &<br />
Sobers], Sclerotinia blight caused by Sclerotinia minor Jagger, and<br />
tomato spotted wilt caused by tomato spotted wilt virus (TSWV). N96076L<br />
was released by the N. C. Agric. Research Service (NCARS) in 2005.<br />
N96076L was tested by the NCARS, by the Virginia Agric. Exp. Station<br />
(VAES), and the USDA-ARS Wheat, Peanut and Other Field Crops Research<br />
Unit at Stillwater, OK. N96076L has alternate branching pattern, runner<br />
9
growth habit, medium green foliage, large seeds with dull tan testa<br />
averaging 880 mg seed 1, approximately 70% jumbo pods and 22% fancy<br />
pods.<br />
<strong>The</strong> following were developed by A. Doug Brede, J.R. Simplot Co., 5300 West<br />
Riverbend Avenue, Post Falls, Idaho 83854-9499, United States; Mark J.<br />
Sellmann, J.R. Simplot Co., 5300 West Riverbend Avenue, Post Falls, Idaho<br />
83854-9499, United States. Received 01/23/2006.<br />
PI 641951. Festuca rubra L. subsp. rubra<br />
Cultivar. Population. "AUDUBON". CV-95. Pedigree - Developed from<br />
maternal progenies of 21 lines. <strong>Germplasm</strong> sources are 81% Simplot<br />
experimental lines collected in old cemeteries around the U.S., and 19%<br />
from old Medalist America experimentals. During early stages of<br />
development of 21 lines, open-pollinated selections from spaced-plant<br />
nurseries were used. In later stages of development, isolated synthetic<br />
polycrosses were used. Initial selection criteria for progenies were<br />
similar maturity, parentage, moderate plant height, fine leaf texture, d<br />
arker leaf color, tolerance to stem rust, and increased seed yield. In<br />
production, Audubon demonstrated a mean heading date from 8 to 11 May,<br />
with initial anthesis ~ 10 to 14 d later. Audubon demonstrated a mean<br />
plant height to the inflorescence tip from 55.3 to 59.9 cm; mean panicle<br />
length from tip of panicle to panicle node ranged from 10.0 to 11.2 cm;<br />
flagleaf length ranged from 7.3 to 9.0 cm; flagleaf width was 2.9 to 3.0<br />
mm; lemma length (straight) ranged from 5.5 to 5.8 mm. Audubon appears<br />
most similar to Cindy, however, Audubon has a shorter lemma length.<br />
Audubon has shown good turf quality in the shade in U.S. trials. It has<br />
exhibited good resistance to red thread [caused by Laetisaria fucimormis<br />
(McAlpine)], melting out [caused by Bipolaris sorokiniana (H.<br />
sorokinianum Sacc. in Sorokin) (syn. H. sativum Pammel, C.M. King and<br />
Bakke)] and summer patch [caused by Magnaporthe poae Landschoot and<br />
Jackson]. Audubon exhibits good mowing quality, early spring green up<br />
and dark rich fall color. Audubon is recommended for home lawns, parks,<br />
and golf course roughs and out-of-play areas where strong creeping red<br />
fescue is suitable for turf.<br />
<strong>The</strong> following were developed by David A. Van Sanford, University of Kentucky,<br />
Department of <strong>Plant</strong> & Soil Sciences, 327 <strong>Plant</strong> Science Bldg., Lexington,<br />
Kentucky 40546-0312, United States; Sue Cambron, USDA-ARS, 901 W. State St.,<br />
Purdue University, West Lafayette, Indiana 47907, United States; Harold E.<br />
Bockelman, USDA, ARS, National Small Grains Collection, 1691 S 2700 W,<br />
Aberdeen, Idaho 83210, United States; D.L. Long, USDA, ARS, Cereal Disease<br />
Lab, St. Paul, Minnesota, United States; C.S. Swanson, University of<br />
Kentucky, Kentucky Agric. Exp. Station, Lexington, Kentucky, United States;<br />
L.J. Tomes, University of Kentucky, Dept. of Agronomy, Kentucky Agric. Exp.<br />
Station, Lexington, Kentucky 40546-0091, United States; D.E. Hershman,<br />
Kentucky Agric. Exp. Station, Dept. of <strong>Plant</strong> Pathology, University of<br />
Kentucky, Lexington, Kentucky 40546-0091, United States; Yue Jin, USDA, ARS,<br />
University of Minnesota, Cereal Disease Lab, St. Paul, Minnesota 55108,<br />
United States; C. Gaines, USDA-ARS, Soft Wheat Quality Lab, Wooster, Ohio<br />
44691, United States; J. Connelley, University of Kentucky, Dept. of <strong>Plant</strong><br />
and Soil Sciences, Lexington, Kentucky 40546-0312, United States; B. Kennedy,<br />
University of Kentucky, Dept. of <strong>Plant</strong> and Soil Sciences, Lexington, Kentucky<br />
40546-0312, United States; C.R. Tutt, University of Kentucky, Dept. of <strong>Plant</strong><br />
10
and Soil Sciences, Lexington, Kentucky 40546-0312, United States. Received<br />
01/23/2006.<br />
PI 641952. Triticum aestivum L. subsp. aestivum<br />
Cultivar. Pureline. "ALLEGIANCE"; KY90C-054-6. CV-993. Pedigree -<br />
Pioneer Brand 2548 / SS 555. Released 2002. Soft red winter wheat<br />
developed by the Kentucky Agricultural Experiment Station and released<br />
in 2002 for excellent grain yield potential and its moderate resistance<br />
to Fusarium head blight. Is a white-chaffed, awned soft red winter wheat<br />
with lax, fusiform spikes and intermediate size kernels. Coleoptiles are<br />
white and juvenile plant growth habit is semi-erect. <strong>Plant</strong> color at boot<br />
stage is green. Flag leaf at boot stage is erect and without waxy<br />
bloom. Kernels are oval with rounded cheeks, a shallow crease and a<br />
short brush. Midseason in maturity with heading date approximately 123<br />
d after 1 January under Kentuckys growing conditions. Tall and<br />
winter-hardiness is intermediate. In the seven-location Kentucky state<br />
variety trial from 20002002, Allegiance was the top yielding entry with<br />
grain yield of 5833 kg ha-1,. Test weight was 743 kg m-3. In 2 yr of<br />
testing over 37 locations in 2000 - 2001 Allegiance yielded 5220 kg ha-1<br />
(ranking 7th) and 4985 kg ha-1 (ranking 14th), respectively. In milling<br />
and baking tests of Allegiance, at the USDA Soft Wheat Quality Lab in<br />
Wooster, flour yield was 718 g kg-1 and cookie diameter slightly was<br />
18.5 cm. Gluten strength as indicated by lactic acid retention<br />
capacity, was intermediate 105.2. In 3 yr of Fusarium head blight<br />
testing in irrigated, inoculated nurseries in KY from 2002-2004, was<br />
rated as having low to moderately low disease severity and index. Has<br />
shown a reaction ranging from moderate resistance to susceptibility to<br />
powdery mildew, (caused by Erysiphe graminis f.sp. tritici). Reaction<br />
to leaf rust (caused by Puccinia recondita) similarly had varied from<br />
resistant to susceptible. Possesses LR 10 plus additional unknown leaf<br />
rust resistance genes. Has demonstrated moderate susceptibility to leaf<br />
blotch (caused by Septoria tritici), moderate resistance to stripe rust,<br />
(Puccinia striiformis) moderate resistance to wheat spindle streak<br />
mosaic virus, and resistance to stem rust (caused by Puccinia graminis).<br />
<strong>The</strong> following were developed by Holden's Foundation Seeds, Inc., United<br />
States. Received 12/19/2005.<br />
PI 641953 PVPO. Zea mays L. subsp. mays<br />
Cultivar. "LH326". PVP 200600016.<br />
PI 641954 PVPO. Zea mays L. subsp. mays<br />
Cultivar. "LH334". PVP 200600017.<br />
PI 641955 PVPO. Zea mays L. subsp. mays<br />
Cultivar. "LH390". PVP 200600018.<br />
<strong>The</strong> following were developed by Syngenta Seeds, Inc., United States. Received<br />
01/18/2006.<br />
PI 641956 PVPO. Citrullus lanatus (Thunb.) Matsum. & Nakai var. lanatus<br />
Cultivar. "90-4262". PVP 200600019.<br />
PI 641957. Pisum sativum L.<br />
Cultivar. "ATITLAN". PVP 200600050.<br />
11
<strong>The</strong> following were developed by Syngenta Seeds, Inc., Idaho 83711-4188,<br />
United States. Received 01/11/2006.<br />
PI 641958 PVPO. Phaseolus vulgaris L.<br />
Cultivar. "STAYTON". PVP 200600051.<br />
PI 641959 PVPO. Phaseolus vulgaris L.<br />
Cultivar. "RENEGADE". PVP 200600052.<br />
PI 641960 PVPO. Phaseolus vulgaris L.<br />
Cultivar. "HAYDEN". PVP 200600053.<br />
<strong>The</strong> following were developed by D. Gogas, N.AG.RE.F. - Cereal Institute, PO<br />
Box 60411, 57001 <strong>The</strong>rmi-<strong>The</strong>ssaloniki, Greece; S. Stratilakis, N..G.RE.F -<br />
Cereal Institute, P.O. Box 60411, 570 01 <strong>The</strong>rmi, <strong>The</strong>ssaloniki, Greece.<br />
Received 01/31/2006.<br />
PI 641961. Triticum aestivum L. subsp. aestivum<br />
Cultivar. Pureline. "ELISSAVET"; CM66246-C-1M-1Y-2Y-0M. CV-1003.<br />
Pedigree - Developed by single plant selection, applied in F7 lines of<br />
the cross [JCAM-EMU"S" X CHRS'S' (IAS20 X WTEC3) - NAR/KVK'S')] of the<br />
17th Int'l Bread Wheat Screening Nursery of CIMMYT. CIMMYT's pedigree<br />
for this cross: CM66246-C-1M-1Y-2Y-OM. Single plant selection repeated<br />
in F7:8 F7:9 F7:10 head rows. Elissavet derived from F10 head row,<br />
selected summer of 1987 and multiplied in F11 and F12 head rows.<br />
Released 2000. Short mid-season spring bread wheat with height of 100<br />
cm. Needs 176 d to reach maturity. Has white, parallel, symmetric<br />
compact spikes with long white awn and ovate brown and medium hard<br />
seeds. 1000 kernel weight is 33 gm. Resistant to lodging and tolerant to<br />
drought conditions. Proved to be resistant to 3 rusts: Puccinia graminis<br />
f. sp. tritici (stem rust), Puccinia triticina (leaf rust) and Puccinia<br />
striiformis (yellow or stripe rust). Gives a mean grain yield of 4680<br />
kgha-1, compared to 4400 kgha-1 and 4580 kgha-1 for the 2 national<br />
checks Vergina and Yecora-S; has a grain volume weight equal to 793<br />
gmL-1, compared to 769 gmL-1 for best national check, Yecora-S. Mean dry<br />
flour protein concentration is 150 gmkg-1 compared to 152 gmkg-1 for the<br />
mean of the 2 national checks Vergina and Yecora-S and mean flour<br />
extraction rate of 69.7% compared to 68.3% for best national check,<br />
Yecora-S. Mean sedimentation value equal to 37.1 compared to 35.3 for<br />
mean of 2 national checks Vergina and Yecora-S and gluten index equal to<br />
99, compared to 96.4 for best national check. Gives a loaf volume equal<br />
to 602 cm3 per 100 gm of dry flour, compared to 567, 582 and 630 cm3 per<br />
100 gm of dry flour for 3 national checks Vergina, Dio and Yecora-S.<br />
<strong>The</strong> following were collected by John Durling, USDA-NRCS, Rose Lake <strong>Plant</strong><br />
Materials Center, 7472 Stoll Road, East Lansing, Michigan 48823, United<br />
States; John Leif, USDA, NRCS, Rose Lake <strong>Plant</strong> Materials Center, 7472 Stoll<br />
Road, East Lansing, Michigan 48823, United States; David W. Burgdorf, USDA,<br />
NRCS, Rose Lake <strong>Plant</strong> Materials Center, 7472 Stoll Road, East Lansing,<br />
Michigan 49036, United States; Bill Veldt, United States. Developed by USDA,<br />
NRCS, Rose Lake <strong>Plant</strong> Materials Center, 7472 Stoll Road, East Lansing,<br />
Michigan 48823-9420, United States; John Durling, USDA-NRCS, Rose Lake <strong>Plant</strong><br />
Materials Center, 7472 Stoll Road, East Lansing, Michigan 48823, United<br />
12
States. Donated by USDA, NRCS, Rose Lake <strong>Plant</strong> Materials Center, 7472 Stoll<br />
Road, East Lansing, Michigan 48823-9420, United States. Received 03/29/2005.<br />
PI 641962. Elymus canadensis L.<br />
Cultivar. "Icy Blue"; 9084347; W6 27722. GP-95. Collected 10/1999 in<br />
Indiana, United States. Along an abandoned railroad grade in La Porte<br />
county, Indiana. R4 W, T 36 N, Section 8 which is in MLRA 98. Icy Blue<br />
is a native perennial bunchgrass that grows to four feet tall with erect<br />
or arching culms and flat, wide pointed leaves that from the base of the<br />
stem to the spike. Icy Blue has a whitish, waxy bloom, giving it a<br />
distinctive "icy blue" color on the leaf surface and the stems.<br />
<strong>The</strong> following were developed by USDA, SCS, Upper Colorado Env. Pl. Ctr.,<br />
Meeker, Colorado, United States. Donated by Gary <strong>No</strong>ller, USDA-NRCS, Upper<br />
Colorado Environmental <strong>Plant</strong> Center, 5538 RBC #4, Meeker, Colorado 81641,<br />
United States. Received 12/2005.<br />
PI 641963. Elymus elymoides (Raf.) Swezey<br />
Cultivar. "Wapiti"; 9040189; W6 27723.<br />
PI 641964. Elymus elymoides (Raf.) Swezey<br />
Cultivar. "Pueblo"; 9040187; W6 27724.<br />
<strong>The</strong> following were developed by Frederic L. Kolb, University of Illinois,<br />
Department of Crop Sciences, 1102 S. Goodwin Avenue, Urbana, Illinois 61801,<br />
United States; Charles M. Brown, University of Illinois, Department of<br />
Agronomy, 1102 South Goodwin Avenue, Urbana, Illinois 61801, United States;<br />
Leslie L. Domier, USDA-ARS, Department of Crop Sciences, University of<br />
Illinois, Urbana, Illinois 61801, United States; N.J. Smith, University of<br />
Illinois, Dept. of Crop Sciences, 1102 S. Goodwin Avenue, Urbana, Illinois<br />
61801, United States. Received 01/31/2006.<br />
PI 641965. Avena sativa L.<br />
Breeding. Pureline. IL2815. GP-87. Pedigree - IL86-5698/IL86-1156 //<br />
Ogle/IL86-6404. Released 2003. <strong>The</strong> seven spring oat (Avena sativa L.)<br />
germplasm lines (IL2815, IL2838, IL2858, Il2901, IL3303, IL3555, IL3587)<br />
have a very high level of tolerance to barley yellow dwarf virus (BYDV).<br />
A population from a four-way cross was used to develop the BYDV tolerant<br />
oat germplasm lines. <strong>The</strong> four-way cross involved four BYDV tolerant<br />
parents: IL86-1156, IL86-5698, IL86-6404 and Ogle. Two of the parents<br />
(IL86-5698 and IL86-6404) were previously released as BYDV tolerant<br />
germplasm lines, and Ogle is a well-known spring oat cultivar with good<br />
BYDV tolerance. <strong>The</strong> seven lines were selected based on excellent<br />
tolerance to BYDV. In addition to BYDV tolerance, lines were selected<br />
based on high grain yield in infected and uninfected conditions, high<br />
test weight, good kernel morphology and absence of awns. <strong>The</strong> lines<br />
differ somewhat in height, maturity, other agronomic traits, and virus<br />
titer detected with ELISA.<br />
PI 641966. Avena sativa L.<br />
Breeding. Pureline. IL2838. GP-88. Pedigree - IL86-5698/IL86-1156 //<br />
Ogle/IL86-6404. Released 2003. <strong>The</strong> seven spring oat (Avena sativa L.)<br />
germplasm lines (IL2815, IL2838, IL2858, Il2901, IL3303, IL3555, IL3587)<br />
have a very high level of tolerance to barley yellow dwarf virus (BYDV).<br />
A population from a four-way cross was used to develop the BYDV tolerant<br />
13
oat germplasm lines. <strong>The</strong> four-way cross involved four BYDV tolerant<br />
parents: IL86-1156, IL86-5698, IL86-6404 and Ogle. Two of the parents<br />
(IL86-5698 and IL86-6404) were previously released as BYDV tolerant<br />
germplasm lines, and Ogle is a well-known spring oat cultivar with good<br />
BYDV tolerance. <strong>The</strong> seven lines were selected based on excellent<br />
tolerance to BYDV. In addition to BYDV tolerance, lines were selected<br />
based on high grain yield in infected and uninfected conditions, high<br />
test weight, good kernel morphology and absence of awns. <strong>The</strong> lines<br />
differ somewhat in height, maturity, other agronomic traits, and virus<br />
titer detected with ELISA.<br />
PI 641967. Avena sativa L.<br />
Breeding. Pureline. IL2858. GP-89. Pedigree - IL86-5698/IL86-1156 //<br />
Ogle/IL86-6404. Released 2003. <strong>The</strong> seven spring oat (Avena sativa L.)<br />
germplasm lines (IL2815, IL2838, IL2858, Il2901, IL3303, IL3555, IL3587)<br />
have a very high level of tolerance to barley yellow dwarf virus (BYDV).<br />
A population from a four-way cross was used to develop the BYDV tolerant<br />
oat germplasm lines. <strong>The</strong> four-way cross involved four BYDV tolerant<br />
parents: IL86-1156, IL86-5698, IL86-6404 and Ogle. Two of the parents<br />
(IL86-5698 and IL86-6404) were previously released as BYDV tolerant<br />
germplasm lines, and Ogle is a well-known spring oat cultivar with good<br />
BYDV tolerance. <strong>The</strong> seven lines were selected based on excellent<br />
tolerance to BYDV. In addition to BYDV tolerance, lines were selected<br />
based on high grain yield in infected and uninfected conditions, high<br />
test weight, good kernel morphology and absence of awns. <strong>The</strong> lines<br />
differ somewhat in height, maturity, other agronomic traits, and virus<br />
titer detected with ELISA.<br />
PI 641968. Avena sativa L.<br />
Breeding. Pureline. IL2901. GP-90. Pedigree - IL86-5698/IL86-1156 //<br />
Ogle/IL86-6404. Released 2003. <strong>The</strong> seven spring oat (Avena sativa L.)<br />
germplasm lines (IL2815, IL2838, IL2858, Il2901, IL3303, IL3555, IL3587)<br />
have a very high level of tolerance to barley yellow dwarf virus (BYDV).<br />
A population from a four-way cross was used to develop the BYDV tolerant<br />
oat germplasm lines. <strong>The</strong> four-way cross involved four BYDV tolerant<br />
parents: IL86-1156, IL86-5698, IL86-6404 and Ogle. Two of the parents<br />
(IL86-5698 and IL86-6404) were previously released as BYDV tolerant<br />
germplasm lines, and Ogle is a well-known spring oat cultivar with good<br />
BYDV tolerance. <strong>The</strong> seven lines were selected based on excellent<br />
tolerance to BYDV. In addition to BYDV tolerance, lines were selected<br />
based on high grain yield in infected and uninfected conditions, high<br />
test weight, good kernel morphology and absence of awns. <strong>The</strong> lines<br />
differ somewhat in height, maturity, other agronomic traits, and virus<br />
titer detected with ELISA.<br />
PI 641969. Avena sativa L.<br />
Breeding. Pureline. IL3303. GP-91. Pedigree - IL86-5698/IL86-1156 //<br />
Ogle/IL86-6404. Released 2003. <strong>The</strong> seven spring oat (Avena sativa L.)<br />
germplasm lines (IL2815, IL2838, IL2858, Il2901, IL3303, IL3555, IL3587)<br />
have a very high level of tolerance to barley yellow dwarf virus (BYDV).<br />
A population from a four-way cross was used to develop the BYDV tolerant<br />
oat germplasm lines. <strong>The</strong> four-way cross involved four BYDV tolerant<br />
parents: IL86-1156, IL86-5698, IL86-6404 and Ogle. Two of the parents<br />
(IL86-5698 and IL86-6404) were previously released as BYDV tolerant<br />
germplasm lines, and Ogle is a well-known spring oat cultivar with good<br />
BYDV tolerance. <strong>The</strong> seven lines were selected based on excellent<br />
tolerance to BYDV. In addition to BYDV tolerance, lines were selected<br />
14
ased on high grain yield in infected and uninfected conditions, high<br />
test weight, good kernel morphology and absence of awns. <strong>The</strong> lines<br />
differ somewhat in height, maturity, other agronomic traits, and virus<br />
titer detected with ELISA.<br />
PI 641970. Avena sativa L.<br />
Breeding. Pureline. IL3555. GP-92. Pedigree - IL86-5698/IL86-1156 //<br />
Ogle/IL86-6404. Released 2003. <strong>The</strong> seven spring oat (Avena sativa L.)<br />
germplasm lines (IL2815, IL2838, IL2858, Il2901, IL3303, IL3555, IL3587)<br />
have a very high level of tolerance to barley yellow dwarf virus (BYDV).<br />
A population from a four-way cross was used to develop the BYDV tolerant<br />
oat germplasm lines. <strong>The</strong> four-way cross involved four BYDV tolerant<br />
parents: IL86-1156, IL86-5698, IL86-6404 and Ogle. Two of the parents<br />
(IL86-5698 and IL86-6404) were previously released as BYDV tolerant<br />
germplasm lines, and Ogle is a well-known spring oat cultivar with good<br />
BYDV tolerance. <strong>The</strong> seven lines were selected based on excellent<br />
tolerance to BYDV. In addition to BYDV tolerance, lines were selected<br />
based on high grain yield in infected and uninfected conditions, high<br />
test weight, good kernel morphology and absence of awns. <strong>The</strong> lines<br />
differ somewhat in height, maturity, other agronomic traits, and virus<br />
titer detected with ELISA.<br />
PI 641971. Avena sativa L.<br />
Breeding. Pureline. IL3587. GP-93. Pedigree - IL86-5698/IL86-1156 //<br />
Ogle/IL86-6404. Released 2003. <strong>The</strong> seven spring oat (Avena sativa L.)<br />
germplasm lines (IL2815, IL2838, IL2858, Il2901, IL3303, IL3555, IL3587)<br />
have a very high level of tolerance to barley yellow dwarf virus (BYDV).<br />
A population from a four-way cross was used to develop the BYDV tolerant<br />
oat germplasm lines. <strong>The</strong> four-way cross involved four BYDV tolerant<br />
parents: IL86-1156, IL86-5698, IL86-6404 and Ogle. Two of the parents<br />
(IL86-5698 and IL86-6404) were previously released as BYDV tolerant<br />
germplasm lines, and Ogle is a well-known spring oat cultivar with good<br />
BYDV tolerance. <strong>The</strong> seven lines were selected based on excellent<br />
tolerance to BYDV. In addition to BYDV tolerance, lines were selected<br />
based on high grain yield in infected and uninfected conditions, high<br />
test weight, good kernel morphology and absence of awns. <strong>The</strong> lines<br />
differ somewhat in height, maturity, other agronomic traits, and virus<br />
titer detected with ELISA.<br />
PI 641972. Avena sativa L.<br />
Breeding. Pureline. IL2246-5. GP-94. Pedigree - Clintland 64*5/IL86-1156<br />
. Released 2003. This is a set of four near-isogenic lines differing in<br />
the level of BYDV tolerance present in the lines. Clintland 64, the<br />
recurrent parent, is BYDV susceptible. This is one of six groups of<br />
near-isogenic lines developed with the Clintland 64 backgound.<br />
IL86-1156 is tolerant to BYDV. <strong>The</strong>se lines will be useful primarily for<br />
research purposes, but will not be useful for cultivar development.<br />
PI 641973. Avena sativa L.<br />
Breeding. Pureline. IL2246-15. GP-95. Pedigree - Clintland<br />
64*5/IL86-1156. Released 2003. This is a set of four near-isogenic lines<br />
differing in the level of BYDV tolerance present in the lines. Clintland<br />
64, the recurrent parent, is BYDV susceptible. This is one of six groups<br />
of near-isogenic lines developed with the Clintland 64 backgound.<br />
IL86-1156 is tolerant to BYDV. <strong>The</strong>se lines will be useful primarily for<br />
research purposes, but will not be useful for cultivar development.<br />
15
PI 641974. Avena sativa L.<br />
Breeding. Pureline. IL2246-16. GP-96. Pedigree - Clintland<br />
64*5/IL86-1156. Released 2003. This is a set of four near-isogenic lines<br />
differing in the level of BYDV tolerance present in the lines. Clintland<br />
64, the recurrent parent, is BYDV susceptible. This is one of six groups<br />
of near-isogenic lines developed with the Clintland 64 backgound.<br />
IL86-1156 is tolerant to BYDV. <strong>The</strong>se lines will be useful primarily for<br />
research purposes, but will not be useful for cultivar development.<br />
PI 641975. Avena sativa L.<br />
Breeding. Pureline. IL2246-20. GP-97. Pedigree - Clintland<br />
64*5/IL86-1156. Released 2003. This is a set of four near-isogenic lines<br />
differing in the level of BYDV tolerance present in the lines. Clintland<br />
64, the recurrent parent, is BYDV susceptible. This is one of six groups<br />
of near-isogenic lines developed with the Clintland 64 backgound.<br />
IL86-1156 is tolerant to BYDV. <strong>The</strong>se lines will be useful primarily for<br />
research purposes, but will not be useful for cultivar development.<br />
PI 641976. Avena sativa L.<br />
Breeding. Pureline. IL2250-3. GP-98. Pedigree - Clintland 64*5/IL86-5698<br />
. Released 2003. This is a set of four near-isogenic lines differing in<br />
the level of BYDV tolerance present in the lines. Clintland 64, the<br />
recurrent parent, is BYDV susceptible. This is one of six groups of<br />
near-isogenic lines developed with the Clintland 64 backgound.<br />
IL86-5698 is very tolerant to BYDV. <strong>The</strong>se lines will be useful primarily<br />
for research purposes, but will not be useful for cultivar development.<br />
PI 641977. Avena sativa L.<br />
Breeding. Pureline. IL2250-14. GP-99. Pedigree - Clintland<br />
64*5/IL86-5698. Released 2003. This is a set of four near-isogenic lines<br />
differing in the level of BYDV tolerance present in the lines. Clintland<br />
64, the recurrent parent, is BYDV susceptible. This is one of six groups<br />
of near-isogenic lines developed with the Clintland 64 backgound.<br />
IL86-5698 is very tolerant to BYDV. <strong>The</strong>se lines will be useful primarily<br />
for research purposes, but will not be useful for cultivar development.<br />
PI 641978. Avena sativa L.<br />
Breeding. Pureline. IL2250-15. GP-100. Pedigree - Clintland<br />
64*5/IL86-5698. Released 2003. This is a set of four near-isogenic lines<br />
differing in the level of BYDV tolerance present in the lines. Clintland<br />
64, the recurrent parent, is BYDV susceptible. This is one of six groups<br />
of near-isogenic lines developed with the Clintland 64 backgound.<br />
IL86-5698 is very tolerant to BYDV. <strong>The</strong>se lines will be useful primarily<br />
for research purposes, but will not be useful for cultivar development.<br />
PI 641979. Avena sativa L.<br />
Breeding. Pureline. IL2250-18. GP-101. Pedigree - Clintland<br />
64*5/IL86-5698. Released 2003. This is a set of four near-isogenic lines<br />
differing in the level of BYDV tolerance present in the lines. Clintland<br />
64, the recurrent parent, is BYDV susceptible. This is one of six groups<br />
of near-isogenic lines developed with the Clintland 64 backgound.<br />
IL86-5698 is very tolerant to BYDV. <strong>The</strong>se lines will be useful primarily<br />
for research purposes, but will not be useful for cultivar development.<br />
PI 641980. Avena sativa L.<br />
Breeding. Pureline. IL2256-2. GP-102. Pedigree - Clintland<br />
64*5/IL86-5698. Released 2003. This is a set of six near-isogenic lines<br />
16
differing in the level of BYDV tolerance present in the lines. Clintland<br />
64, the recurrent parent, is BYDV susceptible. This is one of six groups<br />
of near-isogenic lines developed with the Clintland 64 backgound.<br />
IL86-5698 is very tolerant to BYDV. <strong>The</strong>se lines will be useful primarily<br />
for research purposes, but will not be useful for cultivar development.<br />
PI 641981. Avena sativa L.<br />
Breeding. Pureline. IL2256-8. GP-103. Pedigree - Clintland<br />
64*5/IL86-5698. Released 2003. This is a set of six near-isogenic lines<br />
differing in the level of BYDV tolerance present in the lines. Clintland<br />
64, the recurrent parent, is BYDV susceptible. This is one of six groups<br />
of near-isogenic lines developed with the Clintland 64 backgound.<br />
IL86-5698 is very tolerant to BYDV. <strong>The</strong>se lines will be useful primarily<br />
for research purposes, but will not be useful for cultivar development.<br />
PI 641982. Avena sativa L.<br />
Breeding. Pureline. IL2256-12. GP-104. Pedigree - Clintland<br />
64*5/IL86-5698. Released 2003. This is a set of six near-isogenic lines<br />
differing in the level of BYDV tolerance present in the lines. Clintland<br />
64, the recurrent parent, is BYDV susceptible. This is one of six groups<br />
of near-isogenic lines developed with the Clintland 64 backgound.<br />
IL86-5698 is very tolerant to BYDV. <strong>The</strong>se lines will be useful primarily<br />
for research purposes, but will not be useful for cultivar development.<br />
PI 641983. Avena sativa L.<br />
Breeding. Pureline. IL2256-17. GP-105. Pedigree - Clintland<br />
64*5/IL86-5698. Released 2003. This is a set of six near-isogenic lines<br />
differing in the level of BYDV tolerance present in the lines. Clintland<br />
64, the recurrent parent, is BYDV susceptible. This is one of six groups<br />
of near-isogenic lines developed with the Clintland 64 backgound.<br />
IL86-5698 is very tolerant to BYDV. <strong>The</strong>se lines will be useful primarily<br />
for research purposes, but will not be useful for cultivar development.<br />
PI 641984. Avena sativa L.<br />
Breeding. Pureline. IL2256-20. GP-106. Pedigree - Clintland<br />
64*5/IL86-5698. Released 2003. This is a set of six near-isogenic lines<br />
differing in the level of BYDV tolerance present in the lines. Clintland<br />
64, the recurrent parent, is BYDV susceptible. This is one of six groups<br />
of near-isogenic lines developed with the Clintland 64 backgound.<br />
IL86-5698 is very tolerant to BYDV. <strong>The</strong>se lines will be useful primarily<br />
for research purposes, but will not be useful for cultivar development.<br />
PI 641985. Avena sativa L.<br />
Breeding. Pureline. IL2256-22. GP-107. Pedigree - Clintland<br />
64*5/IL86-5698. Released 2003. This is a set of six near-isogenic lines<br />
differing in the level of BYDV tolerance present in the lines. Clintland<br />
64, the recurrent parent, is BYDV susceptible. This is one of six groups<br />
of near-isogenic lines developed with the Clintland 64 backgound.<br />
IL86-5698 is very tolerant to BYDV. <strong>The</strong>se lines will be useful primarily<br />
for research purposes, but will not be useful for cultivar development.<br />
PI 641986. Avena sativa L.<br />
Breeding. Pureline. IL2273-5. GP-108. Pedigree - Clintland 64*5/Ogle.<br />
Released 2003. This is a set of six near-isogenic lines differing in the<br />
level of BYDV tolerance present in the lines. Clintland 64, the<br />
recurrent parent, is BYDV susceptible. This is one of six groups of<br />
near-isogenic lines developed with the Clintland 64 backgound. Ogle is<br />
17
tolerant to BYDV. <strong>The</strong>se lines will be useful primarily for research<br />
purposes, but will not be useful for cultivar development.<br />
PI 641987. Avena sativa L.<br />
Breeding. Pureline. IL2273-6. GP-109. Pedigree - Clintland 64*5/Ogle.<br />
Released 2003. This is a set of six near-isogenic lines differing in the<br />
level of BYDV tolerance present in the lines. Clintland 64, the<br />
recurrent parent, is BYDV susceptible. This is one of six groups of<br />
near-isogenic lines developed with the Clintland 64 backgound. Ogle is<br />
tolerant to BYDV. <strong>The</strong>se lines will be useful primarily for research<br />
purposes, but will not be useful for cultivar development.<br />
PI 641988. Avena sativa L.<br />
Breeding. Pureline. IL2273-23. GP-110. Pedigree - Clintland 64*5/Ogle.<br />
Released 2003. This is a set of six near-isogenic lines differing in the<br />
level of BYDV tolerance present in the lines. Clintland 64, the<br />
recurrent parent, is BYDV susceptible. This is one of six groups of<br />
near-isogenic lines developed with the Clintland 64 backgound. Ogle is<br />
tolerant to BYDV. <strong>The</strong>se lines will be useful primarily for research<br />
purposes, but will not be useful for cultivar development.<br />
PI 641989. Avena sativa L.<br />
Breeding. Pureline. IL2273-26. GP-111. Pedigree - Clintland 64*5/Ogle.<br />
Released 2003. This is a set of six near-isogenic lines differing in the<br />
level of BYDV tolerance present in the lines. Clintland 64, the<br />
recurrent parent, is BYDV susceptible. This is one of six groups of<br />
near-isogenic lines developed with the Clintland 64 backgound. Ogle is<br />
tolerant to BYDV. <strong>The</strong>se lines will be useful primarily for research<br />
purposes, but will not be useful for cultivar development.<br />
PI 641990. Avena sativa L.<br />
Breeding. Pureline. IL2273-27. GP-112. Pedigree - Clintland 64*5/Ogle.<br />
Released 2003. This is a set of six near-isogenic lines differing in the<br />
level of BYDV tolerance present in the lines. Clintland 64, the<br />
recurrent parent, is BYDV susceptible. This is one of six groups of<br />
near-isogenic lines developed with the Clintland 64 backgound. Ogle is<br />
tolerant to BYDV. <strong>The</strong>se lines will be useful primarily for research<br />
purposes, but will not be useful for cultivar development.<br />
PI 641991. Avena sativa L.<br />
Breeding. Pureline. IL2273-29. GP-113. Pedigree - Clintland 64*5/Ogle.<br />
Released 2003. This is a set of six near-isogenic lines differing in the<br />
level of BYDV tolerance present in the lines. Clintland 64, the<br />
recurrent parent, is BYDV susceptible. This is one of six groups of<br />
near-isogenic lines developed with the Clintland 64 backgound. Ogle is<br />
tolerant to BYDV. <strong>The</strong>se lines will be useful primarily for research<br />
purposes, but will not be useful for cultivar development.<br />
PI 641992. Avena sativa L.<br />
Breeding. Pureline. IL2277-1. GP-114. Pedigree - Clintland 64*5/Ogle.<br />
Released 2003. This is a set of four near-isogenic lines differing in<br />
the level of BYDV tolerance present in the lines. Clintland 64, the<br />
recurrent parent, is BYDV susceptible. This is one of six groups of<br />
near-isogenic lines developed with the Clintland 64 backgound. Ogle is<br />
tolerant to BYDV. <strong>The</strong>se lines will be useful primarily for research<br />
purposes, but will not be useful for cultivar development.<br />
18
PI 641993. Avena sativa L.<br />
Breeding. Pureline. IL2277-2. GP-115. Pedigree - Clintland 64*5/Ogle.<br />
Released 2003. This is a set of four near-isogenic lines differing in<br />
the level of BYDV tolerance present in the lines. Clintland 64, the<br />
recurrent parent, is BYDV susceptible. This is one of six groups of<br />
near-isogenic lines developed with the Clintland 64 backgound. Ogle is<br />
tolerant to BYDV. <strong>The</strong>se lines will be useful primarily for research<br />
purposes, but will not be useful for cultivar development.<br />
PI 641994. Avena sativa L.<br />
Breeding. Pureline. IL2277-3. GP-116. Pedigree - Clintland 64*5/Ogle.<br />
Released 2003. This is a set of four near-isogenic lines differing in<br />
the level of BYDV tolerance present in the lines. Clintland 64, the<br />
recurrent parent, is BYDV susceptible. This is one of six groups of<br />
near-isogenic lines developed with the Clintland 64 backgound. Ogle is<br />
tolerant to BYDV. <strong>The</strong>se lines will be useful primarily for research<br />
purposes, but will not be useful for cultivar development.<br />
PI 641995. Avena sativa L.<br />
Breeding. Pureline. IL2277-16. GP-117. Pedigree - Clintland 64*5/Ogle.<br />
Released 2003. This is a set of four near-isogenic lines differing in<br />
the level of BYDV tolerance present in the lines. Clintland 64, the<br />
recurrent parent, is BYDV susceptible. This is one of six groups of<br />
near-isogenic lines developed with the Clintland 64 backgound. Ogle is<br />
tolerant to BYDV. <strong>The</strong>se lines will be useful primarily for research<br />
purposes, but will not be useful for cultivar development.<br />
PI 641996. Avena sativa L.<br />
Breeding. Pureline. IL2294-1. GP-118. Pedigree - Clintland<br />
64*5/IL86-6404. Released 2003. This is a set of four near-isogenic lines<br />
differing in the level of BYDV tolerance present in the lines. Clintland<br />
64, the recurrent parent, is BYDV susceptible. This is one of six groups<br />
of near-isogenic lines developed with the Clintland 64 backgound.<br />
IL86-6404 is very tolerant to BYDV. <strong>The</strong>se lines will be useful primarily<br />
for research purposes, but will not be useful for cultivar development.<br />
PI 641997. Avena sativa L.<br />
Breeding. Pureline. IL2294-2. GP-119. Pedigree - Clintland<br />
64*5/IL86-6404. Released 2003. This is a set of four near-isogenic lines<br />
differing in the level of BYDV tolerance present in the lines. Clintland<br />
64, the recurrent parent, is BYDV susceptible. This is one of six groups<br />
of near-isogenic lines developed with the Clintland 64 backgound.<br />
IL86-6404 is very tolerant to BYDV. <strong>The</strong>se lines will be useful primarily<br />
for research purposes, but will not be useful for cultivar development.<br />
PI 641998. Avena sativa L.<br />
Breeding. Pureline. IL2294-3. GP-120. Pedigree - Clintland<br />
64*5/IL86-6404. Released 2003. This is a set of four near-isogenic lines<br />
differing in the level of BYDV tolerance present in the lines. Clintland<br />
64, the recurrent parent, is BYDV susceptible. This is one of six groups<br />
of near-isogenic lines developed with the Clintland 64 backgound.<br />
IL86-6404 is very tolerant to BYDV. <strong>The</strong>se lines will be useful primarily<br />
for research purposes, but will not be useful for cultivar development.<br />
PI 641999. Avena sativa L.<br />
Breeding. Pureline. IL2294-8. GP-121. Pedigree - Clintland<br />
64*5/IL86-6404. Released 2003. This is a set of four near-isogenic lines<br />
19
differing in the level of BYDV tolerance present in the lines. Clintland<br />
64, the recurrent parent, is BYDV susceptible. This is one of six groups<br />
of near-isogenic lines developed with the Clintland 64 backgound.<br />
IL86-6404 is very tolerant to BYDV. <strong>The</strong>se lines will be useful primarily<br />
for research purposes, but will not be useful for cultivar development.<br />
<strong>The</strong> following were donated by Texas A&M University, Texas Agricultural Exp.<br />
Station, College Station, Texas 77841, United States. Received 1961.<br />
PI 642000. Ricinus communis L.<br />
Cultivar. "HALE"; REG NO 3; RA 348 T 53222-11-7-6-1-1-B-; NSL 4773. CV-3<br />
.<br />
<strong>The</strong> following were developed by Hazera Genetics, Israel. Received 12/07/2005.<br />
PI 642001. Solanum lycopersicum L.<br />
Cultivar. "PNINALY". PVP 200500295.<br />
<strong>The</strong> following were developed by Pure Seed Testing, Inc., United States.<br />
Received 12/07/2005.<br />
PI 642002 PVPO. Festuca rubra L.<br />
Cultivar. "SEABREEZE GT". PVP 200600011.<br />
<strong>The</strong> following were developed by University of Georgia Research Foundation,<br />
Inc., Athens, Georgia, United States; Florida Agricultural Experiment<br />
Station, Florida, United States. Received 12/07/2005.<br />
PI 642003 PVPO. X Triticosecale sp.<br />
Cultivar. "342". PVP 200600020.<br />
<strong>The</strong> following were developed by Paragon Seed, Inc., United States. Received<br />
12/07/2005.<br />
PI 642004 PVPO. Lactuca sativa L.<br />
Cultivar. "NAVAJO". PVP 200600021.<br />
<strong>The</strong> following were developed by <strong>No</strong>rth Dakota State University Research<br />
Foundation, <strong>No</strong>rth Dakota, United States. Received 12/07/2005.<br />
PI 642005 PVPO. Avena sativa L.<br />
Cultivar. "STARK". PVP 200600022. Pedigree - ND900677/Paul.<br />
<strong>The</strong> following were developed by Seminis Vegetable Seeds, Inc., United States.<br />
Received 12/07/2005.<br />
PI 642006 PVPO. Brassica oleracea var. botrytis L.<br />
Cultivar. "CMA511540". PVP 200600024.<br />
20
<strong>The</strong> following were developed by Seed Source, Inc., United States. Received<br />
12/07/2005.<br />
PI 642007 PVPO. Gossypium hirsutum L.<br />
Cultivar. "LINWOOD". PVP 200600025.<br />
<strong>The</strong> following were developed by 3 Star Lettuce, LLC, United States. Received<br />
12/07/2005.<br />
PI 642008. Lactuca sativa L.<br />
Cultivar. "TRIPLE PLAY". PVP 200600026.<br />
<strong>The</strong> following were developed by Rutgers, <strong>The</strong> State University of New Jersey,<br />
New Jersey, United States. Received 12/07/2005.<br />
PI 642009 PVPO. Agrostis stolonifera var. palustris (Huds.) Farw.<br />
Cultivar. "KINGPIN". PVP 200600038.<br />
<strong>The</strong> following were developed by Progeny Advanced Genetics, Inc., Salinas,<br />
California, United States. Received 12/07/2005.<br />
PI 642010 PVPO. Lactuca sativa L.<br />
Cultivar. "TSUNAMI". PVP 200600039.<br />
<strong>The</strong> following were developed by Seminis Vegetable Seeds, Inc., United States.<br />
Received 12/07/2005.<br />
PI 642011 PVPO. Brassica oleracea var. capitata L.<br />
Cultivar. "WPR561779". PVP 200600041.<br />
PI 642012 PVPO. Cucumis melo L.<br />
Cultivar. "WSH 39-1046 AN". PVP 200600042.<br />
<strong>The</strong> following were developed by Minnesota Agricultural Experiment Station,<br />
United States. Received 12/07/2005.<br />
PI 642013 PVPO. Glycine max (L.) Merr.<br />
Cultivar. "SD1092RR". PVP 200600015.<br />
<strong>The</strong> following were developed by Dermot P. Coyne, University of Nebraska,<br />
Department of Horticulture, 386 <strong>Plant</strong> Sciences Hall, Lincoln, Nebraska<br />
68583-0724, United States; James R. Steadman, University of Nebraska,<br />
Department of <strong>Plant</strong> Pathology, 406 <strong>Plant</strong> Science Hall, Lincoln, Nebraska<br />
68583, United States; Jim D. Kelly, Michigan State University, Department of<br />
Crop & Soil Science, 370 <strong>Plant</strong> & Soil Sci. Bldg. MSU, East Lansing, Michigan<br />
48824-1325, United States; J. Rennie Stavely, USDA, ARS, Microbiology and<br />
<strong>Plant</strong> Pathology Lab., Room 252, Building 011A, BARC-West, Beltsville,<br />
Maryland 20705-2350, United States; Marcial Pastor-Corrales, USDA, ARS,<br />
Vegetable Laboratory, Building 010A, Room 240, BARC-West, Beltsville,<br />
Maryland 20705-2350, United States; D. Lindgren, University of Nebraska,<br />
21
Dept. of Agronomy and Horticulture, Lincoln, Nebraska 68583, United States.<br />
Received 02/02/2006.<br />
PI 642014. Phaseolus vulgaris L.<br />
Breeding. Pureline. BMN-RMR-8; BelMiNeb-RMR-8; 5-4051. GP-247. Pedigree<br />
- Derived from crossing an F5 pinto plant with resistance genes Ur-3,<br />
Ur-6, Ur-11 for rust and bc-3 and I for BCMV/BCMNV with pollen from<br />
great northern germplasm line BMN-RMR-3 with Ur-4, Ur-11, bc-3 and I.<br />
High yielding, upright short vine, type II, white seeded, great northern<br />
dry bean germplasm line BelMiNeb (BMN)-Rust and Mosaic Resistant<br />
(RMR)-8. One of first six and only great northern beans in the world to<br />
combine four genes (Ur-3, Ur-4, Ur-6 and Ur-11) for resistance to all<br />
known races of the hyper variable bean rust pathogen, Uromyces<br />
appendiculatus, with two genes (I and bc-3) for resistance to all known<br />
strains of the highly variable bean common mosaic (BCMV) and bean common<br />
mosaic necrosis (BCMNV) potyviruses. Most important source of rust<br />
resistance in BMN-RMR-8 is the Ur-11 gene effective against 89 of 90<br />
races of U. appendiculatus maintained at Beltsville. PI 1818996 and PI<br />
190078 were sources of Ur-11. <strong>The</strong> single race of U. appendiculatus for<br />
which Ur-11 is not effective, is controlled by Ur-3 and Ur-4. <strong>The</strong> Ur-3<br />
rust resistance gene is effective against 44 races maintained at<br />
Beltsville. <strong>The</strong> Ur-3 gene has remained effective against rust pathogen<br />
races in the U.S. since its introduction into dry bean cultivars. <strong>The</strong><br />
Ur-4 gene that controls race 108 is effective against 29 races of U.<br />
appendiculatus maintained at Beltsville. This line contains the<br />
independent Ur-6 gene that is effective against 22 races. Michigan pinto<br />
breeding lines P94207 (released as Kodiak) and P94232 are the sources of<br />
the Ur-3 and Ur-6 genes. <strong>The</strong> source of the Ur-4 gene was the snap bean<br />
Early Gallatin. Pinto line P 94232 and great northern line G 94567 were<br />
the sources of bc-3. Several lines and cultivars in the pedigree of<br />
BMN-RMR-8 were the sources of the I gene. Combination of dominant I and<br />
recessive bc-3 genes with distinctly different mechanisms of resistance<br />
offer complete, and probably durable, resistance to all known strains of<br />
BCMV and BCMNV. BelMiNeb-RMR-8 produced under field conditions erect<br />
plants with moderately early maturity, high yield, good pod-to-ground<br />
clearance, and large, attractive, dull, white, great northern seeds that<br />
averaged 33.9 grams/100 seeds.<br />
PI 642015. Phaseolus vulgaris L.<br />
Breeding. Pureline. BMN-RMR-9; BelMiNeb-RMR-9; 5-4059. GP-248. Pedigree<br />
- Derived from crossing an F5 pinto plant with resistance genes Ur-3,<br />
Ur-6, Ur-11 for rust and bc-3 and I for BCMV/BCMNV with pollen from<br />
great northern germplasm line BMN-RMR-3 with Ur-4, Ur-11, bc-3 and I.<br />
High yielding, upright short vine, type II, white seeded, great northern<br />
dry bean germplasm line BelMiNeb (BMN)-Rust and Mosaic Resistant<br />
(RMR)-9. One of the first six and only great northern beans in world to<br />
combine 4 genes (Ur-3, Ur-4, Ur-6 and Ur-11) for resistance to all known<br />
races of the hyper variable bean rust pathogen, Uromyces appendiculatus,<br />
with two genes (I and bc-3) for resistance to all known strains of<br />
highly variable bean common mosaic (BCMV) and bean common mosaic<br />
necrosis (BCMNV) potyviruses. Most important source of rust resistance<br />
in BMN-RMR-9 is Ur-11 gene effective against 89 of the 90 races of U.<br />
appendiculatus maintained at Beltsville. PI 1818996 and PI 190078 were<br />
sources of Ur-11. <strong>The</strong> single race of U. appendiculatus for which Ur-11<br />
is not effective, is controlled by Ur-3 and Ur-4. Ur-3 rust resistance<br />
gene also effective against 44 races maintained at Beltsville. <strong>The</strong> Ur-3<br />
gene has remained effective against rust pathogen races in U.S. since<br />
22
its introduction into dry bean cultivars. Ur-4 gene that controls race<br />
108 is effective against 29 races of U. appendiculatus maintained at<br />
Beltsville. Contains independent Ur-6 gene effective against 22 races.<br />
Michigan pinto breeding lines P94207 (released as Kodiak) and P94232 are<br />
sources of Ur-3 and Ur-6 genes. Source of Ur-4 gene was snap bean Early<br />
Gallatin. Pinto line P 94232 and great northern line G 94567 were<br />
sources of bc-3. Several lines and cultivars in pedigree of BMN-RMR-9<br />
were sources of the I gene. Combination of dominant I and recessive bc-3<br />
genes with distinctly different mechanisms of resistance offer complete,<br />
and probably durable, resistance to all known strains of BCMV and BCMNV.<br />
BelMiNeb-RMR-9 produced under field conditions erect plants with<br />
moderately early maturity, high yield, good pod-to-ground clearance, and<br />
white, large great northern seeds that averaged 34.3 grams/100 seeds.<br />
PI 642016. Phaseolus vulgaris L.<br />
Breeding. Pureline. BMN-RMR-10; BelMiNeb-RMR-10; 6-1911. GP-249.<br />
Pedigree - Derived from crossing an F5 pinto plant with resistance genes<br />
Ur-3, Ur-6, Ur-11 for rust and bc-3 and I for BCMV/MCMNV with pollen<br />
from great northern germplasm line BMN-RMR-3 with Ur-4, Ur-11, bc-3 and<br />
I. High yielding, upright short vine, type II, white seeded, great<br />
northern dry bean germplasm line BelMiNeb (BMN)-Rust and Mosaic<br />
Resistant (RMR)-10. One of first six and only great northern beans in<br />
world to combine four genes (Ur-3, Ur-4, Ur-6 and Ur-11) for resistance<br />
to all known races of the hyper variable bean rust pathogen, Uromyces<br />
appendiculatus, with two genes (I and bc-3) for resistance to all known<br />
strains of highly variable bean common mosaic (BCMV) and bean common<br />
mosaic necrosis (BCMNV) potyviruses. Most important source of rust<br />
resistance in BMN-RMR-10 is Ur-11 gene effective against 89 of 90 races<br />
of U. appendiculatus maintained at Beltsville. PI 1818996 and PI 190078<br />
were sources of Ur-11. <strong>The</strong> single race of U. appendiculatus for which<br />
Ur-11 is not effective, is controlled by Ur-3 and Ur-4. Ur-3 rust<br />
resistance gene is effective against 44 races maintained at Beltsville.<br />
Ur-3 gene has remained effective against rust pathogen races in U.S.<br />
since its introduction into dry bean cultivars. Ur-4 gene that controls<br />
race 108 is effective against 29 races of U. appendiculatus maintained<br />
at Beltsville. This line contains independent Ur-6 gene effective<br />
against 22 races. Michigan pinto breeding lines P94207 (released as Kod<br />
iak) and P94232 are sources of the Ur-3 and Ur-6 genes. Source of the<br />
Ur-4 gene was snap bean Early Gallatin. Pinto line P 94232 and great<br />
northern line G 94567 were sources of bc-3. Several lines and cultivars<br />
in pedigree of BMN-RMR-10 were sources of the I gene. Combination of<br />
dominant I and recessive bc-3 genes with distinctly different mechanisms<br />
of resistance offer complete, and probably durable, resistance to all<br />
known strains of BCMV and BCMNV. BelMiNeb-RMR-10 produced under field<br />
conditions erect plants with moderately early maturity, high yield, good<br />
pod-to-ground clearance, and white, large great northern seeds that<br />
averaged 33.3 grams/100 seeds.<br />
<strong>The</strong> following were developed by Marcial Pastor-Corrales, USDA, ARS, Vegetable<br />
Laboratory, Building 010A, Room 240, BARC-West, Beltsville, Maryland<br />
20705-2350, United States. Received 02/02/2006.<br />
PI 642017. Phaseolus vulgaris L.<br />
Breeding. Pureline. BMN-RMR-11; BelMiNeb-RMR-11; 6-2267. GP-250.<br />
Pedigree - Derived from crossing an F5 pinto plant with resistance genes<br />
Ur-3, Ur-6, Ur-11 for rust and bc-3 and I for BCMV/BCMNV with pollen<br />
23
from great northern germplasm line BMN-RMR-3 with Ur-4, Ur-11, bc-3 and<br />
I. High yielding, upright short vine, type II, white seeded, great<br />
northern dry bean germplasm line BelMiNeb (BMN)-Rust and Mosaic<br />
Resistant (RMR)-11. One of first six and only great northern beans in<br />
world to combine four genes (Ur-3, Ur-4, Ur-6 and Ur-11) for resistance<br />
to all known races of the hyper variable bean rust pathogen, Uromyces<br />
appendiculatus, with two genes (I and bc-3) for resistance to all known<br />
strains of the highly variable bean common mosaic (BCMV) and bean common<br />
mosaic necrosis (BCMNV) potyviruses. Most important source of rust<br />
resistance in BMN-RMR-11 is Ur-11 gene effective against 89 of 90 races<br />
of U. appendiculatus maintained at Beltsville. PI 1818996 and PI 190078<br />
were sources of Ur-11. Single race of U. appendiculatus for which Ur-11<br />
is not effective, is controlled by Ur-3 and Ur-4. Ur-3 rust resistance<br />
gene also effective against 44 races maintained at Beltsville. Ur-3 gene<br />
has remained effective against rust pathogen races in U.S. since its<br />
introduction into dry bean cultivars. Ur-4 gene that controls race 108<br />
is effective against 29 races of U. appendiculatus maintained at<br />
Beltsville. This line contains the independent Ur-6 gene effective<br />
against 22 races. Michigan pinto breeding lines P94207 (released as<br />
Kodiak) and P94232 are sources of the Ur-3 and Ur-6 genes. Source of the<br />
Ur-4 gene was snap bean Early Gallatin. Pinto line P 94232 and great<br />
northern line G 94567 were sources of bc-3. Several lines and cultivars<br />
in pedigree of BMN-RMR-11 were sources of the I gene. Combination of<br />
dominant I and recessive bc-3 genes with distinctly different mechanisms<br />
of resistance offer complete, and probably durable, resistance to all<br />
known strains of BCMV and BCMNV. BelMiNeb-RMR-11 produced under field co<br />
nditions erect plants with moderately early maturity, high yield, good<br />
pod-to-ground clearance, and white, rather large great northern seeds<br />
that averaged 36.7 grams/100 seeds.<br />
<strong>The</strong> following were developed by Dermot P. Coyne, University of Nebraska,<br />
Department of Horticulture, 386 <strong>Plant</strong> Sciences Hall, Lincoln, Nebraska<br />
68583-0724, United States; James R. Steadman, University of Nebraska,<br />
Department of <strong>Plant</strong> Pathology, 406 <strong>Plant</strong> Science Hall, Lincoln, Nebraska<br />
68583, United States; Jim D. Kelly, Michigan State University, Department of<br />
Crop & Soil Science, 370 <strong>Plant</strong> & Soil Sci. Bldg. MSU, East Lansing, Michigan<br />
48824-1325, United States; J. Rennie Stavely, USDA, ARS, Microbiology and<br />
<strong>Plant</strong> Pathology Lab., Room 252, Building 011A, BARC-West, Beltsville,<br />
Maryland 20705-2350, United States; Marcial Pastor-Corrales, USDA, ARS,<br />
Vegetable Laboratory, Building 010A, Room 240, BARC-West, Beltsville,<br />
Maryland 20705-2350, United States; D. Lindgren, University of Nebraska,<br />
Dept. of Agronomy and Horticulture, Lincoln, Nebraska 68583, United States.<br />
Received 02/02/2006.<br />
PI 642018. Phaseolus vulgaris L.<br />
Breeding. Pureline. BMN-RMR-12; BelMiNeb-RMR-12; 6-1772. GP-251.<br />
Pedigree - Derived from crossing an F5 pinto plant with resistance genes<br />
Ur-3, Ur-6, Ur-11 for rust and bc-3 and I for BCMV/BCMNV with pollen<br />
from great northern germplasm line BMN-RMR-3 with Ur-4, Ur-11, bc-3 and<br />
I. High yielding, upright short vine, type II, white seeded, great<br />
northern dry bean germplasm line BelMiNeb (BMN)-Rust and Mosaic<br />
Resistant (RMR)-12. One of the first six and only great northern beans<br />
in world to combine four genes (Ur-3, Ur-4, Ur-6 and Ur-11) for<br />
resistance to all known races of the hyper variable bean rust pathogen,<br />
Uromyces appendiculatus, with two genes (I and bc-3) for resistance to<br />
all known strains of the highly variable bean common mosaic (BCMV) and<br />
24
ean common mosaic necrosis (BCMNV) potyviruses. Most important source<br />
of rust resistance in BMN-RMR-12 is Ur-11 gene effective against 89 of<br />
90 races of U. appendiculatus maintained at Beltsville. PI 1818996 and<br />
PI 190078 were sources of Ur-11. Single race of U. appendiculatus for<br />
which Ur-11 is not effective, controlled by Ur-3 and Ur-4. Ur-3 rust<br />
resistance gene effective against 44 races maintained at Beltsville.<br />
Ur-3 gene has remained effective against rust pathogen races in U.S.<br />
since its introduction into dry bean cultivars. Ur-4 gene that controls<br />
race 108 is effective against 29 races of U. appendiculatus maintained<br />
at Beltsville. This line contains the independent Ur-6 gene effective<br />
against 22 races. Michigan pinto breeding lines P94207 (released as Ko<br />
diak) and P94232 are sources of the Ur-3 and Ur-6 genes. Source of the<br />
Ur-4 gene was snap bean Early Gallatin. Pinto line P 94232 and great<br />
northern line G 94567 were sources of bc-3. Several lines and cultivars<br />
in the pedigree of BMN-RMR-12 were the sources of the I gene. <strong>The</strong><br />
combination of dominant I and recessive bc-3 genes with distinctly<br />
different mechanisms of resistance offer complete, and probably durable,<br />
resistance to all known strains of BCMV and BCMNV. BelMiNeb-RMR-12<br />
produced under field conditions erect plants with moderately early<br />
maturity, high yield, good pod-to-ground clearance, and white and large<br />
great northern seeds that averaged 35.7 grams/100 seeds.<br />
PI 642019. Phaseolus vulgaris L.<br />
Breeding. Pureline. BMN-RMR-13; BelMiNeb-RMR-13; 6-2298. GP-252.<br />
Pedigree - Derived from crossing an F5 pinto plant with resistance genes<br />
Ur-3, Ur-6, Ur-11 for rust and bc-3 and I for BCMV/BCMNV with pollen<br />
from great northern germplasm line BMN-RMR-3 with Ur-4, Ur-11, bc-3 and<br />
I. High yielding, upright short vine, type II, white seeded, great<br />
northern dry bean germplasm line BelMiNeb (BMN)-Rust and Mosaic<br />
Resistant (RMR)-13 One of first six and only great northern beans in<br />
world to combine four genes (Ur-3, Ur-4, Ur-6 and Ur-11) for resistance<br />
to all known races of hyper variable bean rust pathogen, Uromyces<br />
appendiculatus, with two genes (I and bc-3) for resistance to all known<br />
strains of the highly variable bean common mosaic (BCMV) and bean common<br />
mosaic necrosis (BCMNV) potyviruses. Most important source of rust<br />
resistance in BMN-RMR-13 is Ur-11 gene effective against 89 of 90 races<br />
of U. appendiculatus maintained at Beltsville. PI 1818996 and PI 190078<br />
were sources of Ur-11. Single race of U. appendiculatus for which Ur-11<br />
is not effective, controlled by Ur-3 and Ur-4. Ur-3 rust resistance gene<br />
also effective against 44 races maintained at Beltsville. Ur-3 gene has<br />
remained effective against rust pathogen races in the U.S. since its<br />
introduction into dry bean cultivars. Ur-4 gene that controls race 108<br />
is effective against 29 races of U. appendiculatus maintained at<br />
Beltsville. This line contains independent Ur-6 gene effective against<br />
22 races. Michigan pinto breeding lines P94207 (released as Kodiak) and<br />
P94232 are sources of the Ur-3 and Ur-6 genes. Source of Ur-4 gene was<br />
snap bean Early Gallatin. Pinto line P 94232 and great northern line G<br />
94567 were sources of bc-3. Several lines and cultivars in pedigree of<br />
BMN-RMR-13 were sources of the I gene. Combination of dominant I and<br />
recessive bc-3 genes with distinctly different mechanisms of resistance<br />
offer complete, and probably durable, resistance to all known strains of<br />
BCMV and BCMNV. BelMiNeb-RMR-13 produced under field conditions erect<br />
plants with moderately early maturity, high yield, good pod-to-ground<br />
clearance, and white and large great northern seeds that averaged 36.3<br />
grams/100 seeds.<br />
25
<strong>The</strong> following were developed by Elias M. Elias, <strong>No</strong>rth Dakota State<br />
University, Department of <strong>Plant</strong> Sciences, P.O. Box 5051, Fargo, <strong>No</strong>rth Dakota<br />
58105-5051, United States; F.A. Manthey, <strong>No</strong>rth Dakota State University, Dept.<br />
of Cereal Science, Fargo, <strong>No</strong>rth Dakota 58105, United States. Received<br />
02/08/2006.<br />
PI 642020. Triticum turgidum subsp. durum (Desf.) Husn.<br />
Cultivar. Pureline. "ALKABO"; D96604. PVP 200600105; CV-1008; REST<br />
642020. Pedigree - D901247/D89263. Released 2005. High yielding, large<br />
kernel size, strong gluten, high protein, day length sensitive durum<br />
wheat. <strong>Plant</strong>s are medium in height and maturity. Spikes are middense,<br />
awned, oblong, and erect. Kernels are amber color and large-sized (37.4<br />
mg). Has very strong gluten and 136 g kg-1 semolina protein. Resistant<br />
to stem rust (Puccinia graminis tritici) and leaf rust (Puccinia<br />
triticina).<br />
PI 642021. Triticum turgidum subsp. durum (Desf.) Husn.<br />
Cultivar. Pureline. "DIVIDE"; D9715-11. PVP 200600106; CV-1009; REST<br />
642021. Pedigree - Ben/D901282//Belzer. Released 2005. High yielding,<br />
large kernel size, strong gluten, high protein, and day length sensitive<br />
durum wheat. <strong>Plant</strong>s are medium in height and maturity. Spikes are<br />
middense, awned, oblong, and erect. Kernels are amber color and<br />
large-sized (38.7 mg). Has very strong gluten and 142 g kg-1 semolina<br />
protein. Resistant to stem rust (Puccinia graminis tritici) and leaf<br />
rust (Puccinia tritcina). Has moderate resistance to Fusarium head<br />
blight caused by Fusarium graminearum.<br />
PI 642022. Triticum turgidum subsp. durum (Desf.) Husn.<br />
Cultivar. Pureline. "GRENORA"; D97780. PVP 200600107; CV-1010; REST<br />
642022. Pedigree - D901260/D901419. Released 2005. High yielding, large<br />
kernel size, strong gluten, high protein, and day length sensitive durum<br />
wheat. <strong>Plant</strong>s are medium in height and maturity. Spikes are middense,<br />
awned, oblong, and erect. Kernels are amber color and large-sized (38.4<br />
mg). Has very strong gluten and 137 g kg-1 semolina protein. Resistant<br />
to stem rust (Puccinia graminis tritici) and leaf rust (Puccinia<br />
tritcina).<br />
<strong>The</strong> following were developed by C.A. Rose-Fricker, Pure Seed Testing, Inc.,<br />
3057 G Street, Hubbard, Oregon 97032, United States; Melodee L. Fraser, Pure<br />
Seed Testing, Inc., P.O. Box 176, 606 Main Street, Rolesville, <strong>No</strong>rth Carolina<br />
27571, United States; Joseph K. Wipff, Barenbrug USA, Inc., West Coast<br />
Research Station, 36030 Tennessee Road, Albany, Oregon 97322, United States.<br />
Received 02/13/2006.<br />
PI 642023. Poa pratensis L.<br />
Cultivar. Population. "PROSPERITY"; PST-Y2K-59. PVP 200600068; CV-93.<br />
Pedigree - PST-107-8 X Brilliant. A single apomictic plant hybrid<br />
determined to have moderately high levels of apomixis and good turf<br />
performance. Has flag leaf sheath length 9.6 cm, 1.2 cm longer than<br />
Brilliant. Has panicle length 6.8 cm, 0.8 cm shorter than Brilliant. Has<br />
tiller leaf width 3.6 mm, 0.7 mm longer than Brilliant. Has flag leaf<br />
width 3.3 mm, 0.6 mm wider than Brilliant. Has good resistance to<br />
diseases. <strong>Plant</strong> height 49.5 cm, tiller leaf length 6.2 cm.<br />
26
<strong>The</strong> following were donated by Sweet Auburn Market, 209 Edgewood Avenue,<br />
Atlanta, Georgia, United States. Received 01/2005.<br />
PI 642024. Senna alexandrina Mill.<br />
Uncertain.<br />
<strong>The</strong> following were developed by Harold E. Pattee, USDA, ARS, <strong>No</strong>rth Carolina<br />
State University, Box 7625, Raleigh, <strong>No</strong>rth Carolina 27695-7625, United States;<br />
Thomas G. Isleib, <strong>No</strong>rth Carolina State University, Department of Crop<br />
Science, Box 7629, Raleigh, <strong>No</strong>rth Carolina 27695-7629, United States; R.<br />
Walton Mozingo, Tidewater Agricultural Research, and Extension Center, 6321<br />
Holland Road, Suffolk, Virginia 23437, United States; P.W. Rice, <strong>No</strong>rth<br />
Carolina State University, Dept. of Crop Science, Box 7629, Raleigh, <strong>No</strong>rth<br />
Carolina 27695-7629, United States; Timothy H. Sanders, USDA, ARS, <strong>No</strong>rth<br />
Carolina State University, Box 7631, Raleigh, <strong>No</strong>rth Carolina 27695-7624,<br />
United States; Dennis L. Coker, Virginia Tech, 6321 Holland Road, Suffolk,<br />
Virginia 23437, United States; R.W., Ii Mozingo, <strong>No</strong>rth Carolina State<br />
University, Dept. of Crop Science, Box 7629, Raleigh, <strong>No</strong>rth Carolina<br />
27695-7629, United States; S.C. Copeland, <strong>No</strong>rth Carolina State University,<br />
Dept. of Crop Science, Box 7629, Raleigh, <strong>No</strong>rth Carolina 27695-7629, United<br />
States; J.B. Graeber, <strong>No</strong>rth Carolina State University, Dept. of Crop Science,<br />
box 7629, Raleigh, <strong>No</strong>rth Carolina 27695-7629, United States. Received<br />
02/15/2006.<br />
PI 642025. Arachis hypogaea L. var. hypogaea<br />
Cultivar. Pureline. "PHILLIPS"; N98003. CV-85; PVP 200600070. Pedigree -<br />
F5 derived line selected from a cross between N90014E(female) and<br />
N91024(male). Large-seeded virginia-type peanut cultivar with high yield<br />
of bright fancy pods. Possesses alternate branching pattern,<br />
intermediate runner growth habit, medium green foliage, large seeds with<br />
tan testa averaging 835 mg seed 1, approximately 34% jumbo pods and 45%<br />
fancy pods. In 40 trials in the joint VAES-NCARS Peanut Variety and<br />
Quality Evaluation (PVQE) program over 2000-2004, Phillips had similar<br />
pod yield and fancy pod content compared with NC V 11 but greater<br />
jumbo pod content, jumbo pod brightness, fancy pod brightness, average<br />
pod brightness, extra large kernel (ELK) content, sound mature kernel<br />
content, meat content, and crop value at federal support price.<br />
Although the ratio of oleic to linoleic fatty acid in seed oil of Phil<br />
lips was greater than that of NC V 11, both cultivars have low oleic<br />
acid levels even within the normal range for virginia-type peanuts. In<br />
16 trials conducted by the NCARS breeding program over 1998-2004,<br />
Phillips had greater brightness of fancy pods than NC V 11, greater<br />
average pod brightness, greater ELK content , and greater meat content.<br />
Susceptible to early leafspot caused by Cercospora arachidicola, to<br />
Cylindrocladium black rot (CBR) caused by C. parasiticum, to Sclerotinia<br />
blight caused by S. minor and to tomato spotted wilt caused by tomato<br />
spotted wilt virus (TSWV).<br />
<strong>The</strong> following were developed by Harold E. Pattee, USDA, ARS, <strong>No</strong>rth Carolina<br />
State University, Box 7625, Raleigh, <strong>No</strong>rth Carolina 27695-7625, United States;<br />
Thomas G. Isleib, <strong>No</strong>rth Carolina State University, Department of Crop<br />
Science, Box 7629, Raleigh, <strong>No</strong>rth Carolina 27695-7629, United States; R.<br />
Walton Mozingo, Tidewater Agricultural Research, and Extension Center, 6321<br />
Holland Road, Suffolk, Virginia 23437, United States; P.W. Rice, <strong>No</strong>rth<br />
Carolina State University, Dept. of Crop Science, Box 7629, Raleigh, <strong>No</strong>rth<br />
27
Carolina 27695-7629, United States; W.P. <strong>No</strong>vitzky, USDA, ARS, <strong>No</strong>rth Carolina<br />
State Univ., Dept. of Crop Sci., Raleigh, <strong>No</strong>rth Carolina 27695-7631, United<br />
States; Timothy H. Sanders, USDA, ARS, <strong>No</strong>rth Carolina State University, Box<br />
7631, Raleigh, <strong>No</strong>rth Carolina 27695-7624, United States; R.W., Ii Mozingo,<br />
<strong>No</strong>rth Carolina State University, Dept. of Crop Science, Box 7629, Raleigh,<br />
<strong>No</strong>rth Carolina 27695-7629, United States; S.C. Copeland, <strong>No</strong>rth Carolina State<br />
University, Dept. of Crop Science, Box 7629, Raleigh, <strong>No</strong>rth Carolina<br />
27695-7629, United States; J.B. Graeber, <strong>No</strong>rth Carolina State University,<br />
Dept. of Crop Science, box 7629, Raleigh, <strong>No</strong>rth Carolina 27695-7629, United<br />
States; D.L. Coker, Tidewater Agricultural Research Extension Center, Dept.<br />
of Soil and Environment Sciences, 6321 Holland Rd., Suffolk, Virginia 23437,<br />
United States. Received 02/15/2006.<br />
PI 642026. Arachis hypogaea L. var. hypogaea<br />
Cultivar. Pureline. "BRANTLEY"; N00090ol. PVP 200600071; CV-86; Utility<br />
Patent 5922390; Utility Patent 6063984; Utility Patent 6121472. Pedigree<br />
- Brantley is a BC4F2-derived line developed by backcrossing the<br />
high-oleic trait patented by the University of Florida (US Patent <strong>No</strong>s.<br />
5,922,390, 6,063,984, and 6,121,472) into the NC 7 cultivar. <strong>The</strong><br />
initial cross was made using NC 7 as a female and<br />
F435-2-3-B-2-1-b4-B-B-3-b3-b3-1-B, a spanish-type line that was<br />
identified with the high-oleic trait, as a male. Four backcrosses were<br />
made using high-oleic selections from the previous cycle of crossing as<br />
the female and NC 7 as the male. Large-seeded virginia-type peanut<br />
cultivar with high oleic acid content in its seed oil, essentially<br />
derived from the NC 7 cultivar. Possesses alternate branching<br />
pattern, intermediate runner growth habit, medium green foliage, large<br />
seeds with tan testa averaging 895 mg seed 1, approximately 65% jumbo<br />
pods and 24% fancy pods, and extra large kernel content of approximately<br />
50%. Because it was essentially derived from NC 7 by backcrossing, most<br />
characteristics of Brantley are comparable with those of NC 7. Brantley<br />
is susceptible to early leafspot caused by Cercospora arachidicola, to<br />
Cylindrocladium black rot caused by C. parasiticum, to Sclerotinia<br />
blight caused by S. minor, and to tomato spotted wilt caused by tomato<br />
spotted wilt virus. Has high-oleic oil chemistry. <strong>The</strong> high-oleic trait<br />
produces an array of changes in the fatty acid composition of peanut oil<br />
compared with normal-oleic NC 7, most notably the elevation of oleic<br />
acid content (79.1 vs. 55.9%, P
to lodging. Capri has typical lavender flowers of cranberry beans and<br />
blooms 37 d after planting. Capri is a midseason bean, maturing 95 d<br />
after planting and has a range in maturity from 90 to 98 d, depending on<br />
season and location. Capri carries the dominant I gene for resistance to<br />
Bean Common Mosaic Virus (BCMV), and displays resistance to the<br />
indigenous bean rust races bean prevalent in Michigan. Capri is<br />
susceptible to the common races (7 and 73) of bean anthracnose, Michigan<br />
isolates of root rot, common bacterial blight and white mold. Capri<br />
produces a highly-desirable large-sized cranberry seed that averages 60<br />
g 100 seed-1. <strong>The</strong> seed has significantly lower incidence (15%) of<br />
internal black spot as compared to Cardinal (49%). Capri scored 4.1 on a<br />
seven-point hedonic scale (where 7 is most desirable, 1 is least<br />
desirable, and 4 is average), but it produces a slightly firmer cooked<br />
bean texture.<br />
PI 642028. Phaseolus vulgaris L.<br />
Cultivar. Pureline. "SEDONA"; S00809. CV-263. Pedigree - Developed from<br />
the cross: X94076/R94142. Upright pink bean cultivar. <strong>Plant</strong>s averages 50<br />
cm in height and exhibits the Type II upright indeterminate growth<br />
habit, with gives it moderate resistance to lodging. Has white flowers<br />
and blooms 41-44 d after planting. Is a midseason bean, maturing 93 d<br />
after planting and has a range in maturity from 90 to 95 d, depending on<br />
season and location. Matures uniformly about 2 d earlier than Merlot,<br />
and 5 d earlier than Brooks and Rufus. Possesses the bc-12 gene that<br />
conditions resistance to certain strains of BCMV, and exhibits delayed<br />
mild mosaic symptoms to the temperature-insensitive necrosis-inducing<br />
strains of BCMNV such as NL 3. Displays resistance to the indigenous<br />
bean rust races prevalent in Michigan, but is susceptible to the common<br />
races (7 and 73) of bean anthracnose. Tolerant to Michigan isolates of<br />
root rot but is susceptible to common bacterial blight. Exhibits similar<br />
levels of tolerance or plant avoidance to white mold. Produces a<br />
medium-sized pink seed that averages 37 g 100 seed-1. In canning trials,<br />
Sedona scored 5.4 on a seven-point hedonic scale (where 7 is most<br />
desirable, 1 is least desirable, and 4 is average). After processing,<br />
Sedona retains size and color equivalent to that of small red beans.<br />
Does not differ significantly from the small red bean cultivars in seed<br />
hydration, and drained weight ratios, but it produces a slightly softer<br />
cooked bean texture.<br />
<strong>The</strong> following were developed by Holden's Foundation Seeds, Inc., United<br />
States. Received 12/09/2005.<br />
PI 642029 PVPO. Zea mays L. subsp. mays<br />
Cultivar. "LH299". PVP 200600028.<br />
PI 642030 PVPO. Zea mays L. subsp. mays<br />
Cultivar. "LH307". PVP 200600029.<br />
PI 642031 PVPO. Zea mays L. subsp. mays<br />
Cultivar. "LH333BT1". PVP 200600030.<br />
PI 642032 PVPO. Zea mays L. subsp. mays<br />
Cultivar. "LH341". PVP 200600031.<br />
PI 642033 PVPO. Zea mays L. subsp. mays<br />
Cultivar. "LH342". PVP 200600032.<br />
29
PI 642034 PVPO. Zea mays L. subsp. mays<br />
Cultivar. "LH362". PVP 200600033.<br />
PI 642035 PVPO. Zea mays L. subsp. mays<br />
Cultivar. "LH372". PVP 200600034.<br />
PI 642036 PVPO. Zea mays L. subsp. mays<br />
Cultivar. "LH381". PVP 200600035.<br />
PI 642037 PVPO. Zea mays L. subsp. mays<br />
Cultivar. "LH391". PVP 200600036.<br />
PI 642038 PVPO. Zea mays L. subsp. mays<br />
Cultivar. "LH400". PVP 200600037.<br />
<strong>The</strong> following were donated by Robert L. Jarret, USDA, ARS, <strong>Plant</strong> Genetic<br />
<strong>Resources</strong> Conservation Unit, University of Georgia, Griffin, Georgia<br />
30223-1797, United States. Received 02/13/2006.<br />
PI 642039. Lagenaria siceraria (Molina) Standl.<br />
Uncertain. "APPLE"; Carolina Seeds <strong>No</strong>. 31401.<br />
PI 642040. Lagenaria siceraria (Molina) Standl.<br />
Uncertain. "BUSHEL BASKET"; Carolina Seeds <strong>No</strong>. 31402.<br />
PI 642041. Lagenaria siceraria (Molina) Standl.<br />
Uncertain. "CALABASH"; Carolina Seeds <strong>No</strong>. 31403.<br />
PI 642042. Lagenaria siceraria (Molina) Standl.<br />
Uncertain. "SNAKE"; Carolina Seeds <strong>No</strong>. 31431.<br />
PI 642043. Lagenaria siceraria (Molina) Standl.<br />
Uncertain. "LONG HANDLE DIPPER"; Carolina Seeds <strong>No</strong>. 31410.<br />
PI 642044. Lagenaria siceraria (Molina) Standl.<br />
Uncertain. "MARANKA (CAVEMAN'S CLUB)"; Carolina Seeds <strong>No</strong>. 31429.<br />
PI 642045. Lagenaria siceraria (Molina) Standl.<br />
Uncertain. "SPECKLED SWAN"; Carolina Seeds <strong>No</strong>. 31435.<br />
<strong>The</strong> following were developed by Michael J. Ottman, University of Arizona,<br />
Arizona Agric. Exp. Station, College of Agriculture, Tucson, Arizona 85721,<br />
United States. Received 02/17/2006.<br />
PI 642046. Hordeum vulgare L. subsp. vulgare<br />
Cultivar. Pureline. "SOLAR"; ENTRY 2. Pedigree - An F6 selection made in<br />
1999 from a population released as Composite Cross XXXIX. Spring barley<br />
with erect early growth, mid-tall height, and early maturity. Spikes are<br />
lax and erect with rough awns. Glumes are more than one-half the length<br />
of the lemma and have long hairs confined to a band. Glume awns are<br />
longer than the length of the glumes. Kernels are covered, white, and<br />
mid-long to long with semi-wrinkled hulls. In tests under reduced water<br />
use conditions from 2002 to 2004 at Maricopa, AZ, Solar averaged 3097<br />
30
lbs/acre grain yield, 51.9 lbs/bushel test weight, 15% lodging, 35<br />
inches plant height, March 2 heading date and April 14 maturity date.<br />
<strong>The</strong> following were developed by Gail Dahlquist, USDA, ARS, U.S. Water<br />
Conservation Laboratory, 4331 East Broadway Road, Phoenix, Arizona 85040,<br />
United States; P.M. Tomasi, USDA-ARS, U.S. Water Conservation Lab., 4331 E.<br />
Broadway Rd., Phoenix, Arizona 85040-8832, United States; David Dierig, USDA,<br />
ARS, U.S. Arid Land Agricultural Research Center, 21881 N. Cardon Lane,<br />
Maricopa, Arizona 85239, United States. Received 02/15/2006.<br />
PI 642047. Lesquerella fendleri (A. Gray) S. Watson<br />
Breeding. Population. WCL-LO3. GP-33. Pedigree - WCL-LO3 / WCL-LY2 PI<br />
613131 / WCL-LO1 PI 596363 / PI 311165, PI 293005, PI 293006, PI 293007,<br />
293009, PI 293010, PI 293012, PI 293013, PI 293015, PI 293016. Has 33%<br />
seed oil content and lesquerolic fatty acid (C20:2 OH) content of 58 %.<br />
Seed yields average 40 grams per plant. <strong>Plant</strong> height and plant biomass<br />
at early flowering state (March 15) is 19 cm and 35 grams per square<br />
meter, respectively, and at maturity (May 15) is 32 cm and 137 grams per<br />
square meter, respectively. Harvest index is 28.9. Seed weight for 1000<br />
seeds is 0.72 grams. Population has intermediate plant growth habits.<br />
<strong>Plant</strong>s begin flowering in early February and reach full flowering by<br />
mid-April when planted in October in Arizona. <strong>Plant</strong>s require pollinators<br />
for seed-set. <strong>Plant</strong> characteristics were measured under irrigated<br />
conditions. <strong>Plant</strong> yields did not appear to be reduced due to insect<br />
pests or diseases.<br />
<strong>The</strong> following were developed by Andrew Salywon, U.S. Water Conservation<br />
Laboratory, 4331 E. Broadway, Phoenix, Arizona 85040, United States; David<br />
Dierig, USDA, ARS, U.S. Arid Land Agricultural Research Center, 21881 N.<br />
Cardon Lane, Maricopa, Arizona 85239, United States; D. Jasso de Rodriquez,<br />
Universidad Autonoma Agraria Antonio Narro Buenavista, Saltillo, Coahuila<br />
25315, Mexico. Received 02/15/2006.<br />
PI 642048. Lesquerella fendleri (A. Gray) S. Watson<br />
Genetic. Population. WCL-CF1. GS-13. Pedigree - WCL-CF1 / 4005-1 / 4005<br />
(Parl 181). Has 18% seed oil content and lesquerolic fatty acid (C20:2<br />
OH) content of 53%. Seed yields average 8 grams per plant. <strong>Plant</strong> height<br />
and plant biomass at early flowering stage (March 15) is 16 cm and 14<br />
grams per square meter, respectively, and at maturity (May 15) is 20 cm<br />
and 45 grams per square meter, respectively. Harvest index is 16. Seed<br />
weight for 1000 seeds is 0.72 grams. Population has intermediate plant<br />
growth habits. <strong>Plant</strong>s begin flowering in early February and reach full<br />
flowering by mid-April when planted in October in Arizona. <strong>Plant</strong>s<br />
require pollinators for seed-set. <strong>Plant</strong> characteristics were measured<br />
under irrigated conditions.<br />
<strong>The</strong> following were developed by Bayer Cropscience, United States. Received<br />
12/30/2005.<br />
PI 642049 PVPO. Gossypium hirsutum L.<br />
Cultivar. "FM 958LL". PVP 200500134.<br />
PI 642050 PVPO. Gossypium hirsutum L.<br />
Cultivar. "FM 966LL". PVP 200500135.<br />
31
PI 642051 PVPO. Gossypium hirsutum L.<br />
Cultivar. "FM 981LL". PVP 200500136.<br />
PI 642052 PVPO. Gossypium hirsutum L.<br />
Cultivar. "FM 832LL". PVP 200500137.<br />
<strong>The</strong> following were developed by Pure Seed Testing, Inc., United States.<br />
Received 12/30/2005.<br />
PI 642053 PVPO. Poa pratensis L.<br />
Cultivar. "DENALI". PVP 200600043.<br />
<strong>The</strong> following were developed by <strong>No</strong>vel Ag, Inc., United States. Received<br />
12/30/2005.<br />
PI 642054 PVPO. Agrostis stolonifera var. palustris (Huds.) Farw.<br />
Cultivar. "AUTHORITY". PVP 200600044.<br />
<strong>The</strong> following were developed by Jeff Tyler, Delta and Pine Land Company, P.O.<br />
Box 157, 100 Main Street, Scott, Mississippi 38772, United States; J. Rusty<br />
Smith, USDA-ARS, Crop Genetics and Production Research Unit, P.O. Box 345,<br />
Stoneville, Mississippi 38776, United States; Alemu Mengistu, USDA/ARS, West<br />
Tennessee Experiment Station, 605 Airways Blvd., Jackson, Tennessee 38301,<br />
United States; R.L. Paris, <strong>The</strong> American Chestnut Foundation, 14005 Glenbrook<br />
Avenue, Meadowview, Virginia 24361, United States. Donated by J. Rusty Smith,<br />
USDA-ARS, Crop Genetics and Production Research Unit, P.O. Box 345,<br />
Stoneville, Mississippi 38776, United States. Received 03/07/2006.<br />
PI 642055. Glycine max (L.) Merr.<br />
Breeding. Pureline. DT97-4290; SY 601001. GP-320. Pedigree - DT97-4290<br />
was derived from the cross Asgrow 'A5979' x Delta Pine "DP3478'. A5979<br />
was selected from the cross 'Young' x 'A5474'. Released 02/01/2006.<br />
DT97-4290 has an indeterminate growth habit, purple flowers, tawny<br />
pubescence, and tan pod walls. Seed are shiny yellow with black hila.<br />
DT97-4290 is classified as Maturity Group IV (relative maturity 4.8),<br />
and matures about 2 d earlier than `Manokin?. In three years of USDA<br />
Uniform tests, plant height of DT97-4290 averaged 91 cm compared to 75<br />
cm for that of Manokin. <strong>The</strong> plant lodging score of 2.0 (where 1 all<br />
plants upright and 5 all plants prostrate) and seed quality score of 2.2<br />
(where 1 excellent and 5 poor) of DT97-4290 were similar to those of<br />
Manokin. Seed weight of DT97-4290 averaged 144 mg/seed compared to 122<br />
mg/seed for Manokin. Seed of DT97-4290 averaged 415 g/kg protein (zero<br />
moisture basis) and 197 g/kg oil (zero moisture basis), which is 11 g/kg<br />
more protein and 9 g/kg less oil than that of Manokin. DT97-4290 is<br />
moderately resistant to charcoal rot based on field evaluations from<br />
2002 to 2004 in artificially infested sandy loam soil at Stoneville, MS.<br />
<strong>The</strong> severity of internal discoloration for stem and root was measured on<br />
a scale of 1-5 (where 1 = resistant, >1 to 2 = moderately resistant,<br />
>2 to
and producers in areas experiencing yield losses due to charcoal rot.<br />
DT97-4290 is resistant to southern stem canker (similar to resistant<br />
check cultivar Manokin), soybean mosaic virus, and races 2, 4, and 10 of<br />
phytophthora rot [caused by Phytophthora sojae (M.J. Kaufmann and J.W.<br />
Gerdemann)]. DT97-4290 is also moderately resistant to frogeye leaf spot<br />
[caused by Cersospora sojina Hara].<br />
<strong>The</strong> following were developed by Thomas Gulya, USDA, ARS, <strong>No</strong>rth Dakota State<br />
University, <strong>No</strong>rthern Crop Science Laboratory, Fargo, <strong>No</strong>rth Dakota 58105,<br />
United States; Chao-Chien Jan, USDA, ARS, <strong>No</strong>rth Dakota State University,<br />
<strong>No</strong>rthern Crop Science Laboratory, Fargo, <strong>No</strong>rth Dakota 58105, United States.<br />
Received 02/24/2006.<br />
PI 642056. Helianthus annuus L.<br />
Genetic. SuMV-1; VR-1. GS-33. Pedigree - PI 435424/2*HA 89//PI<br />
435424/2*HA 89, F5. Single-headed, black seed with gray stripes. Floers<br />
in 80 d after planting, has a plant height of 111 cm, head diam. of 14.0<br />
cv, 1000-seed weight of 44 g and self-pollinated seed set of 57%. Will<br />
provide source of resistance should sunflower mosaic virus become an<br />
economic problem.<br />
PI 642057. Helianthus annuus L.<br />
Genetic. SuMV-2; VR-2. GS-34. Pedigree - PI 435418/3*HA 89, F5.<br />
Single-headed, black seed with gray stripes and segregating for<br />
gray-mottled and brown seeds. Homozygous resistant to the sunflower<br />
mosaic potyvirus (SMV). Flowers in 76 d after planting, has a plant<br />
height 101 cm, head diam. of 12.6, 1000-seed weight of 60, and<br />
self-pollinated seed set of 70%. Will provide source of resistance<br />
should sunflower mosaic virus become an economic problem.<br />
PI 642058. Helianthus annuus L.<br />
Genetic. SuMV-3; VR-3. GS-35. Pedigree - PI 435437/2*HA 89//PI<br />
435437/2*HA 89, F5. Homozygous resistant to the SMV, branched, and<br />
segregates for gray-mottled and brown seeds. Flowers in 74 d after<br />
planting, has a plant height of 81 cm, head diam. of 3.7 cm and<br />
1000-seed weight of 17 g, and self-pollinated seed set of 32%, indicating<br />
low level of self-compatibility.<br />
<strong>The</strong> following were developed by Chao-Chien Jan, USDA, ARS, <strong>No</strong>rth Dakota State<br />
University, <strong>No</strong>rthern Crop Science Laboratory, Fargo, <strong>No</strong>rth Dakota 58105,<br />
United States; Jerry F. Miller, USDA, ARS, <strong>No</strong>rthern Crop Science Laboratory,<br />
P.O. Box 5677, Fargo, <strong>No</strong>rth Dakota 58105, United States; Gerald Seiler, USDA,<br />
ARS, <strong>No</strong>rthern Crop Science Laboratory, P.O. Box 5677, University Station,<br />
Fargo, <strong>No</strong>rth Dakota 58105, United States; Gerhardt N. Fick, Seeds 2000, Inc.,<br />
P. O. Box 200, 115 3rd Street <strong>No</strong>rth, Breckenridge, Minnesota 56520, United<br />
States. Received 02/24/2006.<br />
PI 642059. Helianthus annuus L.<br />
Genetic. cms RIGX-HA 89. GS-36. Pedigree - RIGX/HA 89//WA/3/7*HA 89.<br />
<strong>No</strong>n-branched, with plant height of 96 cm, flowers 79 d after planting<br />
(DAP), head diam. of 12.9 cm. Seeds are black with gay stripes, with a<br />
1000-seed weight of 60g. Expected to provide cytoplasmic diversity for<br />
hybrid sunflower production. In field tests, 89 plants produced no seeds<br />
after self-pollination, and 99% seed set from open-pollination,<br />
indicating complete male-sterility and female-fertility.<br />
33
PI 642060. Helianthus annuus L.<br />
Genetic. Rf RIGX-Luch. GS-37. Pedigree - cms RIGX/2*HA 89/3/cms RIGX/HA<br />
89//WA/4/2*HA 89/7/ cms RIGX/2*HA 89/3/cms RIGX/HA /89//WA/4/2*HA<br />
89/6/cms RIGX/2*HA 89/3/cms RIGX/HA 89//WA/4/HA 89/5/Luch. <strong>No</strong>n-branched,<br />
with plant height of 65 cm, flowers 66 DAP, has a seed set percentage of<br />
59. Seeds are black with gray stripes, have a 1000-seed weight of 42 g.<br />
PI 642061. Helianthus annuus L.<br />
Genetic. Rf RIGX-RCMG1. GS-38. Pedigree - cms RIGX/2*HA 89/3/cms RIGX/HA<br />
89//WA/4/2*HA 89/7/ cms RIGX/2*HA 89/3/cms RIGX/HA 89//WA/4/2*HA<br />
89/6/cms RIGX/2*HA 89/3/cms RIGX/HA 89//WA/4/HA 89/5/RCMG1.<br />
<strong>No</strong>n-branched, with plant height of 97 cm, flowers 68 DAP, has seed set<br />
percentage of 81%. Seeds are black with gray stripes, and have a<br />
1000-seed weight of 58 g.<br />
<strong>The</strong> following were developed by Chao-Chien Jan, USDA, ARS, <strong>No</strong>rth Dakota State<br />
University, <strong>No</strong>rthern Crop Science Laboratory, Fargo, <strong>No</strong>rth Dakota 58105,<br />
United States. Received 02/24/2006.<br />
PI 642062. Helianthus annuus L.<br />
Genetic. cms ANN2-HA 89. GS-39. Pedigree - cms PI 413178/7*HA 89. Has<br />
the cytoplasmic male sterility characteristic of not producing visible<br />
anthers during flowering, similar to the cms PET1 used in all commercial<br />
hybrids. Single-headed, with a plant height of 121 cm, flower in 74 d<br />
after planting, head diam. of 15.9 cm, 1000-seed weight of 62 g; seeds<br />
are black with gray stripes.<br />
PI 642063. Helianthus annuus L.<br />
Genetic. cms ANN3-HA 89. GS-40. Pedigree - cms PI 413180/7*HA 89. Has<br />
the cytoplasmic male sterility characteristic of not producing visible<br />
anthers during flowering, similar to the cms PET1 used in all commercial<br />
hybrids. Single-headed, with a plant height of 136 cm, flowers in 77 d<br />
after planting, head diam. of 14.6 cm, 1000-seed weight of 58 g; seeds<br />
are black with gray stripes.<br />
PI 642064. Helianthus annuus L.<br />
Genetic. Rf ANN2-PI 413178. GS-41. Pedigree - cms PI 413178/HA 89//PI<br />
413178, F4. <strong>Plant</strong> height of 170 cm, flowers in 82 d, head diam. of 3.5<br />
cm, 1000-seed weight of 8 g; seed set percentage of 44%. Single-headed<br />
and segregates for gray-mottle and black seeds.<br />
PI 642065. Helianthus annuus L.<br />
Genetic. Rf ANN2-P21. GS-42. Pedigree - cms PI 413178/HA 89//cms PI<br />
413178/P21, F6. <strong>Plant</strong> height of 160 cm, flowers in 89 d, head diam. of<br />
9.9 cm, 1000-seed weight of 30 g; seed set percentage of 47%. Branched,<br />
with seed coat color of black and gray with black stripes.<br />
PI 642066. Helianthus annuus L.<br />
Genetic. Rf ANN2-RMAX1. GS-43. Pedigree - cms PI 413178/4*HA 89/3/cms PI<br />
413178/RCMG1//RMAX1, F6. <strong>Plant</strong> height of 136 cm, flowers in 85 d, head<br />
diam. of 5.1 cm, 1000 seed weight of 19 g; seed set percentage of 59%.<br />
Branched, has brown seeds.<br />
PI 642067. Helianthus annuus L.<br />
Genetic. Rf ANN3-PI 413180. GS-44. Pedigree - cms PI 413180/2*HA 89/3/PI<br />
34
413180//HA 89, F6. <strong>Plant</strong> height of 116 cm, flowers in 82 d, head diam.<br />
of 8.3 cm, 1000 seed weight of 34 g, seed set percentage of 84%.<br />
Branched, has black seeds.<br />
PI 642068. Helianthus annuus L.<br />
Genetic. Rf ANN3-P21. GS-45. Pedigree - cms PI 413180/2*HA 89/3/P21//HA<br />
89, F6. <strong>Plant</strong> height of 145 cm, flowers in 85 d, head diam. of 13.0 cm,<br />
1000 seed weight of 61 g, seed set percentage of 13%. Segregates for<br />
single-headed and branched plants, with a seed coat color segregating<br />
for black, black with gray stripes, and gray with black stripes.<br />
PI 642069. Helianthus annuus L.<br />
Genetic. Rf ANN3-RHA 801. GS-46. Pedigree - cms PI 413180/3*HA 89/3/cms<br />
PI 413180/2*HA 89//RHA 801, F6. <strong>Plant</strong> height of 97 cm, flowers in 76 d,<br />
head diam. of 4.6 cm, 1000 seed weight of 17 g, seed set percentage of<br />
75%. Segregates for single-headed and branched, with seed coat color<br />
segregating for brown and black with brown stripes.<br />
PI 642070. Helianthus annuus L.<br />
Genetic. Rf ANN3-PET2. GS-47. Pedigree - cms PI 413180/4*HA 89//cms PI<br />
413180/2*RPET2, F6. <strong>Plant</strong> height of 76 cm, flowers in 73 d, head diam.<br />
of 10.3 cm, 1000 seed weight of 60 g, seed set percentage of 58%.<br />
Single-headed, with seed segregating for brown and black color.<br />
PI 642071. Helianthus annuus L.<br />
Genetic. Rf ANN3-RHA 280. GS-48. Pedigree - cms PI 413180/RHA 280//cms<br />
PI 413180/RHA 280, F6. <strong>Plant</strong> height of 117 cm, flowers in 96 d, head<br />
diam. of 6.1 cm, 1000 seed weight of 27 g, seed set percentage of 60%.<br />
Branched, with seed coat color segregating for black and black with<br />
brown stripes.<br />
<strong>The</strong> following were developed by Thomas Gulya, USDA, ARS, <strong>No</strong>rth Dakota State<br />
University, <strong>No</strong>rthern Crop Science Laboratory, Fargo, <strong>No</strong>rth Dakota 58105,<br />
United States; Chao-Chien Jan, USDA, ARS, <strong>No</strong>rth Dakota State University,<br />
<strong>No</strong>rthern Crop Science Laboratory, Fargo, <strong>No</strong>rth Dakota 58105, United States.<br />
Received 02/24/2006.<br />
PI 642072. Helianthus annuus L.<br />
Breeding. Pureline. TX16R. GP-305. Pedigree - TX16/HA 89//TX16/HA89, F4.<br />
Homozygously resistant to all known sunflower downy mildew and rust<br />
races and SMV. Inheritance studies suggested that resistance of each of<br />
the diseases is under the control of a single gene(s), and are at<br />
different loci. Branched, flowers in 80 d, with plant height of 114 cm,<br />
segregates for black and gray-mottle seed coat color, with a 1000 seed<br />
weight of 4.3 g and 64% self-pollinated seed set.<br />
<strong>The</strong> following were developed by Chao-Chien Jan, USDA, ARS, <strong>No</strong>rth Dakota State<br />
University, <strong>No</strong>rthern Crop Science Laboratory, Fargo, <strong>No</strong>rth Dakota 58105,<br />
United States; Brady A. Vick, USDA, ARS, <strong>No</strong>rthern Crop Science Laboratory,<br />
P.O. Box 5677, Fargo, <strong>No</strong>rth Dakota 58105-5677, United States. Received<br />
02/24/2006.<br />
PI 642073. Helianthus annuus L.<br />
Breeding. Pureline. cms ANN14. GP-306. Pedigree - BC5 bulk: PI<br />
432513/6*HA89. Flowers 73 d after planting, has a plant height of 135<br />
35
cm, head diam. 14.5 cm, a 1000 seed weight of 65 g. Single-headed,<br />
having the characteristic cytoplasmic male-sterility of not producing<br />
visible anthers during flowering, and having over 95% seed set from<br />
open-pollination. Segregates for seed coat color of black and black with<br />
gray stripes.<br />
PI 642074. Helianthus annuus L.<br />
Breeding. Pureline. cms MUT7. GP-307. Pedigree - Originated from<br />
mytomycin C and streptomycin induced HA 89, Maintained by backcrossing<br />
with HA 89, and bulked BC3 seeds. General pedigree: cms M2 plants/4*HA<br />
89. Completely restored by restorer lines RHA 266, RHA 274 (PI 599759),<br />
RHA 280 (PI 552943), and RHA 296 (PI 552931) and their F2 segregation<br />
ratios indicate a single dominant gene control, implying a common<br />
cytoplasmic male sterility similarity in all lines and that the Rf1 gene<br />
was a factor in their restoration. Flower in 73 d after planting, have<br />
plant height of 128 cm, head diam. of 14.6 cm, and 1000 seed weight of<br />
58g.<br />
PI 642075. Helianthus annuus L.<br />
Breeding. Pureline. cms MUT8. GP-308. Pedigree - Originated from<br />
mytomycin C and streptomycin induced HA 89. Maintained by backcrossing<br />
with HA 89, and the bulked BC3 seeds. General pedigree: cms M2<br />
plants/4*HA 89. Completely restored by restorer lines RHA 266, RHA 274<br />
(PI 599759), RHA 280 (PI 552943) and RHA 296 (PI 552931) and their F2<br />
segregation ratios indicate a single dominant gene crontrol, implying a<br />
common cytoplasmic male sterility similarity in all lines and that the<br />
Rf1 gene was a factor in their restoration. Flowers in 73 d after<br />
planting, plant height of 132 cm, head diam. of 14.5 cm, and 1000 seed<br />
weight of 56 g.<br />
PI 642076. Helianthus annuus L.<br />
Breeding. Pureline. cms MUT9. GP-309. Pedigree - Originated from<br />
mytomycin C and streptomycin induced HA 89. Maintained by backcrossing<br />
with HA 89 and the bulked BC3 seeds. General pedigree: cms M2<br />
plants/4*HA 89. Completely restored by restorer lines RHA 266, RHA 274<br />
(PI 599759), RHA 280 (PI 552943) and RHA 296 (PI 552931) and their F2<br />
segregation ratios indicate a single dominant gene control, implying a<br />
common cytoplasmic male sterility similarity in all lines and that the<br />
Rf1 gene was a factor in their restoration. Flowers in 74 d after<br />
planting, plant height of 128 cm, head diam. of 14.1 cm and 1000 seed<br />
weights of 56 g.<br />
PI 642077. Helianthus annuus L.<br />
Breeding. Pureline. cms MUT10. GP-310. Pedigree - Originated from<br />
mytomycin C and streptomycin induced HA 89. maintained by backcrossing<br />
with HA 89 and the bulked BC3 seeds. General pedigree: cms M2<br />
plants/4*HA 89. Completely restored by restorer lines RHA 266, RHA 274<br />
(PI 599759), RHA 280 (PI 552943) and RHA 296 (PI 552931) and their F2<br />
segregation ratios indicate a single dominant gene control, implying a<br />
common cytoplasmic male sterility similarity in all lines and that the<br />
Rf1 gene was a factor in their restoration. Flowers in 72 d after<br />
planting, plant heights of 139 cm; head diam. of 16.4 cm and 1000 seed<br />
weight of 62 g.<br />
PI 642078. Helianthus annuus L.<br />
Breeding. Pureline. cms MUT11. GP-311. Pedigree - Originated from<br />
mytomycin C and streptomycin induced HA 89. Maintained by backcrossing<br />
36
with HA 89 and the bulked BC3 seeds. General pedigree: cms M2<br />
plants/4*HA 89. Completely restored by restorer lines RHA 266, RHA 274<br />
(PI 599759), RHA 280 (PI 552943) and RHA 296 (PI 552931), and their F2<br />
segregation ratios indicate a single dominant gene control, implying a<br />
common cytoplasmic male sterility similarity in all lines and that the<br />
Rf1 gene was a factor in their restoration. Flowers in 73 d after<br />
planting, plant height of 134 cm, head diam of 14.0 cm, and 1000 seed<br />
weight of 65 g.<br />
PI 642079. Helianthus annuus L.<br />
Breeding. Pureline. cms MUT12. GP-312. Pedigree - Originated from<br />
mytomycin C and streptomycin induced HA 89. Maintained by backcrossing<br />
with HA 89 and the bulked BC3 seeds. General pedigree: cms M2<br />
plants/4*HA 89. Completely restored by restorer lines RHA 266, RHA 274<br />
(PI 599759), RHA 280 (PI 552943) and RHA 296 (PI 552931) and their F2<br />
segregation ratios indicate a single dominant gene control, implying a<br />
common cytoplasmic male sterility similarity in all lines and that the<br />
Rf1 gene was a factor in their restoration. Flowers in 75 d after<br />
planting, plant height of 133 cm, head diam. of 14.9 cm, and 1000 seed<br />
weight of 67 g.<br />
PI 642080. Helianthus annuus L.<br />
Breeding. Pureline. Rf Armavir. GP-313. Pedigree - cms PI 432513/PI<br />
432513//Armavir, F6. Pollen stainability of 65% and self-pollinated seed<br />
set of 15% indicates a high degree of self-incompatibility. Segregates<br />
for branching and non-branching plants, and the seed coat color is<br />
segregating for black and brown.<br />
PI 642081. Helianthus annuus L.<br />
Breeding. Pureline. Rf PI 432513. GP-314. Pedigree - cms PI 432513/PI<br />
432513, F6. Pollen stainability of 78% and self-pollinated seed set of<br />
25% indicates a high degree of self-incompatibility. Single-headed, has<br />
black seeds.<br />
PI 642082. Helianthus annuus L.<br />
Breeding. Pureline. Rf VNIIMK. GP-315. Pedigree - cms PI 432513/PI<br />
432513//VNIIMK, F6. Pollen stainability of 88% and self-pollinated seed<br />
set of 44% indicates moderate level of self-compatibility. Segregates<br />
for branching and non-branching plants, with seeds segregating for black<br />
and gray color.<br />
PI 642083. Helianthus annuus L.<br />
Breeding. Pureline. Rf P21. GP-316. Pedigree - cms PI 432513/PI<br />
432513//P21, F6. Pollen stainability of 88% and self-pollinated seed set<br />
of 40% indicates a moderate level of self-compatibility. Segregates for<br />
branching and non-branching plants; has black seeds.<br />
<strong>The</strong> following were developed by Jerry F. Miller, USDA, ARS, <strong>No</strong>rthern Crop<br />
Science Laboratory, P.O. Box 5677, Fargo, <strong>No</strong>rth Dakota 58105, United States;<br />
Brady A. Vick, USDA, ARS, <strong>No</strong>rthern Crop Science Laboratory, P.O. Box 5677,<br />
Fargo, <strong>No</strong>rth Dakota 58105-5677, United States; Jinguo Hu, USDA, ARS, <strong>No</strong>rthern<br />
Crop Science Laboratory, 1307 <strong>No</strong>rth 18th Street, Fargo, <strong>No</strong>rth Dakota<br />
58105-5677, United States. Received 02/24/2006.<br />
PI 642084. Helianthus annuus L.<br />
Genetic. Tricot. GS-49. Pedigree - Found in a BC3F2 population derived<br />
37
from the cross HA 434//HA 406//HA 89/SU resistant wild sunflower.<br />
Displays seedlings with three cotyledons, a phenotype controlled by a<br />
few recessive genes with about 50% penetrance. Seedlings bearing three<br />
cotyledons also bear three true leaves at each internode. <strong>Plant</strong> type<br />
potentially useful for faster establishment of seedlings after planting<br />
due to larger leaf area in the early growing stages, and may serve as a<br />
morphological characteristic for distinguishing cultivars. Frequency of<br />
seedlings bearing three cotyledons was approximately 2% (seven out of<br />
334 seedlings) in BC3 F2 population. <strong>The</strong>se seven mutant plants were<br />
transplanted into greenhouse with five plants survived to maturity. <strong>The</strong><br />
observed tricotyledonous frequencies among the five F3 families in the<br />
field in 2003 ranged from 3 to 31% with an average of 18.5% (157 tricot<br />
in 755 seedlings counted). 12 plants randomly bagged to produce F4<br />
progenies. Four F4 families selected for a higher frequency of<br />
tricotyledonous seedlings were planted in the field in 2004. Observed<br />
frequencies among the four F4 families ranged from 15 to 55%, with an<br />
average of 35.5% (122 tricot in 383 seedlings). Same test was repeated<br />
for four F5 families and the frequency ranged from 15% to 45%, with an<br />
average of 24.1% (72 tricot in 399 seedlings). Results suggested this<br />
anomalous characteristics is heritable. However, since the<br />
tricotyledony could not be fixed after self-pollination for three<br />
consecutive generations and no significant gain was observed from F4 to<br />
F5 generation, tricotyledony in this mutant seems to be derived from<br />
recessive genes of low penetrance.<br />
Unknown source. Received 03/24/1989.<br />
PI 642085. Phaseolus vulgaris L.<br />
Cultivar. W6 2; MK. KORAI FURJBAB. Collected in Hungary.<br />
Unknown source. Received 06/19/1989.<br />
PI 642086. Phaseolus vulgaris L.<br />
Cultivated. W6 101. Collected in Hungary.<br />
<strong>The</strong> following were donated by Anton C. Zeven, Agricultural University,<br />
Institute of <strong>Plant</strong> Breeding (I.v.P.), P.O. Box 386, Wageningen, Gelderland<br />
6700 AJ, Netherlands. Received 06/19/1989.<br />
PI 642087. Phaseolus vulgaris L.<br />
Cultivated. IvP 1.84; W6 107. Collected in Netherlands. Vrouwenolder<br />
area. Locality was Vrouwenpolder. Primitive cultivar.<br />
PI 642088. Phaseolus vulgaris L.<br />
Cultivated. IvP 1.85; W6 108. Collected in Groningen, Netherlands.<br />
Groningen area. Locality was Groningen. Primitive cultivar.<br />
PI 642089. Phaseolus vulgaris L.<br />
Cultivated. IvP 1.88; W6 110. Collected in Netherlands. Wageningen area.<br />
Locality was Wageningen. Primitive cultivar.<br />
PI 642090. Phaseolus vulgaris L.<br />
Cultivated. IvP 1.89; W6 111. Collected in Netherlands. Avenhorn area.<br />
Locality was Avenhorn. Primitive cultivar.<br />
38
PI 642091. Phaseolus vulgaris L.<br />
Cultivated. IvP 3.59; W6 114. Collected in Netherlands. Breezand area.<br />
Locality was Breezand. Primitive cultivar.<br />
PI 642092. Phaseolus vulgaris L.<br />
Cultivated. IvP 4.42; W6 117. Collected in Netherlands. Jibsinghuizen<br />
area. Locality was Jibsinghuizen. Primitive cultivar.<br />
<strong>The</strong> following were donated by O.W. <strong>No</strong>rvell, Stanford University, Palo Alto,<br />
California, United States. Received 01/01/1989.<br />
PI 642093. Phaseolus sp.<br />
Wild. 3604; W6 2432.<br />
PI 642094. Phaseolus sp.<br />
Wild. 3873; W6 2437.<br />
<strong>The</strong> following were donated by Emil Milkov, Institute for Wheat and Sunflower,<br />
Magdalena Telezona, Technician, "Dobroudja" 9520, General Toschevo, Tolbukhin<br />
9520, Bulgaria. Received 01/21/1992.<br />
PI 642095. Phaseolus vulgaris L.<br />
Cultivar. "33 IZR"; 481; W6 9607.<br />
PI 642096. Phaseolus vulgaris L.<br />
Cultivar. "BERIL"; 683; W6 9622.<br />
PI 642097. Phaseolus vulgaris L.<br />
Cultivar. "BLAZHIEVO 1"; 564; W6 9624.<br />
PI 642098. Phaseolus vulgaris L.<br />
Cultivar. "DAMJANCI 1"; 604; W6 9629.<br />
PI 642099. Phaseolus vulgaris L.<br />
Cultivar. "DOBRUDZHA 63"; 482; W6 9632.<br />
PI 642100. Phaseolus vulgaris L.<br />
Cultivar. "DOBRUDZHANSKI 2"; 729; W6 9633.<br />
PI 642101. Phaseolus vulgaris L.<br />
Cultivar. "DUNAVCI 5"; 724; W6 9636.<br />
PI 642102. Phaseolus vulgaris L.<br />
Cultivar. "GANA"; 726; W6 9643.<br />
PI 642103. Phaseolus vulgaris L.<br />
Cultivar. "GARMEN 6"; 587; W6 9647.<br />
PI 642104. Phaseolus vulgaris L.<br />
Cultivar. "GRADEC 4"; 520; W6 9653.<br />
PI 642105. Phaseolus vulgaris L.<br />
Cultivar. "HK 17-20"; 466; W6 9657.<br />
39
PI 642106. Phaseolus vulgaris L.<br />
Cultivar. "HOTOVO 8"; 602; W6 9662.<br />
PI 642107. Phaseolus vulgaris L.<br />
Cultivar. "IVAJLOVGRAD 1"; 92; W6 9663.<br />
PI 642108. Phaseolus vulgaris L.<br />
Cultivar. "KONSTANTIN 15"; 119; W6 9682.<br />
PI 642109. Phaseolus vulgaris L.<br />
Cultivar. "KRAJNI DOL 3"; 581; W6 9684.<br />
PI 642110. Phaseolus vulgaris L.<br />
Cultivar. "REGENTE"; 621; W6 9749. Collected in Brazil.<br />
<strong>The</strong> following were donated by Soon Jai Park, Agriculture and Agri-Food<br />
Canada, Harrow Research Station, 2585 County Road 20, Harrow, Ontario N0R<br />
1G0, Canada. Received 08/03/1992.<br />
PI 642111. Phaseolus vulgaris L.<br />
Cultivar. "DRESDEN"; W6 10663.<br />
PI 642112. Phaseolus vulgaris L.<br />
Cultivar. "FLEETSIDE"; W6 10665.<br />
PI 642113. Phaseolus vulgaris L.<br />
Cultivar. "HAROWOOD"; W6 10666.<br />
<strong>The</strong> following were donated by Robert E. Rand, University of Wisconsin,<br />
Department of <strong>Plant</strong> Pathology, 1630 Linden Drive, Madison, Wisconsin 53706,<br />
United States. Received 08/14/1992.<br />
PI 642114. Phaseolus vulgaris L.<br />
Breeding. MDR 201; W6 10679. Multiple disease resistant processing type<br />
beans.<br />
<strong>The</strong> following were collected by Tara Luna, P.O. Box 447, East Glacier Park,<br />
Montana 59434, United States. Received 06/14/1993.<br />
PI 642115. Phaseolus vulgaris L.<br />
Cultivated. CR-93-009; W6 12112. Collected 02/11/1993 in Puntarenas,<br />
Costa Rica. Latitude 8° 59' 24" N. Longitude 83° 18' 36" W.<br />
Elevation 1110 m. Farm near Rio Terraba, indian pueblo Boruca, Boruca<br />
Province.<br />
<strong>The</strong> following were donated by O.W. <strong>No</strong>rvell, Stanford University, Palo Alto,<br />
California, United States. Received 01/01/1989.<br />
PI 642116. Phaseolus acutifolius A. Gray<br />
Uncertain. M912; W6 15712.<br />
PI 642117. Phaseolus acutifolius A. Gray<br />
Wild. M920; W6 15717. Collected in Mexico. Collected: Canyon Santa<br />
40
Clara, Chihuahua. About half-way between C. Juarez, Chihuahua (out from<br />
Parrita, 283 km from C. Juarez) and Chihuahua City, Chih. and in the<br />
mts. some 5 miles west of highway. (from original O. <strong>No</strong>rvell notes).<br />
<strong>The</strong> following were collected by Gaylord Mink, Washington State University,<br />
Irrigated Agricultural Res. & Ext. Ctr., Route 2, Box 2953-A, Prosser,<br />
Washington 99350, United States. Received 11/16/1994.<br />
PI 642118. Phaseolus vulgaris L.<br />
Cultivated. "NKANAMNA"; W6 16451. Collected 1994 in Tanzania. town of<br />
Hai in the Moshi region.<br />
PI 642119. Phaseolus vulgaris L.<br />
Cultivated. "RANGIJOBE"; W6 16476. Collected 1994 in Tanzania. town of<br />
Arusha in the Arusha region.<br />
PI 642120. Phaseolus vulgaris L.<br />
Cultivated. "TIBIABWA"; W6 16580. Collected 1994 in Tanzania. town of<br />
Muleba in the Bukoba region.<br />
<strong>The</strong> following were collected by Tara Luna, 979 Eastman Drive, Big Fork,<br />
Montana 59911, United States. Received 04/03/1995.<br />
PI 642121. Phaseolus vulgaris L.<br />
Cultivated. E-95-017; W6 16870. Collected 02/02/1995 in Imbabura,<br />
Ecuador. Latitude 0° 15' N. Longitude 78° 15' W. Elevation 3000 m.<br />
Otavalo. Approx. 90 km N of Quito. Volcanic soil, fair drainage.<br />
Intercropped with potatoes and maize.<br />
<strong>The</strong> following were collected by James R. Steadman, University of Nebraska,<br />
Department of <strong>Plant</strong> Pathology, 406 <strong>Plant</strong> Science Hall, Lincoln, Nebraska<br />
68583, United States. Received 05/23/1995.<br />
PI 642122. Phaseolus vulgaris var. aborigineus (Burkart) Baudet<br />
Wild. G21057; A-010.01; W6 17006. Collected 04/22/1995 in Argentina.<br />
Latitude 24° 54' 10" S. Longitude 65° 28' 31" W. Elevation 1250<br />
m. Salta INTA station. See original description of CIAT.<br />
PI 642123. Phaseolus vulgaris var. aborigineus (Burkart) Baudet<br />
Uncertain. A-010.04; MCM 149; W6 17008. Collected 04/22/1995 in<br />
Argentina. Latitude 24° 54' 10" S. Longitude 65° 28' 31" W.<br />
Elevation 1250 m. Salta INTA station.<br />
PI 642124. Phaseolus vulgaris var. aborigineus (Burkart) Baudet<br />
Wild. A-011.01; poroto del Zorro; W6 17010. Collected 04/22/1995 in<br />
Argentina. Latitude 24° 40' 47" S. Longitude 65° 28' 35" W.<br />
Elevation 1440 m. Nearest town: Lesser. Roadside. <strong>No</strong> tall trees.<br />
Rocky, sandy, loam soil. Near cattle grazing fields. Associated<br />
vegetation: spiny shrubs.<br />
<strong>The</strong> following were collected by James R. Steadman, University of Nebraska,<br />
Department of <strong>Plant</strong> Pathology, 406 <strong>Plant</strong> Science Hall, Lincoln, Nebraska<br />
68583, United States; Roberto Neumann, Instituto Nacional de Tecnologia<br />
41
Agropecuaria, C.C. 228, Salta, Salta 4400, Argentina. Received 10/1996.<br />
PI 642125. Phaseolus vulgaris var. aborigineus (Burkart) Baudet<br />
Wild. A2-002-1; Poroto; W6 18732. Collected 05/06/1996 in Argentina.<br />
PI 642126. Phaseolus vulgaris var. aborigineus (Burkart) Baudet<br />
Wild. A2-008-1; W6 18743. Collected 05/07/1996 in Argentina.<br />
PI 642127. Phaseolus vulgaris var. aborigineus (Burkart) Baudet<br />
Wild. A2-011-1; W6 18747. Collected 05/07/1996 in Argentina.<br />
PI 642128. Phaseolus vulgaris var. aborigineus (Burkart) Baudet<br />
Wild. A2-017-1; W6 18755. Collected 05/09/1996 in Argentina.<br />
<strong>The</strong> following were developed by J. Rennie Stavely, USDA, ARS, Microbiology<br />
and <strong>Plant</strong> Pathology Lab., Room 252, Building 011A, BARC-West, Beltsville,<br />
Maryland 20705-2350, United States. Received 12/09/1996.<br />
PI 642129. Phaseolus vulgaris L.<br />
Cultivated. "A x S 37"; W6 18984. Bean differential for bean rust<br />
(Uromyces appendiculatus).<br />
<strong>The</strong> following were collected by Gary Nabhan, Native Seeds/SEARCH, 3950 W. New<br />
York Drive, Tucson, Arizona 85745, United States. Received 1985.<br />
PI 642130. Phaseolus vulgaris L.<br />
Cultivated. GN 766; W6 20112. Collected 1985.<br />
PI 642131. Phaseolus vulgaris L.<br />
Cultivated. GN 814; W6 20153. Collected 02/25/1978 in Arizona, United<br />
States. Latitude 36° 55' 41" N. Longitude 110° 40' 19" W. Eva<br />
Hoyungwa, Hotevilla, Hopi Reservation. Used as basketry dye and as<br />
food.<br />
<strong>The</strong> following were collected by Cesar Azurdia, Instituto de Investigaciones<br />
Agronomicas, Universidad de San Carlos de Guatemala, Ciudad Universitaria,<br />
Zona 12, Guatemala City, Guatemala, Guatemala; Daniel Debouck, International<br />
Center for Tropical Agriculture, <strong>Germplasm</strong> <strong>Resources</strong> Unit, Apdo. aereo 6713,<br />
Cali, Valle, Colombia. Donated by Helmer Ayala, Universidad de San Carlos de<br />
Guatemala, Ciudad Universitaria, Zona 12, Apartado Postal <strong>No</strong> 1545, San<br />
Carlos, Guatemala. Received 01/15/1998.<br />
PI 642132. Phaseolus lunatus L.<br />
Wild. 3080; W6 20521. Collected 01/1995 in Guatemala. Latitude 14°<br />
46' N. Longitude 91° 30' W. Elevation 1750 m. Zunil, 6 km southwest<br />
of Zunil.<br />
<strong>The</strong> following were donated by G. F. Freytag, USDA, ARS, Tropical Agricultural<br />
Research Station, P.O. Box 70, Mayaguez, Puerto Rico. Received 04/04/1999.<br />
PI 642133. Phaseolus polystachios subsp. sinuatus (Nutt. ex Torr. & A. Gray)<br />
Freytag<br />
Wild. TARS 550; F 90-1; W6 21126. Collected in Texas, United States.<br />
42
Latitude 30° 2' N. Longitude 99° 8' W. Kerrville, Texas, United<br />
States.<br />
<strong>The</strong> following were donated by Dermot P. Coyne, University of Nebraska,<br />
Department of Horticulture, 386 <strong>Plant</strong> Sciences Hall, Lincoln, Nebraska<br />
68583-0724, United States. Received 08/24/1994.<br />
PI 642134. Phaseolus vulgaris L.<br />
Cultivated. Pompadour F; W6 21906. coleccion Pompadour Vieja.<br />
PI 642135. Phaseolus vulgaris L.<br />
Cultivated. Pompadour L; W6 21915. coleccion Pompadour Vieja.<br />
PI 642136. Phaseolus vulgaris L.<br />
Cultivated. Pompadour R; W6 21926. coleccion Pompadour Vieja.<br />
PI 642137. Phaseolus vulgaris L.<br />
Cultivated. Chijor-28; W6 21935. coleccion Pompadour Nueva.<br />
<strong>The</strong> following were developed by Dermot P. Coyne, University of Nebraska,<br />
Department of Horticulture, 386 <strong>Plant</strong> Sciences Hall, Lincoln, Nebraska<br />
68583-0724, United States. Received 06/27/2000.<br />
PI 642138. Phaseolus vulgaris L.<br />
Cultivar. "STARS"; W6 22541.<br />
Unknown source. Received 07/23/2001.<br />
PI 642139. Phaseolus vulgaris L.<br />
Cultivated. W6 23643.<br />
<strong>The</strong> following were collected by Matt Johnson, USDA/ARS/NCGR-Corvallis,<br />
Corvallis, Oregon 97333, United States; Richard M. Hannan, USDA, ARS,<br />
Washington State University, Regional <strong>Plant</strong> Introduction Station, Pullman,<br />
Washington 99164-6402, United States. Donated by Richard M. Hannan, USDA,<br />
ARS, Washington State University, Regional <strong>Plant</strong> Introduction Station,<br />
Pullman, Washington 99164-6402, United States. Received 11/2003.<br />
PI 642140. Phaseolus acutifolius var. tenuifolius A. Gray<br />
Wild. AZ5; W6 24878. Collected 09/11/2003 in Arizona, United States.<br />
Latitude 31° 52' 3" N. Longitude 109° 57' 13" W. Elevation 1781<br />
m. Middle March Pass in Dragon Mountains. Site 6, collected on east face<br />
slope about 40 degree steep, a north-south rocky scree.<br />
<strong>The</strong> following were donated by Joseph Simcox, <strong>The</strong> Rare Vegetable Seed<br />
Consortium, C/O Steven Brack, Mesa Garden, Belen, New Mexico 87002, United<br />
States; Robert Lobitz, <strong>The</strong> Rare Vegetable Seed Consortium, 58 Greer Road,<br />
Belen, New Mexico 87002, United States. Received 01/05/2005.<br />
PI 642141. Phaseolus vulgaris L.<br />
Cultivated. Blooming Prairie; W6 26489. Bush type. Seed color: white<br />
with purple 'bloom'.<br />
43
PI 642142. Phaseolus vulgaris L.<br />
Cultivated. Candy; W6 26490. Bush type. Seed color: large, pink blush on<br />
cream with red spots & stripes.<br />
<strong>The</strong> following were donated by Phillip D. Griffiths, Cornell University,<br />
Department of Horticultural Science, 302 Hedrick Hall, Geneva, New York<br />
14456-0462, United States. Received 03/15/2005.<br />
PI 642143. Phaseolus vulgaris L.<br />
Cultivar. "Acclaim"; W6 26676. Developed in United States.<br />
PI 642144. Phaseolus vulgaris L.<br />
Cultivar. "Baby Bop"; W6 26678. Developed in United States.<br />
<strong>The</strong> following were collected by Kevin B. Jensen, USDA, ARS, Utah State<br />
University, Forage & Range Research Laboratory, Logan, Utah 84322-6300,<br />
United States; Douglas A. Johnson, USDA, ARS, Forage and Range Research<br />
Laboratory, Utah State University, Logan, Utah 84322-6300, United States.<br />
Received 11/02/1993.<br />
PI 642145. Astragalus tibetanus Benth. ex Bunge<br />
Wild. X93087; W6 13003. Collected 08/11/1993 in Xinjiang, China.<br />
Latitude 44° 9' N. Longitude 84° 38' E. Elevation 1620 m.<br />
Natural pasture at base of Tien Shan Mountains, approx. 65km south of<br />
Usu, Xinjiang.<br />
<strong>The</strong> following were collected by Alexander Afonin, Vavilov Institute of <strong>Plant</strong><br />
Industry, 42 Bolshaya Morskaya Street, St. Petersburg, Leningrad 190000,<br />
Russian Federation; Nicolay Portinier, Kamorov Institute of Botany, St.<br />
Petersburg, Leningrad, Russian Federation; Nicolay Khitrov, Dokvchaev Soil<br />
Institute, Pygevsky, per., 7., Moscow, Moscow 109017, Russian Federation.<br />
Received 01/1996.<br />
PI 642146. Onobrychis petraea (M. Bieb. ex Willd.) Fisch.<br />
Wild. VIR D152; W6 17792. Collected 09/06/1995 in Russian Federation.<br />
Latitude 43° 51' 30" N. Longitude 41° 54' 6" E. Elevation 800 m.<br />
Province Karachayevo-Cherkesskaya Republic, 1 km. northwest of<br />
Ordzhanikedevskiy. Past and current grazing. Lower slope 6-10%, upper<br />
slope 41-60%, aspect SE. Light open. Soil sandy-loam, pH 5.8-6.5.<br />
Seasonally dry, lower slope, rock outcrop. Vegetation seasonal tall<br />
grass. Surrounding vegetation open deciduous forest with closed lower<br />
layers. Dominant tree species Beech/Oak, Fagus sp., Quercus sp. Dominant<br />
shrub species Artemisia sp., Rosa sp. Dominant herb/grass species<br />
Achillea sp., Medicago sp., Bothriochloa i., Festuca v. Population<br />
distribution patchy, abundance rare. Growth habit semi-erect. Flower<br />
pink. Extensive regional climate data available in spreadsheet format or<br />
image maps in raster format suitable for GIS analysis. Contact Dr.<br />
Stephanie L. Greene (sgreene@ars-grin.gov).<br />
<strong>The</strong> following were collected by Richard M. Hannan, USDA, ARS, Washington<br />
State University, Regional <strong>Plant</strong> Introduction Station, Pullman, Washington<br />
99164-6402, United States; Walter J. Kaiser, USDA, ARS, Washington State<br />
44
University, Regional <strong>Plant</strong> Introduction Station, Pullman, Washington<br />
99164-6402, United States. Received 07/28/1996.<br />
PI 642147. Onobrychis alba subsp. laconica (Orph. ex Boiss.) Hayek<br />
Wild. B96-138; W6 19330. Collected 07/1996 in Bulgaria. Latitude 41°<br />
59' 37" N. Longitude 24° 50' 18" E. Elevation 760 m. 0.5km southwest<br />
of town, Lascovo. south.<br />
PI 642148. Thymus sp.<br />
Wild. B96-248; W6 19412. Collected 07/1996 in Bulgaria. Latitude 41°<br />
46' 41" N. Longitude 25° 20' 23" E. Elevation 479 m. Oak woodland.<br />
Many grass species.<br />
<strong>The</strong> following were collected by D.P. Sheehy, Eastern Oregon Agricultural<br />
Research Center, Post Office Box E, Union, Oregon 97833, United States;<br />
Douglas A. Johnson, USDA, ARS, Forage and Range Research Laboratory, Utah<br />
State University, Logan, Utah 84322-6300, United States. Received 03/06/1997.<br />
PI 642149. Krascheninnikovia ceratoides (L.) Gueldenst.<br />
Wild. 96S-121; W6 19634. Collected 09/1996 in Mongolia. Latitude 49°<br />
55' 1" N. Longitude 92° 39' 26" E. Elevation 860 m. Ubs Aimag,<br />
Narnabulag Sum, Ulaanboorog, adjacent to Ubs <strong>No</strong>er (lake). 1% north<br />
slope. Old prehistoric lake bed of Ubs <strong>No</strong>er that is covered with<br />
alluvial materials. Soils are coarse gravels with voids filled with<br />
coarse brown sand. DOMINANT VEG: Ceratoides papposa/Elymus poboanus +<br />
Achnatherum splendens, Elymus chinensis, Stipa capillata, Artemisia<br />
frigida.<br />
<strong>The</strong> following were collected by T.A. Campbell, USDA-ARS, <strong>Germplasm</strong> Quality<br />
and Enhancement Lab, Building 001, Room 339, Beltsville, Maryland 20705,<br />
United States; John D. Berdahl, USDA-ARS, <strong>No</strong>rthern Great Plains Research<br />
Lab., P.O. Box 459, Mandan, <strong>No</strong>rth Dakota 58554, United States; Douglas A.<br />
Johnson, USDA, ARS, Forage and Range Research Laboratory, Utah State<br />
University, Logan, Utah 84322-6300, United States; Larry K. Holzworth,<br />
USDA-NRCS State Office, Federal Bldg., Room 443, 10 E. Babcock, Bozeman,<br />
Montana 59715-4704, United States. Received 12/1997.<br />
PI 64<strong>215</strong>0. Onobrychis arenaria (Kit.) DC. subsp. arenaria<br />
Wild. X97-072; W6 20246. Collected 08/1997 in Xinjiang, China. Latitude<br />
42° 45' 48" N. Longitude 80° 56' 37" E. Elevation 1860 m. 50 km<br />
south of Zhaosu County, 1 km east of Aheyazi Farm in foothills of Tian<br />
Shan Mountains, Xinjiang. Ungrazed meadow, will be cut for hay. Dry<br />
site in rain shadow of mountains. Silt loam soil. Slope is 1% with<br />
west aspect.<br />
<strong>The</strong> following were donated by Giovanni Figliuolo, University of Basilicata,<br />
Via N. Sauro, 85, Potenza, Basilicata 85100, Italy. Received 04/1998.<br />
PI 64<strong>215</strong>1. Marrubium vulgare L.<br />
Cultivated. W6 20655. Climate: Eu-Mediterranean. 750 m above sea level.<br />
Use: aromatic. Perennial.<br />
45
<strong>The</strong> following were collected by Dennis P. Sheehy, 69086 Allen Canyon Road,<br />
Wallowa, Oregon 97885, United States; Douglas A. Johnson, USDA, ARS, Forage<br />
and Range Research Laboratory, Utah State University, Logan, Utah 84322-6300,<br />
United States; Mark E. Majerus, USDA-NRCS, <strong>Plant</strong> Materials Center, Rt. 2, Box<br />
1189, Bridger, Montana 59014-9718, United States; Susan R. Winslow,<br />
USDA-NRCS, Bridger PMC, Route 2, Box 1189, Bridger, Montana 59014-9718,<br />
United States. Received 05/05/1999.<br />
PI 64<strong>215</strong>2. Galium verum L.<br />
Wild. 98HT-84; W6 21197. Collected 09/1998 in Mongolia. Latitude 48°<br />
23' 51" N. Longitude 110° 12' 4" E. Elevation 1036 m. Ulaanchulun,<br />
Batchirrit Sum, Henti Aimag. Within and adjacent to an ancient<br />
rock-walled fortress enclosing about 40 hectares of hill slope and upper<br />
edge of meadow. Two small streams drain the enclosed area. Gravelly,<br />
eroded granitic soils. Recent fire through area. Associated<br />
vegetation:Overstory species depending on aspect and relief include<br />
Pinus, Larix, and Populus. Exposed soils are dominated by Stipa and<br />
Astragalus. <strong>The</strong> riparian zone along streams has species typical of<br />
wetter microsites including Bromus and riparians.<br />
<strong>The</strong> following were collected by Richard M. Hannan, USDA, ARS, Washington<br />
State University, Regional <strong>Plant</strong> Introduction Station, Pullman, Washington<br />
99164-6402, United States; Stephanie Greene, USDA, ARS, National Temperate<br />
Forage Legume, <strong>Germplasm</strong> <strong>Resources</strong> Unit, Prosser, Washington 99350-9687,<br />
United States; Nikolai I. Dzyubenko, N.I. Vavilov All-Russian Scientific<br />
Research, Institute of <strong>Plant</strong> Genetic <strong>Resources</strong>, 44 Bolshaya Morskaya Street,<br />
St. Petersburg, Leningrad 190000, Russian Federation; Alexander Afonin,<br />
Vavilov Institute of <strong>Plant</strong> Industry, 42 Bolshaya Morskaya Street, St.<br />
Petersburg, Leningrad 190000, Russian Federation; Auskhan Khusainov, Aral Sea<br />
Experimant Station for <strong>Plant</strong> Genetic <strong>Resources</strong>, 27 Biyekenov Street, Chelkar<br />
Town, Kazakhstan. Received 08/2000.<br />
PI 64<strong>215</strong>3. Achillea biebersteinii Afan.<br />
Wild. KAZ-185; W6 23187. Collected 08/2000 in Kazakhstan. Latitude<br />
49° 18' 51" N. Longitude 59° 3' 34" E. Elevation 371 m.<br />
<strong>The</strong> following were collected by Richard M. Hannan, USDA, ARS, Washington<br />
State University, Regional <strong>Plant</strong> Introduction Station, Pullman, Washington<br />
99164-6402, United States; Walter J. Kaiser, U.S. Peace Corps, Cuerpo de Paz,<br />
Casilla #749, Sucre, Chuquisaca, Bolivia; Isabella Arevshatyan, Yerevan,<br />
Armenia; Eleonora Gabrielian, Department of <strong>Plant</strong> Systemics, Geography<br />
National Academie of Sciences, Institute of Botany, Yerevan, Armenia; Samvel<br />
M. Gasparian, Scientific Research Center of Viticulture, Fruit Growing and<br />
Wine Making, Merdzavan, Armenia; Vrez Manakyan, Armenia Academie of Science,<br />
Institute of Botany, Yerevan, Armenia; Ashot A. Charchoglian, National<br />
Academie of Sciences, Institute of Botany, Yerevan, Armenia. Received<br />
06/24/2002.<br />
PI 64<strong>215</strong>4. Astragalus cornutus Pall.<br />
Wild. ARM 280; W6 23962. Collected 08/14/2001 in Armenia. Latitude<br />
39° 39' 6" N. Longitude 45° 17' 52" E. Elevation 2002 m. Last<br />
site of the day. This was a pasture site near a spring with drinkable<br />
water, that looked heavily disturbed, but above the pastured area it was<br />
very dry and moderately steep and we found some new species of clover<br />
and some thyme, as well as numerous other legumes. Temps well over 105° F.<br />
46
PI 64<strong>215</strong>5. Astragalus galegiformis L.<br />
Wild. ARM 403; W6 24042. Collected 08/03/2001 in Armenia.<br />
<strong>The</strong> following were developed by Barry Glaz, USDA, ARS, Sugarcane Field<br />
Station, Canal Point, Florida 33438, United States; P.Y.P. Tai, USDA-ARS,<br />
Sugarcane Field Station, Star Route Box 8, Canal Point, Florida 33438, United<br />
States; John Dunckelman, Florida Sugar Cane League, P.O. Drawer 1208,<br />
Clewiston, Florida 33440, United States; Jack C. Comstock, USDA, ARS, US<br />
Sugarcane Research Field Station, 12990 US Hwy 441 N, Canal Point, Florida<br />
33438, United States; Robert A. Gilbert, University of Florida, EREC, 3200<br />
East Palm Beach Road, Belle Glade, Florida 33430-8003, United States; J.<br />
Davidson, Florida Sugar Cane League, Inc., P.O. Box 1208, Clewiston, Florida<br />
33440, United States; J.D. Miller, USDA-ARS, Sugarcane Field Station, 12990<br />
US Highway 441 N., Canal Point, Florida 33438, United States; S. Edme,<br />
USDA-ARS, Sugarcane Field Station, 12990 US Highway 441N., Canal Point,<br />
Florida 33438, United States. Received 03/07/2006.<br />
PI 64<strong>215</strong>6. Saccharum sp.<br />
Cultivar. "CP 98-1029". CV-128. Pedigree - A complex hybrid selected<br />
from the cross CP 91-1980 X CP 94-1952. <strong>The</strong> leaves of CP 98-1029 are<br />
medium in length and width. Leaf sheaths are green and those closer to<br />
the apex may have a moderate wax bloom at their base. <strong>The</strong> ligule is<br />
green on young leaves and dark brown on older leaves. Auricles and hairs<br />
are generally absent. <strong>The</strong> zig-zag stalks of CP 98-1029 are medium in<br />
diameter and covered with a moderate wax bloom. Stalks are yellow where<br />
covered by the leaf sheath and green where exposed to the sun. However,<br />
the stalks are not generally exposed to the sun as both young and old<br />
leaf sheaths adhere tightly to the stalk. A distinguishing feature of<br />
the internodes of CP 98-1029 is the presence of corky cracks. Internodes<br />
are cylindrical with reduced or absent bud grooves. A small percentage<br />
of the internodes have growth cracks. <strong>The</strong> buds of CP 98-1029 are pale<br />
yellow, round, and usually extend onto the growth rings. CP 98-1029 has<br />
shown field resistance in Florida to eye spot [caused by Bipolaris<br />
sacchari (E.J. Butler) Shoemaker], smut (caused by Sporisorium<br />
scitamineum (Syd.) M. Piepenbr., M. Stoll & Oberw.), and leaf scald<br />
[caused by Xanthomonas albilineans (Ashby) Dowson]. CP 98-1029 is<br />
moderately susceptible to rust (caused by Puccinia melanocephala Syd. &<br />
P. Syd.), Sugarcane mosaic virus strain E., and ratoon stunting disease<br />
(caused by Leifsonia xyli subsp. xyli Evtushenko et al.), and is<br />
susceptible to Sugarcane yellow leaf virus.<br />
<strong>The</strong> following were developed by B.B. Singh, International Institute of<br />
Tropical Agriculture, IITA Kano Station, PMB 3112, Kano, Nigeria; O.O.<br />
Olufajo, Ahmed Bello University, Institute for Agricultural Research, PMB<br />
1044, Zaria, Nigeria; M.F. Ishiyaku, Ahmed Bello University, Institute for<br />
Agricultural Research, PMB 1044, Zaria, Nigeria; H.A. Ajeigbe, International<br />
Institute of Tropical Agriculture, Kano Station, PMB3112, Kano, Nigeria; S.G.<br />
Mohammed, Bayero University, PMB 3011, Kano, Nigeria; R.A. Adeleke,<br />
International Institute of Tropical Agriculture, Kano Station, PMB3112, Kano,<br />
Nigeria. Donated by B.B. Singh, International Institute of Tropical<br />
Agriculture, IITA Kano Station, PMB 3112, Kano, Nigeria. Received 01/11/2006.<br />
PI 64<strong>215</strong>7. Vigna unguiculata (L.) Walp. subsp. unguiculata<br />
Cultivar. "NGVU-05-24"; IT93K-452-1. CV-272. Pedigree - F6 derived line<br />
47
from the cross IT86D-782 X IT90K-76. NGVU-05-24 is an extra-early<br />
(60-day) variety with semi-erect plant type and semi-determinate growth<br />
habit. <strong>The</strong> leaves are broad and dark green. <strong>The</strong> variety is heat tolerant<br />
and photoperiod insensitive and therefore widely adapted. <strong>The</strong> flowers,<br />
which are borne on a purple-pigmented, non-branching-peduncle, have<br />
purple margins on both the wings and standards. <strong>The</strong> purple-pigmented<br />
pods are positioned slightly over the canopy and measure between<br />
15-20cm in length with 12-16 seeds/pod. <strong>The</strong> average number of pods per<br />
plant is between 10-15. <strong>The</strong> seeds are white, medium size (14-16 g/100<br />
seeds) with rough texture and large black eye. <strong>The</strong> grains contain about<br />
25% protein. This variety is resistant to pod shattering and weathering.<br />
<strong>The</strong> seed quality is not affected even if matures during rainy season. It<br />
is resistant to major diseases like anthracnose (Colletotrichum<br />
lindemuthianum), web blight (Corticium solani) , brown blotch<br />
(Colletotrichum capsici), Cercospora leaf spots (Cerscospora cruenta<br />
and Cercospora canescens), Septoria leaf spot (Septoria vignae), scab<br />
(Elsinoe phaseoli), bacterial blight (Xanthomonas vignicola), as well as<br />
cowpea yellow mosaic, southern bean mosaic and cowpea aphid borne<br />
mosaic.<br />
<strong>The</strong> following were developed by B.B. Singh, International Institute of<br />
Tropical Agriculture, IITA Kano Station, PMB 3112, Kano, Nigeria; O.O.<br />
Olufajo, Ahmed Bello University, Institute for Agricultural Research, PMB<br />
1044, Zaria, Nigeria; M.F. Ishiyaku, Ahmed Bello University, Institute for<br />
Agricultural Research, PMB 1044, Zaria, Nigeria; R.A. Adeleke, Ahmed Bello<br />
University, Institute for Agricultural Research, PMB 1044, Zaria, Nigeria;<br />
H.A. Ajeigbe, International Institute of Tropical Agriculture, Kano Station,<br />
PMB3112, Kano, Nigeria; S.G. Mohammed, Bayero University, PMB 3011, Kano,<br />
Nigeria. Donated by B.B. Singh, International Institute of Tropical<br />
Agriculture, IITA Kano Station, PMB 3112, Kano, Nigeria. Received 01/11/2006.<br />
PI 64<strong>215</strong>8. Vigna unguiculata (L.) Walp. subsp. unguiculata<br />
Breeding. Pureline. IT93K-693-2. GP-255. Pedigree - (IT88D-867-11 x<br />
IT90K-76) x IT89KD-374-57. IT93K-693-2 is resistant to Alectra as well<br />
as all the 5 strains of Striga reported in West Africa. Its broad-based<br />
resistance has come from a combination of resistances in its parents.<br />
<strong>The</strong> IT90K-76 derived from B301, confers complete resistance to Striga<br />
and Alectra in Burkina Faso, Cameroon, Mali, Niger, and Nigeria but it<br />
has only moderate level of resistance to the strain from Benin Republic.<br />
<strong>The</strong> local variety, Dan Ila is completely resistant to the Striga strain<br />
from Benin republic. IT93K-693-2 is an extra-early maturing (about<br />
60-day) photo-insensitive and heat tolerant variety with semi-erect<br />
growth habit. It has green plants without purple pigmentation. Its<br />
flowers have white standard petals and purple wing petals. It has medium<br />
size seeds (about 14g 100 seeds-1) with brown color and rough seed coat<br />
texture. It has combined resistance to major diseases and insects. This<br />
has been used as a parent in crosses for identifying DNA markers for<br />
Striga resistance.<br />
PI 64<strong>215</strong>9. Vigna unguiculata (L.) Walp. subsp. unguiculata<br />
Breeding. Pureline. IT97K-205-8. GP-256. Pedigree - F6 line from the<br />
cross IT93K-596-9-12 x IT93K-2046-1. IT97K-205-8 is an extra-early<br />
(about 60-day) heat tolerant and photo-insensitive variety with erect<br />
growth habit. It has purple pigmentation on the joints on stem and<br />
leaves as well as on calyx and pod tips but the flowers white with a<br />
purple line on the back of the standard petal. It has medium size white<br />
48
seeds (about 15 g 100 seeds-1) with rough seed coat. In addition to<br />
being resistant to Striga and Alectra, it has combined resistance to<br />
major diseases and insects. Based on its extra-early maturity and high<br />
yield potential it has performs well in the Sahelian region of Niger<br />
Republic and as a niche crop in wheat-rice system of northern India.<br />
PI 642160. Vigna unguiculata (L.) Walp. subsp. unguiculata<br />
Breeding. Pureline. IT97K-499-35. GP-257. Pedigree - F6 line from the<br />
cross IT93K-596-9-12 x IT93K-2046-1. It is a medium maturing variety<br />
(about 75 days) with semi-erect growth habit. It has purple pigmentation<br />
on the joints on stem and leaves as well as on calyx and pod tips but<br />
the flowers white with a purple line on the back of the standard petal.<br />
It has larger white color seed (about 18 g 100 seeds-1). In addition to<br />
being resistant to Striga and Alectra, it has combined resistance to<br />
major diseases and insect-pests. It has been extensively tested in<br />
Nigeria and based on its consistent high yield, it has been recommended<br />
for release in the northern Guinea Savanna of Nigeria where Septoria,<br />
Striga and Alectra are a major problem.<br />
<strong>The</strong> following were developed by B.B. Singh, International Institute of<br />
Tropical Agriculture, Grain Legume Improvement Program, Ibadan, Oyo, Nigeria;<br />
O.O. Olufajo, Ahmed Bello University, Institute for Agricultural Research,<br />
PMB 1044, Zaria, Nigeria; M.F. Ishiyaku, Ahmed Bello University, Institute<br />
for Agricultural Research, PMB 1044, Zaria, Nigeria; R.A. Adeleke, Ahmed<br />
Bello University, Institute for Agricultural Research, PMB 1044, Zaria,<br />
Nigeria; H.A. Ajeigbe, International Institute of Tropical Agriculture, Kano<br />
Station, PMB3112, Kano, Nigeria; S.G. Mohammed, Bayero University, PMB 3011,<br />
Kano, Nigeria. Donated by B.B. Singh, International Institute of Tropical<br />
Agriculture, IITA Kano Station, PMB 3112, Kano, Nigeria. Received 01/11/2006.<br />
PI 642161. Vigna unguiculata (L.) Walp. subsp. unguiculata<br />
Breeding. Pureline. IT97K-819-118. GP-258. Pedigree - F6 line derived<br />
from the cross IT90K-59-2 x IT88D-867-11. It has semi-spreading growth<br />
habit with medium maturing (about 80 days), drought and heat tolerance<br />
and specially adapted to the drier region. It has medium size brown<br />
color seeds (14 g 100 seeds-1) with rough seed coat. Because of its<br />
consistently good performance in the Sahel and its resistance to Striga,<br />
it has been found promising for cultivation in Niger Republic.<br />
<strong>The</strong> following were developed by Bayer Cropscience, United States. Received<br />
01/11/2006.<br />
PI 642162 PVPO. Gossypium hirsutum L.<br />
Cultivar. "FM 5035LL". PVP 200500185.<br />
PI 642163 PVPO. Gossypium hirsutum L.<br />
Cultivar. "FM 5045BR". PVP 200500186.<br />
<strong>The</strong> following were developed by Seminis Vegetable Seeds, Inc., United States.<br />
Received 01/11/2006.<br />
PI 642164 PVPO. Citrullus lanatus (Thunb.) Matsum. & Nakai<br />
Cultivar. "WSB1102142". PVP 200400185.<br />
49
PI 642165 PVPO. Citrullus lanatus (Thunb.) Matsum. & Nakai<br />
Cultivar. "TML 1104700". PVP 200400186.<br />
PI 642166 PVPO. Capsicum annuum L.<br />
Cultivar. "SBR 99-1165". PVP 200600054.<br />
<strong>The</strong> following were developed by D&PL Technology Holding Company, LLC, Scott,<br />
Mississippi, United States. Received 01/11/2006.<br />
PI 642167 PVPO. Glycine max (L.) Merr.<br />
Cultivar. "5083011". PVP 200600055.<br />
<strong>The</strong> following were developed by Archer Daniels Midland Company, Illinois,<br />
United States. Received 01/11/2006.<br />
PI 642168 PVPO. Phaseolus vulgaris L.<br />
Cultivar. "SEABISKIT". PVP 200600056.<br />
<strong>The</strong> following were developed by Nunhems BV, Netherlands. Received 01/11/2006.<br />
PI 642169 PVPO. Lactuca sativa L.<br />
Cultivar. "MULTY". PVP 200600057.<br />
<strong>The</strong> following were developed by Progeny Advanced Genetics, Inc., Salinas,<br />
California, United States. Received 01/11/2006.<br />
PI 642170 PVPO. Lactuca sativa L.<br />
Cultivar. "VICTORY". PVP 200600058.<br />
<strong>The</strong> following were developed by WestBred LLC, United States. Received<br />
01/11/2006.<br />
PI 642171 PVPO. Triticum aestivum L. subsp. aestivum<br />
Cultivar. Pureline. "TROOPER". PVP 200600061. Pedigree - Keystone/Ivan.<br />
<strong>The</strong> following were developed by Seminis Vegetable Seeds, Inc., Woodland,<br />
California, United States. Received 03/10/2006.<br />
PI 642172 PVPO. Brassica oleracea var. botrytis L.<br />
Cultivar. "BRM 53-3904". PVP 200600133.<br />
<strong>The</strong> following were donated by Corneli Seed Company, 101 Chouteau Avenue,<br />
Saint Louis, Missouri 63102, United States. Received 1961.<br />
PI 642173. Pisum sativum L.<br />
Cultivar. "FIRST AND BEST"; PEDIGREE EXTRA EARLY; NSL 5132. 54 days to<br />
maturity. Used for home garden and market. Very early. White seeded<br />
variety. Vine 30" tall. Vigorous. Hardy. Medium green. Slender. First<br />
bloom on 8th or 9th node. Pods 2-3/4"long. Borne singly. Light green.<br />
Blunt. Round 5 - 7 peas. Peas small. round. Light green. Fair quality.<br />
50
Dry seed. Round. White to whitish green. Smooth. 2,080 per lb.<br />
Cultivated.<br />
<strong>The</strong> following were donated by Rogers Brothers Seed Company, P.O. Box 4727,<br />
Boise, Idaho 83711-0727, United States. Received 1962.<br />
PI 642174. Pisum sativum L.<br />
Cultivar. "WORLDS RECORD"; NSL 15637. 58 days to maturity. Vine 24".<br />
Wilt resistant. Light. Medium. Pod 3-1/2". Dark. Pointed. Seed large.<br />
Wrinkled. Cultivated.<br />
<strong>The</strong> following were developed by Western Valley Seed Company, Idaho, United<br />
States. Received 1975.<br />
PI 642175. Pisum sativum L.<br />
Cultivar. "GREEN SUGAR"; NSL 90224. PVP 7500045.<br />
<strong>The</strong> following were developed by Gallatin Valley Seed Co., Idaho, United<br />
States. Received 1977.<br />
PI 642176. Pisum sativum L.<br />
Cultivar. "SUGAR SNAP"; NSL 93922. PVP 7600062.<br />
<strong>The</strong> following were developed by Hurst, Gunson, Cooper, Taber, Ltd., England,<br />
United Kingdom. Received 1982.<br />
PI 642177. Pisum sativum L.<br />
Cultivar. "TITANIA"; NSL 176464. PVP 8200008. Garden pea, 70 days to<br />
processing, 45 cm high, determinate, medium stockiness, no branching.<br />
Dark green leaflets, medium wax, marbled. Stipules present, clasping,<br />
marbled. White flowers with greenish venation. Slightly curved pods,<br />
pointed end, medium green, smooth, 9 cm long, 9 seeds/pod. Dry seeds<br />
angular, wrinkled, dull, light green, 20 gm/100 seeds. Resistant to<br />
fusarium wilt.<br />
<strong>The</strong> following were donated by John M. Kraft, USDA, ARS, Irrigated Agric.<br />
Research & Extension Ctr., 24106 <strong>No</strong>rth Bunn Road, Prosser, Washington 99350,<br />
United States. Received 1983.<br />
PI 642178. Pisum sativum L.<br />
Cultivar. "RR-1178"; NSL 183012. GP-33. Pedigree - Parentage is Early<br />
White Sugar 40. <strong>Plant</strong> height 76 cm. Blooms on 14th - 15th node. Double<br />
podded. Long, pointed pods. Mixture dimpled and wrinkled green seed.<br />
Resistant to races 1 and 2 Fusarium oxysporum f. sp. pisi. Resistant<br />
root rot caused by F. solani f. sp. pisi. Cultivated.<br />
<strong>The</strong> following were donated by Gene Howard, Cheyenne Hort. Field Station, PO<br />
Box 1087, Cheyenne, Wyoming, United States. Received 05/01/1982.<br />
PI 642179. Pisum sativum L.<br />
Cultivar. AVIATOR; NSL 300827.<br />
51
<strong>The</strong> following were collected by Coleccion Program, Papa del Peru, E.E. La<br />
Molina, Lima, Peru. Donated by Enrique Chujoy, International Potato Center<br />
(CIP), Far East and SE Asia Regional Office, Laguna, Los Banos, Luzon,<br />
Philippines. Received 08/24/2005.<br />
PI 642180. Solanum tuberosum L.<br />
Landrace. CIP 701241; HUAGALINA; Q 44471. Collected 08/24/2005 in<br />
Junin, Peru. Latitude 11° 49' 12" S. Longitude 75° 22' 48" W.<br />
Elevation 3300 m. P. Jauja. Est. Exp. El Mantaro. Primitive cultivar.<br />
Tuber moth resistance.<br />
PI 642181. Solanum tuberosum L.<br />
Landrace. CIP 701591; YURACC CCOMPIS; Q 44472. Collected 08/24/2005 in<br />
Junin, Peru. Latitude 11° 49' 12" S. Longitude 75° 22' 48" W.<br />
Elevation 3300 m. P. Jauja. Est. Exp. El Mantaro. Primitive cultivar.<br />
Tuber moth resistance.<br />
PI 642182. Solanum tuberosum L.<br />
Landrace. CIP 702108; YANA MACUCO; Q 44474. Collected 08/24/2005 in<br />
Junin, Peru. Latitude 11° 49' 12" S. Longitude 75° 22' 48" W.<br />
Elevation 3300 m. P. Jauja. Est. Exp. El Mantaro. Primitive cultivar.<br />
Tuber moth resistance.<br />
<strong>The</strong> following were collected by Zosimo Huaman, International Potato Center,<br />
Apartado 1558, Av. La Universidad <strong>No</strong>. 795, Lima 12, Lima, Peru. Donated by<br />
Enrique Chujoy, International Potato Center (CIP), Far East and SE Asia<br />
Regional Office, Laguna, Los Banos, Luzon, Philippines. Received 08/24/2005.<br />
PI 642183. Solanum tuberosum L.<br />
Landrace. CIP 702218; CHUNGUINA; Q 44475. Collected 08/24/2005 in<br />
Ayacucho, Peru. Latitude 13° 1' 12" S. Longitude 73° 58' 48" W.<br />
Elevation 3600 m. P. La Mar. Hacienda Paria (San Miguel). Primitive<br />
cultivar. Tuber moth resistance.<br />
PI 642184. Solanum tuberosum L.<br />
Landrace. CIP 702244; SUYTU VILQUINA; Q 44476. Collected 08/24/2005 in<br />
Ayacucho, Peru. Latitude 13° 1' 12" S. Longitude 73° 58' 48" W.<br />
Elevation 3600 m. P. La Mar. Hacienda Paria (San Miguel). Primitive<br />
cultivar. Tuber moth resistance.<br />
PI 642185. Solanum tuberosum L.<br />
Landrace. CIP 702460; GAYNA; Q 44478. Collected 08/24/2005 in Huanuco,<br />
Peru. Latitude 9° 42' 0" S. Longitude 76° 46' 12" W. Elevation<br />
3900 m. P. Dos De Mayo. Papahuasi (Pachas). Primitive cultivar. Tuber<br />
moth resistance.<br />
<strong>The</strong> following were collected by Luis E. Lopez, International <strong>Plant</strong> Genetic<br />
<strong>Resources</strong> Institute, c/o CIAT, Apto. Aereo 6713, Cali, Valle, Colombia.<br />
Donated by Enrique Chujoy, International Potato Center (CIP), Far East and SE<br />
Asia Regional Office, Laguna, Los Banos, Luzon, Philippines. Received<br />
08/24/2005.<br />
52
PI 642186. Solanum tuberosum L.<br />
Landrace. CIP 702860; YUGUIMA; Q 44484. Collected 08/24/2005 in Puno,<br />
Peru. Latitude 15° 18' 36" S. Longitude 69° 58' 12" W. Elevation<br />
3850 m. P. Huancane. Taraco. Primitive cultivar. Tuber moth<br />
resistance. Late blight resistance.<br />
PI 642187. Solanum tuberosum L.<br />
Landrace. CIP 702929; PACIENCIA; Q 44486. Collected 08/24/2005 in<br />
Cuzco, Peru. Latitude 13° 21' 13" S. Longitude 71° 40' 12" W.<br />
Elevation 3850 m. P. Paucartambo. Hacienda Chahuaitiri (Colquep.<br />
Primitive cultivar. Tuber moth resistance.<br />
<strong>The</strong> following were collected by Coleccion Universidad Nacional del Centro,<br />
Huancayo, Peru. Donated by Enrique Chujoy, International Potato Center (CIP),<br />
Far East and SE Asia Regional Office, Laguna, Los Banos, Luzon, Philippines.<br />
Received 08/24/2005.<br />
PI 642188. Solanum tuberosum L.<br />
Landrace. CIP 703019; POLLUNTA CHATA; Q 44487. Collected 08/24/2005 in<br />
Junin, Peru. Latitude 11° 31' 12" S. Longitude 75° 39' 0" W.<br />
Elevation 3800 m. P. Tarma. Huaricolca. Primitive cultivar. Tuber<br />
moth resistance.<br />
<strong>The</strong> following were collected by Coleccion Central Colombiana, Estacion<br />
Experimental de Papa, Ministerio de Agriculture, Bogota, Cundinamarca,<br />
Colombia. Donated by Enrique Chujoy, International Potato Center (CIP), Far<br />
East and SE Asia Regional Office, Laguna, Los Banos, Luzon, Philippines.<br />
Received 08/24/2005.<br />
PI 642189. Solanum tuberosum L.<br />
Landrace. CIP 703380; RUBI; Q 44488. Collected 08/24/2005 in Valle,<br />
Colombia. Latitude 3° 31' 48" N. Longitude 76° 16' 48" W.<br />
Elevation 1085 m. M. Palmira. Palmira. Primitive cultivar. Tuber moth<br />
resistance.<br />
<strong>The</strong> following were donated by USDA, NRCS, <strong>Plant</strong> Materials Center, 1036 Miller<br />
Street Southwest, Los Lunas, New Mexico 87031, United States. Received 1963.<br />
PI 642190. Panicum virgatum L.<br />
A 6606; NSL 22972; FALCON.<br />
<strong>The</strong> following were donated by South Dakota State University, Dept. of<br />
Horticulture and Forestry, Brookings, South Dakota 57007, United States.<br />
Received 1964.<br />
PI 642191. Panicum virgatum L.<br />
SOUTH DAKOTA 10; NSL 29896; SUMMER.<br />
<strong>The</strong> following were donated by University of Nebraska, Nebraska Agr. Exp.<br />
Sta., Lincoln, Nebraska, United States. Received 1967.<br />
53
PI 642192. Panicum virgatum L.<br />
Cultivar. "PATHFINDER"; REG NO 17; NSL 54086. CV-17.<br />
<strong>The</strong> following were donated by Arvid Boe, Native Grasses Curator, <strong>No</strong>rth Dakota<br />
State University, Fargo, <strong>No</strong>rth Dakota 58105, United States. Received 1983.<br />
PI 642193. Panicum virgatum L.<br />
NSL 196671; 70SG 001.<br />
PI 642194. Panicum virgatum L.<br />
NSL 196672; 70SG 002.<br />
PI 642195. Panicum virgatum L.<br />
NSL 196673; 70SG 003.<br />
PI 642196. Panicum virgatum L.<br />
NSL 196674; 70SG 004.<br />
PI 642197. Panicum virgatum L.<br />
NSL 196675; 70SG 005.<br />
PI 642198. Panicum virgatum L.<br />
NSL 196676; 70SG 006.<br />
PI 642199. Panicum virgatum L.<br />
NSL 196677; 70SG 007.<br />
PI 642200. Panicum virgatum L.<br />
NSL 196678; 70SG 008.<br />
PI 642201. Panicum virgatum L.<br />
NSL 196679; 70SG 010.<br />
PI 642202. Panicum virgatum L.<br />
NSL 196680; 70SG 011.<br />
PI 642203. Panicum virgatum L.<br />
NSL 196681; 70SG 012.<br />
PI 642204. Panicum virgatum L.<br />
NSL 196682; 70SG 013.<br />
PI 642205. Panicum virgatum L.<br />
NSL 196683; 70SG 014.<br />
PI 642206. Panicum virgatum L.<br />
NSL 196684; 70SG 015.<br />
PI 642207. Panicum virgatum L.<br />
NSL 196685; 70SG 016.<br />
PI 642208. Panicum virgatum L.<br />
NSL 196686; 70SG 017.<br />
PI 642209. Panicum virgatum L.<br />
NSL 196687; 70SG 018.<br />
54
PI 642210. Panicum virgatum L.<br />
NSL 196688; 70SG 019.<br />
PI 642211. Panicum virgatum L.<br />
NSL 196689; 70SG 020.<br />
PI 642212. Panicum virgatum L.<br />
NSL 196690; 70SG 021.<br />
PI 642213. Panicum virgatum L.<br />
NSL 196691; 70SG 022.<br />
PI 642214. Panicum virgatum L.<br />
NSL 196692; 70SG 023.<br />
PI 642<strong>215</strong>. Panicum virgatum L.<br />
NSL 196693; 70SG 024.<br />
PI 642216. Panicum virgatum L.<br />
NSL 196694; 70SG 025.<br />
PI 642217. Panicum virgatum L.<br />
NSL 196695; 70SG 026.<br />
PI 642218. Panicum virgatum L.<br />
NSL 196696; 70SG 028.<br />
PI 642219. Panicum virgatum L.<br />
NSL 196697; 70SG 029.<br />
PI 642220. Panicum virgatum L.<br />
NSL 196698; 70SG 031.<br />
PI 642221. Panicum virgatum L.<br />
NSL 196699; 70SG 032.<br />
PI 642222. Panicum virgatum L.<br />
NSL 196700; 70SG 033.<br />
PI 642223. Panicum virgatum L.<br />
NSL 196701; 70SG 034.<br />
PI 642224. Panicum virgatum L.<br />
NSL 196702; 70SG 035.<br />
PI 642225. Panicum virgatum L.<br />
NSL 196703; 70SG 036.<br />
PI 642226. Panicum virgatum L.<br />
NSL 196705; 70SG 038.<br />
PI 642227. Panicum virgatum L.<br />
NSL 196706; 70SG 039.<br />
PI 642228. Panicum virgatum L.<br />
NSL 196707; 70SG 040.<br />
55
PI 642229. Panicum virgatum L.<br />
NSL 196708; 70SG 041.<br />
PI 642230. Panicum virgatum L.<br />
NSL 196709; 70SG 042.<br />
PI 642231. Panicum virgatum L.<br />
NSL 196710; 70SG 043.<br />
PI 642232. Panicum virgatum L.<br />
NSL 196711; 70SG 044.<br />
PI 642233. Panicum virgatum L.<br />
NSL 196712; 70SG 045.<br />
PI 642234. Panicum virgatum L.<br />
NSL 196713; 70SG 046.<br />
PI 642235. Panicum virgatum L.<br />
NSL 196714; 70SG 047.<br />
PI 642236. Panicum virgatum L.<br />
NSL 196715; 70SG 048.<br />
PI 642237. Panicum virgatum L.<br />
NSL 196716; 70SG 049.<br />
PI 642238. Panicum virgatum L.<br />
NSL 196717; 70SG 050.<br />
PI 642239. Panicum virgatum L.<br />
NSL 196718; 70SG 051.<br />
PI 642240. Panicum virgatum L.<br />
NSL 196719; 70SG 052.<br />
PI 642241. Panicum virgatum L.<br />
NSL 196721; 70SG 054.<br />
PI 642242. Panicum virgatum L.<br />
NSL 196722; 70SG 055.<br />
PI 642243. Panicum virgatum L.<br />
NSL 196723; 70SG 056.<br />
PI 642244. Panicum virgatum L.<br />
NSL 196724; 70SG 057.<br />
PI 642245. Panicum virgatum L.<br />
NSL 196725; 70SG 058.<br />
PI 642246. Panicum virgatum L.<br />
NSL 196726; 70SG 059.<br />
PI 642247. Panicum virgatum L.<br />
NSL 196727; 70SG 060.<br />
56
PI 642248. Panicum virgatum L.<br />
NSL 196728; 70SG 061.<br />
PI 642249. Panicum virgatum L.<br />
NSL 196729; 70SG 062.<br />
PI 642250. Panicum virgatum L.<br />
NSL 196730; 70SG 063.<br />
PI 642251. Panicum virgatum L.<br />
NSL 196731; 70SG 064.<br />
PI 642252. Panicum virgatum L.<br />
NSL 196732; 70SG 065.<br />
PI 642253. Panicum virgatum L.<br />
NSL 196733; 70SG 066.<br />
PI 642254. Panicum virgatum L.<br />
NSL 196734; 70SG 067.<br />
PI 642255. Panicum virgatum L.<br />
NSL 196735; 70SG 068.<br />
PI 642256. Panicum virgatum L.<br />
NSL 196736; 70SG 069.<br />
PI 642257. Panicum virgatum L.<br />
NSL 196738; 70SG 071.<br />
PI 642258. Panicum virgatum L.<br />
NSL 196739; 70SG 072.<br />
PI 642259. Panicum virgatum L.<br />
NSL 196740; 70SG 073.<br />
PI 642260. Panicum virgatum L.<br />
NSL 196741; 70SG 074.<br />
PI 642261. Panicum virgatum L.<br />
NSL 196742; 70SG 075.<br />
PI 642262. Panicum virgatum L.<br />
NSL 196743; 70SG 076.<br />
PI 642263. Panicum virgatum L.<br />
NSL 196744; 70SG 077.<br />
PI 642264. Panicum virgatum L.<br />
NSL 196745; 70SG 078.<br />
PI 642265. Panicum virgatum L.<br />
NSL 196746; 70SG 079.<br />
PI 642266. Panicum virgatum L.<br />
NSL 196747; 70SG 080.<br />
57
PI 642267. Panicum virgatum L.<br />
NSL 196748; 70SG 081.<br />
PI 642268. Panicum virgatum L.<br />
NSL 196749; 70SG 082.<br />
PI 642269. Panicum virgatum L.<br />
NSL 196750; 71SG 001.<br />
PI 642270. Panicum virgatum L.<br />
NSL 196751; 71SG 002.<br />
PI 642271. Panicum virgatum L.<br />
NSL 196752; 71SG 004.<br />
PI 642272. Panicum virgatum L.<br />
NSL 196753; 71SG 005.<br />
PI 642273. Panicum virgatum L.<br />
NSL 196754; 71SG 006.<br />
PI 642274. Panicum virgatum L.<br />
NSL 196755; 71SG 007.<br />
PI 642275. Panicum virgatum L.<br />
NSL 196756; 71SG 008.<br />
PI 642276. Panicum virgatum L.<br />
NSL 196757; 71SG 009.<br />
PI 642277. Panicum virgatum L.<br />
NSL 196758; 71SG 010.<br />
PI 642278. Panicum virgatum L.<br />
NSL 196759; 71SG 011.<br />
PI 642279. Panicum virgatum L.<br />
NSL 196760; 71SG 012.<br />
PI 642280. Panicum virgatum L.<br />
NSL 196761; 71SG 013.<br />
PI 642281. Panicum virgatum L.<br />
NSL 196762; 71SG 014.<br />
PI 642282. Panicum virgatum L.<br />
NSL 196763; 71SG 015.<br />
PI 642283. Panicum virgatum L.<br />
NSL 196764; 71SG 016.<br />
PI 642284. Panicum virgatum L.<br />
NSL 196765; 71SG 017.<br />
PI 642285. Panicum virgatum L.<br />
NSL 196766; 71SG 018.<br />
58
PI 642286. Panicum virgatum L.<br />
NSL 196767; 71SG 019.<br />
PI 642287. Panicum virgatum L.<br />
NSL 196768; 71SG 020.<br />
PI 642288. Panicum virgatum L.<br />
NSL 196769; 71SG 021.<br />
PI 642289. Panicum virgatum L.<br />
NSL 196770; 71SG 022.<br />
PI 642290. Panicum virgatum L.<br />
NSL 196771; 71SG 023.<br />
PI 642291. Panicum virgatum L.<br />
NSL 196772; 71SG 024.<br />
PI 642292. Panicum virgatum L.<br />
NSL 196773; 71SG 025.<br />
PI 642293. Panicum virgatum L.<br />
NSL 196774; 71SG 026.<br />
PI 642294. Panicum virgatum L.<br />
NSL 196775; 71SG 027.<br />
PI 642295. Panicum virgatum L.<br />
NSL 196776; 71SG 028.<br />
PI 642296. Panicum virgatum L.<br />
NSL 196777; 71SG 029.<br />
PI 642297. Panicum virgatum L.<br />
NSL 196778; 71SG 030.<br />
PI 642298. Panicum virgatum L.<br />
NSL 196779; 71SG 031.<br />
PI 642299. Panicum virgatum L.<br />
NSL 196780; 71SG 032.<br />
PI 642300. Panicum virgatum L.<br />
NSL 196781; 71SG 033.<br />
PI 642301. Panicum virgatum L.<br />
NSL 196782; 71SG 034.<br />
PI 642302. Panicum virgatum L.<br />
NSL 196783; 71SG 035.<br />
PI 642303. Panicum virgatum L.<br />
NSL 196784; 71SG 036.<br />
PI 642304. Panicum virgatum L.<br />
NSL 196785; 71SG 037.<br />
59
PI 642305. Panicum virgatum L.<br />
NSL 196786; 71SG 038.<br />
PI 642306. Panicum virgatum L.<br />
NSL 196787; 71SG 039.<br />
PI 642307. Panicum virgatum L.<br />
NSL 196788; 71SG 040.<br />
PI 642308. Panicum virgatum L.<br />
NSL 196789; 71SG 041.<br />
PI 642309. Panicum virgatum L.<br />
NSL 196790; 71SG 041B.<br />
PI 642310. Panicum virgatum L.<br />
NSL 196791; 71SG 042.<br />
PI 642311. Panicum virgatum L.<br />
NSL 196792; 71SG 043.<br />
PI 642312. Panicum virgatum L.<br />
NSL 196793; 71SG 044.<br />
PI 642313. Panicum virgatum L.<br />
NSL 196794; 71SG 045.<br />
<strong>The</strong> following were developed by 3 Star Lettuce, LLC, United States. Received<br />
02/14/2006.<br />
PI 642314 PVPO. Lactuca sativa L.<br />
Cultivar. "GREEN BAY". PVP 200600062.<br />
<strong>The</strong> following were developed by WestBred LLC, United States. Received<br />
02/14/2006.<br />
PI 642315 PVPO. Triticum aestivum L. subsp. aestivum<br />
Cultivar. Pureline. "LEDGER"; BZ9W96-788-d. PVP 200600063. Pedigree -<br />
BZ9W92-709/MTSF1142 = Hatton/SS-14/3/Lew/Tiber//Redwin. Hard red winter<br />
wheat.<br />
<strong>The</strong> following were developed by Seminis Vegetable Seeds, Inc., United States.<br />
Received 02/14/2006.<br />
PI 642316 PVPO. Phaseolus vulgaris L.<br />
Cultivar. "SECRETARIAT". PVP 200600064.<br />
<strong>The</strong> following were developed by Speight Seed Farms, Inc., <strong>No</strong>rth Carolina,<br />
United States. Received 02/14/2006.<br />
PI 642317 PVPO. Nicotiana tabacum L.<br />
Cultivar. "SPEIGHT 220". PVP 200600065.<br />
60
<strong>The</strong> following were developed by D&PL Technology Holding Corp., United States.<br />
Received 02/14/2006.<br />
PI 642318 PVPO. Glycine max (L.) Merr.<br />
Cultivar. "1486018". PVP 200600066.<br />
PI 642319 PVPO. Glycine max (L.) Merr.<br />
Cultivar. "4189010". PVP 200600067.<br />
<strong>The</strong> following were developed by Oregon Wholesale Seeds Company, Silverton,<br />
Oregon 97381, United States. Received 02/14/2006.<br />
PI 642320 PVPO. Cichorium intybus L.<br />
Breeding. TFI 200. PVP 200600069.<br />
<strong>The</strong> following were developed by Seminis Vegetable Seeds, Inc., United States.<br />
Received 02/14/2006.<br />
PI 642321 PVPO. Phaseolus vulgaris L.<br />
Cultivar. "VALENTINO". PVP 200600097.<br />
PI 642322 PVPO. Spinacia oleracea L.<br />
Cultivar. "LSA661041". PVP 200600099.<br />
PI 642323 PVPO. Spinacia oleracea L.<br />
Cultivar. "LSA661044". PVP 200600100.<br />
<strong>The</strong> following were developed by Pioneer Hi-Bred International, Inc., United<br />
States. Received 03/09/2006.<br />
PI 642324 PVPO. Glycine max (L.) Merr.<br />
Cultivar. "91M30". PVP 200600072.<br />
PI 642325 PVPO. Glycine max (L.) Merr.<br />
Cultivar. "91M61". PVP 200600073.<br />
PI 642326 PVPO. Glycine max (L.) Merr.<br />
Cultivar. "92M02". PVP 200600074.<br />
PI 642327 PVPO. Glycine max (L.) Merr.<br />
Cultivar. "92M03". PVP 200600075.<br />
PI 642328 PVPO. Glycine max (L.) Merr.<br />
Cultivar. "92M33". PVP 200600076.<br />
PI 642329 PVPO. Glycine max (L.) Merr.<br />
Cultivar. "92M51". PVP 200600077.<br />
PI 642330 PVPO. Glycine max (L.) Merr.<br />
Cultivar. "92M52". PVP 200600078.<br />
61
PI 642331 PVPO. Glycine max (L.) Merr.<br />
Cultivar. "92M73". PVP 200600079.<br />
PI 642332 PVPO. Glycine max (L.) Merr.<br />
Cultivar. "92M74". PVP 200600080.<br />
PI 642333 PVPO. Glycine max (L.) Merr.<br />
Cultivar. "92M75". PVP 200600081.<br />
PI 642334 PVPO. Glycine max (L.) Merr.<br />
Cultivar. "93M13". PVP 200600082.<br />
PI 642335 PVPO. Glycine max (L.) Merr.<br />
Cultivar. "93M43". PVP 200600083.<br />
PI 642336 PVPO. Glycine max (L.) Merr.<br />
Cultivar. "93M52". PVP 200600084.<br />
PI 642337 PVPO. Glycine max (L.) Merr.<br />
Cultivar. "93M81". PVP 200600085.<br />
PI 642338 PVPO. Glycine max (L.) Merr.<br />
Cultivar. "93M82". PVP 200600086.<br />
PI 642339 PVPO. Glycine max (L.) Merr.<br />
Cultivar. "93M95". PVP 200600087.<br />
PI 642340 PVPO. Glycine max (L.) Merr.<br />
Cultivar. "93M96". PVP 200600088.<br />
PI 642341 PVPO. Glycine max (L.) Merr.<br />
Cultivar. "94M31". PVP 200600089.<br />
PI 642342 PVPO. Glycine max (L.) Merr.<br />
Cultivar. "95M60". PVP 200600090.<br />
PI 642343 PVPO. Glycine max (L.) Merr.<br />
Cultivar. "95M82". PVP 200600091.<br />
<strong>The</strong> following were developed by D&PL Technology Holding Company, LLC, Scott,<br />
Mississippi, United States. Received 03/09/2006.<br />
PI 642344 PVPO. Glycine max (L.) Merr.<br />
Cultivar. "3235020". PVP 200600148.<br />
PI 642345 PVPO. Glycine max (L.) Merr.<br />
Cultivar. "3233021". PVP 200600149.<br />
PI 642346 PVPO. Glycine max (L.) Merr.<br />
Cultivar. "1336024". PVP 200600150.<br />
PI 642347 PVPO. Glycine max (L.) Merr.<br />
Cultivar. "6188027". PVP 200600151.<br />
PI 642348 PVPO. Glycine max (L.) Merr.<br />
Cultivar. "4183026". PVP 200600152.<br />
62
<strong>The</strong> following were developed by Svalof Weibull AB, Svalow, Malmohus, Sweden.<br />
Received 03/09/2006.<br />
PI 642349. Pisum sativum L.<br />
Cultivar. "SW BENEFIT". PVP 200600101.<br />
<strong>The</strong> following were developed by Chiba Prefecture and Snow Brand Seed Co.,<br />
LTD., Japan. Received 03/09/2006.<br />
PI 642350 PVPO. Agrostis stolonifera var. palustris (Huds.) Farw.<br />
Cultivar. "CY-2". PVP 200600104.<br />
<strong>The</strong> following were developed by Carl W. Johnson, California Cooperative Rice<br />
Research Foundation, Inc., P.O. Box 306, Biggs, California 95917, United<br />
States; Jeff Oster, California Cooperative Rice Research, Foundation, Inc.,<br />
P.O. Box 306, Biggs, California 95917, United States; California Cooperative<br />
Rice Research Foundation, Biggs, California, United States; J.E. Hill,<br />
University of California, Cooperative Extension Service, Dept. of Agronomy &<br />
Range Science, Davis, California, United States; Kent S. McKenzie, California<br />
Rice Research Foundation, P.O. Box 306, Biggs, California 95917, United<br />
States; Farman Jodari, California Cooperative RRF, P.O. Box 306, Biggs,<br />
California 95917, United States; R.G. Mutters, University of California<br />
Cooperative Extension, California, United States; C.A. Greer, University of<br />
California Cooperative Extension, California, United States; W.M. Canevari,<br />
University of California Cooperative Extension, California, United States; K.<br />
Takami, Nippen Suisan Kaisha, Ltd.,, Central Research Laboratory, Tokyo,<br />
Japan. Received 03/09/2006.<br />
PI 642351. Oryza sativa L.<br />
Cultivar. Pureline. "CALAMYLOW-201"; 02-Y-064; BL-1. PVP 200600111;<br />
CV-124. Pedigree - Koshihikari/(Koshihikari/S-101)*2. Released 2006.<br />
Agronomic performance and adaptation is below improved California rice<br />
cultivars, however, it is being released because of its special cooking<br />
and processing characteristics. Sensory panel and mechanical texture<br />
testing indicated Calamylow-201 remained stickier and softer after a 24<br />
hr. staling treatment than the parent Calhikari-201 and the Japanese<br />
grown check sample Koshihikari and performed similar to the low amylose<br />
Japanese grown cultivar 'Milky Queen'. Very similar to Calhikari-201 but<br />
averages one day earlier heading, significantly lower grain yield (13%),<br />
higher whole kernel milling yields, and higher stem rot scores. Kernels<br />
have low apparent amylose content (6% vs. 17%), an opaque endosperm, and<br />
smaller kernel size than Calhikari-201.<br />
<strong>The</strong> following were developed by California Cooperative Rice Research<br />
Foundation, Biggs, California, United States. Received 03/09/2006.<br />
PI 642352 PVPO. Oryza sativa L.<br />
Cultivar. "M-207". PVP 200600112. Pedigree -<br />
Lafitte/5/Calpearl/3/M7/M9//M7/4/Calpearl/6/M-202.<br />
63
<strong>The</strong> following were developed by Seminis Vegetable Seeds, Inc., United States.<br />
Received 03/09/2006.<br />
PI 642353 PVPO. Phaseolus vulgaris L.<br />
Cultivar. "SPARTACUS". PVP 200600113.<br />
PI 642354 PVPO. Phaseolus vulgaris L.<br />
Cultivar. "SEA BISCUIT". PVP 200600114.<br />
<strong>The</strong> following were developed by Rutgers, <strong>The</strong> State University of New Jersey,<br />
New Jersey, United States. Received 03/09/2006.<br />
PI 642355 PVPO. Poa pratensis L.<br />
Cultivar. "BONAIRE". PVP 200600115.<br />
PI 642356 PVPO. Festuca lemanii T. Bastard<br />
Cultivar. "FIREFLY". PVP 200600116.<br />
PI 642357 PVPO. Festuca rubra L. subsp. rubra<br />
Cultivar. "FORTITUDE". PVP 200600117.<br />
<strong>The</strong> following were developed by Wisconsin Alumni Research Foundation,<br />
University of Wisconsin, Madison, Wisconsin, United States. Received<br />
03/09/2006.<br />
PI 642358 PVPO. Avena sativa L.<br />
Cultivar. "KAME". PVP 200600118. Pedigree - B605X//Newdak/Dane.<br />
<strong>The</strong> following were developed by Seminis Vegetable Seeds, Inc., United States.<br />
Received 03/09/2006.<br />
PI 642359 PVPO. Phaseolus vulgaris L.<br />
Cultivar. "ULYSSES". PVP 200600155.<br />
<strong>The</strong> following were developed by Syngenta Seeds, Inc., Idaho 83711-4188,<br />
United States. Received 03/17/2006.<br />
PI 642360. Phaseolus vulgaris L.<br />
Cultivar. "SAILOR"; ROG417. PVP 200600156.<br />
<strong>The</strong> following were developed by Edward J. Souza, University of Idaho,<br />
Aberdeen Research & Extension Center, P.O. Box 870, Aberdeen, Idaho 83210,<br />
United States; Mary Guttieri, University of Idaho, PO Box 870, 1693 S 2700 W,<br />
Aberdeen, Idaho 83210-0530, United States. Received 03/28/2006.<br />
PI 642361. Triticum aestivum L. subsp. aestivum<br />
Cultivar. Pureline. "UI CATALDO"; IDO642; Cataldo; NSGC 9994. Pedigree -<br />
IDO584/4*Alturas. Soft white spring wheat cultivar selected for Hessian<br />
fly resistance conferred by H25. Cataldo is resistant to prevalent<br />
races of stripe rust based on 2005 evaluations. It is indistinguishable<br />
in appearance to the recurrent parent, Alturas. Like Alturas, Cataldo<br />
has reduced amylose content in the endosperm and high starch pasting<br />
64
viscosity. Cataldo has low levels of polyphenol oxidase activity and<br />
moderate gluten strength. <strong>The</strong> head is lax, white chaffed at maturity,<br />
and awned.<br />
PI 642362. Triticum aestivum L. subsp. aestivum<br />
Cultivar. Pureline. "UI WINCHESTER"; A9356S-2; IDO578; Winchester; NSGC<br />
9995. Pedigree - WPB926/WA7702. Winchester is a hard red spring wheat<br />
adapted to northern Idaho and rain-fed environments of the<br />
inter-mountain west. Based on 2005 evaluations it has a resistant<br />
reaction to prevalent races of stripe rust and a resistant reaction to<br />
Hessian fly. Winchester is a strong gluten wheat, similar to or better<br />
than Jefferson. It is a mid-season maturing cultivar, a tall-semi-dwarf<br />
with white chaff and awns.<br />
PI 642363. Triticum aestivum L. subsp. aestivum<br />
Cultivar. Pureline. "UI PETTIT"; A9659S-2; IDO632; Pettit; NSGC 9996.<br />
Pedigree - Pomerelle*2/Fujimi Komugi. Pettit is a soft white spring<br />
wheat cultivar selected for adaptation to irrigation in southern Idaho.<br />
Pettit has moderate adult plant resistance to stripe rust based on 2005<br />
evaluations. It is several days earlier than Alturas and is<br />
approximately 5" shorter than the recurrent parent Pomerelle. Pettit<br />
has a normal amylose content in the endosperm starch and tends to have<br />
very weak gluten strength. <strong>The</strong> head is lax, white chaffed at maturity,<br />
and awned.<br />
PI 642364. Triticum aestivum L. subsp. aestivum<br />
Breeding. Pureline. A99139S-wxy-A-1; IDO630; NSGC 9997. Pedigree -<br />
IDO505/3/Kanto79/2*IDO488//BaiHuo,wxy. IDO630 is a soft white spring<br />
wheat adapted to irrigated production in southern Idaho. It is a "waxy"<br />
wheat, in that it has little or no amylose in its endosperm starch.<br />
IDO630 has weak gluten and moderate kernel size (30 to 35 mg). It is<br />
moderately resistant to stripe rust based on 2005 evaluations. <strong>The</strong> head<br />
is lax, white chafed at maturity, and awned.<br />
PI 642365. Triticum aestivum L. subsp. aestivum<br />
Breeding. Pureline. A00149S-4; IDO629; NSGC 9998. Pedigree -<br />
IDO505*2/3/Kanto79/2*IDO488//BaiHuo,wxy. IDO629 is a soft white spring<br />
wheat adapted to irrigated production in southern Idaho. It is a "waxy"<br />
wheat, in that it has little or no amylose in its endosperm starch.<br />
IDO629 has weak gluten and moderate kernel size (30 to 35 mg). It is<br />
moderately resistant to stripe rust based on 2005 evaluations. <strong>The</strong> head<br />
is lax, white chaffed at maturity, and awned.<br />
<strong>The</strong> following were developed by Luther Talbert, Montana State University,<br />
Department of <strong>Plant</strong> Sciences, Bozeman, Montana 59717, United States; Greg D.<br />
Kushnak, Montana State University, Western Triangle Agric. Research Center,<br />
P.O. Box 1474, Conrad, Montana 59425, United States; G.R. Carlson, Montana<br />
State University, <strong>No</strong>rthern Agric. Research Center, Star Rt. 36, Havre,<br />
Montana 59501, United States; Joyce L. Eckhoff, Montana State University,<br />
Eastern Agric. Research Center, 1501 N. Central Avenue, Sidney, Montana<br />
59270, United States; D.W. Wichman, Montana State University, Central Agric.<br />
Research Center, Moccasin, Montana 59462, United States; Susan P. Lanning,<br />
Montana State University, <strong>Plant</strong> Sciences & <strong>Plant</strong> Pathology Department, Leon<br />
Johnson Hall, 324A, Bozeman, Montana 59717, United States; Robert N.<br />
Stougaard, Montana State University, <strong>No</strong>rthwestern Agric. Research Center,<br />
4570 MT Hwy 35, Kalispell, Montana 59901, United States; Ken Kephart, Montana<br />
65
State University, MSU Southern Ag. Research Center, 748 Railroad Highway,<br />
Huntley, Montana 59037, United States; W.E. Grey, Montana State University,<br />
Bozeman, Montana 59717, United States; D. Nash, Montana State University,<br />
Dept. of <strong>Plant</strong> Sciences and <strong>Plant</strong> Pathology, Bozeman, Montana 59717, United<br />
States; A. Dyer, Montana State University, Dept. of <strong>Plant</strong> Sciences and <strong>Plant</strong><br />
Pathology, Bozeman, Montana 59717, United States. Received 03/20/2006.<br />
PI 642366. Triticum aestivum L. subsp. aestivum<br />
Cultivar. Pureline. "VIDA"; MT0245. CV-996; PVP 200600225. Pedigree -<br />
Scholar/Reeder. Released 2006. Semi-dwarf hard red spring wheat with<br />
semi-solid stems. Mid-late in maturity. Semi-solid stems provide<br />
intermediate resistance to the wheat stem sawfly. Moderately susceptible<br />
to prevalent races of stem rust in Montana. Shows moderate resistance to<br />
stripe rust and Septoria across Montana. Has semi-lax tapering head with<br />
white glumes and awns. Kernels are red, ovate with rounded cheeks and<br />
mid-deep crease.<br />
<strong>The</strong> following were developed by Richard C. Frohberg, <strong>No</strong>rth Dakota State<br />
University, Crop & Weed Science Department, P.O. Box 5051, Fargo, <strong>No</strong>rth<br />
Dakota 58105-5051, United States; J.B. Rasmussen, <strong>No</strong>rth Dakota State<br />
University, Dept. of <strong>Plant</strong> Pathology, Fargo, <strong>No</strong>rth Dakota 58105, United<br />
States; R.W. Stack, <strong>No</strong>rth Dakota State University, <strong>Plant</strong> Pathology<br />
Department, Fargo, <strong>No</strong>rth Dakota 58105, United States; Mohamed Mergoum, <strong>No</strong>rth<br />
Dakota State University, <strong>Plant</strong> Sciences Dept., Loftsgard Hall, Fargo, <strong>No</strong>rth<br />
Dakota 58105-5051, United States; Tim Friesen, USDA-ARS, 1307 N. 18th St.,<br />
Fargo, <strong>No</strong>rth Dakota 58105, United States. Received 03/27/2006.<br />
PI 642367. Triticum aestivum L. subsp. aestivum<br />
Cultivar. Pureline. "HOWARD"; ND 800. CV-998; PVP 200700003; REST 642367<br />
. Pedigree - Parshall/5/Grandin/3/IAS20*4/H567.71//Amidon/4/ND674.<br />
Released 2006. Hard red spring wheat released because it combines a good<br />
level of Fusarium head blight (FHB) [caused by Fusarium graminearum]<br />
resistance derived from the tetraploid wheat relative Triticum<br />
dicoccoides, high grain yield, and high end-use quality for the domestic<br />
and export wheat markets. Awned cultivar with mid-dense, inclined, and<br />
tapering spikes. Culms are white and peduncle is slightly recurved. Awns<br />
are white and 8 to 10 cm in length. Glumes are white, medium,elevated,<br />
and acuminate; shoulder and beak are medium width. Kernels are rounded,<br />
hard, red, and oval; germ is midsized; brush is medium. Semi-dwarf<br />
cultivar with plant height similar to Alsen. Heading date is on average,<br />
similar to Alsen and Steele-ND. Has good resistance to grain shattering,<br />
comparable to Steele-ND; has medium straw strength similar to Dapps.<br />
Grain yield was similar to Steele-ND, Glenn, and Parshall. Mean grain<br />
volume weight was similar to Alsen, and Steele-ND. Grain protein was<br />
comparable to Reeder, Alsen, Steele-ND, Glenn, and Parshall. Flour yield<br />
was comparable to Alsen, and Parshall. Water absorption was<br />
significantly higher than Alsen and Parshall. Mixogram mix time (after 3<br />
hrs. fermentation) was greater than Reeder and similar to Parshall.<br />
Mixing tolerance was slightly longer than Reeder but comparable to<br />
Parshall. Loaf volume was superior to Reeder and less than Glenn.<br />
Resistant to leaf rust (caused by Puccinia triticina) and stem rust<br />
(caused by Puccinia graminis). Exhibited a high level of resistance to<br />
stem rust. Source of resistance similar to that of Steele-ND.<br />
66
<strong>The</strong> following were developed by C.W. Knight, University of Alaska, Agric. and<br />
Forestry Exp. Sta., Fairbanks, Alaska 99775, United States; Robert M. Van<br />
Veldhuizen, University of Alaska Fairbanks, 327 O'Neill Bldg., P.O. Box<br />
757200, Fairbanks, Alaska 99775-7200, United States; M. Zhang, University of<br />
Alaska Fairbanks, Agricultural and Forestry Experiment Station, Fairbanks,<br />
Alaska 99775, United States; S.M. Dofing, Pioneer Hi-Bred International,<br />
21888 N. 950th Road, Adair, Illinois 61411, United States. Received<br />
03/27/2006.<br />
PI 642368. Hordeum vulgare L. subsp. vulgare<br />
Cultivar. Population. "WOODING". CV-326. Pedigree - F8 selection from<br />
the cross: Jo1632/Otal. Released 2006. Six-rowed, rough-awned, early<br />
maturing (72 d), mid-tall (89 cm), spring feed barley. Possesses a<br />
combination of high grain (3089.4 kg/ha-1) and straw yields, good 1000<br />
kernel (43 g) and test weights (56.3 kg/hL-1), high feed quality (15.63%<br />
crude protein, 0.25% P, 0.05% Ca, 6.07% ADF, 30.3% NDF, 80% IVDMD, 35.5%<br />
TNC), and good lodging resistance.<br />
<strong>The</strong> following were developed by Abbott & Cobb, Inc., United States. Received<br />
03/21/2006.<br />
PI 642369 PVPO. Citrullus lanatus (Thunb.) Matsum. & Nakai<br />
Cultivar. "TETRA-10". PVP 200400135.<br />
<strong>The</strong> following were developed by Ag Biotech of Oregon, Inc., Oregon, United<br />
States. Received 03/21/2006.<br />
PI 642370 PVPO. Dactylis glomerata L.<br />
Cultivar. "PAIUTE II". PVP 200500207.<br />
<strong>The</strong> following were developed by Blue Mountain Seeds, Inc., P.O. Box 185,<br />
Imbler, Oregon 97841, United States; Rutgers, <strong>The</strong> State University of New<br />
Jersey, New Jersey, United States. Received 03/21/2006.<br />
PI 642371 PVPO. Poa pratensis L.<br />
Cultivar. "WILD HORSE". PVP 200600157.<br />
<strong>The</strong> following were developed by Pure Seed Testing, Inc., United States.<br />
Received 03/21/2006.<br />
PI 642372 PVPO. Poa pratensis L.<br />
Cultivar. "BLUEBERRY"; Y2K-34; C8-04-Y2K-34. PVP 200600158.<br />
<strong>The</strong> following were developed by Westbred, LLC, United States. Received<br />
03/21/2006.<br />
PI 642373 PVPO. Triticum turgidum subsp. durum (Desf.) Husn.<br />
Cultivar. Pureline. "GRANDE DORO". PVP 200600159. Pedigree -<br />
Mountrail/FA-898-785 = Mountrail//Rugby/Duraking.<br />
67
<strong>The</strong> following were developed by Shamrock Seed Company, Inc., United States.<br />
Received 03/21/2006.<br />
PI 642374 PVPO. Lactuca sativa L.<br />
Cultivar. "CITORI". PVP 200600160.<br />
<strong>The</strong> following were developed by <strong>No</strong>rth Dakota State University Research<br />
Foundation, <strong>No</strong>rth Dakota, United States. Received 03/21/2006.<br />
PI 642375 PVPO. Linum usitatissimum L.<br />
Cultivar. "CARTER". PVP 200600161.<br />
<strong>The</strong> following were developed by Westbred, LLC, United States. Received<br />
03/21/2006.<br />
PI 642376 PVPO. Triticum aestivum L. subsp. aestivum<br />
Cultivar. Pureline. "SNOW CREST". PVP 200600162. Pedigree -<br />
Klasic/IDO377s//PH992-265W.<br />
<strong>The</strong> following were developed by Pure Seed Testing, Inc., United States.<br />
Received 03/21/2006.<br />
PI 642377 PVPO. Lolium perenne L.<br />
Cultivar. "QUICKSTART II". PVP 200600108.<br />
<strong>The</strong> following were developed by Edward J. Souza, University of Idaho,<br />
Aberdeen Research & Extension Center, P.O. Box 870, Aberdeen, Idaho 83210,<br />
United States; Mary Guttieri, University of Idaho, PO Box 870, 1693 S 2700 W,<br />
Aberdeen, Idaho 83210-0530, United States. Received 03/30/2006.<br />
PI 642378. Triticum aestivum L. subsp. aestivum<br />
Cultivar. Pureline. "UI ALTA BLANCA"; A97060S-D-2; IDO628; Alta Blanca;<br />
NSGC 17680. Pedigree - Jefferson/2*IDO470. Hard white spring wheat<br />
cultivar adapted to rainfed production in southern Idaho. Alta Blanca<br />
has adult plant resistance to stripe rust based on 2005 evaluations at<br />
Pullman, WA. It has relatively strong gluten (stronger than Idaho<br />
377s). Alta Blanca is a mid-season, tall semi-dwarf cultivar. <strong>The</strong> head<br />
is lax, white chaffed at maturity, and awned.<br />
PI 642379. Triticum aestivum L. subsp. aestivum<br />
Breeding. Pureline. A03074S-A-12(++); IDO672; NSGC 17681. Pedigree -<br />
Lolo*6/PI603918. Hard white spring wheat genotype adapted to production<br />
in the Pacific <strong>No</strong>rthwest. Indistinguishable from the recurrent parent<br />
cultivar, Lolo, except for resistance to leaf rust conferred by Lr47.<br />
<strong>The</strong> head is lax, white chaffed at maturity, and awned.<br />
PI 642380. Triticum aestivum L. subsp. aestivum<br />
Breeding. Pureline. A03074S-C-26(++); IDO673; NSGC 17682. Pedigree -<br />
Lolo*6/PI603918. Hard white spring wheat genotype adapted to production<br />
in the Pacific <strong>No</strong>rthwest. Indistinguishable from the recurrent parent<br />
cultivar, Lolo, except for resistance to leaf rust conferred by Lr47.<br />
<strong>The</strong> head is lax, white chaffed at maturity, and awned.<br />
68
PI 642381. Triticum aestivum L. subsp. aestivum<br />
Breeding. Pureline. A03074S-A-8(--); IDO674; NSGC 17683. Pedigree -<br />
Lolo*6/PI603918. Hard white spring wheat genotype adapted to production<br />
in the Pacific <strong>No</strong>rthwest. Indistinguishable from the recurrent parent<br />
cultivar, Lolo. Sister selection to IDO672. Distinguished from IDO672<br />
in that it does not have resistance to leaf rust conferred by Lr47. <strong>The</strong><br />
head is lax, white chaffed at maturity, and awned.<br />
PI 642382. Triticum aestivum L. subsp. aestivum<br />
Breeding. Pureline. A03074S-C-8(--); IDO675; NSGC 17684. Pedigree -<br />
Lolo*6/PI603918. Hard white spring wheat genotype adapted to production<br />
in the Pacific <strong>No</strong>rthwest. Indistinguishable from the recurrent parent<br />
cultivar, Lolo. Sister selection to IDO673. Distinguished from IDO673<br />
in that it does not have resistance to leaf rust conferred by Lr47. <strong>The</strong><br />
head is lax, white chaffed at maturity, and awned.<br />
PI 642383. Triticum aestivum L. subsp. aestivum<br />
Breeding. Pureline. A03067S-A-18(++); IDO676; NSGC 17685. Pedigree -<br />
PI603918/6*Jubilee. Soft white spring wheat genotype adapted to<br />
production in the Pacific <strong>No</strong>rthwest. Indistinguishable from the<br />
recurrent parent cultivar, Jubilee, except for resistance to leaf rust<br />
conferred by Lr47. <strong>The</strong> head is lax, white chaffed at maturity, and aw<br />
ned.<br />
PI 642384. Triticum aestivum L. subsp. aestivum<br />
Breeding. Pureline. A03067S-A-15(--); IDO677; NSGC 17686. Pedigree -<br />
PI603918/6*Jubilee. Soft white spring wheat genotype adapted to<br />
production in the Pacific <strong>No</strong>rthwest. Indistinguishable from the<br />
recurrent parent cultivar, Jubilee. Sib selection to IDO676, but<br />
lacking the leaf rust resistance of IDO676. Susceptible to races of<br />
stripe rust prevalent in the Pacific <strong>No</strong>rthwest in 2005. <strong>The</strong> head is<br />
lax, white chaffed at maturity, and awned.<br />
PI 642385. Triticum aestivum L. subsp. aestivum<br />
Breeding. Pureline. A03255S-A-25(++); IDO678; NSGC 17687. Pedigree -<br />
PI603918/6*Jubilee. Soft white spring wheat genotype adapted to<br />
production in the Pacific <strong>No</strong>rthwest. Indistinguishable from the<br />
recurrent parent cultivar, Jubilee, except for resistance to leaf rust<br />
conferred by Lr47. Susceptible to races of stripe rust prevalent in the<br />
Pacific <strong>No</strong>rthwest in 2005. <strong>The</strong> head is lax, white chaffed at maturity,<br />
and awned.<br />
PI 642386. Triticum aestivum L. subsp. aestivum<br />
Breeding. Pureline. A03255S-A-20(--); IDO679; NSGC 17688. Pedigree -<br />
PI603918/6*Jubilee. Soft white spring wheat genotype adapted to<br />
production in the Pacific <strong>No</strong>rthwest. Indistinguishable from the<br />
recurrent parent cultivar, Jubilee. Sib selection to IDO678, but<br />
lacking the leaf rust resistance of IDO678. Susceptible to races of<br />
stripe rust prevalent in the Pacific <strong>No</strong>rthwest in 2005. <strong>The</strong> head is<br />
lax, white chaffed at maturity, and awned.<br />
<strong>The</strong> following were developed by USDA, NRCS, Rose Lake <strong>Plant</strong> Materials Center,<br />
7472 Stoll Road, East Lansing, Michigan 48823-9420, United States; Indiana<br />
Department of Natural <strong>Resources</strong>, Division of Fish and Wildlife, Indianapolis,<br />
Indiana, United States. Received 08/22/2005.<br />
69
PI 642387. Sorghastrum nutans (L.) Nash<br />
Uncertain. Prairie View Indiana <strong>Germplasm</strong>; 9086556; Grif 16132. Pedigree<br />
- Collected from native stands (as designated by the Indiana Department<br />
of Natural <strong>Resources</strong>, Wildlife Division) of indiangrass within the state<br />
of Indiana. Seeds from 26 populations were collected from five counties<br />
in Indiana during 1993. Seeds from those populations were combined and<br />
planted into a single crossing block in 1994. Seeds from that crossing<br />
block are the source seed for this release. Released 04/2005. Prairie<br />
View Indiana <strong>Germplasm</strong> indiangrass is a composite of 26 indiangrass<br />
collections and has features consistent with the species. It is a<br />
perennial, warm season bunch grass with short rhizomes and erect stems<br />
that reach a height of 6- to 8-ft at maturity. Leaf blades are rolled<br />
in the bud shoot. Sheaths are round, open and may be hairy at the base.<br />
<strong>The</strong> prominent, membranous clawlike ligules resemble a rifle sight.<br />
Indiangrass has a narrow plumlike seedhead that turns golden at<br />
maturity.<br />
PI 642388. Schizachyrium scoparium (Michx.) Nash<br />
Uncertain. Prairie View Indiana <strong>Germplasm</strong>; 9086557; Grif 16133. Pedigree<br />
- Collected from native stands (as designated by the Indiana Department<br />
of Natural <strong>Resources</strong>, Wildlife Division) of little bluestem within the<br />
state of Indiana. Seeds from six populations were collected from four<br />
counties in Indiana during 1993. Seeds from those populations were<br />
combined and planted into a single crossing block in 1994. Seeds from<br />
that crossing block are the source seed for this release. Released<br />
04/2005. Prairie View Indiana <strong>Germplasm</strong> little bluestem is a composite<br />
of six little bluestem collections and has features consistent with the<br />
species. It is a perennial, warm season bunch grass with short rhizomes<br />
and erect stems that reach a height of 2- to 4-ft at maturity. It has a<br />
dense, fibrous root system and flat, narrow basal stems. Sheaths are<br />
purplish at the base; ligules are small and membranous. Leaves are<br />
slightly folded and become reddish-brown at maturity. <strong>The</strong> white, tufted<br />
seedheads are born in a raceme.<br />
PI 642389. Andropogon gerardii Vitman<br />
Uncertain. Prairie View Indiana <strong>Germplasm</strong>; 9086558; Grif 16134. Pedigree<br />
- Collected from native stands (as designated by the Indiana Department<br />
of Natural <strong>Resources</strong>, Wildlife Division) of big bluestem within the<br />
state of Indiana. Seeds from 20 populations were collected from seven<br />
counties in Indiana during 1993. Seeds from those populations were<br />
combined and planted into a single crossing block in 1994. Seeds from<br />
that crossing block are the source seed for this release. Released<br />
04/2005. Prairie View Indiana <strong>Germplasm</strong> big bluestem is a composite of<br />
20 big bluestem collections and has features consistent with the<br />
species. It is a perennial, warm season bunch grass with short, scaly<br />
rhizomes. Stems are erect, pithy and reach a height of 6- to 8-ft at<br />
maturity. It is very leafy at the base lessening considerably up the<br />
stem. Leaf blades have long, silky hairs that are widely dispersed on<br />
the upper surface. <strong>Plant</strong>s bear 2-6 racemes at the tip of the culms, and<br />
usually some smaller inflorescences from the leaf axils.<br />
<strong>The</strong> following were developed by J.F. Rajewski, University of Nebraska, Dept.<br />
of Agronomy, P.O. Box 830915, Lincoln, Nebraska 68583-0915, United States;<br />
Ismail Dweikat, University of Nebraska, 279 <strong>Plant</strong> Sciences, Agronomy and<br />
Horticulture Department, Lincoln, Nebraska 68583, United States; J.D. Easten,<br />
70
University of Nebraska, Dep. of Agronomy, P.O. Box 830915, Lincoln, Nebraska<br />
68583-0915, United States. Received 03/31/2006.<br />
PI 642390. Sorghum bicolor (L.) Moench subsp. bicolor<br />
Breeding. Pureline. N 585. GP-640. Pedigree - F5 selection from the<br />
cross NSSC5-99ms/NSL 88139/PI 571344. Medium maturity germplasm with<br />
poor panicle exertion. Creamy grain color and tan plant reaction.<br />
Average seed weight: 41.0 g/1000 sd. Acts as a maintainer on the A1<br />
cytoplasm. Photoperiod insensitive and reaches about 118 cm in height.<br />
PI 642391. Sorghum bicolor (L.) Moench subsp. bicolor<br />
Breeding. Pureline. N 586. GP-641. Pedigree - F5 selection from the<br />
cross NSSC5A-2/SC425. Medium maturity germplasm with excellent panicle<br />
exertion. Has white grain color and tan plant reaction. Average seed<br />
weight about 44.1 g/1000 sd. Acts as a maintainer on the A1 cytoplasm.<br />
Photoperiod insensitive and reaches about 96 cm in height.<br />
PI 642392. Sorghum bicolor (L.) Moench subsp. bicolor<br />
Breeding. Pureline. N 589. GP-642. Pedigree - F5 selection from the<br />
cross NSSC5A-122ms/IS23891. Medium maturity germplasm with poor panicle<br />
exertion. Has creamy grain color and tan plant reaction. Average seed<br />
weight about 47.9 g/1000 sd. Acts as a maintainer on A1 cytoplasm.<br />
Photoperiod insensitive and reaches about 114 cm in height.<br />
PI 642393. Sorghum bicolor (L.) Moench subsp. bicolor<br />
Breeding. Pureline. N 590. GP-643. Pedigree - F5 selection from the<br />
cross NSSC5A-99ms/(NSSC5-128ms/IS23891). Medium maturity germplasm with<br />
good panicle exertion. Creamy grain color and tan plant reaction.<br />
Average seed weight about 43.3 g/1000 sd. Acts as a maintainer on the A1<br />
cytoplasm. Photoperiod insensitive and reaches about 101 cm in height.<br />
PI 642394. Sorghum bicolor (L.) Moench subsp. bicolor<br />
Breeding. Pureline. N 591. GP-644. Pedigree - F5 selection from the<br />
cross NSSC5A-128ms/NSL 83891. Medium maturity germplasm with good<br />
panicle exertion. Creamy grain color and tan plant reaction. Average<br />
seed weight about 43.3 g/1000 sd. Acts as a maintainer on A1 cytoplasm.<br />
Photoperiod insensitive and reaches about 106 cm in height.<br />
<strong>The</strong> following were donated by John Durling, USDA-NRCS, Rose Lake <strong>Plant</strong><br />
Materials Center, 7472 Stoll Road, East Lansing, Michigan 48823, United<br />
States; John Leif, USDA, NRCS, Rose Lake <strong>Plant</strong> Materials Center, 7472 Stoll<br />
Road, East Lansing, Michigan 48823, United States; David W. Burgdorf, USDA,<br />
NRCS, Rose Lake <strong>Plant</strong> Materials Center, 7472 Stoll Road, East Lansing,<br />
Michigan 49036, United States. Received 03/31/2004.<br />
PI 642395. Panicum virgatum L.<br />
Wild. Population. Southlow Michigan <strong>Germplasm</strong> switchgrass; 9084512; NSL<br />
439951. GP-97. Collected 1999 in Michigan, United States. Pedigree -<br />
Collected from native stands (as designated by the Michigan Dept. of<br />
Natural <strong>Resources</strong>, Wildlife Division) in southern half of Michigan's<br />
Lower Peninsula in 1999. Seeds were mixed and planted in a single<br />
crossing block without further purposeful selection. Seed harvested from<br />
this crossing block was released as Southlow Michigan <strong>Germplasm</strong><br />
switchgrass. Perennial, warm-season bunch grass with short, hard, scaly<br />
rhizomes. Stems are erect, often reddish to purplish at the base and<br />
reaching a height of 7 feet. Dense mat of white, silky hairs extends<br />
71
from ligule to upper leaf surface. Inflorescence is open, freely<br />
branched, and pyramidal. Since undergoing no purposeful selection, it<br />
should not differ in rate of spread, seed production, vigor, or behavior<br />
from naturally occurring switchgrass in this area. Anticipated uses<br />
include providing food/cover for wildlife, increasing species diversity,<br />
controlling erosion, and restoring native plant environments.<br />
PI 642396. Sorghastrum nutans (L.) Nash<br />
Wild. Population. Southlow Michigan <strong>Germplasm</strong> Indiangrass; 9084513; NSL<br />
439971. GP-96. Collected 1999. Pedigree - Collected from native stands<br />
(as designated by the Michigan Dept. of Natural <strong>Resources</strong>, Wildlife<br />
Division) in southern half of Michigan's Lower Peninsula in 1999. Seeds<br />
were mixed and planted in a single crossing block without further<br />
purposeful selection. Perennial, warm-season bunch grass with short<br />
rhizomes and erect stems that reach a height of six feet. Leaf blades<br />
are rolled in the bud shoot. Sheaths are round, open and may be hairy at<br />
the base. Prominent, membranous, claw-like ligule resembles a rifle<br />
sight. Narrow plume-like seedhead that turns golden at maturity. Since<br />
undergoing no purposeful selection, it should not differ in rate of<br />
spread, seed production, vigor, or behavior from naturally occurring<br />
indiangrass in area. Anticipated uses include providing food/cover for<br />
wildlife, increasing species diversity, controlling erosion, and<br />
restoring native plant environments.<br />
PI 642397. Schizachyrium scoparium (Michx.) Nash<br />
Wild. Population. Southlow Michigan Little bluestem; 9084511; NSL 439965<br />
. GP-2. Collected 1999 in Michigan, United States. Pedigree - Collected<br />
from native stands (as designated by the Michigan Department of Natural<br />
<strong>Resources</strong>, Wildlife Division) in the southern half of Michigan's Lower<br />
Peninsula in 1999. Seeds were mixed and planted in a single crossing<br />
block without further purposeful selection. Perennial, warm season bunch<br />
grass that grows 2-4 feet tall. Dense, fibrous root system and flat,<br />
narrow basal stems. Sheaths are purplish at base. Ligules are small and<br />
membranous. Leaves are slightly folded and become reddish-brown at<br />
maturity. White, tufted seedheads are borne on a raceme. Since<br />
undergoing no purposeful selection it should not differ in rate of<br />
spread, seed production, vigor or behavior from naturally occurring<br />
little bluestem in area. Anticipated uses include providing food/cover<br />
for wildlife, increasing species diversity, controlling erosion, and<br />
restoring native plant environments.<br />
PI 642398. Andropogon gerardii Vitman<br />
Wild. Population. Southlow Michigan Big Bluestem; 9084510; NSL 439900.<br />
GP-1. Collected 1999 in Michigan, United States. Pedigree - Collected<br />
from 22 native stands (as designated by the Michigan Department of<br />
Natural <strong>Resources</strong>, Wildlife Division) in southern half of Michigan's<br />
Lower Peninsula in 1999. Seeds were mixed and planted in a single<br />
crossing block without further purposeful selection. Perennial,<br />
warm-season bunch grass with short, scaly rhizomes. Stems are erect and<br />
pithy and can reach a height of 8 feet. Very leafy at base, lessening<br />
considerably up the stem. Leaf blades have long, silky hairs widely<br />
dispersed on the upper surface. <strong>Plant</strong>s bear 2-6 racemes at the tip of<br />
the culms, and usually some smaller inflorescences from leaf axils.<br />
Since undergoing no purposeful selection it should not differ in rate of<br />
spread, seed production, vigor, or behavior from naturally occurring big<br />
bluestem in area. Anticipated uses include providing food/cover for<br />
72
wildlife, increasing species diversity, controlling erosion, and<br />
restoring native plant environments.<br />
<strong>The</strong> following were collected by Paul Meyer, <strong>The</strong> University of Pennsylvania,<br />
Morris Arboretum, 9414 Meadowlark Avenue, Philadelphia, Pennsylvania 19118,<br />
United States; Joseph Postman, USDA, ARS, National <strong>Germplasm</strong> Repository,<br />
33447 Peoria Road, Corvallis, Oregon 97333-2521, United States; Marine<br />
Mosulishvili, <strong>Plant</strong> Systematics, Institute of Botany, Georgian Academy of<br />
Sciences, Kojori road 1, Tbilisi, Georgia; Giorgi Arabuli, State Museum of<br />
Georgia, Tbilisi, Georgia. Donated by Joseph Postman, USDA, ARS, National<br />
<strong>Germplasm</strong> Repository, 33447 Peoria Road, Corvallis, Oregon 97333-2521, United<br />
States. Received 10/26/2004.<br />
PI 642399. Ribes petraeum var. biebersteinii (Berland.) C. K. Schneid.<br />
Wild. GE-2004-045; CRIB 1415. Collected 09/26/2004 in Georgia. Latitude<br />
42° 33' 48" N. Longitude 45° 2' 14" E. Elevation 2054 m.<br />
Tush-Pshav-Kevsureti (Mtskheta-Mtianeti) province. Pedigree - Collected<br />
from the wild in the Republic of Georgia.<br />
<strong>The</strong> following were donated by Shawn Belt, USDA, NRCS, National <strong>Plant</strong><br />
Materials Center, Bldg. 509, BARC - East, Beltsville, Maryland 20705, United<br />
States. Received 10/25/2005.<br />
PI 642400. Sambucus cerulea Raf.<br />
Cultivar. "Blanchard Blue Elderberry OP"; CSAM 170. Pedigree - Open<br />
pollinated seed from Blanchard blue elderberry.<br />
<strong>The</strong> following were developed by Gregory Fenchel, USDA-NRCS, Los Lunas <strong>Plant</strong><br />
Materials Center, 1036 Miller SW, Los Lunas, New Mexico 87031, United States;<br />
L. Michael English, New Mexico State University, NMSU Agricultural Science<br />
Center, 1036 Miller Street SW, Los Lunas, New Mexico 87031, United States;<br />
David Dreesen, USDA-NRCS, Los Lunas <strong>Plant</strong> Materials Center, 1036 Miller SW,<br />
Los Lunas, New Mexico 87031, United States; Danny Goodson, USDA-NRCS, Los<br />
Lunas <strong>Plant</strong> Materials Center, 1036 Miller SW, Los Lunas, New Mexico 87031,<br />
United States. Received 03/14/2006.<br />
PI 642401. Muhlenbergia asperifolia (Nees & Meyen ex Trin.) Parodi<br />
Cultivated. Westwater <strong>Germplasm</strong> Alkali muhly; 9066232. Pedigree -<br />
Selected from seed originally collected in 1993, 1.5 miles north of San<br />
Juan Power <strong>Plant</strong> (R30W T30N S6NW 1/4, elevation = 1574 meters), south of<br />
the town of Fruitland, New Mexico. <strong>Plant</strong>s growing in a damp arroyo<br />
bottom on clay loam soil of the Blancot soil series. One collection was<br />
seeded in 1994 at Los Lunas PMC and evaluated for survival under<br />
agronomic conditions. After 3 years of evaluation, plants were selected<br />
for hardiness and seed was harvested from plants. Seed was then sown<br />
into a second field and plants were evaluated for hardiness for 5 years.<br />
In 2003, seed was collected from hardiest plants to establish the<br />
Westwater <strong>Germplasm</strong> field of alkali muhly. Released 02/08/2006. Native<br />
warm-season perennial sod grass with plants decumbent up to 60 cm tall<br />
having open panicles and spikelets. Foliage is yellow-green and the<br />
flower is purple. Potential use includes erosion control, wildlife food<br />
and cover, restoration of disturbed sites, and increasing plant<br />
diversity of riparian areas.<br />
73
<strong>The</strong> following were developed by Hans-Henning Muendel, Agriculture Canada,<br />
Lethbridge Research Station, Crop Sciences Section, Research Station,<br />
Lethbridge, Alberta T1J 4B1, Canada; F. Kiehn, Agriculture and Agri-Food<br />
Canada, Research Centre, Unit 100 - 101 Route 100, Morden, Manitoba R6M 1Y5,<br />
Canada; H.C. Huang, Agriculture and Agri-Food Canada, Lethbridge Research<br />
Center, P.O. Box 3000, Lethbridge, Alberta T1J 4B1, Canada; Robert L. Conner,<br />
Agriculture and Agri-Food Canada, Morden Research Station, Unit 100-101,<br />
Morton, Manitoba R6M 1Y5, Canada; Parthiba Balasubramanian, Agriculture and<br />
Agri-Food Canada, Morden Research Station, Unit 100 - 101 Route 100, Morden,<br />
Manitoba R6M 1Y5, Canada. Received 04/10/2006.<br />
PI 642402. Phaseolus vulgaris L.<br />
Cultivar. Pureline. "AGRINTO"; L02B662. CV-265. Pedigree -<br />
L95B147/L97B203. A tall, partially upright pinto common bean. Tested in<br />
wide-row dry bean registration trials in Alberta and Saskatchewasn,<br />
Canada for 2 years. Resistant to both yellow and orange strains of<br />
bacterial wilt [caused by Curtobacterium flaccumfasciens pv.<br />
flaccumfasciens]; is resistant to race 73 of anthracnose [caused by<br />
Colletotrichum lindemuthianum]; is moderately resistant to white mold<br />
[caused by Sclerotinia sclerotiorum]. Well adapted to wide-row irrigated<br />
production of the Canadian prairies, with yields comparable to Othello.<br />
<strong>The</strong> following were developed by Phil Bregitzer, USDA-ARS, National Small<br />
Grains <strong>Germplasm</strong> Research Facility, 1691 S. 2700 W., Aberdeen, Idaho 83210,<br />
United States; J.C. Whitmore, University of Idaho, Tetonia Research &<br />
Extension Center, 888 West Highway 33, Newdale, Idaho 83436, United States;<br />
Juliet M. Windes, University of Idaho, Aberdeen Research & Extension Center,<br />
P.O. Box 870, Aberdeen, Idaho 83210, United States; Victor Raboy, USDA, ARS,<br />
1691 South 2700 West, Aberdeen, Idaho 83210, United States; Don Obert,<br />
USDA-ARS, 1691 S. 2700 W., Aberdeen, Idaho 83210, United States. Received<br />
04/03/2006.<br />
PI 642403. Hordeum vulgare L. subsp. vulgare<br />
Cultivar. Pureline. "HERALD"; 00ID1550; NSGC 9999. CV-331. Pedigree -<br />
Colter//Pmut422/Colter Pmut422 is a sodium-azide mutant in<br />
Harrington. Released 2006. Herald is a low-phytate 6-rowed spring feed<br />
barley. It has a semi-lax spike that remains upright at maturity. Awns<br />
are smooth. Rachilla hairs are long. Hulls are slightly wrinkled.<br />
Kernels have a transverse crease at the base. Aleurone is white. He<br />
rald, relative to other cultivars, has a slight reduction in grain total<br />
phosphorus, a significant reduction in grain phytate (myo-inositol<br />
1,2,3,4,5,6-hexakisphosphate) coupled, and a significant elevation in<br />
grain inorganic P. Based on measurements of grain grown in four Idaho<br />
locations in 2005, total P content was 3.07 mg g-1 (91% of Colter and<br />
88% of Baronesse), phytate P content was 1.2 mg g-1 (55% of Colter and<br />
56% of Baronesse), and inorganic P was 0.23 mg g-1 (383% of Colter and<br />
366% of Baronesse).<br />
<strong>The</strong> following were donated by USDA, SCS, <strong>Plant</strong> Materials Center, Route 3, Box<br />
<strong>215</strong>A, Coffeeville, Mississippi 38922, United States. Received 1987.<br />
PI 642404. Senna marilandica (L.) Link<br />
190-V-NPMM 2.<br />
74
<strong>The</strong> following were developed by Robert A. Graybosch, USDA-ARS, University of<br />
Nebraska, 314 Biochem Hall, Lincoln, Nebraska 68583, United States. Received<br />
04/12/2006.<br />
PI 642405. Triticum aestivum L. subsp. aestivum<br />
Breeding. Pureline. N97L9534; NSGC 17689. Pedigree - Siouxland/4*N86L177<br />
. Hard red winter wheat. Strong gluten, 1BL.1RS.<br />
PI 642406. Triticum aestivum L. subsp. aestivum<br />
Breeding. Pureline. N97L9522; NSGC 17690. Pedigree - Siouxland/4*N86L177<br />
. Hard red winter wheat. Strong gluten, 1BL.1RS.<br />
PI 642407. Triticum aestivum L. subsp. aestivum<br />
Breeding. Pureline. N97L9531; NSGC 17691. Pedigree - Siouxland/4*N86L177<br />
. Hard red winter wheat. Strong gluten, 1BL.1RS.<br />
PI 642408. Triticum aestivum L. subsp. aestivum<br />
Breeding. Pureline. NO2Y5078; NSGC 17692. Pedigree -<br />
Yuma//T-57/3/Lamar/4/4*Yuma/5/(KS91H184/Arlin S/KS91HW29//NE89526). Hard<br />
red winter wheat. Resistant to WSMV.<br />
PI 642409. Triticum aestivum L. subsp. aestivum<br />
Breeding. Pureline. NO2Y5106; NSGC 17693. Pedigree -<br />
Yuma//T-57/3/CO850034/4/4*Yuma/5/(KS91H184/Arlin S/KS91HW29//NE89526).<br />
Hard red winter wheat. Resistant to WSMV.<br />
PI 642410. Triticum aestivum L. subsp. aestivum<br />
Breeding. Pureline. NW97S2181t; NSGC 17694. Pedigree - NW97S218<br />
(KS85W663-1-1/KARL92) selection. Hard white winter wheat.<br />
PI 642411. Triticum aestivum L. subsp. aestivum<br />
Breeding. Pureline. NW97S139-1; NSGC 17695. Pedigree -<br />
KSSB-192-3/NE89529. Hard white winter wheat.<br />
<strong>The</strong> following were developed by Jean-Luc Jannink, Iowa State University,<br />
Department of Agronomy, 1208 Agronomy Hall, Ames, Iowa 50011-1010, United<br />
States. Received 04/26/2006.<br />
PI 642412. Avena sativa L.<br />
Cultivar. Pureline. "BAKER"; IA97105-3. Pedigree - Blaze/Vista. Spring<br />
oat cultivar with high yield potential, very good groat percentage,<br />
white kernels, above average beta-glucan levels, fair resistance to<br />
barley yellow dwarf virus, crown and stem rusts. Of the same maturity as<br />
Ogle but slightly taller. In trials in Iowa, test weight higher than the<br />
test weight of Ogle and similar to Blaze. Midseason variety. Has similar<br />
resistance to lodging as Blaze and Spurs. Barley yellow dwarf virus<br />
tolerance similar to Jim, Ogle, and Spurs. Crown rust (caused by Pucci<br />
nia coronata sp. avenae) resistance similar to Blaze and Spurs.<br />
Susceptible to loose smut (Ustilago avenae). Has white, non-fluorescent<br />
seed.<br />
<strong>The</strong> following were developed by Fred J. Muehlbauer, USDA, ARS, Washington<br />
State University, Grain Legume Genetics & Phys. Res. Unit, Pullman,<br />
Washington 99164-6434, United States; Steven Temple, University of<br />
75
California, Department of Agronomy & Range, 183 Hunt Hall, Davis, California<br />
95616, United States; Weidong Chen, USDA, ARS, Washington State University,<br />
303 Johnson Hall, Pullman, Washington 99164, United States. Received<br />
04/21/2006.<br />
PI 642413. Cicer arietinum L.<br />
Cultivar. Pureline. "DYLAN". CV-267; PVP 200700283. Pedigree - F8<br />
selection from the cross Blanco Lechoso/Dwelley. Large seeded kabuli<br />
type chickpea with good resistance to ascochyta blight [caused by<br />
Ascochyta rabiei]. Has a fern leaf structure that differs from the<br />
unifoliolate leaf structure typical of Sanford, Dwelley and Sierra.<br />
<strong>Plant</strong>s are branched at the base and have an indeterminate flowering<br />
habit. Pods are rhomboid-ellipsoid and have glandular trichomes, which<br />
give them a pubescent appearance. Pods have one and occasionally two<br />
seeds. Seeds average 56.8 g per 100 sd. Light-cream colored seeds are<br />
lighter than Sierra and Dwelley.<br />
<strong>The</strong> following were developed by Richard Percy, USDA, ARS, U.S. Arid-Land<br />
Agricultural, Research Center, Maricopa, Arizona 85239, United States; Roy<br />
Cantrell, Cotton Incorporated, 6399 Weston Parkway, Cary, <strong>No</strong>rth Carolina<br />
27513, United States; Mauricio Ulloa, USDA, ARS, W.I.C.S. Research Unit,<br />
17053 N. Shafter Ave., Shafter, California 93263, United States; R.<br />
Hutmacher, University of California Shafter, 17053 N. Shafter Avenue,<br />
Shafter, California 93263, United States. Received 04/13/2006.<br />
PI 642414. Gossypium hirsutum L.<br />
Breeding. Pureline. SJ-U86. GP-868. Pedigree - FiberMax 958/SG 248.<br />
Possesses superior lint yield, fiber length and competitive fiber<br />
strength under heat stress environments compared to Acala cottons of CA.<br />
In far west, SJ-U86 provides alternative source for improving heat<br />
tolerance in Acala cottons because of its excellent yield and fiber<br />
characteristics. Across CA, AZ and GA, yielded (1960 kg ha-1)<br />
significantly better than 2 check varieties Phytogen 72 (1467 kg ha-1)<br />
and Maxxa (1207 kg ha-1), and its parents, FiberMax 958 (1652 kg ha-1)<br />
and SG 248 (1791 kg ha-1). Lint percent exceeded 41% in all locations<br />
and exceeded 44% in CA on replicated 50 feet plot size. <strong>Plant</strong> height at<br />
maturity in CA (1.38 m) exceeded FiberMax 958 (1.25 m), but was<br />
comparable to Phytogen 72 (1.33 m). <strong>Plant</strong> height at maturity generally<br />
reflected its relative maturity time, being an intermediate among full<br />
season Acala cotton varieties in CA. Fiber lengths (UHM) were superior<br />
to FiberMax 958 parent (28.7 mm) when averaged across locations. Fiber<br />
length uniformity (82.9%) comparable to FiberMax 958 (82.5%) and Acala<br />
cultivars, Phytogen 72 (83.5%) and Maxxa (83.5%). Had significantly<br />
greater fiber bundle strength than either of its parents, 34.0 cN vs a<br />
mean of 31.9 cN. Fiber fineness (AFIS) (178 mtex) lower than FiberMax 95<br />
8 (181 mtex) and simlar to Phytogen 72 (178 mtex). At Univ. of CA<br />
non-approved upland trials in 2004 at Shafter and West Side Field<br />
Stations, it was again compared to check Phytogen 72 (2102 kg ha-1) and<br />
Maxxa (1841 kg ha-1), and to recent release AGC 375 (2169 kg ha-1).<br />
Average across locations, lint yield (2416 kg ha-1) exceeded average<br />
across check by 23% and of AGC 375 by 11%. HVI fiber quality matched<br />
that of Acala check.<br />
<strong>The</strong> following were developed by Robert Hunger, Oklahoma State University,<br />
Dept. of <strong>Plant</strong> Pathology, 110 NRC, Stillwater, Oklahoma 74078-9947, United<br />
76
States; Brett F. Carver, Oklahoma State University, Dept. of <strong>Plant</strong> & Soil<br />
Sciences, 368 Agriculture Hall <strong>No</strong>rth, Stillwater, Oklahoma 74078, United<br />
States; David R. Porter, USDA, ARS, 1301 N. Western Road, Stillwater,<br />
Oklahoma 74075-2714, United States; B.W. Seabourn, USDA, ARS, Grain Marketing<br />
and Production Research Center, Hard Winter Wheat Quality Lab., Manhattan,<br />
Kansas 66506, United States; A.R. Klatt, Oklahoma State University, Dept. of<br />
<strong>Plant</strong> and Soil Sciences, Stillwater, Oklahoma 74078, United States; B.C.<br />
Martin, Oklahoma State University, Dept. of <strong>Plant</strong> and Soil Sciences,<br />
Stillwater, Oklahoma 74078, United States; P. Rayas-Duarte, Oklahoma State<br />
University, Dept. of Biochemistry and Molecular Biology, Stillwater, Oklahoma<br />
74078, United States; Guihua Bai, USDA-ARS, 4008 Throckmorton Hall, Kansas<br />
State University, Manhattan, Kansas 66506, United States; J.T. Edwards,<br />
Oklahoma State University, Dept. of <strong>Plant</strong> and Soil Sciences, Stillwater,<br />
Oklahoma 74078, United States; W.D. Worrall, AgriPro Wheat, P.O. Box 1739,<br />
12167 Hwy 70, Vernon, Texas 76385, United States; F.E. Dowell, USDA-ARS,<br />
Grain marketing and Production Res. Ctr., 1515 College Avenue, Manhattan,<br />
Kansas 66502, United States. Received 04/14/2006.<br />
PI 642415. Triticum aestivum L. subsp. aestivum<br />
Cultivar. Pureline. "OK BULLET"; OK00514. PVP 200600173; CV-999.<br />
Pedigree - KS96WGRC39/Jagger. Released 2005. OK Bullet shows moderately<br />
early arrival to first-hollow-stem (FHS) stage and moderately early<br />
heading date. It reaches the FHS stage in central Oklahoma 2 d later<br />
than Jagger and 16 d earlier than 2174 Heading date is intermediate to<br />
Jagger (3 d earlier) and 2174 (2 d later). Its juvenile growth habit<br />
is erect to semi-erect. Though it is postulated to contain Rht-B1b, OK<br />
Bullet exceeds most currently grown hard winter wheat cultivars in plant<br />
height. It is about 8 cm taller than Jagger and 6 cm taller than 2174.<br />
OK Bullet shows a tolerant reaction to aluminum (Al) toxicity in low-pH<br />
field conditions (pH=4.0-4.5), and shows the same banding pattern as<br />
Jagger for the SSR markers, wmc331 and gdm125, and the gene marker for<br />
malate release, ALMT1, on chromosome 4DL.. Based on field<br />
observations in Oklahoma, OK Bullet is moderately resistant to Wheat<br />
soilborne mosaic and Wheat spindle streak mosaic virus, but moderately<br />
susceptible to Barley yellow dwarf virus. Based on field observations<br />
of adult plants across Oklahoma through 2005, it shows a resistant<br />
reaction to both leaf rust, caused by Puccinia triticina Eriks, and<br />
stripe rust, caused by P. striiformis Westendorp. f. sp. tritici. Based<br />
on greenhouse observations, OK Bullet is moderately resistant to tan<br />
spot (Pyrenophora tritici-repentis) and to septoria leaf blotch<br />
(Septoria tritici), but susceptible to powdery mildew (Blumeria graminis<br />
f. sp. tritici). It is susceptible to biotypes C and E of the greenbug<br />
(Schizaphis graminum Rondani) and to Hessian fly (Mayetiola destructor).<br />
Flag leaves of OK Bullet at the boot stage are green, recurved, twisted,<br />
and non-waxy. Spikes are white-chaffed, awned, oblong, middense, and<br />
inclined at harvest-maturity. Kernels are red, hard-textured, ovate,<br />
and they have a midwide, middeep crease, rounded cheeks, and large germ.<br />
Milling quality is exceptional, and baking quality is above-average.<br />
<strong>The</strong> following were developed by J. Paul Murphy, <strong>No</strong>rth Carolina State<br />
University, Dept. of Crop Science, Box 7629, Raleigh, <strong>No</strong>rth Carolina<br />
27695-7629, United States; Steven Leath, USDA, ARS, <strong>No</strong>rth Carolina State<br />
University, Dept. of <strong>Plant</strong> Pathology, Raleigh, <strong>No</strong>rth Carolina 27695, United<br />
States; R.A. Navarro, <strong>No</strong>rth Carolina State University, <strong>No</strong>rth Carolina Agric.<br />
Exp. Station, Dept. of Crop Science, Raleigh, <strong>No</strong>rth Carolina 27695-7629,<br />
United States; Thomas S. Cox, <strong>The</strong> Land Institute, 2440 E. Water Well Road,<br />
77
Salina, Kansas 67401, United States; James Kolmer, USDA-ARS, Cereal Disease<br />
Laboratory, 1551 Lindig, St. Paul, Minnesota 55108, United States; David S.<br />
Marshall, USDA, ARS, <strong>No</strong>rth Carolina State University, <strong>Plant</strong> Science Research<br />
Unit, Raleigh, <strong>No</strong>rth Carolina 27695-7616, United States; Christina Cowger,<br />
USDA-ARS, 3409 Gardner Hall - CB 7616, <strong>No</strong>rth Carolina State University,<br />
Raleigh, <strong>No</strong>rth Carolina 27695-7616, United States; C. Gaines, USDA-ARS, Soft<br />
Wheat Quality Lab, Wooster, Ohio 44691, United States. Received 04/17/2006.<br />
PI 642416. Triticum aestivum L. subsp. aestivum<br />
Breeding. Pureline. NC06BGTAG12. GP-813. Pedigree - Saluda*3/PI 538457.<br />
Released 2006. Contains resistance to prevalent isolates of wheat<br />
powdery mildew (caused by Blumeria graminis sp. tritici) occurring in<br />
cultivation in <strong>No</strong>rth Carolina during 1999-2005 seasons. Source of<br />
resistance is T. timopheevii subsp. armeniacum accession PI 538457<br />
collected in Iraq. In comparisons with recurrent parent Saluda,<br />
NC06BGTAG12 is taller and has weaker straw. Heading dates of both lines<br />
are similar.<br />
PI 642417. Triticum aestivum L. subsp. aestivum<br />
Breeding. Pureline. NC06BGTAG13. GP-814. Pedigree - Saluda*3/PI 427442.<br />
Released 2006. Contains resistance to prevalent isolates of wheat<br />
powdery mildew (caused by Blumeria graminis sp. tritici) occurring in<br />
cultivation in <strong>No</strong>rth Carolina during the 1999-2005 seasons. Source of<br />
resistance is T. timopheevii subsp. armeniacum accession PI 427442<br />
collected in Iraq. In comparisons with recurrent parent Saluda,<br />
HC06BGTAG13 heads six days earlier than Saluda and has a taller plant<br />
stature.<br />
<strong>The</strong> following were developed by David Dierig, USDA, ARS, U.S. Arid Land<br />
Agricultural Research Center, 21881 N. Cardon Lane, Maricopa, Arizona 85239,<br />
United States; A.E. Thompson, USDA, ARS, U.S. Arid Land Agricultural Research<br />
Center, 21881 <strong>No</strong>rth Cardon Lane, Maricopa, Arizona 85239, United States; D.T.<br />
Ray, USDA, ARS, U.S. Arid Land Agricultural Research Center, 21881 <strong>No</strong>rth<br />
Cardon Lane, Maricopa, Arizona 85239, United States; T.A. Coffelt, USDA, ARS,<br />
U.S. Arid land Agricultural Research Center, 21881 <strong>No</strong>rth Cardon Lane,<br />
Maricopa, Arizona 85239, United States. Received 04/21/2006.<br />
PI 642418. Vernonia galamensis (Cass.) Less. var. galamensis<br />
Breeding. WCL-VP1. GP-9; REST 642418. Pedigree -<br />
WCL-VP1/6A,12E,15D,21J,26B,29E,35C,36H,38A/A0399 X A0382. Developed by<br />
intraspecific hybrids between a day-neutral photoperiod accession of V.<br />
galamensis subsp. galamensis var. petetiana as a maternal parent, and<br />
three short-day photoperiod accessions. <strong>The</strong> pollen parents included V.<br />
galamensis subsp. galamensis var. ethiopica; var. galamensis; and one<br />
taxonomically unclassified variety. Hybirds were formed by controlled<br />
pollination in greenhouses at Phoenix, Arizona from April to August<br />
1991. <strong>The</strong> F2 generation was grown under long day conditions in 1993 at<br />
Univ. of Arizona, Maricopa Agric. Center. Single plant selections were<br />
increased following each season at the USDA-ARS Puerto Rico Winter<br />
Nursery. Seeds of F3 and F4 generations were sent to nine locations<br />
throughout the U.S. for testing. Single plant selections were made based<br />
on number of flowers initiated. In 1993, the three F3 populations<br />
flowered on average of 95 DAP under long-day conditions. <strong>The</strong> maternal<br />
parent flowered on average of 84 DAP and the three paternal parents did<br />
not flower under long-day conditions. <strong>The</strong> average 1000 seed weight for<br />
78
the maternal, paternal, and hybrids was 1.72 g, 2.90 g, and 2.28 g,<br />
respectively.<br />
PI 642419. Vernonia galamensis (Cass.) Less. var. galamensis<br />
Breeding. WCL-VP2. GP-10; REST 642419. Pedigree - WCL-VP2/49B,49C/A0399<br />
X A0388 AND A0389. Developed by intraspecific hybrids between a<br />
day-neutral photoperiod accession of V. galamensis subsp. galamensis<br />
var. petetiana as a maternal parent, and three short-day photoperiod<br />
accessions. <strong>The</strong> pollen parents included V. galamensis subsp. galamensis<br />
var. ethiopica; var. galamensis; and one taxonomically unclassified<br />
variety. Hybirds were formed by controlled pollination in greenhouses at<br />
Phoenix, Arizona from April to August 1991. <strong>The</strong> F2 generation was grown<br />
under long day conditions in 1993 at Univ. of Arizona, Maricopa Agric.<br />
Center. Single plant selections were increased following each season at<br />
the USDA-ARS Puerto Rico Winter Nursery. Seeds of F3 and F4 generations<br />
were sent to nine locations throughout the U.S. for testing. Single<br />
plant selections were made based on number of flowers initiated. In<br />
1993, the three F3 populations flowered on average of 95 DAP under<br />
long-day conditions. <strong>The</strong> maternal parent flowered on average of 84 DAP<br />
and the three paternal parents did not flower under long-day conditions.<br />
<strong>The</strong> average 1000 seed weight for the maternal, paternal, and hybrids was<br />
1.72 g, 2.90 g, and 2.28 g, respectively.<br />
PI 642420. Vernonia galamensis (Cass.) Less. var. galamensis<br />
Breeding. WCL-VP3. GP-11; REST 642420. Pedigree - WCL-VP3/64B,66BK/A0399<br />
X A0437. Developed by intraspecific hybrids between a day-neutral<br />
photoperiod accession of V. galamensis subsp. galamensis var. petetiana<br />
as a maternal parent, and three short-day photoperiod accessions. <strong>The</strong><br />
pollen parents included V. galamensis subsp. galamensis var. ethiopica;<br />
var. galamensis; and one taxonomically unclassified variety. Hybirds<br />
were formed by controlled pollination in greenhouses at Phoenix, Arizona<br />
from April to August 1991. <strong>The</strong> F2 generation was grown under long day<br />
conditions in 1993 at Univ. of Arizona, Maricopa Agric. Center. Single<br />
plant selections were increased following each season at the USDA-ARS<br />
Puerto Rico Winter Nursery. Seeds of F3 and F4 generations were sent to<br />
nine locations throughout the U.S. for testing. Single plant selections<br />
were made based on number of flowers initiated. In 1993, the three F3<br />
populations flowered on average of 95 DAP under long-day conditions. <strong>The</strong><br />
maternal parent flowered on average of 84 DAP and the three paternal<br />
parents did not flower under long-day conditions. <strong>The</strong> average 1000 seed<br />
weight for the maternal, paternal, and hybrids was 1.72 g, 2.90 g, and<br />
2.28 g, respectively.<br />
<strong>The</strong> following were donated by David A. Lightfoot, Southern Illinois<br />
University at Carbondale, Room 176, Agriculture Building, Carbondale,<br />
Illinois 62901, United States. Received 09/12/2005.<br />
PI 642421 MAP. Glycine max (L.) Merr.<br />
Pureline. FLYER. Developed in United States. Pedigree - A<br />
BC3F2-derived line from the cross A3127 X L24. PI 642421 MAP is a new PI<br />
assignment of PI 534646 representing one of the parents of Flyer x<br />
Hartwig RIL Mapping Population. <strong>The</strong> second parent is Hartwig, PI 543795,<br />
newly assigned PI 642422 MAP. Flyer is one parent of a genetic map<br />
constructed using a recombinant inbred line (RIL) population from the<br />
cross 'Flyer' by 'Hartwig' (FxH) that has been used extensively to<br />
identify quantitative trait loci underlying resistance to soybean sudden<br />
79
death syndrome (SDS) caused by Fusarium solani sp. glycines and soybean<br />
cyst nematode (SCN) caused by Heterodera glycine; yield, seed quality<br />
traits, water deficit, manganese toxicity, and for genome analysis. <strong>The</strong><br />
map was used for positional cloning of Gm NARK, Rpg5, Rhg2, Rhg5, Rfs2<br />
by 2005. <strong>The</strong> population was used to develop an assay for marker-assisted<br />
selection for SDS resistance in the greenhouse. Near-isogenic line<br />
populations have been created from selected RILs for fine mapping and<br />
verification of quantitative trait loci (QTL) detedted in the RIL<br />
population. <strong>The</strong> FxH population is very important for the analysis of<br />
yield QTL and other agronomic traits because it does segregate for<br />
maturity (3-5) and growth habit (det to semi-det) and shares many<br />
alleles with the Essex x Forrest population. <strong>The</strong> registration of this<br />
population allows public access to the population and data generated<br />
from it. This will lead to a joint effort in combating many agronomic<br />
problems.<br />
PI 642422 MAP. Glycine max (L.) Merr.<br />
HARTWIG. Developed in United States. Pedigree - BC3F2-derived line<br />
from the cross 'Forrest' x PI 437654. PI 642422 MAP is a new PI<br />
assignment of PI 543795 representing one of the parents of Flyer X<br />
Hartwig RIL Mapping Population. <strong>The</strong> second parent is Flyer, PI 534646,<br />
newly assigned PI 642421 MAP. Hartwig is the basis of a genetic map<br />
constructed using a recombinant inbred line (RIL) population from the<br />
crosses Flyer x Hartwig and Resnik x Hartwig that have been used<br />
extensively to identify quantitative trait loci underlying resistance to<br />
soybean sudden death syndrome (SDS) caused by Fusarium solani sp.<br />
glycines (Fsg) and soybean cyst nematode (SCN) caused by Heterodera<br />
glycine; yield; seed quality traits; water deficit; manganese toxicity;<br />
and for genome analysis. <strong>The</strong> map was used for positional cloning of Gm<br />
NARK, Rpg5, Rhg2, Rhg5, and Rfs2 by 2005. <strong>The</strong> populations were used to<br />
develop an assay for marker-assisted selection for SDS resistance in the<br />
greenhouse. Near-iosogenic line populations have been created from<br />
selected RILs for fine mapping and verification of quantitative trait l<br />
oci (QTL) detected in the RIL population. <strong>The</strong> FxH and RxH populations<br />
are very important for the analysis of yield QTL and other agronomic<br />
traits because it does segregate for maturity (3-5) and growth habit<br />
(det to semi-det) and shares many alleles with the Essex x Forrest<br />
population. <strong>The</strong> registration of this population allows public access to<br />
the population and data generated from it. This will lead to a joint<br />
effort in combating many agronomic problems.<br />
<strong>The</strong> following were developed by Syngenta Seeds, Inc., Idaho 83711-4188,<br />
United States. Received 04/24/2006.<br />
PI 642423 PVPO. Phaseolus vulgaris L.<br />
Cultivar. "HERRERA". PVP 200600170.<br />
<strong>The</strong> following were developed by Syngenta Seeds, Inc., Stanton, Minnesota<br />
55018, United States. Received 04/25/2006.<br />
PI 642424 PVPO. Zea mays L. subsp. mays<br />
Cultivar. "NP2405". PVP 200600092.<br />
PI 642425 PVPO. Zea mays L. subsp. mays<br />
Cultivar. "NP2414". PVP 200600093.<br />
80
PI 642426 PVPO. Zea mays L. subsp. mays<br />
Cultivar. "NP2482". PVP 200600094.<br />
PI 642427 PVPO. Zea mays L. subsp. mays<br />
Cultivar. "NP2536". PVP 200600095.<br />
PI 642428 PVPO. Zea mays L. subsp. mays<br />
Cultivar. "NP2546". PVP 200600096.<br />
<strong>The</strong> following were donated by Enrique Chujoy, International Potato Center<br />
(CIP), Far East and SE Asia Regional Office, Laguna, Los Banos, Luzon,<br />
Philippines. Received 10/20/2003.<br />
PI 642429. Solanum tuberosum L.<br />
Breeding. "UNICA"; CIP 392797.22; Q 44053. Pedigree - CIP 387521.3 x<br />
APHRODITE. Tuber shape elliptic; skin color red; flesh color cream; good<br />
cooking and processing quality; high yield; extreme resistance to PVX.<br />
<strong>The</strong> following were donated by Haktae Lim, Kangwon National University,<br />
Division of Applied <strong>Plant</strong> Sciences, College of Agriculture and Life Sciences,<br />
Chuncheon, Korea, South. Received 11/05/2003.<br />
PI 642430. Solanum tuberosum L.<br />
Cultivar. "GUI VALLEY"; Q 44058. Excellent cooking quality; long tuber<br />
shape; red eyes; very high specific gravity.<br />
<strong>The</strong> following were donated by Hector Lozoya, Pictipapa, Conjunto Sedagro,<br />
Dom. conocido, Metepec, Mexico 52142, Mexico. Received 08/27/2004.<br />
PI 642431. Solanum tuberosum L.<br />
Breeding. LB7-14; Q 44224. Mexican late blight stock.<br />
<strong>The</strong> following were donated by Enrique Chujoy, International Potato Center<br />
(CIP), Far East and SE Asia Regional Office, Laguna, Los Banos, Luzon,<br />
Philippines. Received 08/24/2005.<br />
PI 642432. Solanum tuberosum L.<br />
Breeding. TM-2; Q 44460. Pedigree - P24.2 x BLK TUB. Tuber moth<br />
breeding stock.<br />
PI 642433. Solanum tuberosum L.<br />
Breeding. TM-3; Q 44461. Pedigree - P24.2 x BLK TUB. Tuber moth<br />
breeding stock.<br />
PI 642434. Solanum tuberosum L.<br />
Breeding. KWPTM24; Q 44462. Pedigree - 2X(TS-S)5 x PTM1.33. Tuber moth<br />
breeding stock.<br />
PI 642435. Solanum tuberosum L.<br />
Breeding. KWPTM29; Q 44463. Pedigree - 2X(TS-2)5 x PTM1.33. Tuber moth<br />
breeding stock.<br />
81
PI 642436. Solanum tuberosum L.<br />
Breeding. (2X)87HW13.7; Q 44464. Pedigree - W4139 x MLT. Tuber moth<br />
breeding stock.<br />
PI 642437. Solanum tuberosum L.<br />
Breeding. (2X)87HM12.16; Q 44465. Pedigree - W973 x SPL. Tuber moth<br />
breeding stock.<br />
<strong>The</strong> following were collected by Coleccion Program, Papa del Peru, E.E. La<br />
Molina, Lima, Peru. Donated by Enrique Chujoy, International Potato Center<br />
(CIP), Far East and SE Asia Regional Office, Laguna, Los Banos, Luzon,<br />
Philippines. Received 08/24/2005.<br />
PI 642438. Solanum tuberosum subsp. andigenum (Juz. & Bukasov) Hawkes<br />
Landrace. ALCCA IMILLA; Q 44467. Collected 08/24/2005 in Cuzco, Peru.<br />
Latitude 11° 49' 12" S. Longitude 75° 22' 48" W. Elevation 3400<br />
m. P. Anta. Zurite. Primitive cultivar. Tuber moth resistance. Tuber<br />
late blight resistance.<br />
PI 642439. Solanum tuberosum subsp. andigenum (Juz. & Bukasov) Hawkes<br />
Landrace. CANASTA; Q 44469. Collected 08/24/2005 in Junin, Peru.<br />
Latitude 11° 49' 12" S. Longitude 75° 22' 48" W. Elevation 3300<br />
m. P. Jauja. Est. Exp. El Mantaro. Primitive cultivar. Tuber moth<br />
resistance. Scab resistance.<br />
PI 642440. Solanum tuberosum subsp. andigenum (Juz. & Bukasov) Hawkes<br />
Landrace. GARHUASH SUITO; Q 44473. Collected 08/24/2005 in Junin, Peru<br />
. Latitude 11° 49' 12" S. Longitude 75° 22' 48" W. Elevation<br />
3300 m. P. Jauja. Est. Exp. El Mantaro. Primitive cultivar. Tuber<br />
moth resistance.<br />
<strong>The</strong> following were collected by Zosimo Huaman, International Potato Center,<br />
Apartado 1558, Av. La Universidad <strong>No</strong>. 795, Lima 12, Lima, Peru. Donated by<br />
Enrique Chujoy, International Potato Center (CIP), Far East and SE Asia<br />
Regional Office, Laguna, Los Banos, Luzon, Philippines. Received 08/24/2005.<br />
PI 642441. Solanum tuberosum subsp. andigenum (Juz. & Bukasov) Hawkes<br />
Landrace. HUICHIRI; Q 44477. Collected 08/24/2005 in Ayacucho, Peru.<br />
Latitude 13° 1' 12" S. Longitude 73° 58' 48" W. Elevation 3600<br />
m. P. La Mar. Hacienda Paria (San Migue. Primitive cultivar. Tuber<br />
moth resistance.<br />
<strong>The</strong> following were collected by J. Vidaurre, Potosi, Bolivia. Donated by<br />
Enrique Chujoy, International Potato Center (CIP), Far East and SE Asia<br />
Regional Office, Laguna, Los Banos, Luzon, Philippines. Received 08/24/2005.<br />
PI 642442. Solanum stenotomum Juz. & Bukasov<br />
Landrace. JANCKO PHINU; Q 44479. Collected 08/24/2005 in Potosi,<br />
Bolivia. Latitude 19° 12' 0" S. Longitude 65° 51' 0" W.<br />
Elevation 3900 m. P. Frias. Tinguipaya. Primitive cultivar. Tuber<br />
moth resistance. Soft rot resistance. Late blight resistance.<br />
Blackleg resistance.<br />
82
<strong>The</strong> following were collected by Zosimo Huaman, International Potato Center,<br />
Apartado 1558, Av. La Universidad <strong>No</strong>. 795, Lima 12, Lima, Peru; J.G. Hawkes,<br />
University of Birmingham, Department of Botony, Edgbasion, Birmingham,<br />
England B15 2TT, United Kingdom; J.P. Hjerting, Kobenhavns Universitet,<br />
Botanisk Have, Oster Farimagsgade 2B, Copenhagen, Copenhagen DK-1353, Denmark.<br />
Donated by Enrique Chujoy, International Potato Center (CIP), Far East and<br />
SE Asia Regional Office, Laguna, Los Banos, Luzon, Philippines. Received<br />
08/24/2005.<br />
PI 642443. Solanum tuberosum subsp. andigenum (Juz. & Bukasov) Hawkes<br />
Landrace. HHCH 4900; Q 44480. Collected 08/24/2005 in La Paz, Bolivia.<br />
Latitude 17° 4' 12" S. Longitude 68° 37' 48" W. Elevation 3900 m.<br />
P. Pacajes. Caquiaviri. Primitive cultivar. Tuber moth resistance.<br />
<strong>The</strong> following were collected by Luis E. Lopez, International <strong>Plant</strong> Genetic<br />
<strong>Resources</strong> Institute, c/o CIAT, Apto. Aereo 6713, Cali, Valle, Colombia.<br />
Donated by Enrique Chujoy, International Potato Center (CIP), Far East and SE<br />
Asia Regional Office, Laguna, Los Banos, Luzon, Philippines. Received<br />
08/24/2005.<br />
PI 642444. Solanum tuberosum subsp. andigenum (Juz. & Bukasov) Hawkes<br />
Landrace. PUCA TROMBOS; Q 44485. Collected 08/24/2005 in Cuzco, Peru.<br />
Latitude 14° 1' 48" S. Longitude 71° 34' 12" W. Elevation 3680 m.<br />
P. Acomayo. Pomacanchi. Primitive cultivar. Tuber moth resistance.<br />
Tuber late blight resistance.<br />
<strong>The</strong> following were donated by Enrique Chujoy, International Potato Center<br />
(CIP), Far East and SE Asia Regional Office, Laguna, Los Banos, Luzon,<br />
Philippines. Received 11/16/2005.<br />
PI 642445. Solanum tuberosum L.<br />
Breeding. M200-30; CIP 780660; Q 44513. M. Bonierbale RFLP mapping<br />
population parent.<br />
<strong>The</strong> following were collected by Coleccion Program, Papa del Peru, E.E. La<br />
Molina, Lima, Peru. Donated by Enrique Chujoy, International Potato Center<br />
(CIP), Far East and SE Asia Regional Office, Laguna, Los Banos, Luzon,<br />
Philippines. Received 11/16/2005.<br />
PI 642446. Solanum tuberosum subsp. andigenum (Juz. & Bukasov) Hawkes<br />
Landrace. CIP 700932; OKELLA QUEHUIL; Q 44514. Collected 11/16/2005 in<br />
Junin, Peru. Latitude 11° 49' 12" S. Longitude 75° 22' 48" W.<br />
Elevation 3300 m. P. Jauja. Est. Exp. El Mantaro. Primitive cultivar.<br />
Tuber moth resistance. Tuber late blight resistance.<br />
<strong>The</strong> following were developed by Phillip Miklas, USDA, ARS, Irrigated Agric.<br />
Research & Extension Ctr., 24106 <strong>No</strong>rth Bunn Road, Prosser, Washington<br />
99350-9687, United States; Shree P. Singh, University of Idaho, Kimberly<br />
Research & Extension Ctr., 3793 <strong>No</strong>rth 3600 East, Kimberly, Idaho 83341-5076,<br />
United States; J. Rusty Smith, USDA-ARS, Crop Genetics and Production<br />
Research Unit, P.O. Box 345, Stoneville, Mississippi 38776, United States.<br />
Received 05/08/2006.<br />
83
PI 642447. Phaseolus vulgaris L.<br />
Breeding. Pureline. USWK-CBB-17. GP-261. Pedigree - F5 derived line from<br />
the cross: 98MSU-837//I9566-21-4-2/USLK-2. Type I determinate bush<br />
growth habit typical of white kidney bean. Yield was 98% of Beluga.<br />
Average weight of 100 seeds was 41 g compared to 44 g for Beluga.<br />
Matured in 91 d, the same as Beluga. Seed appearance was rated<br />
commercially acceptable for the white kidney market class. Exhibits<br />
hypersensitive resistance response to the NL-3 strain of Bean common<br />
mosaic necrosis virus (BCMNV), which infers presence of the I gene for<br />
ressistance to Bean common mosaic virus (BCMV). Resistant to Beet curly<br />
top virus (BCTV). Will be most useful for incorporating resistance to<br />
common bacterial blight into the white kidney market calss, but also<br />
into other large-seeded market classes and green bean of Andean origin<br />
also.<br />
<strong>The</strong> following were developed by Kenneth F. Grafton, <strong>No</strong>rth Dakota State<br />
University, <strong>Plant</strong> Sciences Department, P.O. Box 5051 SU Station, Fargo, <strong>No</strong>rth<br />
Dakota 58105-5051, United States; Jim D. Kelly, Michigan State University,<br />
Department of Crop & Soil Science, 370 <strong>Plant</strong> & Soil Sci. Bldg. MSU, East<br />
Lansing, Michigan 48824-1325, United States; Phillip Miklas, USDA, ARS,<br />
Irrigated Agric. Research & Extension Ctr., 24106 <strong>No</strong>rth Bunn Road, Prosser,<br />
Washington 99350-9687, United States; D. Hauf, Pioneer Hi-Bred International,<br />
Inc., 7250 NW 62nd Ave., Johnston, Iowa 50131, United States. Received<br />
05/08/2006.<br />
PI 642448. Phaseolus vulgaris L.<br />
Breeding. Pureline. USPT-WM-1. GP-262. Pedigree - Derives from a<br />
recombinant inbred population from the cross: Aztec/ND88-106-04. Is an<br />
F5-derived bulk from an individual F2 plant that underwent generation<br />
advance by random single-seed descent method for 4 generations from F2<br />
to F5. USPT-WM-1 was selected based on partial resistance to white mold<br />
and agronomic characteristics across four white mold field environments<br />
in ND and WA in 2001 and 2002. Across environments, mean disease score<br />
based on a subjective scale from 1 to 9, where 1 is no visible infection<br />
and 9 is a completely susceptible reaction, was 3.7 for USPT-WM-1<br />
compared to 6.8 for Aztec and 5.0 for ICA Bunsi. <strong>The</strong> line exhibits<br />
disease avoidance characteristics: upright Type IIb growth habit; open<br />
canopy score of 2.4, where 1 is a completely open and 5 a completely<br />
closed canopy, compared to scores of 2.7 for Aztec and 3.7 for ICA<br />
Bunsi; taller canopy height of 49 cm, compared to 41 and 44 cm for Aztec<br />
and ICA Bunsi; and reduced lodging score of 3.9, where 1 is no lodging<br />
and 9 completely lodged, compared to 6.2 Aztec and 6.3 for ICA Bunsi.<br />
<strong>The</strong> line has mid season 94-d maturity, compared to 90 d for Aztec and<br />
96 d for ICA Bunsi. USPT-WM-1 exhibits the stay-green stem trait with a<br />
score of 2.6, where 1 = 0 to 20% and 5 = 80 to 100% stay-green stem,<br />
compared to 1.8 and 3.8 scores for Aztec and Bunsi, respectively. <strong>The</strong><br />
stay green trait is described as pods reaching harvest maturity while<br />
the branches remain green. Thus, the plant is still likely to be<br />
physiologically active and engaged in plant defense response. Seed size<br />
based on weight of 100 seeds was 33.6 compared to 33 g for Aztec,<br />
however, in the absence of white mold disease pressure weight of 100<br />
seeds for USPT-WM-1 was 4 g less than Aztec. Yield was 2610 kg ha-1<br />
compared to 2290 kg ha-1 for Aztec in a yield trial conducted at<br />
Othello, WA in 2004.<br />
84
<strong>The</strong> following were developed by Advanta Seeds BV, Netherlands. Received<br />
04/25/2006.<br />
PI 642449 PVPO. Festuca rubra subsp. commutata Gaudin<br />
Cultivar. "CULUMBRA II". PVP 200600109.<br />
<strong>The</strong> following were developed by <strong>The</strong> Scotts Company, United States; Rutgers,<br />
<strong>The</strong> State University of New Jersey, New Jersey, United States. Received<br />
04/25/2006.<br />
PI 642450 PVPO. Agrostis stolonifera var. palustris (Huds.) Farw.<br />
Cultivar. "MEMORIAL". PVP 200600163.<br />
<strong>The</strong> following were developed by Rutgers, <strong>The</strong> State University of New Jersey,<br />
New Jersey, United States; <strong>No</strong>vel AG, Inc., Oregon, United States. Received<br />
04/25/2006.<br />
PI 642451 PVPO. Agrostis stolonifera var. palustris (Huds.) Farw.<br />
Cultivar. "SHARK". PVP 200600164.<br />
<strong>The</strong> following were developed by Rutgers, <strong>The</strong> State University of New Jersey,<br />
New Jersey, United States. Received 04/25/2006.<br />
PI 642452 PVPO. Agrostis stolonifera var. palustris (Huds.) Farw.<br />
Cultivar. "BENCHMARK DSR". PVP 200600166.<br />
<strong>The</strong> following were developed by Pan American Seed Company, United States.<br />
Received 04/25/2006.<br />
PI 642453 PVPO. Erysimum hieraciifolium L.<br />
Cultivar. "PAS415015". PVP 200600167.<br />
PI 642454 PVPO. Erysimum hieraciifolium L.<br />
Cultivar. "PAS415016". PVP 200600168.<br />
<strong>The</strong> following were developed by Seminis Vegetable Seeds, Inc., United States.<br />
Received 04/25/2006.<br />
PI 642455 PVPO. Capsicum annuum L.<br />
Cultivar. "HSE 114-1018". PVP 200600169.<br />
<strong>The</strong> following were developed by Advanta Seeds BV, Netherlands. Received<br />
04/25/2006.<br />
PI 642456 PVPO. Festuca rubra subsp. commutata Gaudin<br />
Cultivar. "ACF188". PVP 200600171.<br />
<strong>The</strong> following were developed by Grassland Oregon, LLC, Oregon, United States.<br />
Received 04/25/2006.<br />
85
PI 642457 PVPO. Poa pratensis L.<br />
Cultivar. "SKYE". PVP 200600179.<br />
<strong>The</strong> following were developed by South Dakota Agric. Exp. Station, Brookings,<br />
South Dakota, United States. Received 04/25/2006.<br />
PI 642458 PVPO. Glycine max (L.) Merr.<br />
Cultivar. "SD1111RR". PVP 200600184.<br />
PI 642459 PVPO. Glycine max (L.) Merr.<br />
Cultivar. "HAMLIN". PVP 200600185.<br />
<strong>The</strong> following were developed by Chao-Chien Jan, USDA, ARS, <strong>No</strong>rth Dakota State<br />
University, <strong>No</strong>rthern Crop Science Laboratory, Fargo, <strong>No</strong>rth Dakota 58105,<br />
United States; Jerry F. Miller, USDA, ARS, <strong>No</strong>rthern Crop Science Laboratory,<br />
P.O. Box 5677, Fargo, <strong>No</strong>rth Dakota 58105, United States; Brady A. Vick, USDA,<br />
ARS, <strong>No</strong>rthern Crop Science Laboratory, P.O. Box 5677, Fargo, <strong>No</strong>rth Dakota<br />
58105-5677, United States. Received 05/15/2006.<br />
PI 642702. Helianthus annuus L.<br />
Genetic. RS3. GS-50. Pedigree - F6 derived F7 line resulting from the<br />
cross: HA 89//cms HA 89/ Ames 3406/3/RS1. Height is 119 cm compared with<br />
height of 134 cm for HA 89. Days to flower is 79 d compared with 68 d<br />
for HA 89. Seeds are black with gray stripes. Single-headed.<br />
<strong>The</strong> following were developed by R.E. Hayes, University of Idaho, Kimberly<br />
Res. and Ext. Ctr., 3793 <strong>No</strong>rth 3600 East, Kimberly, Idaho 83341, United<br />
States; Shree P. Singh, University of Idaho, Kimberly Research & Extension<br />
Ctr., 3793 <strong>No</strong>rth 3600 East, Kimberly, Idaho 83341-5076, United States; M.F.<br />
Dennis, University of Idaho, Kimberly Res. & Ext. Ctr., 3793 <strong>No</strong>rth 3600 East,<br />
Kimberly, Idaho 83341, United States; H. Teran, University of Idaho, Kimberly<br />
Research & Extension Center, 3793 <strong>No</strong>rth 3600 East, Kimberly, Idaho 83341,<br />
United States; M. Lema, University of Idaho, Kimberly Research & Extension<br />
Center, 3793 <strong>No</strong>rth 3600 East, Kimberly, Idaho 83341, United States. Received<br />
05/15/2006.<br />
PI 642703. Phaseolus vulgaris L.<br />
Breeding. Pureline. SDIP-1. GP-260. Pedigree -<br />
Kodiak/Poncho//Matterhorn/BelDakMiRMR-14. Dry bean germplasm line SDIP-1<br />
has unique slow darkening, aging, or oxidizing pinto seed coat color, a<br />
highly sought after trait not found in the <strong>No</strong>rth American cultivars<br />
developed thus far. Pinto SDIP-1 has an indeterminate semi- prostrate<br />
Type III growth habit with small vine. After six months of storage at<br />
room temperature at Kimberly, Idaho SDIP-1 had seed coat darkening score<br />
of 2 on a 1 to 9 score, where 1=no apparent darkening and 9=severely<br />
darkened seed coat. In contrast, pinto Othello scored 7, Bill Z 8,<br />
and Kodiak and UI 320 9. In replicated trials across 10 locations in<br />
southern Idaho in 2005, seed yield of SDIP-1 averaged 2060 kg ha-1<br />
compared to 2365 kg ha-1 for Othello and 2445 kg ha-1 for Bill Z. SDIP-1<br />
had a mean 100-seed weight of 39 g and matured in approximately 94 d.<br />
<strong>The</strong> 100-seed weight and maturity of Othello and Bill Z, respectively,<br />
were 37 g and 84 d and 35 g and 93 d. SDIP-1 has a recessive resistance<br />
to BCMV (strains NY-15 and US-6) and BCMNV (strain NL-3K). But, SDIP-1<br />
is susceptible to anthracnose [caused by Colletotrichum lindemuthianum<br />
86
(Sacc. & Magnus) Lams.-Scrib. races 23 and 73], common bacterial blight<br />
[caused by Xanthomonas campestris pv. phaseoli (Smith) Dye], halo blight<br />
[Pseudomonas syringae pv. phaseolicola (Burkh.) race 2], rust [U.<br />
appendiculatus races 38 and 53], and white mold [caused by Sclerotinia<br />
sclerotiorum (Lib) de Bary].<br />
<strong>The</strong> following were developed by Monsanto Technology LLC, United States.<br />
Received 05/03/2006.<br />
PI 642704 PVPO. Zea mays L. subsp. mays<br />
Cultivar. "I028727". PVP 200600119.<br />
PI 642705 PVPO. Zea mays L. subsp. mays<br />
Cultivar. "I059908". PVP 200600120.<br />
PI 642706 PVPO. Zea mays L. subsp. mays<br />
Cultivar. "I062687". PVP 200600121.<br />
PI 642707 PVPO. Zea mays L. subsp. mays<br />
Cultivar. "I062696". PVP 200600122.<br />
PI 642708 PVPO. Zea mays L. subsp. mays<br />
Cultivar. "I090372". PVP 200600123.<br />
PI 642709 PVPO. Zea mays L. subsp. mays<br />
Cultivar. "I133314". PVP 200600124.<br />
PI 642710 PVPO. Zea mays L. subsp. mays<br />
Cultivar. "I135168". PVP 200600125.<br />
PI 642711 PVPO. Zea mays L. subsp. mays<br />
Cultivar. "I170094". PVP 200600126.<br />
PI 642712 PVPO. Zea mays L. subsp. mays<br />
Cultivar. "I216556". PVP 200600127.<br />
PI 642713 PVPO. Zea mays L. subsp. mays<br />
Cultivar. "I226211". PVP 200600128.<br />
PI 642714 PVPO. Zea mays L. subsp. mays<br />
Cultivar. "I226218". PVP 200600129.<br />
PI 642715 PVPO. Zea mays L. subsp. mays<br />
Cultivar. "I285287". PVP 200600130.<br />
PI 642716 PVPO. Zea mays L. subsp. mays<br />
Cultivar. "I285291". PVP 200600131.<br />
PI 642717 PVPO. Zea mays L. subsp. mays<br />
Cultivar. "I285302". PVP 200600132.<br />
PI 642718 PVPO. Zea mays L. subsp. mays<br />
Cultivar. "I006605". PVP 200600134.<br />
PI 642719 PVPO. Zea mays L. subsp. mays<br />
Cultivar. "I057391". PVP 200600135.<br />
87
PI 642720 PVPO. Zea mays L. subsp. mays<br />
Cultivar. "I062695". PVP 200600136.<br />
PI 642721 PVPO. Zea mays L. subsp. mays<br />
Cultivar. "I106999". PVP 200600137.<br />
PI 642722 PVPO. Zea mays L. subsp. mays<br />
Cultivar. "I119149". PVP 200600138.<br />
PI 642723 PVPO. Zea mays L. subsp. mays<br />
Cultivar. "I119153". PVP 200600139.<br />
PI 642724 PVPO. Zea mays L. subsp. mays<br />
Cultivar. "I119163". PVP 200600140.<br />
PI 642725 PVPO. Zea mays L. subsp. mays<br />
Cultivar. "I135160". PVP 200600141.<br />
PI 642726 PVPO. Zea mays L. subsp. mays<br />
Cultivar. "I136799". PVP 200600142.<br />
PI 642727 PVPO. Zea mays L. subsp. mays<br />
Cultivar. "I139593". PVP 200600143.<br />
PI 642728 PVPO. Zea mays L. subsp. mays<br />
Cultivar. "I217345". PVP 200600144.<br />
PI 642729 PVPO. Zea mays L. subsp. mays<br />
Cultivar. "I512243". PVP 200600145.<br />
PI 642730 PVPO. Zea mays L. subsp. mays<br />
Cultivar. "I533766". PVP 200600146.<br />
PI 642731 PVPO. Zea mays L. subsp. mays<br />
Cultivar. "I900105". PVP 200600147.<br />
<strong>The</strong> following were developed by Joe W. Burton, USDA-ARS, <strong>Plant</strong> Science<br />
Research Building, 3127 Ligon Street, Raleigh, <strong>No</strong>rth Carolina 27607, United<br />
States; Daniel W. Israel, USDA-ARS, <strong>No</strong>rth Carolina State Univ., Soil Science,<br />
P.O. Box 7619, Raleigh, <strong>No</strong>rth Carolina 27695-7619, United States; P.E.<br />
Bishop, USDA-ARS, 4627 Gardner Hall, Raleigh, <strong>No</strong>rth Carolina 27695, United<br />
States. Received 06/23/2006.<br />
PI 642732. Glycine max (L.) Merr.<br />
Cultivar. Pureline. "Nitrasoy"; SY 604001. CV-483. Pedigree - Nitrasoy<br />
is an F5-derived selection from the cross D68-0099/'Cook'. D68-0099<br />
(PI573285) is a backcross derived breeding line from the cross of<br />
'Lee'*9/PI548192. PI548192 is the donor parent of the non-nodulating<br />
gene, rj1, which when homozygous, prevents the nodulation of the soybean<br />
root system by Bradyrhizobium japonicum and Bradyrhizobium elkanii. Lee<br />
is a group VI maturity cultivar and Cook is a high yielding group VIII<br />
maturity cultivar. Released 04/13/2006. Nitrasoy is a nonnodulating<br />
Group VI maturity soybean with a large requirement for soil-applied<br />
nitrogen to obtain excellent seed yield. Nitrasoy provides a leguminous<br />
crop option for land application of animal waste, previously unavailable<br />
88
using commercial soybean varieties. Nitrasoy recovered 17% more soil<br />
applied N in seed than the nonnodulating germplasm, D68-0099. (193 kg<br />
N/ha versus 165 kg N/ha). Thus, it is an excellent choice as an N<br />
receiver crop for fields receiving swine lagoon effluent. Substitution<br />
of nonnodulated Nitrasoy into this system for a nodulated soybean<br />
variety should improve recovery of nitrogen applied in animal waste.<br />
Nitrasoy is also a useful tool for studying effects of microbial and<br />
asymbiotic N fixation on soybean productivity. Positive effects of<br />
symbiotic N fixation by Bradyrhizobium on soybean are well known.<br />
Effects of associative N fixation from free-living N fixing bacteria,<br />
such as Azotobacter, are not known, even though they are routinely<br />
included in some soybean inoculums, and are known to enhance nodulation.<br />
Nitrasoy provides a very useful tool for studying these effects. It is<br />
adapted to southern USA, 27 - 37 degrees N latitude.<br />
<strong>The</strong> following were donated by Rodale Research Center, Rodale Press, Box 323,<br />
RD 1, Kutztown, Pennsylvania 19530, United States; R.R. Harwood, Winrock<br />
International, Petit Jean Mt., Morrilton, Arkansas 72110, Morrilton,<br />
Arkansas, United States. Received 02/20/1981.<br />
PI 642733. Amaranthus hypochondriacus L.<br />
Cultivated. RRC 126; RRC 78S-126; Ames 2064; Ames 2063. Collected<br />
09/1977 in Nepal. Latitude 27° 57' N. Longitude 85° 56' E.<br />
Tatopani. <strong>The</strong> seeds are white, flowers brown, leaves green. <strong>The</strong> RRC<br />
class type is Nepal grain. It is earlier than most Nepal grain types<br />
with an unusual flower color. Observations from the Rodale Research<br />
Center, 1988 Rodale Amaranth Catalog. Emmaus, PA.<br />
<strong>The</strong> following were donated by Rodale Research Center, Rodale Press, Box 323,<br />
RD 1, Kutztown, Pennsylvania 19530, United States. Received 02/20/1981.<br />
PI 642734. Amaranthus cruentus L.<br />
Breeding. RRC 1012; RRC 78S-1012; R 124; Ames 2217. Collected 02/1981 in<br />
Mexico. Pedigree - selection from RRC NUM77S-362. <strong>The</strong> seeds are white,<br />
flowers green, leaves green. <strong>The</strong> RRC class type is: Mexican. <strong>The</strong>re<br />
were some red and marbled segregates. Observations from the Rodale<br />
Research Center, 1988 Rodale Amaranth <strong>Germplasm</strong> Catalog. Emmaus, PA.<br />
PI 642735. Amaranthus cruentus L.<br />
Breeding. RRC 1014; RRC 78S-1014; Ames 2218. Collected 02/1981 in Mexico.<br />
Pedigree - selection from RRC NUM 77S-362. <strong>The</strong> seeds are white,<br />
flowers marbled and red, leaves green. <strong>The</strong> RRC class type is: Mexican.<br />
Single plant selection from RRC 362. It had excessive branching.<br />
Observations from the Rodale Research Center, 1988 Rodale Amaranth<br />
<strong>Germplasm</strong> Catalog. Emmaus, PA.<br />
<strong>The</strong> following were donated by J. L. Hudson, Seedsman, P.O. Box 1058, Redwood<br />
City, California 94064, United States; Rodale Research Center, Rodale Press,<br />
Box 323, RD 1, Kutztown, Pennsylvania 19530, United States. Received<br />
04/15/1986.<br />
PI 642736. Amaranthus caudatus L.<br />
Cultivar. AMAR-IV; RRC 379; Love-lies-bleeding; Ames 5127. <strong>The</strong> seeds are<br />
pink, flowers green, leaves green. <strong>The</strong> RRC class type is: ornamental.<br />
89
'Love-lies-bleeding' It is somewhat disease resistant. Observations<br />
from the Rodale Research Center, 1988 Rodale Amaranth <strong>Germplasm</strong> Catalog.<br />
Emmaus, PA.<br />
<strong>The</strong> following were donated by Rodale Research Center, Rodale Press, Box 323,<br />
RD 1, Kutztown, Pennsylvania 19530, United States; USDA, ARS Tropical<br />
Agriculture Research Station, 2200 Pedro Albizu Campos Ave. Ste. 201,<br />
Mayaguez, Puerto Rico. Received 04/15/1986.<br />
PI 642737. Amaranthus dubius Mart. ex <strong>The</strong>ll.<br />
Cultivar. OGFRC 78S-2043; "Klaroen Groot"; RRC 407; Ames 5164. <strong>The</strong> seeds<br />
are black, flowers green, leaves green. <strong>The</strong> RRC class type is:<br />
vegetable. 'Klaroen Groot' Observations from the Rodale Research<br />
Center, 1988 Rodale Amaranth <strong>Germplasm</strong> Catalog. Emmaus, PA.<br />
<strong>The</strong> following were collected by Vladimir Jehlik, Botanical Institute,<br />
Czechoslovak Academy of Sciences, Praha, Central Bohemia 126 09, Czech<br />
Republic. Donated by Academy of Sciences, Institute of Botany, 252 43<br />
Pruhonice, Prague, Central Bohemia, Czech Republic. Received 06/06/1989.<br />
PI 642738. Amaranthus tamaulipensis Henrickson<br />
Wild. 403; Ames 10339. Collected 1988 in La Habana, Cuba. Latitude<br />
23° 8' N. Longitude 82° 22' W. Havana. Ruderal sites (weedy).<br />
PI 642739. Amaranthus dubius Mart. ex <strong>The</strong>ll.<br />
Wild. 404; Ames 10340. Collected 1988 in La Habana, Cuba. Latitude<br />
23° 8' N. Longitude 82° 22' W. Havana. Ruderal sites (weedy).<br />
PI 642740. Amaranthus spinosus L.<br />
Wild. 405; Ames 10341. Collected 1988 in La Habana, Cuba. Latitude<br />
23° 8' N. Longitude 82° 22' W. Havana. Ruderal sites (weedy).<br />
<strong>The</strong> following were collected by Luis Sumar Kalinowski, Universidad Nacional,<br />
San Antonio, Abad Del Cusco, Cusco, Cuzco, Peru. Donated by Carolyn Reider,<br />
Rodale Research Center, Box 323, R.D. 1, Kutztown, Pennsylvania 19530, United<br />
States. Received 06/07/1990.<br />
PI 642741. Amaranthus caudatus L.<br />
Cultivar. "Oscar Blanco"; RRC 1203; LSK 38A; Ames 15129. Collected<br />
02/01/1984 in Bolivia. Pedigree - From LSK 38. <strong>The</strong> seeds are white,<br />
flowers pink, leaves green. <strong>The</strong> RRC class type is: South American. In<br />
Peru it was a good yielder with disease resistance. It is a single<br />
plant selection from LSK 38 (RRC 988). Observations from the Rodale<br />
Research Center, 1988 Rodale Amaranth <strong>Germplasm</strong> Catalog. Emmaus, PA.<br />
Seed shipped with closing of Rodale Amaranthus program.<br />
<strong>The</strong> following were developed by Rodale Research Center, Rodale Press, Box<br />
323, RD 1, Kutztown, Pennsylvania 19530, United States. Donated by Robert<br />
Myers, University of Missouri, Department of Agronomy, 210 Waters Hall,<br />
Columbia, Missouri 65211, United States. Received 02/21/1995.<br />
PI 642742. Amaranthus cruentus L.<br />
Cultivar. "K 459"; "87S-K459"; Ames 22372. Dramatic orange plants. <strong>The</strong><br />
90
stems and infloresences are fasciated, which is a rare trait. <strong>The</strong><br />
fasciation was observed by David Brenner in the summer of 2005.<br />
<strong>The</strong> following were collected by Donald Pratt, Iowa State University, Botany<br />
Department, 353 Bessey Hall, Ames, Iowa 50011, United States. Received<br />
10/19/2001.<br />
PI 642743. Amaranthus crassipes Schltdl.<br />
Wild. 218; Ames 26432. Collected 10/11/2001 in Texas, United States.<br />
Latitude 30° 41' 53" N. Longitude 101° 23' 25" W. Elevation 739<br />
m. Roadside stop near marker 349, Highway 10, Edwards Plateau, Crockett<br />
County. Limestone soil.<br />
<strong>The</strong> following were developed by Academy of Agriculture & Forestry Sci., Hebei<br />
Province, Shijiazhun, Hebei, China. Donated by David J. Andrews, University<br />
of Nebraska, Deptartment of Agronomy, Lincoln, Nebraska 68503, United States;<br />
Lian-Yuan Zhao, Academy of Agriculture and Forestry Sciences, Shi Jia Zhuang,<br />
Heilongjiang, China. Received 04/28/1988.<br />
PI 642744. Setaria italica (L.) P. Beauv. subsp. italica<br />
Breeding. "Zhang <strong>No</strong>ng <strong>No</strong>. l0"; Ames 8392. Mid-season maturity, purple<br />
seedling, single-stalk, yellow seed and seed coat.<br />
PI 642745. Setaria italica (L.) P. Beauv. subsp. italica<br />
Breeding. "Ning Huang <strong>No</strong>. 1"; Ames 8393. Mid-season maturity, green<br />
seedling, single-stalk, yellow seed coat and yellow seed.<br />
PI 642746. Setaria italica (L.) P. Beauv. subsp. italica<br />
Breeding. "Bai Da Li (White big grain)"; Ames 8394. Mid-season maturity,<br />
green seedling, single-stalk, big grain, white seed coat, and yellow<br />
seed.<br />
PI 642747. Setaria italica (L.) P. Beauv. subsp. italica<br />
Breeding. "Ji Gu <strong>No</strong>. 9"; Ames 8395. Mid-season maturity, green seedling,<br />
single-stalk, yellow seed coat, and yellow seed.<br />
<strong>The</strong> following were developed by Diego Rubiales, Instituto Agricultura<br />
Sostenible, CSIC, Apartado 4084, Cordoba, Cordoba E-14080, Spain; M. T.<br />
Moreno, Instituto Nacional de Investigaciones Ag, CIRDA 10 Apdo 240, Cordoba,<br />
Cordoba, Spain; Josefa Rubio, Centro de Investigacion y Formacion Agraria,<br />
Alameda del Obispo, Apdo. 3092, Cordoba, Cordoba, Spain; J. Gil, Universidad<br />
de Cordoba, Dept. de Genetics, Aptdo 3048, Cordoba, Cordoba 14080, Spain; A.<br />
Moral, Instituto de Agricultura Sostenible, Apto 4084, E-14080, Cordoba,<br />
Spain. Received 05/22/2006.<br />
PI 642748. Cicer hybrid<br />
Breeding. Pureline. RIL58-ILC72Cr5. GP-259. Pedigree - Recombinant<br />
inbred line (F6:7) derived from the interspecific cross between ILC72<br />
(Cicer arietinum) x Cr5-10 (Cicer reticulatum). ILC72 is a kabuli line,<br />
resistant to Ascochyta blight and susceptible to rust and was used as<br />
female parent. Source of rust resistance, Cr5-10, is a wild chickpea<br />
used as male parent. Recombinant inbred line (RIL) (F6:7) with pink<br />
flowers, non-shattering pod, semi-erent growth habit and combined<br />
resistance against Ascochyta blight and rust. Was the most resistant RIL<br />
91
to Ascochyta blight in a population made up of 102 RILs, with AUDPC of<br />
98 (population range from 98 to 220). Was among the most resistant to<br />
rust, with 13% and 44.5% disease severity (DS) in seedling and adult<br />
plant, respectively (populations ranges were from 0% to 192% and 0.9% to<br />
153% respectively), the first year, and AUDPC 52.85 (range from 0.01 to<br />
875) the second year.<br />
<strong>The</strong> following were developed by Karen A. Moldenhauer, University of Arkansas,<br />
Rice Research & Extension Center, 2900 Hwy 130 E, Stuttgart, Arkansas 72160,<br />
United States; J. Neil Rutger, 1989 Witham Drive, Woodland, California 95776,<br />
United States; Rolfe J. Bryant, USDA-ARS, Dale Bumpers National Rice<br />
Research Center, 2890 Highway 130 East, Stuttgart, Arkansas 72160, United<br />
States. Received 05/23/2006.<br />
PI 642749. Oryza sativa L.<br />
Breeding. Pureline. DR1. GP-105. Pedigree - Induced recessive semidwarf<br />
mutant of the japonica cultivar Drew. DR1 was induced in the tall<br />
Arkansas rice cultivar, 'Drew', in order to quickly obtain semidwarfism<br />
in adapted germplasm. This mutant, which at 97 cm is 22% shorter than<br />
its parent provides a breeding source of semidwarfism, nonallelic to the<br />
worldwide semidwarfing gene sd1, in tropical japonica germplasm adapted<br />
to the southern US and similar climactic areas. This mutant provides an<br />
alternative semidwarfing source should genetic vulnerability problems<br />
arise from widespread use of sd1.<br />
<strong>The</strong> following were developed by Pioneer Hi-Bred International, Inc.,<br />
Johnston, Iowa 50131, United States. Received 05/09/2006.<br />
PI 642750 PVPO. Zea mays L. subsp. mays<br />
Cultivar. "PH8JV". PVP 200600196.<br />
PI 642751 PVPO. Zea mays L. subsp. mays<br />
Cultivar. "PH8T0". PVP 200600197.<br />
PI 642752 PVPO. Zea mays L. subsp. mays<br />
Cultivar. "PHE72". PVP 200600198.<br />
PI 642753 PVPO. Zea mays L. subsp. mays<br />
Cultivar. "PHEDR". PVP 200600199.<br />
<strong>The</strong> following were donated by Andrew Bent, University of Wisconsin,<br />
Department of <strong>Plant</strong> Pathology, 1630 Linden Drive, Madison, Wisconsin 53706,<br />
United States. Received 06/01/2006.<br />
PI 642754. Glycine max (L.) Merr.<br />
Genetic. Pureline. T119N54; Hobbit 87 etr1-1; T376; SY 605001. Pedigree<br />
- Isolated in a mutant screen of a NMU-mutagenized Hobbit 87 population.<br />
T376 is an ethylene-insensitive mutant isolated from a NMU-mutagenized<br />
Hobbit population with the genotype etr1-1.<br />
<strong>The</strong> following were donated by Ferry-Morse Seed Company, Inc., P.O. Box 100,<br />
Mountain View, California 94042, United States. Received 09/1961.<br />
92
PI 642755. Daucus carota L.<br />
Cultivar. Nunhems 50901; NSL 6174; French Forcing.<br />
<strong>The</strong> following were donated by Sluis & Groot, P.O.B. 13, Westeinde 62,<br />
Enkhuizen, <strong>No</strong>rth Holland 1600 AA, Netherlands. Received 10/1961.<br />
PI 642756. Daucus carota L.<br />
Cultivar. Numhems 50911; NSL 6778; Amsterdam Coreless.<br />
PI 642757. Daucus carota L.<br />
Cultivar. Nunhems 50921; NSL 6780; Early Golden Ball.<br />
<strong>The</strong> following were donated by USDA, ARS, Horticultural Station, P.O. Box<br />
1250, Cheyenne, Wyoming, United States. Received 06/1963.<br />
PI 642758. Daucus carota L.<br />
Cultivar. Nunhems 50931; NSL 27994; Aarhus Market. Collected in Denmark.<br />
PI 642759. Daucus carota L.<br />
Cultivar. Nunhems 50941; NSL 27995; Best of All. Collected in United<br />
Kingdom.<br />
<strong>The</strong> following were donated by Washington State University, Agricultural Exp.<br />
Stat., Pullman, Washington, United States. Received 12/1978.<br />
PI 642760. Daucus carota L.<br />
Cultivar. Nunhems 50951; NSL 28014; Wonderkugel. Collected in<br />
Switzerland.<br />
<strong>The</strong> following were donated by Pieter-Wheeler Seed Company, California, United<br />
States. Received 07/1964.<br />
PI 642761. Daucus carota L.<br />
Cultivar. Nunhems 50961; NSL 32688; Oxheart.<br />
<strong>The</strong> following were developed by Linda M. Pollak, USDA, ARS, Iowa State<br />
University, Dept. of Agronomy, Ames, Iowa 50011, United States; M. M.<br />
Goodman, <strong>No</strong>rth Carolina State University, Crop Sciences, Statistics,<br />
Genetics, and Botany, Raleigh, <strong>No</strong>rth Carolina 27695-7620, United States;<br />
Marty Carson, USDA/ARS, <strong>No</strong>rth Carolina State University, <strong>Plant</strong> Pathology<br />
Department, Raleigh, <strong>No</strong>rth Carolina 27695-7616, United States; USDA, ARS,<br />
<strong>Germplasm</strong> Enhancement of Maize, Iowa State University, Ames, Iowa 50011,<br />
United States. Received 01/02/2002.<br />
PI 642762. Zea mays L. subsp. mays<br />
Breeding. Partinbred. 2250-01_XL370A_S11_F2S4_9214-Blk21/00; GEMS-0027;<br />
2250-01_XL370A_S11_F2S4_69/97_Bulk/97-98; 9214; 1921; Ames 26502.<br />
Pedigree - 2250-01_XL370A_S11_F2S4_9214-Blk21/00.<br />
PI 642763. Zea mays L. subsp. mays<br />
Breeding. Partinbred. 2011-01_SE32_S17_F2S4_9148-Blk22/00; GEMS-0003;<br />
1801; Ames 26507. Pedigree - 2011-01_SE32_S17_F2S4_9148-Blk22/00. A<br />
93
parent of GEMS-0003 is SE 032 which is PI 583917. It is a Brazilian<br />
accession from Sergipe that was identified as one of the LAMP (Latin<br />
American Maize Project) landrace collections performing in the top 5%.<br />
PI 642764. Zea mays L. subsp. mays<br />
Breeding. Partinbred. 2127-01_DK888_S11_F2S4_9181-Blk21/00; GEMS-0014;<br />
1856; Ames 26518. Pedigree - 2127-01_DK888_S11_F2S4_9181-Blk21/00.<br />
PI 642765. Zea mays L. subsp. mays<br />
Breeding. Partinbred. 2132-03_DK888_S11_F2S4_9187-Blk22/00; GEMS-0016;<br />
1866; Ames 26520. Pedigree - 2132-03_DK888_S11_F2S4_9187-Blk22/00.<br />
PI 642766. Zea mays L. subsp. mays<br />
Breeding. Partinbred. 2226-02_XL370A_S11_F2S4_9211-Blk25/00; GEMS-0025;<br />
1911; Ames 26528. Pedigree - 2226-02_XL370A_S11_F2S4_9211-Blk25/00.<br />
PI 642767. Zea mays L. subsp. mays<br />
Breeding. Partinbred. 2283-01_XL380_S11_F2S4_9229-Blk20/00; GEMS-0032;<br />
1946; Ames 26534. Pedigree - 2283-01_XL380_S11_F2S4_9229-Blk20/00.<br />
<strong>The</strong> following were developed by Ron Fioritto, Ohio State University, Dept of<br />
Horticulture & Crop Science, OARDC, Wooster, Ohio 44691, United States; Anne<br />
E. Dorrance, Ohio State University, OARDC - Department of <strong>Plant</strong> Pathology,<br />
1680 Madison Avenue, Wooster, Ohio 44691-4096, United States; S.A. McIntyre,<br />
USDA, ARS, Ohio State University, Dept. of Horticulture and Crop Science,<br />
Columbus, Ohio 43210-1086, United States; Glenn R. Mills, Ohio State<br />
University, 202 Kottman Hall, 2021 Coffey Road, Columbus, Ohio 43210, United<br />
States; Steven St. Martin, <strong>The</strong> Ohio State University, Department of<br />
Horticulture and Crop Science, 310D Kottman Hall, Columbus, Ohio 43210-1086,<br />
United States; S.A. Berry, Ohio State University, Ohio Agric. Res. and<br />
Development Center, Dept. of <strong>Plant</strong> Pathology, Columbus, Ohio 43210-1086,<br />
United States. Received 05/25/2006.<br />
PI 642768. Glycine max (L.) Merr.<br />
Cultivar. Pureline. "OHIO FG5". CV-484. Pedigree - Ohio FG1 x HS89-3078<br />
(GR8936 x A2943). <strong>The</strong> cultivar Ohio FG5 was released because of its high<br />
seed yield, large seed, disease resistance, and acceptable seed protein<br />
content. <strong>The</strong> cultivar is intended primarily for production of tofu and<br />
other soy foods. Ohio FG5 has indeterminate stem habit, purple flowers,<br />
gray pubescence, brown pods, dull yellow seedcoats, and yellow hila. It<br />
is classified in maturity group III (relative maturity 3.9), and is<br />
adapted as full-season cultivar from 38 to 405 N lat. In Ohio tests<br />
(2002 to 2004, four locations per year), seed yield of Ohio FG5 was 9%<br />
greater than that of Ohio FG1. <strong>The</strong> new cultivar matured 4 d later than<br />
Ohio FG1 and was similar to Ohio FG1 in plant height and lodging<br />
resistance. Weight of 100 seeds of Ohio FG5 averaged 22.8 g, compared<br />
with 22.2 g for Ohio FG1. Least-squares means calculated from 14 tests<br />
indicated a seed protein content approximately 8 g kg-1 greater for Ohio<br />
FG5 in comparison with Ohio FG1. Ohio FG5 carries the Rps3 gene for<br />
race-specific resistance to Phytophthora root and stem rot. <strong>The</strong> cultivar<br />
has a moderate level of partial resistance to P. sojae, as shown by a<br />
score of 4.4 (Ohio FG5) in greenhouse layer tests rated from 1, best, to<br />
9, worst (Schmitthenner and Bhat, 1994).<br />
94
<strong>The</strong> following were developed by William R. Meredith, USDA, ARS, Cotton<br />
Physiology & Genetics, P.O. Box 314, Stoneville, Mississippi 38776, United<br />
States. Received 06/02/2006.<br />
PI 642769. Gossypium hirsutum L.<br />
Breeding. Pureline. MD 15ne. GP-869. Pedigree - FM 832/MD 51neOkra. MD<br />
15ne is stable in producing high fiber strength (T1), elongation (E1),<br />
long lint, low micronaire, low fineness, high maturity, and high<br />
miniature ring yarn strength. As with all cottons, MD 15ne is<br />
indeterminate in flowering, being about seven days later than the<br />
varieties usually grown during the 1990s. It is not as late in maturity<br />
as the currently most popular varieties, DPL 555BR and STV 5599BR. MD<br />
15ne is tall in growth habit, being taller than most varieties and about<br />
equal to the currently most grown varieties. MD 15ne is nectariless<br />
(ne1, ne2) which gives resistance to many insect pests, the primary one<br />
in the Mid South is the tarnished plant bugs (Lygus lineolarus (Palisot<br />
deBeauvios). <strong>The</strong> germplasm is okra leaf (L0, L0) just as both of its<br />
parents are. MD 15ne s pubescence is described as very hairy.<br />
Populations produced by using MD 15ne as a parent have had good<br />
combinations of yield and fiber quality.<br />
<strong>The</strong> following were developed by Thomas Gulya, USDA, ARS, <strong>No</strong>rth Dakota State<br />
University, <strong>No</strong>rthern Crop Science Laboratory, Fargo, <strong>No</strong>rth Dakota 58105,<br />
United States; Jerry F. Miller, USDA, ARS, <strong>No</strong>rthern Crop Science Laboratory,<br />
P.O. Box 5677, Fargo, <strong>No</strong>rth Dakota 58105, United States; Brady A. Vick, USDA,<br />
ARS, <strong>No</strong>rthern Crop Science Laboratory, P.O. Box 5677, Fargo, <strong>No</strong>rth Dakota<br />
58105-5677, United States. Received 06/01/2006.<br />
PI 642770. Helianthus annuus L.<br />
Breeding. Pureline. HA 451. GP-317. Pedigree - An F6 derived F7<br />
maintainer line selected from the cross: HA 411/Fuksinka 10 (Ames 3300).<br />
HA 451 is a maintainer line derived from a cross between HA 411 (PI<br />
603992) and an open-pollinated variety Fuksinka 10 (Ames 3300). HA 411<br />
is a maintainer line released by the USDA and the <strong>No</strong>rth Dakota<br />
Agricultural Experiment Station in 1995 and Fuksinka 10 was obtained<br />
from Germany in 1985 and was tested for Sclerotinia head and stalk rot<br />
tolerance from 1992 to 1995 under natural infestation in selected fields<br />
in <strong>No</strong>rth Dakota and Minnesota. <strong>The</strong> pedigree breeding method was used to<br />
develop HA 451. Sclerotinia tolerance of HA 451 was determined by<br />
evaluating testcross hybrids that were artificially inoculated under<br />
mist irrigation. Percent infection of HA 451 was 12.5% when compared<br />
with the check hybrids NK 278 and SF 270 which were 24.9% and 73.2%<br />
infected, respectively. Height of HA 451 was 138 cm and days to flower<br />
was 68 d. HA 451 is single-headed.<br />
PI 642771. Helianthus annuus L.<br />
Breeding. Pureline. HA 452. GP-318. Pedigree - An F6 derived F7<br />
maintainer line selected from the cross: HA 335/HA 412. HA 452 is a<br />
maintainer line derived from a cross between the germplasm line HA 335<br />
(PI 518773) and the germplasm line HA 412 (PI 603993). HA 335 is a<br />
maintainer line released by the USDA and the <strong>No</strong>rth Dakota Agricultural<br />
Experiment Station in 1987 and HA 412 is a maintainer line released by<br />
the USDA and the <strong>No</strong>rth Dakota Agricultural Experiment Station in 1995.<br />
HA 452 has the Pl6 resistance gene for downy mildew, imparting<br />
resistance to all known <strong>No</strong>rth American races. <strong>The</strong> pedigree breeding met<br />
hod was used to develop HA 452. Sclerotinia tolerance HA 452 was<br />
95
selected by evaluating testcross hybrids that were artificially<br />
inoculated under mist irrigation. Percent infection of HA 452 was 23.0%<br />
when compared with the check hybrids NK 278 and SF 270 which were 24.9%<br />
and 73.2% infected, respectively. Height of HA 452 was 140 cm and days<br />
to flower was 67 d. HA 452 is single-headed.<br />
PI 642772. Helianthus annuus L.<br />
Breeding. Pureline. RHA 453. GP-319. Pedigree - An F6 derived F7<br />
fertility restorer germplasm line selected from the cross: RHA 344/Inedi.<br />
RHA 453 is a fertility restorer line derived from the cross between<br />
the germplasm line RHA 344 (PI 509054) and the hybrid Inedi. RHA 344 is<br />
a high-oleic fertility restorer germplasm line released by the USDA and<br />
the <strong>No</strong>rth Dakota Agricultural Experiment Station in 1986. Inedi is a<br />
hybrid obtained through a germplasm exchange with Dr. Felicity Vear,<br />
Station dAmelioration des <strong>Plant</strong>es, INRA, Clermont-Ferrand, France. <strong>The</strong><br />
pedigree breeding method was used to develop RHA 453. <strong>Plant</strong>s of RHA 453<br />
averaged 86.8% oleic acid. Sclerotinia tolerance of RHA 453 was<br />
evaluated through the use of testcross hybrids that were artificially<br />
inoculated under mist irrigation in 2003 and 2004. Percent infection of<br />
RHA 453 was 22% when compared with the check hybrids NK 278 and SF 270<br />
which were 24.9% and 73.2% infected, respectively. Height of RHA 453<br />
was 120 cm and days to flower was 67 d. RHA 453 has upper-stem<br />
branching conditioned by a recessive gene.<br />
PI 642773. Helianthus annuus L.<br />
Breeding. Pureline. RHA 454. GP-320. Pedigree - F6 derived F7 fertility<br />
restorer germplasm line selected from the cross: RHA 347//RHA 440/PSC8.<br />
RHA 454 was derived from a cross between the germplasm lines RHA 447 (PI<br />
639170), RHA 440 (PI 639163), and PSC8. RHA 447 is a high-oleic<br />
fertility restorer germplasm line released by the USDA and the <strong>No</strong>rth<br />
Dakota Agricultural Experiment Station in 2003. RHA 440 is a<br />
Sclerotinia head rot resistance fertility restorer germplasm line<br />
released by the USDA and the <strong>No</strong>rth Dakota Agricultural Experiment<br />
Station in 2003. PSC8 is a fertility restorer germplasm line obtained<br />
through a germplasm exchange with Dr. Felicity Vear, Station d<br />
Amelioration des <strong>Plant</strong>es, INRA, Clermont-Ferrand, France. <strong>The</strong> pedigree<br />
breeding method was used to develop RHA 454. <strong>Plant</strong>s of RHA 454 averaged<br />
82.4% oleic acid. Sclerotinia tolerance of RHA 454 was evaluated thro<br />
ugh the use of testcross hybrids that were artificially inoculated under<br />
mist irrigation in 2003 and 2004. Percent infection of RHA 454 was 23%<br />
when compared with the check hybrids NK 278 and SF 270 which were 24.9%<br />
and 73.2% infected, respectively. Height of RHA 454 was 145 cm and days<br />
to flower was 67 d. RHA 454 has upper-stem branching conditioned by a<br />
recessive gene.<br />
PI 642774. Helianthus annuus L.<br />
Breeding. Pureline. RHA 455. GP-321. Pedigree - F6 derived F7 fertility<br />
restorer germplasm line selected from the cross: RHA 440/HO IS R-line.<br />
RHA 455 is a fertility restorer line derived from a cross between the<br />
germplasm lines RHA 440 (PI 639163), and HO IS R-line. RHA 440 is a<br />
Sclerotinia head rot resistance fertility restorer germplasm line<br />
released by the USDA and the <strong>No</strong>rth Dakota Agricultural Experiment<br />
Station in 2003. HO IS R-line is a high-oleic fertility restorer line<br />
obtained through a germplasm exchange with Dr. Florin Stoenescu, Advanta<br />
<strong>No</strong>rth America. <strong>The</strong> pedigree breeding method was used to develop RHA<br />
455. <strong>Plant</strong>s of RHA 455 averaged 86.4% oleic acid. Sclerotinia<br />
tolerance of RHA 455 was evaluated through the use of testcross hybrids<br />
96
that were artificially inoculated under mist irrigation in 2003 and<br />
2004. Percent infection of RHA 455 was 8% when compared with the check<br />
hybrids NK 278 and SF 270 which were 24.9% and 73.2% infected,<br />
respectively. Height of RHA 455 was 128 cm and days to flower was 66 d.<br />
RHA 455 has upper-stem branching conditioned by a recessive gene.<br />
PI 642775. Helianthus annuus L.<br />
Breeding. Pureline. HA 456. GP-322. Pedigree - F6 derived F7 maintainer<br />
line selected from the cross: HA 434/S-16 YU. HA 456 is a maintainer<br />
line derived from a cross between the germplasm line HA 434 (PI 633744)<br />
and the germplasm line S-16 YU. HA 434 is a high-oleic maintainer<br />
germplasm line released by the USDA and the <strong>No</strong>rth Dakota Agricultural<br />
Experiment Station in 2001. <strong>The</strong> S-16 YU breeding line was obtained<br />
through a germplasm exchange with Dr. Dragan Skoric, Institute of Field<br />
and Vegetable Crops, <strong>No</strong>vi Sad, Serbia, in 1992 and was tested for<br />
Sclerotinia stalk and head rot resistance from 1993 to 1995 under<br />
natural infestation in selected fields in <strong>No</strong>rth Dakota and Minnesota.<br />
<strong>The</strong> pedigree breeding method was used to develop HA 456. <strong>Plant</strong>s of HA<br />
456 grown in the 2004 breeding nursery at Fargo, ND, averaged 83.8%<br />
oleic acid. Height of HA 456 was 103 cm and days to flower was 67 d.<br />
HA 456 is single-headed.<br />
PI 642776. Helianthus annuus L.<br />
Breeding. Pureline. HA 457. GP-323. Pedigree - F6 derived F7 maintainer<br />
line selected from the cross: HA 434//HA 821/Dussol. HA 457 is a<br />
maintainer line derived from a cross between the germplasm line HA 434<br />
(PI 633744), the germplasm line HA 821 (PI 599984), and the breeding<br />
line Dussol (Ames 22499). HA 434 is a high-oleic maintainer germplasm<br />
line released by the USDA and the <strong>No</strong>rth Dakota Agricultural Experiment<br />
Station in 2001. HA 821 is a high-linoleic maintainer germplasm line<br />
released by the USDA and the <strong>No</strong>rth Dakota Agricultural Experiment<br />
Station in 1983. Dussol is a short-statured maintainer line released by<br />
INRA, Clermont-Ferrand, France, in 1995. <strong>The</strong> pedigree breeding method<br />
was used to develop HA 457. <strong>Plant</strong>s of HA 457 grown in the 2004 breeding<br />
nursery at Fargo, ND, averaged 83.5% oleic acid. Height of HA 457 was<br />
78 cm and days to flower was 64 d. HA 457 is single-headed.<br />
PI 642777. Helianthus annuus L.<br />
Breeding. Pureline. HA 412 HO. GP-324. Pedigree - Is an BC4F3 maintainer<br />
line selected from the cross: HA 412*5/HA 434. HA 412 HO is a maintainer<br />
line derived from a backcross between the germplasm line HA 412 (PI<br />
603993) as the recurrent parent and HA 434 (PI 633744). HA 412 is a<br />
Sclerotinia head and stalk rot tolerant line released by USDA and the<br />
<strong>No</strong>rth Dakota Agricultural Experiment Station in 1995. HA 434 is a<br />
high-oleic maintainer germplasm line released by the USDA and the <strong>No</strong>rth<br />
Dakota Agricultural Experiment Station in 2001. <strong>The</strong> pedigree breeding<br />
method was used to develop HA 412 HO. <strong>Plant</strong>s of HA 412 HO grown in the<br />
2004 breeding nursery at Fargo, ND, averaged 83.4% oleic acid. Height<br />
of HA 412 HO was 122 cm and days to flower was 63 d. HA 412 HO is<br />
single-headed.<br />
<strong>The</strong> following were donated by William R. Ocumpaugh, Texas A&M University,<br />
Texas Agricultural Exp. Station, 3507 Highway 59 E, Beeville, Texas<br />
78102-9410, United States; Rod L. Reed, Angelo State University, Box 10888,<br />
ASU Station, 2601 West Avenue N, San Angelo, Texas 76909, United States; J.P.<br />
Muir, Texas Agricultural Experiment Station, Stephenville, Texas, United<br />
97
States; Twain Butler, <strong>The</strong> Samuel Roberts <strong>No</strong>ble Foundation, 2510 Sam <strong>No</strong>ble<br />
Parkway, Ardmore, Oklahoma 73401, United States; D.N. Ueckert, Texas<br />
Agricultural Experiment Station, San Angelo, Texas, United States. Received<br />
05/30/2006.<br />
PI 642778. Medicago minima (L.) Bartal.<br />
Cultivar. Pureline. "DEVINE"; BEDEV. CV-273; REST 642778. Pedigree -<br />
Originated from a naturalized stand in a pasture on the Anderlitch Ranch<br />
south of Farm to Market Road 2200 and west of Devine, TX, 56 km<br />
southwest of San Antonio. Evaluation of spaced plants of the original<br />
collection revealed very little variation among plants, therefore the<br />
original accession was increased without selection. Winter annual legume<br />
with a high hard seed content, good freeze tolerance, and has proven to<br />
persist for years in pastures from north central to south Texas. <strong>The</strong><br />
plant germinates with good vigor in the fall when the rains come, grows<br />
throughout the winter and will mature and die in April or May.<br />
Flowering is indeterminate, with seed setting over several weeks. Seeds<br />
are set in burrs (4 to 5 seeds per burr) with spines about 2 to 3 mm<br />
long. Devine typically has a seed mass of about 0.09 to 0.11 g per 100<br />
seed. Forage yield is about 3000 to 6000 kg ha-1 when grown as a<br />
monoculture. Dry matter yields in a perennial grass stand are usually<br />
much less, but it is usually sufficient to replace most of the<br />
N-fertilizer required in pasture systems in semi-arid central Texas.<br />
<strong>The</strong> following were developed by Soon Jai Park, Agriculture and Agri-Food<br />
Canada, Harrow Research Station, 2585 County Road 20, Harrow, Ontario N0R<br />
1G0, Canada; Mildred Zapata, University of Puerto Rico, Crop Protection<br />
Dept., Mayaguez, Puerto Rico; James S. Beaver, University of Puerto Rico,<br />
Mayaguez Camp, Department of Agronomy & Soils, P. O. Box 9030, Mayaguez,<br />
Puerto Rico; Phillip Miklas, USDA, ARS, Irrigated Agric. Research & Extension<br />
Ctr., 24106 <strong>No</strong>rth Bunn Road, Prosser, Washington 99350-9687, United States;<br />
J. Rusty Smith, USDA-ARS, Crop Genetics and Production Research Unit, P.O.<br />
Box 345, Stoneville, Mississippi 38776, United States; C.H. Canaday, West<br />
Tennessee Experiment Station, 605 Airways Blvd, Jackson, Tennessee 38301,<br />
United States. Received 05/25/2006.<br />
PI 642779. Phaseolus vulgaris L.<br />
Breeding. Pureline. TARS-SR05; 98020-3-1-8-2. GP-263. Pedigree - DOR<br />
557/XAN 176. TARS-SR05 is a multiple disease-resistant, small-seeded dry<br />
bean. It has a semi-determinate growth habit (IIa) and matures in<br />
approximately 80 days at Isabela, Puerto Rico. <strong>Plant</strong> height is<br />
approximately 48.5 cm and seed size is 24 g/100 seed. TARS-SR05 has a<br />
tropical small red seed type with shiny seed coat and narrow oblong seed<br />
shape. Seed coat color may vary when produced under high temperature<br />
conditions. TARS-SR05 is resistant to some strains of Xanthomonas<br />
axonopodis pv. phaseoli (Smith) Vauterin et al., while being susceptible<br />
to other strains. It has similar resistance to Fusarium solani (Mart.)<br />
Sacc. f. sp. phaseoli (Burkholder) W.C. Synder and H.N. Hans. as highly<br />
resistant Cornell 2114-12. TARS-SR05 also has similar resistance as<br />
Cornell 2114-12 to mixtures of F. solani, Rhizoctonia solani (K hn), and<br />
Pythium spp. and R. solani, Macrophomina phaseolina (Tassi) Goidanich,<br />
and F. solani, but is less resistant than Cornell 2114-12 to a mixture<br />
of F. solani, R. solani, and P. ultimum (Trow.).<br />
98
<strong>The</strong> following were developed by Karl D. Glover, South Dakota State<br />
University, <strong>Plant</strong> Science Department, NPB 247, Box 2140-C, Brookings, South<br />
Dakota 57007-2141, United States. Received 05/30/2006.<br />
PI 642780. Triticum aestivum L. subsp. aestivum<br />
Cultivar. Pureline. "TRAVERSE"; SD3687. PVP 200700118. Pedigree -<br />
SD3305/KS91 W005-1-4//SD8089. Hard red spring wheat developed at South<br />
Dakota State University. Superior yield potential in South Dakota and<br />
northern Great Plains. Possesses moderate level of resistance to<br />
Fusarium head blight [caused by Fusarium graminearum] and also resistant<br />
to prevalent races of stem and leaf rust [caused by Puccinia graminis<br />
and Puccinia triticina, respectively].<br />
<strong>The</strong> following were developed by Richard C. Frohberg, <strong>No</strong>rth Dakota State<br />
University, Crop & Weed Science Department, P.O. Box 5051, Fargo, <strong>No</strong>rth<br />
Dakota 58105-5051, United States; R.W. Stack, <strong>No</strong>rth Dakota State University,<br />
<strong>Plant</strong> Pathology Department, Fargo, <strong>No</strong>rth Dakota 58105, United States; Mohamed<br />
Mergoum, <strong>No</strong>rth Dakota State University, <strong>Plant</strong> Sciences Dept., Loftsgard Hall,<br />
Fargo, <strong>No</strong>rth Dakota 58105-5051, United States. Received 06/06/2006.<br />
PI 642781. Triticum aestivum L. subsp. aestivum<br />
Breeding. Pureline. ND 751. REST 642781; GP-812. Pedigree - ND<br />
2709/3/'Grandin' (PI 531005) *3//'Ramsey'/ND 622/4/ND 688/ND 674.<br />
Released 2006. Hard red spring wheat (HRSW) released for its high level<br />
of resistance to Fusarium head blight (FHB) [caused by Fusarium<br />
graminearum] and its good adaptation to the <strong>No</strong>rthern spring wheat region<br />
of the US. Combines resistance to the prevalent races of stem rust<br />
(caused by Puccinia graminis) and leaf rust (caused by Puccinia<br />
triticina) in the region. FHB incidence recorded was comparable to<br />
moderately resistant cultivar 'Alsen' (PI 615543), and significantly<br />
lower than the incidence for the susceptible check '2398' and moderately<br />
susceptible check 'Pioneer 2375'. FHB severity recorded for ND 751 was<br />
significantly lower than Alsen, 2398, and Pioneer 2375. Visual Scabby<br />
Kernels (VSK), also defined as Visual Damaged Kernels of ND 751 was<br />
significantly lower than scores recorded on Alsen, Pioneer 2375, and<br />
2398. Deoxynivalenol (DON) toxin levels in grain were significantly<br />
lower than all checks including Alsen, Pioneer 2375, and 2398. Grain<br />
yield was similar to Reeder (PI 613586) and Parshall (PI 613587), but<br />
significantly superior to Alsen. Awned, medium-early maturing and<br />
semi-dwarf HRSW. Awns are white and glumes are medium, white, elevated,<br />
and acuminate; shoulder and beak are medium width. Kernels are rounded,<br />
hard, red, and oval; germ is midsized; brush is medium. Has a lax spike<br />
type with plant height 3 and 5 cm shorter than Dapps (PI 633862), and 2<br />
and 6 cm taller than Alsen. Combines a high level of FHB resistance;<br />
stem and leaf rust, high grain yield, good milling and bread making<br />
attributes.<br />
<strong>The</strong> following were developed by Syngenta Seeds, Inc. - Vegetable, Boise,<br />
Idaho, United States. Received 05/11/2006.<br />
PI 642782. Phaseolus vulgaris L.<br />
Cultivar. "CIMARRON". PVP 200600195.<br />
99
<strong>The</strong> following were developed by E. T. Gwata, ICRISAT, P. O. Box 39063,<br />
Nairobi, Kenya; S.N. Silim, ICRISAT, P.O. Box 39063, Nairobi, Kenya; J.K.<br />
Mligo, Agricultural Research Institute, Ilonga, P.O. Box 33, Kilosa,<br />
Morogoro, Tanzania. Received 06/05/2006.<br />
PI 642783 QUAR. Cajanus cajan (L.) Millsp.<br />
Cultivar. Pureline. "TUMIA"; ICEAP 00068. CV-271; Pedigree - Developed<br />
by selfing an unimproved landrace and tested as ICEAP 00068 in field<br />
trials. Developed jointly by the International Crops Research Institute<br />
for the Semi-Arid Tropics (ICRISAT) and Ilonga Agric. Res. Inst. (IARI -<br />
Ministry of Agric. and Food Security, Tanzania). Adopted in several<br />
countries in eastern and southern Africa (ESA). Medium duration<br />
pigeonpea cultivar released for its earliness, ratoonability, high<br />
quality grain attributes and adaptation to diverse agro-ecologies and<br />
cropping system in Tanzania. Developed by selecting a single genotype<br />
from a landrace plant population that was collected originally from<br />
Namamleuri in Southern Tanzania. Was purified by selfing in a controlled<br />
environment sheltered from insect pollinators and evaluated for<br />
agronomic performance. During 1999/2000 crop season, Tumia obtained 2.0<br />
Mg ha-1 at Katrin testing location in southern Tanzania. In 2002, at 3<br />
testing locations (Katrin, Nachingwea and Selian), averaged 1.8 Mg ha-1<br />
compared with 1.1 Mg ha-1 for the local check variety. When tested at<br />
Katrin in 2003, Tumia produced 2.4 Mg ha-1 compared to 1.2 Mg ha-1<br />
produced by the local check variety. Indeterminate, semi-spreading and<br />
produces 2 crops per year, the main crop followed by a ratoon crop. Main<br />
crop matures in < 150 d while the ratoon crop matures in 55?5 d<br />
thereafter. Both stem and leaves are green. Stem height depends on<br />
prevailing temperatures. Under warm (21-24°C) and cool (18-20°C)<br />
conditions, stem attains 2.0 m and 0.6 m respectively. When<br />
intercropped, Tumia is compact. Under low plant density (about 27 000<br />
plants ha-1), primary 21?7) and secondary (5-7) branches develop<br />
resulting in semi-spreading appearance. Open flower is yellow. Pods are<br />
large, broad, green and slightly curved. Pods are borne in clusters at<br />
the branch terminal with 6-8 seeds per pod. Seed is white and large (100<br />
seed-weight = 17.0g). Widely adapted to semi-arid conditions in southern<br />
Africa and is recommended for cultivation in areas with low to medium<br />
(250-600 mm) annual rainfall. Tolerant to drought. Susceptible to<br />
fusariu.<br />
<strong>The</strong> following were developed by David Gehl, Agriculture & Agri-Food Canada,<br />
P.O. Box, Indian Head, Saskatchewan S0G2K0, Canada; Y.T. Gan, Agriculture and<br />
Agri-Food Canada, Semiarid Prairie Agricultural Research Centre, Research<br />
Branch, Swift Current, Saskatchewan S9H 3X2, Canada; Tom Warkentin,<br />
University of Saskachewan, Crop Development Centre, 51 Campus Drive,<br />
Saskatoon, Saskatchewan S7N 5A8, Canada; Robert L. Conner, Agriculture and<br />
Agri-Food Canada, Morden Research Station, Unit 100-101, Morton, Manitoba R6M<br />
1Y5, Canada; G. Clayton, Agriculture & Agri-Food Canada, Research Center,<br />
6000 C & E Trail, Lacombe, Alberta T4L 1W1, Canada; D.J. Bing, AAFC Lacombe<br />
Research Centre, 6000 C&E Trail, Lacombe, Alberta T4L 1W1, Canada; T.K.<br />
Turkington, Agriculture and Agri-Food Canada, Lacombe Research Centre, 6000 C<br />
& E Trail, Lacombe, Alberta T4L 1W1, Canada; A.G. Sloan, Agriculture and<br />
Agri-Food Canada, Morden Research Station, Unit 100-101, Morden, Manitoba R6M<br />
1Y5, Canada; C. Vera, Agriculture and Agri-Food Canada, Melfort Research<br />
Farm, P.O. Box 1240, Melfort, Saskatchewan S0E T4L, Canada; D. Beauchesne,<br />
Agriculture and Agri-Food Canada, Lacombe Research Centre, 6000 C&E Trail,<br />
Lacombe, Alberta T4L 1W1, Canada; D. McLaren, Agricultura and Agri-Food<br />
100
Canada, Brandon Research Centre, P.O. Box 1000A, Brandon, Manitoba R7A 5Y3,<br />
Canada; K.F. Chang, Alberta Agriculture, Food and Rural Development, 6000 C &<br />
E Trail, Lacombe, Alberta T4L 1W1, Canada. Received 06/16/2006.<br />
PI 642784. Pisum sativum L.<br />
Cultivar. Pureline. "REWARD". REST 642784; CV-24. Pedigree -<br />
4-0359.016/Aladin. Semi-leafless field pea with yellow cotyledons,<br />
medium seed size, early to medium maturity. Resistant to powdery mildew<br />
caused by Erysiphe pisi var. pisi. Has high yield potential and good<br />
lodging resistance.<br />
<strong>The</strong> following were developed by David Gehl, Agriculture & Agri-Food Canada,<br />
P.O. Box, Indian Head, Saskatchewan S0G2K0, Canada; Y.T. Gan, Agriculture and<br />
Agri-Food Canada, Semiarid Prairie Agricultural Research Centre, Research<br />
Branch, Swift Current, Saskatchewan S9H 3X2, Canada; Tom Warkentin,<br />
University of Saskachewan, Crop Development Centre, 51 Campus Drive,<br />
Saskatoon, Saskatchewan S7N 5A8, Canada; Robert L. Conner, Agriculture and<br />
Agri-Food Canada, Morden Research Station, Unit 100-101, Morton, Manitoba R6M<br />
1Y5, Canada; G. Clayton, Agriculture & Agri-Food Canada, Research Center,<br />
6000 C & E Trail, Lacombe, Alberta T4L 1W1, Canada; D.J. Bing, AAFC Lacombe<br />
Research Centre, 6000 C&E Trail, Lacombe, Alberta T4L 1W1, Canada; T.K.<br />
Turkington, Agriculture and Agri-Food Canada, Lacombe Research Centre, 6000 C<br />
& E Trail, Lacombe, Alberta T4L 1W1, Canada; D. Orr, Agriculture and<br />
Agri-Food Canada, Lacombe Research Centre, 6000 C & E Trail, Lacombe, Alberta<br />
T4L 1W1, Canada; A.G. Sloan, Agriculture and Agri-Food Canada, Morden<br />
Research Station, Unit 100-101, Morden, Manitoba R6M 1Y5, Canada; A.G. Xue,<br />
Agriculture and Agri-Food Canada, Eastern Cereal and Oilseed Research Centre,<br />
K.W. Neatby Building, Ottawa, Ontario K1A 0C6, Canada; C. Vera, Agriculture<br />
and Agri-Food Canada, Melfort Research Farm, P.O. Box 1240, Melfort,<br />
Saskatchewan S0E T4L, Canada. Received 06/16/2006.<br />
PI 642785. Pisum sativum L.<br />
Cultivar. Pureline. "CANSTAR". REST 642785; CV-25. Pedigree -<br />
4-0359-016/Aladin. Semi-leafless cultivar with yellow cotyledons, medium<br />
seed size, early to medium maturity. Resistant to powdery mildew caused<br />
by Erysiphe pisi var. pisi. Has high yield potential and good lodging<br />
resistance.<br />
<strong>The</strong> following were developed by Maher M. <strong>No</strong>aman, Field Crops Research<br />
Institute, Agricultural Research Center, Barley Research Department, Giza,<br />
Giza 12619, Egypt; R.A. Rizk, Field Crops Res. Inst., Barley Res. Dept.,<br />
Agric. Research Center, Giza, Giza 12619, Egypt; A.A. El-Sayed, Field Crops<br />
Research Institute, Barley Research Department, Agricultural Research Center,<br />
Giza, Giza 12619, Egypt; A.S. El-Gamal, Field Crops Research Institute,<br />
Barley Research Department, Agricultural Research Center, Giza, Giza, Egypt;<br />
M. Megahed, Field Crops Research Institute, Barley Research Department,<br />
Agricultural Research Center, Giza, Giza, Egypt; I.A. Ahmed, Field Crops<br />
Research Institute, Barley Research Dept., Agricultural Research Center,<br />
Giza, Giza, Egypt; R.A. Abo-El-Enin, Field Crops Research Institute, Barley<br />
Research Dept., Agricultural Research Center, Giza, Giza, Egypt; A.M.<br />
El-Sherbiny, Field Crops Research Institute, Barley Research Dept.,<br />
Agricultural Research Center, Giza, Giza, Egypt; M.A. El-Moselhy, Field Crops<br />
Research Institute, Barley Research Department, Agricultural Research Center,<br />
Giza, Giza, Egypt; M.M. Abd El-Hameed, Field Crops Research institute, Barley<br />
Research Department, Agricultural Research Center, Giza, Giza, Egypt; Kh.A.<br />
101
Amer, Field Crops Research institute, Barley Research Department,<br />
Agricultural Research Center, Giza, Giza, Egypt; M.F. Saad, Field Crops<br />
Research Institute, Barley Research Department, Agricultural Research Center,<br />
Giza, Giza, Egypt; H.A. Ashmawy, Field Crops Research Institute, Barley<br />
Research Department, Agricultural Research Center, Giza, Giza, Egypt; Y.M.<br />
Abd El-Tawab, Field Crops Research Institute, Seed Technology Department,<br />
Agricultural Research Center, Giza, Giza, Egypt; A.M. El-Bawab, Field Crops<br />
Research Institute, Barley REsearch Department, Agricultural Research Center,<br />
Giza, Giza, Egypt. Received 06/14/2006.<br />
PI 642786. Hordeum vulgare L. subsp. vulgare<br />
Cultivar. Pureline. "GIZA 132". CV-329. Pedigree -<br />
Rihane-05//As46/Aths*2 Aths/Lignee 686. <strong>Plant</strong> selection within superior<br />
rows of F3 families were made and grown as F4 plant rows at Sakha Res.<br />
Stn. in northern Delta. Heads from superior families were selected and<br />
grown as head-rows for rouging and purification purposes, after which<br />
only the best appearing and most uniform lines were combined and carried<br />
forward to next generation for yield testing. Giza 132 was tested for<br />
resistance to the major barley diseases occurring in each environment,<br />
including net blotch (caused by Pyrenophora teres Drechs.), and powdery<br />
mildew (caused by Erysiphe graminis DC.f.sp. hordei Em. Marchal;syn.<br />
Blumeria graminis (DC.) E.O.Speer). Giza 132 is six-rowed spring barley<br />
with semi-lax spikes. Stems are slightly waxy, with a dark-green color.<br />
It is intermediate in plant height, and has good straw strength.<br />
Juvenile plants have intermediate growth habit. Leaves are medium green<br />
and intermediate width, averaging 19 mm. Basal leaf sheaths are<br />
pubescent and auricles are white to grayish. Spikes are tapered, medium<br />
dense and semi-lax. Awns are smooth and longer than the spike. <strong>The</strong><br />
rachilla is medium in length, with moderately long rachilla hairs.<br />
Glumes are hairy and about one third of the kernel in length. Giza 132<br />
is widely adapted under drought and salinity conditions. It is<br />
moderately resistant (MR) to powdery mildew and to net blotch, but<br />
moderately susceptible (MS) to leaf rust. Head emergence occurs between<br />
95-to100 d from seeding, and maturity is 140 to 150 d from seeding,<br />
depending on the environment (including moisture, soil fertility levels,<br />
and level of rainfall). On average, in 4 yr of testing in Egypt (about<br />
22 environments) Giza 132 has out-yielded Giza 126 and Giza 2000 (the<br />
two check cultivars) in grain yield by about 13.7% and 12.3%,<br />
respectively. Average yields of 2365 kg ha-1 have been obtained for Giza<br />
132 under rainfed conditions. In addition to its yield advantage, Giza<br />
132 has higher 1000-kernel weight ranging from 42 to 45 g.<br />
<strong>The</strong> following were developed by Maher M. <strong>No</strong>aman, Field Crops Research<br />
Institute, Agricultural Research Center, Barley Research Department, Giza,<br />
Giza 12619, Egypt; F.A. Asaad, Field Crops Research Institute, Barley<br />
Research Department, Agricultural Research Center, Giza, Giza 12619, Egypt;<br />
R.A. Rizk, Field Crops Res. Inst., Barley Res. Dept., Agric. Research Center,<br />
Giza, Giza 12619, Egypt; A.A. El-Sayed, Field Crops Research Institute,<br />
Barley Research Department, Agricultural Research Center, Giza, Giza 12619,<br />
Egypt; A.S. El-Gamal, Field Crops Research Institute, Barley Research<br />
Department, Agricultural Research Center, Giza, Giza, Egypt; M. Megahed,<br />
Field Crops Research Institute, Barley Research Department, Agricultural<br />
Research Center, Giza, Giza, Egypt; I.A. Ahmed, Field Crops Research<br />
Institute, Barley Research Dept., Agricultural Research Center, Giza, Giza,<br />
Egypt; R.A. Abo-El-Enin, Field Crops Research Institute, Barley Research<br />
Dept., Agricultural Research Center, Giza, Giza, Egypt; A.M. El-Sherbiny,<br />
102
Field Crops Research Institute, Barley Research Dept., Agricultural Research<br />
Center, Giza, Giza, Egypt; A.A. El-Hag, Field Crops Research Institute,<br />
Barley Research Dept., Agricultural Research Center, Giza, Giza, Egypt; Kh.<br />
A. Moustafa, Field Crops Research Institute, Barley Research Dept.,<br />
Agricultural Research Center, Giza, Giza, Egypt; M.A. El-Moselhy, Field Crops<br />
Research Institute, Barley Research Department, Agricultural Research Center,<br />
Giza, Giza, Egypt; M.M. Abd El-Hameed, Field Crops Research institute, Barley<br />
Research Department, Agricultural Research Center, Giza, Giza, Egypt; Kh.A.<br />
Amer, Field Crops Research institute, Barley Research Department,<br />
Agricultural Research Center, Giza, Giza, Egypt; A.A. Atia, Field Crops<br />
Research Institute, Barley Research Department, Agricultural Research Center,<br />
Giza, Giza, Egypt; M.F. Saad, Field Crops Research Institute, Barley Research<br />
Department, Agricultural Research Center, Giza, Giza, Egypt; M.A. Said, Field<br />
Crops Research institute, Barley Research Department, Agricultural Research<br />
Center, Giza, Giza, Egypt; H.A. Ashmawy, Field Crops Research Institute,<br />
Barley Research Department, Agricultural Research Center, Giza, Giza, Egypt;<br />
H.A.T. Mahfouz, Agricultural Genetic Engineering Research Institute,<br />
Agricultural Research Center, P.O. Box 12619, Giza, Giza, Egypt; A.M.<br />
El-Bawab, Field Crops Research Institute, Barley REsearch Department,<br />
Agricultural Research Center, Giza, Giza, Egypt. Received 06/14/2006.<br />
PI 642787. Hordeum vulgare L. subsp. vulgare<br />
Cultivar. Pureline. "GIZA 2000". CV-330. Pedigree - Cross between the<br />
local cultivar Giza 121 and the line 366/13/1 (Giza 117/Bahteem 52//Giza<br />
118/FAO 86). <strong>The</strong> pedigree method was used. Heads from superior families<br />
were selected and grown as head-rows for rouging and purification<br />
purposes, after which only the best appearing and most uniform lines<br />
were combined and carried forward to next generation for yield testing.<br />
Giza 2000 was tested for resistance to the major barley diseases<br />
occurring in each environment, including net blotch (caused by<br />
Pyrenophora teres Drechs.), and powdery mildew (caused by Erysiphe<br />
graminis DC.f.sp. hordei Em. Marchal;syn. Blumeria graminis (DC.) E.O.<br />
Speer). It is resistant (R) to powdery mildew and net blotch, but<br />
moderately resistant (MR) to leaf rust. Giza 2000 is six-rowed spring<br />
barley with lax spikes. Stems are slightly waxy, with a medium-green<br />
color. It is tall in plant height, and has good straw strength. Juvenile<br />
plants have erect growth habit. Leaves are medium green and narrow<br />
width, averaging 16 mm. Basal leaf sheaths are pubescent and auricles<br />
are white. Spikes are tapered, medium dense and lax. Awns are rough and<br />
longer than the spike. <strong>The</strong> rachilla is medium in length, with moderately<br />
long rachilla hairs. Glumes are hairy and about one half of the kernel<br />
in length. Head emergence occurs between 90 to 95 d from seeding, and<br />
maturity is 130 to 140 d from seeding, depending on the environment<br />
(including moisture, soil fertility levels, and level of rainfall and<br />
distribution during the growing season). On the average, in 3 yr of<br />
testing in Egypt (about 18 environments) Giza 2000 has significantly (p<br />
= 0.05) outyielded Giza 123 (the national check) in grain yield by about<br />
17.3%. Average yields of 1010 kg ha-1 have been obtained for Giza 2000<br />
under severe drought stress in the rainfed areas of Egypt outyielding<br />
the drought tolerant cultivar Giza 126 by about 154 kg ha-1 (15.2%<br />
increase). In addition to its yield advantage, Giza 2000 has higher<br />
1000-kernel ranging from 40 to 42 g.<br />
<strong>The</strong> following were developed by Gary C. Peterson, Texas A&M University,<br />
Agricultural Research and, Extension Center, Lubbock, Texas 79401-9757,<br />
United States. Received 06/14/2006.<br />
103
PI 642788. Sorghum bicolor (L.) Moench subsp. bicolor<br />
Breeding. Pureline. ATx639. PL-283; REST 642788. Pedigree -<br />
Tx2782*BTx3042. Male sterile accession; PI 642789 is the maintainer line<br />
for PI 642788. Purple plant color, red pericarp, thick mesocarp, no<br />
awns, no tests, black glumes, normal (non-yellow) endosperm,<br />
semi-compact panicles, intermediate mid-rib juiciness, glume coverage of<br />
mature caryopsis of approximately 35%, genetically three dwarf in<br />
height. Resistant to sorghum midge (Stenodiplosis sorghicola).<br />
Approximately 64 days to 50% anthesis. Low level of susceptibility to<br />
headsmut (caused by Sphacelotheca reliana) of 2.1%. Susceptibility to<br />
rust (caused by Puccinia purpurea) of 2.0 when rated on a scale of 1=no<br />
rust to 5=leaf/plant death.<br />
PI 642789. Sorghum bicolor (L.) Moench subsp. bicolor<br />
Breeding. Pureline. BTx639. PL-284; REST 642789. Pedigree -<br />
Tx2782*BTx3042. Maintainer line for PI 642788. Purple plant color, red<br />
pericarp, thick mesocarp, no awns, no tests, black glumes, normal<br />
(non-yellow) endosperm, semi-compact panicles, intermediate mid-rib<br />
juiciness, glume coverage of mature caryopsis of approximately 35%,<br />
genetically three dwarf in height. Resistant to sorghum midge<br />
(Stenodiplosis sorghicola). B-line does not restore fertility in A1<br />
cytoplasm. Fertility restoration in other cytoplasms not known.<br />
Approxomately 64 days to 50% anthesis. Low level of susceptibility to<br />
headsmut (caused by Sphacelotheca reiliana) of 2.1%. Susceptibility to<br />
rust (caused by Puccinia purpurea) of 2.0 when rated ona scale of 1=no<br />
rust to 5=leaf/plant death.<br />
PI 642790. Sorghum bicolor (L.) Moench subsp. bicolor<br />
Breeding. Pureline. ATx640. PL-285; REST 642790. Pedigree -<br />
((BTx3042*(Tx2754*(BTx3197*SC170-6)))*BTx2755. Male sterile accession.<br />
PI 642791 is the maintainer line for PI 642790. Purple plant color, red<br />
pericarp, thick mesocarp, no awns, no tests, black glumes, normal<br />
(non-yellow) endosperm, semi-compact panicles, intermediate mid-rib<br />
juiciness, glume coverage of mature caryopsis of approximately 35%,<br />
genetically three dwarf in height. Resistant to sorghum midge<br />
(Stenodiplosis sorghicola). Approximately 66 days to 50% anthesis. Low<br />
level of susceptibility to headsmut (caused by Sphacelotheca reiliana)<br />
of 2.5%. Susceptibility to rust (caused by Puccinia purpurea) of 1.8<br />
when rated on a scale of 1=no rust to 5=leaf/plant death.<br />
PI 642791. Sorghum bicolor (L.) Moench subsp. bicolor<br />
Breeding. Pureline. BTx640. PL-286; REST 642791. Pedigree -<br />
((BTx3042*(Tx2754*(BTx3197*SC170-6)))*BTx2755). Maintainer line for PI<br />
642790. Purple plant color, red pericarp, thick mesocarp, no awns, no<br />
tests, black glumes, normal (non-yellow) endosperm, semi-compact<br />
panicles, intermediate mid-rib juiciness, glume coverage of mature<br />
caryopsis of approximately 35%, genetically three dwarf in height.<br />
Resistant to sorghum midge (stenodiplosis sorghicola). B-line does not<br />
restore fertility in A1 cytoplasm. Fertility restoration in other<br />
cytoplasms not known. Approximately 66 days to 50% anthesis. Low level<br />
of susceptibility to headsmut (caused by Sphacelotheca reiliana) of<br />
2.5%. Susceptibility to rust (caused by Puccinia purpurea) of 1.8 when<br />
rated on a scale of 1=no rust to 5=leaf/plant death.<br />
PI 642792. Sorghum bicolor (L.) Moench subsp. bicolor<br />
Breeding. Pureline. ATx641. PL-287; REST 642792. Pedigree -<br />
104
((BTx3042*(Tx2754*(BTx3197*SC170-6)))*BTx2755. Male sterile accession.<br />
PI 642793 is the maintainer line for PI 642792. Purple plant color, red<br />
pericarp, thick mesocarp, no awns, no tests, black glumes, normal<br />
(non-yellow) endosperm, semi-compact panicles, intermediate mid-rib<br />
juiciness, glume coverage of mature caryopsis of approximately 35%<br />
genetically three dwarf in height. Resistant to sorghum midge<br />
(Stenodiplosis sorghicola). Approximately 65 days to 50% anthesis. Low<br />
level of susceptibility to headsmut (caused by Sphadelotheca reiliana)<br />
of 2.5%. Susceptibility of rust (caused by Puccinia purpurea) of 2.5<br />
when rated on a scale of 1=no rust to 5=leaf/plant death.<br />
PI 642793. Sorghum bicolor (L.) Moench subsp. bicolor<br />
Breeding. Pureline. BTx641. PL-288; REST 642793. Pedigree -<br />
((BTx3042*(Tx2754*(BTx3197*SC170-6)))*BTx2755. Maintainer line for PI<br />
642792. Purple plant color, red pericarp, thick mesocarp, no awns, no<br />
tests, black glumes, normal (non-yellow) endosperm, semi-compact<br />
panicles, intermediate mid-rib juiciness, glume coverage of mature<br />
caryopsis of approximately 35%, genetically three dwarf in height.<br />
Resistant to sorghum midge (Stenodiplosis sorghicola). B-line does not<br />
restore fertility in A1 cytoplasm. Fertility restoration in other<br />
cytoplasms not known. Approximately 65 days to 50% anthesis. Low level<br />
of susceptibility to headsmut (caused by Sphacelotheca reilana) of 2.5%.<br />
Susceptibility to rust (cuased by Puccinia purpurea) of 2.5 when rated<br />
on a scale of 1=no rust to 5=leaf/plant death.<br />
<strong>The</strong> following were developed by Anne L. McKendry, University of Missouri,<br />
Agronomy Department, 106 Curtis Hall, Columbia, Missouri 65211, United States;<br />
D.N. Tague, University of Missouri, Department of Agronomy, Columbia,<br />
Missouri 65211, United States; Jessica A. Tremain, University of Missouri -<br />
Columbia, Department of Agronomy, 210 Waters Hall, Columbia, Missouri 65211,<br />
United States; R.L. Wright, University of Missouri, Dept. of Agronomy, Plnat<br />
Sciences Unit, Columbia, Missouri 65211, United States. Received 06/16/2006.<br />
PI 642794. Triticum aestivum L. subsp. aestivum<br />
Cultivar. Pureline. "BESS"; MO 981020. CV-1007. Pedigree - MO<br />
11769/Madison. MO 11769 was from the cross Kawvale/Vigo//Directeur<br />
Journee/3/W7510/4/NS 314/Stoddard. W7510 is a full sub if Hart. Released<br />
2005. Released for high grain yield, good test weight, early maturity,<br />
broad-based resistance to Fusarium head blight (FHB) [caused by Fusarium<br />
graminearum]. Is a white-chaffed, awnletted, soft red winter wheat with<br />
midlong, middense, tapered spikes. Coleoptiles are white and anthers are<br />
purple. Glumes are white, midlong and midwide with an oblique, midwide<br />
shoulder and midwide, acute beak. Kernels are soft, red, ovate, and<br />
mid-long with rounded cheeks and narrow, middeep crease. Brush is<br />
midsized, with midlong hairs and has no collar. Is moderately early,<br />
moderately-tall variety that is winter-hardy, has good straw strength<br />
and stands well in most environments. Its FHB resistance is similar to<br />
Truman including low disease severity (13.6%), low disease incidence<br />
(41.3%), a low disease index determined as incidence x severity/100<br />
(9.5%), low deoxynivalenol (DON) (5.8 mg kg-1), and a low percentage of<br />
scabby seed (11.8%) in diseased heads. Under greenhouse inoculation, had<br />
low disease spread (16.8%). In <strong>No</strong>rthern Winter Wheat Scab Nursery in<br />
2001, was one of only 2 entries with low scores for all measuers of<br />
disease assessment. <strong>The</strong> other entry was its full-season full-sib,<br />
Truman. Moderately resistant to stripe rust (caused by P. striiformis),<br />
but moderately susceptible to both leaf rust (caused by Puccinia<br />
105
triticina) and stem rust (caused by P. graminis). Possesses no known<br />
genes for resistance to either pathogen. Moderately resistant to wheat<br />
soilborne mosaic virus, moderately susceptible to wheat spindle streak<br />
mosaic virus, barley yellow dwarf virus and Septoria leaf blotch [caused<br />
by the fungus Mycosphaerella graminicola] and susceptible to powdery<br />
mildew [caused by Blumeria graminis] and Hessian fly [caused by<br />
Mayetiola destructor] biotypes B,C,D,E, and L. End-use quality<br />
evaluations conducted by the USDA-ARS Soft Wheat Quality Laboratory at<br />
Wooster, OH suggest that Bess has moderately good soft wheat milling<br />
quality and average baking quality.<br />
<strong>The</strong> following were developed by Pannar S.A. France, France. Received<br />
05/11/2006.<br />
PI 642795 PVPO. Zea mays L. subsp. mays<br />
Cultivar. "PSG362". PVP 200600180.<br />
PI 642796 PVPO. Zea mays L. subsp. mays<br />
Cultivar. "PSG476". PVP 200600181.<br />
PI 642797 PVPO. Zea mays L. subsp. mays<br />
Cultivar. "PSG774". PVP 200600182.<br />
PI 642798 PVPO. Zea mays L. subsp. mays<br />
Cultivar. "PSG896". PVP 200600183.<br />
<strong>The</strong> following were developed by Peter Franck, Germany. Received 05/11/2006.<br />
PI 642799 PVPO. Triticum aestivum L. subsp. aestivum<br />
Cultivar. "BAKKER GOLD". PVP 200600186.<br />
PI 642800 PVPO. Triticum aestivum L. subsp. aestivum<br />
Cultivar. "FIREBALL". PVP 200600187.<br />
<strong>The</strong> following were developed by PanAmerican Seed, a division of Ball<br />
Horticultural Company, West Chicago, Illinois, United States. Received<br />
05/11/2006.<br />
PI 642801 PVPO. Lobelia erinus L.<br />
Cultivar. "LILAC SPLASH". PVP 200600188.<br />
PI 642802 PVPO. Catharanthus roseus (L.) G. Don<br />
Cultivar. "PACIFICA DARK RED". PVP 200600189.<br />
PI 642803 PVPO. Catharanthus roseus (L.) G. Don<br />
Cultivar. "PACIFICA REALLY RED". PVP 200600190.<br />
<strong>The</strong> following were developed by Seed Research of Oregon, Inc., Corvallis,<br />
Oregon, United States; Rutgers, <strong>The</strong> State University of New Jersey, New<br />
Jersey, United States. Received 05/11/2006.<br />
PI 642804 PVPO. Agrostis stolonifera var. palustris (Huds.) Farw.<br />
Cultivar. "MACKENZIE". PVP 200600194.<br />
106
<strong>The</strong> following were developed by PanAmerican Seed, a division of Ball<br />
Horticultural Company, West Chicago, Illinois, United States. Received<br />
05/11/2006.<br />
PI 642805. Diascia hybrid<br />
Cultivar. "PAS358941". PVP 200600203.<br />
<strong>The</strong> following were collected by Warren M. Williams, AgResearch, Grasslands<br />
Research Centre, Grasslands Research Centre, Fritzherbert West, Private Bags<br />
11008, Palmerston <strong>No</strong>rth, <strong>No</strong>rth Island, New Zealand; Alan V. Stewart, Pyne<br />
Gould Guinness Ltd., P.O. Box 3100, 411 Blenheim Road, Christchurch, South<br />
Island 8015, New Zealand. Received 01/1998.<br />
PI 642806. Cynosurus cristatus L.<br />
Uncertain. OR29; W6 20395. Collected 08/1997 in Oregon, United States.<br />
Latitude 43° 39' 22" N. Longitude 124° 5' 22" W. Elevation 86 m.<br />
3 miles southeast of Reedsport, Douglas County on Route 55. Grazed<br />
(cattle), sand/loam, 0-5% slope, open, seasonally inundated, stream<br />
terrace. Field very wet in winter.<br />
PI 642807. Cynosurus cristatus L.<br />
Uncertain. OR123; W6 20459. Collected 08/1997 in Oregon, United States.<br />
Latitude 44° 47' 58" N. Longitude 123° 55' 32" W. Elevation 100<br />
m. River valley 8 miles northwest of the town of Siletz. Stream terrace,<br />
old paddock with scrub. Grazed, loam, 0-5% slope, open, moist.<br />
<strong>The</strong> following were collected by Harold E. Bockelman, USDA, ARS, National<br />
Small Grains Collection, 1691 S 2700 W, Aberdeen, Idaho 83210, United States;<br />
Richard C. Johnson, USDA, ARS, Washington State University, Regional <strong>Plant</strong><br />
Introduction Station, Pullman, Washington 99164-6402, United States; Roman<br />
Boguslavsky, National Centre for <strong>Plant</strong> Genetic <strong>Resources</strong> of Ukraine, Lab. for<br />
Introduction & Storage of <strong>Plant</strong> Genetic <strong>Resources</strong>, Yurjev Institute of <strong>Plant</strong><br />
Production, Kharkiv, Kharkiv 61060, Ukraine; Vladislav Korzhenevsky, State<br />
Nikitsky Botanical Gardens, Department of Flora & Vegetation, Yalta, Krym<br />
334267, Ukraine. Received 08/15/1999.<br />
PI 642808. Dactylis glomerata L.<br />
Wild. UKR-99-067; W6 21747. Collected 07/29/1999 in Krym, Ukraine.<br />
Latitude 44° 44' 27" N. Longitude 33° 55' 12" E. Elevation 465 m.<br />
Near Monastery and cave dwelling(hora Chufutkale) near Bakhchsarai.<br />
South slope, rocky, steep.<br />
PI 642809. Dactylis glomerata L.<br />
Wild. UKR-99-083; W6 21756. Collected 07/30/1999 in Krym, Ukraine.<br />
Latitude 44° 30' 55" N. Longitude 33° 33' 23" E. Elevation 260 m.<br />
On road to Sevastopol. South slope, rocky, very dry.<br />
PI 642810. Dactylis glomerata L.<br />
Wild. UKR-99-150; W6 21803. Collected 08/01/1999 in Krym, Ukraine.<br />
Latitude 44° 44' 37" N. Longitude 34° 28' 33" E. Elevation 120 m.<br />
Going east toward Malorichers near road A-294. South slope, moderate<br />
to steep, rocky.<br />
107
PI 642811. Dactylis glomerata L.<br />
Wild. UKR-99-205; W6 21843. Collected 08/01/1999 in Krym, Ukraine.<br />
Latitude 44° 55' 25" N. Longitude 35° 13' 55" E. Elevation 320 m.<br />
Along trail in military/nature reserve between Koktebel' and Kurortne<br />
and south of road A-294. East slope, steep, rocky, basaltic cliffs<br />
dropping to sea.<br />
PI 642812. Dactylis glomerata L.<br />
Wild. UKR-99-228; W6 21861. Collected 08/03/1999 in Krym, Ukraine.<br />
Latitude 45° 2' 19" N. Longitude 35° 16' 56" E. Elevation 100 m.<br />
West of Feodosiia off road A-294. <strong>No</strong>rth slope, mostly flat, disturbed<br />
area surrounded by arable land in steppe, br.<br />
PI 642813. Dactylis glomerata L.<br />
Wild. UKR-99-233; W6 21865. Collected 08/03/1999 in Krym, Ukraine.<br />
Latitude 45° 24' 11" N. Longitude 36° 28' 58" E. Elevation 80 m.<br />
<strong>No</strong>rth of Kerch. Nearly flat, open grassland, rocky, formerly mined.<br />
PI 642814. Dactylis glomerata L.<br />
Wild. UKR-99-262; W6 21889. Collected 08/03/1999 in Krym, Ukraine.<br />
Latitude 45° 28' 18" N. Longitude 35° 51' 18" E. Elevation 20 m.<br />
Above Azov Sea and near Mysove on small peninsula. <strong>No</strong>rth slope,<br />
moderately steep, on cliff. coleccion Pompadour Vieja.<br />
PI 642815. Dactylis glomerata L.<br />
Wild. UKR-99-009; W6 21894. Collected 08/1999 in Krym, Ukraine.<br />
Latitude 44° 30' 39" N. Longitude 34° 14' E. Elevation 300 m.<br />
Near and around Nikita Botanical. South slope, rocky. coleccion<br />
Pompadour Vieja.<br />
<strong>The</strong> following were collected by Bjoern Salomon, Swedish University od<br />
Agricultural Sciences, Department of Crop Science, P.O. Box 44, Alnarp,<br />
Malmohus S-23053, Sweden; C. Baden. Donated by Kevin B. Jensen, USDA, ARS,<br />
Utah State University, Forage & Range Research Laboratory, Logan, Utah<br />
84322-6300, United States. Received 11/20/1999.<br />
PI 642816. Agropyron cristatum (L.) Gaertn.<br />
Wild. H7779; W6 22077. Collected 09/02/1987 in Xinjiang, China.<br />
Elevation 1950 m. Wensu co, Tian Shan, NE Aksu, Tulago-Tachlake, along<br />
the road. Ploidy: 4x.<br />
<strong>The</strong> following were donated by Thomas A. Jones, USDA, ARS, FRRL, Utah State<br />
University, Forage and Range Research Laboratory, Logan, Utah 84322-6300,<br />
United States. Received 11/09/2000.<br />
PI 642817. Achnatherum hymenoides (Roem. & Schult.) Barkworth<br />
Wild. Acc: 487; W6 22892.no passport data.<br />
<strong>The</strong> following were collected by Kevin B. Jensen, USDA, ARS, Utah State<br />
University, Forage & Range Research Laboratory, Logan, Utah 84322-6300,<br />
United States. Donated by Thomas A. Jones, USDA, ARS, FRRL, Utah State<br />
University, Forage and Range Research Laboratory, Logan, Utah 84322-6300,<br />
United States. Received 11/09/2000.<br />
108
PI 642818. Achnatherum hymenoides (Roem. & Schult.) Barkworth<br />
Wild. Acc: 494; W6 22898.no passport data.<br />
PI 642819. Achnatherum hymenoides (Roem. & Schult.) Barkworth<br />
Wild. Acc: 495; W6 22899.no passport data.<br />
<strong>The</strong> following were collected by Thomas A. Jones, USDA, ARS, FRRL, Utah State<br />
University, Forage and Range Research Laboratory, Logan, Utah 84322-6300,<br />
United States. Received 11/09/2000.<br />
PI 642820. Achnatherum hymenoides (Roem. & Schult.) Barkworth<br />
Wild. T-1185; W6 22909. Collected 2000 in Utah, United States. Latitude<br />
40° 34' 38" N. Longitude 111° 25' 52" W. Road leading to Jordanelle Dam,<br />
UT mitigation ponds. Associated plant spp. mullein, slender wheatgrass,<br />
cheatgrass, Russian thistle.<br />
PI 642821. Achnatherum hymenoides (Roem. & Schult.) Barkworth<br />
Wild. T-1227; W6 22910. Collected 2000 in Utah, United States. Latitude<br />
39° 49' 37" N. Longitude 110° 56' 44" W. 10.5 miles SE Soldier Summit,<br />
dirt road off Kvune Pass Rd. mile marker 221/222, Colton, Carbon Co.,<br />
UT. Associated plant spp. rabbitbrush, crested wheatgrass, foxtail<br />
barley, thistle.<br />
PI 642822. Achnatherum hymenoides (Roem. & Schult.) Barkworth<br />
Wild. T-26; W6 22911. Collected 2000 in Nevada, United States. Latitude<br />
41° 10' N. Elevation 5480 m. 5 miles W Montello, NV. Hwy 233<br />
opposite side of hillside where radio tower located, lowland beside<br />
roadside. Associated plant spp. cheatgrass, Russian thistle,<br />
rabbitbrush, big sagebrush, bluebunch wheatgrass.<br />
PI 642823. Achnatherum hymenoides (Roem. & Schult.) Barkworth<br />
Wild. T-31; W6 22913. Collected 2000 in Nevada, United States. Latitude<br />
40° 56' N. Elevation 5330 m. I-80 median strip mile marker 320.<br />
Deeth/Halleck, NV.<br />
PI 642824. Achnatherum hymenoides (Roem. & Schult.) Barkworth<br />
Wild. T-455; W6 22914. Collected 2000 in Colorado, United States. 17.5<br />
miles NE of Meeker, CO; Hwy 13 hillside. Associated plant spp. Leymus<br />
cinereus, bluebunch wheatgrass, big sagebrush.<br />
PI 642825. Achnatherum hymenoides (Roem. & Schult.) Barkworth<br />
Wild. T-462; W6 22915. Collected 2000 in Colorado, United States. I-70<br />
at mile marker 228, 2 miles E of Georgetown exit,Georgetown, CO.<br />
Associated plant spp. Leymus ambiguus, Hesperostipa neomexicana.<br />
PI 642826. Achnatherum hymenoides (Roem. & Schult.) Barkworth<br />
Wild. T-477; W6 22920. Collected 2000 in Utah, United States. Latitude<br />
41° 54' N. Longitude 111° 17' W. 1.5 miles from beginning of<br />
gravel road and 800N, east side of Bear Lake, UT. Associated plant spp.<br />
Pseudoroegneria spicata.<br />
PI 642827. Achnatherum hymenoides (Roem. & Schult.) Barkworth<br />
Wild. T-482; W6 22921. Collected 2000 in Nevada, United States. Latitude<br />
40° 58' N. Longitude 111° 50' W. Jungo road, 4 miles W of<br />
Winnemucca, NV. Associated plant spp. Sphaeralcea, cheatgrass, rye,<br />
rabbitbrush.<br />
109
PI 642828. Achnatherum hymenoides (Roem. & Schult.) Barkworth<br />
Wild. T-52; W6 22925. Collected 2000 in Nevada, United States. Latitude<br />
40° 26' N. Elevation 5674 m. ~6 miles N Currie, NV, Hwy 93 at Mizpah<br />
Rd. junction. Associated plant spp. big sagebrush.<br />
PI 642829. Achnatherum hymenoides (Roem. & Schult.) Barkworth<br />
Wild. T-554; W6 22927. Collected 2000 in Utah, United States. 20 miles N<br />
Green River Hwy 6, Green River, UT. Associated plant spp. Sphaeralcea,<br />
cheatgrass, foxtail, Atriplex.<br />
PI 642830. Achnatherum hymenoides (Roem. & Schult.) Barkworth<br />
Wild. T-557; W6 22930. Collected 2000 in Utah, United States. 3 miles S<br />
White Mesa, UT (Ute Indian Reservation). Associated plant spp. Aristida.<br />
PI 642831. Achnatherum hymenoides (Roem. & Schult.) Barkworth<br />
Wild. T-883; W6 23048. Collected 2000 in Colorado, United States.<br />
Latitude 37° 29' 30" N. Longitude 105° 20' 38" W. Hwy 160, mile<br />
marker 265/266, 7.5 miles W of Ft. Garland, CO Blanca, Costilla Co., CO.<br />
Associated plant spp. rabbitbrush.<br />
<strong>The</strong> following were collected by Richard M. Hannan, USDA, ARS, Washington<br />
State University, Regional <strong>Plant</strong> Introduction Station, Pullman, Washington<br />
99164-6402, United States; Stephanie Greene, USDA, ARS, National Temperate<br />
Forage Legume, <strong>Germplasm</strong> <strong>Resources</strong> Unit, Prosser, Washington 99350-9687,<br />
United States; Nikolai I. Dzyubenko, N.I. Vavilov All-Russian Scientific<br />
Research, Institute of <strong>Plant</strong> Genetic <strong>Resources</strong>, 44 Bolshaya Morskaya Street,<br />
St. Petersburg, Leningrad 190000, Russian Federation; Alexander Afonin,<br />
Vavilov Institute of <strong>Plant</strong> Industry, 42 Bolshaya Morskaya Street, St.<br />
Petersburg, Leningrad 190000, Russian Federation; Auskhan Khusainov, Aral Sea<br />
Experimant Station for <strong>Plant</strong> Genetic <strong>Resources</strong>, 27 Biyekenov Street, Chelkar<br />
Town, Kazakhstan. Received 08/2000.<br />
PI 642832. Agropyron desertorum (Fisch. ex Link) Schult.<br />
Wild. KAZ-308; W6 23329. Collected 08/2000 in Kazakhstan. Latitude<br />
49° 10' 30" N. Longitude 56° 52' 32" E. Elevation 281 m.<br />
<strong>The</strong> following were collected by Douglas A. Johnson, USDA, ARS, Forage and<br />
Range Research Laboratory, Utah State University, Logan, Utah 84322-6300,<br />
United States; Alicia Massa, USDA, ARS, FRRL, Utah State University, Forage<br />
and Range Research Laboratory, Logan, Utah 84322-6300, United States; Raul<br />
Lira, INIA Kampenaike, Angamos 1056, Casilla 277, Punta Arenas, Magallanes,<br />
Chile; Mercedes Masco, INTA, E.E.A. Santa Cruz, CC 332, Rio Gallegos, Santa<br />
Cruz 9400, Argentina; Gabriel Oliva, INTA, E.E.A. Santa Cruz, CC 332, Rio<br />
Gallegos, Santa Cruz 9400, Argentina; Ivette Sequel, CRI Carillanca, General<br />
Lopez, IX Region, Temuco, La Araucania, Chile. Donated by Douglas A. Johnson,<br />
USDA, ARS, Forage and Range Research Laboratory, Utah State University,<br />
Logan, Utah 84322-6300, United States. Received 03/19/2001.<br />
PI 642833. Bromus sp.<br />
Wild. PRO 96-21; W6 23405. Collected 02/18/1996 in Argentina. Latitude<br />
50° 28' 20" S. Longitude 71° 27' 23" W. Elevation 780 m. Santa Cruz,<br />
Clausura El Cerrito, 78 km southeast from El Calafate on route to<br />
Esperanza. Slope:5% S. Grows in association with Festuca. <strong>Plant</strong>s short.<br />
110
PI 642834. Deschampsia flexuosa (L.) Trin.<br />
Wild. PRO 96-30; W6 23412. Collected 02/19/1996 in Argentina. Latitude<br />
51° 34' 24" S. Longitude 71° 49' 29" W. Elevation 620 m. Santa<br />
Cruz, Estancia Santa Ana, 28 km east from Rio Turbio, 20 km north from<br />
Estancia Santa. Slope:10% SE. Found on drier parts of site.<br />
PI 642835. Bromus coloratus Steud.<br />
Wild. PRO 96-49; W6 23431. Collected 02/22/1996 in Chile. Latitude<br />
51° 6' 54" S. Longitude 72° 49' 25" W. Elevation 300 m. Ultima<br />
Esperanza, Torres del Paine National Park, 1 km northeast from Ea. El<br />
Lazo. Slope:3% W. Panicle lax.<br />
PI 642836. Dactylis glomerata L.<br />
Wild. PRO 96-50; W6 23432. Collected 02/22/1996 in Chile. Latitude<br />
51° 6' 54" S. Longitude 72° 49' 25" W. Elevation 300 m. Ultima<br />
Esperanza, Torres del Paine National Park, 1 km northeast from Ea. El<br />
Lazo. Slope:3% W. Dr. Johnson interested in analyzing genetic<br />
variability in relation to American populations.<br />
PI 642837. Bromus coloratus Steud.<br />
Wild. PRO 96-58; W6 23436. Collected 02/23/1996 in Chile. Latitude<br />
51° 41' 29" S. Longitude 72° 23' 35" W. Elevation 50 m. Ultima<br />
Esperanza, Cruce a Dorotea., 9 km east from Pto. Natales, on road from<br />
Argentina bord. Slope:3%. Has deformed spikelets. Few seeds on mature<br />
plants.<br />
PI 642838. Bromus catharticus Vahl var. catharticus<br />
Wild. PRO 96-63; W6 23440. Collected 02/23/1996 in Chile. Latitude<br />
52° 43' 35" S. Longitude 71° 3' 18" W. Magallanes, Laguna Los<br />
Palos, 58 km north from Punta Arenas. Slope:5% N. Deformed spikelets<br />
possibly caused by a fungus.<br />
PI 642839. Bromus coloratus Steud.<br />
Wild. PRO 96-68; W6 23444. Collected 02/25/1996 in Chile. Latitude<br />
52° 52' 35" S. Longitude 69° 57' 24" W. Elevation 10 m. Tierra<br />
del Fuego, Ea. Santa Elena, 65 km northeast from El Porvenir. Slope:3%.<br />
Over mature. Spikes with deformities.<br />
PI 642840. Alopecurus magellanicus Lam.<br />
Wild. PRO 96-69; W6 23445. Collected 02/25/1996 in Chile. Latitude<br />
52° 52' 35" S. Longitude 69° 57' 24" W. Elevation 10 m. Tierra<br />
del Fuego, Ea. Santa Elena, 65 km northeast from El Porvenir. Slope:3%.<br />
Collected in moist depressions at site.<br />
PI 642841. Bromus coloratus Steud.<br />
Wild. PRO 96-81; W6 23454. Collected 02/27/1996 in Chile. Latitude<br />
54° 3' 11" S. Longitude 68° 57' 28" W. Tierra del Fuego, Lago<br />
Blanco, 0.5 km from Refugio ENAP. Slope:5% NW. General site humid and<br />
shady and without grazing. Seeds more mature in open, sunny areas.<br />
Panicles lax. Agropyron inf.<br />
PI 642842. Bromus coloratus Steud.<br />
Wild. PRO 96-91; W6 23463. Collected 02/29/1996 in Argentina. Latitude<br />
54° 45' 26" S. Longitude 67° 46' 21" W. Tierra del Fuego, Ruta<br />
J, 50 km northeast from Ushuaia, near Laguna Victoria on road to Pto.<br />
Slope:30% NW. This is a disturbed site.<br />
111
<strong>The</strong> following were collected by Douglas A. Johnson, USDA, ARS, Forage and<br />
Range Research Laboratory, Utah State University, Logan, Utah 84322-6300,<br />
United States; Larry K. Holzworth, USDA-NRCS State Office, Federal Bldg.,<br />
Room 443, 10 E. Babcock, Bozeman, Montana 59715-4704, United States; Gu<br />
Anlin, Chinese Academy of Agricultural Sciences, Grassland Research<br />
Institute, Range Ecology & Management, Huhhot, Nei Monggol 010010, China; Yi<br />
Jin, Inner Mongolia Agriculture University, Research Institute of Herbage<br />
physiology & Biology, Department of Agricultural Science Inner Mongolia,<br />
Huhhot, Nei Monggol 010018, China; Daniel J Miller, 5235 Western Avenue NW,<br />
Washington, District of Columbia 20015, United States. Received 06/18/2001.<br />
PI 642843. Deschampsia cespitosa (L.) P. Beauv.<br />
Wild. TP00-47-171; W6 23630. Collected 09/08/2000 in Xizang, China.<br />
Latitude 30° 9' 54" N. Longitude 100° 33' 20" E. Elevation 3950<br />
m. 32 km NE of Litang, Sichuan Province. Fenced winter forage. SOIL:Loam<br />
SLOPE:0-5% ASPECT:SE.<br />
<strong>The</strong> following were collected by Andrew A. Hopkins, Samuel Roberts <strong>No</strong>ble<br />
Foundation, Inc., P.O. Box 2180, 2510 Sam <strong>No</strong>ble Parkway, Ardmore, Oklahoma<br />
73402, United States. Received 03/15/2002.<br />
PI 642844. Bromus inermis Leyss. subsp. inermis<br />
Wild. COCS-2; 97SB2; W6 24198. Collected 07/27/1997 in Colorado, United<br />
States. Latitude 37° 40' 58" N. Longitude 10° 36' 59" W. Baca<br />
County; <strong>No</strong>rth of Campo, Colorado off of Hwy 287. Roadway. Slope 6-10%,<br />
aspect N. Open, loam, seasonally dry, mid-slope. Collection area 2 sq.<br />
m. Population: distribution = patchy, abundance = occasional, source =<br />
cultivated, in situ.<br />
PI 642845. Bromus inermis Leyss. subsp. inermis<br />
Wild. OKCS-36; 97SB3; W6 24236. Collected 07/27/1997 in Oklahoma, United<br />
States. Latitude 36° 46' 38" N. Longitude 10° 31' 1" W. Cimmaron<br />
County; Adjacent to Boise City, Oklahoma airport on Hwy. 287. Roadway,<br />
slope 0-5%. Open, seasonally dry, upper slope. pH 8.2. Collection<br />
area 2 sq. meters. Population is patchy and occasional; source is<br />
cultivated, in situ.<br />
PI 642846. Bromus inermis Leyss. subsp. inermis<br />
Wild. OKCS-62; OKCS-61; 98SB2; 98SB1; W6 24247. Collected 07/01/1998 in<br />
Oklahoma, United States. Latitude 36° 5' 40" N. Longitude 97°<br />
20' 45" W. Payne County; South of intersection of I-35 and Hwy. 51.<br />
Roadway, slope 6-10%, aspect SE/S. Open, loam/clay, seasonally dry,<br />
lower slope. Collection area 1,000 sq. meters. Population is patchy<br />
and frequent; source is cultivated, in situ.<br />
<strong>The</strong> following were donated by Enrique Chujoy, International Potato Center<br />
(CIP), Far East and SE Asia Regional Office, Laguna, Los Banos, Luzon,<br />
Philippines. Received 05/02/2005.<br />
PI 642847. Ipomoea batatas (L.) Lam. var. batatas<br />
"W-220"; Q 44402.<br />
112
PI 642848. Ipomoea batatas (L.) Lam. var. batatas<br />
"Merenge"; Kruamp-nugamp; Q 44403.<br />
<strong>The</strong> following were developed by USDA-SCS, Hawaii <strong>Plant</strong> Materials Center,<br />
Hoolehua, Hawaii, United States. Received 12/2005.<br />
PI 642849. Eragrostis variabilis (Gaudich.) Hillebr.<br />
Cultivar. "Kaho'olawe <strong>Germplasm</strong> Kawelu"; 9079729; W6 27790.<br />
<strong>The</strong> following were developed by Charles E. Simpson, Texas A&M University, P.<br />
O. Box 292, Stephenville, Texas 76401, United States; Mark Burow, Texas A&M<br />
University, Agricultural Experiment Station, 1102 East FM 1294, Lubbock,<br />
Texas 79403, United States; Michael Baring, Texas A&M University, Soil & Crop<br />
Sciences Dept., Mail Stop 2474, College Station, Texas 77843-2474, United<br />
States; Yolanda Lopez, Texas Agricultural Experiment and Extension Center,<br />
1102 East FM 1294, Lubbock, Texas 79403, United States; J.M. Cason, Texas<br />
Agricultural Experiment Station, Soil and Crop Sciences, Stephenville, Texas<br />
76401, United States; J. Ayers, Texas Agricultural Experiment Station, Soil<br />
and Crop Science, Lubbock, Texas 79403, United States. Received 06/27/2006.<br />
PI 642850. Arachis hypogaea var. fastigiata (Waldron) Krapov. & W. C. Greg.<br />
Cultivar. Pureline. "TAMNUT OL06"; Tx034342. CV-91; PVP 200800279.<br />
Pedigree - Tamnut OL06 derived from fourth BC, Tamspan 90 X BC3 from<br />
Tamspan 90 X UF 435-2-1. <strong>The</strong> original cross produced cultivar OLin In<br />
subsequent BC2, BC3, BC4 after the selection of OLin, individual seed<br />
were tested for O/L ratio, planted, evaluated,and selected for various<br />
traits including seed size, plant growth habit, maturity, and yield, and<br />
was followed by yield testing in BC4F2:4, and more selection and O/L<br />
testing produced populations that were yield tested in BC4F4:7 to<br />
BC4F4:10 and the released material was a mixture of BC4F4:10 and<br />
BC4F4:11. Tamnut OL06 is a large seeded Spanish peanut (Arachis hypogaea<br />
L. subsp. fastigiata Waldron var. vulgaris Harz.) that has the high<br />
O/L genes and is high yielding. It exhibits some disease tolerance,<br />
and is earlier in maturity than runner cultivars presently available to<br />
growers. Tamnut OL06 was tested as Tx034342, and released in May 2006 by<br />
the Texas Agr.Exp. Sta., Texas A&M Univ. System. <strong>The</strong> plants are<br />
the same size as Tamspan 90, with upright growth habit and a mainstem<br />
that is not prominent. Vegetative growth adheres to the A. fastigiata<br />
type, with mostly sequential growth pattern, with flowers on the<br />
mainstem. Leaf color is lighter green than OLin (RHS 137A for Tamnut<br />
OL06 vs. 146A for OLin). Limited shelling evaluations indicate that<br />
Tamnut OL06 will shell in an acceptable manner. Shelling turnout studies<br />
used runner screens because this cultivar has seed size similar to<br />
runner-type cultivars, when grown in West Texas, and is being released<br />
to be marketed in that region as a runner-type peanut. <strong>The</strong> ELK (8.53 x<br />
25.4 mm slotted screen) fraction is significantly higher (P=0.0001,<br />
DMRT) in Tamnut OL06 than in Tamspan 90 or OLin. <strong>The</strong> Medium (7.14 x 25.4<br />
mm slotted screen) fractions were not significantly different (P=0.083)<br />
among the three lines. <strong>The</strong> US <strong>No</strong>.1 (6.35 x 25.4 mm slotted screen)<br />
fraction was smallest (P=0.0001) for Tamnut OL06 among the three Spanish<br />
lines. <strong>The</strong> seed size distribution for Tamnut OL06 is very similar in the<br />
three major fractions to Florunner a long time favorite of the<br />
processing and manufacturing industry. Tests on the blanching properties<br />
of Tamnut OL06 indicated that it blanches as well as any of the other<br />
Spanish varieties tested, and will be acceptable to the blanching and<br />
113
split Cblanching markets. Yields of Tamnut OL06 have been equal to or<br />
slightly higher than Tamspan 90 and OLin. Grades (TSMK) have generally<br />
run up to two points lower than Tamspan 90 and OLin. Tests in the<br />
Sclerotinia minor nursery at the TAES.<br />
<strong>The</strong> following were developed by Charles E. Simpson, Texas A&M University, P.<br />
O. Box 292, Stephenville, Texas 76401, United States; Hassan A. Melouk, USDA,<br />
ARS, Oklahoma State University, Department of <strong>Plant</strong> Pathology, Stillwater,<br />
Oklahoma 74078, United States; M.C. Black, Texas A&M University, Agricultural<br />
Res. and Ext. Ctr., Uvalde, Texas 78802-1849, United States; Mark Burow,<br />
Texas A&M University, Agricultural Experiment Station, 1102 East FM 1294,<br />
Lubbock, Texas 79403, United States; Michael Baring, Texas A&M University,<br />
Soil & Crop Sciences Dept., Mail Stop 2474, College Station, Texas<br />
77843-2474, United States; Yolanda Lopez, Texas Agricultural Experiment and<br />
Extension Center, 1102 East FM 1294, Lubbock, Texas 79403, United States;<br />
J.M. Cason, Texas Agricultural Experiment Station, Soil and Crop Sciences,<br />
Stephenville, Texas 76401, United States; J. Ayers, Texas Agricultural<br />
Experiment Station, Soil and Crop Science, Lubbock, Texas 79403, United<br />
States. Received 06/27/2006.<br />
PI 642851. Arachis hypogaea L. var. hypogaea<br />
Cultivar. Pureline. "TAMRUN OL07"; Tx033630. CV-92; PVP 200800280.<br />
Pedigree - Tamrun OL07 was derived from a complex cross between Tamrun<br />
96, breeding line Tx901639-3, and Sun Oleic 95R. <strong>The</strong> first cross was<br />
made in 1995 between Tx901639-3 and Sun Oleic 95R. <strong>The</strong> F2 progeny were<br />
grown in the 1996-97 winter greenhouse and pollen from those F2 progeny<br />
were used to make the complex cross with Tamrun 96 in the spring of<br />
1997. Individual plant selections were made on the resulting progeny in<br />
the F2, and F4 generations. Yield testing began in 2002 on the F4:7<br />
generation and continued until 2005 on the F4:10 generation. <strong>The</strong><br />
released material was F4:11 generation. Tamrun OL07 is a runner<br />
market-type peanut (Arachis hypogaea L. subsp. hypogaea var. hypogaea)<br />
cultivar with a high O/L ratio and having good yield potential. <strong>The</strong> new<br />
variety was tested as Tx033630 and was released by the Texas<br />
Agricultural Experiment Station in May 2006. Tamrun OL07 has a<br />
larger vine size than that of Tamrun OL 01. <strong>The</strong> mainstem height is, on<br />
average, 13.9cm taller than Tamrun OL 01 (p!\ 0.01) and the N+1 branch<br />
is 15.3cm longer (p!\ 0.01). <strong>The</strong> mainstem is apparent in most locations<br />
and seeding rates that we tested. <strong>The</strong> lateral branching is profuse like<br />
Tamrun OL 01 and the branching pattern is alternate, although not<br />
perfectly so. Leaf color is medium green, like Tamrun OL 01 (RHS 137A).<br />
Pods of Tamrun OL07 are mostly two seeded with a significantly smaller<br />
seed size than Tamrun OL 01 averaging 68.1 vs. 72.3g/100 seed (p!\<br />
0.05), across all locations. Pod constriction between the seeds is<br />
moderate and no differences were detected between the two varieties in<br />
analysis of pod measurements. Disease ratings indicate that Tamrun<br />
OL07 has more resistance to TSWV than Tamrun OL 01, Tamrun OL 02, and<br />
Flavorrunner 458. Yield test in a South Texas TSWV nursery showed<br />
Tamrun OL07 with a significantly lower infection rate of 28.3% as<br />
compared to Tamrun OL 01, Tamrun OL 02, and Flavorunner 458 with<br />
ratings of 58.8%, 55.0%, and 74.1% respectively (p!\ 0.01). <strong>The</strong> lower<br />
disease ratings were reflected in higher yields as Tamrun OL07 yielded<br />
5447 Kg/ha as compared to 4160 Kg/ha for Tamrun OL 01, 3508 Kg/ha for<br />
Tamrun OL 02, and 2313 Kg/ha for Flavorrunner 458. Disease ratings<br />
for Tamrun OL07 in the Central Texas Sclerotina blight nursery indicate<br />
that Tamrun OL 07 has more resistance than the check varieties.<br />
114
Analysis of test ratings from 2002 through 2005 show that Tamrun OL07<br />
has an average Sclerotinia infection rating of 34.1% compared to Tamrun<br />
OL 01 with 46.0%, Tamrun OL 02 with 50.1%, and Flavorrunner 458 with<br />
60.7% (p!\0.05).<br />
<strong>The</strong> following were developed by R.S. Malhotra, Int. Center for Agricultural<br />
Research in the Dry Areas, P.O. Box 5466, Aleppo, Syria; Kadambot Siddique,<br />
Centre for Legumes in Mediterranean Agriculture, <strong>The</strong> University of Western<br />
Australia, 35 Stirling Highway, Crawley, Western Australia, Australia; K.L.<br />
Regan, Dep. of Agriculture Western Australia, Baron Hay Court, South Perth,<br />
Western Australia 6151, Australia. Received 06/23/2006.<br />
PI 642852. Cicer arietinum L.<br />
Cultivar. Pureline. "ALMAZ". CV-268. Pedigree - Almaz was developed from<br />
single plants selected from segregating material provided by the<br />
International Centre for Agriculture in the Dry Areas (ICARDA), Aleppo,<br />
Syria. <strong>The</strong> initial cross was made at Tel Hadya, Syria in 1994. <strong>The</strong><br />
pedigree is X94TH103/(FLIP 91-186C/FLIP 91-96C)//FLIP 90-109C. Single<br />
plants were initially selected from F5 segregating populations sown in<br />
field plots in Turkey in 1998 and Western Australia in 2000 based on<br />
ascochyta resistance, uniformity, flowering time, seed coat color and<br />
seed size. Almaz has been evaluated in Turkey and Australia from 1999 to<br />
2005. Almaz was evaluated in 18 trials between 2002 and 2005 at various<br />
sites in WA, VIC, South Australia (SA) and New South Wales (NSW). It<br />
produces greater yields than Kaniva (standard variety) with an average<br />
yield of 1.26 t/ha across sites and seasons. <strong>The</strong> plant has a<br />
semi-erect growth habit and is medium to tall in height (580 mm). <strong>The</strong><br />
primary branches are erect and average about three per plant. <strong>The</strong> stem<br />
is woody and anthocyanin pigmentation is absent. Leaves are pinnate (16<br />
mm long by 9 mm wide) with medium green color. <strong>The</strong> plant produces white<br />
flowers, which have medium peduncles. <strong>The</strong> pods are large (30 mm long by<br />
12.5 mm wide), have a short beak, medium green color, with hairs absent<br />
to weak, and average 1.3 ovules. Almaz has a medium time to flowering<br />
(113 days after sowing) and early to medium time to maturity. Seeds are<br />
large with medium to heavy weight (36-43 mg/seed), a round to angular<br />
shape and weak ribbing. Almaz has light beige colored seeds with seed<br />
weight approximately 12% greater than Kaniva. Almaz shows greater<br />
resistance than Kaniva to ascochyta blight, caused by Ascochyta rabiei<br />
(Pass.) Labr.<br />
PI 642853. Cicer arietinum L.<br />
Cultivar. Pureline. "NAFICE". CV-269. Pedigree - Nafice was developed<br />
from single plants selected from segregating material provided by the<br />
International Centre for Agriculture in the Dry Areas (ICARDA), Aleppo,<br />
Syria. <strong>The</strong> initial cross was made at Tel Hadya, Syria in 1994. <strong>The</strong><br />
pedigree is X94TH8/ FLIP86-6//FLIP90-109. Single plants were initially<br />
selected from F5 segregating populations sown in field plots in Turkey<br />
in 1998 and Western Australia in 2000 based on ascochyta resistance,<br />
uniformity, flowering time, seed coat color and seed size. Nafice has<br />
been evaluated in Turkey and Australia from 1999 to 2005. Nafice was<br />
evaluated in 18 trials between 2002 and 2005 at various sites in WA,<br />
VIC, South Australia (SA) and New South Wales (NSW). It produces greater<br />
yields than Kaniva (standard variety) with an average yield of 1.03<br />
t/ha across sites and seasons. <strong>The</strong> plant has a semi-erect growth habit<br />
and is medium to tall in height (560 mm). <strong>The</strong> primary branches are erect<br />
and average about five per plant. <strong>The</strong> stem is woody and anthocyanin<br />
115
pigmentation is absent. Leaves are pinnate (17 mm long by 10 mm wide)<br />
with medium green color. <strong>The</strong> plant produces white flowers, which have<br />
medium peduncles. <strong>The</strong> pods are large (30 mm long by 13 mm wide), have a<br />
short beak, medium green color, strong hair intensity, and average 1.5<br />
ovules. Nafice has a medium time to flowering (117 days after sowing)<br />
and early to medium time to maturity. Seeds are large with medium to<br />
heavy weight (39-45 mg/seed), a round to angular shape and weak ribbing.<br />
Nafice has light to medium beige colored seeds with seed weight app<br />
roximately 20% greater than Kaniva. Nafice shows greater resistance to<br />
ascochyta blight than Kaniva, caused by Ascochyta rabiei (Pass.).<br />
<strong>The</strong> following were developed by Mario C. <strong>The</strong>rrien, Agriculture and Agri-Food<br />
Canada, Brandon Research Centre, Box 1000A, Brandon, Manitoba R7A 5Z7, Canada.<br />
Received 06/23/2006.<br />
PI 642854. Hordeum vulgare L. subsp. vulgare<br />
Cultivar. Pureline. "BINSCARTH"; FB006. CV-327. Pedigree - Brandon CC<br />
053/B1602/BT 347//Argyle/Conquest/Duel///(Vivar/AC Rosser). Released<br />
2006. C. 3% higher forage yield than Virden (the forage check cultivar)<br />
in western Canada, with a 9% yield advantage in Saskatchewan, its<br />
primary area of adaptation. Had 90% the grain yield of the check<br />
cultivar, AC Lacombe, which renders Binscarth unsuitable for grain<br />
production and classifies it as a forage-only cultivar. Tall cultivar<br />
(c. 100 cm) with moderate lodging resistance and mid-maturing. Test<br />
weight is relatively low at 58 kg h1-1. Forage quality is high, with<br />
total digestible nutrients (TDN) ranging from 57-59% and relative<br />
feeding value (RFV) from 118 to 127. Susceptible to Fusarium Head Blight<br />
(Fusarium graminearum); moderately resistant to common root rot and<br />
resistant to spot blotch [incited by Cochliobolus sativus]; resistant to<br />
net blotch (incited by Pyrenophora teres); susceptible in reaction to<br />
scald (incited by Rhynchosporium secalis) and septoria (incited by<br />
Septoria passerinii); resistant to stem rust (except to race QCCJ,<br />
incited by Puccinia graminis); susceptible to loose smut (incited by<br />
Ustilago nuda) and resistant to covered and false loose smuts (incited<br />
by Ustilago hordeii).<br />
<strong>The</strong> following were developed by Mario C. <strong>The</strong>rrien, Agriculture and Agri-Food<br />
Canada, Brandon Research Centre, Box 1000A, Brandon, Manitoba R7A 5Z7, Canada;<br />
N. Ames, Agriculture and Agri-Food Canada, Research Branch, Cereal Research<br />
Centre, Winnipeg, Manitoba R3T 2M9, Canada. Received 06/23/2006.<br />
PI 642855. Hordeum vulgare L. subsp. vulgare<br />
Cultivar. Pureline. "MILLHOUSE"; HB109; H133. CV-328; REST 642855.<br />
Pedigree - CDC Silky/Brandon Composite Cross 088//BT 356/<strong>No</strong>rdic.<br />
Released 2006. Standard (non-waxy) 2-rowed hulless barley with very high<br />
milling extract (80%) and physiochemical properties that allow for<br />
inclusion of large fraction (50-80%) of the flour in noodles and other<br />
unleavened products, without adversely affecting these products.<br />
Inclusion of Millhouse flour enhances dietary fibre and anti-oxidant<br />
content of wheat based products. Susceptible to Fusarium Head Blight<br />
(Fusarium graminearum) but exhibits low levels of deoxynivalenol (DON)<br />
mycotoxin; is moderately susceptible to common root rot and spot blotch,<br />
caused by Cochliobolus sativus; moderately susceptible to net blotch,<br />
caused by Pyrenophora teres; susceptible in reaction to scald, [caused<br />
by Rhynchosporium secalis], and septoria, caused by Septoria passerinii;<br />
116
esistant to stem rust except for race QCCJ, (incited by Puccinia<br />
graminis); intermediate in reaction to loose, false loose and covered<br />
smuts (incited by Ustilago spp.). Medium height, medium maturity and<br />
adapted to primarily semi-arid conditions in the <strong>No</strong>rthern Grant Plains<br />
of <strong>No</strong>rth America.<br />
<strong>The</strong> following were developed by Robert H. Busch, USDA, ARS, University of<br />
Minnesota, Dept. of Agronomy & <strong>Plant</strong> Genetics, St. Paul, Minnesota 55108,<br />
United States; Don V. McVey, USDA, ARS, University of Minnesota, Cereal Rust<br />
Laboratory, St. Paul, Minnesota 55105, United States; G. Hareland, USDA, ARS,<br />
Fargo, <strong>No</strong>rth Dakota 58105, United States; Jochum Wiersma, University of<br />
Minnesota, <strong>No</strong>rthwest Experiment Station, 108 Agricultural Research Center,<br />
Crookston, Minnesota 56716, United States; G. Linkert, University of<br />
Minnesota, St. Paul, Minnesota 55108, United States; Ruth Dill-Macky,<br />
University of Minnesota, Department of <strong>Plant</strong> Pathology, 495 Borlaug Hall, St.<br />
Paul, Minnesota 55108, United States; J.A. Anderson, University of Minnesota,<br />
Department of Agronomy & <strong>Plant</strong> Genetics, 411 Borlaug Hall, St. Paul,<br />
Minnesota 55108, United States; James Kolmer, USDA-ARS, Cereal Disease<br />
Laboratory, 1551 Lindig, St. Paul, Minnesota 55108, United States; Yue Jin,<br />
USDA, ARS, University of Minnesota, Cereal Disease Lab, St. Paul, Minnesota<br />
55108, United States; J.V. Wiersma, University of Minnesota, Crookston,<br />
Minnesota 56716, United States. Received 06/28/2006.<br />
PI 642856. Triticum aestivum L. subsp. aestivum<br />
Cultivar. Pureline. "ADA"; MN95229-A. CV-1004; PVP 200700088. Pedigree -<br />
Ada was derived from the cross SBY189H/ 2375 , made by the former<br />
Pioneer Hi-Bred spring wheat breeding program in the U.S. <strong>The</strong> cultivar<br />
2375, (PI 601477, syn. Pioneer 2375) has the pedigree Olaf // Era /<br />
Suqamuxi 68 /3/ Chris /ND487// Lark and was widely grown in Minnesota<br />
during the mid-1990 s due its moderate resistance to Fusarium head<br />
blight (caused primarily by Fusarium graminearum Schwabe). SBY189H is<br />
an unreleased spring wheat line from Pioneer Hi-Bred whose pedigree is<br />
Butte /3/TZPP/ Sonora 64 // Crim (B. Laskar, personal communication).<br />
Released 2006. Ada was released in 2006 on the basis of its high grain<br />
yield, high grain protein content, leaf rust resistance, and straw<br />
strength. Ada has erect juvenile plant growth, a recurved flag leaf,<br />
white glumes with an oblique shoulder and an acuminate beak. <strong>The</strong> spike<br />
is awned, mid-dense, and tapering. <strong>The</strong> kernel is red and ovate in shape<br />
with angular cheeks and a narrow, mid-deep crease. <strong>The</strong> brush on the<br />
kernel has a collar and is medium in length. Ada has medium maturity<br />
and produces spikes an average 1.4 d later than Oxen (PI 596770), the<br />
most popular cultivar in the region since the late 1990 s. Ada is a<br />
semidwarf cultivar and averages 83 cm, 3 cm shorter than Oxen. Ada has<br />
moderately strong straw and a mean lodging rating of 1.4 on a scale of 0<br />
(erect) to 9 (lodged). Oxen had mean lodging ratings of 0.9 and 2.0 in<br />
the same trials. Ada has a moderate reaction to Fusarium head blight in<br />
inoculated, mist-irrigated field nurseries. In eight Fusarium head<br />
blight nurseries from 2002 thru 2004, Ada averaged 29% visually diseased<br />
spikelets, 17% visually scabby kernels (VSK), and 14.9 mg kg -1 of the<br />
mycotoxin deoxynivalenol (DON). Oxen (moderately susceptible) had 52%<br />
visually diseased spikelets, 29% VSK, and 14.2 mg kg -1 DON. Ada is<br />
highly resistant to prevalent races of stem rust at the seedling and<br />
adult plant stages. Ada has good resistance in field plots to a mixture<br />
of common leaf rust races over different locations, which indicates that<br />
it has effective adult plant resistance genes. Ada has a resistant<br />
reaction at the adult plant stage to the foliar disease tan spot [caused<br />
117
y Pyrenophora tritici-repentis (Died.) Drechs.]. Ada had an average<br />
grain volume weight of 803 kg m-3, grain protein of 147 g kg-1, and loaf<br />
volume of 203 cm3. Compared to Oxen, Ada is 13 kg m-3 higher in grain<br />
volume weight, 8 g kg-1 higher in grain protein and similar in loaf<br />
volume. Ada is rated as resistant to preharvest sprouting.<br />
<strong>The</strong> following were developed by Seminis Vegetable Seeds, Inc., Woodland,<br />
California, United States. Received 05/23/2006.<br />
PI 642857 PVPO. Phaseolus vulgaris L.<br />
Cultivar. "FIRSTMATE". PVP 200600177.<br />
<strong>The</strong> following were developed by Pioneer Hi-Bred International, Inc.,<br />
Johnston, Iowa 50131, United States. Received 05/25/2006.<br />
PI 642858 PVPO. Zea mays L. subsp. mays<br />
Cultivar. "PHE35". PVP 200600206.<br />
PI 642859 PVPO. Zea mays L. subsp. mays<br />
Cultivar. "PHEED". PVP 200600207.<br />
PI 642860 PVPO. Zea mays L. subsp. mays<br />
Cultivar. "PHEGV". PVP 200600208.<br />
PI 642861 PVPO. Zea mays L. subsp. mays<br />
Cultivar. "PHEHR". PVP 200600209.<br />
PI 642862 PVPO. Zea mays L. subsp. mays<br />
Cultivar. "PHEJW". PVP 200600210.<br />
PI 642863 PVPO. Zea mays L. subsp. mays<br />
Cultivar. "PHC78". PVP 200600216.<br />
PI 642864 PVPO. Zea mays L. subsp. mays<br />
Cultivar. "PHDPP". PVP 200600217.<br />
PI 642865 PVPO. Zea mays L. subsp. mays<br />
Cultivar. "PHDRW". PVP 200600218.<br />
PI 642866 PVPO. Zea mays L. subsp. mays<br />
Cultivar. "PHDWA". PVP 200600219.<br />
PI 642867 PVPO. Zea mays L. subsp. mays<br />
Cultivar. "PHEBA". PVP 200600220.<br />
PI 642868 PVPO. Zea mays L. subsp. mays<br />
Cultivar. "PHEHC". PVP 200600221.<br />
PI 642869 PVPO. Zea mays L. subsp. mays<br />
Cultivar. "PHENE". PVP 200600222.<br />
<strong>The</strong> following were developed by Gary C. Peterson, Texas A&M University,<br />
Agricultural Research and, Extension Center, Lubbock, Texas 79401-9757,<br />
United States; K. Schaefer, Texas A&M University, Texas Agricultural<br />
118
Experiment Station, 10345 Agnes Street, Corpus Christi, Texas 78406, United<br />
States; B.B. Pendleton, West Texas A&M University, Devision of Agriculture,<br />
P.O. Box 60998, Canyon, Texas 79016, United States. Received 07/03/2006.<br />
PI 642870. Sorghum bicolor (L.) Moench subsp. bicolor<br />
Breeding. Pureline. Tx2962. REST 642870; GP-623. Pedigree -<br />
(Tx2862*(Tx2868*PI 550607)). Purple plant, red grain, normal endosperm,<br />
thin epicarp, no awns. Expresses a high level of resistance to biotype E<br />
greenbug (Schizaphis graminum) and moderate resistance to biotype I<br />
greenbug. Resistant to headsmut (caused by Sphacelotheca reiliana) and<br />
rust (caused by Puccinia purpurea). 3 dwarf in height. Days to 50%<br />
anthesis generally earlier than Tx2783 and RTx430.<br />
PI 642871. Sorghum bicolor (L.) Moench subsp. bicolor<br />
Breeding. Pureline. Tx2963. REST 642871; GP-624. Pedigree -<br />
(Tx2862*(Tx2868*PI 550607)). Tan plant, red grain, normal endosperm,<br />
thin epicarp, no awns, and tan glumes. Expresses a high level of<br />
resistance to biotype E greenbug (Schizaphis graminum) and moderate<br />
resistance to biotype I greenbug. Resistant to headsmut (caused by<br />
Sphacelotheca reiliana) and rust (caused by Puccinia purpurea). 3 dwarf<br />
in height. Days to 50% anthesis generally earlier than Tx2783 and<br />
RTx430.<br />
PI 642872. Sorghum bicolor (L.) Moench subsp. bicolor<br />
Breeding. Pureline. Tx2964. REST 642872; GP-625. Pedigree -<br />
(Tx2862*(Tx2868*PI 550607)). Tan plant, red grain, normal endosperm,<br />
thin epicarp, no awns, and tan glumes. Expresses a high level of<br />
resistance to biotype E greenbug (Schizaphis graminum) and moderate<br />
resistance to biotype I greenbug. Resistant to headsmut (caused by<br />
Sphacelotheca reiliana) and rust (caused by Puccinia purpurea). 3 dwarf<br />
in height. Days to 50% anthesis generally earlier than Tx2783 and<br />
RTx430.<br />
PI 642873. Sorghum bicolor (L.) Moench subsp. bicolor<br />
Breeding. Pureline. Tx2965. REST 642873; GP-626. Pedigree -<br />
(Tx2862*(Tx2868*PI 550607)). Purple plant, red grain, normal endosperm,<br />
thin epicarp, no awns. Expresses a high level of resistance to biotype E<br />
greenbug (Schizaphis graminum) and moderate resistance to biotype I<br />
greenbug. Resistant to headsmut (caused by Sphacelotheca reiliana) and<br />
rust (caused by Puccinia purpurea). 3 dwarf in height. Days to 50%<br />
anthesis generally earlier than Tx2783 and RTx430.<br />
PI 642874. Sorghum bicolor (L.) Moench subsp. bicolor<br />
Breeding. Pureline. Tx2966. REST 642874; GP-627. Pedigree -<br />
(Tx430*(Tx430*PI 550610)). Purple plant, white grain, yellow endosperm,<br />
thin epicar and awns. Expresses a high level of resistance to biotype E<br />
greenbug (Schizaphis graminum) and to biotype I greenbug. Resistant to<br />
headsmut (caused by Sphacelotheca reiliana) in two years of tests. 3<br />
dwarf in height. Days to 50% anthesis is earlier than Tx2783 and RTx430.<br />
PI 642875. Sorghum bicolor (L.) Moench subsp. bicolor<br />
Breeding. Pureline. Tx2967. REST 642875; GP-628. Pedigree -<br />
(Tx430*(Tx430*PI 550610)). Purple plant, white grain, yellow endosperm,<br />
thin epicarp, no awns. Expresses a high level of resistance to biotype E<br />
greenbug (Schizaphis graminum) and to biotype I greenbug. Expresses low<br />
to moderate susceptibility to headsmut (caused by Sphacelotheca<br />
119
eiliana) and rust (caused by Puccinia purpurea). 3 dwarf in height.<br />
Days to 50% anthesis is earlier than Tx2783 and RTx430.<br />
PI 642876. Sorghum bicolor (L.) Moench subsp. bicolor<br />
Breeding. Pureline. Tx2968. REST 642876; GP-629. Pedigree -<br />
(Tx430*(Tx430*PI 550610)). Purple plant, white grain, yellow endosperm,<br />
thin epicarp, no awns. Expresses a high level of resistance to biotype E<br />
greenbug (Schizaphis graminum) and to biotype I greenbug. Expresses low<br />
to moderate susceptibility to headsmut (caused by Sphacelotheca<br />
reiliana) and rust (caused by Puccinia purpurea). 3 dwarf in height.<br />
Days to 50% anthesis is earlier than Tx2783 and RTx430.<br />
PI 642877. Sorghum bicolor (L.) Moench subsp. bicolor<br />
Breeding. Pureline. Tx2969. REST 642877; GP-630. Pedigree -<br />
(Tx430*(Tx430*PI 550610)). Purple plant, white grain, yellow endosperm,<br />
thin epicarp, no awns. Expresses a high level of resistance to biotype E<br />
greenbug (Schizaphis graminum) and to biotype I greenbug. Expresses low<br />
to moderate susceptibility to headsmut (caused by Sphacelotheca<br />
reiliana) and rust (caused by Puccinia purpurea). 3 dwarf in height.<br />
Days to 50% anthesis is earlier than Tx2783 and RTx430.<br />
PI 642878. Sorghum bicolor (L.) Moench subsp. bicolor<br />
Breeding. Pureline. Tx2970. REST 642878; GP-631. Pedigree -<br />
(Tx2862*(Tx2868*PI 550607)). Purple plant, red grain, normal endosperm,<br />
thin epicarp, no awns. Expresses a high level of resistance to biotype E<br />
greenbug (Schizaphis graminum) and to biotype I greenbug. Expresses high<br />
level of resistance to rust (caused by Puccinia purpurea). 3 dwarf in<br />
height. Days to 50% anthesis is earlier than Tx2783 and RTx430.<br />
PI 642879. Sorghum bicolor (L.) Moench subsp. bicolor<br />
Breeding. Pureline. Tx2971. REST 642879; GP-632. Pedigree -<br />
(Tx2862*(Tx2868*PI 550607)). Purple plant, red grain, normal endosperm,<br />
thin epicarp, no awns. Expresses a high level of resistance to biotype E<br />
greenbug (Schizaphis graminum) and to biotype I greenbug. Expresses low<br />
susceptibility to headsmut (caused by Sphacelotheca reiliana). Expresses<br />
high level of resistance to rust (caused by Puccinia purpurea). 3 dwarf<br />
in height. Days to 50% anthesis is earlier than Tx2783 and RTx430.<br />
PI 642880. Sorghum bicolor (L.) Moench subsp. bicolor<br />
Breeding. Pureline. Tx2972. REST 642880; GP-633. Pedigree -<br />
(Tx2862*(Tx2868*PI 550607)). Purple plant, red grain, normal endosperm,<br />
thin epicarp, no awns. Expresses a high level of resistance to biotype E<br />
greenbug (Schizaphis graminum) and to biotype I greenbug. Expresses low<br />
susceptibility to headsmut (caused by Sphacelotheca reiliana). Expresses<br />
high level of resistance to rust (caused by Puccinia purpurea). 3 dwarf<br />
in height. Days to 50% anthesis is earlier than Tx2783 and RTx430.<br />
PI 642881. Sorghum bicolor (L.) Moench subsp. bicolor<br />
Breeding. Pureline. Tx2973. REST 642881; GP-634. Pedigree -<br />
(Tx2862*(Tx2868*PI 550607)). Purple plant, red grain, normal endosperm,<br />
thin epicarp, no awns. Expresses a high level of resistance to biotype E<br />
greenbug (Schizaphis graminum) and to biotype I greenbug. Expresses low<br />
susceptibility to headsmut (caused by Sphacelotheca reiliana). Expresses<br />
high level of resistance to rust (caused by Puccinia purpurea). 3 dwarf<br />
in height. Days to 50% anthesis is earlier than Tx2783 and RTx430.<br />
120
PI 642882. Sorghum bicolor (L.) Moench subsp. bicolor<br />
Breeding. Pureline. Tx2974. REST 642882; GP-635. Pedigree -<br />
(Tx2862*(Tx2868*PI 550607)). Purple plant, red grain, normal endosperm,<br />
thin epicarp, no awns. Expresses a high level of resistance to biotype E<br />
greenbug (Schizaphis graminum) and to biotype I greenbug. Expresses low<br />
susceptibility to headsmut (caused by Sphacelotheca reiliana). Expresses<br />
high level of resistance to rust (caused by Puccinia purpurea). 3 dwarf<br />
in height. Days to 50% anthesis is earlier than Tx2783 and RTx430.<br />
PI 642883. Sorghum bicolor (L.) Moench subsp. bicolor<br />
Breeding. Pureline. Tx2975. REST 642883; GP-636. Pedigree -<br />
(Tx436*(Tx2862*(Tx2868*PI 550607))). Purple plant, white grain, normal<br />
endosperm, thin epicarp, no awns. Expresses a moderate level of<br />
resistance to biotype E and I greenbug (Schizaphis graminum). Moderately<br />
susceptible to headsmut (caused by Sphacelotheca reiliana) and rust<br />
(Puccinia purpurea). 3 dwarf in height. Days to 50% anthesis is earlier<br />
than Tx2783 and RTx430.<br />
PI 642884. Sorghum bicolor (L.) Moench subsp. bicolor<br />
Breeding. Pureline. Tx2976. REST 642884; GP-637. Pedigree -<br />
(Tx436*(Tx2862*(Tx2868*PI 550607))). Tan plant, white grain, normal<br />
endosperm, thin epicarp, no awns, and tan glumes. Expresses a moderate<br />
level of resistance to biotype E and I greenbug (Schizaphis graminum).<br />
Expresses low susceptibility to headsmut (caused by Sphacelotheca<br />
reiliana) and moderate susceptibility to rust (Puccinia purpurea). 3<br />
dwarf in height. Days to 50% anthesis is earlier than Tx2783 and RTx430.<br />
PI 642885. Sorghum bicolor (L.) Moench subsp. bicolor<br />
Breeding. Pureline. Tx2977. REST 642885; GP-638. Pedigree -<br />
(Tx2862*(Tx2864*PI 550607)). Red-purple plant, white grain, normal<br />
endosperm, thick epicarp, no awns. Expresses high level of resistance to<br />
both biotype E and I greenbug (Schizaphis graminum). Resistant to<br />
headsmut (caused by Sphacelotheca reiliana); moderately susceptible to<br />
rust (Puccinia purpurea). 3 dwarf in height. Days to 50% anthesis is<br />
earlier than Tx2783 and RTx430.<br />
PI 642886. Sorghum bicolor (L.) Moench subsp. bicolor<br />
Breeding. Pureline. Tx2978. REST 642886; GP-639. Pedigree -<br />
(Tx436*)Tx430*(Tx430*PI 550610))). Red-purple plant, white grain, normal<br />
endosperm, thick epicarp, no awns. Expresses moderate level of<br />
resistance to both biotype E and I greenbug (Schizaphis graminum).<br />
Expresses low level of susceptibility to headsmut (caused by<br />
Sphacelotheca reiliana); moderately resistant to rust (Puccinia<br />
purpurea). 3 dwarf in height. Days to 50% anthesis is generally earlier<br />
than Tx2783 and RTx430.<br />
<strong>The</strong> following were developed by Phil Bregitzer, USDA-ARS, National Small<br />
Grains <strong>Germplasm</strong> Research Facility, 1691 S. 2700 W., Aberdeen, Idaho 83210,<br />
United States; Dolores W. Mornhinweg, USDA, ARS, <strong>Plant</strong> Science Research<br />
Laboratory, 1301 N. Western Street, Stillwater, Oklahoma 74075, United States;<br />
David R. Porter, USDA, ARS, 1301 N. Western Road, Stillwater, Oklahoma<br />
74075-2714, United States. Received 07/05/2006.<br />
PI 642887. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. STARS 0601B. GP-161. Pedigree - Excel*4/STARS 9577B.<br />
6-rowed, spring malt barley with high tolerance to Russian wheat aphid<br />
121
(RWA), (Diruaphis noxia). On Webster s scale of 1-9, where 1=immune and<br />
9=dead, STARS 0601B is rated 3 F (F=flat, R=rolled) in greenhouse<br />
seedling screenings. Greenhouse and field testing has shown this<br />
resistance to persist throughout the life of the plant. <strong>The</strong> source of<br />
resistance in this germplasm is derived from STARS 9577B. Even in the<br />
absence of RWA, STARS 0601B yields 102% of its recurrent parent, Excel.<br />
PI 642888. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. STARS 0602B. GP-162. Pedigree - Excel*4/R010.<br />
6-rowed, spring malt barley with high tolerance to Russian wheat aphid<br />
(RWA), (Diruaphis noxia). On Webster s scale of 1-9, where 1=immune and<br />
9=dead, STARS 0602B is rated 2 F (F=flat, R=rolled) in greenhouse<br />
seedling screenings. Greenhouse and field testing has shown this<br />
resistance to persist throughout the life of the plant. <strong>The</strong> source of<br />
resistance in this germplasm is derived from CI 10679. Even in the<br />
absence of RWA, STARS 0602B yields 103% of its recurrent parent, Excel.<br />
PI 642889. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. STARS 0603B. GP-163. Pedigree - Excel*4/MR055.<br />
6-rowed, spring malt barley with moderate tolerance to Russian wheat<br />
aphid (RWA), (Diruaphis noxia). On Webster s scale of 1-9, where<br />
1=immune and 9=dead, STARS 0603B is rated 4 F (F=flat, R=rolled) in<br />
greenhouse seedling screenings. Greenhouse and field testing has shown<br />
this resistance to persist throughout the life of the plant. <strong>The</strong> source<br />
of resistance in this germplasm is derived from PI 564601. Even in the<br />
absence of RWA, STARS 0603B yields 96% of its recurrent parent, Excel.<br />
PI 642890. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. STARS 0604B. GP-164. Pedigree - Morex*4/R001.<br />
6-rowed, spring malt barley with high tolerance to Russian wheat aphid<br />
(RWA), (Diruaphis noxia). On Webster s scale of 1-9, where 1=immune and<br />
9=dead, STARS 0604B is rated 2 F (F=flat, R=rolled) in greenhouse<br />
seedling screenings. Greenhouse and field testing has shown this<br />
resistance to persist throughout the life of the plant. <strong>The</strong> source of<br />
resistance in this germplasm is derived from CI 1412. Even in the<br />
absence of RWA, STARS 0604B yields 98% of its recurrent parent, Morex.<br />
PI 642891. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. STARS 0605B. GP-165. Pedigree - Morex*4/R007.<br />
6-rowed, spring malt barley with high tolerance to Russian wheat aphid<br />
(RWA), (Diruaphis noxia). On Websters scale of 1-9, where 1=immune and<br />
9=dead, STARS 0605B is rated 3 F (F=flat, R=rolled) in greenhouse<br />
seedling screenings. Greenhouse and field testing has shown this<br />
resistance to persist throughout the life of the plant. <strong>The</strong> source of<br />
resistance in this germplasm is derived from CI 4166. Even in the<br />
absence of RWA, STARS 0605B yields 98% of its recurrent parent, Morex.<br />
PI 642892. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. STARS 0606B. GP-166. Pedigree - Morex*4/R009.<br />
6-rowed, spring malt barley with high tolerance to Russian wheat aphid<br />
(RWA), (Diruaphis noxia). On Webster s scale of 1-9, where 1=immune and<br />
9=dead, STARS 0606B is rated 2 F (F=flat, R=rolled) in greenhouse<br />
seedling screenings. Greenhouse and field testing has shown this<br />
resistance to persist throughout the life of the plant. <strong>The</strong> source of<br />
resistance in this germplasm is derived from CI 6925. Even in the<br />
absence of RWA, STARS 0606B yields 101% of its recurrent parent, Morex.<br />
122
PI 642893. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. STARS 0607B. GP-167. Pedigree - Morex*4/R011.<br />
6-rowed, spring malt barley with high tolerance to Russian wheat aphid<br />
(RWA), (Diruaphis noxia). On Webster s scale of 1-9, where 1=immune and<br />
9=dead, STARS 0607B is rated 2 F (F=flat, R=rolled) in greenhouse<br />
seedling screenings. Greenhouse and field testing has shown this<br />
resistance to persist throughout the life of the plant. <strong>The</strong> source of<br />
resistance in this germplasm is derived from CI 10687. Even in the<br />
absence of RWA, STARS 0607B yields 101% of its recurrent parent, Morex.<br />
PI 642894. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. STARS 0608B. GP-168. Pedigree - Morex*4/R016.<br />
6-rowed, spring malt barley with high tolerance to Russian wheat aphid<br />
(RWA), (Diruaphis noxia). On Webster s scale of 1-9, where 1=immune and<br />
9=dead, STARS 0608B is rated 2 F (F=flat, R=rolled) in greenhouse<br />
seedling screenings. Greenhouse and field testing has shown this<br />
resistance to persist throughout the life of the plant. <strong>The</strong> source of<br />
resistance in this germplasm is derived from CI 10712. Even in the<br />
absence of RWA, STARS 0608B yields 105% of its recurrent parent, Morex.<br />
PI 642895. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. STARS 0609B. GP-169. Pedigree - Morex*4/R018.<br />
6-rowed, spring malt barley with high tolerance to Russian wheat aphid<br />
(RWA), (Diruaphis noxia). On Webster s scale of 1-9, where 1=immune and<br />
9=dead, STARS 0609B is rated 3 F (F=flat, R=rolled) in greenhouse<br />
seedling screenings. Greenhouse and field testing has shown this<br />
resistance to persist throughout the life of the plant. <strong>The</strong> source of<br />
resistance in this germplasm is derived from CI 12258. Even in the<br />
absence of RWA, STARS 0609B yields 100% of its recurrent parent, Morex.<br />
PI 642896. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. STARS 0610B. GP-170. Pedigree - Morex*4/R019.<br />
6-rowed, spring malt barley with high tolerance to Russian wheat aphid<br />
(RWA), (Diruaphis noxia). On Webster s scale of 1-9, where 1=immune and<br />
9=dead, STARS 0610B is rated 2 F (F=flat, R=rolled) in greenhouse<br />
seedling screenings. Greenhouse and field testing has shown this<br />
resistance to persist throughout the life of the plant. <strong>The</strong> source of<br />
resistance in this germplasm is derived from CI 13134. Even in the<br />
absence of RWA, STARS 0610B yields 106% of its recurrent parent, Morex.<br />
PI 642897. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. STARS 0611B. GP-171. Pedigree - Morex*4/R028.<br />
6-rowed, spring malt barley with high tolerance to Russian wheat aphid<br />
(RWA), (Diruaphis noxia). On Webster s scale of 1-9, where 1=immune and<br />
9=dead, STARS 0611B is rated 2 F (F=flat, R=rolled) in greenhouse<br />
seedling screenings. Greenhouse and field testing has shown this<br />
resistance to persist throughout the life of the plant. <strong>The</strong> source of<br />
resistance in this germplasm is derived from PI 366453. Even in the<br />
absence of RWA, STARS 0611B yields 97% of its recurrent parent, Morex.<br />
PI 642898. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. STARS 0612B. GP-172. Pedigree - Morex*4/R033.<br />
6-rowed, spring malt barley with high tolerance to Russian wheat aphid<br />
(RWA), (Diruaphis noxia). On Webster s scale of 1-9, where 1=immune and<br />
9=dead, STARS 0612B is rated 3 F (F=flat, R=rolled) in greenhouse<br />
seedling screenings. Greenhouse and field testing has shown this<br />
resistance to persist throughout the life of the plant. <strong>The</strong> source of<br />
123
esistance in this germplasm is derived from CI 6316. Even in the<br />
absence of RWA, STARS 0612B yields 103% of its recurrent parent, Morex.<br />
PI 642899. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. STARS 0613B. GP-173. Pedigree - Morex*4/R043.<br />
6-rowed, spring malt barley with high tolerance to Russian wheat aphid<br />
(RWA), (Diruaphis noxia). On Webster s scale of 1-9, where 1=immune and<br />
9=dead, STARS 0613B is rated 2 F (F=flat, R=rolled) in greenhouse<br />
seedling screenings. Greenhouse and field testing has shown this<br />
resistance to persist throughout the life of the plant. <strong>The</strong> source of<br />
resistance in this germplasm is derived from PI 556966. Even in the<br />
absence of RWA, STARS 0613B yields 92% of its recurrent parent, Morex.<br />
PI 642900. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. STARS 0614B. GP-174. Pedigree - Morex*4/R052.<br />
6-rowed, spring malt barley with high tolerance to Russian wheat aphid<br />
(RWA), (Diruaphis noxia). On Websters scale of 1-9, where 1=immune and<br />
9=dead, STARS 0614B is rated 3 F (F=flat, R=rolled) in greenhouse<br />
seedling screenings. Greenhouse and field testing has shown this<br />
resistance to persist throughout the life of the plant. <strong>The</strong> source of<br />
resistance in this germplasm is derived from CI 6349. Even in the<br />
absence of RWA, STARS 0614B yields 112% of its recurrent parent, Morex.<br />
PI 642901. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. STARS 0615B. GP-175. Pedigree - Morex*4/R053.<br />
6-rowed, spring malt barley with high tolerance to Russian wheat aphid<br />
(RWA), (Diruaphis noxia). On Webster s scale of 1-9, where 1=immune and<br />
9=dead, STARS 0615B is rated 3 F (F=flat, R=rolled) in greenhouse<br />
seedling screenings. Greenhouse and field testing has shown this<br />
resistance to persist throughout the life of the plant. <strong>The</strong> source of<br />
resistance in this germplasm is derived from CI 13695. Even in the<br />
absence of RWA, STARS 0615B yields 113% of its recurrent parent, Morex.<br />
PI 642902. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. STARS 0616B. GP-176. Pedigree - Morex*4/R054.<br />
6-rowed, spring malt barley with high tolerance to Russian wheat aphid<br />
(RWA), (Diruaphis noxia). On Websters scale of 1-9, where 1=immune and<br />
9=dead, STARS 0616B is rated 3 F (F=flat, R=rolled) in greenhouse<br />
seedling screenings. Greenhouse and field testing has shown this<br />
resistance to persist throughout the life of the plant. <strong>The</strong> source of<br />
resistance in this germplasm is derived from CI 14242. Even in the<br />
absence of RWA, STARS 0616B yields 103% of its recurrent parent, Morex.<br />
PI 642903. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. STARS 0617B. GP-177. Pedigree - Robust*4/R026.<br />
6-rowed, spring malt barley with high tolerance to Russian wheat aphid<br />
(RWA), (Diruaphis noxia). On Webster s scale of 1-9, where 1=immune and<br />
9=dead, STARS 0617B is rated 3 F (F=flat, R=rolled) in greenhouse<br />
seedling screenings. Greenhouse and field testing has shown this<br />
resistance to persist throughout the life of the plant. <strong>The</strong> source of<br />
resistance in this germplasm is derived from PI 366449. Even in the<br />
absence of RWA, STARS 0617B yields 111% of its recurrent parent, Robust.<br />
PI 642904. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. STARS 0618B. GP-178. Pedigree - Robust*4/R029.<br />
6-rowed, spring malt barley with high tolerance to Russian wheat aphid<br />
(RWA), (Diruaphis noxia). On Webster s scale of 1-9, where 1=immune and<br />
124
9=dead, STARS 0618B is rated 3 F (F=flat, R=rolled) in greenhouse<br />
seedling screenings. Greenhouse and field testing has shown this<br />
resistance to persist throughout the life of the plant. <strong>The</strong> source of<br />
resistance in this germplasm is derived from PI 366454. Even in the<br />
absence of RWA, STARS 0618B yields 92% of its recurrent parent, Robust.<br />
PI 642905. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. STARS 0619B. GP-179. Pedigree - Stander*4/STARS<br />
9301B. 6-rowed, spring malt barley with high tolerance to Russian wheat<br />
aphid (RWA), (Diruaphis noxia). On Websters scale of 1-9, where 1=immune<br />
and 9=dead, STARS 0619B is rated 2 F (F=flat, R=rolled) in greenhouse<br />
seedling screenings. Greenhouse and field testing has shown this<br />
resistance to persist throughout the life of the plant. <strong>The</strong> source of<br />
resistance in this germplasm is derived from STARS 9301B. Even in the<br />
absence of RWA, STARS 0619B yields 102% of its recurrent parent,<br />
Stander.<br />
PI 642906. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. STARS 0620B. GP-144. Pedigree - B1202*4/STARS 9301B.<br />
2-rowed, spring malt barley with high tolerance to Russian wheat aphid<br />
(RWA), (Diruaphis noxia). On Webster s scale of 1-9, where 1=immune and<br />
9=dead, STARS 0620B is rated 2 F (F=flat, R=rolled) in greenhouse<br />
seedling screenings. Greenhouse and field testing has shown this<br />
resistance to persist throughout the life of the plant. <strong>The</strong> source of<br />
resistance in this germplasm is derived from STARS 9301B. Even in the<br />
absence of RWA, STARS 0620B yields 102% of its recurrent parent, B1202.<br />
PI 642907. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. STARS 0621B. GP-145. Pedigree - B1202*4/STARS 9577B.<br />
2-rowed, spring malt barley with high tolerance to Russian wheat aphid<br />
(RWA), (Diruaphis noxia). On Webster s scale of 1-9, where 1=immune and<br />
9=dead, STARS 0621B is rated 3 F (F=flat, R=rolled) in greenhouse<br />
seedling screenings. Greenhouse and field testing has shown this<br />
resistance to persist throughout the life of the plant. <strong>The</strong> source of<br />
resistance in this germplasm is derived from STARS 9577B. Even in the<br />
absence of RWA, STARS 0621B yields 102% of its recurrent parent, B1202.<br />
PI 642908. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. STARS 0622B. GP-146. Pedigree - B1202*4/R034.<br />
2-rowed, spring malt barley with high tolerance to Russian wheat aphid<br />
(RWA), (Diruaphis noxia). On Webster s scale of 1-9, where 1=immune and<br />
9=dead, STARS 0622B is rated 3 F (F=flat, R=rolled) in greenhouse<br />
seedling screenings. Greenhouse and field testing has shown this<br />
resistance to persist throughout the life of the plant. <strong>The</strong> source of<br />
resistance in this germplasm is derived from CI 6322. Even in the<br />
absence of RWA, STARS 0622B yields 108% of its recurrent parent, B1202.<br />
PI 642909. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. STARS 0623B. GP-147. Pedigree - B1202*4/R040.<br />
2-rowed, spring malt barley with high tolerance to Russian wheat aphid<br />
(RWA), (Diruaphis noxia). On Webster s scale of 1-9, where 1=immune and<br />
9=dead, STARS 0623B is rated 3 F (F=flat, R=rolled) in greenhouse<br />
seedling screenings. Greenhouse and field testing has shown this<br />
resistance to persist throughout the life of the plant. <strong>The</strong> source of<br />
resistance in this germplasm is derived from CI 14679. Even in the<br />
absence of RWA, STARS 0623B yields 100% of its recurrent parent, B1202.<br />
125
PI 642910. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. STARS 0624B. GP-148. Pedigree - B1202*4/R044.<br />
2-rowed, spring malt barley with high tolerance to Russian wheat aphid<br />
(RWA), (Diruaphis noxia). On Webster s scale of 1-9, where 1=immune and<br />
9=dead, STARS 0624B is rated 3 F (F=flat, R=rolled) in greenhouse<br />
seedling screenings. Greenhouse and field testing has shown this<br />
resistance to persist throughout the life of the plant. <strong>The</strong> source of<br />
resistance in this germplasm is derived from PI 564608. Even in the<br />
absence of RWA, STARS 0624B yields 103% of its recurrent parent, B1202.<br />
PI 642911. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. STARS 0625B. GP-149. Pedigree - Crest*4/R021.<br />
2-rowed, spring malt barley with high tolerance to Russian wheat aphid<br />
(RWA), (Diruaphis noxia). On Webster s scale of 1-9, where 1=immune and<br />
9=dead, STARS 0625B is rated 2 F (F=flat, R=rolled) in greenhouse<br />
seedling screenings. Greenhouse and field testing has shown this<br />
resistance to persist throughout the life of the plant. <strong>The</strong> source of<br />
resistance in this germplasm is derived from PI 328692. Even in the<br />
absence of RWA, STARS 0625B yields 93% of its recurrent parent, Crest.<br />
PI 642912. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. STARS 0626B. GP-150. Pedigree - Crystal*4/R004.<br />
2-rowed, spring malt barley with high tolerance to Russian wheat aphid<br />
(RWA), (Diruaphis noxia). On Webster s scale of 1-9, where 1=immune and<br />
9=dead, STARS 0626B is rated 3 F (F=flat, R=rolled) in greenhouse<br />
seedling screenings. Greenhouse and field testing has shown this<br />
resistance to persist throughout the life of the plant. <strong>The</strong> source of<br />
resistance in this germplasm is derived from CI 4125. Even in the<br />
absence of RWA, STARS 0626B yields 103% of its recurrent parent,<br />
Crystal.<br />
PI 642913. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. STARS 0627B. GP-151. Pedigree - Crystal*4/R009.<br />
2-rowed, spring malt barley with high tolerance to Russian wheat aphid<br />
(RWA), (Diruaphis noxia). On Webster s scale of 1-9, where 1=immune and<br />
9=dead, STARS 0627B is rated 2 F (F=flat, R=rolled) in greenhouse<br />
seedling screenings. Greenhouse and field testing has shown this<br />
resistance to persist throughout the life of the plant. <strong>The</strong> source of<br />
resistance in this germplasm is derived from CI 6925. Even in the<br />
absence of RWA, STARS 0627B yields 99% of its recurrent parent, Crystal.<br />
PI 642914. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. STARS 0628B. GP-152. Pedigree - Crystal*4/R023.<br />
2-rowed, spring malt barley with high tolerance to Russian wheat aphid<br />
(RWA), (Diruaphis noxia). On Webster s scale of 1-9, where 1=immune and<br />
9=dead, STARS 0628B is rated 2 F (F=flat, R=rolled) in greenhouse<br />
seedling screenings. Greenhouse and field testing has shown this<br />
resistance to persist throughout the life of the plant. <strong>The</strong> source of<br />
resistance in this germplasm is derived from PI 366444. Even in the<br />
absence of RWA, STARS 0628B yields 86% of its recurrent parent, Crystal.<br />
PI 642915. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. STARS 0629B. GP-153. Pedigree - Crystal*4/MR001.<br />
2-rowed, spring malt barley with moderate tolerance to Russian wheat<br />
aphid (RWA), (Diruaphis noxia). On Webster s scale of 1-9, where<br />
1=immune and 9=dead, STARS 0629B is rated 4 F (F=flat, R=rolled) in<br />
greenhouse seedling screenings. Greenhouse and field testing has shown<br />
126
this resistance to persist throughout the life of the plant. <strong>The</strong> source<br />
of resistance in this germplasm is derived from CI 3694. Even in the<br />
absence of RWA, STARS 0629B yields 94% of its recurrent parent, Crystal.<br />
PI 642916. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. STARS 0630B. GP-154. Pedigree - Crystal*4/MR009.<br />
2-rowed, spring malt barley with moderate tolerance to Russian wheat<br />
aphid (RWA), (Diruaphis noxia). On Webster s scale of 1-9, where<br />
1=immune and 9=dead, STARS 0630B is rated 4 F (F=flat, R=rolled) in<br />
greenhouse seedling screenings. Greenhouse and field testing has shown<br />
this resistance to persist throughout the life of the plant. <strong>The</strong> source<br />
of resistance in this germplasm is derived from CI 10587. Even in the<br />
absence of RWA, STARS 0630B yields 95% of its recurrent parent, Crystal.<br />
PI 642917. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. STARS 0631B. GP-155. Pedigree - Crystal*4/MR013.<br />
2-rowed, spring malt barley with moderate tolerance to Russian wheat<br />
aphid (RWA), (Diruaphis noxia). On Webster s scale of 1-9, where<br />
1=immune and 9=dead, STARS 0631B is rated 4 F (F=flat, R=rolled) in<br />
greenhouse seedling screenings. Greenhouse and field testing has shown<br />
this resistance to persist throughout the life of the plant. <strong>The</strong> source<br />
of resistance in this germplasm is derived from CI 11958. Even in the<br />
absence of RWA, STARS 0631B yields 100% of its recurrent parent,<br />
Crystal.<br />
PI 642918. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. STARS 0632B. GP-156. Pedigree - Crystal*4/MR022.<br />
2-rowed, spring malt barley with moderate tolerance to Russian wheat<br />
aphid (RWA), (Diruaphis noxia). On Webster s scale of 1-9, where<br />
1=immune and 9=dead, STARS 0632B is rated 4 F (F=flat, R=rolled) in<br />
greenhouse seedling screenings. Greenhouse and field testing has shown<br />
this resistance to persist throughout the life of the plant. <strong>The</strong> source<br />
of resistance in this germplasm is derived from CI 14259. Even in the<br />
absence of RWA, STARS 0632B yields 96% of its recurrent parent, Crystal.<br />
PI 642919. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. STARS 0633B. GP-157. Pedigree - Harrington*4/R002.<br />
2-rowed, spring malt barley with high tolerance to Russian wheat aphid<br />
(RWA), (Diruaphis noxia). On Webster s scale of 1-9, where 1=immune and<br />
9=dead, STARS 0633B is rated 2 F (F=flat, R=rolled) in greenhouse<br />
seedling screenings. Greenhouse and field testing has shown this<br />
resistance to persist throughout the life of the plant. <strong>The</strong> source of<br />
resistance in this germplasm is derived from CI 2432. Even in the<br />
absence of RWA, STARS 0633B yields 96% of its recurrent parent,<br />
Harrington.<br />
PI 642920. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. STARS 0634B. GP-158. Pedigree - Harrington*4/R003.<br />
2-rowed, spring malt barley with high tolerance to Russian wheat aphid<br />
(RWA), (Diruaphis noxia). On Webster s scale of 1-9, where 1=immune and<br />
9=dead, STARS 0634B is rated 2 F (F=flat, R=rolled) in greenhouse<br />
seedling screenings. Greenhouse and field testing has shown this<br />
resistance to persist throughout the life of the plant. <strong>The</strong> source of<br />
resistance in this germplasm is derived from CI 2436. Even in the<br />
absence of RWA, STARS 0634B yields 99% of its recurrent parent,<br />
Harrington.<br />
127
PI 642921. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. STARS 0635B. GP-159. Pedigree - Harrington*4/R029.<br />
2-rowed, spring malt barley with high tolerance to Russian wheat aphid<br />
(RWA), (Diruaphis noxia). On Webster s scale of 1-9, where 1=immune and<br />
9=dead, STARS 0635B is rated 3 F (F=flat, R=rolled) in greenhouse<br />
seedling screenings. Greenhouse and field testing has shown this<br />
resistance to persist throughout the life of the plant. <strong>The</strong> source of<br />
resistance in this germplasm is derived from PI 366454. Even in the<br />
absence of RWA, STARS 0635B yields 97% of its recurrent parent,<br />
Harrington.<br />
PI 642922. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. STARS 0636B. GP-160. Pedigree - Harrington*4/R043.<br />
2-rowed, spring malt barley with high tolerance to Russian wheat aphid<br />
(RWA), (Diruaphis noxia). On Webster s scale of 1-9, where 1=immune and<br />
9=dead, STARS 0636B is rated 3 F (F=flat, R=rolled) in greenhouse<br />
seedling screenings. Greenhouse and field testing has shown this<br />
resistance to persist throughout the life of the plant. <strong>The</strong> source of<br />
resistance in this germplasm is derived from PI556966. Even in the<br />
absence of RWA, STARS 0636B yields 92% of its recurrent parent,<br />
Harrington.<br />
PI 642923. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. STARS 0637B. GP-189. Pedigree - Bowman*4/STARS 9577B.<br />
2-rowed, spring feed barley with high tolerance to Russian wheat aphid<br />
(RWA), (Diruaphis noxia). On Websters scale of 1-9, where 1=immune and<br />
9=dead, STARS 0637B is rated 3 F (F=flat, R=rolled) in greenhouse<br />
seedling screenings. Greenhouse and field testing has shown this<br />
resistance to persist throughout the life of the plant. <strong>The</strong> source of<br />
resistance in this germplasm is derived from STARS 9577B. Even in the<br />
absence of RWA, STARS 0637B yields 102% of its recurrent parent, Bowman.<br />
PI 642924. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. STARS 0638B. GP-190. Pedigree - Bowman*4/R041.<br />
2-rowed, spring feed barley with high tolerance to Russian wheat aphid<br />
(RWA), (Diruaphis noxia). On Websters scale of 1-9, where 1=immune and<br />
9=dead, STARS 0638B is rated 3 F (F=flat, R=rolled) in greenhouse<br />
seedling screenings. Greenhouse and field testing has shown this<br />
resistance to persist throughout the life of the plant. <strong>The</strong> source of<br />
resistance in this germplasm is derived from CI 14806. Even in the<br />
absence of RWA, STARS 0638B yields 96% of its recurrent parent, Bowman.<br />
PI 642925. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. STARS 0639B. GP-191. Pedigree - Bowman*4/R043.<br />
2-rowed, spring feed barley with high tolerance to Russian wheat aphid<br />
(RWA), (Diruaphis noxia). On Websters scale of 1-9, where 1=immune and<br />
9=dead, STARS 0639B is rated 2 F (F=flat, R=rolled) in greenhouse<br />
seedling screenings. Greenhouse and field testing has shown this<br />
resistance to persist throughout the life of the plant. <strong>The</strong> source of<br />
resistance in this germplasm is derived from PI 556966. Even in the<br />
absence of RWA, STARS 0639B yields 101% of its recurrent parent, Bowman.<br />
PI 642926. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. STARS 0640B. GP-192. Pedigree - Hector*4/STARS 9301B.<br />
2-rowed, spring feed barley with high tolerance to Russian wheat aphid<br />
(RWA), (Diruaphis noxia). On Websters scale of 1-9, where 1=immune and<br />
9=dead, STARS 0640B is rated 2 F (F=flat, R=rolled) in greenhouse<br />
128
seedling screenings. Greenhouse and field testing has shown this<br />
resistance to persist throughout the life of the plant. <strong>The</strong> source of<br />
resistance in this germplasm is derived from STARS 9301B. Even in the<br />
absence of RWA, STARS 0640B yields 108% of its recurrent parent, Hector.<br />
PI 642927. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. STARS 0641B. GP-193. Pedigree - Hector*4/R003.<br />
2-rowed, spring feed barley with high tolerance to Russian wheat aphid<br />
(RWA), (Diruaphis noxia). On Webster s scale of 1-9, where 1=immune and<br />
9=dead, STARS 0641B is rated 3 F (F=flat, R=rolled) in greenhouse<br />
seedling screenings. Greenhouse and field testing has shown this<br />
resistance to persist throughout the life of the plant. <strong>The</strong> source of<br />
resistance in this germplasm is derived from CI 2436. Even in the<br />
absence of RWA, STARS 0641B yields 100% of its recurrent parent, Hector.<br />
PI 642928. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. STARS 0642B. GP-194. Pedigree - Otis*4/STARS 9577B.<br />
2-rowed, spring feed barley with high tolerance to Russian wheat aphid<br />
(RWA), (Diruaphis noxia). On Webster s scale of 1-9, where 1=immune and<br />
9=dead, STARS 0642B is rated 3 F (F=flat, R=rolled) in greenhouse<br />
seedling screenings. Greenhouse and field testing has shown this<br />
resistance to persist throughout the life of the plant. <strong>The</strong> source of<br />
resistance in this germplasm is derived from STARS 9577B. Even in the<br />
absence of RWA, STARS 0642B yields 113% of its recurrent parent, Otis.<br />
PI 642929. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. STARS 0643B. GP-195. Pedigree - Otis*4/STARS 9301B.<br />
2-rowed, spring feed barley with high tolerance to Russian wheat aphid<br />
(RWA), (Diruaphis noxia). On Webster s scale of 1-9, where 1=immune and<br />
9=dead, STARS 0643B is rated 2 F (F=flat, R=rolled) in greenhouse<br />
seedling screenings. Greenhouse and field testing has shown this<br />
resistance to persist throughout the life of the plant. <strong>The</strong> source of<br />
resistance in this germplasm is derived from STARS 9301B. Even in the<br />
absence of RWA, STARS 0643B yields 119% of its recurrent parent, Otis.<br />
<strong>The</strong> following were developed by Pioneer Hi-Bred International, Inc.,<br />
Plainview, Texas 79072, United States. Received 06/06/2006.<br />
PI 642930 PVPO. Sorghum bicolor (L.) Moench subsp. bicolor<br />
Cultivar. "PHBAXY7QIT". PVP 200600191.<br />
PI 642931 PVPO. Sorghum bicolor (L.) Moench subsp. bicolor<br />
Cultivar. "PHKRSXF". PVP 200600192.<br />
PI 642932 PVPO. Sorghum bicolor (L.) Moench subsp. bicolor<br />
Cultivar. "PHKU3JBKE". PVP 200600193.<br />
<strong>The</strong> following were developed by Pure Seed Testing, Inc., P.O. Box 449,<br />
Hubbard, Oregon 97032, United States. Received 06/06/2006.<br />
PI 642933 PVPO. Festuca arundinacea Schreb.<br />
Cultivar. "5BAB". PVP 200600202.<br />
129
<strong>The</strong> following were developed by Grassland Oregon, LLC, Oregon, United States.<br />
Received 06/06/2006.<br />
PI 642934 PVPO. Poa pratensis L.<br />
Cultivar. "DURHAM". PVP 200600204.<br />
<strong>The</strong> following were developed by Virginia Tech Intellectual Properties, Inc.,<br />
Virginia, United States. Received 06/06/2006.<br />
PI 642935 PVPO. Glycine max (L.) Merr.<br />
Cultivar. "TEEJAY". PVP 200600205.<br />
PI 642936 PVPO. Triticum aestivum L. subsp. aestivum<br />
Cultivar. Pureline. "ARMOR 3015"; VA99W-73. PVP 200600211. Pedigree -<br />
Pio2548//GA-Andy/VA90-21-20.<br />
PI 642937 PVPO. Triticum aestivum L. subsp. aestivum<br />
Cultivar. Pureline. "DOMINION"; VA00W-526. PVP 200600212. Pedigree -<br />
FFR555W/VA91-54-343//GA8619D25.<br />
<strong>The</strong> following were developed by Pioneer Hi-Bred International, Inc.,<br />
Windfall, Indiana, United States. Received 06/06/2006.<br />
PI 642938 PVPO. Triticum aestivum L. subsp. aestivum<br />
Cultivar. "XW04C"; 25R87. PVP 200600213. Pedigree -<br />
Avalon/3/VPM/Moisson//Champlein/Aronde/4/Coker68-15*3/CI14115/5/Coker68-<br />
15*3//McNair1813/Coker797/6/2552.<br />
PI 642939 PVPO. Triticum aestivum L. subsp. aestivum<br />
Cultivar. Pureline. "XW04A"; 25R56. PVP 200600214. Pedigree -<br />
WBJ0249B1/WBE0235B1//25R57 sib.<br />
<strong>The</strong> following were developed by Syngenta Seeds, Inc. - Vegetable, Boise,<br />
Idaho, United States. Received 06/05/2006.<br />
PI 642940 PVPO. Phaseolus vulgaris L.<br />
Cultivar. "BERYL R". PVP 200600224.<br />
<strong>The</strong> following were developed by Pioneer Hi-Bred International, Inc.,<br />
Johnston, Iowa 50131, United States. Received 06/23/2006.<br />
PI 642941 PVPO. Zea mays L. subsp. mays<br />
Cultivar. "PHE67". PVP 200600229.<br />
PI 642942 PVPO. Zea mays L. subsp. mays<br />
Cultivar. "PHF1J". PVP 200600230.<br />
<strong>The</strong> following were developed by Don Groth, Louisiana State University, Rice<br />
Research Station, P.O. Box 1429, Crowley, Louisiana 70429-1429, United States;<br />
Shannon Pinson, USDA, ARS, 1509 Aggie Drive, Beaumont, Texas 77713-8530,<br />
United States; Marco A. Marchetti, USDA-ARS, Rice Research Station, Texas A&M<br />
Experiment Station, Beaumont, Texas 77713, United States; Robert G.<br />
130
Fjellstrom, USDA, ARS, Rice Research Unit, 1509 Aggie Dr., Beaumont, Texas<br />
77713, United States; Yulin Jia, USDA-ARS, Dale Bumpers National Rice Res.<br />
Ctr., 2890 Hwy 130 East, Stuttgart, Arkansas 72160, United States; Robert<br />
Shank, USDA-ARS, 1509 Aggie Drive, Beaumont, Texas 77713, United States;<br />
Robert Miller, RiceTec, Inc., P.O. Box 1305, 1925 FM 2917, Alvin, Texas<br />
77512, United States; James Oard, LSU Agricultural Center, School of <strong>Plant</strong>,<br />
Environmental, and Soil Sciences, 104 Sturgis Hall, Baton Rouge, Louisiana<br />
70803, United States; M.H. Jia, USDA-ARS, Dale Bumpers National Rice Research<br />
Center, P.O. Box 287, Stuttgart, Arkansas 72160, United States; Z. Li,<br />
International Rice Research Institute, Chinese Academy of Agri. Sci. Inst. of<br />
Crop Sciences, Beijing, China. Received 10/22/2007.<br />
PI 642943. Oryza sativa L.<br />
Breeding. Pureline. TIL:455. GP-112. Pedigree - Lemont/TeQing/BC5/LMNT<br />
F5. Released 2007. Three lines total (TIL:455, TIL:514, and TIL:642 also<br />
designated PI 642943, PI 642944, and PI 642945, respectively) were<br />
selected as having novel sheath blight resistance alleles from TeQing<br />
now introgressed into a Lemont (U.S.A. rice cultivar) genetic<br />
background. <strong>The</strong>y were selected from a set of 262 TeQing-into-Lemont<br />
backcross introgression lines (TILs) produced at IRRI, and further<br />
refined and selfed in Beaumont, TX. Selection of these three lines for<br />
germplasm release was based on a combination of phenotypic and genotypic<br />
data.<br />
PI 642944. Oryza sativa L.<br />
Breeding. Pureline. TIL:514. GP-113. Pedigree - Lemont/TeQing/BC5/LMNT<br />
F5. Released 2007. Three lines total (TIL:455, TIL:514, and TIL:642 also<br />
designated PI 642943, PI 642944, and PI 642945, respectively) were<br />
selected as having novel sheath blight resistance alleles from TeQing<br />
now introgressed into a Lemont (U.S.A. rice cultivar) genetic<br />
background. <strong>The</strong>y were selected from a set of 262 TeQing-into-Lemont<br />
backcross introgression lines (TILs) produced at IRRI, and further<br />
refined and selfed in Beaumont, TX. Selection of these three lines for<br />
germplasm release was based on a combination of phenotypic and genotypic<br />
data.<br />
PI 642945. Oryza sativa L.<br />
Breeding. Pureline. TIL:642. GP-114. Pedigree - Lamont/TeQing/BC5/LMNT<br />
F5. Released 2007. Three lines total (TIL:455, TIL:514, and TIL:642 also<br />
designated PI 642943, PI 642944, and PI 642945, respectively) were<br />
selected as having novel sheath blight resistance alleles from TeQing<br />
now introgressed into a Lemont (U.S.A. rice cultivar) genetic<br />
background. <strong>The</strong>y were selected from a set of 262 TeQing-into-Lemont<br />
backcross introgression lines (TILs) produced at IRRI, and further<br />
refined and selfed in Beaumont, TX. Selection of these three lines for<br />
germplasm release was based on a combination of phenotypic and genotypic<br />
data.<br />
<strong>The</strong> following were donated by Phillip Miklas, USDA, ARS, Irrigated Agric.<br />
Research & Extension Ctr., 24106 <strong>No</strong>rth Bunn Road, Prosser, Washington<br />
99350-9687, United States. Received 07/11/2006.<br />
PI 642946. Phaseolus vulgaris L.<br />
Cultivar. "A211"; W6 27856.<br />
131
PI 642947. Phaseolus vulgaris L.<br />
Cultivar. "BAT 477"; W6 27857.<br />
PI 642948. Phaseolus vulgaris L.<br />
Cultivar. "Calima"; W6 27858.<br />
PI 642949. Phaseolus vulgaris L.<br />
Cultivar. "IPA 1"; W6 27859.<br />
PI 642950. Phaseolus vulgaris L.<br />
Cultivar. "HF 465-63-1"; W6 27860.<br />
<strong>The</strong> following were developed by Robin W. Groose, University of Wyoming, Dept.<br />
<strong>Plant</strong>, Soil and, Insect Sciences, Laramie, Wyoming 82071-3354, United States;<br />
James M. Krall, University of Wyoming, SAREC, 2753 State Highway 157, Lingle,<br />
Wyoming 82222, United States; M.J. Walsh, University of Western Australia,<br />
School of <strong>Plant</strong> biology, Crawley, Western Australia 6009, Australia; V.<br />
Nayighugu, University of Wyoming, Dept. of Animal Sciences, Laramie, Wyoming<br />
82071, United States; J. Cecil, University of Wyoming, Dept. of <strong>Plant</strong><br />
Sciences, Lingle, Wyoming 82222, United States; B. Hess, University of<br />
Wyoming, Dept. of Animal Sciences, Laramie, Wyoming 82071, United States.<br />
Received 07/11/2006.<br />
PI 642951. Medicago rigidula (L.) All.<br />
Cultivar. Pureline. "LARAMIE"; WY-SA 10343; SA 10343. CV-274; REST<br />
642951. Pedigree - Laramie, as SA 10343, was collected in Russia (E 46°<br />
44'; N 44° 44') at 10 m elevation in a 700 mm annual precipitation zone<br />
in 1974.. Released as a potential winter annual 'ley' species for the<br />
Central High Plains. Chosen for release becvause it survived<br />
southeastern Wyoming winters, it produced abundant high quality spring<br />
forage, it functioned with alfalfa (M. sativa) rizobium, it regenerated<br />
properly from the soil seed bank, and was acceptable forage for<br />
mid-summer grazing by dry ewes.Indeterminate, with long (53 cm at pod<br />
stage) relaxed stems (
PI 642952. Triticum aestivum L. subsp. aestivum<br />
Breeding. CJ 8809; Changjiang 8809. GP-815. Pedigree - CJ 8809 was<br />
originally derived from an intermating population developed from 55<br />
crosses, by multiple-parent crossing and intermating among hybrids and<br />
progenies, with the aid of a dominant gene Ta1 (ms2), followed by mass<br />
selection of male-sterile plants. <strong>The</strong> parentage of the 55 crosses<br />
included five local agronomically superior cultivars (Yangmai 4,<br />
Ningmai 3, Zhemai 1, Qianjiang 1 and Wanjian 7909) and 11<br />
Fusarium head blight (FHB or scab) resistant cultivars (Sumai 3, Ning<br />
7840, Emai 9, Wangshuibai, Fanshanxiaomai, Wenzhouhongheshang,<br />
Zhen 7495, Jinzhou 1, Xiangmai 1, <strong>No</strong>beokabouzu-Komugi and Shinchunaga).<br />
CJ 8809 is awned, semi-dwarf and red-grained spring type with<br />
spindle-shaped spikes and red glumes. It has excellent resistance<br />
to Fusarium head blight (FHB or scab) caused by Fusarium graminearum. CJ<br />
8809 scores for number of scabby spikelets under single-floret<br />
inoculation were close to that of the resistant check Sumai 3. CJ 8809<br />
has a higher yielding capacity and better agronomic merits than Sumai 3.<br />
It has semi-erect seedlings with moderate tillering ability and winter<br />
hardiness. Under the field conditions in Nanjing, China, its plant<br />
height was around 85-90 cm, with resilient stems and stronger tolerance<br />
to lodging. <strong>The</strong> spike length, spikelets per spike and kernels per spike<br />
for CJ 8809 are 8-9 cm, 17-19 and 30-35, respectively. <strong>The</strong> grains are<br />
red, semi-soft and plump. <strong>The</strong> 1000-kernel weight is 36-37 g. <strong>The</strong><br />
duration of growth periods is approximately 210-212 days at Nanjing, and<br />
100 days in greenhouse. Average grain yield in replicated yield trials<br />
ranged 4504-5178 kg/ha, 4-5% higher than the check Yangmai 5. CJ 8809<br />
was resistant to sprouting, and moderately resistant to leaf rust and<br />
powdery mildew.<br />
<strong>The</strong> following were developed by Enza Zaden Beheer B.V., Netherlands. Received<br />
07/07/2006.<br />
PI 642953 PVPO. Lactuca sativa L.<br />
Cultivar. "TELLMARK". PVP 200600228.<br />
<strong>The</strong> following were developed by Pioneer Hi-Bred International, Inc.,<br />
Johnston, Iowa 50131, United States. Received 07/10/2006.<br />
PI 642954 PVPO. Zea mays L. subsp. mays<br />
Cultivar. "PHAPT". PVP 200600231.<br />
<strong>The</strong> following were donated by Robert L. Jarret, USDA, ARS, <strong>Plant</strong> Genetic<br />
<strong>Resources</strong> Conservation Unit, University of Georgia, Griffin, Georgia<br />
30223-1797, United States. Received 07/03/2006.<br />
PI 642955. Capsicum sp.<br />
Cultivar. "Prik Chi Faa"; Kitazawa Seed Company Item <strong>No</strong>. 270.<br />
PI 642956. Capsicum sp.<br />
Cultivar. "Shishito"; Kitazawa Seed Company Item <strong>No</strong>. 083.<br />
PI 642957. Capsicum sp.<br />
Cultivar. "Fushimi"; Kitazawa Seed Company Item <strong>No</strong>. 081.<br />
133
<strong>The</strong> following were developed by Thomas C. Kilen, USDA, ARS, Soybean<br />
Production Research, P.O. Box 196, Stoneville, Mississippi 38776, United<br />
States; Pat Donald, USDA-ARS, 605 Airways Blvd, Jackson, Tennessee 38301,<br />
United States; Alemu Mengistu, USDA/ARS, West Tennessee Experiment Station,<br />
605 Airways Blvd., Jackson, Tennessee 38301, United States. Received<br />
07/26/2006.<br />
PI 642958. Glycine max (L.) Merr.<br />
Breeding. Pureline. D95-5048. GP-329. Pedigree - F5 selection from the<br />
cross Bedford (5) x sel. (Forest (3) x Tracy). Original donor of Rps 1-b<br />
was germplasm line FC 31745. D95-5048 developed by backcrossing the<br />
allele Rps 1-b into a Bedford background. Product of backcrossing<br />
program to transfer the Rps 1-b gene into a Bedford background. Has<br />
value as a parent because of its resistance to Phytophthora rot caused<br />
by Phytophthora sojae, and races 3 and 14 of the soybean cyst nematode<br />
(Heterodera glycines). In four-year trials D95-5048 outyielded Bedford<br />
significantly. Will be useful to the research community because it will<br />
expand the set of previous releases of Phytophthora rot resistant lines<br />
which are near-isogenic to the cultivar Bedford.<br />
<strong>The</strong> following were developed by Lloyd R. Nelson, Texas A&M University,<br />
Agricultural Research & Extension Center, P.O. Box 200, Overton, Texas 75684,<br />
United States; J. Crowder, Texas A&M Univ. Agric. REC, P.O. Box 200, Overton,<br />
Texas 75684, United States; D.R. Chalmers, Texas A&M University, College<br />
Station, Texas 77843-2474, United States. Received 07/20/2006.<br />
PI 642959. Lolium multiflorum Lam.<br />
Cultivar. Population. "AXCELLA 2"; TXR2003-TF1. REST 642959; CV-246; PVP<br />
200800373. Pedigree - In 1998-1999, 400 plants from breeding line,<br />
TXR98-DBDF (released as Panterra) were space planted at Overton, TX and<br />
30 plants were selected, cross-pollinated and seed bulked. In 1999-2000,<br />
23 late maturing plants out of 550 plants cross-pollinated and seed was<br />
bulked. In 2000-2001, 14 plants out of 500 were allowed to<br />
cross-pollinate and seed was bulked. In 2002-2003, 50 g of seed was sent<br />
to DLF-International Seeds and 500 plants were grown out at Corvallis,<br />
Oregon. 10% of plants which had poor seed yield potential, or were not<br />
uniform were eliminated from the population. <strong>The</strong> remainder of plants<br />
cross-pollinated, produced seed and seed was bulked under designation,<br />
TXR2003-TF1 and released as Axcella 2. Dwarf annual ryegrass developed<br />
for overseeding warm season turf grasses in the autumn. Diploid<br />
(2n=2x=14 chromosomes). In seedling stage, has rolled leaves and no<br />
auricles. <strong>Plant</strong> stature is much shorter than forage type annual ryegrass<br />
and relatively shorten than Axcella and Panterra turf-type annual<br />
ryegrass. Mature plants at Overton, TX were 65 cm for Axcella 2 compared<br />
to 79 and 86 cm for Panterra and Axcella, respectively. Tillers very<br />
well. Mean flag leaf length was 13, 16 and 18 cm for Axcella 2, Panterra<br />
and Axcella, respectively. Mean awn length at Overton averaged 3.3 mm;<br />
however about 15% of plants have very short awns or are awnless. Seed<br />
width is approximately 1.7 mm and seed length is 6 mm. One thousand seed<br />
weight of Axcella 2 was 2.1 g compared to 2.4, 2.5 and 2.8 g for<br />
Panterra, Axcella and TAM 90, respectively. Coleoptile color upo<br />
emergence is green or purple. Anther color is 80% yellow and 20% purple.<br />
Turf growth rate, or turf height measured in the cold season from<br />
December through February in a turf trial at Overton indicated Axcella 2<br />
was significantly shorter than Axcella and Panterra and not<br />
134
significantly different than Palmer IV and PhD. In turf trials at<br />
Overton and College Station, TX, Axcella 2 was similar to Panterra, but<br />
superior to Axcella. Has finer textured leaves than Axcella and<br />
Panterra. Has darker green leaf color compared to Axcella, but similar<br />
to Panterra; however may hold this color longer into the late spring<br />
than Panterra. In over seeded turf trials at Overtin, TX, began to<br />
transition out by 21 April, which is similar to Axcella and Panterra,<br />
but significantly earlier than perennial ryegrass cultivars. Exposure to<br />
-8°C in 2005 resulted in leaf tip freeze injury but all plants r<br />
ecovered. <strong>No</strong>t infected with fungal endophyte Neotyphodium occutans.<br />
Roots tested 92% positive for fluorescence.<br />
<strong>The</strong> following were developed by Pioneer Hi-Bred International, Inc.,<br />
Johnston, Iowa 50131, United States. Received 07/20/2006.<br />
PI 642960 PVPO. Zea mays L. subsp. mays<br />
Cultivar. "PHANF". PVP 200600233.<br />
PI 642961 PVPO. Zea mays L. subsp. mays<br />
Cultivar. "PHEWW". PVP 200600234.<br />
<strong>The</strong> following were donated by International Center for Tropical Agriculture,<br />
Apartado Aereo 6713, Cali, Valle, Colombia. Received 08/03/1998.<br />
PI 642962. Oryza sativa L.<br />
Cultivar. Pureline. "INAPOSTOL"; ACC 950; Q 39269. Collected in<br />
Philippines.<br />
<strong>The</strong> following were donated by West Africa Rice Development Association, 01 BP<br />
2551, Bouake, Cote D'Ivoire. Received 04/07/1999.<br />
PI 642963. Oryza sativa L.<br />
Cultivar. Pureline. PTB 12; Q 39862. Collected in India.<br />
PI 642964. Oryza sativa L.<br />
Breeding. Pureline. Tox 4251-470-3; Q 40017. Developed in Nigeria.<br />
<strong>The</strong> following were developed by Robert A. Graybosch, USDA-ARS, University of<br />
Nebraska, 314 Biochem Hall, Lincoln, Nebraska 68583, United States. Received<br />
08/01/2006.<br />
PI 642965. Triticum aestivum L. subsp. aestivum<br />
Breeding. Pureline. NW03Y2016; NSGC 17756. Pedigree -<br />
MO8/Redland//KS91H184/3*Rio Blanco. Hard white winter wheat. Carries<br />
the Wsm-1 gene for resistance to wheat streak mosaic virus. Tested in<br />
2006 NRPN.<br />
PI 642966. Triticum aestivum L. subsp. aestivum<br />
Breeding. Pureline. NW03Y2022; NSGC 17757. Pedigree - MO8/NE94406<br />
(=NE86582//84MC29/NE82583)//KS91H184/3*Rio Blanco. Hard white winter<br />
wheat. Carries the Wsm-1 gene for resistance to wheat streak mosaic<br />
virus. Tested in the 2006 NRPN.<br />
135
PI 642967. Triticum aestivum L. subsp. aestivum<br />
Breeding. Pureline. NW03Y2023; NSGC 17758. Pedigree - MO8/NE94406<br />
(=NE86582//84MC29/NE82583)//KS91H184/3*Rio Blanco. Hard white winter<br />
wheat. Carries the Wsm-1 gene for resistance to wheat streak mosaic<br />
virus. Tested in the 2006 NRPN.<br />
<strong>The</strong> following were donated by Fred R. Miller, Texas A & M University,<br />
Department of Soil & Crop Science, College Station, Texas 77843-2474, United<br />
States. Received 05/25/1989.<br />
PI 642968. Sorghum bicolor (L.) Moench subsp. bicolor<br />
78C729; Grif 649. Collected in Lesotho.<br />
PI 642969. Sorghum bicolor (L.) Moench subsp. bicolor<br />
86C12374; IS 1317-127; Grif 670. Collected in India.<br />
PI 642970. Sorghum bicolor (L.) Moench subsp. bicolor<br />
82C381; Q80-53; Grif 730. Collected in China.<br />
PI 642971. Sorghum bicolor (L.) Moench subsp. bicolor<br />
79T206; Grif 753; SAN BERNARDO. Collected in Honduras.<br />
PI 642972. Sorghum bicolor (L.) Moench subsp. bicolor<br />
78C731; Grif 755; SEGALOANE. Collected in Lesotho.<br />
PI 642973. Sorghum bicolor (L.) Moench subsp. bicolor<br />
79T331; GPR 168; Grif 780. Collected in India.<br />
PI 642974. Sorghum bicolor (L.) Moench subsp. bicolor<br />
85C932; 42492-Kath 1259; Grif 781. Collected in Australia.<br />
PI 642975. Sorghum bicolor (L.) Moench subsp. bicolor<br />
88T156; ETS 2313; Grif 814. Collected in Ethiopia.<br />
PI 642976. Sorghum bicolor (L.) Moench subsp. bicolor<br />
88T170; SAR-285; Grif 828. Collected in South Africa.<br />
<strong>The</strong> following were donated by Henry Hadley, University of Illinois,<br />
Department of Agronomy, 1102 South Goodwin Avenue, Urbana, Illinois 61801,<br />
United States. Received 08/06/1990.<br />
PI 642977. Sorghum bicolor (L.) Moench subsp. bicolor<br />
W-4; Grif 5623. Pedigree - FQN X TAN -22.<br />
PI 642978. Sorghum bicolor (L.) Moench subsp. bicolor<br />
W-6; Grif 5625. Pedigree - LEOTI X 827 -1-3.<br />
PI 642979. Sorghum bicolor (L.) Moench subsp. bicolor<br />
W-9; Grif 5627; FULTIP #8.<br />
PI 642980. Sorghum bicolor (L.) Moench subsp. bicolor<br />
W-39; Grif 5648; SZEGEDI 425-70.<br />
PI 642981. Sorghum bicolor (L.) Moench subsp. bicolor<br />
Grif 5661; ACME.<br />
136
PI 642982. Sorghum bicolor (L.) Moench subsp. bicolor<br />
Grif 5670; SELECTION 404. Pedigree - A sister line of Deer.<br />
PI 642983. Sorghum bicolor (L.) Moench subsp. bicolor<br />
Grif 5674; SEL 2128. Dwarf line 6-7' may segregate for seed shedding.<br />
PI 642984. Sorghum bicolor (L.) Moench subsp. bicolor<br />
Grif 5679; CHINESE BLACK.<br />
PI 642985. Sorghum bicolor (L.) Moench subsp. bicolor<br />
Grif 5681; ILLINOIS #1.<br />
PI 642986. Sorghum bicolor (L.) Moench subsp. bicolor<br />
Grif 5684; MILLERS DWARF.<br />
PI 642987. Sorghum bicolor (L.) Moench subsp. bicolor<br />
Grif 5685; O'HAIR.<br />
<strong>The</strong> following were donated by USDA, ARS, U.S. Sugarcane Field Station,<br />
Meridian, Mississippi, United States. Received 1983.<br />
PI 642988. Sorghum bicolor (L.) Moench subsp. bicolor<br />
MN 2533; Grif 15987.<br />
PI 642989. Sorghum bicolor (L.) Moench subsp. bicolor<br />
MN 2685; IS 198; SA 1731; Grif 15988.<br />
PI 642990. Sorghum bicolor (L.) Moench subsp. bicolor<br />
MN 2687; Buckskin Kafir; SA 362; Grif 15990. Pedigree - Weskan x DD Red<br />
60.<br />
PI 642991. Sorghum bicolor (L.) Moench subsp. bicolor<br />
MN 2688; IS 208; CIso 1106; Grif 15991; 65I2374; Alliance Kafir.<br />
PI 642992. Sorghum bicolor (L.) Moench subsp. bicolor<br />
MN 2689; SA 5257-5; Grif 15995; Standard Early Hegari.<br />
<strong>The</strong> following were donated by USDA, ARS, U.S. Sugarcane Field Station,<br />
Meridian, Mississippi, United States; USDA, ARS, U.S. Sugarcane Field<br />
Station, Meridian, Mississippi, United States. Received 1983.<br />
PI 642993. Sorghum bicolor (L.) Moench subsp. bicolor<br />
MN 2690; SA 343; #255; Grif 15996; Dalhart Resistant Beaver.<br />
Unknown source. Received 1983.<br />
PI 642994. Sorghum bicolor (L.) Moench subsp. bicolor<br />
MN 2692; SA 342; #252; Grif 15997; Dalhart Resistant Wheatland.<br />
<strong>The</strong> following were donated by USDA, ARS, U.S. Sugarcane Field Station,<br />
Meridian, Mississippi, United States. Received 1983.<br />
137
PI 642995. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 863; MN 2701; SA 358; Grif 16000; Logear.<br />
PI 642996. Sorghum bicolor (L.) Moench subsp. bicolor<br />
MN 2703; CIso 946; Grif 16002; Dwarf White Durra.<br />
PI 642997. Sorghum bicolor (L.) Moench subsp. bicolor<br />
"Evergreen"; IS 34; MN 2710; 65I 1866; CIso 556; Grif 16003. Standard<br />
broomcorn.<br />
PI 642998. Sorghum bicolor (L.) Moench subsp. bicolor<br />
"Black Spanish"; MN 2711; CIso 827; Grif 16004. Standard broomcorn.<br />
PI 642999. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 641; MN 2714; SA 1554; Grif 16005; Leoti-Peltier.<br />
PI 643000. Sorghum bicolor (L.) Moench subsp. bicolor<br />
MN 2716; SA 1707; Grif 16006.<br />
PI 643001. Sorghum bicolor (L.) Moench subsp. bicolor<br />
MN 2717; SA 1744; Grif 16007; Red Top (Sumac).<br />
PI 643002. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 686; MN 2718; SA 1664; Grif 16008; Honey.<br />
PI 643003. Sorghum bicolor (L.) Moench subsp. bicolor<br />
MN 2720; FC 13492; Grif 16009; Variety A.<br />
PI 643004. Sorghum bicolor (L.) Moench subsp. bicolor<br />
MN 2721; FC 13491; Grif 16010; Variety Z.<br />
PI 643005. Sorghum bicolor (L.) Moench subsp. bicolor<br />
MN 2745; Grif 16013. Reddish glume, compact head.<br />
PI 643006. Sorghum bicolor (L.) Moench subsp. bicolor<br />
MN 2747; Grif 16014. White speckled seed.<br />
PI 643007. Sorghum bicolor (L.) Moench subsp. bicolor<br />
MN 2749; Grif 16015. Late.<br />
PI 643008. Sorghum bicolor (L.) Moench subsp. bicolor<br />
MN 2751; Grif 16016. Tan seed.<br />
PI 643009. Sorghum bicolor (L.) Moench subsp. bicolor<br />
MN 2752; Grif 16017. Red seed.<br />
PI 643010. Sorghum bicolor (L.) Moench subsp. bicolor<br />
MN 2753; Grif 16018. Brown seed.<br />
PI 643011. Sorghum bicolor (L.) Moench subsp. bicolor<br />
MN 2754; Grif 16019; Hegari Makwar. White seed.<br />
PI 643012. Sorghum bicolor (L.) Moench subsp. bicolor<br />
MN 2755; Grif 16020. Straw seed.<br />
PI 643013. Sorghum bicolor (L.) Moench subsp. bicolor<br />
MN 2756; Grif 16021. Buff seed.<br />
138
PI 643014. Sorghum bicolor (L.) Moench subsp. bicolor<br />
MN 2757; Grif 16022. Tan seed.<br />
PI 643015. Sorghum bicolor (L.) Moench subsp. bicolor<br />
MN 2760; Grif 16023. Early.<br />
PI 643016. Sorghum bicolor (L.) Moench subsp. bicolor<br />
MN 2761; Grif 16024. Late, straw seed.<br />
PI 643017. Sorghum bicolor (L.) Moench subsp. bicolor<br />
MN 2762; Grif 16025. Late, light tan seed.<br />
PI 643018. Sorghum bicolor (L.) Moench subsp. bicolor<br />
MN 2764; Grif 16026. Late, brown seed.<br />
PI 643019. Sorghum bicolor (L.) Moench subsp. bicolor<br />
MN 2765; Grif 16027. Late, dark brown seed.<br />
PI 643020. Sorghum bicolor (L.) Moench subsp. bicolor<br />
MN 2766; Grif 16028. Late, reddish seed.<br />
PI 643021. Sorghum bicolor (L.) Moench subsp. bicolor<br />
MN 2770; Grif 16029. Early.<br />
PI 643022. Sorghum bicolor (L.) Moench subsp. bicolor<br />
MN 2776; Grif 16031. Early, small brown seed.<br />
PI 643023. Sorghum bicolor (L.) Moench subsp. bicolor<br />
MN 2779; Grif 16032. Early.<br />
PI 643024. Sorghum bicolor (L.) Moench subsp. bicolor<br />
MN 2783; Grif 16033. Slate seed.<br />
PI 643025. Sorghum bicolor (L.) Moench subsp. bicolor<br />
MN 2785; Grif 16035. Brown glume.<br />
PI 643026. Sorghum bicolor (L.) Moench subsp. bicolor<br />
MN 2786; Grif 16036. Hairy red glume.<br />
PI 643027. Sorghum bicolor (L.) Moench subsp. bicolor<br />
MN 2787; Grif 16037. Brown seed.<br />
PI 643028. Sorghum bicolor (L.) Moench subsp. bicolor<br />
MN 2788; Grif 16038. White seed.<br />
PI 643029. Sorghum bicolor (L.) Moench subsp. bicolor<br />
MN 2790; Grif 16039. Early.<br />
PI 643030. Sorghum bicolor (L.) Moench subsp. bicolor<br />
MN 2794; Grif 16040. Buff seed.<br />
PI 643031. Sorghum bicolor (L.) Moench subsp. bicolor<br />
MN 2795; Grif 16041. Orange seed.<br />
139
Unknown source. Received 1983.<br />
PI 643032. Sorghum bicolor (L.) Moench subsp. bicolor<br />
MN 2798; Grif 16043. Early.<br />
<strong>The</strong> following were donated by USDA, ARS, U.S. Sugarcane Field Station,<br />
Meridian, Mississippi, United States. Received 1983.<br />
PI 643033. Sorghum bicolor (L.) Moench subsp. bicolor<br />
MN 2802; Grif 16044. Early.<br />
PI 643034. Sorghum bicolor (L.) Moench subsp. bicolor<br />
MN 2803; Grif 16045. Late.<br />
PI 643035. Sorghum bicolor (L.) Moench subsp. bicolor<br />
MN 2804; Grif 16046. Brown seed.<br />
<strong>The</strong> following were collected by Gary Nabhan, Native Seeds/SEARCH, 3950 W. New<br />
York Drive, Tucson, Arizona 85745, United States; L. Feine-Dudley, Rodale<br />
Res. Ctr., Kutztown, Pennsylvania, United States. Donated by Rodale Research<br />
Center, Rodale Press, Box 323, RD 1, Kutztown, Pennsylvania 19530, United<br />
States. Received 04/15/1986.<br />
PI 643036. Amaranthus hypochondriacus L.<br />
Landrace. LF/GN 1; RRC 412; Semilla de Alegria; Ames 5168. Collected<br />
08/03/1979 in Federal District, Mexico. Latitude 19° 15' N.<br />
Longitude 99° 1' W. Elevation 2200 m. Tulyehualco. <strong>The</strong> seeds are<br />
white, flowers red and green, leaves rufescent. <strong>The</strong> RRC class type is:<br />
Aztec. This amaranth has more branching than normal. Observations from<br />
the Rodale Research Center, 1988 Rodale Amaranth <strong>Germplasm</strong> Catalog.<br />
Emmaus. PA.<br />
PI 643037. Amaranthus hypochondriacus L.<br />
Landrace. LF/GN 2; RRC 413; Ames 5169. Collected 08/03/1979 in Federal<br />
District, Mexico. Latitude 19° 15' N. Longitude 99° 1' W.<br />
Elevation 2200 m. Tulyehualco. Said to be planted in floating gardens.<br />
<strong>The</strong> seeds are white and light gold, flowers marbled, red and green,<br />
leaves green and variegated. <strong>The</strong> RRC class type is: mercado.<br />
Observations from the Rodale Research Center, 1988 Rodale Amaranth<br />
<strong>Germplasm</strong> Catalog. Emmaus, PA.<br />
PI 643038. Amaranthus hypochondriacus L.<br />
Landrace. LF/GN 3; RRC 414; Ames 5170. Collected 08/03/1979 in Federal<br />
District, Mexico. Latitude 19° 15' N. Longitude 99° 1' W.<br />
Elevation 2200 m. Tulyehualco. <strong>Plant</strong>ed in floating gardens. <strong>The</strong> seeds<br />
are white, flowers red and green, leaves rufescent. <strong>The</strong> RRC class type<br />
is: Aztec. It has very short branches. Observatons from the Rodale<br />
Research Center, 1988 Rodale Amaranth <strong>Germplasm</strong> Catalog. Emmaus, PA.<br />
PI 643039. Amaranthus cruentus L.<br />
Landrace. LF/GN 5; RRC 415; Ames 5171. Collected 08/05/1979 in Morelos,<br />
Mexico. Latitude 18° 42' N. Longitude 98° 46' W. Elevation 1200 m.<br />
Hualzurco area, 1.3 km from Amayuca. Field of a forage legume and<br />
interplant of tomatillos and beans. <strong>The</strong> seeds are white, glowers<br />
red-purple, leaves rufescent. <strong>The</strong> RRC class type is: Mexican. Branches<br />
140
mature at the same time as main head; taller than most Mexican grain<br />
types. Observations from the Rodale Research Center, 1988 Rodale<br />
Amaranth <strong>Germplasm</strong> Catlaog. Emmaus, PA.<br />
PI 643040. Amaranthus cruentus L.<br />
Landrace. LF/GN 7; RRC 417; Ames 5173. Collected 08/05/1979 in Morelos,<br />
Mexico. Latitude 18° 42' N. Longitude 98° 46' W. Elevation 1200 m.<br />
Hualzurco area, 1.3 km from Amayuca. Field of a forage legume and<br />
interplant of beans and tomatillos. <strong>The</strong> seeds are white, flowers green<br />
with a pink tint, leaves green. <strong>The</strong> RRC type is: Mexican. This amaranth<br />
has distinct red stems and petioles. Observations from the Rodale<br />
Research Center, 1988 Rodale Amaranth <strong>Germplasm</strong> Catalog. Emmaus, PA.<br />
PI 643041. Amaranthus hypochondriacus L.<br />
Landrace. LF/GN 8; RRC 418; Ames 5174. Collected 08/05/1979 in Morelos,<br />
Mexico. Latitude 18° 43' N. Longitude 98° 45' W. Elevation 1200 m.<br />
Hualzurco area, 1.3 km from Amayuca. Field of a forage legume and<br />
interplant of beans and tomatillos. <strong>The</strong> seeds are white, flowers green,<br />
leaves green. <strong>The</strong> RRC class type is: mercado. observations from the<br />
Rodale Research Center, 1988 Rodale Amaranth <strong>Germplasm</strong> Catalog. Emmaus,<br />
PA.<br />
PI 643042. Amaranthus cruentus L.<br />
Landrace. LF/GN 9; RRC 419; Ames 5175. Collected 08/05/1979 in Morelos,<br />
Mexico. Latitude 18° 43' N. Longitude 98° 45' W. Elevation 1200 m.<br />
Hualzurco area, 1.3 km from Amayuca. Field of a forage legume and<br />
interplant of beans and tomatillos. <strong>The</strong> seeds are white, flowers<br />
purple-red and marbled, leaves rufescent. <strong>The</strong> RRC class type is:<br />
Mexican. It had severe lygus damage. Observations from the Rodale<br />
Research Center, 1988 Rodale Amaranth <strong>Germplasm</strong> Catalog. Emmaus, PA.<br />
PI 643043. Amaranthus cruentus L.<br />
Landrace. LF/GN 10; RRC 420; Ames 5176. Collected 08/05/1979 in Morelos,<br />
Mexico. Latitude 18° 43' N. Longitude 98° 45' W. Elevation 1200 m.<br />
Hualzurco area, 1.3 km from Amayuca. Field of forage legumes and<br />
interplant of beans and tomatillos. <strong>The</strong> seeds are white, flowers<br />
marbled, leaves variegated. <strong>The</strong> RRC class type is: Mexican. <strong>The</strong>re is<br />
a distinct flower color pattern, with only tips being red. Observations<br />
from the Rodale Research Center, 1988 Rodale Amaranth <strong>Germplasm</strong> Catalog.<br />
Emmaus, PA.<br />
PI 643044. Amaranthus cruentus L.<br />
Landrace. LF/GN 11; RRC 421; Ames 5177. Collected 08/05/1979 in Morelos,<br />
Mexico. Latitude 18° 43' N. Longitude 98° 45' W. Elevation 1200 m.<br />
Hualzurco area, 1.3 km from Amayuca. Field of a forage legume and<br />
interplant of tomatillos and beans. <strong>The</strong> seeds are white, flowers pink<br />
and marbled, leaves pale green and variegated. <strong>The</strong> RRC class type is:<br />
Mexican. It has red stems with some lodging and some unbranched plants.<br />
Observations from the Rodale Research Center, 1988 Rodale Amaranth Germp<br />
lasm Catalog. Emmaus, PA.<br />
PI 643045. Amaranthus cruentus L.<br />
Landrace. LF/GN 12; RRC 422; Ames 5178. Collected 08/05/1979 in Morelos,<br />
Mexico. Latitude 18° 43' N. Longitude 98° 45' W. Elevation 1200 m.<br />
Hualzurco area, 1.3 km from Amayuca. Field of a forage legume and<br />
interplant of beans and tomatillos. <strong>The</strong> seeds are white, flowers<br />
marbled, leavs green. <strong>The</strong> RRC class type is: Mexican. This amaranth is<br />
141
shorter than most. Observations from the Rodale Research Center, 1988<br />
Rodale Amaranth <strong>Germplasm</strong> Catalog. Emmaus, PA.<br />
PI 643046. Amaranthus cruentus L.<br />
Landrace. LF/GN 14; RRC 424; Ames 5180. Collected 08/05/1979 in Morelos,<br />
Mexico. Latitude 18° 43' N. Longitude 98° 45' W. Elevation 1200 m.<br />
Hualzurco area, 1.3 km from Amayuca. Field of a forage legume and<br />
interplant of beans and tomatillos. <strong>The</strong> seeds are white, flowers pink<br />
and marbled, leaves green and variegated. <strong>The</strong> RRC class type is:<br />
Mexican. <strong>The</strong> plants are too branched and slightly later maturing.<br />
Observations from the Rodale Research Center, 1988 Rodale Amaranth<br />
<strong>Germplasm</strong> Catalog. Emmaus, PA.<br />
PI 643047. Amaranthus cruentus L.<br />
Landrace. LF/GN 15; RRC 425; Ames 5181. Collected 08/05/1979 in Morelos,<br />
Mexico. Latitude 18° 43' N. Longitude 98° 45' W. Elevation 1200 m.<br />
Hualzurco area, 1.3 km from Amayuca. Field of a forage legume and<br />
interplant of beans and tomatillos. <strong>The</strong> seeds are white, flowers green<br />
and marbled, leaves green. <strong>The</strong> RRC class type is: Mexican. This<br />
amaranth has uneven maturity and is predominantly green-flowered.<br />
Observations from the Rodale Research Center, 1988 Rodale Amaranth<br />
<strong>Germplasm</strong> Catalog. Emmaus, PA.<br />
PI 643048. Amaranthus cruentus L.<br />
Landrace. LF/GN 16; RRC 426; Ames 5182. Collected 08/05/1979 in Morelos,<br />
Mexico. Latitude 18° 43' N. Longitude 98° 45' W. Elevation 1200 m.<br />
Hualzurco area, 1.3 km from Amayuca. Field of a forage legume and<br />
interplant of tomatillos and beans. <strong>The</strong> seeds are white, flowers<br />
marbled, leaves green. <strong>The</strong> RRC class type is: Mexican. This amaranth<br />
formed late branches and had uneven maturity. It was shorter than most<br />
Mexican grain types. Observations from the Rodale Research Center, 1988<br />
Rodale Amaranth <strong>Germplasm</strong> Catalog. Emmaus, PA.<br />
PI 643049. Amaranthus cruentus L.<br />
Landrace. LF/GN 18; RRC 428; Ames 5183. Collected 08/05/1979 in Morelos,<br />
Mexico. Latitude 18° 43' N. Longitude 98° 45' W. Elevation 1200 m.<br />
Hualzurco area, 1.3 km from Amayuca. Field of a forage legume and<br />
interplant of tomatillos and beans. <strong>The</strong> seeds are white, flowers<br />
marbled, leaves variegated. <strong>The</strong> RRC class type is: Mexican. More<br />
branching than most with very uneven maturity. Observations from the<br />
Rodale Research Center, 1988 Rodale Amaranth <strong>Germplasm</strong> Catalog. Emmaus,<br />
PA.<br />
PI 643050. Amaranthus cruentus L.<br />
Landrace. LF/GN 19; RRC 429; Ames 5184. Collected 08/05/1979 in Morelos,<br />
Mexico. Latitude 18° 43' N. Longitude 98° 45' W. Elevation 1200 m.<br />
Hualzurco area, 1.3 km from Amayuca. Field of a forage legume and<br />
interplant of beans and tomatillos. <strong>The</strong> seeds are white, flowers<br />
marbled, leaves variegated and green. <strong>The</strong> RRC class type is: Mexican.<br />
<strong>The</strong> plants are short and formed late branches. Observations from the<br />
Rodale Research Center, 1988 Rodale Amaranth <strong>Germplasm</strong> Catalog. Emmaus,<br />
PA.<br />
PI 643051. Amaranthus cruentus L.<br />
Landrace. LF/GN 20; RRC 430; Ames 5185. Collected 08/04/1979 in Morelos,<br />
Mexico. Latitude 18° 43' N. Longitude 98° 45' W. Elevation 1200 m.<br />
Hualzurco area, 1.3 km from Amayuca. Field of a forage legume and<br />
142
interplant of beans and tomatillos. <strong>The</strong> seeds are black, flowers red,<br />
leaves green. <strong>The</strong> RRC class type is: unique. <strong>The</strong> plants had excessive<br />
branching with no main head and large leathery leaves. It did not<br />
mature in the field. Observations from the Rodale Research Center, 1988<br />
Rodale Amaranth <strong>Germplasm</strong> Catalog. Emmaus, PA.<br />
PI 643052. Amaranthus cruentus L.<br />
Landrace. LF/GN 21; RRC 431; Ames 5186. Collected 08/05/1979 in Morelos,<br />
Mexico. Latitude 18° 43' N. Longitude 98° 45' W. Elevation 1200 m.<br />
Hualzurco area, 1.3 km from Amayuca. Field of a forage legume and<br />
interplant of tomatillos and beans. <strong>The</strong> seeds are white, flowers<br />
purplish red, leaves variegated. <strong>The</strong> RRC class type is: Mexican. This<br />
amaranth has even maturity with a nice main head and high branches.<br />
Observations from the Rodale Research Center, 1988 Rodale Amaranth<br />
<strong>Germplasm</strong> Catalog. Emmaus, PA.<br />
PI 643053. Amaranthus cruentus L.<br />
Landrace. LF/GN 22; RRC 432; Ames 5187. Collected 08/05/1979 in Morelos,<br />
Mexico. Latitude 18° 43' N. Longitude 98° 45' W. Elevation 1200 m.<br />
Hualzurco area, 1.3 km from Amayuca. Field of a forage legume and<br />
interplant of beans and tomatillos. Pedigree - This is not the same as<br />
PI 490660 because this has stems without red stripes (grown for<br />
comparison 1998 by David Brenner in a greenhouse). <strong>The</strong> seeds are white,<br />
flowers marbled, leaves variegated. <strong>The</strong> RRC class type is: Mexican.<br />
This is a short plant with no lodging and a nice main head. Observations<br />
from the Rodale Research Center, 1988 Rodale Amaranth <strong>Germplasm</strong> Catalog.<br />
Emmaus, PA.<br />
PI 643054. Amaranthus cruentus L.<br />
Landrace. LF/GN 23; RRC 433; Ames 5188. Collected 08/05/1979 in Morelos,<br />
Mexico. Latitude 18° 43' N. Longitude 98° 45' W. Elevation 1200 m.<br />
Hualzurco area, 1.3 km from Amayuca. Field of a forage legume and<br />
interplant of beans and tomatillos. <strong>The</strong> seeds are white, flowers green,<br />
leaves rufescent. <strong>The</strong> RRC class type is Mexican. <strong>The</strong> plants had some<br />
lygus resistance. <strong>The</strong>y were less branching than most with a large main<br />
head, high yield, and red stems and petioles. Observations from the Rod<br />
ale Research Center, 1988 Rodale Amaranth Gemrplasm Catalog. Emmaus,<br />
PA.<br />
PI 643055. Amaranthus cruentus L.<br />
Landrace. LF/GN 24; RRC 434; Ames 5189. Collected 08/05/1979 in Morelos,<br />
Mexico. Latitude 18° 43' N. Longitude 98° 45' W. Elevation 1200<br />
Hualzurco area, 1.3 km from Amayuca. Field of a forage legume and<br />
interplant of beans and tomatillos. <strong>The</strong> seeds are white, flowers light<br />
rose pink, leaves pale green. <strong>The</strong> RRC class type is: Mexican. It is<br />
less branching than most, with a huge main head and a distictive flower<br />
color. Observations from the Rodale Research Center, 1988 Rodale<br />
Amaranth <strong>Germplasm</strong> Catalog. Emmaus, PA.<br />
PI 643056. Amaranthus cruentus L.<br />
Landrace. LF/GN 25; RRC 435; Ames 5190. Collected 08/05/1979 in Morelos,<br />
Mexico. Latitude 18° 43' N. Longitude 98° 45' W. Elevation 1200 m.<br />
Hualzurco area, 1.3 km from Amayuca. Field of a forage legume and<br />
interplant of beans and tomatillos. <strong>The</strong> seeds are white, flowers<br />
marbled and green, leaves variegated and green. <strong>The</strong> RRC class type is:<br />
Mexican. It has a huge seed head with some unbranched plants.<br />
143
Observations from the Rodale Research Center, 1988 Rodale Amaranth<br />
<strong>Germplasm</strong> Catalog. Emmaus, PA.<br />
PI 643057. Amaranthus cruentus L.<br />
Landrace. LF/GN 26; RRC 436; Ames 5191. Collected 08/05/1979 in Morelos,<br />
Mexico. Latitude 18° 43' N. Longitude 98° 45' W. Elevation 1200 m.<br />
Hualzurco area. <strong>The</strong> seeds are white, gold and brown, flowers green<br />
and marbled, leaves green and variegated. <strong>The</strong> RRC class type is:<br />
Mexican. Observations from the Rodale Research Center, 1988 Rodale<br />
Amaranth <strong>Germplasm</strong> Catalog. Emmaus, PA.<br />
PI 643058. Amaranthus cruentus L.<br />
Landrace. LF/GN 28; RRC 439; Ames 5193. Collected 08/06/1979 in Morelos,<br />
Mexico. Latitude 18° 43' N. Longitude 98° 45' W. Elevation 1200 m.<br />
Hualzurco area, 2 km from Amayuca. Flat field, dense planting, rows<br />
0.75 meter apart, plants every 15 cm or less. <strong>The</strong> seeds are white,<br />
flowers red and marbled, leaves green and variegated. <strong>The</strong> RRC class<br />
type is Mexican. It has uniform maturity with the side branches and<br />
main head maturing at the same time. Observations from the Rodale<br />
Research Center, 1988 Rodale Amaranth <strong>Germplasm</strong> Catalog. Emmaus, PA.<br />
PI 643059. Amaranthus cruentus L.<br />
Landrace. LF/GN 29; RRC 440; Ames 5194. Collected 08/06/1979 in Morelos,<br />
Mexico. Latitude 18° 43' N. Longitude 98° 45' W. Elevation 1200 m.<br />
Hualzurco area, 2 km from Amayuca. Dense planting, rows 0.75 meter<br />
apart, plants every 15 cm or less. <strong>The</strong> seeds are white, flowers<br />
marbled, leaves variegated. <strong>The</strong> RRC class type is: Mexican. This<br />
amaranth has excessive branching with many late side branches.<br />
Observations from the Rodale Research Center, 1988 Rodale Amaranth<br />
<strong>Germplasm</strong> Catalog. Emmaus, PA.<br />
PI 643060. Amaranthus cruentus L.<br />
Landrace. LF/GN 30; RRC 441; Ames 5195. Collected 08/06/1979 in Morelos,<br />
Mexico. Latitude 18° 43' N. Longitude 98° 45' W. Elevation 1200 m.<br />
Huazulco. <strong>The</strong> seeds are white, flowers marbled, leaves green and<br />
variegated. <strong>The</strong> RRC class type is: Mexican. It has a huge main seed<br />
head with late side branches. Observations from the Rodale Research<br />
Center, 1988 Rodale Amaranth <strong>Germplasm</strong> Catalog. Emmaus, PA.<br />
PI 643061. Amaranthus cruentus L.<br />
Landrace. LF/GN 31; RRC 442; Ames 5196. Collected 08/06/1979 in Morelos,<br />
Mexico. Latitude 18° 43' N. Longitude 98° 45' W. Elevation 1200 m.<br />
Hualzurco area, 2 km from Amayuca. Dense planting, rows 0.75 meter<br />
apart, plants every 15 cm or less. <strong>The</strong> seeds are white, flowers red,<br />
leaves green. <strong>The</strong> RRC class type is: Mexican. <strong>The</strong> side branches and<br />
main head mature at the same time. <strong>The</strong> stems are red-striped.<br />
Observations from the Rodale Research Center, 1988 Rodale Amaranth<br />
<strong>Germplasm</strong> Catalog. Emmaus, PA.<br />
PI 643062. Amaranthus cruentus L.<br />
Landrace. LF/GN 32; RRC 443; Ames 5197. Collected 08/06/1979 in Morelos,<br />
Mexico. Latitude 18° 43' N. Longitude 98° 45' W. Elevation 1200 m.<br />
Hualzurco area, 2 km from Amayuca. Flat field, dense planting, rows<br />
0.75 meter apart, plants every 15 cm or less. <strong>The</strong> seeds are white,<br />
flowers marbled, leaves green and variegated. <strong>The</strong> RRC class type is:<br />
Mexican. It is short, very uniform in height with excessive branching.<br />
144
It had severe lygus damage. Observations from the Rodale Research<br />
Center, 1988 Rodale Amaranth <strong>Germplasm</strong> Catalog. Emmaus, PA.<br />
PI 643063. Amaranthus cruentus L.<br />
Landrace. LF/GN 34; RRC 445; Ames 5199. Collected 08/06/1979 in Morelos,<br />
Mexico. Latitude 18° 43' N. Longitude 98° 45' W. Elevation 1200 m.<br />
Near Amayuca. <strong>The</strong> seeds are white, flowers green, leaves green. <strong>The</strong><br />
RRC class type is: Mexican. <strong>The</strong>re is some lygus resistance and some dry<br />
down. It is short, with high yield and many branches, all green.<br />
Observations from the Rodale Research Center, 1988 Rodale Amaranth<br />
<strong>Germplasm</strong> Center. Emmaus, PA.<br />
PI 643064. Amaranthus cruentus L.<br />
Landrace. LF/GN 36; RRC 447; Ames 5201. Collected 08/06/1979 in Morelos,<br />
Mexico. Latitude 18° 45' 0" N. Longitude 99° 0' 0" W. <strong>The</strong> seeds<br />
are white, flowers marbled and red, leaves variegated and green. <strong>The</strong><br />
RRC class type is: Mexican. It had severe lygus damage. It has less<br />
branching than most with large seeds heads and side brances later than<br />
the main head. Observations from the Rodale Research Center, 1988<br />
Rodale Amaranth <strong>Germplasm</strong> Catalog. Emmaus, PA.<br />
PI 643065. Amaranthus cruentus L.<br />
Landrace. LF/GN 37; RRC 448; Ames 5202. Collected 08/06/1979 in Morelos,<br />
Mexico. Latitude 18° 45' 0" N. Longitude 99° 0' 0" W. <strong>The</strong> seeds<br />
are white, flowers marbled, leaves are green. <strong>The</strong> RRC class type is:<br />
Mexican. It had severe Lygus damage. It has a large main head with<br />
less branching than most. Observations from the Rodale Research Center,<br />
1988 Rodale Amaranth <strong>Germplasm</strong> Catlaog. Emmaus, PA.<br />
PI 643066. Amaranthus hypochondriacus L.<br />
Landrace. LF/GN 38; RRC 449; Alegria; Ames 5203. Collected 08/07/1979 in<br />
Mexico, Mexico. Latitude 19° 7' N. Longitude 98° 46' W. Elevation<br />
2493 m. Amecameca. Field next to fava beans. <strong>The</strong> seeds are white<br />
flowers pink and green, leaves are rufescent and green. <strong>The</strong> RRC<br />
class type is: Aztec. <strong>The</strong> plants are not uniform in the greenhouse.<br />
Observations from the Rodale Research Center, 1988 Rodale Amaranth<br />
<strong>Germplasm</strong> Catalog. Emmaus, PA.<br />
PI 643067. Amaranthus hypochondriacus L.<br />
Landrace. LF/GN 39; RRC 450; Ames 5204. Collected 08/07/1979 in Mexico,<br />
Mexico. Latitude 19° 7' N. Longitude 98° 46' W. Elevation 2493 m.<br />
Amecameca. Field next to fava beans. <strong>The</strong> seeds are white, flowers<br />
pink and green, leaves rufescent. <strong>The</strong> RRC class type is: Aztec.<br />
Observations from the Rodale Research Center, 1988 Rodale Amaranth<br />
<strong>Germplasm</strong> Catalog. Emmaus, PA.<br />
PI 643068. Amaranthus hypochondriacus L.<br />
Landrace. LF/GN 41; RRC 452; Ames 5205. Collected 08/07/1979 in Mexico,<br />
Mexico. Latitude 19° 7' N. Longitude 98° 46' W. Elevation 2493 m.<br />
Amecameca. Field next to fava beans. <strong>The</strong> seeds are white, flowers<br />
green and red, leaves rufescent. <strong>The</strong> RRC class type is: Aztec. It has<br />
red petioles. Observations from the Rodale Research Center, 1988 Rodale<br />
Amaranth <strong>Germplasm</strong> Catalog. Emmaus, PA.<br />
PI 643069. Amaranthus hypochondriacus L.<br />
Landrace. LF/GN 42; RRC 453; Ames 5206. Collected 08/07/1979 in Mexico,<br />
Mexico. Latitude 19° 7' N. Longitude 98° 46' W. Elevation 2493 m.<br />
145
Amecameca. Field next to fava beans. <strong>The</strong> seeds are white, flowers<br />
green, leaves green. <strong>The</strong> RRC class type is Aztec. It has red stems.<br />
Observations from the Rodale Research Center, Rodale Amaranth <strong>Germplasm</strong><br />
Catalog. Emmaus, PA.<br />
PI 643070. Amaranthus hypochondriacus L.<br />
Landrace. LF/GN 43; RRC 454; Ames 5207. Collected 08/07/1979 in Mexico,<br />
Mexico. Latitude 19° 7' N. Longitude 98° 46' W. Elevation 2493 m.<br />
Amecameca. Field next to fava beans. <strong>The</strong> seeds are white, flowers<br />
green and red, leaves rufescent. <strong>The</strong> RRC class type is Aztec. It has<br />
red and pink petioles and stems. Observations from the Rodale Research<br />
Center, 1988 Rodale Amaranth <strong>Germplasm</strong> Catalog. Emmaus, PA.<br />
PI 643071. Amaranthus hypochondriacus L.<br />
Landrace. LF/GN 44; RRC 455; Ames 5208. Collected 08/07/1979 in Mexico,<br />
Mexico. Latitude 19° 7' N. Longitude 98° 46' W. Elevation 2493 m.<br />
Amecameca. Field next to fava beans. <strong>The</strong> seeds are white, flowers<br />
red, leaves rufescent. <strong>The</strong> RRC class type is: Aztec. It has red stems<br />
and petioles. Observations from the Rodale Research Center, 1988 Rodale<br />
Amaranth <strong>Germplasm</strong> Catalog. Emmaus, PA.<br />
PI 643072. Amaranthus hypochondriacus L.<br />
Landrace. LF/GN 46; RRC 457; Ames 5209. Collected 08/07/1979 in Mexico,<br />
Mexico. Latitude 19° 7' N. Longitude 98° 46' W. Elevation 2493 m.<br />
Amecameca. Field next to fava beans. <strong>The</strong> seeds are white, flowers<br />
red and green, leaves green and rufescent. <strong>The</strong> RRC class type is:<br />
Aztec. Observations from the Rodale Research Center, 1988 Rodale<br />
Amaranth <strong>Germplasm</strong> Catalog. Emmaus, PA.<br />
PI 643073. Amaranthus hypochondriacus L.<br />
Landrace. LF/GN 47; RRC 458; Ames 5210. Collected 08/07/1979 in Mexico,<br />
Mexico. Latitude 19° 7' N. Longitude 98° 46' W. Elevation 2493 m.<br />
Amecameca. Field next to fava beans. <strong>The</strong> seeds are white, flowers<br />
green, leaves green. <strong>The</strong> RRC class type is Aztec. It has red stems.<br />
Observations from the Rodale Research Center, 1988 Rodale Amaranth<br />
<strong>Germplasm</strong> Catalog. Emmaus, PA.<br />
PI 643074. Amaranthus hypochondriacus L.<br />
Landrace. LF/GN 49; RRC 460; Ames 5211. Collected 08/07/1979 in Mexico,<br />
Mexico. Latitude 19° 7' N. Longitude 98° 46' W. Elevation 2493 m.<br />
Amecameca. <strong>The</strong> seeds are white, flowers red and green, leaves<br />
rufescent and green. <strong>The</strong> RRC class type is Aztec. It has red stems.<br />
Observations from the Rodale Research Center, 1988 Rodale Amaranth<br />
<strong>Germplasm</strong> Catalog. Emmaus, PA.<br />
PI 643075. Amaranthus hypochondriacus L.<br />
Landrace. LF/GN 50; RRC 461; Ames 5212. Collected 08/07/1979 in Puebla,<br />
Mexico. Latitude 19° 9' N. Longitude 98° 24' W. Elevation 984 m.<br />
Huejotzingo. Backyard garden. <strong>The</strong> seeds are white, flowers red and<br />
green, leaves rufescent and green. <strong>The</strong> RRC class type is: Aztec. <strong>The</strong>re<br />
were some early, short segregates, but they did not mature in the field.<br />
Observations from the Rodale Research Center, 1988 Rodale Amaranth<br />
<strong>Germplasm</strong> Catalog. Emmaus, PA.<br />
<strong>The</strong> following were collected by Gary Nabhan, Native Seeds/SEARCH, 3950 W. New<br />
York Drive, Tucson, Arizona 85745, United States; L. Feine-Dudley, Rodale<br />
146
Res. Ctr., Kutztown, Pennsylvania, United States; Universidad Tecnologica de<br />
Netzahualcoyotl, Mexico, Mexico. Donated by Rodale Research Center, Rodale<br />
Press, Box 323, RD 1, Kutztown, Pennsylvania 19530, United States. Received<br />
03/19/1981.<br />
PI 643076. Amaranthus hypochondriacus L.<br />
Landrace. LF/GN 52; RRC 462; Aztec Giant; Ames 5213; Ames 2260.<br />
Collected 08/10/1979 in Mexico. Latitude 19° 15' N. Longitude<br />
99° 1' W. Elevation 2200 m. Telyehualco. Collected 08/10/1979 in<br />
Federal District, Mexico. Latitude 19° 15' N. Longitude 99° 1'<br />
W. Elevation 2200 m. Telyehualco. <strong>The</strong> seeds are white, flowers red and<br />
green, leaves rufescent. <strong>The</strong> RRC class types is: Aztec. It has red<br />
stems. Observations from the Rodale Research Center, 1988 Rodale<br />
Amaranth <strong>Germplasm</strong> Catalog. Emmaus, PA.<br />
<strong>The</strong> following were collected by Gary Nabhan, Native Seeds/SEARCH, 3950 W. New<br />
York Drive, Tucson, Arizona 85745, United States; L. Feine-Dudley, Rodale<br />
Res. Ctr., Kutztown, Pennsylvania, United States. Donated by Rodale Research<br />
Center, Rodale Press, Box 323, RD 1, Kutztown, Pennsylvania 19530, United<br />
States. Received 04/15/1986.<br />
PI 643077. Amaranthus cruentus L.<br />
Landrace. LF/GN 53; RRC 463; Ames 5214. Collected 08/10/1979 in Mexico,<br />
Mexico. Latitude 19° 24' N. Longitude 99° 9' W. Mexico City.<br />
<strong>The</strong> seeds are white, gold and brown, flowers green, red and marbled,<br />
leaves green and variegated. <strong>The</strong> RRC class type is: Mexican, mercado.<br />
Observations from the Rodale Research Center, 1988 Rodale Amaranth<br />
<strong>Germplasm</strong> Catalog. Emmaus, PA.<br />
PI 643078. Amaranthus cruentus L.<br />
Landrace. LF/GN 54; RRC 464; Ames 5<strong>215</strong>. Collected 08/11/1979 in Oaxaca,<br />
Mexico. Latitude 17° 0' N. Longitude 96° 30' W. Young men at the<br />
place of purchase said that the seeds were from Oaxaca. Pedigree – BULK.<br />
<strong>The</strong> seeds are white and gold, flowers green and red, leaves green.<br />
<strong>The</strong> RRC class type is Mexican, mercado. It is predominately the<br />
green-flowered Mexican grain type. Observations from the Rodale<br />
Research Center, 1988 Rodale Amaranth <strong>Germplasm</strong> Catalog. Emmaus, PA.<br />
<strong>The</strong> following were donated by Universidad Nacional Technica del Altiplano,<br />
Puno, Puno, Peru. Received 02/21/2001.<br />
PI 643079. Chenopodium quinoa Willd.<br />
Landrace. 04-02-451; Pasankalla; Ames 26191. Collected in Puno, Peru.<br />
High altitudes of the altiplano, Puno. <strong>The</strong> seeds can pop like popcorn,<br />
which is said to be unusual for this species.<br />
<strong>The</strong> following were collected by Art Wells, <strong>The</strong> Ohio State University,<br />
Ornamental <strong>Plant</strong> <strong>Germplasm</strong> Center, 670 Tharp Street, Columbus, Ohio<br />
43210-1086, United States; Jennifer Ehrenberger, <strong>The</strong> Ohio State University,<br />
Ornamental <strong>Plant</strong> <strong>Germplasm</strong> Center, 670 Tharp Street, Columbus, Ohio<br />
43210-1086, United States; Rick Gardner, Ohio Department of Natural<br />
<strong>Resources</strong>, Division of Natural Areas and Preserves, 2045 Morse Road,<br />
Columbus, Ohio 43229, United States. Received 10/19/2004.<br />
147
PI 643080. Lespedeza capitata Michx.<br />
Wild. Population. LC 9; OPGC 1989. Collected 10/19/2004 in Ohio, United<br />
States. Latitude 41° 35' 27" N. Longitude 83° 45' 43" W. Louis<br />
Campbell State Nature Preserve, Lucas County.<br />
<strong>The</strong> following were donated by Don Beam, Ohio Prairie Association, 201 THORNE,<br />
OARDC-WOOSTER, Wooster, Ohio 44691, United States. Received 08/22/2004.<br />
PI 643081. Chamaecrista nictitans (L.) Moench var. nictitans<br />
Wild. Population. Stucker Meadow 18; OPGC 2096. Collected in Ohio,<br />
United States. Mohican River Bank, Brinkhaven, Knox County.<br />
PI 643082. Senna marilandica (L.) Link<br />
Wild. Population. Stucker Meadow 23; OPGC 2101.<br />
<strong>The</strong> following were collected by Susan Stieve, <strong>The</strong> Ohio State University,<br />
Ornamental <strong>Plant</strong> <strong>Germplasm</strong> Center, 670 Tharp Street, Columbus, Ohio<br />
43210-1086, United States; Eric Renze, <strong>The</strong> Ohio State University, Ornamental<br />
<strong>Plant</strong> <strong>Germplasm</strong> Center, 670 Tharp Street, Columbus, Ohio 43210-1086, United<br />
States; Kensel Clutter, Ohio Prairie Association, 4032 Pole Lane Road,<br />
Marion, Ohio 43302, United States. Received 11/01/2005.<br />
PI 643083. Hibiscus laevis All.<br />
Wild. Population. GC 9; OPGC 2440. Collected 09/21/2005 in Ohio, United<br />
States. Latitude 40° 32' 54" N. Longitude 83° 11' 29" W.<br />
Elevation 284 m. Green Camp Railroad Prairie managed by the Marion<br />
County Historical Society, Marion County.<br />
PI 643084. Hibiscus laevis All.<br />
Wild. Population. GC 23; OPGC 2454. Collected 09/21/2005 in Ohio, United<br />
States. Latitude 40° 32' 37" N. Longitude 83° 11' 54" W.<br />
Elevation 284 m. Green Camp Railroad Prairie managed by the Marion<br />
County Historical Society, Marion County.<br />
<strong>The</strong> following were developed by Syngenta Seeds, Inc. - Vegetable, Boise,<br />
Idaho, United States. Received 07/28/2006.<br />
PI 643085 PVPO. Lactuca sativa L.<br />
Cultivar. "BARRACUDA". PVP 200600241.<br />
<strong>The</strong> following were developed by Bayer Cropscience, United States; Cotton Seed<br />
Int'l. Proprietary Limited, Wee Waa, Australia. Received 07/28/2006.<br />
PI 643086 PVPO. Gossypium hirsutum L.<br />
Cultivar. "FM 960B2". PVP 200600178.<br />
<strong>The</strong> following were developed by Robert Hunger, Oklahoma State University,<br />
Dept. of <strong>Plant</strong> Pathology, 110 NRC, Stillwater, Oklahoma 74078-9947, United<br />
States; Brett F. Carver, Oklahoma State University, Dept. of <strong>Plant</strong> & Soil<br />
Sciences, 368 Agriculture Hall <strong>No</strong>rth, Stillwater, Oklahoma 74078, United<br />
States; David R. Porter, USDA, ARS, 1301 N. Western Road, Stillwater,<br />
Oklahoma 74075-2714, United States; Oklahoma Agricultural Experiment Station,<br />
148
Stillwater, Oklahoma, United States; B.W. Seabourn, USDA, ARS, Grain<br />
Marketing and Production Research Center, Hard Winter Wheat Quality Lab.,<br />
Manhattan, Kansas 66506, United States; A.R. Klatt, Oklahoma State<br />
University, Dept. of <strong>Plant</strong> and Soil Sciences, Stillwater, Oklahoma 74078,<br />
United States; B.C. Martin, Oklahoma State University, Dept. of <strong>Plant</strong> and<br />
Soil Sciences, Stillwater, Oklahoma 74078, United States; P. Rayas-Duarte,<br />
Oklahoma State University, Dept. of Biochemistry and Molecular Biology,<br />
Stillwater, Oklahoma 74078, United States; J.T. Edwards, Oklahoma State<br />
University, Dept. of <strong>Plant</strong> and Soil Sciences, Stillwater, Oklahoma 74078,<br />
United States; T.F. Peeper, Oklahoma State University, Dept. of <strong>Plant</strong> and<br />
Soil Sciences, Stillwater, Oklahoma 74078, United States. Received<br />
07/28/2006.<br />
PI 643087. Triticum aestivum L. subsp. aestivum<br />
Cultivar. Pureline. "OKFIELD"; OK02909C. PVP 200600227; CV-1019; Utility<br />
Patent 5369022; REST 643087. Pedigree - (TXGH12588-120*4/FS4)/2174.<br />
Released 2005. Okfield was developed by crossing 2174 with a single<br />
plant selected for imazamox tolerance (commercial rate) from a F2<br />
population with the pedigree, TXGH12588-120*4/FS4. Okfield is a<br />
F2-derived line that is phenotypically uniform, except for the seg<br />
regation of plants either resistant (50%) or susceptible (50%) to<br />
biotype E or I greenbug (Schizaphis graminum Rondani) in the seedling<br />
stage. Resistant plants, which carry the Gb3 gene, are phenotypically<br />
indistinguishable from susceptible plants in the absence of the<br />
greenbug. Flag leaves of Okfield show high stay-green capacity,<br />
especially under high leaf rust (caused by Puccinia triticina Eriks)<br />
pressure that forces premature senescence of currently available<br />
cultivars with imazamox resistance. <strong>The</strong> high-molecular-weight<br />
glutenin-subunit signature for Okfield is 2*/6+8 and 7+9/5+10, compared<br />
with 2*/6+8/5+10 for 2174. While agronomic features of Okfield are<br />
similar to or superior to those of 2174, the test weight of Okfield is<br />
4.3 kg/hL less than 2174, a cultivar known for its exceptionally high<br />
test weight patterns. Okfield reaches the heading stage 4 days later<br />
than AP502CL, a very early cultivar, and two days earlier than 2174. It<br />
shows an intermediate reaction to acid soils under field conditions with<br />
soil pH
<strong>The</strong> following were developed by Syngenta Seeds, Inc., Junction City, Kansas,<br />
United States. Received 07/28/2006.<br />
PI 643089 PVPO. Triticum aestivum L. subsp. aestivum<br />
Cultivar. "NuDakota". PVP 200600235. Pedigree - Jagger/Romanian Bulk.<br />
PI 643090 PVPO. Triticum aestivum L. subsp. aestivum<br />
Cultivar. "NuGrain". PVP 200600236. Pedigree - Platte/W92-456W.<br />
PI 643091 PVPO. Triticum aestivum L. subsp. aestivum<br />
Cultivar. "KELBY". PVP 200600237. Pedigree - N97-0117/3/N92-0098//Sumai<br />
3/Dalen.<br />
PI 643092 PVPO. Triticum aestivum L. subsp. aestivum<br />
Cultivar. "COKER 9553"; D00*6874-2. PVP 200600238. Pedigree -<br />
89M-4035A/2580.<br />
PI 643093 PVPO. Triticum aestivum L. subsp. aestivum<br />
Cultivar. "POSTROCK". PVP 200600239. Pedigree -<br />
Ogallala/KSU94U261//Jagger.<br />
PI 643094 PVPO. Triticum aestivum L. subsp. aestivum<br />
Cultivar. "AGRIPRO PALADIN". PVP 200600240. Pedigree -<br />
WI90-008(Mesa/Abilene)/W91-040[Roazon/Wrangler//Vona/W76-1141(Nadadores<br />
63/CO652643//Centurk)].<br />
PI 643095 PVPO. Triticum aestivum L. subsp. aestivum<br />
Cultivar. Pureline. "9511". PVP 200600242. Pedigree - L881060/L880436.<br />
<strong>The</strong> following were developed by Washington State University Research<br />
Foundation, Washington, United States. Received 07/28/2006.<br />
PI 643096. Triticum aestivum L. subsp. aestivum<br />
Cultivar. "MDM"; WA7936; DUPLICATE OF PI 634716.<br />
<strong>The</strong> following were donated by David J. Andrews, University of Nebraska,<br />
Deptartment of Agronomy, Lincoln, Nebraska 68503, United States. Received<br />
09/06/1989.<br />
PI 643097. Sorghum bicolor (L.) Moench subsp. bicolor<br />
07072; Grif 500. Collected in India. Pedigree - FLR-1379-1-1.<br />
PI 643098. Sorghum bicolor (L.) Moench subsp. bicolor<br />
07078; Grif 505. Collected in India. Pedigree - Rs/RxCSV-4-1525-1-1-4.<br />
PI 643099. Sorghum bicolor (L.) Moench subsp. bicolor<br />
07095; Grif 521. Collected in India. Pedigree - Rs/B-8785-1-1-1.<br />
PI 643100. Sorghum bicolor (L.) Moench subsp. bicolor<br />
07105; Grif 530. Collected in India. Pedigree - FLR-266xCSV-4-4-3-2.<br />
PI 643101. Sorghum bicolor (L.) Moench subsp. bicolor<br />
07107; Grif 532. Collected in India. Pedigree -<br />
Diallel-475-746-4-5-2-1.<br />
150
PI 643102. Sorghum bicolor (L.) Moench subsp. bicolor<br />
07108; Grif 533. Collected in India. Pedigree - Early pop-5-1-1.<br />
PI 643103. Sorghum bicolor (L.) Moench subsp. bicolor<br />
07120; Grif 540. Collected in India. Pedigree - Us/R-50-398-2B.<br />
PI 643104. Sorghum bicolor (L.) Moench subsp. bicolor<br />
07124; Grif 542. Collected in India. Pedigree - Rs/B-162-2B.<br />
PI 643105. Sorghum bicolor (L.) Moench subsp. bicolor<br />
07151; Grif 564; SEGOALANE-B. Collected in India.<br />
PI 643106. Sorghum bicolor (L.) Moench subsp. bicolor<br />
07197; IS 155; Grif 597. Collected in India.<br />
PI 643107. Sorghum bicolor (L.) Moench subsp. bicolor<br />
07203; IS 157; Grif 603. Collected in India.<br />
PI 643108. Sorghum bicolor (L.) Moench subsp. bicolor<br />
07207; IS 1325; Grif 606. Collected in Kano, Nigeria.<br />
PI 643109. Sorghum bicolor (L.) Moench subsp. bicolor<br />
07216; Liaoning; Grif 613; JI 7384 (CHI). Collected in China.<br />
PI 643110. Sorghum bicolor (L.) Moench subsp. bicolor<br />
07217; Liaoning; Grif 614; HONG GAO LIANG (CHAO YANG). Collected in<br />
China.<br />
PI 643111. Sorghum bicolor (L.) Moench subsp. bicolor<br />
07218; Liaoning; Grif 615; HU XIAO. Collected in China.<br />
PI 643112. Sorghum bicolor (L.) Moench subsp. bicolor<br />
07225; Liaoning; Grif 622; BAI GAO LIANG (SUI DE). Collected in China.<br />
PI 643113. Sorghum bicolor (L.) Moench subsp. bicolor<br />
07230; Liaoning; Grif 627; XIAO HONG GAO LIANG (ZHAO MENG). Collected<br />
in China.<br />
<strong>The</strong> following were donated by Pieter-Wheeler Seed Company, California, United<br />
States. Received 12/28/1959.<br />
PI 643114. Daucus carota L.<br />
Cultivar. 1485; Nunhems 4091-1; DC-1; NSL 2867; White Belgian. Mature in<br />
90 days. Tops 18-22 inches tall. Root 10-12 inches in length, heavy<br />
shoulder tapering to tip, pure white flesh, exposed crown is light<br />
green. Used exclusively for stock feeding.<br />
<strong>The</strong> following were donated by Farmers Seed and Nursery Company, Faribault,<br />
Minnesota, United States. Received 03/04/1963.<br />
PI 643115. Daucus carota L.<br />
Cultivar. "Tiny Sweet"; Nunhems 4090-1; DC-61; NSL 6033. Listed in<br />
Farmer Seed & Nursery Co. Spring 1963 catalog, page 9.<br />
151
<strong>The</strong> following were donated by Asgrow Seed Company, New Haven, Connecticut<br />
06500, United States. Received 12/11/1961.<br />
PI 643116. Daucus carota L.<br />
Cultivar. "Chanticleer"; Nunhems 4097-1; DC-54; NSL 7389. Listed in<br />
Asgrow Catalog #19, page 23.<br />
<strong>The</strong> following were donated by USDA, ARS, Horticultural Station, P.O. Box<br />
1250, Cheyenne, Wyoming, United States; Fidler & Sons. Received 06/1963.<br />
PI 643117. Daucus carota L.<br />
Cultivar. "Fidler's Exhibition"; Nunhems 4098-1; DC-77; NSL 27999.<br />
<strong>The</strong> following were donated by USDA, ARS, Horticultural Station, P.O. Box<br />
1250, Cheyenne, Wyoming, United States; Stumpp & Walter Co., New York, New<br />
York, United States. Received 06/1963.<br />
PI 643118. Daucus carota L.<br />
Cultivar. "Selected Long Orange Improved"; Nunhems 4099-1; DC-89; NSL<br />
28011.<br />
<strong>The</strong> following were donated by USDA, ARS, Horticultural Station, P.O. Box<br />
1250, Cheyenne, Wyoming, United States. Received 06/1963.<br />
PI 643119. Daucus carota L.<br />
Cultivar. "Tilques"; Nunhems 4100-1; DC-90; NSL 28012.<br />
<strong>The</strong> following were donated by Herbst Brothers Seedsmen Inc., Brewster, New<br />
York, United States. Received 12/1978.<br />
PI 643120. Daucus carota L.<br />
Cultivar. "Prinant"; 04 183-1; DC-111; NSL 68260. Published in American<br />
Vegetable Grower, December 1968.<br />
<strong>The</strong> following were developed by Karen A. Moldenhauer, University of Arkansas,<br />
Rice Research & Extension Center, 2900 Hwy 130 E, Stuttgart, Arkansas 72160,<br />
United States; Fleet N. Lee, University of Arkansas, Rice Research &<br />
Extension Center, 2900 Hwy 130 E, Stuttgart, Arkansas 72160, United States;<br />
John Bernhardt, University of Arkansas, Rice Research & Extension Center,<br />
P.O. Box 351, Stuttgart, Arkansas 72160, United States; M.M. Blocker,<br />
University of Arkansas, Rice Research & Extension Center, P.O. Box 351,<br />
Stuttgart, Arkansas 72160, United States; James W. Gibbons, University of<br />
Arkansas, Rice Research & Ext. Center, P.O. Box 351, Stuttgart, Arkansas<br />
72160, United States; Richard <strong>No</strong>rman, University of Arkansas, P.S. 115,<br />
Fayetteville, Arkansas 72701, United States; M.M. Anders, University of<br />
Arkansas, Rice Research and Extension Center, P.O. Box 351, Stuttgart,<br />
Arkansas 72160, United States; Jill Bulloch, University of Arkansas, Rice<br />
Research & Extension Center, 2900 Hwy 130 East, Stuttgart, Arkansas 72160,<br />
United States; K. Taylor, University of Arkansas, Rice Research and Extension<br />
Center, 2900 Hwy 130 E., Stuttgart, Arkansas 72160, United States; C.E.<br />
Wilson, University of Arkansas, Rice Research and Extension Center, 2900 Hwy<br />
130 E., Stuttgart, Arkansas 72160, United States; R.D. Cartwright, University<br />
152
of Arkansas, Dept. of <strong>Plant</strong> Pathology, PTSC 217, Fayetteville, Arkansas<br />
72701, United States; A.C. Tolbert, University of Arkansas, Rice Research and<br />
Extension Center, 2900 Hwy 130 E,, Stuttgart, Arkansas 72160, United States;<br />
V.A. Boyett, University of Arkansas, Rice Research and Extension Center, 2900<br />
Hwy 130 E., Stuttgart, Arkansas 72160, United States. Received 08/10/2006.<br />
PI 643121. Oryza sativa L.<br />
Cultivar. Pureline. "SPRING"; RU0101093. CV-128; Utility Patent<br />
11/336470. Pedigree - RU9101001//'Tebonnet'/'Katy'/3/'LaGrue'. RU9101001<br />
is an extremely early line from the cross 'Bonnet73'/CI9837//PI<br />
265116/4/'Vegold'/'Dawn'//'Starbonne't/'Taducan'/3/'L-201'. Released<br />
2005. Spring heads in70 - 75 days, is approximately 112 cm in height,<br />
and on a relative straw strength scale (0 = very strong, 9 = very weak)<br />
rates 4 (Francis, Wells, LaGrue, and Cocodrie rate 3, 3, 3, and 2,<br />
respectively). R ough rice grain yields of Spring compare favorably with<br />
other very-short-season cultivars in the Arkansas Rice Performance<br />
Trials (ARPT). In 23 ARPT tests (2001-2004), Spring, Maybelle,<br />
Jefferson, and Cocodrie averaged yields of 7862, 6653, 7610, and 8770 kg<br />
ha-1 (120 g kg-1 (12%) moisture), respectively. Milling yields (mg g-1<br />
whole kernel:mg g-1 total milled rice) at 120 mg g-1 moisture from the<br />
ARPT, averaged 640:710, 610:710, 630:710, and 670:720, for Spring,<br />
Maybelle, Jefferson and Cocodrie, respectively. Spring, is rated R<br />
to common rice blast (Pyricularia grisea (Cooke) Sacc.) races IC-17,<br />
IE-1, IG-1, and IH-1 under Arkansas conditions, using the standard<br />
disease scale R = resistant, MR = moderately resistant, MS = moderately<br />
susceptible, S = susceptible and VS = very susceptible to disease.<br />
Spring is rated MR to IB-1, and MR-S to IB-49. Spring is S to blast<br />
races IB-33 and IE-1k. Spring is rated MS to sheath blight (Rhizoctonia<br />
solani K|hn), MS to kernel smut (Tilletia barclayana (Bref.) Sacc. &<br />
Syd. in Sacc.), S to stem rot (Magnaporthe salvinii (Cattaneo) R. Krause<br />
& R. K. Webster), MR to leaf smut (Entyloma oryzae Syd. & P. Syd.), M to<br />
brown leaf spot (Cochliobolus miyabeanus (Ito & Kuribayashi in Ito)<br />
Drechs. ex Dastur), MS to false smut (Ustilaginoidea virens (Cooke)<br />
Takah), S to crown (black) sheath rot (Gaeumannomyces graminis (sacc.)<br />
Arx & D. Olivier var. graminis), S to straight head a physiological<br />
disorder, and MS to damage caused by the rice stink bug (Oebalus<br />
pugnax). Spring plants have erect culms, green erect leaves, and<br />
glabrous lemma, palea, and leaf blades. Lemma and palea are straw<br />
colored with straw to brown colored apiculi, and some short tip awns on<br />
the lemma at maturity. Individual milled kernel we.<br />
<strong>The</strong> following were developed by Syngenta Seeds, Inc. - Vegetable, Boise,<br />
Idaho, United States. Received 08/10/2006.<br />
PI 643122 PVPO. Capsicum annuum L.<br />
Cultivar. "4228AA". PVP 200600256.<br />
<strong>The</strong> following were donated by Rosemary Chng, International <strong>Plant</strong> Genetic<br />
Resouces Institute, Seed Handling Unit, National University of Singapore,<br />
Dept. of Botany, Singapore. Received 09/09/1996.<br />
PI 643123. Abelmoschus tuberculatus Pal & Singh<br />
Uncertain. IC 117187; Grif 12689. Collected in Maharashtra, India.<br />
Kanpur, Akola.<br />
153
<strong>The</strong> following were donated by Eduardo A. Moscone, Instituto<br />
Multidisciplinario de Biologia Vegetal (IMBIV), Edificio de Investigaciones<br />
Biologicas y Tecnologicas, Universidad Nacional De Cordoba - Conicet, Cordoba<br />
5000, Argentina. Received 07/21/2005.<br />
PI 643124. Capsicum baccatum var. umbilicatum (Vell.) Hunz. & Barboza<br />
Uncertain. Grif 16131.<br />
<strong>The</strong> following were donated by Richard Gibson, University of Greenwich,<br />
Natural <strong>Resources</strong> Institute, Medway University Campus, Kent, United Kingdom.<br />
Received 02/27/2002.<br />
PI 643125. Ipomoea hildebrandtii Vatke<br />
Uncertain. Grif 15013. Collected in Uganda. Sipi Falls, Kapchorwa<br />
District. Shrub-like plants, 2 to 3 meters in height, short day<br />
sensitive, self-incompatible.<br />
<strong>The</strong> following were donated by Robert L. Jarret, USDA, ARS, <strong>Plant</strong> Genetic<br />
<strong>Resources</strong> Conservation Unit, University of Georgia, Griffin, Georgia<br />
30223-1797, United States. Received 03/03/2006.<br />
PI 643126. Solanum scabrum Mill.<br />
Wild. B and T World Seeds <strong>No</strong>. 30726; Grif 16402.<br />
<strong>The</strong> following were developed by Karen A. Moldenhauer, University of Arkansas,<br />
Rice Research & Extension Center, 2900 Hwy 130 E, Stuttgart, Arkansas 72160,<br />
United States; Fleet N. Lee, University of Arkansas, Rice Research &<br />
Extension Center, 2900 Hwy 130 E, Stuttgart, Arkansas 72160, United States;<br />
John Bernhardt, University of Arkansas, Rice Research & Extension Center,<br />
P.O. Box 351, Stuttgart, Arkansas 72160, United States; M.M. Blocker,<br />
University of Arkansas, Rice Research & Extension Center, P.O. Box 351,<br />
Stuttgart, Arkansas 72160, United States; James W. Gibbons, University of<br />
Arkansas, Rice Research & Ext. Center, P.O. Box 351, Stuttgart, Arkansas<br />
72160, United States; Richard <strong>No</strong>rman, University of Arkansas, P.S. 115,<br />
Fayetteville, Arkansas 72701, United States; M.M. Anders, University of<br />
Arkansas, Rice Research and Extension Center, P.O. Box 351, Stuttgart,<br />
Arkansas 72160, United States; Jill Bulloch, University of Arkansas, Rice<br />
Research & Extension Center, 2900 Hwy 130 East, Stuttgart, Arkansas 72160,<br />
United States; K. Taylor, University of Arkansas, Rice Research and Extension<br />
Center, 2900 Hwy 130 E., Stuttgart, Arkansas 72160, United States; C.E.<br />
Wilson, University of Arkansas, Rice Research and Extension Center, 2900 Hwy<br />
130 E., Stuttgart, Arkansas 72160, United States; R.D. Cartwright, University<br />
of Arkansas, Dept. of <strong>Plant</strong> Pathology, PTSC 217, Fayetteville, Arkansas<br />
72701, United States; A.C. Tolbert, University of Arkansas, Rice Research and<br />
Extension Center, 2900 Hwy 130 E,, Stuttgart, Arkansas 72160, United States;<br />
V.A. Boyett, University of Arkansas, Rice Research and Extension Center, 2900<br />
Hwy 130 E., Stuttgart, Arkansas 72160, United States. Received 08/18/2006.<br />
PI 643127. Oryza sativa L.<br />
Cultivar. Pureline. "BANKS"; RU0001188. Utility Patent 7,141,726; CV-126.<br />
Pedigree - LaGrue//Lemont/RA73/3/LaGrue/4/LaGrue. Released 2004. Banks<br />
heads 93 days after emergence and is 112 cm in plant height. On a<br />
relative straw strength scale (0 = very strong, 9 = very weak) Banks,<br />
154
Francis, Wells, LaGrue and Cocodrie rated 4, 3, 3, 3 and 2,<br />
respectively. Rough rice grain yields of Banks are one of the highest<br />
in the Arkansas Rice Performance Trials (ARPT). In 20 ARPT tests<br />
(2000-2003), Banks, Francis,Wells, LaGrue and Cocodrie averaged yields<br />
of 9677, 9828, 9727, 9243, and 8669 kg ha-1 (120 g kg-1 (12%) moisture),<br />
respectively. Milling yields (mg g-1 whole kernel:mg g-1 total milled<br />
rice) at 120 mg g-1 moisture from the ARPT, 2000-2003, averaged 630:710,<br />
650:710, 630:730, 620:700 and 660:710 for Banks, Francis, Wells, LaGrue<br />
and Cocodrie, respectively. Banks is resistant to common rice<br />
blast (Pyricularia grisea (Cooke) Sacc.) races IB-1, IB-49, IB-54,<br />
IC-17, IG-1 and IH-1 under Arkansas conditions, with ratings of R, MR,<br />
R, MR, R, and R respectively, using the standard disease R = resistant,<br />
MR = moderately resistant, MS = moderately susceptible, S = susceptible<br />
and VS = very susceptible to disease. Banks is susceptible to the blast<br />
race IB-33 and VS to race IE-1k. Banks is rated MS to sheath blight<br />
(Rhizoctonia solani K|hn), VS for kernel smut (Tilletia barclayana<br />
(Bref.) Sacc. & Syd. in Sacc.), S to stem rot (Magnaporthe salvinii<br />
(Cattaneo) R. Krause & R. K. Webster), MR to leaf smut (Entyloma oryzae<br />
Syd. & P. Syd.), R to brown leaf spot (Cochliobolus miyabeanus (Ito &<br />
Kuribayashi in Ito) Drechs. ex Dastur), MR to narrow brown leaf spot<br />
(Cercospora oryzae Miyake), and S to false smut (Ustilaginoidea virens<br />
(Cooke) Takah). Banks is S to damage caused by rice stink bug (Oebalus<br />
Pugnax). Banks rates MS to straighthead, a physiological disorder.<br />
<strong>Plant</strong>s of Banks have erect culms, dark green erect leaves, and glabrous<br />
lemma, palea, and leaf blades. <strong>The</strong> lemma and palea are straw colored<br />
with colorless apiculi, and some short tip awns on the lemma at<br />
maturity. Individual milled kernel w.<br />
<strong>The</strong> following were developed by J. Neil Rutger, 1989 Witham Drive, Woodland,<br />
California 95776, United States; Lorie Bernhardt, USDA, ARS, Dale Bumpers<br />
National Rice Research Ctr., 2890 Hwy 130 East, Stuttgart, Arkansas 72160,<br />
United States. Received 08/24/2006.<br />
PI 643128. Oryza sativa L.<br />
Genetic. Early <strong>Plant</strong> Death; GSOR 21. GS-3. Pedigree - Selected from a<br />
gamma-ray mutagenized indica (300 Gy) M2 population grown at Stuttgart<br />
in 2003. <strong>The</strong> mutagenized line was a sib to the previously released<br />
germplasm line indica-9 (PI 634583) derived from the cross ZHE733/IR64.<br />
<strong>The</strong> early plant death mutant was observed in 5 out of 12 plants in a<br />
single M2 row in 2003. In subsequent tests, plant death began soon<br />
after emergence and concluded ca. 80 days after planting. In a sample<br />
of 100 or more grains, brown rice length, width and weight, from the<br />
surviving plants were 6.5 mm, 2.3 mm, and 20 mg, compared to 6.8 mm, 2.4<br />
mm, and 22 mg for the parent genotype. In 2005 seeds from heterozygous<br />
normal M4 plants were composited to provide a genetic stock which will<br />
segregate 3 normal:1 mutant. Specialized propagation procedures: To<br />
maintain the population that segregates 3 normal:1 mutant, grow a<br />
segregating population from the above seed source, and harvest the<br />
normal (living) plants. <strong>The</strong> progenies of these plants will again<br />
segregate 3 normal:1 mutant and seeds of the segregating progeny parent<br />
plants may be bulked to replenish the seed stock.<br />
PI 643129. Oryza sativa L.<br />
Genetic. Narrow Leaf; GSOR 22. GS-4. Pedigree - Selected from a<br />
gamma-ray mutagenized indica (300 Gy) M2 population grown at Stuttgart<br />
in 2003. <strong>The</strong> mutagenized line was a sib to the previously released<br />
155
germplasm line indica-9 (PI 634583) derived from the cross ZHE733/IR64.<br />
<strong>The</strong> narrow leaf mutant (GSOR 22) was observed in 2 out of 9 plants in a<br />
single M2 row. In subsequent tests, flag leaf dimensions of the chives<br />
mutant were 14.88 cm long, and 0.56 cm wide, compared to 14.59 cm and<br />
0.99 cm for the parent. In a sample of 100 or more grains, brown rice<br />
length, width and weight of the mutant plants were 6.2 mm, 2.3 mm, and<br />
18 mg, compared to 6.8 mm, 2.4 mm, and 22 mg for the parent genotype.<br />
Seeds of chives plants were composited to form a genetic stock that is<br />
pure breeding for the narrow leaf mutant phenotype.<br />
PI 643130. Oryza sativa L.<br />
Genetic. Extreme Dwarf; GSOR 23. GS-5. Pedigree - Selected from a<br />
gamma-ray mutagenized indica (300 Gy) M2 population grown at Stuttgart<br />
in 2003. <strong>The</strong> mutagenized line was a sib to the previously released<br />
germplasm line indica-9 (PI 634583) derived from the cross ZHE733/IR64.<br />
<strong>The</strong> extreme dwarf mutant (GSOR 23) was observed in 5 out of 11 plants in<br />
a single M2 row in 2003. In subsequent tests, the extreme dwarf plants<br />
averaged 24 cm tall compared to 80 cm for the homozygous tall sibs. In<br />
a sample of 100 or more grains, brown rice length, width and kernel<br />
weight from the mutant plants were 6 mm, 2.1 mm, and 16 mg, compared to<br />
6.8 mm, 2.4 mm, and 22 mg for the parent genotype. Seeds of extreme<br />
dwarf plants were composited to form a genetic stock that is pure<br />
breeding for the extreme dwarf mutant phenotype.<br />
PI 643131. Oryza sativa L.<br />
Genetic. Gold Leaf; GSOR 24. GS-6. Pedigree - Selected from a gamma-ray<br />
mutagenized indica (300 Gy) M2 population grown at Stuttgart in 2003.<br />
<strong>The</strong> mutagenized line was a sib to the previously released germplasm line<br />
indica-9 (PI 634583) derived from the cross ZHE733/IR64. <strong>The</strong> gold leaf<br />
mutant (GSOR 24) was observed in 2 out of 7 plants in a single M2 row in<br />
2003. In subsequent tests, the gold, or bright yellow, leaf color<br />
appeared ca. 78 days after planting and remained in the leaf material<br />
through harvest. In a sample of 100 or more grains, brown rice length,<br />
width and kernel weight from the mutant plants were 6.7 mm, 2.4 mm, and<br />
21 mg, compared to 6.8 mm, 2.4 mm, and 22 mg for the parent genotype.<br />
Seeds of the gold leaf plants were composited to form a genetic stock<br />
that is pure breeding for the gold leaf mutant phenotype.<br />
<strong>The</strong> following were developed by Jorge A. Mosjidis, Auburn University,<br />
Department of Agronomy & Soils, 202 Funchess Hall, Auburn, Alabama<br />
36849-5412, United States. Received 08/21/2006.<br />
PI 643132. Vicia sativa L.<br />
Cultivar. Pureline. "AU OLYMPIC". CV-10. Pedigree - Selected from a F7<br />
bulk population derived from crosses between Cahaba White and plant<br />
introductions 286470, 289500, 289491, 277369 and 202524. Resistant to<br />
root-knot nematode (Meloidogyne arenaria) and soybean cyst nematode<br />
(Heterodera glycines). Testing at Brewton, Tallassee and Winfield, AL,<br />
in the seasons 1998-99 and 2001-02, showed that forage dry matter yield<br />
of AU Olympic was consistently higher than Cahaba White. In 1999, had an<br />
average forage dry matter yield 21% higher than Cahaba, and in 2002, was<br />
12.8% higher. Seedlings have green epicotyls and the plants are<br />
semi-prostrated with single white flowers. Flowers on the average about<br />
the same time as Cahaba White. Seeds have 30-53% orange cotyledons<br />
whereas seeds of Cahaba White have 90-99% orange cotyledons. Seeds tend<br />
to be smaller than those of Cahaba White. <strong>The</strong> 1000 seed weight ranged<br />
156
etween 45.5 and 75.8 g whereas Cahaba White seed weight ranged between<br />
52.1 and 82.5 g depending on the sample and location.<br />
<strong>The</strong> following were developed by Robert Hunger, Oklahoma State University,<br />
Dept. of <strong>Plant</strong> Pathology, 110 NRC, Stillwater, Oklahoma 74078-9947, United<br />
States; Brett F. Carver, Oklahoma State University, Dept. of <strong>Plant</strong> & Soil<br />
Sciences, 368 Agriculture Hall <strong>No</strong>rth, Stillwater, Oklahoma 74078, United<br />
States; David R. Porter, USDA, ARS, 1301 N. Western Road, Stillwater,<br />
Oklahoma 74075-2714, United States; Oklahoma Agricultural Experiment Station,<br />
Stillwater, Oklahoma, United States; B.W. Seabourn, USDA, ARS, Grain<br />
Marketing and Production Research Center, Hard Winter Wheat Quality Lab.,<br />
Manhattan, Kansas 66506, United States; A.R. Klatt, Oklahoma State<br />
University, Dept. of <strong>Plant</strong> and Soil Sciences, Stillwater, Oklahoma 74078,<br />
United States; B.C. Martin, Oklahoma State University, Dept. of <strong>Plant</strong> and<br />
Soil Sciences, Stillwater, Oklahoma 74078, United States; P. Rayas-Duarte,<br />
Oklahoma State University, Dept. of Biochemistry and Molecular Biology,<br />
Stillwater, Oklahoma 74078, United States; Guihua Bai, USDA-ARS, 4008<br />
Throckmorton Hall, Kansas State University, Manhattan, Kansas 66506, United<br />
States; J.T. Edwards, Oklahoma State University, Dept. of <strong>Plant</strong> and Soil<br />
Sciences, Stillwater, Oklahoma 74078, United States; Liuling Yan, Oklahoma<br />
State University, <strong>Plant</strong> and Soil Sciences, 368 Ag Hall, Stillwater, Oklahoma<br />
74078, United States; F.E. Dowell, USDA-ARS, Grain marketing and Production<br />
Res. Ctr., 1515 College Avenue, Manhattan, Kansas 66502, United States.<br />
Received 08/24/2006.<br />
PI 643133. Triticum aestivum L. subsp. aestivum<br />
Cultivar. Pureline. "GUYMON". PVP 200600257; CV-1018. Pedigree -<br />
Intrada/W189-163W. Released 2005. Guymon most closely resembles the HW<br />
wheat cultivar, Intrada (PI 631402), one of its two parents, on the<br />
basis of kernel size (relatively small), juvenile plant growth habit<br />
(semi-erect) and winter dormancy release pattern (relatively early),<br />
test weight (high), and resistance to wheat soilborne mosaic virus and<br />
susceptibility to current races of stripe rust (caused by Puccinia<br />
striiformis Westend). <strong>Plant</strong> stature is moderately tall, averaging 80 cm<br />
in Oklahoma, or 2 cm taller than Intrada. Unlike Intrada, Guymon has<br />
good straw strength under conditions of significant or severe lodging.<br />
Guymon has higher (19%) grain yield capacity than Intrada when measured<br />
in high-yielding environments free of stripe rust. Based on field<br />
observations in Oklahoma, Guymon is resistant to Wheat soilborne mosaic<br />
and Wheat spindle streak mosaic virus. Based on field observations of<br />
adult plants across Oklahoma through 2006, it shows a resistant reaction<br />
to leaf rust, caused by Puccinia triticina Eriks. Based on greenhouse<br />
observations, Guymon is susceptible to tan spot (Pyrenophora<br />
tritici-repentis) and to powdery mildew (Blumeria graminis f. sp.<br />
tritici), and it shows an intermediate reaction to septoria leaf blotch<br />
(Septoria tritici). It is susceptible to biotypes C and E of the<br />
greenbug (Schizaphis graminum Rondani) and to the Great Plains biotype<br />
of Hessian fly (Mayetiola destructor). Flag leaves of Guymon at the<br />
boot stage are green, recurved, twisted, and non-waxy. Spikes are whit<br />
e-chaffed, awned, oblong, lax, and recurved at harvest-maturity.<br />
Kernels are white, hard-textured, elliptical, and they have a midwide,<br />
shallow crease, angular cheeks, and large germ. Milling quality is<br />
good, dough mixing tolerance is average, and bake loaf volume is<br />
excellent.<br />
157
<strong>The</strong> following were developed by Cascade International Seed Co., Oregon,<br />
United States. Received 08/24/2006.<br />
PI 643134 PVPO. Festuca rubra subsp. commutata Gaudin<br />
Cultivar. "ZODIAC". PVP 200600258.<br />
<strong>The</strong> following were developed by Enza Zaden Beheer B.V., Netherlands. Received<br />
08/24/2006.<br />
PI 643135 PVPO. Lactuca sativa L.<br />
Cultivar. "ANTAGO". PVP 200600260.<br />
<strong>The</strong> following were developed by Rutgers, <strong>The</strong> State University of New Jersey,<br />
New Jersey, United States. Received 08/24/2006.<br />
PI 643136 PVPO. Agrostis stolonifera var. palustris (Huds.) Farw.<br />
Cultivar. "007". PVP 200600263.<br />
<strong>The</strong> following were developed by Seed Research of Oregon, Inc., Corvallis,<br />
Oregon, United States; Rutgers, <strong>The</strong> State University of New Jersey, New<br />
Jersey, United States. Received 08/24/2006.<br />
PI 643137 PVPO. Agrostis stolonifera var. palustris (Huds.) Farw.<br />
Cultivar. "SR 1150". PVP 200600264.<br />
<strong>The</strong> following were developed by Orsetti Seed Company, Inc., Hollister,<br />
California, United States. Received 08/24/2006.<br />
PI 643138 PVPO. Lactuca sativa L.<br />
Cultivar. "RIDGELINE". PVP 200600265.<br />
<strong>The</strong> following were developed by Syngenta Seeds, Junction City, Kansas, United<br />
States. Received 08/24/2006.<br />
PI 643139 PVPO. Triticum aestivum L. subsp. aestivum<br />
Cultivar. "FORAGEMAX"; B980696. PVP 200600266. Pedigree -<br />
L880421/Boranjka.<br />
<strong>The</strong> following were developed by Pure Seed Testing, Inc., Hubbard, Oregon,<br />
United States. Received 08/24/2006.<br />
PI 643140 PVPO. Festuca arundinacea Schreb.<br />
Cultivar. "FURY". PVP 200600267.<br />
<strong>The</strong> following were developed by Cascade International Seed Co., Oregon,<br />
United States. Received 08/24/2006.<br />
PI 643141 PVPO. Bromus hybrid<br />
Cultivar. "BIG FOOT". PVP 200600272. Bromus inermis x beibersteinii.<br />
158
<strong>The</strong> following were developed by WestBred LLC, Bozeman, Montana, United States.<br />
Received 08/24/2006.<br />
PI 643142 PVPO. Triticum aestivum L. subsp. aestivum<br />
Cultivar. "WB-528". PVP 200600273. Pedigree - WestBred 470/Madsen.<br />
<strong>The</strong> following were developed by Texas Agricultural Experiment Station, Texas,<br />
United States. Received 08/24/2006.<br />
PI 643143 PVPO. Triticum aestivum L. subsp. aestivum<br />
Cultivar. "TAM 112"; TX98V9628. PVP 200600274. Pedigree -<br />
U1254-7-9-2-1(TAM200/TA2460)/TXGH10440(TAM105*4/Amigo*4//Largo).<br />
<strong>The</strong> following were developed by Richard L. Cooper, USDA-ARS, Ohio State<br />
University, 1680 Madison, Wooster, Ohio 44691-4096, United States; Anne E.<br />
Dorrance, Ohio State University, OARDC - Department of <strong>Plant</strong> Pathology, 1680<br />
Madison Avenue, Wooster, Ohio 44691-4096, United States; Rouf Mian, USDA-ARS,<br />
Corn and Soybean Research Unit, OARDC, 107-A Williams Hall, 1680 Madison<br />
Avenue, Wooster, Ohio 44691, United States. Donated by Rouf Mian, USDA-ARS,<br />
Corn and Soybean Research Unit, OARDC, 107-A Williams Hall, 1680 Madison<br />
Avenue, Wooster, Ohio 44691, United States. Received 03/04/2008.<br />
PI 643146. Glycine max (L.) Merr.<br />
Cultivar. Pureline. "Prohio". CV-497. Pedigree - Prohio: HC94-81PR X<br />
'A2506', HC94-81PR: 'Charleston' x 'Sprite 87', Charleston: HC74-634RE x<br />
HC78-676; Sprite 87: 'Sprite' x 'Williams 82', A2560 is a high-yielding<br />
cultivar from Asgrow Seed Company. Released 12/21/2006. 'Prohio' soybean<br />
([Glycine max (L.) Merr.]) was developed jointly by the<br />
USDA-Agricultural Research Service and <strong>The</strong> Ohio Agricultural Research<br />
and Development Center (OARDC) in Wooster, OH and was released as a<br />
high-protein high-yielding maturity group IV (relative maturity 4.1) non<br />
Roundup Ready cultivar in December 2006. Prohio is a selection from a<br />
cross between HC94-81PR x 'A2506'. <strong>The</strong> protein contents of Prohio<br />
ranged between 430 to 460 g/kg and its oil contents were between 200 to<br />
210 g/kg. Prohio averaged 102 cm in plant height and had lodging score<br />
of 2.5. Prohio has purple flowers, tawny pubescence, tan pods, dull<br />
yellow seeds with black hilum, and indeterminate growth habit. Prohio<br />
is a high-protein soybean cultivar with high-yield potential,<br />
particularly under high-yielding environments in Ohio.<br />
<strong>The</strong> following were developed by Perry B. Cregan, USDA, ARS, Soybean Genomics<br />
& Improvement Laboratory, Building 006, Room 100, BARC-West, Beltsville,<br />
Maryland 20705-2350, United States; Kim Lewers, USDA, ARS, Bldg. 010A, Rm.<br />
210 Fruit Lab, BARC-West, 10300 Baltimore Ave., Beltsville, Maryland<br />
20705-2350, United States; Qijian Song, USDA-ARS, BARC-W, SGIL, Building 006,<br />
Room 100, Beltsville, Maryland 20705, United States; Benjamin Matthews,<br />
USDA-SGIL, Building 006, Room 118, BARC-West, 10300 Baltimore Avenue,<br />
Beltsville, Maryland 20705, United States; M.H. MacDonald, USDA-ARS, <strong>Plant</strong><br />
Sciences institute, soybean Genomics and improvement Lab., Beltsville,<br />
Maryland 20705, United States. Received 09/12/2006.<br />
PI 643148. Glycine max (L.) Merr.<br />
Cultivar. Pureline. "MINIMAX". REST 643148; CV-489; PVP 200700279.<br />
159
Pedigree - MiniMax is an F9-derived line from the cross (AC Colombe x PI<br />
548240 T263) x PI548650 Nattosan. AC Colombe and Nattosan are Maturity<br />
Group 00, small seeded, while T263 is a donor of df5df5. T263was derived<br />
from Harosoy 63 x PI 257435 (Bernard 1982). <strong>The</strong> cross from which<br />
MiniMax originated was made in the summer of 1998 at Beltsville, MD.<br />
MiniMax was advanced by pedigree inbreeding (F7:9), then by single seed<br />
decent with selection for early maturity, small stature, and small seed<br />
size to the F9 generation in the field and greenhouse at Beltsville, MD.<br />
MiniMax matures in 73 to 85 days in the field at Beltsville, MD (approx.<br />
39o <strong>No</strong>rth latitude) with an average plant height of 22 cm. It is an<br />
indeterminate cultivar with small seed averaging about 5.1 g per 100<br />
seeds and 14 seeds per plant. MiniMax has purple flowers and brown pods<br />
and produces seeds with a yellow seed coat and hilum. It is tolerant to<br />
powdery mildew (Microsphaera diffusa), and is susceptible to soybean<br />
cyst nematode (Heterodera glycines) races 3 and 14. It is susceptible to<br />
Asian soybean rust (Phakopsora pachyrhizi). Seed was harvested from a<br />
single F7:9 plant, bulked and increased. MiniMax as well as the AC<br />
Colombe, T263 and Nattosan parents were characterized with a core set of<br />
13 simple sequence repeat (SSR) loci, i.e. Satt009, Satt038, Satt114,<br />
Satt147, Satt177, Satt191, Satt242, Satt243, Satt294, Satt308, Satt373,<br />
Satt414, and Satt534 (Table 1). <strong>The</strong>se SSR loci were from different<br />
linkage groups and provide unique allelic fingerprints of even closely<br />
related soybean cultivars. Allele sizes were determined on the Applied<br />
Biosystems 3730 DNA Analyzer. <strong>The</strong> allele size of each locus from Minimax<br />
was compared with those from 402 genotypes. A 220 bp allele at the<br />
Satt009 locus is unique to Minimax and is apparently the result of a<br />
mutation.<br />
<strong>The</strong> following were developed by Jerome D. Franckowiak, <strong>No</strong>rth Dakota State<br />
University, Department of <strong>Plant</strong> Sciences, P.O. Box 5051, Fargo, <strong>No</strong>rth Dakota<br />
58105-5051, United States; Richard D. Horsley, <strong>No</strong>rth Dakota State University,<br />
Department of <strong>Plant</strong> Sciences, 166 Loftsgard Hall, Fargo, <strong>No</strong>rth Dakota<br />
58105-5051, United States; P.B. Schwarz, <strong>No</strong>rth Dakota State University, Dept.<br />
of Cereal Science, Fargo, <strong>No</strong>rth Dakota 58105-5051, United States; Stephen<br />
Neate, <strong>No</strong>rth Dakota State University, Department of <strong>Plant</strong> Pathology, 353<br />
Walster Hall, Fargo, <strong>No</strong>rth Dakota 58105, United States. Received 08/22/2006.<br />
PI 643149. Hordeum vulgare L. subsp. vulgare<br />
Cultivar. Pureline. "RAWSON"; ND19119-2; NSGC 17763. CV-333; PVP<br />
200800160. Pedigree - ND15403-3/ND15368//ND16453. Released 2005. Two-row<br />
spring barley.<br />
<strong>The</strong> following were developed by Jerome D. Franckowiak, <strong>No</strong>rth Dakota State<br />
University, Department of <strong>Plant</strong> Sciences, P.O. Box 5051, Fargo, <strong>No</strong>rth Dakota<br />
58105-5051, United States. Received 08/22/2006.<br />
PI 643150. Hordeum vulgare L. subsp. vulgare<br />
Genetic. Pureline. I98-351-2-2; LR 1; NSGC 17764. Pedigree -<br />
Bowman*6/Sudan. Bowman backcross-derived line carrying leaf rust<br />
resistance gene Rph1.a.<br />
PI 643151. Hordeum vulgare L. subsp. vulgare<br />
Genetic. Pureline. I95-266-1; LR 2; NSGC 17765. Pedigree -<br />
Bowman*3/Peruvian. Bowman backcross-derived line carrying leaf rust<br />
resistance gene Rph2.b.<br />
160
PI 643152. Hordeum vulgare L. subsp. vulgare<br />
Genetic. Pureline. I98-372-3-1; LR 3; NSGC 17766. Pedigree -<br />
Bowman*11//CI3410/3.2 uz als. Bowman backcross-derived line carrying<br />
leaf rust resistance gene Rph3.c.<br />
PI 643153. Hordeum vulgare L. subsp. vulgare<br />
Genetic. Pureline. I98-352-8-1; LR 4; NSGC 17767. Pedigree -<br />
Gull/6*Bowman. Bowman backcross-derived line carrying leaf rust<br />
resistance gene Rph4.d.<br />
PI 643154. Hordeum vulgare L. subsp. vulgare<br />
Genetic. Pureline. I98-375-9-1; LR 5; NSGC 17768. Pedigree -<br />
Magnif/8*Bowman. Bowman backcross-derived line carrying leaf rust<br />
resistance gene Rph5.e.<br />
PI 643155. Hordeum vulgare L. subsp. vulgare<br />
Genetic. Pureline. I98-377-2-1; LR 6; NSGC 17769. Pedigree -<br />
Bowman*8/Bolivia. Bowman backcross-derived line carrying leaf rust<br />
resistance gene Rph5.f.<br />
PI 643156. Hordeum vulgare L. subsp. vulgare<br />
Genetic. Pureline. I93-21-1; LR 7; NSGC 17770. Pedigree -<br />
Bowman*8/3/7771//Cebada Capa/MT81995. Bowman backcross-derived line<br />
carrying leaf rust resistance gene Rph7.g.<br />
PI 643157. Hordeum vulgare L. subsp. vulgare<br />
Genetic. Pureline. I98-380-2-2; LR 8; NSGC 17771. Pedigree -<br />
Bowman*8/Egypt 4.<br />
PI 643158. Hordeum vulgare L. subsp. vulgare<br />
Genetic. Pureline. I98-381-5-2; LR 9; NSGC 17772. Pedigree -<br />
Bowman*8/HOR2596. Bowman backcross-derived line carrying leaf rust<br />
resistance gene Rph9.l.<br />
PI 643159. Hordeum vulgare L. subsp. vulgare<br />
Genetic. Pureline. I98-354-1-1; LR 10; NSGC 17773. Pedigree - Clipper<br />
BC8/6*Bowman. Bowman backcross-derived line carrying leaf rust<br />
resistance gene Rph10.o.<br />
PI 643160. Hordeum vulgare L. subsp. vulgare<br />
Genetic. Pureline. I98-355-6-1; LR 11; NSGC 17774. Pedigree -<br />
Bowman*6/Clipper BC67 vigor. Bowman backcross-derived line carrying leaf<br />
rust resistance gene Rph11.p.<br />
PI 643161. Hordeum vulgare L. subsp. vulgare<br />
Genetic. Pureline. I98-382-7-1; LR 12; NSGC 17775. Pedigree -<br />
Bowman*8/Triumph.<br />
PI 643162. Hordeum vulgare L. subsp. vulgare<br />
Genetic. Pureline. I98-383-4-1; LR 13; NSGC 17776. Pedigree -<br />
Bowman*7/PI531849 vigor. Bowman backcross-derived line carrying leaf<br />
rust resistance gene Rph13.x.<br />
PI 643163. Hordeum vulgare L. subsp. vulgare<br />
Genetic. Pureline. I98-384-2-1; LR 14; NSGC 17777. Pedigree -<br />
161
Bowman*5/PI584760. Bowman backcross-derived line carrying leaf rust<br />
resistance gene Rph14.ab.<br />
PI 643164. Hordeum vulgare L. subsp. vulgare<br />
Genetic. Pureline. I98-385-1-1; LR 15; NSGC 17778. Pedigree -<br />
PI355447/8*Bowman. Bowman backcross-derived line carrying leaf rust<br />
resistance gene Rph15.ad.<br />
PI 643165. Hordeum vulgare L. subsp. vulgare<br />
Genetic. Pureline. I98-356-12-2; LR 16; NSGC 17779. Pedigree -<br />
Batna/6*Bowman. Bowman backcross-derived line carrying leaf rust<br />
resistance gene Rph2.j.<br />
PI 643166. Hordeum vulgare L. subsp. vulgare<br />
Genetic. Pureline. I99-255-1; LR 17; NSGC 17780. Pedigree -<br />
PI531841A/6*Bowman. Bowman backcross-derived line carrying leaf rust<br />
resistance gene Rph2.y.<br />
PI 643167. Hordeum vulgare L. subsp. vulgare<br />
Genetic. Pureline. I97-581-4-9; LR 18; NSGC 17781. Pedigree -<br />
Bowman*8/Reka 1. Bowman backcross-derived line carrying leaf rust<br />
resistance gene Rph2.t.<br />
<strong>The</strong> following were developed by Kenneth A. Albrecht, University of Wisconsin,<br />
Department of Agronomy, 242 Moore Hall-Agronomy, Madison, Wisconsin 53706,<br />
United States; Heathcliffe Riday, USDA, ARS, US Dairy Forage Research Center,<br />
1925 Linden Drive West, Madison, Wisconsin 53706, United States. Donated by<br />
Heathcliffe Riday, USDA, ARS, US Dairy Forage Research Center, 1925 Linden<br />
Drive West, Madison, Wisconsin 53706, United States. Received 09/28/2006.<br />
PI 643168. Trifolium ambiguum M. Bieb.<br />
Breeding. KURA1. Pedigree - This material represents the cycle 1<br />
population based on 69 parental plants from the following sources:<br />
ARS2678 (6); Cossack (2); Endura (3); KZ4 (4); MS Persist (1); MS670<br />
(1); NSL86671 (1); ORSyn2 (2); PI258788 (1); PI405122 (1); PI405123 (1);<br />
PI427121 (3); PI427122 (3); PI440672 (1); PI440676 (1); PI440678 (1)<br />
PI440679 (1); PI440682 (1); PI440683 (1) PI440685 (1); PI440686 (1);<br />
PI440689 (1); PI440693 (1); PI440695 (2); PI440697 (1); PI440700 (3);<br />
PI440712 (1); PI604700 (1); PI604720 (2); PI604743 (1); PI604756 (3);<br />
PI604757 (1); PI631896 (1); PI 631899 (1); unknown (7); and WISC1 (5).<br />
USDA, ARS ARIS Release. An autohexaploid (2n=6x=48) rhizomotous<br />
Trifolium ambiguum with white flowers and a delta shaped leafmark.<br />
Genetically broad based selection for increased plant vigor and ability<br />
to spread rhizomotously in a Southern Wisconsin environment.<br />
<strong>The</strong> following were donated by David A. Dierig, USDA, ARS, U.S. Water<br />
Conservation Laboratory, 4331 E. Broadway Rd., Phoenix, Arizona 85040, United<br />
States. Received 11/09/2000.<br />
PI 643169. Lesquerella argyraea (A. Gray) S. Watson<br />
Uncertain. 863; PARL 166.<br />
162
<strong>The</strong> following were collected by Jon Rebman, USDA, ARS, U.S. Water<br />
Conservation Laboratory, 4331 East Broadway, Phoenix, Arizona 85040, United<br />
States. Received 11/09/2002.<br />
PI 643170. Lesquerella fendleri (A. Gray) S. Watson<br />
Wild. 1826; PARL 167. Collected 1999 in Arizona, United States. Just<br />
south of the junction of route 82 and the Elgin road, east of Sonoita.<br />
<strong>The</strong> following were collected by Jon Rebman, USDA, ARS, U.S. Water<br />
Conservation Laboratory, 4331 East Broadway, Phoenix, Arizona 85040, United<br />
States. Donated by David A. Dierig, USDA, ARS, U.S. Water Conservation<br />
Laboratory, 4331 E. Broadway Rd., Phoenix, Arizona 85040, United States.<br />
Received 09/1998.<br />
PI 643171. Lesquerella fendleri (A. Gray) S. Watson<br />
Wild. 1852; PARL 170; W6 20861. Collected 05/26/1993 in Arizona, United<br />
States. Latitude 31° 39' N. Longitude 110° 1' W. Elevation 1449<br />
3.3 miles S of Tombstone on US 80, ca. 0.5 miles S of Walnut Gulch<br />
USDA exper. watershed.<br />
<strong>The</strong> following were collected by Charlotte Christy, USDA, ARS, U.S. Water<br />
Conservation Laboratory, 4331 East Broadway Road, Phoenix, Arizona 85040,<br />
United States. Donated by David A. Dierig, USDA, ARS, U.S. Water Conservation<br />
Laboratory, 4331 E. Broadway Rd., Phoenix, Arizona 85040, United States.<br />
Received 09/1998.<br />
PI 643172. Lesquerella lasiocarpa (Hook. ex A. Gray) S. Watson<br />
Wild. 2217; PARL 172; W6 20841. Collected 1994 in Texas, United States.<br />
Latitude 28° 38' N. Longitude 99° 23' W. Elevation 198 m. W of<br />
Dilley; Rte. 85, 1.2 miles E of Dimmit County.<br />
PI 643173. Lesquerella lasiocarpa (Hook. ex A. Gray) S. Watson<br />
Wild. 2228; PARL 174; W6 20840. Collected 1994 in Texas, United States.<br />
Latitude 27° 35' N. Longitude 98° 34' W. Elevation 137 m. FM<br />
2295, 5.5 miles E of jct. Rte. 16/FM 2295, 9.1 miles W on jct. FM<br />
2295/Rte. 359 at Benavides.<br />
<strong>The</strong> following were collected by David A. Dierig, USDA, ARS, U.S. Water<br />
Conservation Laboratory, 4331 E. Broadway Rd., Phoenix, Arizona 85040, United<br />
States; Jon Rebman, USDA, ARS, U.S. Water Conservation Laboratory, 4331 East<br />
Broadway, Phoenix, Arizona 85040, United States. Donated by David A. Dierig,<br />
USDA, ARS, U.S. Water Conservation Laboratory, 4331 E. Broadway Rd., Phoenix,<br />
Arizona 85040, United States. Received 09/1998.<br />
PI 643174. Lesquerella lindheimeri (A. Gray) S. Watson<br />
Wild. 2232; PARL 175; W6 20842. Collected 1994 in Texas, United States.<br />
Latitude 27° 40' N. Longitude 97° 40' W. Elevation 107 m. FM<br />
892; 0.1 miles N of jct. 892/665 & 4.4 miles S of jct. FM 892/2826; SW<br />
of Corpus Christi.<br />
<strong>The</strong> following were donated by David A. Dierig, USDA, ARS, U.S. Water<br />
Conservation Laboratory, 4331 E. Broadway Rd., Phoenix, Arizona 85040, United<br />
States. Received 11/09/2000.<br />
163
PI 643175. Lesquerella mexicana Rollins<br />
Wild. 3344; PARL 177. Collected 1999 in Coahuila, Mexico.<br />
<strong>The</strong> following were collected by David A. Dierig, USDA, ARS, U.S. Water<br />
Conservation Laboratory, 4331 E. Broadway Rd., Phoenix, Arizona 85040, United<br />
States; Andrew Salywon, U.S. Water Conservation Laboratory, 4331 E. Broadway,<br />
Phoenix, Arizona 85040, United States. Received 11/09/2000.<br />
PI 643176. Lesquerella fendleri (A. Gray) S. Watson<br />
Wild. 4002; PARL 179. Collected 1999 in Coahuila, Mexico. Latitude<br />
28° 7' 54" N. Longitude 101° 7' 22" W. Elevation 1301 m. 7km<br />
south km post 150 Hwy 57 south of Gordornices. Vegetattion: Acacia,<br />
Prosopis, Yucca, Leucophyllium and grasses. Limestone soils.<br />
PI 643177. Lesquerella fendleri (A. Gray) S. Watson<br />
Wild. 4005; PARL 181. Collected 1999 in Coahuila, Mexico. Latitude<br />
28° 44' 19" N. Longitude 100° 54' 45" W. Elevation 1100 m.<br />
42.6km <strong>No</strong>rthwest Allenda, Hwy 29 by Rancho A La Fragua. Vegetation:<br />
Acacia, Proposis, Leucophyllium, Yucca. Limestone soils.<br />
PI 643178. Lesquerella argyraea (A. Gray) S. Watson<br />
Wild. 4014; PARL 184. Collected 1999 in Coahuila, Mexico. White<br />
distrurbed roadside and West of Hwy just south of junction to Chuatomac<br />
& Junction 4.5 miles South Hwy 54 on hwy 57 libre at 233km marker post.<br />
Larrea, Clindropuntia imbricata, Prosopis vegetation.<br />
PI 643179. Lesquerella fendleri (A. Gray) S. Watson<br />
Wild. 4016; PARL 185. Collected 1999 in Zacatecas, Mexico. Latitude<br />
24° 22' 39" N. Longitude 101° 23' 19" W. Elevation 1840 m. Hwy<br />
54 28.6km South of Concepcion del Oro Westside of Hwy. small rocky<br />
drainage, on thin soil on limestone rock just <strong>No</strong>rth of km 212. Larrea,<br />
Yucca, Prosopis, Acacia, Agave, Cylindropuntia, Platyopuntia vegetation<br />
assoc.<br />
PI 643180. Lesquerella schaffneri (S. Watson) S. Watson<br />
Wild. 4030; PARL 187. Collected 1999 in Durango, Mexico. Latitude<br />
22° 37' 6" N. Longitude 100° 29' 17" W. Elevation 1756 m. 4km<br />
East on road to Guadalcyar East of Charco Blnco off Hwy 57 <strong>No</strong>rth of San<br />
Luis Potesi.<br />
<strong>The</strong> following were collected by Michael Plotkin, University of California,<br />
Davis, <strong>Plant</strong> Biology, 5346 Storer Hall, Davis, California 96161, United<br />
States; Maria M. Jenderek, USDA, ARS, National Arid Land <strong>Plant</strong> Genetic,<br />
<strong>Resources</strong> Unit, Parlier, California 93648, United States; Jerry Serimian,<br />
USDA, ARS, National Arid Land <strong>Plant</strong> Genetic, <strong>Resources</strong> Unit, Parlier,<br />
California 93648, United States. Received 05/03/2004.<br />
PI 643181. Limnanthes sp.<br />
Wild. PARL 423. Collected 04/16/2004 in California, United States.<br />
Latitude 39° 22' 24" N. Longitude 121° 19' 1" E. East of Chico,<br />
CA, <strong>No</strong>rth Hwy 70, South Cherokee Raod. Gated cow pasture. brown seed.<br />
PI 643182. Limnanthes douglasii subsp. nivea (C. T. Mason) C. T. Mason<br />
Wild. PARL 424. Collected 04/16/2004 in California, United States.<br />
164
Latitude 39° 21' 12" N. Longitude 121° 19' 38" E. East of Chico,<br />
CA, <strong>No</strong>rth Hwy 70, South Cherokee Raod. Open cow pasture. brown seed.<br />
<strong>The</strong> following were collected by Maria M. Jenderek, USDA, ARS, National Arid<br />
Land <strong>Plant</strong> Genetic, <strong>Resources</strong> Unit, Parlier, California 93648, United States;<br />
Jerry Serimian, USDA, ARS, National Arid Land <strong>Plant</strong> Genetic, <strong>Resources</strong> Unit,<br />
Parlier, California 93648, United States; Gary L. Smith, USDA, ARS, National<br />
Arid Land <strong>Plant</strong> Genetic, <strong>Resources</strong> Unit, Parlier, California 93648, United<br />
States. Received 05/03/2004.<br />
PI 643183. Limnanthes douglasii subsp. rosea (Hartw. ex Benth.) C. T. Mason<br />
Wild. PARL 425. Collected 05/03/2004 in California, United States.<br />
Latitude 39° 28' 19" N. Longitude 121° 30' 46" E. Elevation 73<br />
m. Airport, Chico, CA. light brown, light tan seeds.<br />
PI 643184. Limnanthes douglasii subsp. rosea (Hartw. ex Benth.) C. T. Mason<br />
Wild. PARL 426. Collected 05/03/2004 in California, United States.<br />
Latitude 39° 28' 14" N. Longitude 121° 30' 44" E. Elevation 61<br />
m. Airport, Chico, CA. light brown, light tan seeds.<br />
PI 643185. Limnanthes douglasii subsp. rosea (Hartw. ex Benth.) C. T. Mason<br />
Wild. PARL 427. Collected 05/03/2004 in California, United States.<br />
Latitude 39° 28' 35" N. Longitude 121° 30' 40" E. Elevation 51<br />
m. Airport, Chico, CA. light brown, light tan seeds.<br />
PI 643186. Limnanthes douglasii subsp. rosea (Hartw. ex Benth.) C. T. Mason<br />
Wild. PARL 428. Collected 05/03/2004 in California, United States.<br />
Latitude 39° 28' 9" N. Longitude 121° 30' 38" E. Elevation 52 m.<br />
Airport, Chico, CA. light brown, light tan seeds.<br />
PI 643187. Limnanthes alba Hartw. ex Benth. subsp. alba<br />
Wild. PARL 429. Collected 05/03/2004 in California, United States.<br />
Latitude 38° 32' 49" N. Longitude 121° 11' 26" E. Elevation 34<br />
m. Hwy 65, about 3 miles north of Lincoln, CA. Housing development.<br />
dark brown seeds.<br />
PI 643188. Limnanthes alba Hartw. ex Benth. subsp. alba<br />
Wild. PARL 430. Collected 05/03/2004 in California, United States.<br />
Latitude 38° 34' 6" N. Longitude 121° 12' 48" E. Elevation 29 m.<br />
Hwy 65, about 5 miles north of Lincoln, CA. Drainage ditch. brown seeds<br />
.<br />
PI 643189. Limnanthes alba Hartw. ex Benth. subsp. alba<br />
Wild. PARL 431. Collected 05/03/2004 in California, United States.<br />
Latitude 38° 34' 41" N. Longitude 121° 13' 1" E. Elevation 23 m.<br />
Hwy 65, about 5.5 miles north of Lincoln, CA. Meadow swale. brown seeds<br />
.<br />
PI 643190. Limnanthes alba Hartw. ex Benth. subsp. alba<br />
Wild. PARL 432. Collected 05/03/2004 in California, United States.<br />
Latitude 38° 34' 48" N. Longitude 121° 13' 10" E. Elevation 18<br />
m. Hwy 65, south of Sheridan, CA. Meadow swale. brown and light brown<br />
seeds.<br />
PI 643191. Limnanthes alba Hartw. ex Benth. subsp. alba<br />
Wild. PARL 433. Collected 05/03/2004 in California, United States.<br />
165
Latitude 38° 35' 28" N. Longitude 121° 13' 46" E. Elevation 18<br />
m. Hwy 65, north of Sheridan, CA. Meadow swale, vernal pool. brown<br />
seeds.<br />
PI 643192. Limnanthes alba Hartw. ex Benth. subsp. alba<br />
Wild. PARL 434. Collected 05/03/2004 in California, United States.<br />
Latitude 39° 2' 5" N. Longitude 121° 18' 7" E. Elevation 6 m.<br />
Hwy 65, north of Wheatland, CA. Vernal pool in a pasture. brown seeds.<br />
Unknown source. Received 05/03/2004.<br />
PI 643193. Limnanthes sp.<br />
Uncertain. PARL 439.<br />
<strong>The</strong> following were developed by David S. Marshall, Texas A&M University,<br />
Research & Extension Center, 17360 Coit Road, Dallas, Texas 75252-6599,<br />
United States. Donated by Russell L. Sutton, Texas A&M University, Texas A&M<br />
University Res. & Ext. Center, 17360 Coit Road, Dallas, Texas 75252, United<br />
States. Received 05/20/2003.<br />
PI 643194. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. TX98D724; BX86D006-7-23-7-42-4; NSGC 8876. Pedigree<br />
- TAMBAR402/Dundy//Perry/VA73-42-19.<br />
PI 643195. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. TX98D746; BX90D006-20-1-8; NSGC 8877. Pedigree -<br />
Wysor//TAMBAR 402/TX75D1966.<br />
PI 643196. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. TX99D590; 97ST3204-6; NSGC 8884. Pedigree -<br />
OK92910/OK87819.<br />
PI 643197. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. TX02D219; 97ST3229-5-11; NSGC 8913. Pedigree -<br />
6B80-761/G144-8.<br />
PI 643198. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. TX02D233; SC880248-P11; NSGC 8925. Pedigree -<br />
VA72-42-45/SC793556/CI 2457.<br />
PI 643199. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. TX02D234; SC880248-P23; NSGC 8926. Pedigree -<br />
VA72-42-45/SC793556/CI 2457.<br />
PI 643200. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. TX02D237; SC880248-P43; NSGC 8929. Pedigree -<br />
VA72-42-45/SC793556/CI 2457.<br />
PI 643201. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. TX02D239; SC880248-P63; NSGC 8931. Pedigree -<br />
VA72-42-45/SC793556/CI 2457.<br />
PI 643202. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. TX02D303; SC860972-D1-110; NSGC 8978. Pedigree -<br />
VA72-42-45/SC793556/CI2457.<br />
166
PI 643203. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. TX02D311; 97ST2786-2; NSGC 8984. Pedigree -<br />
B2601/VA93-42-48.<br />
PI 643204. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. TX01D112; 97ST2626-P-36; NSGC 9010. Pedigree -<br />
OK95939/OK93806.<br />
PI 643205. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. TX01D131; 97ST2867-P-24 gms; NSGC 9029. Pedigree -<br />
Russell/Perkins//Plaisant.<br />
PI 643206. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. TX01D136; 97ST2902-P-16; NSGC 9034. Pedigree -<br />
ND11116/OK84817.<br />
PI 643207. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. TX01D221; 97STGH855-P-16; NSGC 9119. Pedigree -<br />
87AB9478/WA1997-87//M75/NE86594.<br />
PI 643208. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. TX01D236; 97STGH867-P-49; NSGC 9134. Pedigree -<br />
B1614/92AB561.<br />
<strong>The</strong> following were developed by Jerome D. Franckowiak, <strong>No</strong>rth Dakota State<br />
University, Department of <strong>Plant</strong> Sciences, P.O. Box 5051, Fargo, <strong>No</strong>rth Dakota<br />
58105-5051, United States. Received 03/20/2006.<br />
PI 643209. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. NDB134; NSGC 17782. Pedigree -<br />
Vantage/Jet//Vantmor/3/2*Parkland/4/Dickson.<br />
PI 643210. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. NDB135; NSGC 17783. Pedigree - Dickson/3/CIho<br />
4738//Trail/UM 570-2.<br />
PI 643211. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. NDB136; NSGC 17784. Pedigree - Traill/ND<br />
B112//Dickson.<br />
PI 643212. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. NDB138; NSGC 17785. Pedigree - Dickson/3/CIho<br />
4738//Trail/UM 570-2.<br />
PI 643213. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. A64; NSGC 17786. Pedigree - Foster/CIho 4196.<br />
<strong>The</strong> following were developed by Jerome D. Franckowiak, <strong>No</strong>rth Dakota State<br />
University, Department of <strong>Plant</strong> Sciences, P.O. Box 5051, Fargo, <strong>No</strong>rth Dakota<br />
58105-5051, United States; Brian J. Steffenson, <strong>No</strong>rth Dakota State<br />
University, Department of <strong>Plant</strong> Pathology, P.O. Box 5012, Fargo, <strong>No</strong>rth Dakota<br />
58105-5012, United States. Received 03/20/2006.<br />
167
PI 643214. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. CI4196-2; CIho4196-2; NSGC 17787. Pedigree -<br />
selection from CIho 4196.<br />
<strong>The</strong> following were developed by Jerome D. Franckowiak, <strong>No</strong>rth Dakota State<br />
University, Department of <strong>Plant</strong> Sciences, P.O. Box 5051, Fargo, <strong>No</strong>rth Dakota<br />
58105-5051, United States. Received 03/20/2006.<br />
PI 643<strong>215</strong>. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. F103-61; NSGC 17788. Pedigree - Foster/Zhedar<br />
2//ND9712.<br />
PI 643216. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. FR819-77-1; NSGC 17789. Pedigree - Beacon/ND497.<br />
PI 643217. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. FR926-77; NSGC 17790. Pedigree -<br />
3853-69-4//ND1381/Beacon.<br />
PI 643218. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. I89-294-2; NSGC 17791. Pedigree - Bowman*4//Multiple<br />
Recessive/7/Wolfe chrom 1*3/CIho<br />
934/3/ND5835//ND4064/ND2199/5/MN1111/6/3*Bowman.<br />
PI 643219. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. ND2679-4-2; NSGC 17792. Pedigree -<br />
Klages//Fergus/<strong>No</strong>rdic.<br />
PI 643220. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. ND2685; NSGC 17793. Pedigree - Klages//Fergus/<strong>No</strong>rdic.<br />
PI 643221. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. ND3962; NSGC 17794. Pedigree - Domen//Zephyr/Bonanza.<br />
PI 643222. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. ND4064-1(-T); NSGC 17795. Pedigree -<br />
Coho//Kristina/Bonanza.<br />
PI 643223. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. ND4064-3(+T); NSGC 17796. Pedigree -<br />
Coho//Kristina/Bonanza.<br />
PI 643224. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. ND4642; NSGC 17797. Pedigree - Vanguard/3/H316/ND<br />
B137//Bonanza.<br />
PI 643225. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. ND4698; NSGC 17798. Pedigree - Vanguard*2/3/H316/ND<br />
B137//Bonanza.<br />
PI 643226. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. ND4758-1; NSGC 17799. Pedigree -<br />
Klages//4/Vanguard/3/H316/ND B137//Bonanza.<br />
PI 643227. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. ND4856; NSGC 17800. Pedigree - Klages//H316/ND B130.<br />
168
PI 643228. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. ND4880; NSGC 17801. Pedigree - Klages/3/H316/ND<br />
B137//Bonanza.<br />
PI 643229. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. ND4954; NSGC 17802. Pedigree -<br />
Klages//Fergus/<strong>No</strong>rdic/3/Manker/4/Hector.<br />
PI 643230. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. ND4994-15; NSGC 17803. Pedigree -<br />
Klages//Fergus/<strong>No</strong>rdic/3/Bonanza//ND B138/C61-24-21-1/4/Hector.<br />
PI 643231. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. ND4998; NSGC 17804. Pedigree -<br />
Klages//Fergus/<strong>No</strong>rdic/3/Bonanza//ND B138/C61-24-21-1/4/Hector.<br />
PI 643232. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. ND5021-3; NSGC 17805. Pedigree - H316/ND<br />
B130/3/Klages//Fergus/<strong>No</strong>rdic/4/Hector.<br />
PI 643233. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. ND5096-2; NSGC 17806. Pedigree -<br />
Klages//Fergus/<strong>No</strong>rdic/6/Betzes//CIho<br />
5791/2*Parkland/3/Betzes/Piroline/4/Akka/5/Centenial.<br />
PI 643234. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. ND5692; NSGC 17807. Pedigree -<br />
Klages//Fergus/<strong>No</strong>rdic/3/702-10//Summit.<br />
PI 643235. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. ND5698-2; NSGC 17808. Pedigree -<br />
Klages//Fergus/<strong>No</strong>rdic/3/702-10//Faifield.<br />
PI 643236. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. ND5835; NSGC 17809. Pedigree - Pauline/Karl.<br />
PI 643237. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. ND5883; NSGC 17810. Pedigree -<br />
Clipper/6/Betzes//CIho<br />
5791/2*Parkland/3/Betzes/Piroline/4/Akka/5/Centenial.<br />
PI 643238. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. ND5976; NSGC 17811. Pedigree - Maris<br />
Concord/Klages/3/Klages//Fergus/<strong>No</strong>rdic.<br />
PI 643239. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. ND7014; NSGC 17812. Pedigree -<br />
Domen//Zephyr/Bonanza/4/Klages//Fergus/<strong>No</strong>rdic/3/Manker/4/Hector.<br />
PI 643240. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. ND7015; NSGC 17813. Pedigree -<br />
Domen//Zephyr/Bonanza/4/Klages//Fergus/<strong>No</strong>rdic/3/Manker/4/Hector.<br />
PI 643241. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. ND7085; NSGC 17814. Pedigree - H316/ND<br />
B130/3/Klages//Fergus/<strong>No</strong>rdic/4/Hector/5/Multum/ND1351//Karl.<br />
169
PI 643242. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. ND7159; NSGC 17815. Pedigree -<br />
Klages//Fergus/<strong>No</strong>rdic/3/ND156/4/Klages//Fergus/<strong>No</strong>rdic/3/Bonanza//ND<br />
B138/C61-24-21-1/4/Hector.<br />
PI 643243. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. ND7534; NSGC 17816. Pedigree -<br />
Fairfield/3/Klages/ND1351//CM 72.<br />
PI 643244. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. ND7556; NSGC 17817. Pedigree -<br />
<strong>No</strong>rbert/4/Klages//H316/ND B130/4/Manker/Karl/M18 (M18=Larker*7/Br.<br />
5750-2//M1/Dicksn).<br />
PI 643245. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. ND7819; NSGC 17818. Pedigree -<br />
Klages/ND3103//ND2678-7/5/Karl/4/Vanguard*2/3/H316/ND B137//Bonanza.<br />
PI 643246. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. ND8742; NSGC 17819. Pedigree - ND586/CIho<br />
2376//ND4880/3/ND2674/ND2679-4.<br />
PI 643247. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. ND8763; NSGC 17820. Pedigree -<br />
Harrington/6/Klages//Fergus/<strong>No</strong>rdic/3/702-10//Summit/5/Robust.<br />
PI 643248. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. ND8830; NSGC 17821. Pedigree -<br />
Ellice/5/Klages/3/H316/ND B137//Bonanza/4/Multum/ND1351//Karl.<br />
PI 643249. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. ND8923; NSGC 17822. Pedigree -<br />
S74232/TR201//TR207/3/ND7015.<br />
PI 643250. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. ND9034; NSGC 17823. Pedigree -<br />
ND6069//Karl/ND4698/3/Bowman.<br />
PI 643251. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. ND9147; NSGC 17824. Pedigree - Maris<br />
Concord/Klages//ND2679-4/3/ND4853/ND4998.<br />
PI 643252. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. ND9163; NSGC 17825. Pedigree - ND5021/ND6034//Bowman<br />
sib.<br />
PI 643253. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. ND9870; NSGC 17826. Pedigree - ND3692/ND4954//Bowman<br />
sib.<br />
PI 643254. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. ND10232; NSGC 17827. Pedigree - Stein/4/ND586/CIho<br />
2376//ND4880/3/ND2674/ND2679-4.<br />
170
PI 643255. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. ND10235; NSGC 17828. Pedigree - Stein/4/ND586/CIho<br />
2376//ND4880/3/ND2674/ND2679-4.<br />
PI 643256. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. ND10242; NSGC 17829. Pedigree -<br />
Bearpaw/3/Nklages/ND1351//ND6034/4/Bowman sib.<br />
PI 643257. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. ND10270; NSGC 17830. Pedigree -<br />
Harrington//ND5692/Robust/3/Bowman.<br />
PI 643258. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. ND10277; NSGC 17831. Pedigree -<br />
Ellice//ND4873/ND6034/3/Bowman.<br />
PI 643259. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. ND10278; NSGC 17832. Pedigree -<br />
Ellice//ND4873/ND6034/3/Bowman.<br />
PI 643260. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. ND10419; NSGC 17833. Pedigree -<br />
Harrington//ND4758/M37/3/Bowman/4/Pauline/Karl.<br />
PI 643261. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. ND11231-01; NSGC 17834. Pedigree -<br />
ND5021/ND6034//Bowman sib/3/<strong>No</strong>rbert//ND4856/M37.<br />
PI 643262. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. ND11231-06; NSGC 17835. Pedigree -<br />
ND5021/ND6034//Bowman sib/3/<strong>No</strong>rbert//ND4856/M37.<br />
PI 643263. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. ND11853-3; NSGC 17836. Pedigree -<br />
<strong>No</strong>rbert//ND4856/M37/3/ND7014/ND4994-15.<br />
PI 643264. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. ND11883; NSGC 17837. Pedigree -<br />
Bowman//ND5835/ND5377/3/Camas (ND5377 = Glenn/Karl).<br />
PI 643265. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. ND11894; NSGC 17838. Pedigree -<br />
Gitane//ND4642/Robust/3/Bearpaw/4/TR218/ND7015/3/<strong>No</strong>rbert//ND4856/M37.<br />
PI 643266. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. ND11993; NSGC 17839. Pedigree - ND7015//TR<strong>215</strong>/Bowman<br />
sib/3/ND7085/Bowman sib.<br />
PI 643267. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. ND12567; NSGC 17840. Pedigree -<br />
<strong>No</strong>rbert/ND5424/4/Ellice/3/Wa8953-75//ND2674/FR926-77/5/ND7085/Bowman sib<br />
(ND5424 = Glenn/Karl) (Wa8953-75 = Klages/Zephyr).<br />
PI 643268. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. ND12671; NSGC 17841. Pedigree -<br />
Bearpaw//ND7069/ND4994-15/4/ND586/CI2376//ND4880/3/3*Bowman.<br />
171
PI 643269. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. ND13076; NSGC 17842. Pedigree - ND586/CIho<br />
2376//ND4880/3/3*Bowman/4/Bowman*2/3/ND7771??Cebada Capa/MT81195.<br />
PI 643270. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. ND13083; NSGC 17843. Pedigree -<br />
ND7819/Bowman/3/ND3715/ND4064//ND7085.<br />
PI 643271. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. ND13100; NSGC 17844. Pedigree - CIho 9214/3/Bowman<br />
sib//Masurka/ND5698/4/ND8763/Bowman.<br />
PI 643272. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. ND13111; NSGC 17845. Pedigree - ND7819/Bowman//AC<br />
Oxbow.<br />
PI 643273. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. ND13162-2; NSGC 17846. Pedigree -<br />
ND7015//ND7534/Bowman/3/ND8763/Bowman.<br />
PI 643274. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. ND13296; NSGC 17847. Pedigree -<br />
Harrington//ND4758/M37/3/Bowman/4/ND5835/5/ND7819/Bowman/6/AC Oxbow.<br />
PI 643275. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. ND13297; NSGC 17848. Pedigree -<br />
Harrington//ND4758/M37/3/Bowman/4/ND5835/5/ND7819/Bowman/6/AC Oxbow.<br />
PI 643276. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. ND13300-1; NSGC 17849. Pedigree - Bowman*2/Birgitta<br />
mutant//TR479/ND8742.<br />
PI 643277. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. ND13890-1; NSGC 17850. Pedigree -<br />
TR479/ND8742//Logan sib.<br />
PI 643278. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. ND14016; NSGC 17851. Pedigree -<br />
ND7085/ND4994-15//ND7556/3/TR479/ND8742//Logan sib.<br />
PI 643279. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. ND14599; NSGC 17852. Pedigree -<br />
(ND8830/Bowman)*2/Shyri.<br />
PI 643280. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. ND14636; NSGC 17853. Pedigree - ND9882/Camas//Logan<br />
sib.<br />
PI 643281. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. ND14651; NSGC 17854. Pedigree -<br />
ND8830/Bowman//Shyri/3/Logan sib/Shyri.<br />
PI 643282. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. ND14695; NSGC 17855. Pedigree -<br />
ND10242/4/ND586/CI2376//ND4880/3/3*Bowman/5/ND10071//ND8923/ND7556.<br />
172
PI 643283. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. ND14701; NSGC 17856. Pedigree -<br />
ND10242/4/ND586/CI2376//ND4880/3/3*Bowman/5/ND10071//ND8923/ND7556.<br />
PI 643284. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. ND14715; NSGC 17857. Pedigree -<br />
TR479/ND8742/4/ND586/CIho<br />
2376//ND4880/3/4*Bowman/5/ND10071//ND8923/ND7556.<br />
PI 643285. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. ND14753; NSGC 17858. Pedigree -<br />
TR479/ND8742/4/ND586/CIho<br />
2376//ND4880/3/4*Bowman/5/ND10071//ND8923/ND7556.<br />
PI 643286. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. ND14760; NSGC 17859. Pedigree - ND586/CIho2376//<br />
ND4880/3/4*Bowman/4/CMB84A-1651/5/ND8830/Bowman (Eldo"S" =<br />
PO/3/KI/3*BA//MC/4/80.5015/5/Gloria"S"/Come"S" ).<br />
PI 643287. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. ND15062; NSGC 17860. Pedigree -<br />
ND10232/5/ND586/CIho2376// ND4880/4/4*Bowman/6/Bowman/Majorana.<br />
PI 643288. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. ND15079; NSGC 17861. Pedigree -<br />
Bowman/Majorana//Logan sib (Majorana =<br />
Mola"S"/4/Brea"S"/DL70//Mozdosky/3/Ari/Kristina//M66.85).<br />
PI 643289. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. ND15147; NSGC 17862. Pedigree - Logan sib/TR231<br />
(TR231 = AC Oxbow/Manley).<br />
PI 643290. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. ND15238; NSGC 17863. Pedigree -<br />
ND7085/ND4994-15//ND7556/3/ND13076/Shyri.<br />
PI 643291. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. ND15368; NSGC 17864. Pedigree - ND9035/ND9856/3/CIho<br />
9214/ND8671//ND10270.<br />
PI 643292. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. ND15403; NSGC 17865. Pedigree - Logan<br />
sib/3/ND10419//ND9034/AC Oxbow.<br />
PI 643293. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. ND15409; NSGC 17866. Pedigree - ND7556/ND9870//TR231<br />
(TR231 = AC Oxbow/Manley).<br />
PI 643294. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. ND15443; NSGC 17867. Pedigree -<br />
ND9999/ND8972//Azafran ( Azafran =Shyri//Gloria/Copal/3/Shyri/Grit).<br />
PI 643295. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. ND15451; NSGC 17868. Pedigree -<br />
ND9035/ND9856/6/ND586/CIho2376// ND4880/3/4*Bowman/4/Eldo"S"/5/ND10278.<br />
173
PI 643296. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. ND15462; NSGC 17869. Pedigree -<br />
ND9035/ND9856/6/ND586/CIho2376// ND4880/3/4*Bowman/4/Eldo"S"/5/ND10279.<br />
PI 643297. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. ND15468; NSGC 17870. Pedigree -<br />
ND10071//ND7556/Bowman/3/ND10235/Logan sib.<br />
PI 643298. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. ND15509; NSGC 17871. Pedigree - Logan<br />
sib/6/Bowman*10/Mult. Dom./6/Logan sib/6/Mult. Dom./Bowman//BGS<br />
1005/3/3*Bowman/4/ND11177/5/ND10341/3/Bowman*4//Estate/3.2 Multi.<br />
Recess. Marker. Black lemma.<br />
PI 643299. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. ND15537; NSGC 17872. Pedigree - ND10419//ND9034/AC<br />
Oxbow/4/Higuerilla*2/Gobernadora/3/Bowman*2/DWS1008//ND1023.<br />
PI 643300. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. ND15562; NSGC 17873. Pedigree -<br />
ND10235/ND11231/5/ND10242/4/ND586/CI2376//ND4880/3/3*Bowman/4/Azafran.<br />
PI 643301. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. ND16050; NSGC 17874. Pedigree -<br />
ND11224//ND10235/ND11231/3/Gobernadora.<br />
PI 643302. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. ND16092-2; NSGC 17875. Pedigree - ND10419//ND9034/AC<br />
Oxbow/3/ND12671/ND11894.<br />
PI 643303. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. ND16453; NSGC 17876. Pedigree -<br />
ND10122/ND10270/Logan sib//Majorana.<br />
PI 643304. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. ND16461; NSGC 17877. Pedigree - ND10419//ND9034/AC<br />
Oxbow/6/ND586/CIho2376// ND4880/3/4*Bowman/4/Eldo"S"/5/ND10278. Low<br />
protein.<br />
PI 643305. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. ND16462; NSGC 17878. Pedigree - ND10419//ND9034/AC<br />
Oxbow/6/ND586/CIho2376// ND4880/3/4*Bowman/4/Eldo"S"/5/ND10279. Low<br />
protein.<br />
PI 643306. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. ND16523; NSGC 17879. Pedigree - CDC<br />
Dolly//ND10122/ND10270.<br />
PI 643307. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. ND16680; NSGC 17880. Pedigree -<br />
ND10277*2/Shyri/8/Black<br />
Bowman/6/ND7556/5/ND6869/Crystal/4/ND5835//ND4064/ND2199/3/BowmanND/6/Lo<br />
gan sib/7/Zhedar 1 (Black Bowman = Multiple Dominant/Bowman//BGS<br />
1005/3*Bowman).<br />
174
PI 643308. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. ND16723; NSGC 17881. Pedigree -<br />
??/4/Stander/3/ND10419//ND9034/AC Oxbow.<br />
PI 643309. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. ND17266; NSGC 17882. Pedigree - Bowman/PC84//Logan<br />
sib/3/Conlon.<br />
PI 643310. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. ND17274; NSGC 17883. Pedigree -<br />
Conlon/3/ND11246//ND13076/Shyri.<br />
PI 643311. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. ND17291; NSGC 17884. Pedigree -<br />
ND10277*2/Shyri//ND12567/<strong>No</strong>rte?a Carumba.<br />
PI 643312. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. ND17293-1; NSGC 17885. Pedigree -<br />
ND10277/Shyri//ND11231/Shyri/3/ND13254//Bowman/PC84.<br />
PI 643313. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. ND17437; NSGC 17886. Pedigree -<br />
ND13296//CMB85-533-H/ND13300/3/ND13254//Bowman/PC84 (CMB85-533<br />
=Higuerilla*2/Gobernadora).<br />
PI 643314. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. ND17470; NSGC 17887. Pedigree -<br />
ND13154//3/ND10277/Shyri//Logan sib/Shyri//7/ND11231-12/6/Multiple<br />
Dominant/4*Bowman/4/ND11177/5/ND10341/Gle.<br />
PI 643315. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. ND18076; NSGC 17888. Pedigree -<br />
ND12567/Azafran/3/Bowman/PC84//ND11231-12.<br />
PI 643316. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. ND18172-1; NSGC 17889. Pedigree -<br />
ND11231-6/TR231/4/Foster/Zhedar 2//ND9712/3/ND11883/ND11231.<br />
PI 643317. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. ND18187; NSGC 17890. Pedigree -<br />
ND10232/3/Bowman*4//Estate/3.2 Multiple Marker/4/ND11853/5/ND11968/Logan<br />
sib//Ruth/Laurel (ND11968 = Camus//3/Bowman//ND5835/ND5377)).<br />
PI 643318. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. ND18204; NSGC 17891. Pedigree -<br />
ND13154/ND13897/4/ND13296//CMB85-533-H/ND13300/3/ND13254//Bowman/Majoran<br />
a.<br />
PI 643319. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. ND18341; NSGC 17892. Pedigree -<br />
ND11231-1/ND13297/3/Foster/Gobernadora//ND9712/4/Horny<br />
Peseky//ND11883/ND11231.<br />
PI 643320. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. ND18365-1; NSGC 17893. Pedigree -<br />
Merit//ND11231-1/ND13297.<br />
175
PI 643321. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. ND18370; NSGC 17894. Pedigree -<br />
Merit//ND11231-1/ND13297.<br />
PI 643322. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. ND18380-1; NSGC 17895. Pedigree -<br />
ND13296/5/ND10232/4/ND586/CI2376//ND4880/3/4*Bowman/6/Stander/7/ND10235/<br />
Logan sib/8/ND10235/ND11231/3/Q21861/Chervon.<br />
PI 643323. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. ND18413-1; NSGC 17896. Pedigree - Horny<br />
Peseky//ND11883/ND11231/4/ZAU 2/3/ND13254//Bowman/PC84.<br />
PI 643324. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. ND18998; NSGC 17897. Pedigree -<br />
ND12567/ND11853/5/ND13890/4/Bowman*4/Multiple<br />
Recessive/3/ND13076/6/ND15403.<br />
PI 643325. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. ND19012; NSGC 17898. Pedigree -<br />
Logan/3/ND13296/ND14760//ND11853-1/TR231.<br />
PI 643326. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. ND19040; NSGC 17899. Pedigree -<br />
ND13082/ND14760/3/ND13083/ND13100//ND13297/ND14701.<br />
PI 643327. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. ND19053-1; NSGC 17900. Pedigree -<br />
ND14016/Gobernadora//ND13296/ND14760.<br />
PI 643328. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. ND19088; NSGC 17901. Pedigree -<br />
ND14855-2/ND14636//ND13296/ND14760.<br />
PI 643329. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. ND19098-1; NSGC 17902. Pedigree -<br />
ND14599//ND15509/Zhedar 1/3/CMB85-533-H//ND11231-1/ND13297. Puccinia<br />
stifformis resistant.<br />
PI 643330. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. ND19119-5; NSGC 17903. Pedigree -<br />
ND11231-1/ND13297//ND13083/ND13100/3/ND13162-2/ND11231-12//PC84.<br />
Puccinia hordei ressistant, very large kernel, low protein.<br />
PI 643331. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. ND19130; NSGC 17904. Pedigree -<br />
ND13154/ND13897//ND13083/ND13100/3/ND13296/ND14760.<br />
PI 643332. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. ND19164; NSGC 17905. Pedigree -<br />
ND13296/ND14760/3/Smai/Super Precoz//2*Bowman.<br />
PI 643333. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. ND19184; NSGC 17906. Pedigree -<br />
ND15225/Conlon//ND13296/ND14760 (ND15225 = Bowman*4/Multiple<br />
recessive//Bowman*4/Multiple Recessive/4/ND10232/3/Bowman*4//Estate/3.2<br />
Multiple Marker). Hulless.<br />
176
PI 643334. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. ND19852-1; NSGC 17907. Pedigree -<br />
ND11231-1/ND13297//ND13296/ND14760.<br />
PI 643335. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. ND19854-8; NSGC 17908. Pedigree -<br />
ND11231-1/ND13297//ND13296/ND14760.<br />
PI 643336. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. ND19855; NSGC 17909. Pedigree -<br />
ND11231-1/ND13297//ND13296/ND14760.<br />
PI 643337. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. ND19869-1; NSGC 17910. Pedigree -<br />
ND13154/ND13897/3/ND15183//Stander/ND13897.<br />
PI 643338. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. ND19872; NSGC 17911. Pedigree -<br />
ND13162-2/ND11231-12//PC84/3/ND13154/ND13897/4/ND13297/ND14701.<br />
PI 643339. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. ND19922; NSGC 17912. Pedigree -<br />
ND11231-1/ND13297/3/PI 355447/5*Bowman//<strong>No</strong>rte?a Carumba. Puccinia hordei<br />
ressistant (Rph15).<br />
PI 643340. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. ND19929-5; NSGC 17913. Pedigree -<br />
TR128//TR236/WM862-6/3/ND15537/ND15062.<br />
PI 643341. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. ND19931; NSGC 17914. Pedigree -<br />
TR128//TR236/WM862-6/3/ND15537/ND15062.<br />
PI 643342. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. ND19957; NSGC 17915. Pedigree -<br />
Conlon/ND15238//ND13296/ND14760/3/ND13154/ND13897.<br />
PI 643343. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. ND19974; NSGC 17916. Pedigree -<br />
ND15537/ND15062//ND15562/Conlon.<br />
PI 643344. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. ND20028-3; NSGC 17917. Pedigree - DH<br />
6/2*Bowman//ND13296/ND14760.<br />
PI 643345. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. ND20040; NSGC 17918. Pedigree -<br />
ND11231-1/ND13297/4/ND13162-2/ND11231-12//PC84/3/A64.<br />
PI 643346. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. ND20135-2; NSGC 17919. Pedigree - <strong>No</strong>rte?a<br />
Dayman//ND15471/ND15509.<br />
PI 643347. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. ND20790; NSGC 17920. Pedigree -<br />
ND13297/ND14701//ND15080/Conlon.<br />
177
PI 643348. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. ND20798-12; NSGC 17921. Pedigree -<br />
ND13296/ND14760//ND15080/Conlon.<br />
PI 643349. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. ND20801; NSGC 17922. Pedigree -<br />
ND13296/ND14760/6/ND14599/4/Black Bowman/ND11177//ND11231/3/Zhedar<br />
1/5/A64.<br />
PI 643350. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. ND20879; NSGC 17923. Pedigree -<br />
ND15537/ND15062/6/ND14796/4/ND11853-3/3/Bowman*6//Estate/3.2 Multiple<br />
Marker/5/ND15183//Stander/ND13897.<br />
PI 643351. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. ND21089-2; NSGC 17924. Pedigree -<br />
ND15147//F103-105/ND14636/3/ND15443/ND15079.<br />
PI 643352. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. ND21099; NSGC 17925. Pedigree -<br />
ND15147//F103-105/ND14636/4/TR706/3/PI 355447/5*Bowman//<strong>No</strong>rte?a Carumba.<br />
PI 643353. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. ND21821; NSGC 17926. Pedigree -<br />
ND11231-1/ND13297/6/ND14796/4/ND11853-3/3/Bowman*6//Estate/3.2 Multiple<br />
Marker/5/ND15183//Stander/ND13897.<br />
PI 643354. Hordeum vulgare L. subsp. vulgare<br />
Cultivar. Pureline. "PINNACLE"; ND21863-2; NSGC 17927. Pedigree -<br />
ND15147//F103-105/ND14636/3/ND15468/ND16092//ND16461.<br />
PI 643355. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. ND21865-6; NSGC 17928. Pedigree -<br />
ND15147//F103-105/ND14636/3/ND15468/ND16092//ND16461.<br />
PI 643356. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. ND21867; NSGC 17929. Pedigree -<br />
ND15147//F103-105/ND14636/3/ND15468/ND16092//ND16461.<br />
PI 643357. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. ND21957-2; NSGC 17930. Pedigree -<br />
ND10232/ND11231//ND15562/F101-78/3/ND16518/ND16461.<br />
PI 643358. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. ND21972; NSGC 17931. Pedigree -<br />
ND15291/3/ND14900//RUTH/LAUREL/6/ND14636/ND15295/5/ND11231-1/ND13297/4/N<br />
D13162-2/ND11231-12//PC84/3/A64.<br />
PI 643359. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. ND22025; NSGC 17932. Pedigree -<br />
ND16518/ND16461/4/ND14599/ND15163/3/ND16880//CMB85-533-H/ND15403-3.<br />
PI 643360. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. ND22162; NSGC 17933. Pedigree -<br />
ND15403/F101-78//Horny Peseky/ND14636/3/Bichy 2000/4/ND16050/ND16461.<br />
178
PI 643361. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. ND22170; NSGC 17934. Pedigree -<br />
ND15403/F101-78//Horny Peseky/ND14636/3/Bichy<br />
2000/4/ND16461/3/Smai/Super Precoz//2*Bowman.<br />
PI 643362. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. ND22182; NSGC 17935. Pedigree - Horny<br />
Peseky/ND14636//ZAU<br />
2/ND15602/3/ND15468/ND16092//ND15403/ND15368/4/ND16461/3/Smai/Super<br />
Precoz//2*Bowman.<br />
PI 643363. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. ND22185; NSGC 17936. Pedigree -<br />
ND14636/ND14763//ND15509/3/Mokkei 93-78/ND15462//ND16723/4/ND19088.<br />
Black lemma.<br />
PI 643364. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. ND22895; NSGC 17937. Pedigree -<br />
ND15183/Stander/13897/4/13890/3/Q21861/Chervon/5/ND15403-4//ND16461/Symk<br />
o.<br />
PI 643365. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. ND22927; NSGC 17938. Pedigree - Rawson<br />
sib/3/TR258/ND17437.<br />
PI 643366. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. ND22928; NSGC 17939. Pedigree - Rawson<br />
sib/3/TR258/ND17437.<br />
PI 643367. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. ND22947; NSGC 17940. Pedigree - Rawson<br />
sib/3/TR258/ND17437.<br />
PI 643368. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. ND22996; NSGC 17941. Pedigree - ND15403-3/3/PI<br />
355447/5*Bowman//ND13111/4/ND15147//F103-105/ND14636. Puccinia hordei<br />
ressistant (Rph15).<br />
PI 643369. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. ND23117; NSGC 17942. Pedigree - Mokkei<br />
93-08/3/ND15451//ND15368/ND16092/4/DH 6/2*Bowman//ND16461-2.<br />
PI 643370. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. ND23146; NSGC 17943. Pedigree -<br />
ND15291/3/ND14900//Ruth/Laurel/4/Merit/ND15403/3/Rawson sib.<br />
PI 643371. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. ND23164; NSGC 17944. Pedigree -<br />
Logan//ND16463/ND15409/3/TR258/ND17437.<br />
PI 643372. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. ND23203; NSGC 17945. Pedigree -<br />
ND17274//ND16461/ND15468/5/ND15183/Stander/13897/4/13890/3/Q21861/Chervo<br />
n.<br />
PI 643373. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. ND24179; NSGC 17946. Pedigree -<br />
179
ND15403-3/ND15368//ND16453/6/ND15183/Stander/13897/4/13890/3/Q21861/Cher<br />
von/5/TR258/ND17437.<br />
PI 643374. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. ND24190; NSGC 17947. Pedigree -<br />
ND15403-3/ND16462//ND15468/ND16723.<br />
PI 643375. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. ND24205; NSGC 17948. Pedigree -<br />
ND15403-3/ND16462//ND16092-1/ND17266.<br />
PI 643376. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. ND24379; NSGC 17949. Pedigree - CIMMYT<br />
13/ND16680//ND16092/4/DH 6/2*Bowman//ND16461-2 /3/Rawson sib.<br />
PI 643377. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. ND24393; NSGC 17950. Pedigree -<br />
Conlon/ND15238//Rawson sib/3/ND15403-3/ND16462.<br />
PI 643378. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. ND24408; NSGC 17951. Pedigree -<br />
ND14636/ND14763//ND15509/3/Mokkei<br />
93-78/ND15462//ND16723/4/ND19088/ND19854.<br />
PI 643379. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. ND24434; NSGC 17952. Pedigree - Shenmai 3/Rawson<br />
sib/5/ND18172/4/TR706/3/PI355447/5*Bowman//ND13111.<br />
PI 643380. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. ND24455; NSGC 17953. Pedigree -<br />
ND16518/ND16461/4/ND14599/ND15163/3/ND16880//CMB85-533-H/ND15403-3/5/She<br />
nmai 3/Rawson sib.<br />
PI 643381. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. ND24518; NSGC 17954. Pedigree -<br />
ND16453//ND15468/ND16092/3/Rawson sib/PI 386392.<br />
PI 643382. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. ND24519; NSGC 17955. Pedigree - ND15403-3/3/PI<br />
355447/5*Bowman//ND13111/4/ND15468/ND16092//ND16461. Puccinia hordei<br />
resistant (Rph15).<br />
PI 643383. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. ND24564; NSGC 17956. Pedigree -<br />
ND15403-3/ND16462//Rawson sib/3/TR258/ND17437.<br />
PI 643384. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. C2-02-134-2-2; NSGC 17957. Pedigree - ND15403-3/3/PI<br />
355447/5*Bowman//ND13111/4/ND17437/ND17444//Rawson sib. Puccinia hordei<br />
resistant (Rph15 and another gene).<br />
PI 643385. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. C2-00-279-44; NSGC 17958. Pedigree - Supi<br />
1//ND13297/ND14701. Fusarium resistant.<br />
180
PI 643386. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. C2-00-303-18; NSGC 17959. Pedigree - ZAU<br />
7//ND13297/ND14701. Fusarium resistant.<br />
PI 643387. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. C2-00-303-74; NSGC 17960. Pedigree - ZAU<br />
7//ND13297/ND14701. Fusarium resistant.<br />
PI 643388. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. ND22023-2; NSGC 17961. Pedigree -<br />
ND16518/ND16461/4/ND14599/ND15163/3/ND16880//CMB85-533-H/ND15403-3.<br />
Fusarium resistant.<br />
PI 643389. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. ND22089-2; NSGC 17962. Pedigree -<br />
ND15468/ND16092//ND16461/4/Imperial/ND15403//ND15468/3/SEIJO<br />
11/ND15388//ND15368. Early heading.<br />
PI 643390. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. ND23025; NSGC 17963. Pedigree -<br />
TR258/ND17437//Rawson sib. Fusarium resistant.<br />
PI 643391. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. ND22942; NSGC 17964. Pedigree - Rawson<br />
sib/3/TR258/ND17437. Early heading, good malt quality, low protein.<br />
PI 643392. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. ND24319; NSGC 17965. Pedigree -<br />
ND17437//ND16485/ND16723/3/Logan//TR258/ND17437. Fusarium resistant.<br />
PI 643393. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. SHN105; NSGC 17966. Pedigree - Gobernadora/Humai<br />
10/3/ND15403-3/ND15368//ND16453. Fusarium resistant.<br />
<strong>The</strong> following were developed by T. Scott Abney, USDA-ARS, Purdue University,<br />
Dept. of Botany and <strong>Plant</strong> Pathology, West Lafayette, Indiana 47907, United<br />
States; Allen LeRoy, Purdue University, Department of Agronomy, 915 West<br />
State Street, West Lafayette, Indiana 47907-2054, United States. Received<br />
09/27/2006.<br />
PI 643394. Glycine max (L.) Merr.<br />
Cultivar. "CL0J173-6-2". REST 643394; CV-490. Pedigree - F6 plant<br />
selections from CL0J176-6, an F3 plant selection from the cross Kottman<br />
x Dwight. Indeterminate line classified as early Group III maturity<br />
(relative maturity 3.0) with white flowers, light tawny pubescence, tan<br />
pods at maturity, seeds with black hila and dull seed coat. Have good<br />
yield potential combined with above average seed protein and was<br />
developed for the non-GMO soybean market. <strong>No</strong>t developed by genetic<br />
engineering and are susceptible to glyphosate<br />
[N-(phosphonomethyl)glycine] herbicide. Comparisons show that<br />
CL0J173-6-2 is approximately 2 inches taller and has more seed protein<br />
than CL0J173-6-8 while CL0J173-6-8 is the higher yielding line.<br />
Hypocotyl inoculation with a series of isolates of Phytophthora sojae<br />
demonstrated that CL0J173-6-2 and CL0J173-6-8 both carry the Rps3 gene<br />
for race-specific resistance to Phytophthora root and stem rot. Across<br />
6 environments of field tests in 2004, CL0J173-6 displayed moderate<br />
181
esistance to sudden death syndrome (SDS) caused by Fusarium solani<br />
f.sp. glycines Roy (= Fusarium virguliforme O Donnell & T. Aoki).<br />
PI 643395. Glycine max (L.) Merr.<br />
Cultivar. "CL0J173-6-8". REST 643395; CV-491. Pedigree - F6 plant<br />
selections from CL0J173-6, an F3 plant selection from the cross Kottman<br />
x Dwight. Indeterminate line classified as early Group III maturity<br />
(relative maturity 3.0) with white flowers, light tawny pubescence, tan<br />
pods at maturity, seeds with black hila and dull seed coat. Have good<br />
yield potential combined with above average seed protein and was<br />
developed for the non-GMO soybean market. <strong>No</strong>t developed by genetic<br />
engineering and are susceptible to glyphosate<br />
[N-(phosphonomethyl)glycine] herbicide. Comparisons show that<br />
CL0J173-6-2 is approximately 2 inches taller and has more seed protein<br />
than CL0J173-6-8 while CL0J173-6-8 is the higher yielding line.<br />
Hypocotyl inoculation with a series of isolates of Phytophthora sojae<br />
demonstrated that CL0J173-6-2 and CL0J173-6-8 both carry the Rps3 gene<br />
for race-specific resistance to Phytophthora root and stem rot. Across<br />
6 environments of field tests in 2004, CL0J173-6 displayed moderate<br />
resistance to sudden death syndrome (SDS) caused by Fusarium solani<br />
f.sp. glycines Roy (= Fusarium virguliforme O Donnell & T. Aoki).<br />
<strong>The</strong> following were developed by Don R. Viands, Cornell University, Department<br />
of <strong>Plant</strong> Breeding, 523 Bradfield Hall, Ithaca, New York 14853, United States;<br />
J.L. Hansen, Cornell University, Dept. of <strong>Plant</strong> Breeding and Biometry,<br />
Ithaca, New York 14853-1902, United States; Jamie L. Neally, Cornell<br />
University, Department of <strong>Plant</strong> Breeding Forage Project, 101 Love Laboratory,<br />
Ithaca, New York 14853, United States; E.M. Thomas, Cornell University, Dept.<br />
of <strong>Plant</strong> Breeding and Genetics, Ithaca, New York 14853, United States.<br />
Received 10/05/2006.<br />
PI 643396. Medicago sativa L.<br />
Cultivar. Population. "ReGen". CV-204. Pedigree - ReGen is the result of<br />
a three-way population cross. <strong>The</strong> initial cross was between two plant<br />
populations: Seedway 9558 and germplasm related to Iroquois, Saranac AR,<br />
Oneida VR, and Vertus, followed by phenotypic recurrent selection for<br />
multiple disease resistance and selection in the field for plant vigor,<br />
agronomic traits, and higher forage quality. Progenies of this<br />
population cross were crossed with a population derived from Magnum III<br />
after selection for resistance to multiple diseases. ReGen is a dormant<br />
variety with fall dormancy similar to the FD3 check. Its flower color<br />
is 93% purple and 7% variegated, and pod shape is 96% tightly coiled and<br />
4% loosely coiled. ReGen has high resistance to Fusarium wilt [caused by<br />
Fusarium oxysporum Schlecht. f. sp. medicaginis (Weimer) Snyd. & Hans.],<br />
Verticillium wilt (caused by Verticillium albo-atrum Reinke & Berth.),<br />
and anthracnose (Race 1) (caused by Colletotrichum trifolii Bain &<br />
Essary); resistance to bacterial wilt [caused by Clavibacter<br />
michiganensis subsp. insidiosum (McCull.) Davis et al.] and Phytophthora<br />
root rot (caused by Phytophthora megasperma Drechs. f. sp. medicaginis<br />
Kuan & Erwin); and low resistance to Aphanomyces root rot (Race 1).<br />
<strong>The</strong> following were developed by Steven D. Linscombe, Louisiana State<br />
University, LSU Rice Experiment Station, 1373 Caffey Road, Rayne, Louisiana<br />
70578, United States; Xueyan Sha, Louisiana State University, Louisiana<br />
Agric. Exp. Station, Rice Research Station, Rayne, Louisiana 70578, United<br />
182
States; D.E. Groth, Louisiana State University AgCenter, Rice Research<br />
Station, 1373 Caffey Road, Rayne, Louisiana 70578, United States. Received<br />
10/11/2006.<br />
PI 643397. Oryza sativa L.<br />
Breeding. Pureline. LM-1. GP-106. Pedigree - Developed from 60Co<br />
irradiation of the US cultivar 'Lemont' (PI 475833). LM-1 is a short<br />
stature mutant that averaged 0.86 m in height compared to 0.90 m for<br />
Lemont and 0.92 m for Cocodrie (PI 606331). <strong>The</strong> line is similar to<br />
Lemont in plant type having light green broad leaves but heads<br />
approximately 3-4 days later. LM-1 had an average sheath blight rating<br />
of 4.6 on a 0-9 rating scale, where 0 indicates immunity and 9 indicates<br />
very susceptible, after inoculation with the sheath blight fungus,<br />
indicating moderate resistance to sheath blight as compared to 8.0 and<br />
7.8 ratings for the very susceptible cultivars Lemont and Cocodrie<br />
respectively. When inoculated with bacterial panicle blight the line<br />
rated 1.6 (very resistant), on a 0-9 rating scale, where again 0<br />
indicates immunity and 9 indicates very susceptible, as compared to 4.2<br />
and 7.0 for the moderately susceptible and susceptible varieties Lemont<br />
and Cocodrie respectively. <strong>The</strong> line also express immunity to narrow<br />
brown leaf spot rating 0.0 on a 0-9 scale compared to 2.3 for Lemont and<br />
3.3 for Cocodrie under light natural disease pressure.<br />
PI 643398. Oryza sativa L.<br />
Breeding. Pureline. LMT-1. GP-107. Pedigree - Developed from 60Co<br />
irradiation of the US cultivar 'Lemont' (PI 475833). LMT-1 is a slightly<br />
taller stature mutant that averaged 0.88 m in height compared to 0.90 m<br />
for Lemont and 0.92 m for Cocodrie (PI 606331). <strong>The</strong> line is similar<br />
to Lemont in plant type having light green broad leaves but heads<br />
approximately 3-4 days later. LM-1 had an average sheath blight rating<br />
of 4.6 on a 0-9 rating scale, where 0 indicates immunity and 9 indicates<br />
very susceptible, after inoculation with the sheath blight fungus,<br />
indicating moderate resistance to sheath blight as compared to 8.0 and<br />
7.8 ratings for the very susceptible cultivars Lemont and Cocodrie<br />
respectively. When inoculated with bacterial panicle blight the line<br />
rated 1.6 (very resistant), on a 0-9 rating scale, where again 0<br />
indicates immunity and 9 indicates very susceptible, as compared to 4.2<br />
and 7.0 for the moderately susceptible and susceptible varieties Lemont<br />
and Cocodrie respectively. <strong>The</strong> line also express immunity to narrow<br />
brown leaf spot rating 0.0 on a 0-9 scale compared to 2.3 for Lemont and<br />
3.3 for Cocodrie under light natural disease pressure.<br />
<strong>The</strong> following were developed by G.F. Marais, University of Stellenbosch,<br />
Department of Genetics, Private Bag X1, Matieland, Cape Province 7602, South<br />
Africa; Cheryl Baker, USDA-ARS, 1301 N. Western Street, Stillwater, Oklahoma<br />
74075, United States; Brett F. Carver, Oklahoma State University, Dept. of<br />
<strong>Plant</strong> & Soil Sciences, 368 Agriculture Hall <strong>No</strong>rth, Stillwater, Oklahoma<br />
74078, United States; David R. Porter, USDA, ARS, 1301 N. Western Road,<br />
Stillwater, Oklahoma 74075-2714, United States. Received 09/27/2006.<br />
PI 643399. Triticum aestivum L. subsp. aestivum<br />
Breeding. Pureline. STARS 0601W; 02 Altus 034; OK03825. GP-836. Pedigree<br />
- Custer *3/94M81. Hard red winter wheat with resistance to biotypes 1<br />
and 2 of the Russian wheat aphid (RWA), Diuraphis noxia. Seedling<br />
reaction to RWA feeding was characterized as resistant (score of 2) a<br />
scale of 1 to 9 (where 1 = no damage, to 9= dead plant) in greenhouse<br />
183
tests. <strong>The</strong> source of RWA resistance (94M81) in this germplasm is derived<br />
from the line 93M45-14, reported to carry a 1BL.1RS wheat-rye<br />
translocation developed through an intergeneric transfer from 'Turkey<br />
77' rye (Secale cereale) to Veery common wheat. RWA resistance is<br />
conferred by the Dn7 resistance gene carried on the 1BL.1RS<br />
translocation. Has agronomic and end-use characteristics similar to<br />
'Custer' hard red winter wheat.<br />
<strong>The</strong> following were developed by Luther Talbert, Montana State University,<br />
Department of <strong>Plant</strong> Sciences, Bozeman, Montana 59717, United States; Dale R.<br />
Clark, WestBred, LLC, 8111 Timberline Drive, Bozeman, Montana 59718-8184,<br />
United States; Susan P. Lanning, Montana State University, <strong>Plant</strong> Sciences &<br />
<strong>Plant</strong> Pathology Department, Leon Johnson Hall, 324A, Bozeman, Montana 59717,<br />
United States; Jamie Sherman, Montana State University, <strong>Plant</strong> Sciences<br />
Department, Leon Johnson Hall, Bozeman, Montana 59717, United States.<br />
Received 09/29/2006.<br />
PI 643400. Triticum aestivum L. subsp. aestivum<br />
Breeding. Pureline. MAS 21-3. GP-816. Pedigree - McNeal (PI 574642)<br />
*7/Choteau (PI 633397). Sister line to MAS 21-10 and contains the<br />
pinB-D1b mutation for hard kernel texture. Similar in appearance to<br />
McNeal, which has red kernels, semi-dwarf growth habit, and red-brown<br />
chaff.<br />
PI 643401. Triticum aestivum L. subsp. aestivum<br />
Breeding. Pureline. MAS 21-10. GP-817. Pedigree - McNeal (PI 574642)<br />
*7/Choteau (PI 633397). Sister line to MAS 21-3 and contains the<br />
pinA-D1b mutation causing hard kernel texture. Similar in appearance to<br />
McNeal, which has red kernels, semi-dwarf growth habit, and red-brown<br />
chaff.<br />
PI 643402. Triticum aestivum L. subsp. aestivum<br />
Breeding. Pureline. MAS 22-5. GP-818. Pedigree - McNeal (PI 574642)<br />
*7/Choteau (PI 633397). Sister line to MAS 22-16 and contains the<br />
pinB-D1b mutation causing hard kernel texture. Similar in appearance in<br />
McNeal, which has red kernels, semi-dwarf growth habit, and red-brown<br />
chaff.<br />
PI 643403. Triticum aestivum L. subsp. aestivum<br />
Breeding. Pureline. MAS 22-6. GP-819. Pedigree - McNeal (PI 574642)<br />
*7/Choteau (PI 633397). Sister line to MAS 22-5 and contains the<br />
pinA-D1b mutation causing hard kernel texture. Similar in appearance to<br />
McNeal, which has red kernels, semi-dwarf growth habit, and red-brown<br />
chaff.<br />
PI 643404. Triticum aestivum L. subsp. aestivum<br />
Breeding. Pureline. MAS 3G-BB. GP-820. Pedigree - Outlook (PI 632252)<br />
*7/Choteau (PI 633397). Sister line to MAS 3G-AA and contains the<br />
pinB-D1b mutation causing hard kernel texture. Similar in appearance to<br />
Outlook, which has red kernels, semi-dwarf growth habit and red-brown<br />
chaff.<br />
PI 643405. Triticum aestivum L. subsp. aestivum<br />
Breeding. Pureline. MAS 3G-AA. GP-821. Pedigree - Outlook (PI 632252)<br />
*7/Choteau (PI 633397). Sister line to MAS 3G-BB and contains the<br />
pinA-D1b mutation causing hard kernel texture. Similar in appearance to<br />
184
Outlook, which has red kernels, semi-dwarf growth habit, and red-brown<br />
chaff.<br />
PI 643406. Triticum aestivum L. subsp. aestivum<br />
Breeding. Pureline. MAS 3B-BB. GP-822. Pedigree - Outlook (PI 632252)<br />
*7/Choteau (PI 633397). Sister line to MAS 3B-AA and contains the<br />
pinB-D1b mutation causing hard kernel texture. Similar in appearance to<br />
Outlook, which has red kernels, semi-dwarf growth habit, and red-brown<br />
chaff.<br />
PI 643407. Triticum aestivum L. subsp. aestivum<br />
Breeding. Pureline. MAS 3B-AA. GP-823. Pedigree - Outlook (PI 632252)<br />
*7/Choteau (PI 633397). Sister line to MAS 3B-BB and contains the<br />
pinA-D1b mutation causing hard kernel texture. Similar in appearance to<br />
Outlook, which has red kernels, semi-dwarf growth habit, and red-brown<br />
chaff.<br />
PI 643408. Triticum aestivum L. subsp. aestivum<br />
Breeding. Pureline. MAS 71-3. GP-824. Pedigree - Hank (BZ992322)<br />
*7/Choteau (PI 633397). Sister line to MAS 71-1 and contains the<br />
pinB-D1b mutation causing hard kernel texture. Similar to Hank, which is<br />
a semi-dwarf cultivar with red kernels and tan chaff.<br />
PI 643409. Triticum aestivum L. subsp. aestivum<br />
Breeding. Pureline. MAS 71-1. GP-825. Pedigree - Hank (BZ992322)<br />
*7/Choteau (PI 633397). Sister line to MAS 71-3 and contains the<br />
pinA-D1b mutation causing hard kernel texture. Similar to Hank, which is<br />
a semi-dwarf cultivar with red kernels and tan chaff.<br />
PI 643410. Triticum aestivum L. subsp. aestivum<br />
Breeding. Pureline. MAS 70-3. GP-826. Pedigree - Hank (BZ992322)<br />
*7/Choteau (PI 633397). Sister line to MAS 70-15 and contains the<br />
pinB-D1b mutation causing hard kernel texture. Similar to Hank, which is<br />
a semi-dwarf cultivar with red kernels and tan chaff.<br />
PI 643411. Triticum aestivum L. subsp. aestivum<br />
Breeding. Pureline. MAS 70-15. GP-827. Pedigree - Hank (BZ992322)<br />
*7/Choteau (PI 633397). Sister line to MAS 70-3 and contains the<br />
pinA-D1b mutation causing hard kernel texture. Similar to Hank, which is<br />
a semi-dwarf cultivar with red kernels and tan chaff.<br />
PI 643412. Triticum aestivum L. subsp. aestivum<br />
Breeding. Pureline. MAS 46-8. GP-828. Pedigree - Scholar (PI 607557)<br />
*7/Choteau (PI 633397). Sister line to MAS 46-10 and contains the<br />
pinB-D1b mutation causing hard kernel texture. Similar to Scholar, which<br />
is a standard height cultivar with red kernels and semi-solid stems.<br />
PI 643413. Triticum aestivum L. subsp. aestivum<br />
Breeding. Pureline. MAS 46-10. GP-829. Pedigree - Scholar (PI 607557)<br />
*7/Choteau (PI 633397). Sister line to MAS 46-8 and contains the<br />
pinA-D1b mutation causing hard kernel texture. Similar to Scholar, which<br />
is a standard height cultivar with red kernels and semi-solid stems.<br />
PI 643414. Triticum aestivum L. subsp. aestivum<br />
Breeding. Pureline. MAS 47-1. GP-830. Pedigree - Scholar (PI 607557)<br />
*7/Choteau (PI 633397). Sister line to MAS 47-5 and contains the<br />
185
pinB-D1b mutation causing hard kernel texture. Similar to Scholar, which<br />
is a standard height cultivar with red kernels and semi-solid stems.<br />
PI 643415. Triticum aestivum L. subsp. aestivum<br />
Breeding. Pureline. MAS 47-5. GP-831. Pedigree - Scholar (PI 607557)<br />
*7/Choteau (PI 633397). Sister line to MAS 47-1 and contains the<br />
pinA-D1b mutation causing hard kernel texture. Similar to Scholar, which<br />
is a standard height cultivar with red kernels and semi-solid stems.<br />
PI 643416. Triticum aestivum L. subsp. aestivum<br />
Breeding. Pureline. MAS 141-5. GP-832. Pedigree - Explorer (PI 619086)<br />
*7/Choteau (PI 633397). Sister line to MAS 141-4 and contains the<br />
pinB-D1b mutation causing hard kernel texture. Similar to Explorer,<br />
which is a semi-dwarf cultivar with white kernels, white chaff, and<br />
semi-solid stems.<br />
PI 643417. Triticum aestivum L. subsp. aestivum<br />
Breeding. Pureline. MAS 141-4. GP-833. Pedigree - Explorer (PI 619086)<br />
*7/Choteau (PI 633397). Sister line to MAS 141-5 and contains the<br />
pinA-D1b mutation causing hard kernel texture. Similar to Explorer,<br />
which is a semi-dwarf cultivar with white kernels, white chaff, and<br />
semi-solid stems.<br />
PI 643418. Triticum aestivum L. subsp. aestivum<br />
Breeding. Pureline. MAS 142-8. GP-834. Pedigree - Explorer (PI 619086)<br />
*7/Choteau (PI 633397). Sister line to MAS 142-7 and contains the<br />
pinB-D1b mutation causing hard kernel texture. Similar to Explorer,<br />
which is a semi-dwarf cultivar with white kernels, white chaff, and<br />
semi-solid stems.<br />
PI 643419. Triticum aestivum L. subsp. aestivum<br />
Breeding. Pureline. MAS 142-7. GP-835. Pedigree - Explorer (PI 619086)<br />
*7/Choteau (PI 633397). Sister line to MAS 142-8 and contains the<br />
pinA-D1b mutation causing hard kernel texture. Similar to Explorer,<br />
which is a semi-dwarf cultivar with white kernels, while chaff, and<br />
semi-solid stems.<br />
<strong>The</strong> following were developed by Linda M. Pollak, USDA, ARS, Iowa State<br />
University, Dept. of Agronomy, Ames, Iowa 50011, United States; Mark<br />
Campbell, Truman State University, Division of Science, 162 Barnett Hall,<br />
Kirksville, Missouri 63501, United States; Jay-Lin Jane, Iowa State<br />
University, Food Science & Human Nutrition Department, 2312 Food Sciences<br />
Building, Ames, Iowa 50011-1061, United States; Mike Blanco, USDA, ARS, Iowa<br />
State University, Regional <strong>Plant</strong> Introduction Station, Ames, Iowa 50011-1170,<br />
United States; Anna O'Brien, Truman State University, Dept. of Agrnomy, 100<br />
E. <strong>No</strong>rmal, Kirksville, Missouri 63501, United States. Donated by Mark<br />
Campbell, Truman State University, Division of Science, 162 Barnett Hall,<br />
Kirksville, Missouri 63501, United States. Received 10/11/2006.<br />
PI 643420. Zea mays L. subsp. mays<br />
Breeding. Partinbred. GEMS-0067. GP-550. Pedigree - Selection for high<br />
amylose modifier genes began in 1997 at Truman State when a sister-line<br />
hybrid H99ae x OH43 ae (provided by Dr. David Glover, Purdue University)<br />
was used as a male in crosses with many sources of exotic maize<br />
germplasm. <strong>The</strong>se included several hundred plant introductions including<br />
70 accessions from the Latin American Maize Project (LAMP). Our results<br />
186
evealed several plant introductions that contributed high amylose<br />
modifiers raising amylose levels to at least 70% in the F3kernels. Only<br />
lines from GUAT209:S13 x (H99ae x OH43ae) were found to survive<br />
inbreeding and therefore used in subsequent breeding studies while the<br />
others were dropped. GUAT209:S13 is a 50% tropical exotic derived from<br />
crossing the LAMP accession Guatemala 209 (PI 498583) to a proprietary<br />
stiff stalk inbred from a private GEM cooperator designated as company<br />
13. Guatemala 209 is a yellow flint population from the tropical race,<br />
Tus n. <strong>The</strong> original GUAT209:S13 F1 seed was planted in a winter nursery<br />
in Puerto Rico; F1 plants produced ears segregating F2 seeds in the<br />
expected 3:1 phenotypic ratio for normal and ae-type kernels. Mutant ae<br />
F2 kernels were visually selected and used to establish F2 plants<br />
producing homozygous ae F2 ears (F3seed) in the summer of 1998 at<br />
Kirksville, MO. For each (H99ae x OH43ae) x exotic cross, grain<br />
samples from at least three F2 ears were analyzed for starch amylose<br />
using a colorimetric iodine-amylose procedure (Williams, 1958) following<br />
starch extraction and purification. Remnant grain samples were used for<br />
inbreeding in order to attempt to fix the modifiers. GEMS-0067 is<br />
currently maintained as an S4 line from GUAT209:S13 x (H99ae x OH43ae).<br />
Vigorous line with pollen shed occurring approx. 4 d before B73, average<br />
plant height of 174 cm, upright leaf structure, yellow kernels and red<br />
cob. From the non-stiff stalk source H99ae x OH 43ae; of mixed heterotic<br />
derivation, composed of 50% non-stiff stalk and 50% stiff stalk.<br />
Subsequent crosses made with GEMS-0067 to both SS and NS testers have<br />
shown good yield in preliminary data over 2 years. GEMS-0067, having<br />
modifiers from GUAT209-S13 was compared to several public inbreds<br />
possessing the ae gene but without high amylose modifier genes. Starch<br />
was isolated from 2 bulk samples obtained from independent single-row<br />
plots derived from 2 GEMS-0067 S4 ears produced in 2004. Bulk samples<br />
from the converted lines H99ae, OH43ae, B89ae and B84ae grown in the<br />
same year were used for starch isolation. Analysis of amylose using the<br />
IA method confirmed the presence of modifiers in 2 samples obtained from<br />
GEMs-0067. Apparent amylose can be elevated as the result of long<br />
chained amylopectin; gel permeation chromatography (GPC) searates<br />
amylopectin from amylose and the intermediate components. <strong>The</strong>refore, the<br />
GPC analysis method results in higher amylose values in comparison to<br />
the IA method ; GEMS-0067 displayed a relatively higher amylose value<br />
based on analysis of GPC amylose peaks. <strong>The</strong> resistant starch (RS) was<br />
also measured by using the Assoc. of Official Analytical Chemists (AOAC)<br />
method for total dietary fiber content for all samples. <strong>The</strong> RS content<br />
of GEMS-0067 starch samples was approximately two times higher than that<br />
of the converted public lines. <strong>The</strong> RS content of the starch samples was<br />
positively correlated with the amylose content of the starch, with a<br />
correlation coefficient (r) of 0.89. <strong>The</strong>rmal properties of the native<br />
high-amylose maize starch: water mixtures (3:1 ratio) were determined by<br />
Differential Scanning Calorimetery (DSC). All of the starch samples<br />
displayed similar onset gelatinization temperature (63.8-65.0°C).<br />
Broader gelatinization temperature ran.<br />
<strong>The</strong> following were developed by Mark J. Bassett, University of Florida,<br />
Department of Vegetable Crops, 1253 Fifield Hall, Gainesville, Florida 32611,<br />
United States; Phillip Miklas, USDA, ARS, Irrigated Agric. Research &<br />
Extension Ctr., 24106 <strong>No</strong>rth Bunn Road, Prosser, Washington 99350-9687, United<br />
States. Received 10/23/2006.<br />
187
PI 643421. Phaseolus vulgaris L.<br />
Genetic. Genetic Marker 117; W6 29775. Pedigree - Derived from the<br />
Phaseolus coccineus parent 'Painted Lady' (indetermine plant habit). Has<br />
the bicolor (bic) gene for flower color pattern (violet banner and white<br />
wings) and dark olive brown seed coats with P C J B V. It was determined<br />
that bic in non-allelic with T, P, V, and Wb.<br />
<strong>The</strong> following were developed by Blue Moon Farm LLC, Lebanon, Oregon, United<br />
States. Received 09/12/2006.<br />
PI 643422 PVPO. Lolium perenne L.<br />
Cultivar. "ACAPPELLA". PVP 200600275.<br />
<strong>The</strong> following were developed by WestBred LLC, Bozeman, Montana, United States.<br />
Received 09/12/2006.<br />
PI 643423 PVPO. Triticum aestivum L. subsp. aestivum<br />
Cultivar. "EDDY". PVP 200600277. Pedigree - BZ9W92-709/MTSF1142.<br />
<strong>The</strong> following were developed by Rutgers, <strong>The</strong> State University of New Jersey,<br />
New Jersey, United States. Received 09/12/2006.<br />
PI 643424 PVPO. Agrostis stolonifera var. palustris (Huds.) Farw.<br />
Cultivar. "13M". PVP 200600280.<br />
<strong>The</strong> following were developed by Monsanto Company, Creve Coeur, Missouri<br />
63167, United States. Received 09/12/2006.<br />
PI 643425 PVPO. Triticum aestivum L. subsp. aestivum<br />
Cultivar. "DPC05". PVP 200600281. Pedigree - Lars//Sonja/WI88-028.<br />
<strong>The</strong> following were developed by WestBred LLC, Bozeman, Montana, United States.<br />
Received 09/12/2006.<br />
PI 643426 PVPO. Triticum aestivum L. subsp. aestivum<br />
Cultivar. "RUSH". PVP 200600282. Pedigree - Keystone/Granite. Hard red<br />
spring wheat.<br />
<strong>The</strong> following were developed by Virginia Tech, Blacksburg, Virginia, United<br />
States. Received 09/12/2006.<br />
PI 643427 PVPO. Triticum aestivum L. subsp. aestivum<br />
Cultivar. "176"; VA99W-176. PVP 200600283. Pedigree -<br />
VA91-54-343/VA92-52-52.<br />
<strong>The</strong> following were developed by Greg D. Kushnak, Montana State University,<br />
Western Triangle Agric. Research Center, P.O. Box 1474, Conrad, Montana<br />
59425, United States; Phil L. Bruckner, Montana State University, Dept. of<br />
<strong>Plant</strong> Sciences & <strong>Plant</strong> Pathology, 407 Leon Johnson Hall, Bozeman, Montana<br />
59717, United States; N.R. Riveland, Williston Research Extension Center,<br />
188
<strong>No</strong>rth Dakota Agric. Exp. Sta., 14120 Highway 2, Williston, <strong>No</strong>rth Dakota<br />
58801, United States; G.R. Carlson, Montana State University, <strong>No</strong>rthern Agric.<br />
Research Center, Star Rt. 36, Havre, Montana 59501, United States; Joyce L.<br />
Eckhoff, Montana State University, Eastern Agric. Research Center, 1501 N.<br />
Central Avenue, Sidney, Montana 59270, United States; D.W. Wichman, Montana<br />
State University, Central Agric. Research Center, Moccasin, Montana 59462,<br />
United States; Robert N. Stougaard, Montana State University, <strong>No</strong>rthwestern<br />
Agric. Research Center, 4570 MT Hwy 35, Kalispell, Montana 59901, United<br />
States; J.E. Berg, Montana State University, Dept. of <strong>Plant</strong>, Soil &<br />
Environmental Sciences, Bozeman, Montana 59717, United States; Ken Kephart,<br />
Montana State University, MSU Southern Ag. Research Center, 748 Railroad<br />
Highway, Huntley, Montana 59037, United States; Xianming Chen, USDA-ARS, WSU<br />
- Wheat Genetics Unit, PO Box 646430, Pullman, Washington 99164-6430, United<br />
States; W.E. Grey, Montana State University, Bozeman, Montana 59717, United<br />
States; Yue Jin, USDA, ARS, University of Minnesota, Cereal Disease Lab, St.<br />
Paul, Minnesota 55108, United States; Montana Agricultural Experiment<br />
Station, Bozeman, Montana, United States; D. Nash, Montana State University,<br />
Dept. of <strong>Plant</strong> Sciences and <strong>Plant</strong> Pathology, Bozeman, Montana 59717, United<br />
States; A. Dyer, Montana State University, Dept. of <strong>Plant</strong> Sciences and <strong>Plant</strong><br />
Pathology, Bozeman, Montana 59717, United States. Received 09/12/2006.<br />
PI 643428. Triticum aestivum L. subsp. aestivum<br />
Cultivar. "YELLOWSTONE"; MT00159. PVP 200600284; CV-1012. Pedigree -<br />
Selected from a composite of F2 seed from two closely related<br />
populations: Promontory/Judith and Judith-phenotypic dwarf<br />
selection/Promontory. Released 2005. Yellowstone is an awned,<br />
white-chaffed, medium maturity, intermediate height hard red winter<br />
wheat with good winter hardiness and high yield potential in Montana.<br />
Yellowstone has medium maturity, 165.0 d to heading from 1 January<br />
(n=29). Yellowstone is relatively tall (85 cm, n=30). Coleoptile length<br />
of Yellowstone (69 mm, n=4) is relatively short. Yellowstone is<br />
susceptible to stem rust (caused by Puccinia graminis Pers.:Pers. f. sp.<br />
tritici Eriks. & E. Henn) isolates TPMK, QTHJ, TTTT, RCRS, and QFCS, and<br />
susceptible to leaf rust (caused by Puccinia triticina Eriks.).<br />
Yellowstone has shown an intermediate to high level of field resistance<br />
to stripe rust (caused by Puccinia striiformis Westend. f. sp. tritici<br />
Eriks.). Average stripe rust infection at Bozeman and Kalispell, MT in<br />
2005 and 2006 (n=4) of Yellowstone was 3.8% compared to other resistant<br />
(
59425, United States; Phil L. Bruckner, Montana State University, Dept. of<br />
<strong>Plant</strong> Sciences & <strong>Plant</strong> Pathology, 407 Leon Johnson Hall, Bozeman, Montana<br />
59717, United States; N.R. Riveland, Williston Research Extension Center,<br />
<strong>No</strong>rth Dakota Agric. Exp. Sta., 14120 Highway 2, Williston, <strong>No</strong>rth Dakota<br />
58801, United States; G.R. Carlson, Montana State University, <strong>No</strong>rthern Agric.<br />
Research Center, Star Rt. 36, Havre, Montana 59501, United States; Joyce L.<br />
Eckhoff, Montana State University, Eastern Agric. Research Center, 1501 N.<br />
Central Avenue, Sidney, Montana 59270, United States; D.W. Wichman, Montana<br />
State University, Central Agric. Research Center, Moccasin, Montana 59462,<br />
United States; Robert N. Stougaard, Montana State University, <strong>No</strong>rthwestern<br />
Agric. Research Center, 4570 MT Hwy 35, Kalispell, Montana 59901, United<br />
States; J.E. Berg, Montana State University, Dept. of <strong>Plant</strong>, Soil &<br />
Environmental Sciences, Bozeman, Montana 59717, United States; Ken Kephart,<br />
Montana State University, MSU Southern Ag. Research Center, 748 Railroad<br />
Highway, Huntley, Montana 59037, United States; W.E. Grey, Montana State<br />
University, Bozeman, Montana 59717, United States; Montana Agricultural<br />
Experiment Station, Bozeman, Montana, United States; D. Nash, Montana State<br />
University, Dept. of <strong>Plant</strong> Sciences and <strong>Plant</strong> Pathology, Bozeman, Montana<br />
59717, United States; E.S. Davis, Montana State University, Dept. of Land<br />
<strong>Resources</strong> & Environmental Sciences, Bozeman, Montana 59717, United States.<br />
Received 09/12/2006.<br />
PI 643429. Triticum aestivum L. subsp. aestivum<br />
Cultivar. "BYNUM"; MYCL0318. PVP 200600285; REST 643429; CV-1013.<br />
Pedigree - Derived from the cross: Rampart (PI 593889)/FS2//CDC Kestrel.<br />
FS2 was developed by BASF by mutagenesis of Fidel and contains a single<br />
gene at the als 1 locus for acetolactate synthesis, which conveys<br />
tolerance to imidazolinone herbicides. Rampart isa well-adapted,<br />
solid-stem cultivar released by the Montana Agric. Exp. Stn. CDC Kestrel<br />
is a winter-hardy cultivar developed by the Crop Development Centre in<br />
Saskatoon, Sask. Released 2005. Bynum is an awned, red-chaffed, medium<br />
maturity, solid-stem hard red CLEARFIELD winter wheat similar in<br />
appearance and performance to the cultivar Rampart. Average heading date<br />
of Bynum is 159.7 days from 1 Jan., n=26 and average height of Bynum is<br />
96 cm, n=28). Winter survival of Bynum is relatively low, similar to<br />
Rampart. Under natural infection in Montana, Bynum is moderately<br />
resistant to stem rust (caused by Puccinia graminis Pers.:Pers. f. sp.<br />
tritici Eriks. & E. Henn.), and resistant to stripe rust (caused by<br />
Puccinia striiformis Westend. f. sp. tritici Eriks.). Average stripe<br />
rust infection at Bozeman and Kalispell, MT in 2005 and 2006 (n=4) of<br />
Bynum was 8.8% compared to resistant cultivars (
(PI 619166) is hard red winter wheat released by MT Agric. Exp. Stn.<br />
TX12588-26*4/FS2 is an imazamox-tolerant selection from a segregating<br />
populatoin developed by Texas A&M. TXGH12588-26 is a sib selection of<br />
TAM 110 (PI 595757). FS2 was developed by BASF by mutagenesis of Fidel<br />
and contains a single gene at the als1 locus for acetolactate synthesis,<br />
which conveys tolerance to imidazolinone herbicides. Released 2005.<br />
<strong>No</strong>rris is a medium to early maturing, conventional height CLEARFIELD<br />
hard red winter wheat. Average heading date of <strong>No</strong>rris is 158.7 days from<br />
1 Jan., n=26, and average height of <strong>No</strong>rris is 97 cm, n=28. Winter<br />
survival of <strong>No</strong>rris (67%) is intermediate in trials exhibiting<br />
differential survival. Under natural infection in Montana, <strong>No</strong>rris is<br />
susceptible to stem rust (caused by Puccinia graminis Pers.:Pers. f. sp.<br />
tritici Eriks. & E. Henn.), and stripe rust (caused by Puccinia<br />
striiformis Westend. f. sp. tritici Eriks.). Based on seven Montana crop<br />
tolerance trials, tolerance of <strong>No</strong>rris to imazamox is equivalent to that<br />
of Above and MT1159CL. In 31 trials in Montana in 2004 and 2005,<br />
average grain yield of <strong>No</strong>rris (5160 kg ha 1) was higher than current<br />
commercially available CLEARFIELD cultivars. Average grain volume weight<br />
for <strong>No</strong>rris (786 g m 3, n=32) and average grain protein of <strong>No</strong>rris (128 g<br />
kg-1, n=32) were within the range of existing cultivars adapted to<br />
Montana. Milling and baking characteristics of <strong>No</strong>rris are similar to<br />
long term check cultivar, Neeley.<br />
<strong>The</strong> following were developed by Pure Seed Testing, Inc., Hubbard, Oregon,<br />
United States. Received 09/12/2006.<br />
PI 643431 PVPO. Poa pratensis L.<br />
Cultivar. "HIGH NOON". PVP 200600287.<br />
<strong>The</strong> following were developed by Blue Moon Farm LLC, Lebanon, Oregon, United<br />
States. Received 09/12/2006.<br />
PI 643432 PVPO. Lolium perenne L.<br />
Cultivar. "LS2200". PVP 200600288.<br />
<strong>The</strong> following were developed by Jerry L. Baker, Samuel Roberts <strong>No</strong>ble<br />
Foundation, Inc., P. O. Box 2180, 2510 Highway 199 East, Ardmore, Oklahoma<br />
73402, United States; Malay Saha, <strong>The</strong> Samuel Roberts <strong>No</strong>ble Foundation, 2510<br />
Sam <strong>No</strong>ble Parkway, Ardmore, Oklahoma 73401, United States; <strong>The</strong> Samuel Roberts<br />
<strong>No</strong>ble Foundation, Inc., Ardmore, Oklahoma, United States; Joe Bouton, <strong>The</strong><br />
Samuel Roberts <strong>No</strong>ble Foundation, Inc., 2510 Sam <strong>No</strong>ble Parkway, Ardmore,<br />
Oklahoma 73401, United States. Received 09/12/2006.<br />
PI 643433. Secale cereale L.<br />
Cultivar. "MATON II". PVP 200600289; CV-19.<br />
<strong>The</strong> following were developed by GeneFresh, Inc., Salinas, California, United<br />
States. Received 09/12/2006.<br />
PI 643434 PVPO. Lactuca sativa L.<br />
Cultivar. "MATADOR". PVP 200600290.<br />
191
<strong>The</strong> following were developed by Craig F. Morris, USDA-ARS, Western Wheat<br />
Quality Lab., E-202 FSHN Facility East, Pullman, Washington 99164-6394,<br />
United States; Blair J. Goates, USDA-ARS, National Small Grains <strong>Germplasm</strong><br />
Res. Facility, 1691 S. 2700 W., Aberdeen, Idaho 83210, United States; Robert<br />
E. Allan, USDA-ARS, Dept. of Crop & Soil Science, 209 Johnson Hall, Pullman,<br />
Washington 99164, United States; James A. Anderson, USDA, ARS, Washington<br />
State University, 209 Johnson Hall, Pullman, Washington 99164, United States;<br />
Lynn M. Little, USDA, ARS, Wheat Genetics, Quality, Physiology & Disease<br />
Res., Washington State Uniersity, Pullman, Washington 99164-6420, United<br />
States; Kimberly Garland Campbell, USDA, ARS, Washington State University,<br />
P.O. Box 646420, Pullman, Washington 99164-6420, United States; Xianming<br />
Chen, USDA-ARS, WSU - Wheat Genetics Unit, PO Box 646430, Pullman, Washington<br />
99164-6430, United States; D.A. Engle, Washington State University, Dept. of<br />
Crop and Soil Sciences, Pullman, Washington 99164-6420, United States; J.W.<br />
Burns, Washington State University, Dept. of Crop and Soil Sciences, Pullman,<br />
Washington 99164-6420, United States; J.A. Pritchett, USDA-ARS, Wheat<br />
Genetics, Quality, Phys., & dis. Res. Unit, Washington State University,<br />
Pullman, Washington 99164-6420, United States; David A. Wood, USDA-ARS, Wheat<br />
Genetics, 209 Johnson Hall, Pullman, Washington 99164-6420, United States.<br />
Received 10/26/2006.<br />
PI 643435. Triticum aestivum subsp. compactum (Host) Mackey<br />
Cultivar. Pureline. "CARA"; ARS97-135-9; A97-135; NSGC 17969. Pedigree -<br />
WA7752//WA6581/WA7217 - WA7752 = Tres//WA7163/Tres - WA7163 =<br />
VPM/Moisson951//Yamhill/Hyslop/3/Hill81 - WA6581 = PI 486428 -<br />
WA7217 = VPM/Moisson951//2*Barbee. Soft white winter club wheat.<br />
Carries resistance to common bunt (Tilletia caries), dwarf bunt<br />
(Tilletia controversa), powdery mildew (Erysiphe graminis), and stripe<br />
rust (Puccinia striiformis). Cara has the Pch1 gene, derived from VPM<br />
providing resistance to eyespot (Tapesia yallunde).<br />
<strong>The</strong> following were developed by R.S. Malhotra, Int. Center for Agricultural<br />
Research in the Dry Areas, P.O. Box 5466, Aleppo, Syria; G. Khalaf, ICARDA,<br />
Integrated Gene Management Program, P.O. Box 5466, Aleppo, Syria; A. Fikre,<br />
Ethiopian Agricultural Research Organization, Addis Ababa, Ethiopia; S.<br />
Ahmed, Ethiopian Agricultural Research Organization, Addis Ababa, Ethiopia;<br />
Geletu Bejiga, Ethiopian Institute of Agricultural Research, Addis Ababa,<br />
Ethiopia; Yadeta Anbessa, Ethiopian Institute of Agricultural Research, Addis<br />
Ababa, Ethiopia; Million Eshete, Ethiopian Institute of Agricultural<br />
Research, Addis Ababa, Ethiopia; Negussie Tadesse, Ethiopian Institute of<br />
Agricultural Research, Addis Ababa, Ethiopia; Ketama Daba, Ethiopian<br />
Institute of Agricultural Research, Addis Ababa, Ethiopia. Received<br />
10/26/2006.<br />
PI 643436. Cicer arietinum L.<br />
Cultivar. Pureline. "EJERE"; FLIP 97-263c; CHALA. CV-276. Pedigree -<br />
Developed from the cross FLIP 87-59C/UC 15 made in 1994 at ICARDA's<br />
headquarters in Tel Hadya, near Aleppo. Syria. FLIP 87-59C developed at<br />
ICARDA from the cross ILC 3843/FLIP 82-130C in 1985. FLIP 82-130C<br />
developed at ICARDA from the cross ILC 262/ILC 783 in 1979. Following<br />
pedigree method of selection, the uniform lines were bulked in F5 and<br />
given FLIP numbers. One of these lines, FLIP 97-263C was later released<br />
for general cultivation and given name 'Ejere'. Improved line developed<br />
at ICARDA, shared with Ethiopian national program and evaluated in<br />
different locations and years in Ethiopia during 1999-2004 seasons. Gave<br />
yields similar to the standard check (Arerti), and 25% higher than the<br />
192
local check (DZ-10-4), and showed resistance reaction to Fusarium wilt.<br />
Semi-erect in growth habit (34.2 cm tall), has compound leaf, and takes<br />
about 59 d to flower. Large seeded (100-seed wt. 37.2 g) with typical<br />
Kabuli type (ram-head shaped) beige colored seeds. Released as 'Ejere'<br />
by National Variety Release Committe in 2005 for general cultivation in<br />
mid- to high-altitude areas in Ethiopia's semi-moist agro-ecological<br />
zones.<br />
PI 643437. Cicer arietinum L.<br />
Cultivar. Pureline. "TEJI"; FLIP 97-266C; TEFKI. CV-277. Pedigree -<br />
Developed from the cross FLIP 87-58C/UC 15 made in 1993-94 at ICARDA<br />
headquarters in Tel Hadya in northern Syria. FLIP 87-58C was derived<br />
from a cross ILC 3777/FLIP 83-46C in 1985. FLIP 83-46C derived from a<br />
cross ILC 72/ILC <strong>215</strong> made in 1980. Pedigree method of selection was<br />
followed through F5 when the uniform lines were bulked and accessed at<br />
ICARDA. One such line, FLIP 97-266C was later released in Ehiopia as<br />
'Teji'. Gave the highest seed yield (2747 kg/ha), 1.5% more than the<br />
improved check 'Arerti', and 28% more than the local check 'DZ-10-4' in<br />
20 trials conducted in different locations in Ethiopia. Large-seeded<br />
(100-seed wt. 38.1 g), with ram-head shaped Kabuli type seeds. Compound<br />
leaves, flowers in 54 d and semi-erect in growth habit (plant height<br />
39.8 cm). Resistant to Fusarium wilt under Ethiopian conditions.<br />
Recommended for mid- to high-altitude areas (1800-2600 m) in sub-moist<br />
agro-ecological zones of Ethiopia.<br />
<strong>The</strong> following were developed by F.M. Bourland, University of Arkansas,<br />
<strong>No</strong>rtheast Research and Ext. Center, P.O. Box 48, Keiser, Arkansas 72351,<br />
United States; D.C. Jones, Cotton Incorporated, 6399 Weston Parkway, Cary,<br />
<strong>No</strong>rth Carolina 27513, United States. Received 10/26/2006.<br />
PI 643438. Gossypium hirsutum L.<br />
Breeding. Pureline. Arkot 9304a. GP-870. Pedigree - H1244 // DES 119 /<br />
Miscot 7803-52. Morphological traits are similar to SG105, check<br />
cultivar, except that Arkot 9304a displays high glanding characteristic<br />
(gossypol glands in calyx crown), intermediate level of leaf pubescence<br />
and smaller bracts. Over 12 replicated field tests in Arkansas, Arkot<br />
9304a yielded the same as SG 105. Compared to SG105, Arkot 9304a tended<br />
to higher fibers per seed, seed index, and lint index; similar open<br />
bolls percentage, plant height, lint percentage, micronaire, fiber<br />
length, length uniformity and fiber strength; and lower seed per area.<br />
Resistant to all U.S. races of Xanthomonas campestris pv. malvacearum,<br />
the causal agent of bacterial blight. Resistance to fusarium wilt,<br />
caused by Fusarium oxysporum, was intermediate to known resistant and s<br />
usceptible checks. Resistance of Arkot 9304a to tarnished plant bug<br />
[Lygus lineolaris] was equal to that of SG105.<br />
PI 643439. Gossypium hirsutum L.<br />
Breeding. Pureline. Arkot 9304b. GP-871. Pedigree - H1244 // DES 119 /<br />
Miscot 7803-52. Morphological traits are similar to SG105 (check<br />
cultivar) except that Arkot 9304b displays high glanding characteristic<br />
(gossypol glands in calyx crown), intermediate level of leaf pubescence<br />
and smaller bracts. Over 12 replicated field tests in Arkansas, Arkot<br />
9304b yielded 3% more than SG 105. Compared to SG 105, Arkot 9304b<br />
tended to have higher lint percentage, open bolls percentage, fibers per<br />
seed, seed index, and lint index; similar plant height, micronaire,<br />
length uniformity, and fiber strength, lower fiber length and seed per<br />
193
area. Resistant to all U.S. races of Xanthomonas campestris pv.<br />
malvacearum, the causal agent of bacterial blight. Resistant to fusarium<br />
wilt [caused by Fusarium oxysporum sp. vasinfectum] was equal to a known<br />
resistant check. Resistance to tarnished plant bug [Lygus lineolaris]<br />
was equal to SG 105.<br />
PI 643440. Gossypium hirsutum L.<br />
Breeding. Pureline. Arkot 9308. GP-872. Pedigree - H1<strong>215</strong> // DES 237-7 /<br />
Miscot 7824. Morphological traits similar to SG 105 (check cultivar)<br />
except that Arkot 9308 displays high glanding characteristic (gossypol<br />
glands in calyx crown) and smaller bracts. Over 12 replicated field<br />
tests in Arkansas, yielded 2% more than SG 105. Compared to SG 105,<br />
Arkot 9308 tended to have higher plant height, lint percentage, open<br />
bolls percentage, seed index, lint index, micronaire and fiber strength,<br />
similar fibers per seed, fiber length and length uniformity and lower<br />
seed per area. Resistant to all U.S. races of Xanthomonas campestris pv.<br />
malvacearum, the causal agent of bacterial blight. Resistant to fusarium<br />
wilt [caused by Fusarium oxysporum sp. vasinfectum] was intermediate to<br />
known resistant and suspecptible checks. Resistance to tarnished plant<br />
bug [Lygus lineolaris] was equal to that of SG 105.<br />
PI 643441. Gossypium hirsutum L.<br />
Breeding. Pureline. Arkot 9314. GP-873. Pedigree - H1<strong>215</strong> / Miscot 8606.<br />
Morphological traits similar to SG 105 (check culivar) except that Arkot<br />
9314 displays high glanding characteristic (gossypol glands in calyx<br />
crown) and smaller bracts. Over 12 replicated field tests in Arkansas<br />
yielded 5% more than SG 105. Compared to SG 105, Arkot 9314 tended to<br />
have higher plant height, lint percentage, open bolls percentage, seed<br />
index, lint index, fibers per seed, micronaire, similar fiber length,<br />
length uniformity, and fiber strength, lower seed per area. Resistant to<br />
all U.S. races of Xanthomonas campestris pv. malvacearum, the causal<br />
agent of bacterial blight. Resistance to fusarium wilt [caused by<br />
Fusarium oxysporum sp. vasinfectum] intermediate to known resistant and<br />
susceptible checks. Resistance to tarnished plant bug [Lygus lineolaris]<br />
was equal to that of SG 105.<br />
PI 643442. Gossypium hirsutum L.<br />
Breeding. Pureline. Arkot 9506. GP-874. Pedigree -<br />
F1(DP90/ST825//F1(Miscot 7918/Miscot 7803-52)///F1(Miscot T8-27/Miscot<br />
7803-52. Morphological traits similar to SG 105 (check cultivar) except<br />
that Arkot 9506 displays smaller bracts. Over 15 replicated field tests<br />
in Arkansas yielded 6% more than SG 105. Compared to SG 105, Arkot 9506<br />
tended to have higher lint percentage, lint index, and fibers per seed,<br />
similar oen bolls percentage, seed index, and micronaire, lower plant<br />
height, fiber length, length uniformity, fiber strength and seed per<br />
area. Resistant to all U.S. races of Xanthomonas campestris pv.<br />
malvacearum, the causal agent of bacterial blight. Resistance to<br />
fusarium wilt [caused by Fusarium oxysporum sp. vasinfectum]<br />
intermediate to known resistant and susceptible checks. Resstance to<br />
tarnished plant bug [Lygus lineolaris] was equal to that of SG 105.<br />
PI 643443. Gossypium hirsutum L.<br />
Breeding. Pureline. Arkot 9513. GP-875. Pedigree -<br />
H1330/St81-21-2///Arkot 8712 (sister line) //F1(Miscot T8-27/Miscot<br />
7803-52). Morphological traits similar to SG 105 (check cultivar) except<br />
that Arkot 9513 displays smaller bracts. Over 15 replicated field tests<br />
in Arkansas, Arkot 9513 yielded the same as SG 105. Compared to SG 105,<br />
194
Arkot 9513 tended to have higher lint percentage, open boll percentage,<br />
lint index, fibers per seed, fiber strength, similar plant height, seed<br />
index, micronaire, fiber length and length uniformity and lower seed per<br />
area. Resistance to all U.S. races of Xanthomonas campestris pv.<br />
malvacearum, the causal agent of bacterial blight. Resistance to<br />
fusarium wilt [caused by Fusarium oxysproum sp. vasinfectum] was equal<br />
to a known resistant check. Resistance of Arkot 9513 to tarnished plant<br />
bug [Lygus lineolaris] was equal to that of SG 105.<br />
PI 643444. Gossypium hirsutum L.<br />
Breeding. Pureline. Arkot RM24. GP-881. Pedigree - DES 119/Miscot 8606.<br />
Morphological traits similar to SG 105 (check cultivar) except that<br />
Arkot RM24 displays intermediate leaf pubescence, higher marginal bract<br />
trichome density, and smaller bracts. Over 15 replicated field tests in<br />
Arkansas, yielded 12% more than SG 105. Compared to SG 105, Arkot RM24<br />
tended to have higher lint percentage, open bolls percentage, seed per<br />
area, and fibers per seed, similar plant height, lint index, micronaire,<br />
and fiber length, lower seed index, length uniformity, and fiber<br />
strength. Resistant to all U.S. races of Xanthomonas campestris pv.<br />
malvacearum, the causal agent of bacterial blight. Resistance to<br />
fusarium wilt [caused by Fusarium oxysporum sp. vasinfectum] was as<br />
resistant as a known resistant check. Resistance to tarnished plant bug<br />
[Lygus lineolaris] was equal to that of SG 105.<br />
<strong>The</strong> following were developed by Donald F. Salmon, Alberta Agriculture, Field<br />
Crop Research Centre, 5030-50 Street, Lacombe, Alberta T4L 1W8, Canada; James<br />
H. Helm, Alberta Agriculture, Food and Rural Development, Field Crop<br />
Development Centre, Lacombe, Alberta T4L 1W8, Canada; Patricia E. Juskiw,<br />
Alberta Agriculture, Field Crop Development Centre, 5030-50 St., Lacombe,<br />
Alberta T4L 1W8, Canada; Joseph M. Nyachiro, Alberta Agriculture, Food &<br />
Rural Development, Field Crop Development Centre, Lacombe, Alberta T4L 1W8,<br />
Canada; M. Oro, Alberta Agriculture, Food and Rural Developmentt. Centre,<br />
Field Crop Development Center, Lacombe, Alberta T4L 1W8, Canada. Received<br />
10/26/2006.<br />
PI 643445. Hordeum vulgare L. subsp. vulgare<br />
Cultivar. Pureline. "SUNDRE"; BT 566; H92068001. CV-332; REST 643445.<br />
Pedigree - BT 636/Tukwa. Released 2006. Six-rowed, smooth-awned, feed<br />
barley with purplish auricles. Medium height (~88cm), matures in about<br />
95 d with relatively strong straw and medium lodging resistance. Has<br />
juvenile growth habit between erect and intermediate with a short green<br />
coleoptile. Its juveline plants have wide, long and upright flag leaves<br />
with purplish auricles. Has medium spikes with long and slightly<br />
purplish tipped awns. Has medium long-medium wide kernels with clasping<br />
lodicules and horseshoe-shaped basal markings. Has good feed quality<br />
traits such as high digestible energy and proteins. Has good field<br />
resistance to scald, based on combined data from Western Co-operative<br />
Six-Rowed Barley Test and Cimmyt. In Mexico under high scald presure, BT<br />
566 was rated as 'TR' (trace resistant) in 2001 and 'MR' (moderately<br />
resistant) in 2002. In inoculated tests for smut in 2003-2004 at FCDC,<br />
H92068001 was shown to be moderately susceptible to loose smut [caused<br />
by Ustilago nuda]. In Western Co-operative Six-Rowed Barley Tests, BT<br />
566 had good resistance to covered smut [caused by U. hordei]. Sundre<br />
has good resistance or tolerance to false loose smut [caused by U.<br />
nigra]. Showed moderately resistant and moderately susceptible in<br />
reaction to net-form of net blotch [caused by Pyrenophora teres f.<br />
195
teres] and stem rust [caused by Puccinia graminis]. Moderately<br />
susceptible to common root rot [caused by Cochliobolus sativus] and<br />
speckled leaf blotch [caused by Septoria passerinii]. Moderately<br />
susceptible to fusarium head blight (scab) (mainly caused by Fusarium<br />
graminearum].<br />
<strong>The</strong> following were developed by Charles Brummer, University of Georgia, Crop<br />
and Soil Science Department, Center for Applied Genetic Technologies, Athens,<br />
Georgia 30602, United States; Heathcliffe Riday, USDA, ARS, US Dairy Forage<br />
Research Center, 1925 Linden Drive West, Madison, Wisconsin 53706, United<br />
States. Received 11/01/2006.<br />
PI 643446. Medicago sativa subsp. falcata (L.) Arcang.<br />
Breeding. Population. IAMF101; IAFAL. GP-347. Pedigree - This is a cycle<br />
2 out of the following source populations (number of plants in<br />
parentheses): IA-3018 (3), PI 314092 (2), PI 315476 (2), PI 384507 (4),<br />
PI 494661 (2), PI 502441 (2), PI 502450 (2), PI 502453 (3), PI 505872<br />
(1), PI 538985 (1), PI 538989 (1), PI 538993 (1), PI 538994 (2), PI<br />
573175 (1), PI 631597 (4), PI 631806 (2), WISFAL (3). Genetically broad<br />
based tetraploid (2n=4x=32) yellow-flowered alfalfa, pods range from<br />
falcata (sickle-shape) to single coiled. Developed by two cycles of<br />
recurrent phenotypic selection for persistence, autumn regrowth, and<br />
vigor from a broad based, yellow-flowered alfalfa germplasm collection.<br />
Parent plants were selected on Sept. 22, 1999 from a germplasm<br />
evaluation trial at Iowa St. Univ. Agronomy and Agric. Engineering Farm<br />
near Ames, IA that had been planted in spring 1997. Selection was based<br />
on yield performance, freedom from disease and insect pests, and autumn<br />
regrowth. Experimental falcata population IA-3018 was developed at Iawa<br />
State Univ by C.P. Wilsie in 1960's. Parental plants were intercrossed<br />
by hand in the greenhouse at Ames, IA during the winter of 1999-2000 and<br />
equal quantities of seed from each parent were bulked. Seeds were<br />
germinated in spring 2000 in the greenhouse, and approx. 1000 seedlings<br />
were transplanted to the field at the iowa State Univ Agronomy and Agri<br />
c. Engineering Farm at Ames, IA in May 2000. In Sept. 2003, 56 plants<br />
were selected based on persistence, vigor, autumn regrowth, moved to the<br />
greenhouse, and intercrossed. Equal quantities of seed from each plant<br />
were bulked to form the Syn 1 generation of IAMF101. Syn 2 seed was<br />
produced in Idaho in 2004 and 2005. This falcata population has better<br />
fall growth compared with other falcata populations.<br />
PI 643447. Medicago sativa subsp. falcata (L.) Arcang.<br />
Breeding. Population. IAMF102; HFAL. GP-348. Pedigree - Cycle 1 out of<br />
following source populations (number of plants in parentheses):<br />
IA-5291/88 (1), 5299/88 (1), IA-3018 (4), Lodgepole (2), PI 314092 (2),<br />
PI 468015 (1), PI 494661 (1), PI 502441 (2), PI 502453 (2), PI 631579<br />
(3), PI 631597 (1), PI 631796 (4), PI 631857 (3), SD 201 (1), WISFAL (4)<br />
. Genetically broad based tetraploid (2n=4x=32) yellow-flowered alfalfa,<br />
pods that range from falcata (sickle-shaped) to single coiled. Developed<br />
from one cycle of selection. <strong>Germplasm</strong>s 5291/88 and 5299/88 obtained<br />
from Institute of Agrobotany, Hungary. Experimental falcata populations<br />
IA-3018 developed at Iowa St. Univ. by C.P. Wilsie in 1960's. Lodgepole<br />
is naturalized falcata population found in the Grand River National<br />
Grassland near Lodgepole, SD. <strong>The</strong> SD 201 plant was tetraploid, developed<br />
by treating seed of the SD 201 germplasm with colchicine. <strong>The</strong> 32<br />
parental genotypes were selected from among 104 genotypes that had been<br />
testcrossed to four elite alfalfa populations. Selections were based on<br />
196
testcross performance for yield in field trials at the Iowa St. Univ.<br />
Agronomy and Agric. Engineering Farm near Ames, IA and at the Iowa State<br />
Univ. <strong>No</strong>rtheast Res. Farm near Nashua, IA from 2002 to 2003. Parents<br />
were intercrossed by hand without emasculation in the greenhouse during<br />
the winter 2003-2004. Equal quantities of seed were bulked form each<br />
parent to constitute the Syn 1 generation of the IAMF102 population. Syn<br />
2 seed was produced in Idaho in 2004 and 2005. Has moderate frequency of<br />
'creeping rooted' alfalfa. Source populations of the creeping rooted<br />
trait are PI 494661, PI 631579, and PI 631857. This germplasm has good<br />
first harvest dry matter yield.<br />
<strong>The</strong> following were developed by W. Erskine, Int. Center for Agricultural<br />
Research in the Dry Areas, P.O. Box 5466, Aleppo, Syria; A. Sarker, Int.<br />
Center for Agricultural Research in the Dry Areas, P.O. Box 5466, Aleppo,<br />
Syria; M. Kharrat, Institute of Agronomy Research in Tunisia, Tunis, Tunisia.<br />
Received 10/26/2006.<br />
PI 643448. Lens culinaris Medik. subsp. culinaris<br />
Cultivar. Pureline. "KEF"; ILL 5582. CV-26. Pedigree - Developed through<br />
single-plant selection from a Jordanian landrace, ILL 8. Single plant<br />
selection was made at ICARDA with its selection number 78S26002. Was<br />
accessed as ILL 5582 in ICARDA germplasm catelog. Has semi-erect growth<br />
habit with strong stem, providing lodging resistance; is suitable for<br />
machine harvest. Lowest pod sets at about 15 cm above soil level, which<br />
reduces harvest losses. <strong>Plant</strong>s are medium-statured (36 cm) and produce<br />
more primary branches. Flowers in 108 to 116 d in Beja and in 110 to<br />
120 d in Kef. Matures in 155 d. Has 100-seed weight of 4.5 to 5.5 g.<br />
Resistant to frost damage at any vegetative stage compared to the locals<br />
and previously released cultivars.<br />
<strong>The</strong> following were developed by W. Erskine, Int. Center for Agricultural<br />
Research in the Dry Areas, P.O. Box 5466, Aleppo, Syria; A. Sarker, Int.<br />
Center for Agricultural Research in the Dry Areas, P.O. Box 5466, Aleppo,<br />
Syria; H. El Hassan, Int. Center for Agricultural Research in the Dry Areas,<br />
P.O. Box 5466, Aleppo, Syria; H. Machleb, Lebanese Agricultural Research<br />
Institute, Talamara, Bekka Valley, Lebanon; P. Kiwan, International Center<br />
for Agricultural Res. in the Dry Areas, Grain Legumes, Terbol, Bekka Valley,<br />
Lebanon. Received 10/26/2006.<br />
PI 643449. Lens culinaris Medik. subsp. culinaris<br />
Cultivar. Pureline. "HALA"; FLIP 90-41L; ILL 7010. CV-23. Pedigree -<br />
Breeding line derived from a cross between Sel. 80S42188 and ILL 223.<br />
<strong>The</strong> female parent is a breeding line developed from the cross 76TA25<br />
between the parents ILL 474 if Syrian origin and ILL 485 of Lebanese<br />
origin. Semi-erect and tall cultivar with average height of 30 cm. First<br />
pod-bearing node is about 16 cm above ground level, allowing machine<br />
harvest with minimum loss. Leaves are dark green with pubescence,<br />
comprised of 14-16 narrow leaflets and end with long tendrils which help<br />
the canopy to be upright. <strong>Plant</strong>s bear an average of 41 pods with 1.4<br />
seeds per pod. Seed coat color is grey with dots. Seed size is larger<br />
(3.3 g100-1) than locals (2.8 g100-1). Has bright red cotyledons.<br />
Flowers in 103 d and matures in 126 d. Dehulled seed contains 26.2%<br />
protein.<br />
197
PI 643450. Lens culinaris Medik. subsp. culinaris<br />
Cultivar. Pureline. "RACHAYYA"; FLIP 87-56L; ILL 6246. CV-27. Pedigree -<br />
Breeding line developed from a cross between ILL 2129 and ILL 13. <strong>The</strong><br />
female parent, ILL 2129 is a landrace from Syria; the male parent ILL 13<br />
is a landrace from Jordan. Semi-erect and medium-statured cultivar<br />
averaging 30 cm tall, develops an average of 3 primary branches per<br />
plant. Height of first pod-bearing node is at about 15 cm above ground<br />
level, helping reduce harvest losses by combine and double-knife cutter<br />
bar. Leaves are dark green, slightly pubescent and have long tendrils.<br />
Flowering takes place in 105 d, maturity in 128 d. Seeds are round with<br />
bright red cotyledons and weigh 3.2 g. 100-1 seeds. Dehulled seeds<br />
contain 26.2% and straw has 6.6% protein. Cooking time is about 34<br />
minutes.<br />
<strong>The</strong> following were developed by A. Sarker, Int. Center for Agricultural<br />
Research in the Dry Areas, P.O. Box 5466, Aleppo, Syria. Received 10/26/2006.<br />
PI 643451. Lens culinaris Medik. subsp. culinaris<br />
Cultivar. Pureline. "ALEM TINA"; ILL 7980. Pedigree - Developed at<br />
ICARDA through cross breeding. Following a bulk-pedigree method the<br />
lentil line FLIP 96-49L was developed and later accessed by ICARCA as<br />
ILL 7980. Erect growth habit with primary branches in upright condition<br />
with lodging resistance. Due to erect and upright growth habit, more<br />
plants can be accommodated per unit area leading to higher seed yield.<br />
<strong>Plant</strong>s are medium-statured (32 cm), leaves and stems are pubescent and<br />
devoid of pigmentation. Seed weight is 3.9 g 100-1 seed, compared to 2.2<br />
g for local check. Ground color of tests is light brown to grey with<br />
patterns in black spots, cotyledons are bright red. Fifty % flowering<br />
time ranges from 41 to 66 d, maturity attains in 94 to 126 d. Protein<br />
concentration for dehulled seeds is 25.7% and straw has 6.6% protein.<br />
<strong>The</strong> following were developed by W. Erskine, Int. Center for Agricultural<br />
Research in the Dry Areas, P.O. Box 5466, Aleppo, Syria; A. Sarker, Int.<br />
Center for Agricultural Research in the Dry Areas, P.O. Box 5466, Aleppo,<br />
Syria; E. Fikru, Ethiopian Agricultural Research Organization, Addis Ababa,<br />
Ethiopia; A. Fikre, Ethiopian Agricultural Research Organization, Addis<br />
Ababa, Ethiopia; S. Ahmed, Ethiopian Agricultural Research Organization,<br />
Addis Ababa, Ethiopia; K. Ali, Ethiopian Agricultural Research Organization,<br />
Addis Ababa, Ethiopia. Received 10/26/2006.<br />
PI 643452. Lens culinaris Medik. subsp. culinaris<br />
Cultivar. Pureline. "ASSANO"; FLIP 88-46L; ILL 6819. CV-24. Pedigree -<br />
Breeding line derived from a cross between ILL 1233 and ILL 4536. Female<br />
parent, ILL 1233 is a landrace from Iran; the male parent ILL 4536 is a<br />
germplasm accession from Turkey. Semi-erect, medium-statured (34 cm)<br />
cultivar with 3-4 long fruiting branches. Leaves have light pubescence,<br />
comprised of 12-15 broad leaflets which end in well-developed tendril.<br />
Seed coat color is light pinkish without dots and cotyledon color is pa<br />
le-yellow. Has 100 seed weight of about 4.3 g. Flowers after 60 d;<br />
reaches physiological maturity after 116 d with no pod shedding at<br />
complete maturity. Protein concentration of seeds is 25.6%. Approximate<br />
cooking time is 40 minues.<br />
198
<strong>The</strong> following were developed by W. Erskine, Int. Center for Agricultural<br />
Research in the Dry Areas, P.O. Box 5466, Aleppo, Syria; A. Sarker, Int.<br />
Center for Agricultural Research in the Dry Areas, P.O. Box 5466, Aleppo,<br />
Syria; M. Kharrat, Institute of Agronomy Research in Tunisia, Tunis, Tunisia.<br />
Received 10/26/2006.<br />
PI 643453. Lens culinaris Medik. subsp. culinaris<br />
Cultivar. Pureline. "SALIANA"; FLIP 90-13L; ILL 6982. CV-25. Pedigree -<br />
Breeding line derived from a cross between ILL 4400 and ILL 5582 at<br />
ICARDA. Female parent, ILL 4400, known as Syrian local large, an<br />
improved landrace from Syria and male parent, ILL 5582, is a selection<br />
from a Jordanian landrace ILL 8. Semi-erect, medium statured variety<br />
measuring an average plant height of 35 cm. Matures in 162 d, same as<br />
Nsir, but slightly later than Nefza. Seed weight is 6-7 g 100-1, testa<br />
color is cream without a pattern, cotyledon is yellow. Its lowest pod<br />
height is about 14 cm from the ground level, suitable for machine<br />
harvest. 23.8% Protein content in dehulled seed is 23.8% compared to<br />
23.34% in Nefza and 25.36% in Nsir.<br />
<strong>The</strong> following were developed by Antonio Martin, Instituto de Agricultura<br />
Sostenible, Apdo 4084, Cordoba, Cordoba E - 14080, Spain; Sergio G. Atienza,<br />
Consejo Superior de Investigaciones Cientificas, Finca Alameda del Obispo<br />
s/n. Apdo. 4084, Cordoba, Spain; J. Ballesteros, Instituto de Agricultura<br />
Sostenible, Apartado 4084, E-14080, Cordoba, Spain; M.C. Ramirez, Instituto<br />
de Agricultura Sostenible, Apartado 4084, E-14080, Cordoba, Cordoba, Spain;<br />
A. Cabrera, ETSIAM-UCO, Departamento de Genetica, Edificio Mendel (C5),<br />
Cordoba, Spain; A. Aardse, Instituto de Agricultura Sostenible, Apartado<br />
4084, E-14080, Cordoba, Spain. Received 10/26/2006.<br />
PI 643454 QUAR. X Triticosecale sp.<br />
Breeding. Population. TS1. GP-18. Pedigree - 2n=4x=28; DDRR. T6/Huescar<br />
. Shows excessive height (155 = 165 cm) which leads to lodging; late<br />
flowering (around 128 d after sowing) and low grain yield (around 1,500<br />
Kg/Ha). Has very long spikes (22-23 cm), with low density of spikelets<br />
per spike, low fertility, tough rachis and hard glume. Seeds are long<br />
and small causing a low thousand kernel weight. <strong>The</strong>y show very long and<br />
narrow leaves. Has very low harvest index (around 0.1). Shows high<br />
potential for biomass production. In Guadalquivir River Valley<br />
conditions (37? 85' N; -4? 85' W) it has biomass yields between 13000<br />
and 18000 Kg/Ha. At flowering, flowers open and anthers go out spreading<br />
pollen. Low fertility of these lines is not explained by an<br />
auto-incompatibility phenomenon since we have developed populations<br />
involving several lines expecting to increase both fertility and yields.<br />
Neither of these objectives was achieved. Certain degree of cross<br />
pollination may be expected since anthers mature out of flowers, the<br />
percentage of cross fertilization has not been estimated.<br />
PI 643455 QUAR. X Triticosecale sp.<br />
Breeding. Population. TS10. GP-19. Pedigree - 2n=4x=28; DDRR.<br />
T4/Centeio do Alto. Excessive height (155-175 cm) which leads to<br />
lodging; late flowering (around 140 d after sowing) and low grain yield<br />
(around 1600 Kg/Ha). Has very long spikes (18-22 cm), with low density<br />
of spikelets per spike, low fertility, tough rachis and hard glume.<br />
Seeds are long and small causing a low thousand kernel weight. Very long<br />
and narrow leaves. Has very low harvest index (less than 0.1). Shows a<br />
high potential for biomass production. In Guadalquivir River Valley<br />
199
conditions (37? 85' N; -4? 85' W) has biomass yields between 15500 and<br />
19500 Kg/Ha. At flowering, flowers open and anthers go out spreading<br />
pollen. Low fertility of these lines is not explained by an<br />
auto-incompatibility phenomenon since we have developed populations<br />
involving several lines expecting to increase both fertility and yields.<br />
Neither of these objectives was achieved. Certain degree of cross<br />
pollination may be expected since anthers mature out of the flowers, the<br />
percentage of cross fertilization has not been estimated.<br />
PI 643456 QUAR. X Triticosecale sp.<br />
Breeding. Population. TS41. GP-20. Pedigree - 2n=4x=28; DDRR. Sando<br />
208/Grand Crouelle. Excessive height (around 160 cm) which leads to<br />
lodging; late flowering (around 142 d after swoing) low grain yield<br />
(around 800 Kh/Ha). Has very long spikes (26-28 cm), with low density of<br />
spikelets per spike, low fertility, tough rachis and hard glume. Seeds<br />
are long and small causing a low thousand kernel weight. Very long and<br />
narrow leaves. Has very low harvest index (less than 0.06). Shows a high<br />
potential for biomass production. In Guadalquivir River Valley<br />
conditions (37? 85' N; -4? 85' W) has biomass yields between 14000 and<br />
18000 Kh/Ha. At flowering, flowers open and anthers go out spreading<br />
pollen. Low fertility of these lines not explained by an<br />
auto-incompatibility phenomenon since we have developed populations<br />
involving several lines expecting to increase both fertility and yields.<br />
Neither of these objectives was achieved. Certain degree of cross<br />
pollination may be expected since anthers mature out of the flowers, the<br />
percentage of cross fertilization has not been estimated.<br />
<strong>The</strong> following were donated by Robert L. Jarret, USDA, ARS, <strong>Plant</strong> Genetic<br />
<strong>Resources</strong> Conservation Unit, University of Georgia, Griffin, Georgia<br />
30223-1797, United States. Received 03/13/2002.<br />
PI 643457. Solanum dulcamara L.<br />
Wild. Sheffield's Seed Co. Lot <strong>No</strong>. 9804.<br />
<strong>The</strong> following were collected by Sergey Shuvalov, N.I. Vavilov Research<br />
Institute of <strong>Plant</strong> Industry, Foreign Relationa, 42-44, Bolshaya Morskaya<br />
Street, St. Petersburg, Leningrad 190000, Russian Federation; Sergei<br />
Bulyntsev, N.I. Vavilov Institute for <strong>Plant</strong> Industry, 44 Bolshaya Morskaja<br />
Street, Department of Leguminous Crops, St. Petersburg, Leningrad 190000,<br />
Russian Federation; Ken Street, ICARDA, Aleppo, Syria; Zebuniso Muminshoeva,<br />
Tajik Agricultural Academy, Tajikistan; Ivan Maltsev, Botanical Institute,<br />
Uzbekistan. Received 11/17/2004.<br />
PI 643458. Sesamum indicum L.<br />
Uncertain. TJK04-26; IG 139469; Grif 16441. Collected 07/16/2004 in<br />
Tajikistan. Latitude 37° 52' 58" N. Longitude 68° 16' 1" E.<br />
Elevation 523 m. Shortugay village a few km S of Ishakabad along border<br />
river with Uzbekistan. Kurgan Tyube Province. All accessions from Farm<br />
stores. All material irrigated from river. Local varieties.<br />
PI 643459. Sesamum indicum L.<br />
Uncertain. TJK04-33; IG 139475; Grif 16442. Collected 07/16/2004 in<br />
Tajikistan. Latitude 37° 39' 41" N. Longitude 68° 8' 23" E.<br />
Elevation 457 m. Yangibod village 30 km S of Shortugay village along<br />
200
Uzbeck border. Kurgan Tyube Province. Material taken from several farm<br />
stores. Irrigated village.<br />
<strong>The</strong> following were collected by Maia Akhalkatsi, Institute of Botany,<br />
Georgian Academy of Sciences, Kojori road 1, Tbilisi, Georgia; Marine<br />
Mosulishvili, <strong>Plant</strong> Systematics, Institute of Botany, Georgian Academy of<br />
Sciences, Kojori road 1, Tbilisi, Georgia. Received 01/27/2006.<br />
PI 643460. Hibiscus ponticus Rupr.<br />
Wild. GE-2005-61. Collected 10/25/2005 in Georgia. Latitude 42° 5'<br />
16" N. Longitude 41° 47' 42" E. Elevation -1 m. Maltakva, Dedabera,<br />
Khobi District, Samegrelo Province.<br />
<strong>The</strong> following were donated by USDA, ARS, U.S. Sugarcane Field Station,<br />
Meridian, Mississippi, United States. Received 1983.<br />
PI 643461. Sorghum bicolor (L.) Moench subsp. bicolor<br />
MN 2695; IS 841; SA 1327-2-13-3; Pythium Resistant Quadroon; 66I 4783;<br />
Grif 15998. Root rot (Pythium) resistant.<br />
PI 643462. Sorghum bicolor (L.) Moench subsp. bicolor<br />
Uncertain. MN 3150; Grif 16161.<br />
PI 643463. Sorghum bicolor (L.) Moench subsp. bicolor<br />
Uncertain. MN 3151; Grif 16162.<br />
PI 643464. Sorghum bicolor (L.) Moench subsp. bicolor<br />
Uncertain. MN 4055; IS 3986; Grif 16289. Witchweed resistant.<br />
PI 643465. Sorghum bicolor (L.) Moench subsp. bicolor<br />
Uncertain. MN 4057; IS 3988; SA 262; Grif 16290. Witchweed resistant.<br />
PI 643466. Sorghum bicolor (L.) Moench subsp. bicolor<br />
Uncertain. MN 4548; IS 10356; Martin B-line; TX 398B; Grif 16361; 69I<br />
7429.<br />
PI 643467. Sorghum bicolor (L.) Moench subsp. bicolor<br />
Uncertain. MN 4585; IS 3991; Grif 16362. Bird resistant.<br />
<strong>The</strong> following were donated by USDA, ARS Tropical Agriculture Research<br />
Station, 2200 Pedro Albizu Campos Ave. Ste. 201, Mayaguez, Puerto Rico.<br />
Received 1966.<br />
PI 643468. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 1182; NSL 50396; 65I 1154. Collected in India.<br />
PI 643469. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 451; NSL 50419; 65I 1177. Collected in United States.<br />
PI 643470. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 452; NSL 50420; 65I 1178. Collected in United States.<br />
PI 643471. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 453; NSL 50421; 65I 1179. Collected in United States.<br />
201
PI 643472. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 455; NSL 50422; 65I 1180. Collected in United States.<br />
PI 643473. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 457; NSL 50423; 65I 1181. Collected in United States.<br />
PI 643474. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 458; NSL 50424; 65I 1182. Collected in United States.<br />
PI 643475. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 462; NSL 50425; 65I 1183. Collected in United States.<br />
PI 643476. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 463; NSL 50426; 65I 1184. Collected in United States.<br />
PI 643477. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 464; NSL 50427; 65I 1185. Collected in United States.<br />
PI 643478. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 465; NSL 50428; 65I 1186.<br />
PI 643479. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 466; NSL 50429; 65I 1187.<br />
PI 643480. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 467; NSL 50430; 65I 1188.<br />
PI 643481. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 468; NSL 50431; 65I 1189.<br />
PI 643482. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 470; NSL 50432; 65I 1190.<br />
PI 643483. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 471; NSL 50433; 65I 1191.<br />
PI 643484. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 501; NSL 50434; 65I 1192.<br />
PI 643485. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 2950; SA 7526-1-20-8-2-10-1; NSL 50437; 65I 1195. Collected in<br />
United States.<br />
PI 643486. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 2952; SA 7530-1-2-2-4-4-1M; NSL 50438; 65I 1196. Collected in United<br />
States.<br />
PI 643487. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 2953; 5080; NSL 50439; 65I 1197. Collected in United States.<br />
PI 643488. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 1156; NSL 50898; 65I 1656. Collected in Sierra Leone.<br />
PI 643489. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 1216; NSL 51072; 65I 1833. Collected in China.<br />
202
PI 643490. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 1217; NSL 51073; 65I 1834. Collected in China.<br />
PI 643491. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 1220; NSL 51074; 65I 1835. Collected in China.<br />
PI 643492. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 1208; NSL 51081; 65I 1842. Collected in China.<br />
PI 643493. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 1210; NSL 51083; 65I 1844. Collected in China.<br />
PI 643494. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 1211; NSL 51084; 65I 1845. Collected in China.<br />
PI 643495. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 1<strong>215</strong>; NSL 51086; 65I 1847. Collected in China.<br />
PI 643496. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 1219; NSL 51087; 65I 1848. Collected in China.<br />
PI 643497. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 1221; NSL 51088; 65I 1849. Collected in China.<br />
PI 643498. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 1222; NSL 51089; 65I 1850. Collected in China.<br />
PI 643499. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 1223; NSL 51090; 65I 1851. Collected in China.<br />
PI 643500. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 1564; NSL 51091; 65I 1852. Collected in India.<br />
PI 643501. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 26; NSL 51104; 65I 1865.<br />
PI 643502. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 36; NSL 51106; 65I 1867.<br />
PI 643503. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 35; NSL 51110; 65I 1871.<br />
PI 643504. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 2; NSL 51112; 65I 1873.<br />
PI 643505. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 4; NSL 51113; 65I 1874.<br />
PI 643506. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 29; 5117; NSL 51114; 65I 1875.<br />
PI 643507. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 37; NSL 51115; 65I 1876.<br />
PI 643508. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 38; NSL 51116; 65I 1877.<br />
203
PI 643509. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 39; NSL 51117; 65I 1878.<br />
PI 643510. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 709; NSL 51125; 65I 1886.<br />
PI 643511. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 710; NSL 51128; 65I 1889. Collected in United States.<br />
PI 643512. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 713; NSL 51146; 65I 1907. Collected in United States.<br />
PI 643513. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 714; NSL 51147; 65I 1908. Collected in United States.<br />
PI 643514. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 716; NSL 51148; 65I 1909. Collected in United States.<br />
PI 643515. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 718; NSL 51149; 65I 1910. Collected in United States.<br />
PI 643516. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 509; NSL 51158; 65I 1919.<br />
PI 643517. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 643; FC 13438; 65I 1920; NSL 51159.<br />
PI 643518. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 1242; NSL 51172; 65I 1933. Collected in India.<br />
PI 643519. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 1245; NSL 51174; 65I 1935. Collected in India.<br />
PI 643520. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 1257; NSL 51180; 65I 1941. Collected in India.<br />
PI 643521. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 1290; NSL 51186; 65I 1947. Collected in Tanzania.<br />
PI 643522. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 2249; NSL 51189; 65I 1950. Collected in India.<br />
PI 643523. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 2250; NSL 51190; 65I 1951. Collected in India.<br />
PI 643524. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 2888; NSL 51207; 65I 1968. Collected in Italy.<br />
PI 643525. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 1416; NSL 51226; 65I 1988. Collected in India.<br />
PI 643526. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 907; NSL 51241; 65I 2003. Collected in Mexico.<br />
PI 643527. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 908; NSL 51242; 65I 2004. Collected in Mexico.<br />
204
PI 643528. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 637; NSL 51322; 65I 2089.<br />
PI 643529. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 616; NSL 51334; 65I 2101.<br />
PI 643530. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 1251; NSL 51337; 65I 2104.<br />
PI 643531. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 708; NSL 51350; 65I 2118.<br />
PI 643532. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 719; NSL 51351; 65I 2119. Collected in United States.<br />
PI 643533. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 1212; NSL 51380; 65I 2148. Collected in China.<br />
PI 643534. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 673; 65I 2164; NSL 51396. Collected in United States.<br />
PI 643535. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 188; NSL 51402; 65I 2170.<br />
PI 643536. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 189; SA 367; NSL 51403; 65I 2171; Texas Blackhull Kafir (Tall<br />
Mutation). Developed in United States.<br />
PI 643537. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 216; NSL 51407; 65I 2175. Collected in United States.<br />
PI 643538. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 1300; NSL 51413; 65I 2181. Collected in Australia.<br />
PI 643539. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 1601; 5130; NSL 51416; 65I 2184. Collected in Texas, United States.<br />
PI 643540. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 232; NSL 51417; 65I 2185. Collected in United States.<br />
PI 643541. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 628; NSL 51418; 65I 2186.<br />
PI 643542. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 630; NSL 51419; 65I 2187.<br />
PI 643543. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 171; NSL 51421; 65I 2189.<br />
PI 643544. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 172; NSL 51422; 65I 2190.<br />
PI 643545. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 219; NSL 51432; 65I 2200. Collected in United States.<br />
PI 643546. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 220; NSL 51433; 65I 2201. Collected in United States.<br />
205
PI 643547. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 156; 5136; NSL 51453; 65I 2221.<br />
PI 643548. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 158; NSL 51454; 65I 2222.<br />
PI 643549. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 163; NSL 51455; 65I 2223.<br />
PI 643550. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 168; NSL 51456; 65I 2224.<br />
PI 643551. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 225; NSL 51463; 65I 2231. Collected in United States.<br />
PI 643552. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 227; NSL 51464; 65I 2232. Collected in United States.<br />
PI 643553. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 228; 5138; NSL 51465; 65I 2233. Collected in United States.<br />
PI 643554. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 229; NSL 51466; 65I 2234. Collected in United States.<br />
PI 643555. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 503; NSL 51467; 65I 2235.<br />
PI 643556. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 629; NSL 51468; 65I 2236.<br />
PI 643557. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 725; NSL 51469; 65I 2237. Collected in United States.<br />
PI 643558. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 1531; NSL 51470; 65I 2238. Collected in India.<br />
PI 643559. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 2042; NSL 51471; 65I 2239. Collected in Texas, United States.<br />
PI 643560. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 2188; NSL 51472; 65I 2240. Collected in India.<br />
PI 643561. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 2935; NSL 51473; 65I 2241.<br />
PI 643562. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 2936; SA 8026-2-5-2; NSL 51474; 65I 2242. Collected in Zimbabwe.<br />
PI 643563. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 2939; SA 8026-1-21-1; NSL 51475; 65I 2243. Collected in United<br />
States.<br />
PI 643564. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 2942; SA 8026-1-24 M2; NSL 51477; 65I 2245. Collected in United<br />
States.<br />
206
PI 643565. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 832; NSL 51493; 65I 2261. Collected in United States.<br />
PI 643566. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 1299; NSL 51494; 65I 2262. Collected in Australia.<br />
PI 643567. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 876; NSL 51510; 65I 2278. Collected in United States.<br />
PI 643568. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 877; NSL 51511; 65I 2279. Collected in United States.<br />
PI 643569. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 891; NSL 51512; 65I 2280. Collected in United States.<br />
PI 643570. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 1295; NSL 51515; 65I 2283. Collected in South Africa.<br />
PI 643571. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 2889; NSL 51526; 65I 2294. Collected in Italy.<br />
PI 643572. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 2283; Mantaat Q2-2-36; NSL 51534; 65I 2301. Collected in United<br />
States.<br />
PI 643573. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 2886; FAO 8485; NSL 51560; 65I 2327. Collected in Italy.<br />
PI 643574. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 2211; NSL 51568; 65I 2335. Collected in Nebraska, United States.<br />
PI 643575. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 2214A; NSL 51569; 65I 2336. Collected in Nebraska, United States.<br />
PI 643576. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 2214B; NSL 51570; 65I 2337. Collected in Nebraska, United States.<br />
PI 643577. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 2<strong>215</strong>; NSL 51571; 65I 2338. Collected in Nebraska, United States.<br />
PI 643578. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 2217; NSL 51572; 65I 2339. Collected in Nebraska, United States.<br />
PI 643579. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 2219; NSL 51573; 65I 2340. Collected in Nebraska, United States.<br />
PI 643580. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 2221; NSL 51574; 65I 2341. Collected in Nebraska, United States.<br />
PI 643581. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 2222; NSL 51575; 65I 2342. Collected in Nebraska, United States.<br />
PI 643582. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 2223; NSL 51576; 65I 2343. Collected in Nebraska, United States.<br />
PI 643583. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 2224; NSL 51577; 65I 2344. Collected in Nebraska, United States.<br />
207
PI 643584. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 2225; NSL 51578; 65I 2345. Collected in Nebraska, United States.<br />
PI 643585. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 2226; 5151; NSL 51579; 65I 2346. Collected in Nebraska, United<br />
States.<br />
PI 643586. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 2227; NSL 51580; 65I 2347. Collected in Nebraska, United States.<br />
PI 643587. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 2229; NSL 51582; 65I 2349. Collected in Nebraska, United States.<br />
PI 643588. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 2230; NSL 51583; 65I 2350. Collected in Nebraska, United States.<br />
PI 643589. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 2231; NSL 51584; 65I 2351. Collected in Nebraska, United States.<br />
PI 643590. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 2232; NSL 51585; 65I 2352. Collected in Nebraska, United States.<br />
PI 643591. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 2233; NSL 51586; 65I 2353. Collected in Nebraska, United States.<br />
PI 643592. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 2234; NSL 51587; 65I 2354. Collected in Nebraska, United States.<br />
PI 643593. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 2236; NSL 51588; 65I 2355. Collected in Nebraska, United States.<br />
PI 643594. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 2237; NSL 51589; 65I 2356. Collected in Nebraska, United States.<br />
PI 643595. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 2239; NSL 51590; 65I 2357. Collected in Nebraska, United States.<br />
PI 643596. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 2240; NSL 51591; 65I 2358. Collected in United States.<br />
PI 643597. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 404; NSL 51610; 65I 2377. Collected in United States.<br />
PI 643598. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 875; NSL 51616; 65I 2383. Collected in United States.<br />
PI 643599. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 883; NSL 51617; 65I 2384. Collected in United States.<br />
PI 643600. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 1363; NSL 51618; 65I 2385. Collected in India.<br />
PI 643601. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 1381; NSL 51619; 65I 2386. Collected in India.<br />
208
PI 643602. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 1382; NSL 51620; 65I 2387. Collected in India.<br />
PI 643603. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 691; NSL 51636; 66I 2403.<br />
PI 643604. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 226; NSL 51638; 65I 2405. Collected in United States.<br />
PI 643605. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 238; NSL 51639; 65I 2406.<br />
PI 643606. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 401; NSL 51640; 65I 2407. Collected in United States.<br />
PI 643607. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 807; NSL 51642; 65I 2409. Collected in United States.<br />
PI 643608. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 808; NSL 51643; 65I 2410. Collected in United States.<br />
PI 643609. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 809; NSL 51644; 65I 2411. Collected in United States.<br />
PI 643610. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 812; NSL 51645; 65I 2412. Collected in United States.<br />
PI 643611. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 823; NSL 51646; 65I 2413. Collected in United States.<br />
PI 643612. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 824; NSL 51647; 65I 2414. Collected in United States.<br />
PI 643613. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 881; NSL 51650; 65I 2417. Collected in United States.<br />
PI 643614. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 895; NSL 51651; 65I 2418. Collected in Oklahoma, United States.<br />
PI 643615. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 896; NSL 51652; 65I 2419. Collected in Oklahoma, United States.<br />
PI 643616. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 2926; SA 7699-25-3-1; NSL 51654; 65I 2421. Collected in United<br />
States.<br />
PI 643617. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 631; NSL 51745; 65I 2513.<br />
PI 643618. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 2284; Haak Doorn Q2-2-37; NSL 51757; 65I 2525. Collected in United<br />
States.<br />
PI 643619. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 2197; NSL 51859; 65I 2627. Collected in India.<br />
209
PI 643620. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 2638; NSL 51860; 65I 2628. Collected in India.<br />
PI 643621. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 72; NSL 51894; 65I 2662.<br />
PI 643622. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 83; NSL 51895; 65I 2663.<br />
PI 643623. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 85; NSL 51896; 65I 2664.<br />
PI 643624. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 1218; NSL 52017; 65I 2785. Collected in China.<br />
PI 643625. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 1348; NSL 52018; 65I 2786. Collected in Mexico.<br />
PI 643626. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 78; MN 67; CIso 182; NSL 52033; 65I 2801; Feterita.<br />
PI 643627. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 1315; NSL 52035; 65I 2803. Collected in United States.<br />
PI 643628. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 1349; NSL 52036; 65I 2804. Collected in Tanzania.<br />
PI 643629. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 1352; NSL 52076; 65I 2845. Collected in Kenya.<br />
PI 643630. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 80; NSL 52077; 65I 2846.<br />
PI 643631. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 82; NSL 52078; 65I 2847.<br />
PI 643632. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 1178; NSL 52308; 65I 1075. Collected in India.<br />
PI 643633. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 1192; NSL 52309; 65I 1076. Collected in India.<br />
PI 643634. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 525; NSL 54126; 66I 3023.<br />
PI 643635. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 527; NSL 54127; 66I 3024.<br />
PI 643636. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 825; 5229; NSL 54182; 66I 3082. Collected in United States.<br />
PI 643637. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 508; NSL 54185; 66I 3085.<br />
PI 643638. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 510; NSL 54186; 66I 3086.<br />
210
PI 643639. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 511; NSL 54187; 66I 3087.<br />
PI 643640. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 517; NSL 54188; 66I 3088.<br />
PI 643641. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 518; 5232; NSL 54189; 66I 3089.<br />
PI 643642. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 519; NSL 54190; 66I 3090.<br />
PI 643643. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 819; NSL 54191; 66I 3091. Collected in United States.<br />
PI 643644. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 820; NSL 54192; 66I 3092. Collected in United States.<br />
PI 643645. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 2012; NSL 54193; 66I 3093. Collected in Texas, United States.<br />
PI 643646. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 2013; NSL 54194; 66I 3094. Collected in Texas, United States.<br />
PI 643647. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 2014; NSL 54195; 66I 3095. Collected in Texas, United States.<br />
PI 643648. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 2918; Double Dwarf White Hegari; SA 7706-5-1; NSL 54292; 66I 3196.<br />
Collected in United States.<br />
PI 643649. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 123; NSL 54324; 66I 3228.<br />
PI 643650. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 103; NSL 54351; 66I 3254.<br />
PI 643651. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 106; NSL 54352; 66I 3255.<br />
PI 643652. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 1283; NSL 54355; 66I 3258. Collected in Zambia.<br />
PI 643653. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 101; NSL 54379; 66I 3282.<br />
PI 643654. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 102; NSL 54380; 66I 3283.<br />
PI 643655. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 104; NSL 54381; 66I 3284.<br />
PI 643656. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 112; NSL 54382; 66I 3285.<br />
PI 643657. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 114; NSL 54383; 66I 3286.<br />
211
PI 643658. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 115; NSL 54384; 66I 3287.<br />
PI 643659. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 120; NSL 54385; 66I 3288.<br />
PI 643660. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 122; NSL 54386; 66I 3289.<br />
PI 643661. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 124; NSL 54387; 66I 3290.<br />
PI 643662. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 126; NSL 54388; 66I 3291.<br />
PI 643663. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 128; NSL 54390; 66I 3293.<br />
PI 643664. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 129; NSL 54391; 66I 3294.<br />
PI 643665. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 132; NSL 54392; 66I 3295.<br />
PI 643666. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 139; NSL 54393; 66I 3296.<br />
PI 643667. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 135; NSL 54394; 66I 3297.<br />
PI 643668. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 136; NSL 54395; 66I 3298.<br />
PI 643669. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 138; NSL 54396; 66I 3299.<br />
PI 643670. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 142; NSL 54397; 66I 3300.<br />
PI 643671. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 145; NSL 54398; 66I 3301.<br />
PI 643672. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 146; NSL 54399; 66I 3302.<br />
PI 643673. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 531; NSL 54400; 66I 3303.<br />
PI 643674. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 532; NSL 54401; 66I 3304.<br />
PI 643675. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 533; NSL 54402; 66I 3305.<br />
PI 643676. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 535; NSL 54403; 66I 3306.<br />
212
PI 643677. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 627; NSL 54404; 66I 3307.<br />
PI 643678. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 815; NSL 54405; 66I 3308. Collected in United States.<br />
PI 643679. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 816; NSL 54406; 66I 3309. Collected in United States.<br />
PI 643680. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 821; NSL 54407; 66I 3310. Collected in United States.<br />
PI 643681. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 2007; NSL 54408; 66I 3311. Collected in Texas, United States.<br />
PI 643682. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 2026; NSL 54409; 66I 3312. Collected in Texas, United States.<br />
PI 643683. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 2043; NSL 54412; 66I 3315. Collected in Texas, United States.<br />
PI 643684. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 2921; NSL 54416; 66I 3319. Collected in United States.<br />
PI 643685. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 2934; SA 7532-1-1-1-1-6; NSL 54420; 66I 3323. Collected in United<br />
States.<br />
PI 643686. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 57; NSL 54512; 66I 3414.<br />
PI 643687. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 520; NSL 54558; 66I 3460.<br />
PI 643688. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 522; NSL 54559; 66I 3461.<br />
PI 643689. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 524; NSL 54560; 66I 3462.<br />
PI 643690. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 1498; NSL 54561; 66I 3463. Collected in India.<br />
PI 643691. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 932; FC 4625; 66I 3487; NSL 54586. Collected in Sudan.<br />
PI 643692. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 911; NSL 54634; 66I 3536. Collected in Mexico.<br />
PI 643693. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 1099; NSL 54653; 66I 3555. Collected in India.<br />
PI 643694. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 1444; NSL 54664; 66I 3567. Collected in Pakistan.<br />
213
PI 643695. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 1458; NSL 54667; 66I 3570. Collected in India.<br />
PI 643696. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 1461; AS 356; NSL 54668; 66I 3571. Collected in India.<br />
PI 643697. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 1472; NSL 54670; 66I 3573. Collected in India.<br />
PI 643698. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 1492; NSL 54675; 66I 3578. Collected in India.<br />
PI 643699. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 1493; NSL 54676; 66I 3579. Collected in India.<br />
PI 643700. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 1511; NSL 54682; 66I 3585. Collected in India.<br />
PI 643701. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 1521; NSL 54684; 66I 3587. Collected in India.<br />
PI 643702. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 1524; NSL 54685; 66I 3588. Collected in India.<br />
PI 643703. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 1530; NSL 54687; 66I 3590. Collected in India.<br />
PI 643704. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 1533; NSL 54688; 66I 3591. Collected in India.<br />
PI 643705. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 1537; NSL 54689; 66I 3592. Collected in India.<br />
PI 643706. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 1546; NSL 54692; 66I 3595. Collected in India.<br />
PI 643707. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 1573; NSL 54700; 66I 3603. Collected in India.<br />
PI 643708. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 2204; NSL 54703; 66I 3606. Collected in India.<br />
PI 643709. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 2235; NSL 54737; 66I 3642. Collected in Nebraska, United States.<br />
PI 643710. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 2353; NSL 54738; 66I 3643. Collected in United States.<br />
PI 643711. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 1067; NSL 55217; 66I 4129. Collected in India.<br />
PI 643712. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 1149; NSL 55220; 66I 4132. Collected in India.<br />
PI 643713. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 1463; NSL 55221; 66I 4133. Collected in India.<br />
214
PI 643714. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 2195; NSL 55225; 66I 4138. Collected in India.<br />
PI 643715. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 1407; NSL 55239; 66I 4151. Collected in India.<br />
PI 643716. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 2890; NSL 55244; 66I 4157. Collected in Iraq.<br />
PI 643717. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 632; NSL 55248; 66I 4161.<br />
PI 643718. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 2375; NSL 55254; 66I 4167. Collected in India.<br />
PI 643719. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 1480; NSL 55262; 66I 4175. Collected in India.<br />
PI 643720. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 1580; NSL 55263; 66I 4176. Collected in India.<br />
PI 643721. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 2270; NSL 55266; 66I 4179. Collected in United States.<br />
PI 643722. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 2074; NSL 55644; 66I 4564. Collected in India.<br />
PI 643723. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 54; NSL 55647; 66I 4567.<br />
PI 643724. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 1008; NSL 55649; 66I 4569. Collected in India.<br />
PI 643725. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 2003; NSL 55650; 66I 4570. Collected in Texas, United States.<br />
PI 643726. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 2005; NSL 55651; 66I 4571. Collected in Texas, United States.<br />
PI 643727. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 504; NSL 55766; 66I 4695.<br />
PI 643728. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 1034; NSL 55773; 66I 4704. Collected in India.<br />
PI 643729. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 915; NSL 55836; 66I 4768. Collected in Mexico.<br />
PI 643730. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 1513; NSL 55839; 66I 4771. Collected in India.<br />
PI 643731. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 2350; NSL 55840; 66I 4772. Collected in Indonesia. Djakarta.<br />
PI 643732. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 334; NSL 55851; 66I 4784. Collected in United States.<br />
<strong>215</strong>
PI 643733. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 336; NSL 55852; 66I 4785. Collected in United States.<br />
PI 643734. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 337; NSL 55853; 66I 4786. Collected in United States.<br />
PI 643735. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 338; NSL 55854; 66I 4787. Collected in United States.<br />
PI 643736. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 339; NSL 55855; 66I 4788. Collected in United States.<br />
PI 643737. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 348; MN 83; SA 292; NSL 55856; 66I 4789.<br />
PI 643738. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 371; NSL 55859; 66I 4792. Collected in United States.<br />
PI 643739. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 373; AS 3884; NSL 55860; 66I 4793. Collected in United States.<br />
PI 643740. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 375; AS 5132; NSL 55861; 66I 4794. Collected in United States.<br />
PI 643741. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 378; SA 2216; NSL 55862; 66I 4795. Collected in United States.<br />
PI 643742. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 379; NSL 55863; 66I 4796.<br />
PI 643743. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 381; NSL 55865; 66I 4798.<br />
PI 643744. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 382; NSL 55866; 66I 4799. Collected in United States.<br />
PI 643745. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 386; NSL 55869; 66I 4802. Collected in United States.<br />
PI 643746. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 387; NSL 55870; 66I 4803. Collected in United States.<br />
PI 643747. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 388; NSL 55871; 66I 4804. Collected in United States.<br />
PI 643748. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 389; NSL 55872; 66I 4805.<br />
PI 643749. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 506; NSL 55873; 66I 4806.<br />
PI 643750. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 802; NSL 55886; 66I 4823. Collected in United States.<br />
PI 643751. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 335; NSL 55894; 66I 4835. Collected in United States.<br />
216
PI 643752. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 2241; NSL 55953; 66I 4903. Collected in Mexico.<br />
PI 643753. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 636; NSL 55966; 66I 4919.<br />
PI 643754. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 2371; NSL 55968; 66I 4921.<br />
PI 643755. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 2887; NSL 67923; 66I 4825. Collected in Italy.<br />
PI 643756. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 13; NSL 84147; ISABELA NO 9881.<br />
PI 643757. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 15; NSL 84148; ISABELA NO 9882.<br />
PI 643758. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 23; NSL 84149; ISABELA NO 9885.<br />
PI 643759. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 28; NSL 84150; ISABELA NO 9887.<br />
PI 643760. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 30; NSL 84151; ISABELA NO 9888.<br />
PI 643761. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 31; NSL 84152; ISABELA NO 9889.<br />
PI 643762. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 130; NSL 84155; ISABELA NO 9908.<br />
PI 643763. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 143; NSL 84156; ISABELA NO 9912.<br />
PI 643764. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 144; NSL 84157; ISABELA NO 9913.<br />
PI 643765. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 148; NSL 84158; ISABELA NO 9915.<br />
PI 643766. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 149; NSL 84159; ISABELA NO 9916.<br />
PI 643767. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 150; NSL 84160; ISABELA NO 9917.<br />
PI 643768. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 151; NSL 84161; ISABELA NO 9918.<br />
PI 643769. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 152; NSL 84162; ISABELA NO 9919.<br />
PI 643770. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 153; NSL 84163; ISABELA NO 9920.<br />
217
PI 643771. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 159; NSL 84165; ISABELA NO 9924.<br />
PI 643772. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 160; NSL 84166; ISABELA NO 9925.<br />
PI 643773. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 166; NSL 84167; ISABELA NO 9930.<br />
PI 643774. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 221; NSL 84168; ISABELA NO 9948. Collected in United States.<br />
PI 643775. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 223; NSL 84169; ISABELA NO 9950. Collected in United States.<br />
PI 643776. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 224; NSL 84170; ISABELA NO 9951. Collected in United States.<br />
PI 643777. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 259; NSL 84172; ISABELA NO 9953. Collected in China.<br />
PI 643778. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 399; NSL 84173; ISABELA NO 9971. Collected in United States.<br />
PI 643779. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 407; NSL 84174; ISABELA NO 9973.<br />
PI 643780. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 409; NSL 84175; ISABELA NO 9975. Collected in United States.<br />
PI 643781. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 410; NSL 84176; ISABELA NO 9976. Collected in United States.<br />
PI 643782. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 417; NSL 84177; ISABELA NO 9980. Developed in United States.<br />
PI 643783. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 418; NSL 84178; ISABELA NO 9981. Developed in United States.<br />
PI 643784. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 454; NSL 84179; ISABELA NO 9982. Collected in United States.<br />
PI 643785. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 456; NSL 84180; ISABELA NO 9983. Collected in United States.<br />
PI 643786. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 459; NSL 84181; ISABELA NO 9984. Collected in United States.<br />
PI 643787. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 460; NSL 84182; ISABELA NO 9985. Collected in United States.<br />
PI 643788. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 469; NSL 84183; ISABELA NO 9987.<br />
PI 643789. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 472; NSL 84184; ISABELA NO 9988.<br />
218
PI 643790. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 635; NSL 84187; ISABELA NO 10012.<br />
PI 643791. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 638; NSL 84188; ISABELA NO 10013.<br />
PI 643792. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 692; NSL 84189; ISABELA NO 10029.<br />
PI 643793. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 723; NSL 84191; ISABELA NO 10040. Collected in United States.<br />
PI 643794. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 803; NSL 84192; ISABELA NO 10042. Collected in United States.<br />
PI 643795. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 804; NSL 84193; ISABELA NO 10043. Collected in United States.<br />
PI 643796. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 811; NSL 84194; ISABELA NO 10047. Collected in United States.<br />
PI 643797. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 817; NSL 84195; ISABELA NO 10050. Collected in United States.<br />
PI 643798. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 818; NSL 84196; ISABELA NO 10051. Collected in United States.<br />
PI 643799. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 828; NSL 84197; ISABELA NO 10052. Collected in United States.<br />
PI 643800. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 885; NSL 84198; ISABELA NO 10077. Collected in United States.<br />
PI 643801. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 886; NSL 84199; ISABELA NO 10078. Collected in United States.<br />
PI 643802. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 887; NSL 84200; ISABELA NO 10079. Collected in United States.<br />
PI 643803. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 888; NSL 84201; ISABELA NO 10080. Collected in United States.<br />
PI 643804. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 889; NSL 84202; ISABELA NO 10081. Collected in United States.<br />
PI 643805. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 890; NSL 84203; ISABELA NO 10082. Collected in United States.<br />
PI 643806. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 965; EC 6856; NSL 84<strong>215</strong>; ISABELA NO 10113. Collected in Tanzania.<br />
PI 643807. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 966; NSL 84216; ISABELA NO 10114. Collected in United States.<br />
PI 643808. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 1109; NSL 84223; ISABELA NO 10151. Collected in India.<br />
219
PI 643809. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 1196; NSL 84227; ISABELA NO 10171. Collected in Malawi.<br />
PI 643810. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 1225; NSL 84228; ISABELA NO 10174. Collected in United States.<br />
PI 643811. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 1226; NSL 84229; ISABELA NO 10175.<br />
PI 643812. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 1252; NSL 84230; ISABELA NO 10183. Collected in South Africa.<br />
PI 643813. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 1253; NSL 84231; ISABELA NO 10184. Collected in India.<br />
PI 643814. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 1273; NSL 84233; ISABELA NO 10187. Collected in Zambia.<br />
PI 643815. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 1285; NSL 84234; ISABELA NO 10188. Collected in Zaire.<br />
PI 643816. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 1286; NSL 84235; ISABELA NO 10189. Collected in Texas, United States.<br />
PI 643817. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 1291; NSL 84236; ISABELA NO 10190. Collected in Tanzania.<br />
PI 643818. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 1294; NSL 84237; ISABELA NO 10192. Collected in South Africa.<br />
PI 643819. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 1296; NSL 84238; ISABELA NO 10193.<br />
PI 643820. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 1298; NSL 84239; ISABELA NO 10194. Collected in United States.<br />
PI 643821. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 1301; NSL 84240; ISABELA NO 10195. Collected in Australia.<br />
PI 643822. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 1332; NSL 84243; ISABELA NO 10199. Collected in Nigeria.<br />
PI 643823. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 1347; NSL 84244; ISABELA NO 10200. Collected in Egypt.<br />
PI 643824. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 1351; NSL 84245; ISABELA NO 10201. Collected in Mexico.<br />
PI 643825. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 1357; NSL 84246; ISABELA NO 10202. Collected in India.<br />
PI 643826. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 1408; NSL 84250; ISABELA NO 10209. Collected in India.<br />
PI 643827. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 1415; NSL 84252; ISABELA NO 10212. Collected in India.<br />
220
PI 643828. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 1422; NSL 84253; ISABELA NO 10213. Collected in India.<br />
PI 643829. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 1465; NSL 84255; ISABELA NO 10218. Collected in India.<br />
PI 643830. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 1466; NSL 84256; ISABELA NO 10219. Collected in India.<br />
PI 643831. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 1467; NSL 84257; ISABELA NO 10220. Collected in India.<br />
PI 643832. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 1473; NSL 84258; ISABELA NO 10222. Collected in India.<br />
PI 643833. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 1479; NSL 84260; ISABELA NO 10224. Collected in India.<br />
PI 643834. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 1486; NSL 84261; ISABELA NO 10225. Collected in India.<br />
PI 643835. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 1512; NSL 84266; ISABELA NO 10230. Collected in India.<br />
PI 643836. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 1522; NSL 84269; ISABELA NO 10235. Collected in India.<br />
PI 643837. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 1532; NSL 84271; ISABELA NO 10238. Collected in India.<br />
PI 643838. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 1544; NSL 84272; ISABELA NO 10239. Collected in India.<br />
PI 643839. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 1547; NSL 84274; ISABELA NO 10241. Collected in India.<br />
PI 643840. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 1548; NSL 84275; ISABELA NO 10242. Collected in India.<br />
PI 643841. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 1549; NSL 84276; ISABELA NO 10243. Collected in India.<br />
PI 643842. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 1563; NSL 84278; ISABELA NO 10247. Collected in India.<br />
PI 643843. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 1565; NSL 84279; ISABELA NO 10248. Collected in India.<br />
PI 643844. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 1845; NSL 84282; ISABELA NO 10257. Collected in Arizona, United<br />
States.<br />
PI 643845. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 1849; NSL 84283; ISABELA NO 10259. Collected in Arizona, United<br />
States.<br />
221
PI 643846. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 1882; 5909; NSL 84284; ISABELA NO 10262.<br />
PI 643847. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 2044; NSL 84286; ISABELA NO 10269. Collected in Texas, United States.<br />
PI 643848. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 2075; NSL 84288; ISABELA NO 10272. Collected in India.<br />
PI 643849. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 2210; NSL 84300; ISABELA NO 10332. Collected in Nebraska, United<br />
States.<br />
PI 643850. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 2220; NSL 84301; ISABELA NO 10334. Collected in Nebraska, United<br />
States.<br />
PI 643851. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 2258; NSL 84302; ISABELA NO 10345. Collected in United States.<br />
PI 643852. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 2372; NSL 84327; ISABELA NO 10389.<br />
PI 643853. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 2892; NSL 84395; ISABELA NO 10506. Collected in Italy.<br />
PI 643854. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 2937; SA 8026-2-5-1; NSL 86751; 74I 10523. Collected in United<br />
States.<br />
PI 643855. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 2938; SA 8026-1-21-2; NSL 86752; 74I 10524. Collected in United<br />
States.<br />
PI 643856. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 2941; SA 8026-1-15-5; NSL 86753; 74I 10525. Collected in United<br />
States.<br />
PI 643857. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 2943; SA 8026-1-2-1-4; NSL 86754; 74I 10526. Collected in United<br />
States.<br />
PI 643858. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 2944; SA 8026-1-19-1-2; NSL 86755; 74I 10527. Collected in United<br />
States.<br />
PI 643859. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 2945; SA 2526-4-11-3-14-3-1; NSL 86756; 74I 10528. Collected in<br />
United States.<br />
PI 643860. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 2946; SA 7530-1-2-2-7-3-3-1; NSL 86757; 74I 10529. Collected in<br />
United States.<br />
PI 643861. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 2947; SA 7530-1-2-2-7-1-6; NSL 86758; 74I 10530. Collected in United<br />
States.<br />
222
PI 643862. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 2948; SA 7526-4-11-3-9-4-1; NSL 86759; 74I 10531. Collected in<br />
United States.<br />
PI 643863. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 2951; SA 7530-1-2-2-7-3-3-2; NSL 86761; 74I 10533. Collected in<br />
United States.<br />
PI 643864. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 2954; SA 7530-1-2-2-7-1-1; NSL 86762; 74I 10534. Collected in United<br />
States.<br />
<strong>The</strong> following were donated by Antonio Sotomayor-Rios, USDA, ARS, National<br />
<strong>Germplasm</strong> Repository, Tropical Agric. Research Station, Mayaguez, Puerto Rico.<br />
Received 1979.<br />
PI 643865. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 12; NSL 103074; PR 09880.<br />
PI 643866. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 21; NSL 103075; PR 09884.<br />
PI 643867. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 24; NSL 103076; PR 09886.<br />
PI 643868. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 32; NSL 103077; PR 09890.<br />
PI 643869. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 117; NSL 103078; PR 09905.<br />
PI 643870. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 416; NSL 103079; PR 09979. Developed in United States.<br />
PI 643871. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 814; NSL 103081; PR 10049. Collected in United States.<br />
PI 643872. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 892; 6080; NSL 103082; PR 10083. Collected in United States.<br />
PI 643873. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 995; NSL 103086; PR 10115. Collected in United States.<br />
PI 643874. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 1293; NSL 103092; PR 10191. Collected in South Africa.<br />
PI 643875. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 1361; NSL 103094; PR 10204. Collected in India.<br />
PI 643876. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 1436; NSL 103095; PR 10216. Collected in India.<br />
PI 643877. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 1468; NSL 103096; PR 10221. Collected in India.<br />
223
PI 643878. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 1520; NSL 103099; PR 10234. Collected in India.<br />
PI 643879. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 2004; NSL 103101; PR 10263. Collected in Texas, United States.<br />
PI 643880. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 2194; NSL 103105; PR 10327. Collected in India.<br />
PI 643881. Sorghum bicolor (L.) Moench subsp. bicolor<br />
IS 2917; SA 7706-1-2; Double Dwarf White Hegari; NSL 103129; PR 10516.<br />
Collected in United States.<br />
<strong>The</strong> following were donated by R.F. Arrudaveiga, Instituto Agronomico, Av.<br />
Barao De Itapura, 1481, Caixa Postal 28, Campinas, Sao Paulo 13001, Brazil.<br />
Received 02/02/1990.<br />
PI 643882. Hibiscus sabdariffa L.<br />
Grif 1539.<br />
<strong>The</strong> following were collected by Rick J. Lewandowski, Morris Arboretum, <strong>The</strong><br />
University of Pennsylvania, 9414 Meadowbrook Road, Philadelphia, Pennsylvania<br />
19118, United States; Kevin Conrad, U.S. National Arboretum, USDA, ARS, 3501<br />
New York Avenue, N.E., Washington, District of Columbia 20002, United States;<br />
Tiecheng Cui, Xian Botanic Garden, Cuihua South Rd., Xian City, Shaanxi<br />
710061, China; Kunso Kim, <strong>No</strong>rfolk Botanical Garden, Azalea Garden Road,<br />
<strong>No</strong>rfolk, Virginia 23518, United States; James R. Ault, Chicago Botanic<br />
Garden, 1000 Lake Cook Road, P.O. Box 400, Glencoe, Illinois 60022, United<br />
States. Donated by Shawn Belt, USDA, ARS, U.S. National Arboretum, National<br />
<strong>Germplasm</strong> Repository, Glenn Dale, Maryland 20769-9157, United States.<br />
Received 03/03/1997.<br />
PI 643883. Tricyrtis latifolia Maxim.<br />
Wild. QLG-006; Grif 13915; NA 67630; You Dian Chau (oil point grass).<br />
Collected 09/07/1996 in Shaanxi, China. Latitude 33° 38' 56" N.<br />
Longitude 107° 48' 44" E. Elevation 1740 m. Foping District, Foping<br />
Nature Preserve, San Gua Miao, Wa Fang Gou (Tile House Gully). Growing<br />
in deep shade in mixed deciduous and evergreen forest in moist<br />
conditions. Growing with bamboo Cornus kousa var. chinensis, sphagnum<br />
moss, Viburnum Rhododendron sp., Acer sp. and numerous herbaceous<br />
species.<br />
<strong>The</strong> following were collected by Paul Meyer, <strong>The</strong> University of Pennsylvania,<br />
Morris Arboretum, 9414 Meadowlark Avenue, Philadelphia, Pennsylvania 19118,<br />
United States; William Thomas, Longwood Gardens, P.O. Box 501, Kennett<br />
Square, Pennsylvania 19348, United States; Kevin Conrad, U.S. National<br />
Arboretum, USDA, ARS, 3501 New York Avenue, N.E., Washington, District of<br />
Columbia 20002, United States; Peter del Tredici, <strong>The</strong> Arnold Arboretum,<br />
Harvard University, 125 Arbor Way, Jamaica Plain, Massachusetts 02130-3159,<br />
United States. Donated by Shawn Belt, USDA, ARS, U.S. National Arboretum,<br />
National <strong>Germplasm</strong> Repository, Glenn Dale, Maryland 20769-9157, United States.<br />
Received 03/03/1997.<br />
224
PI 643884. Tricyrtis macropoda Miq.<br />
Wild. WD 044; Grif 13918; NA 64811. Collected 09/18/1994 in China.<br />
Latitude 32° 24' 27" N. Longitude 110° 59' 54" E. Elevation 1200 m.<br />
m. Wudang Shan, Hubei. In moist woodland valley with Lindera glauca,<br />
Actinidia chinensis, Acer henry, Cornus controversa and Pueraria lobata,<br />
Quercus serrata. Seeds collected from many plants.<br />
<strong>The</strong> following were donated by Cindy Wildeus, University of Virgin Islands,<br />
Kingshill, St. Croix 008850, Virgin Islands (U.S.). Received 08/22/1989.<br />
PI 643885. Alysicarpus vaginalis (L.) DC.<br />
VI 38; Grif 5533. Collected 08/11/1988 in St. Croix, Virgin Islands<br />
(U.S.). Scenic Road West, St. Croix, V.I. Roadside.<br />
PI 643886. Centrosema pubescens Benth.<br />
VI 53; Grif 5540. Collected 02/1987 in St. Croix, Virgin Islands (U.S.).<br />
Junction of highways 58 and 765, St. Croix, V.I. Roadside.<br />
PI 643887. Centrosema pubescens Benth.<br />
VI 87; Grif 5544. Collected 02/20/1989 in St. Croix, Virgin Islands<br />
(U.S.). Upper Love, St. Croix, V.I. Panicum maximum-sorghum sp.<br />
pastures.<br />
<strong>The</strong> following were collected by Fooks; Arthur O. Tucker, Delaware State<br />
University, Department of Agriculture & Natural <strong>Resources</strong>, 1200 <strong>No</strong>rth Dupont<br />
Highway, Dover, Delaware 19901-2277, United States. Donated by James Wolfe,<br />
USDA, SCS, Suite 1321, Federal Building, 100 West Capitol Street, Jackson,<br />
Mississippi 39269, United States. Received 01/18/1991.<br />
PI 643888. Chamaecrista fasciculata (Michx.) Greene<br />
9021262; MS 4842; Grif 7782. Collected 10/01/1980 in Arkansas, United<br />
States. MLRA 132, Prairie County, Arkansas.<br />
<strong>The</strong> following were collected by T. Gentry. Donated by James Wolfe, USDA, SCS,<br />
Suite 1321, Federal Building, 100 West Capitol Street, Jackson, Mississippi<br />
39269, United States. Received 01/18/1991.<br />
PI 643889. Chamaecrista fasciculata (Michx.) Greene<br />
9021661; MS 4839; Grif 7785. Collected 09/01/1980 in Arkansas, United<br />
States. MLRA 131, Drew County, Arkansas.<br />
<strong>The</strong> following were collected by W. Weege. Donated by James Wolfe, USDA, SCS,<br />
Suite 1321, Federal Building, 100 West Capitol Street, Jackson, Mississippi<br />
39269, United States. Received 01/18/1991.<br />
PI 643890. Chamaecrista fasciculata (Michx.) Greene<br />
9021655; MS 4813; Grif 7786. Collected 09/01/1980 in Arkansas, United<br />
States. MLRA 117, Crawford County, Arkansas.<br />
<strong>The</strong> following were collected by John L. Reid, USDA, NRCS, 771 Corporate<br />
Drive, Suite 110, Lexington, Kentucky 40503-5479, United States. Donated by<br />
225
James Wolfe, USDA, SCS, Suite 1321, Federal Building, 100 West Capitol<br />
Street, Jackson, Mississippi 39269, United States. Received 01/18/1991.<br />
PI 643891. Chamaecrista fasciculata (Michx.) Greene<br />
9021666; MS 4868; Grif 7788. Collected 10/01/1980 in Arkansas, United<br />
States. MLRA 131, Crittenden County, Arkansas.<br />
<strong>The</strong> following were collected by H. Huffstatler; Wolfe. Donated by James<br />
Wolfe, USDA, SCS, Suite 1321, Federal Building, 100 West Capitol Street,<br />
Jackson, Mississippi 39269, United States. Received 01/18/1991.<br />
PI 643892. Chamaecrista fasciculata (Michx.) Greene<br />
9028912; MS 4906; Grif 7808. Collected 10/01/1982 in Mississippi,<br />
United States. MLRA 135. Composite from Blackland Prarie, Mississippi.<br />
<strong>The</strong> following were collected by J. Caudle; R. Swift. Donated by James Wolfe,<br />
USDA, SCS, Suite 1321, Federal Building, 100 West Capitol Street, Jackson,<br />
Mississippi 39269, United States. Received 01/18/1991.<br />
PI 643893. Chamaecrista fasciculata (Michx.) Greene<br />
9028913; MS 4916; Grif 7809. Collected 08/01/1980 in Arkansas, United<br />
States. MLRA 131, Monroe County, Arkansas.<br />
<strong>The</strong> following were collected by H. Huffstatler; Summers. Donated by James<br />
Wolfe, USDA, SCS, Suite 1321, Federal Building, 100 West Capitol Street,<br />
Jackson, Mississippi 39269, United States. Received 01/18/1991.<br />
PI 643894. Chamaecrista fasciculata (Michx.) Greene<br />
9028914; MS 4925; Grif 7810. Collected 11/01/1980 in Mississippi,<br />
United States. MLRA 133, Union County, Mississippi.<br />
<strong>The</strong> following were donated by Cindy Wildeus, University of Virgin Islands,<br />
Kingshill, St. Croix 008850, Virgin Islands (U.S.). Received 08/22/1989.<br />
PI 643895. Desmanthus virgatus (L.) Willd.<br />
VI 1; Grif 5550. Collected 08/05/1987 in St. Croix, Virgin Islands<br />
(U.S.). Udall Pt., St. Croix V.I. Roadside.<br />
PI 643896. Desmanthus virgatus (L.) Willd.<br />
VI 2; Grif 5551. Collected 1987 in Portuguesa, Venezuela. Soil pH 5-6,<br />
1600-2000 mm rainfall.<br />
<strong>The</strong> following were developed by Primac Seed Company, Australia. Donated by<br />
Tim L. Springer, USDA, ARS, South Central Family Farms Research, 6883 South<br />
State Highway 23, Booneville, Arkansas 72927-9214, United States. Received<br />
06/28/1991.<br />
PI 643897. Desmodium intortum (Mill.) Urb.<br />
Grif 1649. Collected in Australia.<br />
PI 643898. Desmodium uncinatum (Jacq.) DC.<br />
Grif 1650. Collected in Australia.<br />
226
<strong>The</strong> following were collected by D.P. Sheehy, Eastern Oregon Agricultural<br />
Research Center, Post Office Box E, Union, Oregon 97833, United States;<br />
Douglas A. Johnson, USDA, ARS, Forage and Range Research Laboratory, Utah<br />
State University, Logan, Utah 84322-6300, United States. Received 10/10/1996.<br />
PI 643899. Lespedeza daurica (Laxm.) Schindl. var. daurica<br />
Uncertain. E94247; Grif 14497. Collected 09/17/1994 in Mongolia.<br />
Latitude 47° 17' 52" N. Longitude 109° 3' 8" E. Elevation 1181<br />
m. Site <strong>No</strong>: E94-46. Hentii Mountains northeast of the Tariat Research<br />
Station. Along two streams draining the area. Both have microsites<br />
inhabited by numerous species. Mountain steppe. Soils are dark chestnut<br />
soils with high apparent fertility but with numerous cobbles present.<br />
Aspect is southeast and slope is 5%.<br />
PI 643900. Lespedeza daurica (Laxm.) Schindl. var. daurica<br />
Uncertain. E94165; Grif 14499. Collected 09/11/1994 in Mongolia.<br />
Latitude 47° 59' 49" N. Longitude 118° 6' 26" E. Elevation 466<br />
m. Site <strong>No</strong>: E94-32. Research station, in extreme NE corner of Mongolia<br />
approximately 30 km from border with Inner Mongolia, established to test<br />
shrub and tree species adaptation to steppe environment. Grass steppe.<br />
Sprinkler irrigation has been used.<br />
PI 643901. Lespedeza daurica (Laxm.) Schindl. var. daurica<br />
Uncertain. E94006; Grif 14502. Collected 09/02/1994 in Mongolia.<br />
Latitude 47° 12' N. Longitude 108° 40' 39" E. Elevation 1448 m.<br />
Site <strong>No</strong>: E94-01. On and surrounding Tariat Research Station located<br />
near the Herlen River in Hentii Aimag. Grass steppe uplands above the<br />
river floodplain. Previously large areas have been plowed in an attempt<br />
to grow cereals. Most of plowed land has been abandoned to weeds.<br />
Soils are shallow and gravelly and of obvious low fertility.<br />
PI 643902. Lespedeza daurica (Laxm.) Schindl. var. daurica<br />
Uncertain. W94017; Grif 14503. Collected 09/04/1994 in Mongolia.<br />
Latitude 49° 57' 52" N. Longitude 106° 18' 3" E. Elevation 939<br />
m. Just <strong>No</strong>rth of Dulaahhaan near the top of grade. Mountain steppe.<br />
Slope is 10%.<br />
PI 643903. Lespedeza juncea (L. f.) Pers.<br />
Uncertain. W94018; Grif 14504. Collected 09/04/1994 in Mongolia.<br />
Latitude 49° 57' 52" N. Longitude 106° 18' 3" E. Elevation 939<br />
m. Just north of Dulaahhaan near the top of grade. Mountain steppe.<br />
Slope is 10%.<br />
PI 643904. Lespedeza juncea (L. f.) Pers.<br />
Uncertain. W94023; Grif 14505. Collected 09/05/1994 in Mongolia.<br />
Latitude 50° 7' 11" N. Longitude 106° 13' 6" E. Elevation 832 m.<br />
About 5 km north of Shaamar and 8 km south of Suhbaatar along west side<br />
of highway in meadow. Mountain steppe.<br />
<strong>The</strong> following were donated by Md. Jalaluddin, Agricultural Research<br />
Institute, General Post Office Box 2235, Joydebpur, Gazipur, Bangladesh.<br />
Received 10/15/1993.<br />
227
PI 643905. Pueraria sp.<br />
Grif 5619.<br />
<strong>The</strong> following were donated by Cindy Wildeus, University of Virgin Islands,<br />
Kingshill, St. Croix 008850, Virgin Islands (U.S.). Received 08/22/1989.<br />
PI 643906. Teramnus labialis (L. f.) Spreng.<br />
VI 45; Grif 5581. Collected 02/1989 in St. Croix, Virgin Islands (U.S.).<br />
Udall Point, St. Croix, V.I.; roadside.<br />
<strong>The</strong> following were collected by Peter Cunningham, Dept. of Agriculture &<br />
Rural Affairs, Pastoral Research Institute, P.O. Box 180, Hamilton, Victoria<br />
3300, Australia; Mohamed Chakroun, INRAT, Forage Improvement Laboratory, Rue<br />
Hadi Karray, Ariana, Tunisia; Walter Graves, University of California,<br />
Cooperative Extension Service, 777 E. Rialto Avenue, San Bernadino,<br />
California 92415-0730, United States. Received 08/19/1994.<br />
PI 643907. Trifolium squarrosum L.<br />
Wild. T008.CPG94; W6 15982. Collected 06/21/1994 in Tunisia. Latitude<br />
36° 49' 29" N. Longitude 10° 58' 47" E. Elevation 18 m. Near<br />
Skalba, 5 k west of Menzer Temine on C45. Grazed, roadside irrigation<br />
run-off. Slope 0-5%, aspect NE. Area open. Soil clay, vertisol, pH 8.5+.<br />
Rainfall 425 mm. Moist, floodplain. Vegetation closed, seasonal tall<br />
grass. Surrounding veg. agriculture, orchard. Population abundance<br />
frequent, distribution patchy. Growth habit spreading.<br />
PI 643908. Trifolium squarrosum L.<br />
Wild. T041.CPG94; W6 16015. Collected 06/23/1994 in Tunisia. Latitude<br />
36° 45' 59" N. Longitude 9° 11' 46" E. Elevation 170 m. Near<br />
Beja, 4.5 k north of Beja on MC52. Grazed.Slope 0-5%,aspect S. Open.Soil<br />
clay.Seasonally flooded,stream terrace.Vegetation closed,seasonal tall<br />
grass. Surrounding veg. dryland wheat. Dominant herb/grass sp. couch,<br />
bermuda. Assoc. sp. Medics, Lotus c., T. fragiferum, clovers.<br />
Population abundance occasional, distribution patchy. Growth habit<br />
semi-erect.<br />
<strong>The</strong> following were developed by Jack Brown, University of Idaho, Dept. of<br />
<strong>Plant</strong>, Soil and Entomological Sciences, Crop & Weed Science, Moscow, Idaho<br />
83844-2339, United States. Received 11/09/2006.<br />
PI 643909. Brassica juncea (L.) Czern.<br />
Cultivar. Population. "KODIAK". Pedigree - Lethbridge 22A/J.89.144. Seed<br />
yield was high and relatively consistent over a range of environments<br />
that exist throughout the Pacific <strong>No</strong>rthwest region. Averaged over 96<br />
years-sites, seed yield was 1,515 kg ha-1. Lowest seed yield was from<br />
trials in 2003 (962 kg ha-1), with highest yield (1,881 kg ha-1) from<br />
trials in 2001. Seed yield was significantly higher than Cutlass (1,433<br />
kg ha-1), Lethbridge 22A (1459 kg ha-1), and Common Brown (1456 kg<br />
ha-1). Oil content (31.5%) was not significantly lower than Pacific Gold<br />
(34.8%). Aliphatic glucosinolate content of defatted seed meal was 209<br />
umole g-1, which was not significantly different than Cutlass. Primary<br />
glucosinolate was 2-propenyl glucosinolate (sinigrin), accounting for<br />
over 99% of total glucosinolates. Seedlings have small to medium size<br />
cotyledons and semi-upright seedling growth habit at the rosette stage.<br />
228
Leaves are light to med-green in color with slight glaucosity. Leaves<br />
are pointed and leaf margins have strong serration. Fully developed<br />
leaves have no lobing and leaf-attachment to the main stem shows no<br />
clasping. Flower buds appear at the tip of the apical meristem. Flowers<br />
open on average 61 d after planting. Petals are bright yellow, and<br />
anther dotting is absent. Bilateral single pods (siliques) are<br />
semi-erent to erect. Pod length and width is short to medium (35.6 mm<br />
long and 4.0 mm wide) with long pedicel length (12.9 mm) and short pod<br />
beak (6.2 mm). Pods contain a low number to medium number (18.6 seeds<br />
pod-1) of dark brown seeds. Seed size (12.20 g 1000 seeds-1) is not<br />
significantly different from Pacific Gold, (12.01 g 1000 seeds-1), and<br />
seed weight was significantly higher than Lethbridge 22A (11.05 g 1000<br />
seeds-1) or Common Brown (10.75 g 1000 seeds-1).<br />
<strong>The</strong> following were developed by Kevin B. Jensen, USDA, ARS, Utah State<br />
University, Forage & Range Research Laboratory, Logan, Utah 84322-6300,<br />
United States; A.J. Palazzo, U.S. Army Cold Regions Res. and Engineering<br />
Lab., 72 Lyme Road, Hanover, New Hampshire 03755-1290, United States; Blair<br />
Waldron, USDA, ARS, Utah State University, Forage and Range Research<br />
Laboratory, Logan, Utah 84322-6300, United States; B. Shaun Bushman,<br />
USDA,ARS, FRRL, Utah State University, Forage and Range Research Laboratory,<br />
Logan, Utah 84322-6300, United States. Received 11/06/2006.<br />
PI 643910. Elymus trachycaulus (Link) Gould ex Shinners<br />
Cultivar. Pureline. "FIRSTSTRIKE". CV-29; REST 643910. Pedigree - <strong>The</strong> 20<br />
source plants of FirstStrike originated from four germplasm collections:<br />
Ruth 21 _ Fort Carson Training Center, CO [53_54 (N/S), 15_16 (E/W)];<br />
Ruth 26 _ Fort Carson Training Center, CO [71_72 (N/S), 14_15 (E/W)];<br />
Ruth 31 _ 10 mi. north of Rawlings, WY on HWY 287; and Ruth 37 _<br />
Gillette, WY near Roadway Inn between Wyoming Highway numbers 14/16 &<br />
Railand. A source nursery was established in 1995 at Fort Carson<br />
Training Center near Pueblo, CO. Collections of Ruth 21, 26, 31, and 37<br />
wereplanted in a space_planted nursery with 10 plants per plot and eight<br />
replications (320 plants). Based on persistence and overall vigor in<br />
1997 selections were made from Ruth 21 (7 plants), Ruth 26 (9 plants),<br />
and Ruth 31 (4 plants). Vegetative sprigs (clones) from the 20 plants<br />
selected were established at a nursery near Snowville, ID (Curlew<br />
Grasslands) in 1998. This nursery was comprised of two plants per plot<br />
with five replications. In 2000, seed from each line was equally bulked<br />
by weight to form the breeder seed. A foundation seed field was<br />
established in <strong>No</strong>rth Logan, UT in 2001 and foundation seed was harvested<br />
2002, 2003, and 2004. Rapid seedling establishment is the key to a<br />
successful revegatation planting in the western United States. In<br />
seeded trials at Yakama Training Center (YTC), Yakima, WA (est. fall<br />
2002), Camp Guernsey, Guernsey, WY (est. spring 2004 and 2005), Fillm<br />
ore, UT (est. fall 2003 and 2004), and Malta, ID (est. fall 2004) when<br />
planted at a rate of 1 seed per cm pure live seed (PLS), FirstStrike had<br />
significantly (P
<strong>The</strong> following were developed by J. Allen Wrather, University of Missouri,<br />
Agricultural Research and Extension, Delta Center, P.O. Box 160,<br />
Portageville, Missouri 63873, United States; Sam C. Anand, University of<br />
Missouri, Department of Agronomy, 210 Waters Hall, Columbia, Missouri 65211,<br />
United States; David A. Sleper, University of Missouri, Department of<br />
Agronomy, 271-F Life Sciences Center, Columbia, Missouri 65211, United States<br />
; J. Grover Shannon, University of Missouri-Columbia, Missouri Ag Experiment<br />
Station, Delta Research Center, Portageville, Missouri 63873, United States;<br />
Henry Nguyen, University of Missouri-Columbia, Department of Agronomy, <strong>Plant</strong><br />
Sciences Unit, 1-87 Agriculture Building, Columbia, Missouri 65211, United<br />
States. Received 11/13/2006.<br />
PI 643911. Glycine max (L.) Merr.<br />
Cultivar. Pureline. "STODDARD". CV-487; REST 643911. Pedigree - K1393 x<br />
Anand. Stoddard was developed by the Missouri Agricultural Experiment<br />
Station at the University of Missouri-Delta Center, Portageville, MO.<br />
Yields of Stoddard have averaged 200 to 400 kg ha-1 more than Manokin on<br />
sand, loam and clay soil types in 25 Southeast Missouri tests. In<br />
comparison to 5002T in the Uniform Tests-Southern States across three<br />
years and 43 locations, Stoddard averaged 1% less in seed yield (5002T<br />
yielded 3480 kg ha-1); the same maturity (5002T matured 10/02); more<br />
lodging with a score of 2.3 versus 1.8 for 5002T based on a scale of 1<br />
to 5 with 1.0 being erect and 5.0 lodged flat); 3 cm taller (5002T was<br />
71 cm) and 1.5g 100 seeds-1 smaller seed (5002T was 14.6 g 100 seed-1).<br />
<strong>Plant</strong>s of Stoddard have a determinate growth habit with white flowers,<br />
tawny pubescence and tan pods at maturity. Seeds are shiny yellow with<br />
black hila. Seed protein and oil content on a dry weight basis have<br />
averaged 39.6 g kg-1 and 19.8 g kg-1, respectively compared to 40.6 g<br />
kg-1 and 20.5 g kg-1 for 5002T. It has shown a similar reaction to<br />
SCN HG types (races) as compared to Anand. Stoddard has shown moderate<br />
resistance to SCN HG type 2.5.7 (Race 1), HG type 1.2- (Race 2), HG type<br />
0 (Race 3) and HG type 2- (Race 5) and HG type 1.3- (Race 14) in<br />
greenhouse tests at Portageville, MO and Columbia, MO, in 2003 and 2005.<br />
Average SCN female indexes on Stoddard for each HG type above were 23,<br />
1, 15, 1, and 1, respectively based on a SCN female index of 100 for the<br />
susceptible check. In the same tests female indexes for Anand for each<br />
HG type averaged 19, 3, 13, 1 and 3, respectively. Stoddard has shown<br />
moderate resistance to root knot nematode in four years of testing<br />
(2002-2005) in plantings after potatoes near Bertrand, MO. It is<br />
moderately resistant to SDS and stem canker caused by Diaporthe<br />
phaseolorum (Cooke and Ellis) Sacc, var. meridionales F. A. Fernandez]<br />
It is susceptible to phytophthora root rot [caused by Phythphthora sojae<br />
M. J. Kaufmann & J. W. Gerdemann].<br />
<strong>The</strong> following were developed by J. Allen Wrather, University of Missouri,<br />
Agricultural Research and Extension, Delta Center, P.O. Box 160,<br />
Portageville, Missouri 63873, United States; R.T. Robbins, University of<br />
Arkansas, Nematology Lab, Fayetteville, Arkansas 72701, United States; Sam C.<br />
Anand, University of Missouri, Department of Agronomy, 210 Waters Hall,<br />
Columbia, Missouri 65211, United States; David A. Sleper, University of<br />
Missouri, Department of Agronomy, 271-F Life Sciences Center, Columbia,<br />
Missouri 65211, United States; J. Grover Shannon, University of<br />
Missouri-Columbia, Missouri Ag Experiment Station, Delta Research Center,<br />
Portageville, Missouri 63873, United States; Henry Nguyen, University of<br />
230
Missouri-Columbia, Department of Agronomy, <strong>Plant</strong> Sciences Unit, 1-87<br />
Agriculture Building, Columbia, Missouri 65211, United States. Received<br />
11/13/2006.<br />
PI 643912. Glycine max (L.) Merr.<br />
Cultivar. Pureline. "JAKE". CV-486; REST 643912. Pedigree - S94-1867 x<br />
Anand. Jake, mid-group V (RM 5.5), was developed by the Missouri<br />
Agricultural Experiment Station at the University of Missouri-Delta<br />
Center, Portageville, MO. In comparison to 5601T in the Uniform<br />
Tests-Southern States across three years and 44 locations, Jake averaged<br />
1% more in seed yield, 1d earlier (5601T matured 10/07); the same<br />
lodging score (5601T was 1.8 based on a score of 1 to 5 with 1 being<br />
erect and 5.0 lodged flat); 3 cm shorter (5601T was 82 cm) and 0.8g 100<br />
seeds-1 larger seed (5601T was 13.4 g 100 seed-1). Jake has a<br />
determinate growth habit with purple flowers, tawny pubescence and tan<br />
pods at maturity. Seed are shiny yellow with black hila. Seed protein<br />
and oil content on a dry weight basis have averaged 408 and 194 g kg-1 s<br />
eed, respectively. It has shown a similar reaction to SCN HG types<br />
(races) as compared to Anand. Jake has shown moderate resistance to SCN<br />
HG type 2.5.7 (Race 1), HG type 1.2- (Race 2), HG type 0- (Race 3) and<br />
HG type 2- (Race 5) and HG type 1.3- (Race 14). Average SCN female<br />
indexes on Jake for each HG type above were 21, 2, 26, 1, and 2,<br />
respectively based on a SCN female index of 100 for the susceptible<br />
check. In the same tests female indexes for Anand for each HG type<br />
averaged 19, 3, 13, 1 and 3, respectively. Jake has shown moderate<br />
resistance to root knot nematode in four years of testing (2002-2005) in<br />
plantings after potatoes near Bertrand, MO and has shown resistance to<br />
reniform nematode in tests at the University of Arkansas. It is<br />
moderately resistant to stem canker [caused by Diaporthe phaseolorum<br />
(Cooke and Ellis) Sacc. var. meridionales F. A. Fernandez] and sudden<br />
death syndrome [caused by Fusarium solani (Mort.) Sacc. f. sp. glycines<br />
Roy]. It is susceptible to phytophthora root rot [caused by<br />
Phythphthora sojae M. J. Kaufmann & J. W. Gerdemann].<br />
<strong>The</strong> following were developed by J. Allen Wrather, University of Missouri,<br />
Agricultural Research and Extension, Delta Center, P.O. Box 160,<br />
Portageville, Missouri 63873, United States; Sam C. Anand, University of<br />
Missouri, Department of Agronomy, 210 Waters Hall, Columbia, Missouri 65211,<br />
United States; David A. Sleper, University of Missouri, Department of<br />
Agronomy, 271-F Life Sciences Center, Columbia, Missouri 65211, United States<br />
; J. Grover Shannon, University of Missouri-Columbia, Missouri Ag Experiment<br />
Station, Delta Research Center, Portageville, Missouri 63873, United States;<br />
Jeong-Dong Lee, University of Missouri-Delta Center, P.O. Box 160 147 State<br />
Highway T, Portageville, Missouri 63873, United States. Received 11/13/2006.<br />
PI 643913. Glycine max (L.) Merr.<br />
Breeding. Pureline. S00-9980-22. GP-330. Pedigree - TN94-216 x S94-1867.<br />
TN94-213 is from S85-1009 x Hutcheson. S85-1009 is from Bedford x Essex.<br />
S94-1867 is from P9592 x S91-1693. P9592 is derived from P9561 x (A5618<br />
x P9561). P9561 is from Forrest x Mack. A5618 is from Williams x York.<br />
S91-1693 is from Hartwig x Coker 485. S00-9980-22 was developed by the<br />
University of Missouri Agricultural Experiment Station, Division of<br />
<strong>Plant</strong> Sciences - Delta Center, Portageville, MO. It has value as a<br />
parent in soybean improvement programs because of its high yield<br />
potential, high seed protein content and resistance to root knot<br />
nematode [Meloidogyne incognita (Kofoid & White) Chitwood]. S00-9980-22<br />
231
is late-group V maturity (relative maturity 5.9). <strong>Plant</strong>s of S00-9980-22<br />
have a determinate growth habit, purple flowers, tawny pubescence, tan<br />
pods and shiny yellow seed with brown hila. In comparison to 5601T in<br />
the Maturity Group V regional quality traits test over three years and<br />
24 locations, S00-9980-22 averaged 3% more seed yield (5601T averaged<br />
3454 kg ha-1), three d later (5601T matured 10/12), five cm shorter<br />
(5601T was 87 cm tall), and had a similar lodging score (5601T had a<br />
score of 1.8 where 1.0 is all plants erect and 5.0 is all plants lodged<br />
flat). Seeds of S00-9980-22 averaged 0.5 grams/100 seed-1 larger, 11 g<br />
kg-1 higher protein and with similar oil content on a 13% moisture basis<br />
than seeds of USG 5601T which averaged 13.4 grams/100 seed-1, 377 g kg-1<br />
protein and 180 g kg-1 oil. S00-9980-22 has shown resistance to common<br />
root knot nematode in Missouri screening trials after potatoes from<br />
2002-2005 near Bertrand, Missouri. It is also resistant to bacterial<br />
pustule [caused by Xanthomonas axonpodis pv. glycines (Nakano) Vauterin<br />
et al.]. It is susceptible to soybean cyst nematode Heterodera glycines<br />
Ichinohe, phytophthora root rot caused by Phytophthora sojae M. J.<br />
Kaufmann & J. W. Gerdemann and stem canker [caused by Diaporthe<br />
phaseolorum (Cooke and Ellis) Sacc. var. meridionalis F.A. Fernandez].<br />
<strong>The</strong> following were developed by J. Allen Wrather, University of Missouri,<br />
Agricultural Research and Extension, Delta Center, P.O. Box 160,<br />
Portageville, Missouri 63873, United States; David A. Sleper, University of<br />
Missouri, Department of Agronomy, 271-F Life Sciences Center, Columbia,<br />
Missouri 65211, United States; J. Grover Shannon, University of<br />
Missouri-Columbia, Missouri Ag Experiment Station, Delta Research Center,<br />
Portageville, Missouri 63873, United States; Jeong-Dong Lee, University of<br />
Missouri-Delta Center, P.O. Box 160 147 State Highway T, Portageville,<br />
Missouri 63873, United States. Received 11/13/2006.<br />
PI 643914. Glycine max (L.) Merr.<br />
Breeding. Pureline. S02-2259. GP-331. Pedigree - DP3519S x LG92-4208.<br />
DP3519S is an HG type 0 and 1.3- (formerly race 3 and 14) soybean cyst<br />
nematode resistant (SCN Heterodera glycines Ichinohe) cultivar released<br />
by Delta and Pine Land Co, PO Box 357, Scott, MS 38772. LG92-4208 is a<br />
germplasm line with 50% of its parentage derived from PIs. S02-2259,<br />
maturity group V (relative maturity 5.7) was developed by the University<br />
of Missouri Agricultural Experiment Station, Division of <strong>Plant</strong> Sciences<br />
- Delta Center, Portageville, MO. It will be useful as a parent because<br />
it combines high yield potential and disease resistance with 25% of its<br />
pedigree derived from plant introductions (PIs) that are not known to be<br />
present in the current gene pool for cultivar development in the<br />
southern USA. In the Uniform Preliminary V test, S02-2259 was 2%<br />
less than 5601T the highest yielding entry in the test at 3647 kg ha-1.<br />
In comparison to 5601T for other traits, S02-2259 matured 2 days later<br />
(5601T matured 11 October); was 5 cm shorter (5601T averaged 81 cm<br />
tall); lodged more with a lodging score of 2.3 versus 1.9 for 5601T<br />
where 1.0 is all plants erect and 5.0 is all plants lodged flat; and had<br />
0.5 g /100 seed-1 larger seed (5601T averaged 13.2 g /100 seed-1).<br />
S02-2259 was 16 g kg-1 lower in protein content and 11 g kg-1 higher in<br />
oil content than 5601T which averaged 415 g kg-1 in seed protein 203<br />
g/kg-1 in seed oil. S02-2259 has white flowers, gray pubescence, and tan<br />
pods at maturity. Seed are dull yellow with buff hila. It has shown<br />
moderate resistance to SCN HG type 0 (formerly race 3) with a female<br />
index of 9 and HG type 1.3- (formerly race 14) with a female index of 25<br />
compared to an index of 100 for the susceptible check based on<br />
232
greenhouse tests at Portageville and Columbia, MO. S02-2259 is<br />
resistant to stem canker [caused by Diaporthe phaseolorum (Cooke and<br />
Ellis) Sacc. var. meridionalis F.A. Fernandez] and bacterial pustule<br />
[caused by Xanthomonas axonpodis pv. glycines (Nakano) Vauterin et al].<br />
It is susceptible to southern root knot nematode [Meloidogyne incognita<br />
(Kofoid & White) Chitwood] and phytophthora root rot caused by<br />
Phytophthora sojae M. J. Kaufmann & J. W. Gerdemann.<br />
<strong>The</strong> following were developed by Dick L. Auld, Texas Tech University,<br />
Department of <strong>Plant</strong> and Soil Sciences, P.O. Box 42122, Lubbock, Texas<br />
79409-2122, United States; Wayne Smith, Texas A&M University, Department of<br />
Soil & Crop Science, College Station, Texas 77843, United States; E. Bechere,<br />
Texas Tech University, Dept. of <strong>Plant</strong> and Soil Science, Lubbock, Texas<br />
79409-2122, United States; E. Hequet, Texas Tech University, International<br />
Textile Center, Lubbock, Texas 79409-5888, United States; Roy Cantrell,<br />
Cotton Incorporated, 6399 Weston Parkway, Cary, <strong>No</strong>rth Carolina 27513, United<br />
States; Mourad Krifa, Texas Tech University, International Textile Center,<br />
Lubbock, Texas 79409-5888, United States; Sukant Misra, Texas Tech<br />
University, Dept. of Agricultural and Applied Economics, Lubbock, Texas<br />
79409-2132, United States. Received 11/06/2006.<br />
PI 643915. Gossypium hirsutum L.<br />
Breeding. Pureline. TTU 0774-3-3. GP-878. Pedigree - TTU 202-1107B x<br />
Acala 1517-95. Midseason maturing germplasm line. Has normal shaped<br />
leaves and glanded and nectaried. Produces flowers with cream colored<br />
petals, anthers, and pollen. Bolls have four to five locks and resist<br />
shattering but are not storm proof and are suitable for picker<br />
harvesting. Averaged 115 cm in height. HVI and AFIS fiber quality data<br />
analysis showed the superiority of this line over the FiberMax check<br />
cultivars. Has higher HVI upper half mean length, stronger fiber, good<br />
micronaire, higher length uniformity index, lower short fiber content,<br />
higher maturity ratio, and fewer neps than the check cultivars FiberMax<br />
958 and FiberMax 989. Yarn results showed excellent tenacity level. Lint<br />
yield slightly lower than both FiberMax check cultivars.<br />
PI 643916. Gossypium hirsutum L.<br />
Breeding. Pureline. TTU 0808-1-6-1. GP-879. Pedigree - TTU 1722 x<br />
NM24052 (DESHAF16/Del Cero). Midseason maturing germplasm line with<br />
normal shaped leaves, glanded and nectaried. Produces flowers with cream<br />
colored petals, anthers, and pollen. Bolls have four to five locks and<br />
resist shattering but are not storm proof so are suitable for picker<br />
harvesting. Averaged 123 cm in height. HVI and AFIS fiber quality data<br />
analysis showed the superiority of this line over the FiberMax check<br />
cultivars. Has higher HVI upper half mean length, stronger fiber, good<br />
micronaire, higher length uniformity index, lower short fiber content,<br />
higher maturity ratio, and fewer neps than the check cultivars FiberMax<br />
958 and FiberMax 989. Yarn results showed excellent tenacity level. Lint<br />
yield slightly lower than both FiberMax check cultivars.<br />
<strong>The</strong> following were developed by Gerald O. Myers, Louisiana State University,<br />
Dept. of Agronomy, 104 Madison B. Sturgis Hall, Baton Rouge, Louisiana<br />
70803-2110, United States; J.I. Dickson, Louisiana State University, Baton<br />
Rouge, Louisiana 70803, United States; Jimmy Zumba, Lousianna State<br />
University, 104 M. B. Sturgis Hall, Department of Agronomy, Baton Rouge,<br />
Louisiana 70803, United States; W.D. Caldwell, Louisiana State University<br />
233
AgCenter, Dept. of Agronomy and Environmental Management, 104 MB Sturgis<br />
Hall, Baton Rouge, Louisiana 70803, United States. Received 11/09/2006.<br />
PI 643917. Gossypium hirsutum L.<br />
Breeding. Pureline. LA1110004. GP-877. Pedigree - Paymaster<br />
1560/FiberMax 832. <strong>The</strong> comparable yield of LA1110004 combined with its<br />
exceptional fiber strength and length as well as its favorable<br />
micronaire, elongation and fiber length uniformity values makes it<br />
valuable to cotton breeding programs looking to improve fiber quality.<br />
Phenotypically, LA1110004 possess the okra leaf shape and has smooth<br />
leaves and pubescent stems. LA1110004 is of medium to full maturity.<br />
Results from the performance trials with commercial cultivars averaged<br />
over 2003-2005 showed that the lint yield of LA1110004 was not<br />
significantly different. <strong>The</strong> lint percentage for LA11004 averaged 40%.<br />
Upper Half Mean (UHM) length of LA1110004 averaged 1.16 inches across<br />
the ten trials. <strong>The</strong> HVI fiber bundle strength of LA1110004 was 35.7<br />
g/tex. Micronaire averaged 4.8. Elongation values averaged 8.3. <strong>The</strong><br />
uniformity index value for LA1110004 was greater than any of the<br />
commercial cultivars.<br />
PI 643918. Gossypium hirsutum L.<br />
Breeding. Pureline. LA1110017. GP-876. Pedigree - Paymaster<br />
1560/FiberMax 832. <strong>The</strong> superior fiber strength and length of this line<br />
as well as its favorable micronaire, elongation and fiber length<br />
uniformity values makes it valuable to cotton breeding programs looking<br />
to improve fiber quality and maintain high yield potential. LA1110017<br />
has a normal leaf shape, hairy leaves and pubescent stems. It is of<br />
medium to full maturity. Results from common performance trials with<br />
popular cultivars averaged over 2003-2005 showed that the lint yields of<br />
LA1110017 were comparable. <strong>The</strong> Upper Half Mean (UHM) length averages<br />
1.19 inches. <strong>The</strong> HVI fiber bundle strength of LA1110017 has an average<br />
of 35.0 g/tex. <strong>The</strong> average micronaire value of LA1110017 is 4.6 and the<br />
elongation value for LA1110017 is 8.07. Uniformity index value for L<br />
A1110017 is 84.14. <strong>The</strong> lint percentage of LA1110017 averages 40%.<br />
<strong>The</strong> following were developed by Lynn M. Gourley, Mississippi State<br />
University, 211 Hiwassee Drive, Starkville, Mississippi 39759, United States.<br />
Received 11/06/2006.<br />
PI 643919. Sorghum bicolor (L.) Moench subsp. bicolor<br />
Breeding. Pureline. MP 515. Pedigree - (MP 55 X S-81)-19-1-2. MP 515 is<br />
a dual-purpose, cold tolerant, and brown-midrib sorghum line. It is<br />
photo period insensitive, of two-dwarf plant height, has tan plant<br />
color, and brown seed. Seed was increased at the Mississippi<br />
Agricultural and Forestry Experiment Station. This line possesses the<br />
recessive brown-midrib (bmr12) gene from a cross between a MSU<br />
brown-midrib forage line and dominant gene(s) for cold tolerance at the<br />
anthesis stage of plant growth from a Rwanda cold tolerant, food-grain<br />
line. <strong>The</strong> F3 generation of this line was found to be superior to other<br />
selections for percent seed set and seed weight per panicle when<br />
evaluated for two years during the cool season at the Kenya Agricultural<br />
Research Institute at Lanet, Kenya. <strong>The</strong> Lanet National Beef Research<br />
Center (Latitude 0? 30' S and Longitude 36? E) is 1920 m above sea<br />
level, with a mean maximum temperature range of 14 - 24? C and a mean<br />
minimum temperature range of 8 - 14? C.<br />
234
PI 643920. Sorghum bicolor (L.) Moench subsp. bicolor<br />
Breeding. Pureline. MP 516. Pedigree - (MP 55 X S-81)-19-1-5. MP 516 is<br />
a dual-purpose, cold tolerant, and brown-midrib sorghum line. It is<br />
photo period insensitive, of two-dwarf plant height, has tan plant<br />
color, and brown seed. Seed was increased at the Mississippi<br />
Agricultural and Forestry Experiment Station. This line possesses the<br />
recessive brown-midrib (bmr12) gene from a cross between a MSU<br />
brown-midrib forage line and dominant gene(s) for cold tolerance at the<br />
anthesis stage of plant growth from a Rwanda cold tolerant, food-grain<br />
line. <strong>The</strong> F3 generation of this line was found to be superior to other<br />
selections for percent seed set and seed weight per panicle when<br />
evaluated for two years during the cool season at the Kenya Agricultural<br />
Research Institute at Lanet, Kenya. <strong>The</strong> Lanet National Beef Research<br />
Center (Latitude 0 degrees 30' S and Longitude 36 degrees E) is 1920 m<br />
above sea level, with a mean maximum temperature range of 14 - 24<br />
degrees C and a mean minimum temperature range of 8 - 14 degrees C.<br />
PI 643921. Sorghum bicolor (L.) Moench subsp. bicolor<br />
Breeding. Pureline. MP 517. Pedigree - (MP 28 X S-92)-4-1-1. MP 517 is a<br />
dual-purpose, cold tolerant, and brown-midrib sorghum line. It is photo<br />
period insensitive, of two-dwarf plant height, has tan plant color, and<br />
white seed. Seed was increased at the Mississippi Agricultural and<br />
Forestry Experiment Station. This line possesses the recessive<br />
brown-midrib (bmr12) gene from a cross between a MSU brown-midrib forage<br />
line and dominant gene(s) for cold tolerance at the anthesis stage of<br />
plant growth from a Rwanda cold tolerant, food-grain line. <strong>The</strong> F3 g<br />
eneration of this line was found to be superior to other selections for<br />
percent seed set and seed weight per panicle when evaluated for two<br />
years during the cool season at the Kenya Agricultural Research<br />
Institute at Lanet, Kenya. <strong>The</strong> Lanet National Beef Research Center<br />
(Latitude 0 degrees 30' S and Longitude 36 degrees E) is 1920 m above<br />
sea level, with a mean maximum temperature range of 14 - 24 degrees C<br />
and a mean minimum temperature range of 8 - 14 degrees C.<br />
PI 643922. Sorghum bicolor (L.) Moench subsp. bicolor<br />
Breeding. Pureline. MP 518. Pedigree - (MP 28 X S-92)-4-1-3. MP 518 is a<br />
dual-purpose, cold tolerant, and brown-midrib sorghum line. It is photo<br />
period insensitive, of two-dwarf plant height, has tan plant color, and<br />
brown seed. Seed was increased at the Mississippi Agricultural and<br />
Forestry Experiment Station. This line possesses the recessive<br />
brown-midrib (bmr12) gene from a cross between a MSU brown-midrib forage<br />
line and dominant gene(s) for cold tolerance at the anthesis stage of<br />
plant growth from a Rwanda cold tolerant, food-grain line. <strong>The</strong> F3 g<br />
eneration of this line was found to be superior to other selections for<br />
percent seed set and seed weight per panicle when evaluated for two<br />
years during the cool season at the Kenya Agricultural Research<br />
Institute at Lanet, Kenya. <strong>The</strong> Lanet National Beef Research Center<br />
(Latitude 0 degrees 30' S and Longitude 36 degrees E) is 1920 m above<br />
sea level, with a mean maximum temperature range of 14 - 24 degrees C<br />
and a mean minimum temperature range of 8 - 14 degrees C.<br />
PI 643923. Sorghum bicolor (L.) Moench subsp. bicolor<br />
Breeding. Pureline. MP 519. Pedigree - (MP 28 X S-92)-4-1-4. MP 519 is a<br />
dual-purpose, cold tolerant, and brown-midrib sorghum line. It is photo<br />
period insensitive, of two-dwarf plant height, has tan plant color, and<br />
white seed. Seed was increased at the Mississippi Agricultural and<br />
Forestry Experiment Station. This line possesses the recessive<br />
235
own-midrib (bmr12) gene from a cross between a MSU brown-midrib forage<br />
line and dominant gene(s) for cold tolerance at the anthesis stage of<br />
plant growth from a Rwanda cold tolerant, food-grain line. <strong>The</strong> F3 g<br />
eneration of this line was found to be superior to other selections for<br />
percent seed set and seed weight per panicle when evaluated for two<br />
years during the cool season at the Kenya Agricultural Research<br />
Institute at Lanet, Kenya. <strong>The</strong> Lanet National Beef Research Center<br />
(Latitude 0 degrees 30' S and Longitude 36 degrees E) is 1920 m above<br />
sea level, with a mean maximum temperature range of 14 - 24 degrees C<br />
and a mean minimum temperature range of 8 - 14 degrees C.<br />
PI 643924. Sorghum bicolor (L.) Moench subsp. bicolor<br />
Breeding. Pureline. MP 520. Pedigree - (MP 28 X S-92)-10-1-1. MP 520 is<br />
a dual-purpose, cold tolerant, and brown-midrib sorghum line. It is<br />
photo period insensitive, of two-dwarf plant height, has tan plant<br />
color, and white seed. Seed was increased at the Mississippi<br />
Agricultural and Forestry Experiment Station. This line possesses the<br />
recessive brown-midrib (bmr12) gene from a cross between a MSU<br />
brown-midrib forage line and dominant gene(s) for cold tolerance at the<br />
anthesis stage of plant growth from a Rwanda cold tolerant, food-grain<br />
line. <strong>The</strong> F3 generation of this line was found to be superior to other<br />
selections for percent seed set and seed weight per panicle when<br />
evaluated for two years during the cool season at the Kenya Agricultural<br />
Research Institute at Lanet, Kenya. <strong>The</strong> Lanet National Beef Research<br />
Center (Latitude 0 degrees 30' S and Longitude 36 degrees E) is 1920 m<br />
above sea level, with a mean maximum temperature range of 14 - 24<br />
degrees C and a mean minimum temperature range of 8 - 14 degrees C.<br />
PI 643925. Sorghum bicolor (L.) Moench subsp. bicolor<br />
Breeding. Pureline. MP 521. Pedigree - MP 28 X S-92)-49-1-3. MP 521 is a<br />
dual-purpose, cold tolerant, and brown-midrib sorghum line. It is photo<br />
period insensitive, of two-dwarf plant height, has purple plant color,<br />
and brown seed. Seed was increased at the Mississippi Agricultural and<br />
Forestry Experiment Station. This line possesses the recessive<br />
brown-midrib (bmr12) gene from a cross between a MSU brown-midrib forage<br />
line and dominant gene(s) for cold tolerance at the anthesis stage of<br />
plant growth from a Rwanda cold tolerant, food-grain line. <strong>The</strong> F3<br />
generation of this line was found to be superior to other selections for<br />
percent seed set and seed weight per panicle when evaluated for two<br />
years during the cool season at the Kenya Agricultural Research<br />
Institute at Lanet, Kenya. <strong>The</strong> Lanet National Beef Research Center<br />
(Latitude 0 degrees 30' S and Longitude 36 degrees E) is 1920 m above<br />
sea level, with a mean maximum temperature range of 14 - 24 degrees C<br />
and a mean minimum temperature range of 8 - 14 degrees C.<br />
PI 643926. Sorghum bicolor (L.) Moench subsp. bicolor<br />
Breeding. Pureline. MP 522. Pedigree - (MP 41 X N-17)-5-1-1. MP 522 is a<br />
dual-purpose, cold tolerant, and brown-midrib sorghum line. It is photo<br />
period insensitive, of two-dwarf plant height, has red plant color, and<br />
white seed. Seed was increased at the Mississippi Agricultural and<br />
Forestry Experiment Station. This line possesses the recessive<br />
brown-midrib (bmr12) gene from a cross between a MSU brown-midrib forage<br />
line and dominant gene(s) for cold tolerance at the anthesis stage of<br />
plant growth from a Rwanda cold tolerant, food-grain line. <strong>The</strong> F3 g<br />
eneration of this line was found to be superior to other selections for<br />
percent seed set and seed weight per panicle when evaluated for two<br />
years during the cool season at the Kenya Agricultural Research<br />
236
Institute at Lanet, Kenya. <strong>The</strong> Lanet National Beef Research Center<br />
(Latitude 0 degrees 30' S and Longitude 36 degrees E) is 1920 m above<br />
sea level, with a mean maximum temperature range of 14 - 24 degrees C<br />
and a mean minimum temperature range of 8 - 14 degrees C.<br />
PI 643927. Sorghum bicolor (L.) Moench subsp. bicolor<br />
Breeding. Pureline. MP 523. Pedigree - (MP 41 X N-17)-5-1-2. MP 523 is a<br />
dual-purpose, cold tolerant, and brown-midrib sorghum line. It is photo<br />
period insensitive, of two-dwarf plant height, has red plant color, and<br />
white seed. Seed was increased at the Mississippi Agricultural and<br />
Forestry Experiment Station. This line possesses the recessive<br />
brown-midrib (bmr12) gene from a cross between a MSU brown-midrib forage<br />
line and dominant gene(s) for cold tolerance at the anthesis stage of<br />
plant growth from a Rwanda cold tolerant, food-grain line. <strong>The</strong> F3 g<br />
eneration of this line was found to be superior to other selections for<br />
percent seed set and seed weight per panicle when evaluated for two<br />
years during the cool season at the Kenya Agricultural Research<br />
Institute at Lanet, Kenya. <strong>The</strong> Lanet National Beef Research Center<br />
(Latitude 0 degrees 30' S and Longitude 36 degrees E) is 1920 m above<br />
sea level, with a mean maximum temperature range of 14 - 24 degrees C<br />
and a mean minimum temperature range of 8 - 14 degrees C.<br />
PI 643928. Sorghum bicolor (L.) Moench subsp. bicolor<br />
Breeding. Pureline. MP 524. Pedigree - (MP 41 X N-17)-5-1-3. MP 524 is a<br />
dual-purpose, cold tolerant, and brown-midrib sorghum line. It is photo<br />
period insensitive, of two-dwarf plant height, has purple plant color,<br />
and white seed. Seed was increased at the Mississippi Agricultural and<br />
Forestry Experiment Station. This line possesses the recessive<br />
brown-midrib (bmr12) gene from a cross between a MSU brown-midrib forage<br />
line and dominant gene(s) for cold tolerance at the anthesis stage of<br />
plant growth from a Rwanda cold tolerant, food-grain line. <strong>The</strong> F3<br />
generation of this line was found to be superior to other selections for<br />
percent seed set and seed weight per panicle when evaluated for two<br />
years during the cool season at the Kenya Agricultural Research<br />
Institute at Lanet, Kenya. <strong>The</strong> Lanet National Beef Research Center<br />
(Latitude 0 degrees 30' S and Longitude 36 degrees E) is 1920 m above<br />
sea level, with a mean maximum temperature range of 14 - 24 degrees C<br />
and a mean minimum temperature range of 8 - 14 degrees C.<br />
PI 643929. Sorghum bicolor (L.) Moench subsp. bicolor<br />
Breeding. Pureline. MP 525. Pedigree - (MP 41 X N-17)-5-1-4. MP 525 is a<br />
dual-purpose, cold tolerant, and brown-midrib sorghum line. It is photo<br />
period insensitive, of two-dwarf plant height, has purple plant color,<br />
and white seed. Seed was increased at the Mississippi Agricultural and<br />
Forestry Experiment Station. This line possesses the recessive<br />
brown-midrib (bmr12) gene from a cross between a MSU brown-midrib forage<br />
line and dominant gene(s) for cold tolerance at the anthesis stage of<br />
plant growth from a Rwanda cold tolerant, food-grain line. <strong>The</strong> F3<br />
generation of this line was found to be superior to other selections for<br />
percent seed set and seed weight per panicle when evaluated for two<br />
years during the cool season at the Kenya Agricultural Research<br />
Institute at Lanet, Kenya. <strong>The</strong> Lanet National Beef Research Center<br />
(Latitude 0 degrees 30' S and Longitude 36 degrees E) is 1920 m above<br />
sea level, with a mean maximum temperature range of 14 - 24 degrees C<br />
and a mean minimum temperature range of 8 - 14 degrees C.<br />
237
PI 643930. Sorghum bicolor (L.) Moench subsp. bicolor<br />
Breeding. Pureline. MP 526. Pedigree - (MP 41 X N-17)-28-1-1. MP 526 is<br />
a dual-purpose, cold tolerant, and brown-midrib sorghum line. It is<br />
photo period insensitive, of two-dwarf plant height, has purple plant<br />
color, and brown seed. Seed was increased at the Mississippi<br />
Agricultural and Forestry Experiment Station. This line possesses the<br />
recessive brown-midrib (bmr12) gene from a cross between a MSU<br />
brown-midrib forage line and dominant gene(s) for cold tolerance at the<br />
anthesis stage of plant growth from a Rwanda cold tolerant, food-grain<br />
line. <strong>The</strong> F3 generation of this line was found to be superior to other<br />
selections for percent seed set and seed weight per panicle when<br />
evaluated for two years during the cool season at the Kenya Agricultural<br />
Research Institute at Lanet, Kenya. <strong>The</strong> Lanet National Beef Research<br />
Center (Latitude 0 degrees 30' S and Longitude 36 degrees E) is 1920 m<br />
above sea level, with a mean maximum temperature range of 14 - 24<br />
degrees C and a mean minimum temperature range of 8 - 14 degrees C.<br />
PI 643931. Sorghum bicolor (L.) Moench subsp. bicolor<br />
Breeding. Pureline. MP 527. Pedigree - (MP 41 X N-17)-28-1-2. MP 527 is<br />
a dual-purpose, cold tolerant, and brown-midrib sorghum line. It is<br />
photo period insensitive, of two-dwarf plant height, has purple plant<br />
color, and brown seed. Seed was increased at the Mississippi<br />
Agricultural and Forestry Experiment Station. This line possesses the<br />
recessive brown-midrib (bmr12) gene from a cross between a MSU<br />
brown-midrib forage line and dominant gene(s) for cold tolerance at the<br />
anthesis stage of plant growth from a Rwanda cold tolerant, food-grain<br />
line. <strong>The</strong> F3 generation of this line was found to be superior to other<br />
selections for percent seed set and seed weight per panicle when<br />
evaluated for two years during the cool season at the Kenya Agricultural<br />
Research Institute at Lanet, Kenya. <strong>The</strong> Lanet National Beef Research<br />
Center (Latitude 0 degrees 30' S and Longitude 36 degrees E) is 1920 m<br />
above sea level, with a mean maximum temperature range of 14 - 24<br />
degrees C and a mean minimum temperature range of 8 - 14 degrees C.<br />
PI 643932. Sorghum bicolor (L.) Moench subsp. bicolor<br />
Breeding. Pureline. MP 528. Pedigree - (MP 41 X N-17)-28-1-4. MP 528 is<br />
a dual-purpose, cold tolerant, and brown-midrib sorghum line. It is<br />
photo period insensitive, of two-dwarf plant height, has purple plant<br />
color, and red seed. Seed was increased at the Mississippi Agricultural<br />
and Forestry Experiment Station. This line possesses the recessive<br />
brown-midrib (bmr12) gene from a cross between a MSU brown-midrib forage<br />
line and dominant gene(s) for cold tolerance at the anthesis stage of<br />
plant growth from a Rwanda cold tolerant, food-grain line. <strong>The</strong> F3<br />
generation of this line was found to be superior to other selections for<br />
percent seed set and seed weight per panicle when evaluated for two<br />
years during the cool season at the Kenya Agricultural Research<br />
Institute at Lanet, Kenya. <strong>The</strong> Lanet National Beef Research Center<br />
(Latitude 0 degrees 30' S and Longitude 36 degrees E) is 1920 m above<br />
sea level, with a mean maximum temperature range of 14 - 24 degrees C<br />
and a mean minimum temperature range of 8 - 14 degrees C.<br />
PI 643933. Sorghum bicolor (L.) Moench subsp. bicolor<br />
Breeding. Pureline. MP 529. Pedigree - (MP 41 X N-17)-28-1-5. MP 529 is<br />
a dual-purpose, cold tolerant, and brown-midrib sorghum line. It is<br />
photo period insensitive, of two-dwarf plant height, has tan plant<br />
color, and brown seed. Seed was increased at the Mississippi<br />
Agricultural and Forestry Experiment Station. This line possesses the<br />
238
ecessive brown-midrib (bmr12) gene from a cross between a MSU<br />
brown-midrib forage line and dominant gene(s) for cold tolerance at the<br />
anthesis stage of plant growth from a Rwanda cold tolerant, food-grain<br />
line. <strong>The</strong> F3 generation of this line was found to be superior to other<br />
selections for percent seed set and seed weight per panicle when<br />
evaluated for two years during the cool season at the Kenya Agricultural<br />
Research Institute at Lanet, Kenya. <strong>The</strong> Lanet National Beef Research<br />
Center (Latitude 0 degrees 30' S and Longitude 36 degrees E) is 1920 m<br />
above sea level, with a mean maximum temperature range of 14 - 24<br />
degrees C and a mean minimum temperature range of 8 - 14 degrees C.<br />
PI 643934. Sorghum bicolor (L.) Moench subsp. bicolor<br />
Breeding. Pureline. MP 530. Pedigree - (MP 41 X N-17)-36-1-1. MP 530 is<br />
a dual-purpose, cold tolerant, and brown-midrib sorghum line. It is<br />
photo period insensitive, of two-dwarf plant height, has tan plant<br />
color, and brown seed. Seed was increased at the Mississippi<br />
Agricultural and Forestry Experiment Station. This line possesses the<br />
recessive brown-midrib (bmr12) gene from a cross between a MSU<br />
brown-midrib forage line and dominant gene(s) for cold tolerance at the<br />
anthesis stage of plant growth from a Rwanda cold tolerant, food-grain<br />
line. <strong>The</strong> F3 generation of this line was found to be superior to other<br />
selections for percent seed set and seed weight per panicle when<br />
evaluated for two years during the cool season at the Kenya Agricultural<br />
Research Institute at Lanet, Kenya. <strong>The</strong> Lanet National Beef Research<br />
Center (Latitude 0 degrees 30' S and Longitude 36 degrees E) is 1920 m<br />
above sea level, with a mean maximum temperature range of 14 - 24<br />
degrees C and a mean minimum temperature range of 8 - 14 degrees C.<br />
<strong>The</strong> following were developed by Robert A. Graybosch, USDA-ARS, University of<br />
Nebraska, 314 Biochem Hall, Lincoln, Nebraska 68583, United States; Carl A.<br />
Griffey, Virginia Polytechnic Institute, & State University, Dept. of Crop<br />
& Soil Env. Sciences, Blacksburg, Virginia 24061-0404, United States; Sue<br />
Cambron, USDA-ARS, 901 W. State St., Purdue University, West Lafayette,<br />
Indiana 47907, United States; Harold E. Bockelman, USDA, ARS, National Small<br />
Grains Collection, 1691 S 2700 W, Aberdeen, Idaho 83210, United States; R.J.<br />
Kratochvil, University of Maryland, Maryland Agric. Exp. Station, College<br />
Park, Maryland 20742, United States; Arvydas Grybauskas, University of<br />
Maryland, Dept Natural Resource Sciences, 2102 <strong>Plant</strong> Science Bldg., College<br />
Park, Maryland 20742-4452, United States; Jose Costa, University of Maryland,<br />
PSLA Department, <strong>Plant</strong> Sciences Bldg. Room 2102, College Park, Maryland<br />
20742-4452, United States; David S. Marshall, USDA, ARS, <strong>No</strong>rth Carolina State<br />
University, <strong>Plant</strong> Science Research Unit, Raleigh, <strong>No</strong>rth Carolina 27695-7616,<br />
United States; A. Cooper, University of Maryland, Dept. of Natural Resource<br />
Sciences and Landscape, Architecture, College Park, Maryland 20742-4452,<br />
United States; Yue Jin, USDA, ARS, University of Minnesota, Cereal Disease<br />
Lab, St. Paul, Minnesota 55108, United States; C. Gaines, USDA-ARS, Soft<br />
Wheat Quality Lab, Wooster, Ohio 44691, United States. Received 11/09/2006.<br />
PI 643935. Triticum aestivum L. subsp. aestivum<br />
Cultivar. Pureline. "CHESAPEAKE". CV-1011. Pedigree - VA91-54-222<br />
(Roane'S')/FFR555W / VA93-52-55 (Massey/Balkan/Saluda). Released 2005.<br />
Early-season, high-yielding, medium-statured, awnless, soft red winter<br />
wheat with good straw strength and resistant to powdery mildew.<br />
Coleoptiles are white. Juvenile plants exhibit a semierect growth habit.<br />
<strong>Plant</strong> color at booting is blue-green and a waxy bloom is present on the<br />
stem and flag leaf sheath. Anther color is yellow. Spikes are tapering,<br />
239
mid-dense, and awnless. Kernels are large, red, soft and ovate with a<br />
crease of medium width and depth, rounded cheeks, and a medium<br />
non-collared brush. Head emergence in Maryland is 1 d later than<br />
'USG3109' and 1d earlier than 'Roane'. Average plant height (34 inches)<br />
in Maryland is similar to USG3209 and shorter than Roane. Average straw<br />
strength is similar to Roane and better than USG3209. Average grain<br />
yields (69.2 bu/ac) were 0.9 bu/ac higher than USG3209 and 4.2 bu/ac<br />
higher than Roane, respectively over 5 locations in Maryland over 3<br />
years. Average test weight is high, similar to Roane and Coker 9184.<br />
Milling quality is good and superior to Roane and lower than Sisson.<br />
Grain produces more flour than Roane. Baking quality is good and<br />
superior to Roane.<br />
<strong>The</strong> following were collected by Rick J. Lewandowski, Morris Arboretum, <strong>The</strong><br />
University of Pennsylvania, 9414 Meadowbrook Road, Philadelphia, Pennsylvania<br />
19118, United States; Edward J. Garvey, USDA, ARS, Natl. <strong>Germplasm</strong> <strong>Resources</strong><br />
Laboratory, Room 409, Building 003, BARC-West, Beltsville, Maryland<br />
20705-2350, United States; Weilin Li, Jiangsu Institute of Botany, Nanjing<br />
Botanical Garden, P.O. Box 1435, Nanjing, Jiangsu 210014, China. Received<br />
10/26/1998.<br />
PI 643936. Rubus lambertianus Ser.<br />
Wild. TS98-010; NGRL 242. Collected 10/07/1998 in Anhui, China. Latitude<br />
30° 6' 8" N. Longitude 118° 50' 48" E. Elevation 970 m. Shexian<br />
County, Qingliang Peak Reserve: Houershi. Valley called the Da Xi which<br />
supposedly means Elephant-Lion Valley. Sloping site in woodlands along<br />
stream; 20-30 degree slope. Growing with Lindera glauca, Acer,<br />
Hydrangea, Quercus, Actinidia, Camellia, Liquidamber. Pedigree -<br />
Collected from the wild in Anhui, China. Shrub, 3 m, tall arching canes,<br />
3-4 canes/plant. Leaves simple, cordate shaped, serrate margins, very<br />
pubescent. Fruit transluscent, orange-red, shiny, 1 cm. diameter.<br />
<strong>The</strong> following were collected by Maxine Thompson, National Clonal <strong>Germplasm</strong><br />
Repository, 33447 Peoria Road, Corvallis, Oregon 97333, United States; Judith<br />
Young, Unknown; Gong Deshen, Guizhou Botanical Garden, Liuchongguan, Guiyang,<br />
Guizhou 550001, China; Shi Shengde, Guizhou Botanical Garden, Liuchongguan,<br />
Guiyang, Guizhou 550001, China; De Sheng Wei, Guizhou Botanical Garden,<br />
Liuchongguan, Guiyang, Guizhou 550001, China; Cheng Xiang Wang, Guizhou<br />
Botanical Garden, Guizhou Academy of Science, Liuchongguan, Guiyang, Guizhou<br />
550001, China. Donated by Maxine Thompson, National Clonal <strong>Germplasm</strong><br />
Repository, 33447 Peoria Road, Corvallis, Oregon 97333, United States.<br />
Received 07/21/1992.<br />
PI 643937. Rubus parvifolius L.<br />
Wild. 92141; R. parvifolius; CRUB 1656. Collected 06/05/1992 in Guizhou,<br />
China. Latitude 25° 38' N. Longitude 108° 58' E. Elevation 555<br />
m. near Bei Meng village. Pedigree - Collected from the wild in China.<br />
Additional information is forthcoming.<br />
<strong>The</strong> following were donated by Nanjing Botanical Garden, Mem. Sun Yat-Sen,<br />
Nanjing, Jiangsu, China. Received 11/02/1992.<br />
PI 643938. Rubus irenaeus Focke<br />
Wild. CRUB 1697. Collected 09/15/1992 in Guizhou, China. Elevation 1440<br />
240
m. Xishui County. Pedigree - Collected from the wild in China. Fruit<br />
red.<br />
PI 643939. Rubus parvifolius L.<br />
Wild. CRUB 1707. Collected 09/26/1992 in Guizhou, China. Elevation 2100<br />
m. Weining County. Pedigree - Collected from the wild in China. Fruit<br />
red.<br />
<strong>The</strong> following were collected by Pilar Banados, Pontificia Universidad<br />
Catolica de Chile, Facultad de Agronomia, Departamento de Fruiticultures y<br />
Enologia, Santiago, Santiago, Chile. Received 09/22/1998.<br />
PI 643940. Rubus geoides Sm.<br />
Clone. CRUB 1981. Collected 04/01/1998 in Los Lagos, Chile. Latitude<br />
41° 50' S. Longitude 73° 32' W. Elevation 0 m. Chacao, Island of<br />
Chiloe. Pedigree - Collected from the wild in Chile.<br />
<strong>The</strong> following were collected by University of Oulu, Botanical Garden,<br />
Linnanmaa, Oulu, Oulu SF-90570, Finland. Donated by Kari Laine, University of<br />
Oulu, Botanical Gardens, Linnanmaa PO Box 400, Oulu, Oulu SF-90570, Finland.<br />
Received 1994.<br />
PI 643941. Rubus chamaemorus L.<br />
Wild. R. chamaemorus; 496; CRUB 1989. Collected 09/15/1993 in Lappi,<br />
Finland. Latitude 69° 12' N. Longitude 21° 6' E. Elevation 0 m.<br />
Enontekion Lappi, Enontekkio, Jehkats. Pedigree - Collected from the<br />
wild in Finland.<br />
<strong>The</strong> following were donated by Scottish Crop Research Institute, Invergowrie,<br />
Dundee, Scotland DD25DA, United Kingdom. Received 04/22/1999.<br />
PI 643942. Rubus hybrid<br />
Cultivar. CRUB 2004. Orig.- as a chance seedling in a wood in<br />
Dorsetshire, England. Parentage probably the native Rubus idaeus;<br />
introd. J.J. Kettle, Corfe Castle, Dorset; introd. into <strong>No</strong>rth America in<br />
1923. Fruit: medium size, soft, dark, excellent flavor. <strong>Plant</strong>: moderat<br />
ely productive and vigorous. Resistant to the common strain of the <strong>No</strong>rth<br />
American aphid vector of the rasp-berry mosaic virus complex. Has been<br />
used extensively in <strong>No</strong>rth American breeding programs as a source of<br />
aphid resistance, conferred by gene Agi, and in both <strong>No</strong>rth American and<br />
European programs as a source of fruit quality, particularly flavor.<br />
Unknown source. Received 05/24/1999.<br />
PI 643943. Rubus ikenoensis H. Lev. & Vaniot<br />
Cultivated. R. ikenoensis; ruja062; CRUB 2052. From mountains in Japan;<br />
arching, lightly prickled stems produce strawberry-like leaves; white<br />
flowers; red fruit; sun.<br />
<strong>The</strong> following were donated by James Glen Melcher, 3633 Rigolette, Pineville,<br />
Louisiana 71360, United States. Received 11/12/1999.<br />
241
PI 643944. Rubus riograndis L. H. Bailey<br />
Cultivated. "Rio Grande"; R. riograndis; CRUB 2053. Vinelike,<br />
long-running, and presumably rooting at tips, making mats or mounds 2<br />
ft. or more deep.<br />
<strong>The</strong> following were collected by Joseph Postman, USDA, ARS, National <strong>Germplasm</strong><br />
Repository, 33447 Peoria Road, Corvallis, Oregon 97333-2521, United States.<br />
Received 03/14/2001.<br />
PI 643945. Rubus hybrid<br />
Cultivar. Marion Variegated; CRUB 2139. Collected 05/18/2000 in Oregon,<br />
United States. Latitude 45° 16' N. Longitude 122° 41' W.<br />
Elevation 0 m. Established berry field near Canby, Oregon. Chlorophyll<br />
mutation. Sectoral chimera? Expressed as yellow streaks and bands in the<br />
foliage and stems.<br />
<strong>The</strong> following were collected by David Johnson, 1009 Iris Street, Milton,<br />
Washington 98354, United States. Received 04/01/2001.<br />
PI 643946. Rubus hybrid<br />
Cultivated. Himalaya x Evergreen; CRUB 2140. Collected 1986 in<br />
Washington, United States. Latitude 47° 19' N. Longitude 122°<br />
11' W. Elevation 0 m. Green River Community College, Auburn, Washington.<br />
Rubus found at Green River Community College, Auburn, Washington in<br />
1986. Clusters larger than Himalaya, fruit firmer and sweeter. Botytis<br />
resistant.<br />
<strong>The</strong> following were collected by Richard M. Hannan, USDA, ARS, Washington<br />
State University, Regional <strong>Plant</strong> Introduction Station, Pullman, Washington<br />
99164-6402, United States; Walter J. Kaiser, U.S. Peace Corps, Cuerpo de Paz,<br />
Casilla #749, Sucre, Chuquisaca, Bolivia; Isabella Arevshatyan, Yerevan,<br />
Armenia; Mariam Emyan, USDA, Marketing Assistance Program, Armenia; Eleonora<br />
Gabrielian, Department of <strong>Plant</strong> Systemics, Geography National Academie of<br />
Sciences, Institute of Botany, Yerevan, Armenia; Samvel M. Gasparian,<br />
Scientific Research Center of Viticulture, Fruit Growing and Wine Making,<br />
Merdzavan, Armenia; Vrez Manakyan, Armenia Academie of Science, Institute of<br />
Botany, Yerevan, Armenia; Ashot A. Charchoglian, National Academie of<br />
Sciences, Institute of Botany, Yerevan, Armenia. Donated by Richard M.<br />
Hannan, USDA, ARS, Washington State University, Regional <strong>Plant</strong> Introduction<br />
Station, Pullman, Washington 99164-6402, United States. Received 06/27/2002.<br />
PI 643947. Rubus caesius L.<br />
Wild. ARM-01-041; R. idaeus ARM-01-041; CRUB 2168. Collected 08/09/2001<br />
in Armenia. Latitude 40° 5' 39" N. Longitude 44° 46' 24" E.<br />
Elevation 0 m. at the bottom of a steep canyon in Khosrov Reserve.<br />
Pedigree - Collected from the wild in Armenia.<br />
<strong>The</strong> following were collected by Paul Meyer, <strong>The</strong> University of Pennsylvania,<br />
Morris Arboretum, 9414 Meadowlark Avenue, Philadelphia, Pennsylvania 19118,<br />
United States; Joseph Postman, USDA, ARS, National <strong>Germplasm</strong> Repository,<br />
33447 Peoria Road, Corvallis, Oregon 97333-2521, United States; Gagik<br />
Movsisyan, Armenia; Alan Whittemore, U.S. National Arboretum, USDA, ARS, 3501<br />
New York Avenue, NE, Washington, District of Columbia 20002-1958, United<br />
242
States; Ashot A. Charchoglian, National Academie of Sciences, Institute of<br />
Botany, Yerevan, Armenia; Pavel Humbaryan, Armenia Institute of Botany,<br />
Yerevan, Armenia; Yura Paityan, Armenia Institute of Botany, Yerevan, Armenia.<br />
Donated by Joseph Postman, USDA, ARS, National <strong>Germplasm</strong> Repository, 33447<br />
Peoria Road, Corvallis, Oregon 97333-2521, United States. Received<br />
10/11/2002.<br />
PI 643948. Rubus idaeus L.<br />
Wild. CRUB 2170. Collected 09/06/2002 in Armenia. Latitude 40° 36'<br />
22" N. Longitude 44° 32' 36" E. Elevation 2201 m. Khosrov Preserve,<br />
Ararat Marz provence. Roadside on edge of forest with Betula litwinovii.<br />
Pedigree - Collected from the wild in Armenia.<br />
PI 643949. Rubus idaeus L.<br />
Wild. CRUB 2171. Collected 09/07/2002 in Armenia. Latitude 40° 39'<br />
43" N. Longitude 45° 0' 21" E. Elevation 1650 m. Dilijan National<br />
Park, Tavush Marz provence. Moist forest with Quercus macranthera.<br />
Pedigree - Collected from the wild in Armenia.<br />
PI 643950. Rubus idaeus L.<br />
Wild. CRUB 2172. Collected 09/07/2002 in Armenia. Latitude 40° 40'<br />
45" N. Longitude 44° 52' 51" E. Elevation 1940 m. <strong>No</strong>rth of Sevan<br />
Pass in the province of Tavush Marz. At edge of Pinus sylvestris grove,<br />
in wet ravine below. Pedigree - Collected from the wild in Armenia.<br />
PI 643951. Rubus idaeus L.<br />
Wild. CRUB 2174. Collected 09/12/2002 in Armenia. Latitude 40° 45'<br />
7" N. Longitude 44° 28' 16" E. Elevation 1794 m. Vanadzor Valley,<br />
Lori Marz province. On forest edge along a moist seep with Quercus<br />
macranthera and Carpinus betulus. Pedigree - Collected from the wild in<br />
Armenia.<br />
PI 643952. Rubus idaeus L.<br />
Wild. CRUB 2175. Collected 09/13/2002 in Armenia. Latitude 40° 54'<br />
19" N. Longitude 44° 25' 49" E. Elevation 1922 m. Along Pushkin<br />
Mountain Road in Lori Marz province. Growing in Scattered clusters in<br />
rocky terrain. Pedigree - Collected from the wild in Armenia.<br />
PI 643953. Rubus caesius L.<br />
Wild. CRUB 2176. Collected 09/14/2002 in Armenia. Latitude 40° 59'<br />
53" N. Longitude 44° 39' 8" E. Elevation 834 m. Near Alaverdi in<br />
Lori Marz province. Disturbed, rocky slope between road and Debed River<br />
with Acer campestre and Carpinus orientalis. Pedigree - Collected from<br />
the wild in Armenia.<br />
<strong>The</strong> following were collected by James Glen Melcher, 3633 Rigolette,<br />
Pineville, Louisiana 71360, United States. Received 09/2002.<br />
PI 643954. Rubus sp.<br />
Wild. CRUB 2204. Collected 09/2002 in Louisiana, United States. Latitude<br />
31° 26' 50" N. Longitude 92° 34' 14" W. Elevation 34 m. One<br />
hundred feet off U.S. 71 on Tyson Road at Rock Hill, Grant Parish.<br />
Pedigree - Collected from the wild in Louisiana.<br />
243
<strong>The</strong> following were collected by Wes Messinger, Oregon State University, Dept.<br />
Horticulture, Corvallis, Oregon 97331, United States; James R. Ballington,<br />
<strong>No</strong>rth Carolina State University, Department of Horticultural Sciences, Box<br />
7609, Raleigh, <strong>No</strong>rth Carolina 27695-7609, United States; David E. Williams,<br />
USDA/FAS/ICD/RSED, 1400 Independence Ave. SW, South Building - Room 3223,<br />
Washington, District of Columbia 20250-1084, United States. Donated by Wes<br />
Messinger, Oregon State University, Dept. Horticulture, Corvallis, Oregon<br />
97331, United States. Received 12/03/2003.<br />
PI 643955. Rubus bullatus Rusby<br />
Wild. CRUB 2226. Collected 03/09/1995 in La Paz, Bolivia. Latitude<br />
16° 10' 18" S. Longitude 67° 8' 2" W. Elevation 3445 m. Valle de<br />
Zongo, 15.3 km <strong>No</strong>rth of dam at Laguna Zongo (34.3 km from junction of<br />
road to Chacaltaya.). Many moss-covered granitic boulders, found with<br />
Vaccinium floribundum, Ribes bolivinianum, Desmosthenesia sp. and<br />
Siphonandra sp. Pedigree - Collected from the wild in Bolivia.<br />
<strong>The</strong> following were collected by Thomas Davis, University of New Hampshire,<br />
College of Life Science and Agriculture, <strong>Plant</strong> Biology/Genetics, Durham, New<br />
Hampshire 03824-3597, United States; Kim Hummer, USDA, ARS, National<br />
<strong>Germplasm</strong> Repository, 33447 Peoria Road, Corvallis, Oregon 97333-2521, United<br />
States; Hiroyuki Imanishi, Akita Prefectural College of Agriculture,<br />
Experimental Farm, 6 Ogata, Ogata, Akita 010-0451, Japan; Hiroyuki Iketani,<br />
National Res. Inst. of Vegetables, Ornamentals and Tea, 360 Kusawa, Ano Mie,<br />
Japan. Donated by Kim Hummer, USDA, ARS, National <strong>Germplasm</strong> Repository, 33447<br />
Peoria Road, Corvallis, Oregon 97333-2521, United States. Received<br />
08/03/2004.<br />
PI 643956. Rubus sachalinensis H. Lev.<br />
Wild. R. idaeus var. aculeatissimus J69; HD-2004-69; CRUB 2276. .<br />
Collected 07/18/2004 in Hokkaido, Japan. Latitude 43° 59' 27" N.<br />
Longitude 144° 12' 13" E. Elevation 28 m. Lake Abashiri, edge of<br />
trail and lake. Associated species: white clover, Equisetum, under<br />
Juglans mandscurica, Alnus and Corylus sieboldi. Pedigree - Collected<br />
in the wild from Hokkaido,Japan. This accession was collected under the<br />
auspices of a bilateral agreement between the National Institute of<br />
Agrobiological Sciences, Ministry of Agriculture Fisheries and Foods,<br />
Japan, and the U. S. Department of Agriculture, Agricultural Reseach<br />
Service, USA, prepared in May 2004.<br />
<strong>The</strong> following were collected by Paul Meyer, <strong>The</strong> University of Pennsylvania,<br />
Morris Arboretum, 9414 Meadowlark Avenue, Philadelphia, Pennsylvania 19118,<br />
United States; Joseph Postman, USDA, ARS, National <strong>Germplasm</strong> Repository,<br />
33447 Peoria Road, Corvallis, Oregon 97333-2521, United States; Marine<br />
Mosulishvili, <strong>Plant</strong> Systematics, Institute of Botany, Georgian Academy of<br />
Sciences, Kojori road 1, Tbilisi, Georgia; Giorgi Arabuli, State Museum of<br />
Georgia, Tbilisi, Georgia. Donated by Joseph Postman, USDA, ARS, National<br />
<strong>Germplasm</strong> Repository, 33447 Peoria Road, Corvallis, Oregon 97333-2521, United<br />
States. Received 10/26/2004.<br />
PI 643957. Rubus idaeus L.<br />
Wild. GE-2004-044; CRUB 2302. Collected 09/26/2004 in Georgia. Pedigree<br />
- Collected from the wild in the Republic of Georgia.<br />
244
<strong>The</strong> following were collected by C. Miyoshi, Toyama University, 3190 Gofuku,<br />
Toyama, Toyama 930-8555, Japan; T. Tsukada, Toyama University, 3190 Gofuku,<br />
Toyama, Toyama 930-8555, Japan. Donated by Naohiro Naruhashi, Toyama<br />
University, Department of Biology, Faculty of Science, Toyama, Toyama 930,<br />
Japan. Received 10/31/2005.<br />
PI 643958. Rubus mesogaeus Focke<br />
Wild. CRUB 2321. Collected 08/11/2003 in Gifu, Japan. Pedigree -<br />
Collected in the wild from Gifu, Japan.<br />
<strong>The</strong> following were donated by <strong>No</strong>urse Farms, Inc., 41 River Road, South<br />
Deerfield, Massachusetts 01373, United States. Received 03/06/2006.<br />
PI 643959. Rubus idaeus L.<br />
Cultivar. CRUB 2329.<br />
<strong>The</strong> following were donated by Forest Farm Nursery, 990 Tetherow Road,<br />
Williams, Oregon 97544-9599, United States. Received 08/2006.<br />
PI 643960. Rubus lambertianus var. glaber Hemsl.<br />
Cultivated. CRUB 2332.<br />
PI 643961. Rubus spectabilis Pursh<br />
Cultivated. CRUB 2333.<br />
Unknown source. Received 05/30/2006.<br />
PI 643962. Rubus trivialis Michx.<br />
Wild. CRUB 2335. Collected 05/22/2006 in Florida, United States.<br />
Unknown source. Received 05/30/2006.<br />
PI 643963. Rubus trivialis Michx.<br />
Wild. CRUB 2336. Collected 05/22/2006 in Florida, United States.<br />
Unknown source. Received 05/30/2006.<br />
PI 643964. Rubus trivialis Michx.<br />
Wild. CRUB 2338. Collected 05/24/2006 in Florida, United States.<br />
Unknown source. Received 07/21/2006.<br />
PI 643965. Rubus spectabilis Pursh<br />
Wild. CRUB 2339. Collected 07/15/2006 in Alaska, United States.<br />
Unknown source. Received 07/21/2006.<br />
PI 643966. Rubus spectabilis Pursh<br />
Wild. CRUB 2340. Collected 07/16/2006 in Alaska, United States.<br />
245
<strong>The</strong> following were donated by Agricultural Research Centre, Propagation Unit<br />
for Healthy <strong>Plant</strong>s, Finland. Received 03/05/1986.<br />
PI 643967. Rubus hybrid<br />
Cultivar. "HEISA"; Q 25977. Pedigree - Rubus arcticus X ideaus.<br />
<strong>The</strong> following were donated by Sylvester March, U.S. National Arboretum, USDA,<br />
ARS, 3501 New York Avenue, N.E., Washington, District of Columbia 20002,<br />
United States. Received 11/03/1987.<br />
PI 643968. Rubus inermis Pourr.<br />
Wild. UK 014; Q 27003. Collected in England, United Kingdom. Pedigree -<br />
selection of Rubus inermis from England.<br />
<strong>The</strong> following were donated by Pasquale Rosati, Universita degli Studi di<br />
Ancona, Dipartimento di Biotechnologie Agrarie, Via Brecce<br />
Bianche-Segreteria, Ancona, Marches 60131, Italy. Received 06/21/1993.<br />
PI 643969. Rubus nubigenus Kunth<br />
BE-4777; Q 30911.<br />
<strong>The</strong> following were donated by Institut za Vovcarstov, Cacak, Serbia. Received<br />
09/08/2000.<br />
PI 643970. Rubus sp.<br />
Cultivar. "Cacanska Bestrna"; Q 42806.<br />
<strong>The</strong> following were donated by Duncan Farquar, Tasmania, Australia. Received<br />
12/07/2000.<br />
PI 643971. Rubus hybrid<br />
Cultivar. "Mammoth"; Q 43046.<br />
<strong>The</strong> following were developed by Mehboob Ur Rahman, National Institute for<br />
Biotechnology & Genetic Engineering &, PGMB Labs, PO Box 577, Faisalabad,<br />
Pakistan; Y. Zafar, National Institute for Biotechnology and Genetic Eng.,<br />
P.O. Box 577, Jhang Road, Faisalabad, Pakistan. Received 11/20/2006.<br />
PI 643972. Gossypium hirsutum L.<br />
Breeding. Pureline. NIBGE-115. GP-880. Pedigree - Developed by pedigree<br />
selection from a cross of the unreleased genotype LRA-5166 (primary<br />
source of resistance to the old strain of CLCuD) and 'S-12' (highly<br />
susceptible to the old strain of Cotton Leaf Curl Disease). <strong>The</strong><br />
resistant F2 plants and succeeding generations were developed through<br />
single plant-row progenies. <strong>The</strong> procedure was repeated to F7. In the<br />
normal cotton growing season of 2002-03, the recombinant inbred lines<br />
resistant to the old strain of CLCuD were grown in the Burewala region<br />
(Cotton Research Station Vehari, Pakistan) to provide maximum inoculum<br />
of the Burewala strain of CLCuD. Out of these, NIBGE-115 was found virus<br />
free. In 2003-04, NIBGE-115 along with cultivars/genotypes were raised<br />
in the Burewala region and screened for resistance to Burewala strain,<br />
246
oth visually and with a PCR-based diagnostic test. A standard ran<br />
domized complete block design with four replications was followed. <strong>The</strong><br />
screening was continued for two successive normal cotton-growing seasons<br />
(2004-06). Out of the 20 cotton cultivars/genotypes, NIBGE-115 showed<br />
field resistance against the Burewala strain of CLCuD. Is nectaried,<br />
possesses normal shaped leaves and bracts, with pubescent stems/leaves,<br />
and glanded, exhibiting a spreading type plant habit with 0-4 monopodial<br />
branches. Flowering initiates 40-47 d after planting with the pollen bei<br />
ng cream-colored. Average lint yields were 7.48% more than CIM-496<br />
(standard) at all locations conducted from 2004-06. Fiber properties of<br />
the line (measured with high volume instrument) were fairly acceptable<br />
(3% shorter, 5% stronger, and 5% higher micronaire value than CIM-496.<br />
<strong>Germplasm</strong> will be useful for breeding cultivars against the Burewala<br />
virus strain of the cotton leaf curl disease.<br />
<strong>The</strong> following were developed by Phillip Miklas, USDA, ARS, Irrigated Agric.<br />
Research & Extension Ctr., 24106 <strong>No</strong>rth Bunn Road, Prosser, Washington<br />
99350-9687, United States; Shree P. Singh, University of Idaho, Kimberly<br />
Research & Extension Ctr., 3793 <strong>No</strong>rth 3600 East, Kimberly, Idaho 83341-5076,<br />
United States; Howard F. Schwartz, Colorado State University, Department of<br />
<strong>Plant</strong> Pathology, C 205 <strong>Plant</strong> Science Building-BSPM, Fort Collins, Colorado<br />
80523-1177, United States; H. Teran, Univesity of Idaho, Kimberly Research &<br />
Extension Center, 3793 <strong>No</strong>rth 3600 East, Kimberly, Idaho 83341, United States;<br />
M. Lema, University of Idaho, Kimberly Research & Extension Center, 3793<br />
<strong>No</strong>rth 3600 East, Kimberly, Idaho 83341, United States. Received 11/21/2006.<br />
PI 643973. Phaseolus vulgaris L.<br />
Breeding. Pureline. A 195. GP-245. Pedigree - Developed from the single<br />
cross GX 120 = Red Kloud/ICA 10009. Red Kloud has I gene resistance to<br />
Bean common mosaic virus (BCMV). Breeding line ICA 10009 also has I gene<br />
resistance to BCMV. Mass selection was practived in F2. A single plant<br />
was selected in the F3 bulk population at ICA-Pitalito, Huila, Colombia.<br />
<strong>The</strong> F4 plant-to-progeny row was planted at CIAT-Palmira, where a single<br />
plant was selected. <strong>The</strong> F5 plant-to-progeny row was again planted at the<br />
same site. Because the F5 was uniform for growth habit, flower color,<br />
maturity, and seed characteristics, eight of the most vigorous plants<br />
were harvested in bulk to form the first seed stock of A 195. White mold<br />
[caused by Sclerotinia sclerotiorum] dry bean breeding line A 195 has<br />
Type I growth habit, large ovate trifoliolate leaves and white flowers<br />
with small ovate bracteoles. Took over 100 d to reach maturity at Parma,<br />
Idaho in 2006. Has large (52-54 g 100 seed weight-1) opaque, beige<br />
colored seed with a distinctive yellow hilar ring. In replicated trials<br />
in the greenhouse at Kimberly, Idaho in 2005 and 2006, had a mean white<br />
mold score of 3.7 on a 1 to 9 scale, where 1 = symptomless or healthy<br />
and 9 = severely diseased and eventual plant death. Had an average white<br />
mold score of 2.0 in a replicated field trial at Parma, Idaho in 2006.<br />
<strong>The</strong> respective mean white mold scores in the greenhouse and field were<br />
4.4 and 5.3 for MO 162 and 5.8 and 6.5 for G 122.<br />
<strong>The</strong> following were developed by Donald F. Salmon, Alberta Agriculture, Field<br />
Crop Research Centre, 5030-50 Street, Lacombe, Alberta T4L 1W8, Canada; James<br />
H. Helm, Alberta Agriculture, Food and Rural Development, Field Crop<br />
Development Centre, Lacombe, Alberta T4L 1W8, Canada; Patricia E. Juskiw,<br />
Alberta Agriculture, Field Crop Development Centre, 5030-50 St., Lacombe,<br />
Alberta T4L 1W8, Canada; Susan Albers, Alberta Agriculture, Field Crop<br />
247
Development Ctr., 5030-50 St., Lacombe, Alberta T5B 4K3, Canada; Joseph M.<br />
Nyachiro, Alberta Agriculture, Food & Rural Development, Field Crop<br />
Development Centre, Lacombe, Alberta T4L 1W8, Canada; M. Oro, Alberta<br />
Agriculture, Food and Rural Developmentt. Centre, Field Crop Development<br />
Center, Lacombe, Alberta T4L 1W8, Canada; Colin Bergen, Alberta Agriculture<br />
and Food, Field Crop Development Centre, 5030 50th Street, Lacombe, Alberta<br />
T4L 1W8, Canada. Received 11/17/2006.<br />
PI 643974. X Triticosecale sp.<br />
Cultivar. Pureline. "BUNKER". CV-29; REST 643974. Pedigree -<br />
Pika-5/Yogui-1//85L012006. Released 2006. Standard height spring<br />
triticale line intended for use as a feed grain and conserved forage on<br />
the Canadian prairies. Has a large/plump seed and is similar in maturity<br />
and seed yield to the spring triticale varieties Pronghorn and AC<br />
Ultima, but is superior in forage yield to both varieties. Is rated as<br />
resistant to leaf rust, stem rust, and is moderately resistant to FHB.<br />
<strong>The</strong> following were developed by Donald F. Salmon, Alberta Agriculture, Field<br />
Crop Research Centre, 5030-50 Street, Lacombe, Alberta T4L 1W8, Canada; James<br />
H. Helm, Alberta Agriculture, Food and Rural Development, Field Crop<br />
Development Centre, Lacombe, Alberta T4L 1W8, Canada; Patricia E. Juskiw,<br />
Alberta Agriculture, Field Crop Development Centre, 5030-50 St., Lacombe,<br />
Alberta T4L 1W8, Canada; Susan Albers, Alberta Agriculture, Field Crop<br />
Development Ctr., 5030-50 St., Lacombe, Alberta T5B 4K3, Canada; Joseph M.<br />
Nyachiro, Alberta Agriculture, Food & Rural Development, Field Crop<br />
Development Centre, Lacombe, Alberta T4L 1W8, Canada; M. Oro, Alberta<br />
Agriculture, Food and Rural Developmentt. Centre, Field Crop Development<br />
Center, Lacombe, Alberta T4L 1W8, Canada; Colin Bergen, Alberta Agriculture<br />
and Food, Field Crop Development Centre, 5030 50th Street, Lacombe, Alberta<br />
T4L 1W8, Canada; Bill Chapman, Alberta Agriculture and Food, FieldCrop<br />
Development Centre, 5030 50th Street, Lacombe, Alberta T4L 1W8, Canada.<br />
Received 11/17/2006.<br />
PI 643975. X Triticosecale sp.<br />
Cultivar. Pureline. "TYNDAL". CV-30; REST 643975. Pedigree -<br />
Nimir-1/Hare-265//Erizo-9/88L012. Released 2006. Standard height spring<br />
triticale line (shorter than Bunker) intended for use as a feed grain<br />
and conserved forage in the higher rainfall or irrigated portions of the<br />
Canadian prairies. Similar in maturity to the earliest checks and has a<br />
high-test weight. Is rated as resistant to leaf and stem rust but is<br />
moderately susceptible to FHB.<br />
<strong>The</strong> following were developed by Saga Prefectural Regional Industry Support<br />
Center, Japan. Received 10/03/2006.<br />
PI 643976 PVPO. Glycine max (L.) Merr.<br />
Cultivar. "OLERICHI50". PVP 200600261.<br />
<strong>The</strong> following were developed by National Agriculture and Food Research<br />
Organization, Japan. Received 10/03/2006.<br />
PI 643977 PVPO. Glycine max (L.) Merr.<br />
Cultivar. "SUZUSAYAKA". PVP 200600262.<br />
248
<strong>The</strong> following were developed by Greg D. Kushnak, Montana State University,<br />
Western Triangle Agric. Research Center, P.O. Box 1474, Conrad, Montana<br />
59425, United States; Phil L. Bruckner, Montana State University, Dept. of<br />
<strong>Plant</strong> Sciences & <strong>Plant</strong> Pathology, 407 Leon Johnson Hall, Bozeman, Montana<br />
59717, United States; N.R. Riveland, Williston Research Extension Center,<br />
<strong>No</strong>rth Dakota Agric. Exp. Sta., 14120 Highway 2, Williston, <strong>No</strong>rth Dakota<br />
58801, United States; G.R. Carlson, Montana State University, <strong>No</strong>rthern Agric.<br />
Research Center, Star Rt. 36, Havre, Montana 59501, United States; Joyce L.<br />
Eckhoff, Montana State University, Eastern Agric. Research Center, 1501 N.<br />
Central Avenue, Sidney, Montana 59270, United States; D.W. Wichman, Montana<br />
State University, Central Agric. Research Center, Moccasin, Montana 59462,<br />
United States; Robert N. Stougaard, Montana State University, <strong>No</strong>rthwestern<br />
Agric. Research Center, 4570 MT Hwy 35, Kalispell, Montana 59901, United<br />
States; J.E. Berg, Montana State University, Dept. of <strong>Plant</strong>, Soil &<br />
Environmental Sciences, Bozeman, Montana 59717, United States; Ken Kephart,<br />
Montana State University, MSU Southern Ag. Research Center, 748 Railroad<br />
Highway, Huntley, Montana 59037, United States; W.E. Grey, Montana State<br />
University, Bozeman, Montana 59717, United States; Montana Agricultural<br />
Experiment Station, Bozeman, Montana, United States; D. Nash, Montana State<br />
University, Dept. of <strong>Plant</strong> Sciences and <strong>Plant</strong> Pathology, Bozeman, Montana<br />
59717, United States; E.S. Davis, Montana State University, Dept. of Land<br />
<strong>Resources</strong> & Environmental Sciences, Bozeman, Montana 59717, United States.<br />
Received 10/03/2006.<br />
PI 643978. Triticum aestivum L. subsp. aestivum<br />
Cultivar. "HYALITE"; MTCL0306. PVP 200600291; REST 643978; CV-1014.<br />
Pedigree - Selected from a composite of three related populations:<br />
MTW9727/FS2//NuWest, MTW9722/3/NuWest//TX12588-120*4/FS2 and<br />
NuSky//TAM110*4/FS2/3/3/N95S004. FS2 was developed by BASF by<br />
mutagenesis of Fidel and contains a single gene at the als1 locus for a<br />
cetolactate synthesis which conveys tolerance to imidazolinone<br />
herbicides. Released 2005. Medium maturity, conventional-height<br />
CLEARFIELD(R) hard white winter wheat with an average heading date of<br />
159.6 d from 1 Jan., n=26 and an average height of 94 cm, n=28. Winter<br />
hardiness is moderate in trials exhibiting differential survival. Under<br />
natural infection in Montana, Hyalite is resistant to stem rust (cuased<br />
by Puccinia graminis) and very susceptible to stripe rust (caused by<br />
Puccinia striiformis). Based on seven Montana crop tolerance trials,<br />
tolerance to imazamox is equivalent to that of Above and MT1159CL. In 31<br />
trials in Montana in 2004 and 2005, average grain yield of Hyalite (5026<br />
kg ha-1) was higher than Clearfield check cultivars, and average grain<br />
volume weight (776 g m-3, n=32) and average grain protein of Hyalite<br />
(132 g kg-1, n=32) were similar to check cultivars, MT1159CL and Above.<br />
Like parental lines NuWest and NuSky, Hyalite has a moderately low level<br />
of polyphenol oxidase (PPO) and has good milling and bread baking<br />
qualities and good Chinese noodle brightness and noodle color stability.<br />
<strong>The</strong> following were developed by <strong>The</strong> Scotts Company, United States. Received<br />
10/03/2006.<br />
PI 643979 PVPO. Festuca rubra L. subsp. rubra<br />
Cultivar. "WENDY JEAN". PVP 200600292.<br />
249
<strong>The</strong> following were developed by GeneFresh, Inc., Salinas, California, United<br />
States. Received 10/03/2006.<br />
PI 643980 PVPO. Lactuca sativa L.<br />
Cultivar. "WILDCAT". PVP 200600296.<br />
<strong>The</strong> following were developed by <strong>The</strong> Regents of the University of California,<br />
San Francisco, California, United States. Received 10/03/2006.<br />
PI 643981 PVPO. Triticum aestivum L. subsp. aestivum<br />
Cultivar. "PATWIN"; UC 1419. PVP 200600297. Pedigree - Madsen/2*Express.<br />
<strong>The</strong> following were developed by Syngenta Seeds, Inc., Junction City, Kansas,<br />
United States. Received 10/03/2006.<br />
PI 643982 PVPO. Triticum aestivum L. subsp. aestivum<br />
Cultivar. "PLATTE 2". PVP 200600298. Pedigree - Platte/W92-456W.<br />
<strong>The</strong> following were developed by Enza Zaden Beheer B.V., Netherlands. Received<br />
10/03/2006.<br />
PI 643983 PVPO. Lactuca sativa L.<br />
Cultivar. "MIDWAY". PVP 200600299.<br />
<strong>The</strong> following were developed by Progeny Advanced Genetics, Inc., Salinas,<br />
California, United States. Received 10/03/2006.<br />
PI 643984 PVPO. Lactuca sativa L.<br />
Cultivar. "TALLADEGA". PVP 200600300.<br />
<strong>The</strong> following were developed by GeneFresh, Inc., Salinas, California, United<br />
States. Received 10/03/2006.<br />
PI 643985 PVPO. Lactuca sativa L.<br />
Cultivar. "DESTINY". PVP 200600301.<br />
<strong>The</strong> following were developed by Rutgers, <strong>The</strong> State University of New Jersey,<br />
New Jersey, United States. Received 10/03/2006.<br />
PI 643986 PVPO. Lolium perenne L.<br />
Cultivar. "SR4600". PVP 200600302.<br />
<strong>The</strong> following were developed by Resource Seeds, Inc., United States. Received<br />
10/03/2006.<br />
PI 643987 PVPO. X Triticosecale sp.<br />
Cultivar. "98". PVP 200600303. Pedigree -<br />
SS193-5/TCL2601(Arancaria)/4/MZ4/XT419/3/Pika'S'/Yogui'S'/LT978.82/Asad'<br />
S'//Tarasca 87/3/PND6/CMH77A.1165.<br />
250
PI 643988 PVPO. X Triticosecale sp.<br />
Cultivar. "116". PVP 200600304. Pedigree -<br />
Ardilla/Snoopy6//11TSN79-3/C-2/3/Pika'S'//LT978.82/Asad'S'//Tarasca<br />
87/4/Triticale 105.<br />
<strong>The</strong> following were developed by J. Mitchell McGrath, USDA, ARS, Department of<br />
Crop and Soil Science, Michigan State University, East Lansing, Michigan<br />
48824-1325, United States; Daniele Trebbi, USDA, ARS, Michigan State<br />
University, A498 <strong>Plant</strong> & Soli Science Building, East Lansing, Michigan 48824,<br />
United States. Received 11/28/2006.<br />
PI 643989. Beta vulgaris L.<br />
Cultivar. "TBEL1"; W6 29776. Pedigree - TBEL1 is a seed mixture of<br />
inbred lines derived by single seed decent for 4 generations from a<br />
single hybrid plant derived from a cross between C6869 sugar beet and<br />
W357B red table beet, selected in 2005 for higher sucrose content<br />
(>10% fresh weig and cylindrical shape (length greater than twice the<br />
diameter). TBEL1 is self-fertile (Sf), has dark red roots conditioned by<br />
the accumulation of betalin pigments, and segregates for monogerm seed<br />
type. Its parents could have contributed characters including<br />
genic-male-sterility (A_:aa), red ypocotyl (R_:rr), and resistance to<br />
rhizomania conferred by the Rz1 allele, moderate resistance to the curly<br />
top virus, powdery mildew, Erwinia, and bolting, and O-type (xx, zz)<br />
that confers cytoplasmic male sterility in an S-type sterile cytoplasm,<br />
although these have not been specifically tested. <strong>The</strong> table beet parent<br />
W357B is a red table beet germplasm developed in the table beet breeding<br />
program at the University of Wisconsin by Dr. Buck Gabelman. <strong>The</strong> kind<br />
generosity of Dr. Gableman and Dr. Irwin Goldman in allowing this<br />
germplasm to contribute to the development of TBEL-1 is gratefully<br />
acknowledged. <strong>The</strong> sugar beet parent C6869 was used as a female in the<br />
initial cross, and this germplasm was subsequently enhanced and released<br />
as C869 (PI 628754).<br />
<strong>The</strong> following were donated by Al Jones, USDA/ARS, U.S. Vegetable Laboratory,<br />
2700 Savannah Highway, Charleston, South Carolina 29414, United States.<br />
Received 1997.<br />
PI 643990. Ipomoea indica (Burm.) Merr.<br />
Uncertain. G6205.<br />
PI 643991. Ipomoea lacunosa L.<br />
Uncertain. 62.98.<br />
<strong>The</strong> following were collected by Alfonso Del Rio, University of Wisconsin,<br />
Department of Horticulture, 1575 Linden Drive, Madison, Wisconsin 53706,<br />
United States; John Bamberg, USDA, ARS, Potato Introduction Station,<br />
Peninsula Experiment Station, Sturgeon Bay, Wisconsin 54235, United States;<br />
Charles Fernandez, University of Wisconsin, Potato Introduction Station,<br />
Peninsula Experiment Station, Sturgeon Bay, Wisconsin 54235, United States.<br />
Received 09/30/2006.<br />
PI 643992. Solanum stoloniferum Schltdl. & Bouche<br />
Wild. BFdR 146. Collected 09/27/2006 in Arizona, United States. Latitude<br />
32° 12' 11" N. Longitude 110° 33' 16" W. Elevation 2364 m. Pima<br />
251
County. Rincon mts. Near Manning camp on trail to Devil's Bathtub.<br />
Where stream crosses trail. Near stream bed. Four or five very small<br />
light green plants. Collected two tiny tubers and leaves, photo.<br />
Tubers died.<br />
PI 643993. Solanum stoloniferum Schltdl. & Bouche<br />
Wild. BFdR 147. Collected 09/27/2006 in Arizona, United States. Latitude<br />
32° 11' 54" N. Longitude 110° 33' 6" W. Elevation 2317 m. Pima<br />
County. Rincon mts. On Devil's Bathtub trail E of jct to Madrona<br />
station where stream crosses trail. Along stream both N and S of trail.<br />
Dozens of large and small light green plants, some with mature fruit,<br />
nested under oak scrub and among rocks. Grazed. Collected fruit and<br />
leaves, photo.<br />
PI 643994. Solanum stoloniferum Schltdl. & Bouche<br />
Wild. BFdR 148. Collected 09/27/2006 in Arizona, United States. Latitude<br />
32° 11' 47" N. Longitude 110° 32' 56" W. Elevation 2297 m. Pima<br />
County. Rincon mts. On Devil's Bathtub trail E of jct to Madrona<br />
station. Along trail. A few small yellow plants with mature fruit.<br />
Collected fruit and leaves.<br />
PI 643995. Solanum stoloniferum Schltdl. & Bouche<br />
Wild. BFdR 149. Collected 09/27/2006 in Arizona, United States. Latitude<br />
32° 11' 51" N. Longitude 110° 32' 42" W. Elevation 2292 m. Pima<br />
County. Rincon mts. On Devil's Bathtub trail upstream (N) from Devil's<br />
Bathtub. Along trail. A few small yellow plants with mature fruit under<br />
brush. Collected fruit and leaves.<br />
PI 643996. Solanum stoloniferum Schltdl. & Bouche<br />
Wild. BFdR 150. Collected 09/27/2006 in Arizona, United States. Latitude<br />
32° 11' 51" N. Longitude 110° 32' 33" W. Elevation 2316 m. Pima<br />
County. Rincon mts. On Devil's Bathtub trail 80 ft E of bathtub where<br />
stream crosses trail. Along trail. A few small yellow plants with<br />
mature fruit. Collected fruit and leaves.<br />
PI 643997. Solanum stoloniferum Schltdl. & Bouche<br />
Wild. BFdR 151. Collected 09/27/2006 in Arizona, United States. Latitude<br />
32° 12' 12" N. Longitude 110° 31' 59" W. Elevation 2272 m. Pima<br />
County. Rincon mts. On trail about 0.1 mile from Spudrock camp at Deer<br />
Spring trail jct. Open fern meadow. Many large yellow plants, rarely<br />
with fruit nested among dry ferns. Often grazed-much rabbit droppings.<br />
Collected Fruit.<br />
PI 643998. Solanum stoloniferum Schltdl. & Bouche<br />
Wild. BFdR 152. Collected 09/27/2006 in Arizona, United States. Latitude<br />
32° 12' 30" N. Longitude 110° 33' 14" W. Elevation 2420 m. Pima<br />
County. Rincon mts. At Manning Camp just E of lagoon and near<br />
heliport. In open grassy area. Rare small and large yellow plants,<br />
rarely with fruit. Collected fruit and leaves.<br />
PI 643999. Solanum stoloniferum Schltdl. & Bouche<br />
Wild. BFdR 153. Collected 09/27/2006 in Arizona, United States. Latitude<br />
32° 12' 43" N. Longitude 110° 32' 56" W. Elevation 2339 m. Pima<br />
County. Rincon mts. On Mica Mt trail between Meadow trail jct and S<br />
Fire Loop jct, Outcrops of boulders and cliffs off both sides of trail.<br />
<strong>Plant</strong>s nestled among boulders and cliffs off trail. Collected fruit.<br />
252
PI 644000. Solanum stoloniferum Schltdl. & Bouche<br />
Wild. BFdR 154. Collected 09/27/2006 in Arizona, United States. Latitude<br />
32° 12' 59" N. Longitude 110° 32' 37" W. Elevation 2560 m. Pima<br />
County. Rincon mts. Near Mica Mt. Mica Mountain trail between Meadow<br />
jct and N Fire Loop trail. Along trail. Collected fruit and leaves.<br />
PI 644001. Solanum stoloniferum Schltdl. & Bouche<br />
Wild. BFdR 155. Collected 09/27/2006 in Arizona, United States. Latitude<br />
32° 13' 14" N. Longitude 110° 32' 22" W. Elevation 2621 m. Pima<br />
County. Rincon mts. Near N end of Bonita trail (i.e., jct with Fire<br />
Loop trail). About 50 ft East of trail in W facing boulder cliff. In W<br />
facing boulder cliff nestled between rocks. Several dozen green wilted<br />
plants to 20 cm with many mature fruit. Collected fruit.<br />
PI 644002. Solanum stoloniferum Schltdl. & Bouche<br />
Wild. BFdR 156. Collected 09/27/2006 in Arizona, United States. Latitude<br />
32° 12' 45" N. Longitude 110° 32' 22" W. Elevation 2545 m. Pima<br />
County. Rincon mts. On S Fire Loop trail between jct with Bonita and<br />
Meadow trails. Among boulders near trail in grassy meadow. Many small,<br />
light colored plants, rarely with fruit. Collected fruit.<br />
PI 644003. Solanum stoloniferum Schltdl. & Bouche<br />
Wild. BFdR 157. Collected 09/28/2006 in Arizona, United States. Latitude<br />
32° 13' 2" N. Longitude 110° 33' 23" W. Elevation 2504 m. Pima<br />
County. Rincon mts. Near W end of <strong>No</strong>rth Slope trail (i.e., jct with<br />
Manning Camp trail). NW facing slope along trail among rocks. Small<br />
yellow plants with fruit but with ovipositor scars and containing<br />
maggots. Collected tubers (for backup - later discarded) and fruit.<br />
PI 644004. Solanum stoloniferum Schltdl. & Bouche<br />
Wild. BFdR 158; TEMP 22. Collected 09/29/2006 in Arizona, United States.<br />
Less than 10 wilted green plants. Collected fruit.<br />
<strong>The</strong> following were collected by Joseph Postman, USDA, ARS, National <strong>Germplasm</strong><br />
Repository, 33447 Peoria Road, Corvallis, Oregon 97333-2521, United States;<br />
Marine Mosulishvili, <strong>Plant</strong> Systematics, Institute of Botany, Georgian Academy<br />
of Sciences, Kojori road 1, Tbilisi, Georgia; Ed Stover, USDA, ARS, National<br />
<strong>Germplasm</strong> Repository, University of California, Davis, California 95616-8607,<br />
United States. Donated by Joseph Postman, USDA, ARS, National <strong>Germplasm</strong><br />
Repository, 33447 Peoria Road, Corvallis, Oregon 97333-2521, United States.<br />
Received 11/27/2006.<br />
PI 644005. Physalis alkekengi L.<br />
Wild. GE-2006-075; G 1. Collected 09/21/2006 in Georgia. Latitude<br />
41° 37' 44" N. Longitude 45° 27' 16" E. Korugi Preserve,<br />
Sagarejo District, Kakheti Province. Riparian area adjacent to Iora<br />
River with sandy-clay loam, deciduous forest with Populus tremula,<br />
Craetegus and Quercus longipes dominating, recent flowing water.<br />
<strong>The</strong> following were donated by Dessert Seed Co.,Inc, P.O. Box 181, El Centro,<br />
California 92243, United States. Received 1977.<br />
PI 644006. Brassica rapa subsp. pekinensis (Lour.) Hanelt<br />
Wong Bok.<br />
253
<strong>The</strong> following were donated by Ferry-Morse Seed Company, Inc., P.O. Box 100,<br />
Mountain View, California 94042, United States. Received 1963.<br />
PI 644007. Brassica rapa subsp. pekinensis (Lour.) Hanelt<br />
Michihli.<br />
<strong>The</strong> following were donated by <strong>No</strong>rthrup, King & Company, 1500 Jackson N.E.,<br />
Minneapolis, Minnesota 55413, United States. Received 1975.<br />
PI 644008. Physalis pubescens L.<br />
Husk Tomato/Ground Cherry.<br />
<strong>The</strong> following were donated by Gill Bros., Oregon, United States. Received<br />
1964.<br />
PI 644009. Physalis pubescens L.<br />
GROUND CHERRY.<br />
<strong>The</strong> following were donated by P.R. Stace-Smith, Agriculture Canada, Research<br />
Station, 6660 NW Marine Drive, Vancouver, British Columbia V6T 1X2, Canada.<br />
Received 04/01/1976.<br />
PI 644010. Physalis pubescens L.<br />
<strong>Plant</strong> Virus.<br />
<strong>The</strong> following were developed by C. Corley Holbrook, USDA, ARS, Georgia<br />
Coastal Plain Exp. Sta., P.O. Box 748, Tifton, Georgia 31793, United States;<br />
Albert Culbreath, <strong>The</strong> University of Georgia, Coastal Plain Experiment<br />
Station, P. O. Box 748, Tifton, Georgia 31793, United States. Received<br />
12/06/2006.<br />
PI 644011. Arachis hypogaea L.<br />
Cultivar. Pureline. "TIFRUNNER". CV-93. Pedigree - Originated from a<br />
cross of F439-16-10-3 and PI 203396. F439-16-10-3 is a component line<br />
of the cultivar, Florunner. <strong>The</strong> original population was advanced to the<br />
F4 generation using single seed descent. Individual F4 plants were<br />
harvested and the population was subjected to selection pressure for<br />
resistance to late leaf spot and tomato spotted wilt (caused by Tomato<br />
spotted wilt virus, TSWV) for the next three generations. During this<br />
same period, the population was also subjected to selection for<br />
desirable pod shape, seed size, testa color, growth habit, maturity,<br />
high yield, and grade characteristics.. Tifrunner is a runner<br />
market-type in seed and pod size. It has a spreading runner growth<br />
habit with an erect mainstem that is prominent throughout the growing<br />
season, and at harvest. It has a high level of resistance to spotted<br />
wilt disease caused by Tomato spotted wilt virus, (TSWV), and moderate<br />
resistance to early (Cercosporidium arachidicola Hori) and late<br />
(Cercosporidium personatum Berk. & M. A. Curtis) leaf spot. It is a<br />
late maturity class peanut, with about 150 days needed for optimal<br />
maturity. Based on seed count per pound, Tifrunner is intermediate<br />
between the relatively large seeded cultivar, C-99R, and the relatively<br />
small seeded cultivar, Georgia Green. Tifrunner has a pink testa (seed<br />
254
coat) with percent meat comparable to other runner cultivars.<br />
Tifrunner had significantly higher resistance to TSWV than the<br />
moderately resistance cultivar, Georgia Green in 22 out of 22 field<br />
trials. In six field studies using reduced fungicides, Tifrunner had<br />
significantly less leaf spot severity and significantly higher yield in<br />
comparison to susceptible cultivar, Georgia Green. It has O/L ration,<br />
and roasted flavor similar to the current standard runner cultivar,<br />
Georgia Green.<br />
<strong>The</strong> following were developed by J. Neil Rutger, 1989 Witham Drive, Woodland,<br />
California 95776, United States; Rolfe J. Bryant, USDA-ARS, Dale Bumpers<br />
National Rice Research Center, 2890 Highway 130 East, Stuttgart, Arkansas<br />
72160, United States; B.A. Beaty, USDA-ARS, P.O. Box 1090, Stuttgart,<br />
Arkansas 72160, United States. Received 12/04/2006.<br />
PI 644012. Oryza sativa L.<br />
Breeding. Pureline. Indica-10. GP-108. Pedigree - Induced early<br />
flowering mutant selected from gamma radiation of IRRI germplasm line<br />
IR65450-3-3-2-3-3-2. Released 2004. Indica-10, derived from 300 Gy<br />
treatment of IR65450-3-3-2-3-3-2, flowered in 107 days, 19 days earlier<br />
than its parent, and 8 days later than a prominent japonica check<br />
cultivar. Indica-10 yielded 83% of the check, had competitive whole<br />
kernel milling yields, and had grain shape and amylose contents similar<br />
to US long grain japonica cultivars. This mutant is valuable as<br />
improved indica germplasm for US breeders.<br />
PI 644013. Oryza sativa L.<br />
Breeding. Pureline. Indica-11. GP-109. Pedigree - Induced early<br />
flowering mutant selected from gamma radiation of IRRI germplasm line<br />
IR53936-60-3-2-3-1. Released 2004. Indica-11, derived from 250 GY<br />
treatment of IR53936-60-3-2-3-1, flowered in 108 days, 28 days earlier<br />
than its parent, and 9 days later than a prominent japonica check<br />
cultivar. Indica-11 yielded 83% of the check, had competitive whole<br />
kernel milling yields, and had grain shape and amylose contents similar<br />
to US long grain japonica cultivars. This mutant is valuable as<br />
improved indica germplasm for US breeders.<br />
PI 644014. Oryza sativa L.<br />
Breeding. Pureline. Indica-12. GP-110. Pedigree - Induced early<br />
flowering mutant selected from gamma radiation of IRRI germplasm line<br />
IR53936-60-3-2-3-1. Released 2004. Indica-12, derived from 250 GY<br />
treatment of IR53936-60-3-2-3-1, flowered in 108 days, 28 days earlier<br />
than its parent, and 9 days later than a prominent japonica check<br />
cultivar. Indica-12 yielded 96% of the check, had competitive whole<br />
kernel milling yields, and had grain shape and amylose contents similar<br />
to US long grain japonica cultivars. This mutant is valuable as<br />
improved indica germplasm for US breeders.<br />
PI 644015. Oryza sativa L.<br />
Breeding. Pureline. Indica-13. GP-111. Pedigree - Induced early<br />
flowering mutant selected from gamma radiation of IRRI germplasm line<br />
IR53936-60-3-2-3-1. Released 2004. Indica-13, derived from 300 GY<br />
treatment of IR53936-60-3-2-3-1, flowered in 106 days, 30 days earlier<br />
than its parent, and 7 days later than a prominent japonica check<br />
cultivar. Indica-13 yielded 85% of the check, had competitive whole<br />
kernel milling yields, and had grain shape and amylose contents similar<br />
255
to US long grain japonica cultivars. This mutant is valuable as<br />
improved indica germplasm for US breeders.<br />
<strong>The</strong> following were developed by Brett F. Carver, Oklahoma State University,<br />
Dept. of <strong>Plant</strong> & Soil Sciences, 368 Agriculture Hall <strong>No</strong>rth, Stillwater,<br />
Oklahoma 74078, United States. Received 12/11/2006.<br />
PI 644016. Triticum aestivum L. subsp. aestivum<br />
Cultivar. Pureline. "DUSTER". PVP 200700391. Pedigree -<br />
W0405D/NE78488//W7469C/TX81V6187. Originated in the former hard red<br />
winter wheat breeding program of Pioneer Hi-Bred International, Inc.<br />
Oklahoma State University received seed of the F3 population designated<br />
VBJ0503 by Pioneer in 1990. As a descendent of that population, Duster<br />
culminated from 16 years of selection and re-selection for adaptation to<br />
a dual-purpose production system common to the southern Great Plains,<br />
foliar disease and Hessian fly resistance, and phenotypic uniformity.<br />
Exemplary of its name is the ability to rapidly emerge under marginal<br />
soil-moisture conditions. As a high-tillering cultivar, Duster also<br />
provides rapid canopy closure, lush biomass accumulation prior to fall<br />
grazing, good tiller survival and canopy regeneration during grazing,<br />
and exceptional recovery from grazing for high grain yielding ability.<br />
Contributing also to its dual-purpose adaptation is a unique level of<br />
resistance to the Great Plains biotype of Hessian fly (Mayetiola<br />
destructor).Duster is resistant to Wheat spindle streak mosaic virus and<br />
to Wheat soilborne mosaic virus. Though Duster appears susceptible to<br />
leaf rust (caused by Puccinia triticina) in the seedling stage, it<br />
exhibited a resistant adult-plant reaction in the field in Oklahoma and<br />
Texas during the three crop seasons of 2004-2006. Duster has expressed<br />
a reaction to stripe rust (caused by Puccinia striiformis f. sp.<br />
tritici) varying from intermediate to moderately susceptible in the<br />
Great Plains. Thus, reaction to stripe rust may be highly dependent on<br />
the environment and/or races of the pathogen present. Based on combined<br />
greenhouse and field observations, Duster is moderately susceptible to<br />
tan spot (Pyrenophora tritici-repentis) but shows an intermediate<br />
reaction to septoria leaf blotch (Septoria tritici) and an intermediate<br />
to moderately resistant reaction to powdery mildew (Blumeria graminis f.<br />
sp. tritici). Wheat protein content of Duster is below-average, or 12.0%<br />
across Oklahoma, but its gluten strength and mixing tolerance ar.<br />
PI 644017. Triticum aestivum L. subsp. aestivum<br />
Cultivar. Pureline. "CENTERFIELD". PVP 200700390; REST 644017. Pedigree<br />
- (TXGH12588-105*4/FS4)/2*2174. Developed by crossing 2174 with a single<br />
plant selected for imazamox tolerance (commercial rate) from a F2<br />
population with the pedigree, TXGH12588-105*4/FS4. <strong>The</strong> resulting F1<br />
hybrid was subsequently backcrossed to 2174. Centerfield is a<br />
BC1F2-derived line that is phenotypically uniform, except for the<br />
segregation of plants either resistant (46%) or susceptible (54%) to<br />
biotype E greenbug (Schizaphis graminum Rondani) in the seedling stage.<br />
Centerfield reaches the first-hollow-stem stage moderately late, yet it<br />
has an intermediate heading date that is 5 days later than the very<br />
early cultivar, AP502CL. It is a moderately tall semidwarf, with good<br />
lodging resistance and straw strength (similar to 2174). Tolerance to<br />
acidic soils with high aluminum toxicity is above-average. Based on<br />
field observations in Oklahoma, Centerfield shows good resistance to<br />
Wheat spindle streak mosaic virus and to Wheat soilborne mosaic virus.<br />
Unlike most imazamox-resistant hard winter wheat cultivars currently<br />
256
available, Centerfield should exhibit insignificant losses to these<br />
viral diseases. During the severe stripe rust (caused by Puccinia<br />
striiformis f. sp. tritici) epidemic that occurred in 2005, Centerfield<br />
showed an intermediate reaction rating of 1.3 on a 0-to-4 scale of<br />
resistant to susceptible (natural field infection). Centerfield is<br />
moderately to highly resistant to leaf rust caused by races of Puccinia<br />
triticina present in Oklahoma and Texas during the 2004-2006 crop<br />
seasons. Greenhouse tests indicated susceptibility in the seedling<br />
stage to races of P. triticina collected from Oklahoma and south Texas.<br />
Based on other greenhouse observations, Centerfield is susceptible to<br />
tan spot (Pyrenophora tritici-repentis) and to septoria leaf blotch<br />
(Septoria tritici) and moderately susceptible to powdery mildew<br />
(Blumeria graminis f. sp. tritici. Milling and baking attributes of<br />
Centerfield are acceptable to above-average. Averaged across Oklahoma,<br />
wheat protein content is 13%, m.<br />
<strong>The</strong> following were developed by Frito Lay <strong>No</strong>rth America Inc., Plano, Texas<br />
75024, United States. Received 11/01/2006.<br />
PI 644018 PVPO. Solanum tuberosum L.<br />
Cultivar. "FL 1900". PVP 200000268.<br />
<strong>The</strong> following were developed by Seminis Vegetable Seeds, Inc., Woodland,<br />
California, United States. Received 10/26/2006.<br />
PI 644019 PVPO. Solanum lycopersicum L.<br />
Cultivar. "CHI1504001". PVP 200600259.<br />
<strong>The</strong> following were developed by University of Georgia Research Foundation,<br />
Inc., Athens, Georgia, United States. Received 09/29/2006.<br />
PI 644020 PVPO. Triticum aestivum L. subsp. aestivum<br />
Cultivar. "951079-2E31". PVP 200600276. Pedigree - GA881130/Gore.<br />
<strong>The</strong> following were developed by Grant H. Jr. Torrey, 2087 Road O SE, Moses<br />
Lake, Washington 98837, United States. Received 11/21/2006.<br />
PI 644021 PVPO. Triticum aestivum L. subsp. aestivum<br />
Cultivar. "CONCEPT". PVP 200600278. Pedigree -<br />
Basin/Stephens//Cashup/Daws.<br />
<strong>The</strong> following were developed by Seminis Vegetable Seeds, Inc., Woodland,<br />
California, United States. Received 11/13/2006.<br />
PI 644022 PVPO. Solanum lycopersicum L.<br />
Cultivar. "CHI1504005". PVP 200700021.<br />
<strong>The</strong> following were developed by Oregon Wholesale Seeds Company, Silverton,<br />
Oregon 97381, United States. Received 11/09/2006.<br />
PI 644023 PVPO. Sanguisorba minor Scop.<br />
257
Cultivar. "PERSIST". PVP 200700024.<br />
<strong>The</strong> following were developed by Richard L. Cooper, USDA-ARS, Ohio State<br />
University, 1680 Madison, Wooster, Ohio 44691-4096, United States; Anne E.<br />
Dorrance, Ohio State University, OARDC - Department of <strong>Plant</strong> Pathology, 1680<br />
Madison Avenue, Wooster, Ohio 44691-4096, United States; Rouf Mian, USDA-ARS,<br />
Corn and Soybean Research Unit, OARDC, 107-A Williams Hall, 1680 Madison<br />
Avenue, Wooster, Ohio 44691, United States. Received 12/14/2006.<br />
PI 644024. Glycine max (L.) Merr.<br />
Breeding. Pureline. Stout-Rps1k. GP-360. Pedigree - Stout (5) x Sprite<br />
87; Stout: Sprite 87 x HC85-6577; Sprite 87: Sprite (6) x Williams 82.<br />
Developed by backcrossing the Rpslk gene from cultivar Sprite 87 into<br />
the high yielding maturity group III determinate semi-dwarf cultivar<br />
Stout. Developed specifically to add race specific resistance to<br />
Phytophthora stem and root rot in the high-yielding semi-dwarf<br />
background of cultivar Stout. Similar to Stout in relative maturity,<br />
lodging, plant height, seed size and seed quality, and protein and oil<br />
content. Has white flower, tawny pubescence, tan pods, and dull yellow<br />
seed with black hilum, like Sout. This germplasm should be useful to<br />
soybean breeders and researchers interested in developing new germplasm<br />
specifically adapted to high yielding environments and with resistance<br />
to Phytophthora root and stem rot caused by Phytophthora sojae.<br />
PI 644025. Glycine max (L.) Merr.<br />
Breeding. Pureline. Strong-Rps1k. GP-359. Pedigree - Strong (5) x Sprite<br />
87; Strong: Sprite 87 x HC85-6577; Sprite 87: Sprite (6) x Williams 82.<br />
Developed by backcrossing the Rpslk gene from cultivar Sprite 87 into<br />
the high yielding maturity group IV determinate semi-dwarf cultivar<br />
Strong. Developed specifically to add race specific resistance to<br />
Phytophthora stem and root rot in the high-yielding semi-dwarf<br />
background of cultivar Strong. Similar to Strong in relative maturity,<br />
lodging, plant height, seed size and seed quality, and protein and oil<br />
content. Has white flower, tawny pubescence, tan pods, and dull yellow<br />
seed with black hilum, like Strong. This germplasm should be ueful to<br />
soybean breeders and researchers interested in developing new germplasm<br />
specifically adapted to high-yielding environments and resistance to<br />
Phytophthora root and stem rot caused by Phytophthora sojae.<br />
<strong>The</strong> following were developed by Neil W. Widstrom, USDA, ARS, Crop genetics &<br />
Breeding Research Unit, Coastal Plains Experiment Station, Tifton, Georgia<br />
31793-0748, United States; A.E. Coy, USDA, ARS, Coastal Plain Experiment<br />
Station, Tifton, Georgia 31703-0745, United States; Baozhu Guo, USDA-ARS,<br />
Crop Protection & Management Research Unit, University of Georgia Coastal<br />
Plain Experiment Station, Tifton, Georgia 31793-0748, United States; Robert<br />
E. Lynch, USDA-ARS, Crop Protection and Management Research Lab, 2747 Davis<br />
Rd, Tifton, Georgia 31793, United States; R.D. Lee, University of Georgia,<br />
Dept. of Crop and Soil Sciences, Tifton, Georgia 31793, United States.<br />
Received 12/12/2006.<br />
PI 644026. Zea mays L. subsp. mays<br />
Breeding. Pureline. GT601 (AM-1); GT601; AM-1. GP-551. Pedigree -<br />
Developed by seven generations of self-pollination from a maize<br />
population GT-MAS:gk (PI561859) (McMillian et al., 1993). This maize<br />
population was derived and selected from a visibly segregating hybrid<br />
258
ear that was infected by Aspergillus flavus (Widstrom et al., 1987) for<br />
reduced aflatoxin contamination. McMillian et al. (1993) released this<br />
maize population GT-MAS:gk as a source of resistance to aflatoxin<br />
accumulation. Field evaluation for aflatoxin contamination in 2004 and<br />
2005, GT601 had 33 ng g-1 and 52 ng g-1 and 62 ng g-1, while resistant<br />
control Tex6 had 69 ng g-1 and 120 ng g-1. In 2005 hybrid test, GT601 x<br />
Cyl and GT602 x Cyl had 113 ng g-1 and 105 ng g-1 aflatoxin, whereas the<br />
commercial hybrid controls had uyp to 266 ng g-1 aflatoxin. Adapted to<br />
southeastern U.S. region. Flowers about one week earlier than GT602,<br />
with about 60 d to 70 d from planting to flowering depending on the<br />
planting date. Has colorless pericarp, white cob, and browning silk,<br />
P-wwb. Had been used in genetic QTL mapping studies for silk maysin<br />
production and A. flavus infection.<br />
PI 644027. Zea mays L. subsp. mays<br />
Breeding. Pureline. GT602 (AM-2); GT602; AM-2. GP-552. Pedigree -<br />
Developed by seven generations of self-pollination from a maize<br />
population GT-MAS:gk (PI561859) (McMillian et al., 1993). This maize<br />
population was derived and selected from a visibly segregating hybrid<br />
ear that was infected by Aspergillus flavus (Widstrom et al., 1987) for<br />
reduced aflatoxin contamination. McMillian et al. (1993) released this<br />
maize population GT-MAS:gk as a source of resistance to aflatoxin<br />
accumulation. In field evaluation for aflatoxin contamination in 2004<br />
and 2005, GT602 had 32 ng g-1 and 51 ng g-1 respectively, while<br />
resistant control Tex6 had 69 ng g-1 and 120 ng g-1. In 2005 hybrid<br />
test, GT601 x Cy1 and GT602 x Cy1 had 113 ng g-1 and 105 ng g-1<br />
aflatoxin, whereas the commercial hybrid controls had up to 266 ng g-1<br />
aflatoxin. Adapted to southeastern U.S. region. GT601 flowers about one<br />
week earlier than GT602, with about 60 d to 70 d from planting to<br />
flowering depending on the planting date. GT602 has colorless pericarp,<br />
red cob, and browning silk, P-wrb.<br />
<strong>The</strong> following were developed by J. Neil Rutger, 1989 Witham Drive, Woodland,<br />
California 95776, United States; Y.C. Li, South China Institute of Botany,<br />
Guangzhou, China. Received 12/18/2006.<br />
PI 644028. Oryza sativa L.<br />
Genetic. TG1; GSOR 12. GS-7. Pedigree - F9 generation tetraploid line<br />
from the cross of two tetraploids, 4X PDER/4X L202. 4X PDER is a<br />
colchicine-induced tetraploid from an experimental line from China. 4X<br />
L202 is a spontaneous tetraploid found in an L202 farm field in CA in<br />
1987. High seed set selection was practiced from the F1 generation of<br />
the cross onward. Seed set of GSOR 12 at Stuttgart, AR in 2005 was<br />
59.4%, compared to 32.9% and 43.3% for the female and male parents. For<br />
reference, seed sets of the diploid versions of the female and male<br />
parents were 88.6 and 76.6%, respectively. Brown rice grain weights of<br />
GSOR 12 and its tetraploid parents were 30.0, 27.9, and 24.7 mg,<br />
respectively. Reference grain weights for the diploid versions of the<br />
respective parents were 23.0 and 19.8 mg. GSOR 12 has glabrous leaves<br />
and hulls, like its male parent, and plant height of 104 cm.<br />
PI 644029. Oryza sativa L.<br />
Genetic. TG2; GSOR 13. GS-8. Pedigree - F9 generation tetraploid line<br />
from the cross of two tetraploids, 4X PDER/4X Jackson. 4X PDER is a<br />
colchicine-induced tetraploid from an experimental line from China. 4X<br />
Jackson is a spontaneous tetraploid forund in a Jackson farm field in AR<br />
259
in 1994. High seed set selection was practiced from the F1 generation of<br />
the cross onward. Seed set of GSOR 13 at Stuttgart, AR in 2005 was<br />
55.1%, compared to 32.9 % and 38.7% for the female and male parents.<br />
For reference, seed sets of the diploid versions of the female and male<br />
parents were 88.6 and 69.4%, respectively. Brown rice grain weights of<br />
GSOR 13 and its tetraploid parents were 31.2, 27.9, and 23.7 mg,<br />
respectively. Reference grain weights for the diploid versions of the<br />
respective parents were 23.0 and 16.8 mg. GSOR 13 has glabrous leaves<br />
and hulls, like its male parent, and plant height of 110 cm.<br />
<strong>The</strong> following were developed by Semillas Papalotla, Mexico. Received<br />
11/22/2006.<br />
PI 644030 PVPO. Urochloa hybrid<br />
Cultivar. "MULATO". PVP 200200208.<br />
<strong>The</strong> following were developed by Busch Agricultural <strong>Resources</strong>, Inc., Fort<br />
Collins, Colorado, United States. Received 11/22/2006.<br />
PI 644031 PVPO. Hordeum vulgare L. subsp. vulgare<br />
Cultivar. "MERIT 16"; 2B99-2316. PVP 200600270. Pedigree -<br />
Merit*2/2B85-8129(B1<strong>215</strong>/Stein//Manley).<br />
PI 644032 PVPO. Hordeum vulgare L. subsp. vulgare<br />
Cultivar. "MERIT 57"; 2B99-2657. PVP 200600271. Pedigree -<br />
Merit//Merit/2B94-5744(B1<strong>215</strong>//B1<strong>215</strong>/Seebe).<br />
<strong>The</strong> following were developed by Orsetti Seed Company, Inc., Salinas,<br />
California, United States. Received 11/22/2006.<br />
PI 644033 PVPO. Lactuca sativa L.<br />
Cultivar. "PACIFICA". PVP 200700001.<br />
<strong>The</strong> following were developed by Radix Research, Inc., Aumsville, Oregon,<br />
United States. Received 11/22/2006.<br />
PI 644034 PVPO. Bromus catharticus Vahl<br />
Cultivar. "PERSISTER". PVP 200700002.<br />
<strong>The</strong> following were developed by Enza Zaden Beheer B.V., Netherlands. Received<br />
11/22/2006.<br />
PI 644035 PVPO. Lactuca sativa L.<br />
Cultivar. "CHISTERA". PVP 200700004.<br />
<strong>The</strong> following were developed by Harris Moran Seed Company, Modesto,<br />
California, United States. Received 11/22/2006.<br />
PI 644036 PVPO. Lactuca sativa L.<br />
Cultivar. "ROME 59". PVP 200700005.<br />
260
<strong>The</strong> following were developed by USDA, Bureau of Agricultural Economics,<br />
Washington, District of Columbia, United States. Received 11/22/2006.<br />
PI 644037 PVPO. Capsicum chinense Jacq.<br />
Cultivar. "TIGERPAW-NR". PVP 200700006.<br />
<strong>The</strong> following were developed by USDA, Charleston, <strong>No</strong>rth Carolina, United<br />
States. Received 11/22/2006.<br />
PI 644038 PVPO. Vigna unguiculata (L.) Walp. subsp. unguiculata<br />
Cultivar. "GREENPACK-DG". PVP 200700007.<br />
<strong>The</strong> following were developed by Delta and Pine Land Company, Scott,<br />
Mississippi, United States. Received 11/22/2006.<br />
PI 644039 PVPO. Gossypium hirsutum L.<br />
Cultivar. "DP 147 RF". PVP 200700008.<br />
PI 644040 PVPO. Gossypium hirsutum L.<br />
Cultivar. "DP 167 RF". PVP 200700009.<br />
PI 644041 PVPO. Gossypium hirsutum L.<br />
Cultivar. "DP 164 B2RF". PVP 200700010.<br />
<strong>The</strong> following were developed by Gina Rowan, University of Georgia, Miller<br />
<strong>Plant</strong> Science Building Rm. 3111, Athens, Georgia 30602, United States; E.<br />
Dale Wood, University of Georgia, Dept. of Crop & Soil Sciences, Athens,<br />
Georgia 30602, United States; S.L. Finnerty, University of Georgia, Dept. of<br />
<strong>Plant</strong> Pathology, Athens, Georgia 30602, United States; H. Roger Boerma,<br />
University of Georgia, Center for Applied Genetic Technologies, 111 Riverbend<br />
Road, Athens, Georgia 30602-7272, United States; David Walker, University of<br />
Georgia, 203 Center for Applied Genetic Technologies, 111 Riverbend Road,<br />
Athens, Georgia 30602-0915, United States; Vasilia A. Fasoula, University of<br />
Georgia, Dept. of Crop and Soil Sciences, Athens, Georgia 30602, United<br />
States; Jennifer Yates, University of Georgia, Dept. of Crop and Soil<br />
Sciences, Athens, Georgia 30602, United States. Donated by H. Roger Boerma,<br />
University of Georgia, Center for Applied Genetic Technologies, 111 Riverbend<br />
Road, Athens, Georgia 30602-7272, United States. Received 12/13/2006.<br />
PI 644042. Glycine max (L.) Merr.<br />
Breeding. Pureline. G95-Ben335; SY 607001. GP-332. Pedigree - G95-Ben335<br />
was developed by growing single plants in 1995 from 1994 'Benning'<br />
Foundation seed. <strong>Plant</strong>s were grown to maturity, harvested by hand, and<br />
threshed. Seed from each single plant was tested for chemical<br />
composition and divergent selection for low or high protein and oil<br />
content was performed. G95-Ben335 was derived from a composite of seed<br />
from one of these plants. G95-Ben335 was subsequently evaluated in<br />
replicated experiments in Georgia over 3 years in a total of five<br />
environments. Released 12/08/2006. G95-Ben335 averaged 17 mg seed-1<br />
greater seed weight (173 mg seed-1) and 6 g kg-1 more seed oil (213 g<br />
kg-1) than Benning when tested across 3 yr in a total of five<br />
environments. Its maturity, seed protein content, and seed yield were<br />
similar to Benning. G95-Ben335, like Benning, has a determinate growth<br />
261
habit, purple flowers, tawny pubescence, and tan pod walls. Its seeds<br />
are yellow with shiny seed coats and brown hila. Disease and nematode<br />
resistance of G95-Ben335 is similar to Benning.<br />
PI 644043. Glycine max (L.) Merr.<br />
Breeding. Pureline. G95-Ben1818; SY 607002. GP-333. Pedigree -<br />
G95-Ben1818 was developed by growing single plants in 1995 from 1994<br />
'Benning' Foundation seed. <strong>Plant</strong>s were grown to maturity, harvested by<br />
hand, and threshed. Seed from each single plant was tested for chemical<br />
composition and divergent selectionfor low or high protein and oil<br />
content was performed. G95-Ben1818 was derived from a composite of seed<br />
from one of these plants. G95-Ben1818 was subsequently evaluated in<br />
replicated experiments in Georgia over 3 years in a total of five<br />
environments. Released 12/08/2006. G95-Ben1818 averaged 137 mg seed-1<br />
seed weight which was 19 mg seed-1 less than Benning when tested across<br />
3 yr in a total of five environments. It was similar to Benning in<br />
maturity, seed protein content, seed oil content, and seed yield.<br />
G95-Ben1818, like Benning, has a determinate growth habit, purple<br />
flowers, tawny pubescence, and tan pod walls. Its seeds are yellow with<br />
shiny seed coats and brown hila. Disease and nematode resistance of<br />
G95-Ben1818 is similar to Benning.<br />
PI 644044. Glycine max (L.) Merr.<br />
Breeding. Pureline. G95-Ben2403; SY 607003. GP-334. Pedigree -<br />
G95-Ben2403 was developed by growing single plants in 1995 from 1994<br />
'Benning' Foundation seed. <strong>Plant</strong>s were grown to maturity, harvested by<br />
hand, and threshed. Seed from each single plant was tested for chemical<br />
composition and divergent selectionfor low or high protein and oil<br />
content was performed. G95-Ben2403 was derived from a composite of seed<br />
from one of these plants. G95-Ben2403 was subsequently evaluated in<br />
replicated experiments in Georgia over 3 years in a total of five<br />
environments. Released 12/08/2006. G95-Ben2403 averaged 7 g kg-1 higher<br />
seed protein (417 g kg-1) and 7 g kg-1 lower seed oil (200 g kg-1) than<br />
Benning when tested across 3 yr in a total of five environments. It was<br />
similar to Benning in seed weight, maturity, and seed yield. G95-Ben<br />
2403, like Benning, has a determinate growth habit, purple flowers,<br />
tawny pubescence, and tan pod walls. Its seeds are yellow with shiny<br />
seed coats and brown hila. Disease and nematode resistance of<br />
G95-Ben2403 is similar to Benning.<br />
PI 644045. Glycine max (L.) Merr.<br />
Breeding. Pureline. G95-Ben2448; SY 607004. GP-335. Pedigree -<br />
G95-Ben2448 was developed by growing single plants in 1995 from 1994<br />
'Benning' Foundation seed. <strong>Plant</strong>s were grown to maturity, harvested by<br />
hand, and threshed. Seed from each single plant was tested for chemical<br />
composition and divergent selectionfor low or high protein and oil<br />
content was performed. G95-Ben2448 was derived from a composite of seed<br />
from one of these plants. G95-Ben2448 was subsequently evaluated in<br />
replicated experiments in Georgia over 3 years in a total of five<br />
environments. Released 12/08/2006. G95-Ben2448 averaged 4 days earlier<br />
in maturity than Benning when tested across 3 yr in a total of five<br />
environments. Its seed protein content, seed oil content, seed weight,<br />
and seed yield were similar to Benning. G95-Ben2448, like Benning, has<br />
a determinate growth habit`, purple flowers, tawny pubescence, and tan<br />
pod walls. Its seeds are yellow with shiny seed coats and brown hila.<br />
Disease and nematode resistance of G95-Ben2448 is similar to Benning.<br />
262
PI 644046. Glycine max (L.) Merr.<br />
Breeding. Pureline. G95-Ben4123; SY 607005. GP-336. Pedigree -<br />
G95-Ben4123 was developed by growing single plants in 1995 from 1994<br />
'Benning' Foundation seed. <strong>Plant</strong>s were grown to maturity, harvested by<br />
hand, and threshed. Seed from each single plant was tested for chemical<br />
composition and divergent selectionfor low or high protein and oil<br />
content was performed. G95-Ben4123 was derived from a composite of seed<br />
from one of these plants. G95-Ben4123 was subsequently evaluated in<br />
replicated experiments in Georgia over 3 years in a total of five<br />
environments. Released 12/08/2006. G95-Ben4123 averaged 9 g kg-1 higher<br />
seed protein (419 g kg-1) and 8 g kg-1 lower seed oil (199 g kg-1) than<br />
Benning when tested across 3 yr in a total of five environments. Its<br />
seed weighed 146 mg seed-1 and averaged 10 mg seed-1 less than Benning,<br />
while it was similar in maturity and seed yield. G95-Ben4123, like<br />
Benning, has a determinate growth habit, purple flowers, tawny<br />
pubescence, and tan pod walls. Its seeds are yellow with shiny seed<br />
coats and brown hila. Disease and nematode resistance of G95-Ben4123 is<br />
similar to Benning.<br />
PI 644047. Glycine max (L.) Merr.<br />
Breeding. Pureline. G95-Cook319; SY 607006. GP-337. Pedigree -<br />
G95-Cook319 was developed by growing single plants in 1995 from 1994<br />
'Cook' Foundation seed. <strong>Plant</strong>s were grown to maturity, harvested by<br />
hand, and threshed. Seed from each single plant was tested for chemical<br />
composition and divergent selection for low or high protein and oil<br />
content was performed. G95-Cook319 was derived from a composite of seed<br />
from one of these plants. G95-Cook319 was subsequently evaluated in<br />
replicated experiments in Georgia over 3 years in a total of five<br />
environments. Released 12/08/2006. G95-Cook319 averaged 2 days earlier<br />
in maturity and 9 mg seed-1 less seed weight (145 mg seed-1) than Cook<br />
when tested across 3 yr in a total of five environments. It was similar<br />
to Cook in seed protein content, seed oil content, plant height, and se<br />
ed yield. G95-Cook319, like Cook, has a determinate growth habit, purple<br />
flowers, tawny pubescence, and tan pod walls. Its seeds are yellow with<br />
dull seed coats and black hila. <strong>The</strong> intensity of the black pigment in<br />
the hilum can vary across environments and even on different seeds of<br />
the same plant. Disease and nematode resistance of G95-Cook319 is<br />
similar to Cook.<br />
PI 644048. Glycine max (L.) Merr.<br />
Breeding. Pureline. G95-Cook1346; SY 607007. GP-338. Pedigree -<br />
G95-Cook1346 was developed by growing single plants in 1995 from 1994<br />
'Cook' Foundation seed. <strong>Plant</strong>s were grown to maturity, harvested by<br />
hand, and threshed. Seed from each single plant was tested for chemical<br />
composition and divergent selection for low or high protein and oil<br />
content was performed. G95-Cook1346 was derived from a composite of<br />
seed from one of these plants. G95-Cook1346 was subsequently evaluated<br />
in replicated experiments in Georgia over 3 years in a total of five<br />
environments. Released 12/08/2006. G95-Cook1346 averaged 11 g kg-1<br />
higher seed protein (431 g kg-1) than Cook when tested across 3 yr in a<br />
total of five environments. It was similar to Cook in seed oil, seed<br />
weight, maturity, plant height, and seed yield. G95-Cook1346, like Cook,<br />
has a determinate growth habit, purple flowers, tawny pubescence, and<br />
tan pod walls. Its seeds are yellow with dull seed coats and black hila.<br />
<strong>The</strong> intensity of the black pigment in the hilum can vary across<br />
environments and even on different seeds of the same plant. Disease<br />
and nematode resistance of G95-Cook1346 is similar to Cook.<br />
263
PI 644049. Glycine max (L.) Merr.<br />
Breeding. Pureline. G95-Cook2014; SY 607008. GP-339. Pedigree -<br />
G95-Cook2014 was developed by growing single plants in 1995 from 1994<br />
'Cook' Foundation seed. <strong>Plant</strong>s were grown to maturity, harvested by<br />
hand, and threshed. Seed from each single plant was tested for chemical<br />
composition and divergent selection for low or high protein and oil<br />
content was performed. G95-Cook2014 was derived from a composite of<br />
seed from one of these plants. G95-Cook2014 was subsequently evaluated<br />
in replicated experiments in Georgia over 3 years in a total of five<br />
environments. Released 12/08/2006. G95-Cook2014 averaged 8 cm shorter<br />
than Cook when tested across 3 yr in a total of five environments. It<br />
was similar to Cook in seed protein content, seed oil content, maturity,<br />
seed weight, and seed yield. G95-Cook2014, like Cook, has a determinate<br />
growth habit, purple flowers, tawny pubescence, and tan pod walls. Its<br />
seeds are yellow with dull seed coats and black hila. <strong>The</strong> intensity of<br />
the black pigment in the hilum can vary across environments and even on<br />
different seeds of the same plant. Disease and nematode resistance of<br />
G95-Cook2014 is similar to Cook.<br />
PI 644050. Glycine max (L.) Merr.<br />
Breeding. Pureline. G95-Cook2734; SY 607009. GP-340. Pedigree -<br />
G95-Cook2734 was developed by growing single plants in 1995 from 1994<br />
'Cook' Foundation seed. <strong>Plant</strong>s were grown to maturity, harvested by<br />
hand, and threshed. Seed from each single plant was tested for chemical<br />
composition and divergent selection for low or high protein and oil<br />
content was performed. G95-Cook2734 was derived from a composite of<br />
seed from one of these plants. G95-Cook2734 was subsequently evaluated<br />
in replicated experiments in Georgia over 3 years in a total of five<br />
environments. Released 12/08/2006. G95-Cook2734 averaged 7 cm taller<br />
than Cook when tested across 3 yr in a total of five environments. It<br />
was similar to Cook in seed protein content, seed oil content, maturity,<br />
seed weight, and seed yield. G95-Cook2734, like Cook, has a determinate<br />
growth habit, purple flowers, tawny pubescence, and tan pod walls. Its<br />
seeds are yellow with dull seed coats and black hila. <strong>The</strong> intensity of<br />
the black pigment in the hilum can vary across environments and even on<br />
different seeds of the same plant. Disease and nematode resistance of<br />
G95-Cook2734 is similar to Cook.<br />
PI 644051. Glycine max (L.) Merr.<br />
Breeding. Pureline. G95-Cook3008; SY 607010. GP-341. Pedigree -<br />
G95-Cook3008 was developed by growing single plants in 1995 from 1994<br />
'Cook' Foundation seed. <strong>Plant</strong>s were grown to maturity, harvested by<br />
hand, and threshed. Seed from each single plant was tested for chemical<br />
composition and divergent selection for low or high protein and oil<br />
content was performed. G95-Cook3008 was derived from a composite of<br />
seed from one of these plants. G95-Cook3008 was subsequently evaluated<br />
in replicated experiments in Georgia over 3 years in a total of five<br />
environments. Released 12/08/2006. G95-Cook3008 averaged 2 days later in<br />
maturity than Cook when tested across 3 yr in a total of five<br />
environments. It was similar to Cook in seed protein content, seed oil<br />
content, seed weight, plant height, and seed yield. G95-Cook3008, like<br />
Cook, has a determinate growth habit, purple flowers, tawny pubescence,<br />
and tan pod walls. Its seeds are yellow with dull seed coats and black<br />
hila. <strong>The</strong> intensity of the black pigment in the hilum can vary across<br />
environments and even on different seeds of the same plant. Disease<br />
and nematode resistance of G95-Cook3008 is similar to Cook.<br />
264
PI 644052. Glycine max (L.) Merr.<br />
Breeding. Pureline. G95-Cook3614; SY 607011. GP-342. Pedigree -<br />
G95-Cook3614 was developed by growing single plants in 1995 from 1994<br />
'Cook' Foundation seed. <strong>Plant</strong>s were grown to maturity, harvested by<br />
hand, and threshed. Seed from each single plant was tested for chemical<br />
composition and divergent selection for low or high protein and oil<br />
content was performed. G95-Cook3614 was derived from a composite of<br />
seed from one of these plants. G95-Cook3614 was subsequently evaluated<br />
in replicated experiments in Georgia over 3 years in a total of five<br />
environments. Released 12/08/2006. G95-Cook3614 averaged 10 g kg-1<br />
higher seed protein (430 g kg-1) and 11 mg seed-1 greater seed weight<br />
(165 mg seed-1) than Cook when tested across 3 yr in a total of five<br />
environments. It matured 2 days later than Cook, while similar to Cook<br />
in seed oil, plant height, and seed yield. G95-Cook3614, like Cook, has<br />
a determinate growth habit, purple flowers, tawny pubescence, and tan<br />
pod walls. Its seeds are yellow with dull seed coats and black hila. <strong>The</strong><br />
intensity of the black pigment in the hilum can vary across environments<br />
and even on different seeds of the same plant. Disease and nematode<br />
resistance of G95-Cook3614 is similar to Cook.<br />
PI 644053. Glycine max (L.) Merr.<br />
Breeding. Pureline. G95-Cook3746; SY 607012. GP-343. Pedigree -<br />
G95-Cook3746 was developed by growing single plants in 1995 from 1994<br />
'Cook' Foundation seed. <strong>Plant</strong>s were grown to maturity, harvested by<br />
hand, and threshed. Seed from each single plant was tested for chemical<br />
composition and divergent selection for low or high protein and oil<br />
content was performed. G95-Cook3746 was derived from a composite of<br />
seed from one of these plants. G95-Cook3746 was subsequently evaluated<br />
in replicated experiments in Georgia over 3 years in a total of five<br />
environments. Released 12/08/2006. G95-Cook3746 averaged 9 g kg-1 higher<br />
seed protein (429 g kg-1) and 5 g kg-1 lower seed oil (192 g kg-1) than<br />
Cook when tested across 3 yr in a total of five environments. It was<br />
similar to Cook in seed weight, maturity, plant height, and seed yield.<br />
G95-Cook3746, like Cook, has a determinate growth habit, purple flowers,<br />
tawny pubescence, and tan pod walls. Its seeds are yellow with dull seed<br />
coats and black hila. <strong>The</strong> intensity of the black pigment in the hilum<br />
can vary across environments and even on different seeds of the same<br />
plant. Disease and nematode resistance of G95-Cook3746 is similar to<br />
Cook.<br />
PI 644054. Glycine max (L.) Merr.<br />
Breeding. Pureline. G95-Has339; SY 607013. GP-344. Pedigree - G95-Has339<br />
was developed by growing single plants in 1995 from 1994 'Haskell'<br />
Foundation seed. <strong>Plant</strong>s were grown to maturity, harvested by hand, and<br />
threshed. Seed from each single plant was tested for chemical<br />
composition and divergent selection for low or high protein and oil<br />
content was performed. G95-Has339 was derived from a composite of seed<br />
from one of these plants. G95-Has339 was subsequently evaluated in<br />
replicated experiments in Georgia over 3 years in a total of five<br />
environments. Released 12/08/2006. G95-Has339 averaged 20 mg seed-1<br />
greater seed weight than Haskell when tested across 3 yr in a total of<br />
five environments. It was similar to Haskell in seed protein and oil<br />
content, maturity, plant height, lodging, and seed yield. G95-Has339,<br />
like Haskell, has a determinate growth habit, purple flowers, tawny<br />
pubescence, and tan pod walls. Its seeds are yellow with shiny seed<br />
265
coats and black hila. Disease and nematode resistance of G95-Has339 is<br />
similar to Haskell.<br />
PI 644055. Glycine max (L.) Merr.<br />
Breeding. Pureline. G95-Has551; SY 607014. GP-345. Pedigree - G95-Has551<br />
was developed by growing single plants in 1995 from 1994 'Haskell'<br />
Foundation seed. <strong>Plant</strong>s were grown to maturity, harvested by hand, and<br />
threshed. Seed from each single plant was tested for chemical<br />
composition and divergent selection for low or high protein and oil<br />
content was performed. G95-Has551 was derived from a composite of seed<br />
from one of these plants. G95-Has551 was subsequently evaluated in<br />
replicated experiments in Georgia over 3 years in a total of five<br />
environments. Released 12/08/2006. G95-Has551 averaged 8 g kg-1 higher<br />
seed protein and 10 mg seed-1 greater seed weight than Haskell when<br />
tested across 3 yr in a total of five environments. It matured 3 d later<br />
than Haskell, while it was similar to Haskell in seed oil, plant height,<br />
lodging, and seed yield. G95-Has551, like Haskell, has a determinate<br />
growth habit, purple flowers, tawny pubescence, and tan pod walls. Its<br />
seeds are yellow with shiny seed coats and black hila. Disease and<br />
nematode resistance of G95-Has551 is similar to Haskell.<br />
PI 644056. Glycine max (L.) Merr.<br />
Breeding. Pureline. G95-Has1452; SY 607015. GP-346. Pedigree -<br />
G95-Has1452 was developed by growing single plants in 1995 from 1994<br />
'Haskell' Foundation seed. <strong>Plant</strong>s were grown to maturity, harvested by<br />
hand, and threshed. Seed from each single plant was tested for chemical<br />
composition and divergent selectionfor low or high protein and oil<br />
content was performed. G95-Has1452 was derived from a composite of seed<br />
from one of these plants. G95-Has1452 was subsequently evaluated in<br />
replicated experiments in Georgia over 3 years in a total of five<br />
environments. Released 12/08/2006. G95-Has1452 averaged 8 cm taller and<br />
had 14 mg seed-1 greater seed weight than Haskell when tested across 3<br />
yr in a total of five environments. It matured 5 d later than Haskell,<br />
while seed oil, seed oil, lodging, and seed yield were similar to those<br />
of Haskell. G95-Has1452, like Haskell, has a determinate growth habit,<br />
purple flowers, tawny pubescence, and tan pod walls. Its seeds are<br />
yellow with shiny seed coats and black hila. Disease and nematode<br />
resistance of G95-Has1452 is similar to Haskell.<br />
PI 644057. Glycine max (L.) Merr.<br />
Breeding. Pureline. G95-Has1536; SY 607016. GP-347. Pedigree -<br />
G95-Has1536 was developed by growing single plants in 1995 from 1994<br />
'Haskell' Foundation seed. <strong>Plant</strong>s were grown to maturity, harvested by<br />
hand, and threshed. Seed from each single plant was tested for chemical<br />
composition and divergent selectionfor low or high protein and oil<br />
content was performed. G95-Has1536 was derived from a composite of seed<br />
from one of these plants. G95-Has1536 was subsequently evaluated in<br />
replicated experiments in Georgia over 3 years in a total of five<br />
environments. Released 12/08/2006. G95-Has1536 produced 30 mg seed-1<br />
larger seed weight and was 9 cm taller than Haskell when tested across 3<br />
yr in a total of five environments. It matured 6 d later than Haskell,<br />
while it was similar to Haskell in seed oil and protein, lodging, and se<br />
ed yield. G95-Has1536, like Haskell, has a determinate growth habit,<br />
purple flowers, tawny pubescence, and tan pod walls. Its seeds are<br />
yellow with shiny seed coats and black hila. Disease and nematode<br />
resistance of G95-Has1536 is similar to Haskell.<br />
266
PI 644058. Glycine max (L.) Merr.<br />
Breeding. Pureline. G95-Has2539; SY 607017. GP-348. Pedigree -<br />
G95-Has2539 was developed by growing single plants in 1995 from 1994<br />
'Haskell' Foundation seed. <strong>Plant</strong>s were grown to maturity, harvested by<br />
hand, and threshed. Seed from each single plant was tested for chemical<br />
composition and divergent selectionfor low or high protein and oil<br />
content was performed. G95-Has2539 was derived from a composite of seed<br />
from one of these plants. G95-Has2539 was subsequently evaluated in<br />
replicated experiments in Georgia over 3 years in a total of five<br />
environments. Released 12/08/2006. G95-Has2539 was more susceptible to<br />
lodging (3.6 vs. 3.1 rating, were 1.0 is all plants erect and 5.0 is<br />
over 80% of plants lodged flat) than Haskell when tested across 3 yr in<br />
a total of five environments. It was similar to Haskell in seed protein,<br />
seed oil, seed weight, maturity, plant height, and seed yield.<br />
G95-Has2539, like Haskell, has a determinate growth habit, purple<br />
flowers, tawny pubescence, and tan pod walls. Its seeds are yellow with<br />
shiny seed coats and black hila. Disease and nematode resistance of<br />
G95-Has2539 is similar to Haskell.<br />
PI 644059. Glycine max (L.) Merr.<br />
Breeding. Pureline. G95-Has4243; SY 607018. GP-349. Pedigree -<br />
G95-Has4243 was developed by growing single plants in 1995 from 1994<br />
'Haskell' Foundation seed. <strong>Plant</strong>s were grown to maturity, harvested by<br />
hand, and threshed. Seed from each single plant was tested for chemical<br />
composition and divergent selectionfor low or high protein and oil<br />
content was performed. G95-Has4243 was derived from a composite of seed<br />
from one of these plants. G95-Has4243 was subsequently evaluated in<br />
replicated experiments in Georgia over 3 years in a total of five<br />
environments. Released 12/08/2006. G95-Has4243 averaged 8 g kg-1 higher<br />
seed protein, 9 g kg-1 lower seed oil, 38 mg seed-1 greater seed weight,<br />
and 22% (601 kg ha-1) than Haskell when tested across 3 yr in a total of<br />
five environments. It matured 6 d later than Haskell and had greater<br />
lodging resistance (2.2 vs. 3.1 rating, where 1.0 is all plants erect<br />
and 5.0 is over 80% of plants lodged flat) than Haskell. <strong>Plant</strong> height<br />
was similar to Haskell. G95-Has4243, like Haskell, has a determinate<br />
growth habit, purple flowers, tawny pubescence, and tan pod walls. Its<br />
seeds are yellow with shiny seed coats and black hila. Disease and<br />
nematode resistance of G95-Has4243 is similar to Haskell.<br />
<strong>The</strong> following were developed by Larry Darrah, USDA-ARS, University of<br />
Missouri, Curtis Hall, Rm. 110, Columbia, Missouri 65211, United States;<br />
Bruce E. Hibbard, USDA, ARS, University of Missouri, 205 Curtis Hall,<br />
Columbia, Missouri 65211-7020, United States; David Willmot, USDA, ARS,<br />
University of Missouri, 301 Curtis Hall, Columbia, Missouri 65211, United<br />
States; Sherry Flint-Garcia, USDA, ARS, University of Missouri, 301 Curtis<br />
Hall, Columbia, Missouri 65211, United States. Received 12/20/2006.<br />
PI 644060. Zea mays L. subsp. mays<br />
Breeding. CRW3 (S1) C6. GP-553.<br />
<strong>The</strong> following were developed by Delta and Pine Land Company, Scott,<br />
Mississippi, United States. Received 11/22/2006.<br />
PI 644061 PVPO. Gossypium hirsutum L.<br />
Cultivar. "DP 143 B2RF". PVP 200700011.<br />
267
PI 644062 PVPO. Gossypium hirsutum L.<br />
Cultivar. "DP 117 B2RF". PVP 200700012.<br />
PI 644063 PVPO. Gossypium hirsutum L.<br />
Cultivar. "DP 110 RF". PVP 200700013.<br />
<strong>The</strong> following were developed by GeneFresh, Inc., Salinas, California, United<br />
States. Received 11/22/2006.<br />
PI 644064 PVPO. Lactuca sativa L.<br />
Cultivar. "MAINMAN". PVP 200700014.<br />
<strong>The</strong> following were developed by WestBred LLC, Yuma, Arizona, United States.<br />
Received 11/22/2006.<br />
PI 644065 PVPO. Triticum turgidum subsp. durum (Desf.) Husn.<br />
Cultivar. "HAVASU". PVP 200700015. Pedigree -<br />
Kofa/3/Mohawk//Express/Karl.<br />
PI 644066 PVPO. Triticum aestivum L. subsp. aestivum<br />
Cultivar. "JOAQUIN". PVP 200700016. Pedigree - Eldon/PH994-199.<br />
PI 644067 PVPO. Triticum aestivum L. subsp. aestivum<br />
Cultivar. "SOLANO". PVP 200700017. Pedigree - DA993-191/Express.<br />
PI 644068 PVPO. Triticum aestivum L. subsp. aestivum<br />
Cultivar. "DASH 12". PVP 200700018.<br />
<strong>The</strong> following were developed by WestBred LLC, Bozeman, Montana, United States.<br />
Received 11/22/2006.<br />
PI 644069 PVPO. Hordeum vulgare L. subsp. vulgare<br />
Cultivar. "CHICO". PVP 200700019. Pedigree - selection from male sterile<br />
facilitated recurrent selection population that had its basis in CCXXXII.<br />
PI 644070 PVPO. Hordeum vulgare L. subsp. vulgare<br />
Cultivar. "COCHISE". PVP 200700020. Pedigree -<br />
Max/DA586-14(CCXXXII/WestBred Barcott).<br />
<strong>The</strong> following were developed by Rutgers, <strong>The</strong> State University of New Jersey,<br />
New Jersey, United States; TurfOne, Albany, Oregon, United States. Received<br />
11/22/2006.<br />
PI 644071 PVPO. Poa pratensis L.<br />
Cultivar. "AGROS". PVP 200700025.<br />
<strong>The</strong> following were developed by Virginia Tech, Blacksburg, Virginia, United<br />
States. Received 11/22/2006.<br />
268
PI 644072 PVPO. Triticum aestivum L. subsp. aestivum<br />
Cultivar. Pureline. "USG 3342"; VAN98W-342. PVP 200700026. Pedigree -<br />
Coker 983//GA-Andy/VA90-21-20(79IWWRN67//Coker 65-20/ATR).<br />
<strong>The</strong> following were developed by GeneFresh, Inc., Salinas, California, United<br />
States. Received 11/22/2006.<br />
PI 644073 PVPO. Lactuca sativa L.<br />
Cultivar. "JEOPARDY". PVP 200700031.<br />
<strong>The</strong> following were developed by Roy G. Creech, USDA, ARS, P.O. Box 5367, R.<br />
W. Harned Building, Mississippi State, Mississippi 39762, United States;<br />
Johnnie Jenkins, USDA, ARS, Crop Sci. Res. Lab., P.O. Box 5367, Mississippi<br />
State, Mississippi 39760, United States; John Creech, Mississippi State<br />
University, Delta Research and Extension Center, 384 Stoneville Road,<br />
Stoneville, Mississippi 38776, United States; Jack McCarty, Mississippi State<br />
University, Dept. of Crop Science, P.O. Box 5367, Mississippi State,<br />
Mississippi 39762, United States; Roy Cantrell, Cotton Incorporated, 6399<br />
Weston Parkway, Cary, <strong>No</strong>rth Carolina 27513, United States; Russell W. Hayes,<br />
USDA, ARS, P.O. Box 5367, Mississippi State, Mississippi 39762, United States<br />
; Dan Haire, Mississippi State University, <strong>Plant</strong> and Soil Sciences Dept.,<br />
Mississippi State, Mississippi, United States. Received 12/19/2006.<br />
PI 644074. Gossypium hirsutum L.<br />
Breeding. MS-01RKN. GP-882. Pedigree - Developed by crossing M240 a<br />
root-knot nematode resistant line (GP166) with SureGrow501 and crossing<br />
the F1 with SureGrow 404 followed by several cycles of selection for<br />
resistance to root-knot nematode and agronomic and fiber traits.<br />
MS-01RKN was evaluated for resistance to root-knot nematode, [Melodogyne<br />
incognita (Kofoid and White) Chitwood] in two greenhouse evaluations and<br />
in the Regional root-knot nematode/Fusarium Wilt Nursery at Tallassee,<br />
AL. It was evaluated for yield and fiber properties for two years at<br />
Mississippi State, MS. Root-knot nematode greenhouse evaluation gall<br />
score was 2.5 and 14,328 eggs per plant were produced compared with a<br />
gall score of 1.8. and 5,612 eggs per plant for M315 the nematode<br />
resistant check line and a gall score of 4.0 and 90,625 eggs per plant<br />
on M8 the susceptible check line. In the Regional nursery it had 8 %<br />
wilted plants compared with 48% wilted plants on Rowden the susceptible<br />
check. Agronomic properties were Lint yield 893 Kg/ha, Boll weight 5.03,<br />
Lint % 40.6, Fiber Length 28.3mm, Fiber Strength 289kNm/kg, Mic 5.0.<br />
PI 644075. Gossypium hirsutum L.<br />
Breeding. MS-24RKN. GP-883. Pedigree - Developed by crossing M240 a<br />
root-knot nematode resistant line (GP166) with SureGrow125 and crossing<br />
the F1 with SureGrow 125 followed by several cycles of selection for<br />
resistance to root-knot nematode and agronomic and fiber traits.<br />
MS-24RKN was evaluated for resistance to root-knot nematode, [Melodogyne<br />
incognita (Kofoid and White) Chitwood] in two greenhouse evaluations and<br />
in the Regional root-knot nematode/Fusarium Wilt Nursery at Tallassee,<br />
AL. It was evaluated for yield and fiber properties for two years at<br />
Mississippi State, MS. Root-knot nematode greenhouse evaluation gall<br />
score was 2.6 and 7,529 eggs per plant were produced compared with a<br />
gall score of 1.8. and 5,612 eggs per plant for M315 the nematode<br />
resistant check line and a gall score of 4.0 and 90,625 eggs per plant<br />
on M8 the susceptible check line. In the Regional nursery it had 5 %<br />
269
wilted plants compared with 48% wilted plants on Rowden the susceptible<br />
check. Agronomic properties were Lint yield 906 Kg/ha, Boll weight 5.18,<br />
Lint % 41.8, Fiber Length 28.8mm, Fiber Strength 289kNm/kg, Mic 5.1.<br />
PI 644076. Gossypium hirsutum L.<br />
Breeding. MS-30RKN. GP-884. Pedigree - Developed by crossing M240 a<br />
root-knot nematode reesistant line (GP166) with SureGrow125 and crossing<br />
the F1 with DES211-39 followed by several cycles of selection for<br />
resistance to root-knot nematode and agronomic and fiber traits.<br />
MS-30RKN was evaluated for resistance to root-knot nematode, [Melodogyne<br />
incognita (Kofoid and White) Chitwood] in two greenhouse evaluations and<br />
in the Regional root-knot nematode/Fusarium Wilt Nursery at Tallassee,<br />
AL. It was evaluated for yield and fiber properties for two years at<br />
Mississippi State, MS. Root-knot nematode greenhouse evaluation gall<br />
score was 2.4 and 18,305 eggs per plant were produced compared with a<br />
gall score of 1.8. and 5,612 eggs per plant for M315 the nematode<br />
resistant check line and a gall score of 4.0 and 90,625 eggs per plant<br />
on M8 the susceptible check line. In the Regional nursery it had 5 %<br />
wilted plants compared with 63% wilted plants on Rowden the susceptible<br />
check. Agronomic properties were Lint yield 1016 Kg/ha, Boll weight<br />
5.17, Lint % 42.1, Fiber Length 28.8mm, Fiber Strength 279kNm/kg, Mic<br />
5.1.<br />
PI 644077. Gossypium hirsutum L.<br />
Breeding. MS-33RKN. GP-885. Pedigree - Developed by crossing M240 a<br />
root-knot nematode resistant line (GP166) with SureGrow125 and crossing<br />
the F1 with SureGrow 501 followed by several cycles of selection for<br />
resistance to root-knot nematode and agronomic and fiber traits.<br />
MS-33RKN was evaluated for resistance to root-knot nematode, [Melodogyne<br />
incognita (Kofoid and White) Chitwood] in two greenhouse evaluations and<br />
in the Regional root-knot nematode/Fusarium Wilt Nursery at Tallassee,<br />
AL. It was evaluated for yield and fiber properties for two years at<br />
Mississippi State, MS. Root-knot nematode greenhouse evaluation gall<br />
score was 2.7 and 15,277 eggs per plant were produced compared with a<br />
gall score of 1.8. and 5,612 eggs per plant for M315 the nematode<br />
resistant check line and a gall score of 4.0 and 90,625 eggs per plant<br />
on M8 the susceptible check line. In the Regional nursery it had 12 %<br />
wilted plants compared with 48% wilted plants on Rowden the susceptible<br />
check. Agronomic properties were Lint yield 991 Kg/ha, Boll weight 5.03,<br />
Lint % 41.5, Fiber Length 29.0mm, Fiber Strength 292kNm/kg, Mic 5.1.<br />
PI 644078. Gossypium hirsutum L.<br />
Breeding. MS-35RKN. GP-886. Pedigree - Developed by crossing DES 119<br />
with M240 a root-knot nematode resistant line (GP166) and crossing the<br />
F1 with DES 119 followed by several cycles of selection for resistance<br />
to root-knot nematode and agronomic and fiber traits. MS-35RKN was<br />
evaluated for resistance to root-knot nematode, [Melodogyne incognita<br />
(Kofoid and White) Chitwood] in two greenhouse evaluations and in the<br />
Regional root-knot nematode/Fusarium Wilt Nursery at Tallassee, AL. It<br />
was evaluated for yield and fiber properties for two years at<br />
Mississippi State, MS. Root-knot nematode greenhouse evaluation gall<br />
score was 2.0 and 11,783 eggs per plant were produced compared with a<br />
gall score of 1.8. and 5,612 eggs per plant for M315 the nematode<br />
resistant check line and a gall score of 4.0 and 90,625 eggs per plant<br />
on M8 the susceptible check line. In the Regional nursery it had 5 %<br />
wilted plants compared with 48% wilted plants on Rowden the susceptible<br />
270
check. Agronomic properties were Lint yield 915 Kg/ha, Boll weight 5.08,<br />
Lint % 40.6, Fiber Length 28.5mm, Fiber Strength 303kNm/kg, Mic 4.9.<br />
PI 644079. Gossypium hirsutum L.<br />
Breeding. MS-37RKN. GP-887. Pedigree - Developed by crossing DES 119<br />
with M240 a root-knot nematode resistant line (GP166) and crossing the<br />
F1 with DES 119 followed by several cycles of selection for resistance<br />
to root-knot nematode and agronomic and fiber traits. MS-37RKN was<br />
evaluated for resistance to root-knot nematode, [Melodogyne incognita<br />
(Kofoid and White) Chitwood] in two greenhouse evaluations and in the<br />
Regional root-knot nematode/Fusarium Wilt Nursery at Tallassee, AL. It<br />
was evaluated for yield and fiber properties for two years at<br />
Mississippi State, MS. Root-knot nematode greenhouse evaluation gall<br />
score was 2.4 and 5,387 eggs per plant were produced compared with a<br />
gall score of 1.8. and 5,612 eggs per plant for M315 the nematode<br />
resistant check line and a gall score of 4.0 and 90,625 eggs per plant<br />
on M8 the susceptible check line. In the Regional nursery it had 2 %<br />
wilted plants compared with 48% wilted plants on Rowden the susceptible<br />
check. Agronomic properties were Lint yield 827 Kg/ha, Boll weight 4.96,<br />
Lint % 40.11, Fiber Length 28.9mm, Fiber Strength 283kNm/kg, Mic 5.0.<br />
<strong>The</strong> following were developed by Craig F. Morris, USDA-ARS, Western Wheat<br />
Quality Lab., E-202 FSHN Facility East, Pullman, Washington 99164-6394,<br />
United States; Garrison King, USDA-ARS Western Wheat Quality Lab, E 202 Food<br />
Quality Bldg., P.O. Box 646394, Pullman, Washington 99164-6394, United States.<br />
Received 12/21/2006.<br />
PI 644080. Triticum aestivum L. subsp. aestivum<br />
Genetic. Pureline. WQL9Pina-D1b; Pina-D1b/Pinb-D1a; NSGC 17970. GS-157.<br />
Pedigree - Alpowa (PI566596)/IDO377s (PI591045)//7*Alpowa. Released<br />
2007. Hard kernel puroindoline allele near-isogenic line. Puroindoline<br />
haplotype: Pina-D1b/Pinb-D1a.<br />
PI 644081. Triticum aestivum L. subsp. aestivum<br />
Genetic. Pureline. WQL10Pinb-D1b; Pina-D1a/Pinb-D1b; NSGC 17971. GS-158.<br />
Pedigree - Alpowa (PI566596)/ND2603//7*Alpowa. Released 2007. Hard<br />
kernel puroindoline allele near-isogenic line. Puroindoline haplotype:<br />
Pina-D1a/Pinb-D1b.<br />
PI 644082. Triticum aestivum L. subsp. aestivum<br />
Genetic. Pureline. WQL11Pinb-D1c; Pina-D1a/Pinb-D1c; NSGC 17972. GS-159.<br />
Pedigree - Alpowa (PI566596)/Red Bobs (CI6255)//7*Alpowa. Released 2007.<br />
Hard kernel puroindoline allele near-isogenic line. Puroindoline<br />
haplotype: Pina-D1a/Pinb-D1c.<br />
PI 644083. Triticum aestivum L. subsp. aestivum<br />
Genetic. Pureline. WQL12Pinb-D1d; Pina-D1a/Pinb-D1d; NSGC 17973. GS-160.<br />
Pedigree - Alpowa (PI566596)/Mjolner (NGB14115)//7*Alpowa. Released<br />
2007. Hard kernel puroindoline allele near-isogenic line. Puroindoline<br />
haplotype: Pina-D1a/Pinb-D1d.<br />
PI 644084. Triticum aestivum L. subsp. aestivum<br />
Genetic. Pureline. WQL13Pinb-D1e; Pina-D1a/Pinb-D1e; NSGC 17974. GS-161.<br />
Pedigree - Alpowa (PI566596)/Canadian Red (CI6282)//7*Alpowa. Released<br />
2007. Hard kernel puroindoline allele near-isogenic line. Puroindoline<br />
haplotype: Pina-D1a/Pinb-D1e.<br />
271
PI 644085. Triticum aestivum L. subsp. aestivum<br />
Genetic. Pureline. WQL14Pinb-D1f; Pina-D1a/Pinb-D1f; NSGC 17975. GS-162.<br />
Pedigree - Alpowa (PI566596)/Sevier (CI6247)//7*Alpowa. Released 2007.<br />
Hard kernel puroindoline allele near-isogenic line. Puroindoline<br />
haplotype: Pina-D1a/Pinb-D1f.<br />
PI 644086. Triticum aestivum L. subsp. aestivum<br />
Genetic. Pureline. WQL15Pinb-D1g; Pina-D1a/Pinb-D1g; NSGC 17976. GS-163.<br />
Pedigree - Alpowa (PI566596)/Andrews (PI512282)//7*Alpowa. Released<br />
2007. Hard kernel puroindoline allele near-isogenic line. Puroindoline<br />
haplotype: Pina-D1a/Pinb-D1g.<br />
<strong>The</strong> following were developed by Gerald Evers, Texas A&M Univ. Ag. Res. & Ext.<br />
Ctr., PO Box 200, Overton, Texas 75684-0290, United States; Lloyd R. Nelson,<br />
Texas A&M University, Agricultural Research & Extension Center, P.O. Box 200,<br />
Overton, Texas 75684, United States; J. Crowder, Texas A&M Univ. Agric. REC,<br />
P.O. Box 200, Overton, Texas 75684, United States; F.T. Turner, Texas A&M<br />
University, Agric. REC, P.O. Box 200, Overton, Texas 75684, United States;<br />
F.M., Jr. Rouquette, Texas A&M University, Agricultural Research and<br />
Extension Center, P.O. Box 200, Overton, Texas 75684, United States. Received<br />
12/26/2006.<br />
PI 644087. Lolium multiflorum Lam.<br />
Cultivar. Population. "TAMTBO"; TXR2005-TBO; TBO. REST 644087; CV-249.<br />
Pedigree - In 2001-02 a 3-way cross was made between TXR2000-T2,<br />
TXR2002-T17 and Jumbo Jumbo is a tetraploid released by the Florida<br />
Agri. Exp. Stn. and the two experimentals tetraploids are derived from<br />
TAM 90 In 2002-03, this seed was planted and grown in a space<br />
planting at Beaumont, Texas, where 34 plants were selected and allowed<br />
to cross-pollinate and produce seed. In 2003-04, this seed was grown and<br />
increased near Corvallis, Oregon and was designated TXR2005-TBO.<br />
TXR2005-TBO is a tetraploid forage-type annual ryegrass (4n = 4x = 28<br />
chromosomes). This contrasts with Gulf and TAM 90 which are diploid<br />
cultivars. TXR2005-TBO is the first tetraploid cultivar released by the<br />
Texas Agricultural Experiment Station. <strong>The</strong> Oregon State Seed Laboratory<br />
tested TBO for ploidy level and reported it as 100% tetraploid. <strong>Plant</strong><br />
stature of TBO was 116 cm and is larger and taller than Gulf, but<br />
similar to TAM 90. TBO averaged about 10 cm less in plant height<br />
compared to Jumbo and Prine in space plantings in Texas. Flag leaf<br />
length of TBO was 15.3 cm and was slightly longer than other cultivars<br />
which were 13.2, 11.7, and 13.8 for Gulf, TAM 90 and Jumbo,<br />
respectively. Leaf width was 10.6 mm for TBO and not different than<br />
Jumbo and Prine, but was 1 mm wider than TAM 90. TBO produced an<br />
average of 46 tillers per plant compared to 57, 61, 49, and 40 for TAM<br />
90, Gulf, Jumbo and Prine, respectively. Freeze damage was not<br />
observed over the past two years at Overton, Texas when a low<br />
temperature of 17 F (-8 C) occurred. <strong>The</strong> fluorescence level of TBO<br />
according to the Oregon State Seed Testing Laboratory was 100 %. TBO<br />
has good crown rust resistance and is similar to TAM 90 for resistance<br />
to this disease. Total season forage yields of TBO at Overton, Texas<br />
have been very high during the 2004-05 and 2005-06 growing seasons. In<br />
each of these years, TBO has produced higher total season forage yields<br />
that any other commercial cultivars. TBO has also produced above average<br />
forage yields in Mississippi, Alabama and Georgia during the past two<br />
272
years. TXR2005-TBO is not infected with the fungal endophyte<br />
Neotyphodium occutans C.D. Moon, B. Scott, & M.J. Christensen, sp. <strong>No</strong>v.<br />
<strong>The</strong> following were developed by Matthew Blair, Centro Internacional de<br />
Agricultura Tropical, A.A. 6713, Cali, Colombia; A. Hoyos, International<br />
Center for Tropical Agriculture, Apartado Aereo 6713, Cali, Colombia; C.<br />
Cajiao, International Center for Tropical Agriculture, Apartado Aereo 6713,<br />
Cali, Colombia; J. Kornegay, <strong>No</strong>rth Carolina State University, Dept. of <strong>Plant</strong><br />
Sciences, Raleigh, <strong>No</strong>rth Carolina, United States. Received 12/26/2006.<br />
PI 644088. Phaseolus vulgaris L.<br />
Breeding. Pureline. MAC56. GP-271; REST 644088. Pedigree - Dore de<br />
Kirundo/LAS399. Common bean germplasm line with climbing growth habit<br />
and yellow seed type, developed by the International Center for Tropical<br />
Agriculture (CIAT) for adaptation to tropical mid-altitude growing<br />
conditions (1200 to 1800 masl). Type IVa growth habit and tolerant of<br />
higher temperatures (up to 24C seasonal average) compared to<br />
traditional, type IVb growth habit, climbing beans. Belongs to the<br />
"Canario" commercial seed class. Advanced generation F8 derived breeding<br />
lines. Mean seed yield from 2002 to 2006 averaged 2000.2 kg/ha at a<br />
mid-altitude site (Darien, Colombia), 1206.9 kg/ha at a low elevation<br />
site (Palmira, Colombia) and 1657.6 at a high elevation site (Popayan,<br />
Colombia). Tolerant to angular leaf spot [caused by the pathogen<br />
Phaeoisariopsis griseola] in Darien and anthracnose in Popayan.<br />
Susceptible to Bean Common Mosaic Virus and Bean Common Mosaic Necrosis<br />
Virus (BCMV and BCMNV) in all three sites. Flowered at 38d after<br />
planting (DAP) in Palmira, at 42 DAP in Darien; and 50 DAP in Popayan.<br />
Maturity was reached at 80 DAP in Palmira, while in Darien the genotype<br />
matured at 98 DAP and in Popayan at 109 DAP. Produce yellow grain, is<br />
medium yellow and has brilliant (waxy) seed type. Has the large seed<br />
size characteristic of many Andean gene pool comericial climbing bean<br />
varieties with MAC56 producing 100 seed weights of 50.7 g in Darien,<br />
50.5 g in Palmira, 54.0 g in Popayan (average of 51.7g).<br />
PI 644089. Phaseolus vulgaris L.<br />
Breeding. Pureline. MAC57. GP-272; REST 644089. Pedigree - Dore de<br />
Kirundo/LAS399. Common bean germplasm line with climbing growth habit<br />
and yellow seed type, developed by the International Center for Tropical<br />
Agriculture (CIAT) for adaptation to tropical mid-altitude growing<br />
conditions (1200 to 1800 masl). Type IVa growth habit and tolerant of<br />
higher temperatures (up to 24 C seasonal average) compared to<br />
traditional, type IVb growth habit, climbing beans. Belong to the<br />
"Canario" commercial seed class. Advanced generation F8 derived breeding<br />
lines. Mean seed yield from 2002 to 2006 averaged 2000.2 kg/ha at a<br />
mid-altitude site (Darien, Colombia), 1206.9 kg/ha at a low elevation<br />
site (Palmira, Colombia) and 1657.6 at a high elevation site (Popayan,<br />
Colombia). Tolerant to angular leaf spot [caused by the pathogen<br />
Phaeoisariopsis griseola] in Darien and anthracnose in Popayan.<br />
Susceptible to Bean Common Mosaic Virus and Bean Common Mosaic Necrosis<br />
Virus (BCMV and BCMNV) in all three sites. Flowered 40 d after planting<br />
(DAP) in Palmira; at 43 DAP in Darien; and at 52 DAP in Popayan.<br />
Maturity was reched at 84 DAP in Palmira, while in Darien the gentoype<br />
matured at 100 DAP and in Popayan at 112 DAP. Produces yellow grain, has<br />
lght yellow grain and non-brilliant (non-waxy) seed type. Has the large<br />
seed size characteristic of many Andean gene pool commercial climbing<br />
bean varieties; produces slightly smaller grain (average 45.5 g).<br />
273
<strong>The</strong> following were developed by Pure Seed Testing, Inc., Hubbard, Oregon,<br />
United States. Received 12/15/2006.<br />
PI 644090 PVPO. Poa pratensis L.<br />
Cultivar. "MOONLIGHT SLT". PVP 200700043.<br />
<strong>The</strong> following were developed by <strong>No</strong>rth Dakota State University Research<br />
Foundation, <strong>No</strong>rth Dakota, United States. Received 12/15/2006.<br />
PI 644091 PVPO. Avena sativa L.<br />
Cultivar. "BEACH". PVP 200700044.<br />
<strong>The</strong> following were developed by Brotherton Seed Company, Inc., Moses Lake,<br />
Washington, United States. Received 12/15/2006.<br />
PI 644092 PVPO. Pisum sativum L.<br />
Cultivar. "BOOGIE". PVP 200700051.<br />
<strong>The</strong> following were developed by Seminis Vegetable Seeds, Inc., Woodland,<br />
California, United States. Received 12/19/2006.<br />
PI 644093 PVPO. Capsicum annuum L.<br />
Cultivar. "SBR 99-1205". PVP 200700032.<br />
PI 644094 PVPO. Capsicum annuum L.<br />
Cultivar. "SBR 99-1209". PVP 200700033.<br />
PI 644095 PVPO. Capsicum annuum L.<br />
Cultivar. "SBR 99-1225". PVP 200700034.<br />
PI 644096 PVPO. Capsicum annuum L.<br />
Cultivar. "SBR 99-1239". PVP 200700035.<br />
<strong>The</strong> following were developed by Syngenta Seeds, Inc. - Vegetable, Boise,<br />
Idaho, United States. Received 12/26/2006.<br />
PI 644097 PVPO. Cucurbita pepo L.<br />
Cultivar. "90-3588". PVP 200700053.<br />
<strong>The</strong> following were developed by Seminis Vegetable Seeds, Inc., Woodland,<br />
California, United States. Received 12/26/2006.<br />
PI 644098 PVPO. Lactuca sativa L.<br />
Cultivar. "CONSTANZA". PVP 200700030.<br />
<strong>The</strong> following were developed by Florida Foundation Seed Producers, Inc., 3913<br />
Highway 71, P.O. Box 309, Greenwood, Florida 32443, United States; Emil A.<br />
Wolf, University of Florida, Agricultural Research and Education Center,<br />
Belle Glade, Florida 33430, United States. Donated by Florida Foundation Seed<br />
274
Producers, Inc., 3913 Highway 71, P.O. Box 309, Greenwood, Florida 32443,<br />
United States. Received 01/1977.<br />
PI 644099. Zea mays L. subsp. mays<br />
Cultivar. Inbred. "Florida 56"; NSL 92629. PVP 7500094. Pedigree -<br />
Florida 56 was developed by crossing University of Illinois<br />
B3(S2)P39A(sh2) line with Iowa 2256, backcrossing to Iowa 2256 seven<br />
times, and then inbreeding and selecting for six generations. Sweet corn<br />
inbred with seed containing the sh2 gene in the starchy (su1) background<br />
and is more shrunken and lighter in weight than normal sweet corn (su1)<br />
seed. It also contains much less starch and has a higher sugar content<br />
in the endosperm. Best adapted to most regions in the United States.<br />
Maturity is 80 days from emergence to 50% of plants in silk; 21 days<br />
from 50% silk to optimum edible quality; 70 days from 50% silk to<br />
harvest at 25% kernel moisture. <strong>Plant</strong>s 137 cm in height (to tassel<br />
tip), 53 cm ear height (to base of top ear), 10 cm long top ear<br />
internode, 2 tillers about the same height as the main plant, strong<br />
two-ear tendency, normal cytoplasm. Leaf medium green, light sheath<br />
pubescence, no marginal wave, longitudinal creases absent. <strong>The</strong> width of<br />
the ear node leaf averages 7 cm at widest point and has a length of 61<br />
cm. A mature plant averages 11 leaves. Tassels are yellow and silks<br />
are green, pollen production is excellent. Ears are about seven inches<br />
long, have 14 to 16 rows of yellow kernels, and one to two inch unfilled<br />
tips. Ear shanks have five nodes and are about one to two inches long.<br />
Husk extension is long. This inbred most closely resembles Iowa 2256,<br />
except the Florida 56 ears are longer, husk extensions are slightly<br />
shorter, and husk ear diameters are slightly larger. <strong>The</strong> primary<br />
difference between the inbreds is that Florida 56 has the homozygous<br />
recessive sh2 gene, whereas, Iowa 2256 has the homozygous recessive su1<br />
gene. <strong>Plant</strong>s are about six inches shorter then Florida 32 plants in the<br />
Idaho seed production area averaging five to 5.5 feet tall, while having<br />
slightly less than one tiller about two feet tall per plant. Field<br />
germination and vigor of the seed has generally been very good. <strong>Plant</strong>s<br />
have a rather "droopy" appearance as the tassels start to emerge. This<br />
curvature makes detasseling slightly more difficult than usual.<br />
<strong>The</strong> following were developed by Florida Foundation Seed Producers, Inc., 3913<br />
Highway 71, P.O. Box 309, Greenwood, Florida 32443, United States. Received<br />
01/1977.<br />
PI 644100. Zea mays L. subsp. mays<br />
Cultivar. Inbred. "Florida 32"; NSL 92630. PVP 7500095. Pedigree -<br />
Developed by crossing University of Illinois B3S2P39A sh2 line with Iowa<br />
2132 (su1), backcrossing to the 2132 four times and then inbreeding and<br />
selecting for seven generations. Sweet corn inbred with seed containing<br />
the sh2 gene in the starchy (su1) background and is more shrunken and<br />
lighter in weight than normal sweet corn (su1) seed. It also contains<br />
much less starch and has a higher sugar content in the endosperm. Best<br />
adapted to most regions in the United States. Maturity is 76 days from<br />
emergence to 50% of plants in silk; 21 days from 50% silk to optimum<br />
edible quality; 70 days from 50% silk to harvest at 25% kernel moisture.<br />
<strong>Plant</strong>s 140 cm in height (to tassel tip), 28 cm ear height (to base of<br />
top ear), 10 cm long top ear internode, one or two tillers about the<br />
same height as the main stalk, slight two-ear tendency, normal<br />
cytoplasm. Leaves are dark green, light sheath pubescence, no marginal<br />
wave, longitudinal creases absent. <strong>The</strong> ear node leaf has an average<br />
275
width of 5 cm and length of 58 cm. <strong>The</strong>re are 8 leaves per mature<br />
plant. Tassels have 10 lateral branches, 30-40 degrees of branch angle<br />
from central spike, peduncle length of 7 cm from top leaf to basal<br />
branches, medium pollen shed, yellow anther and glume. Ears are 20 cm<br />
in length, 40 mm mid-point diameter, 106 grams in weight, 16 distinct<br />
slightly curved kernel rows, well filled to the tips, green silk<br />
(exposed at silking stage), dark green husk color (fresh), buff husk<br />
color (dry), long husk extension (harvest stage), husk leaf medium<br />
length, 13 cm long shank with six internodes, upright position at dry<br />
husk stage, average taper, slow drying time (unhusked ear). Kernel (dr<br />
ied, from ear mid-point) 9 mm long, 6 mm wide, 4 mm thick, shape grade<br />
less than 20% rounds, pericarp colorless, aleurone homozygous yellow,<br />
endosperm yellow, extra sweet (sh2) type endosperm, 9 gm weight/100<br />
seeds. Cob 23 mm diameter at mid-point, weak, white. Susceptible to<br />
northern leaf blight, bacterial leaf blight, and earworm. This inbred<br />
most closely resembles Iowa 2132 (su1) for maturity, plant type, ear<br />
type, and kernel type, and Illinois 453 (sh2) for edible quality. Ear<br />
length and.<br />
<strong>The</strong> following were developed by Holden's Foundation Seeds, Inc., R.R. 2, Box<br />
839, Williamsburg, Iowa 52361, United States. Received 08/1977.<br />
PI 644101. Zea mays L. subsp. mays<br />
Cultivar. Inbred. "LH1"; id=71026; NSL 95<strong>215</strong>. PVP 7600047. Pedigree -<br />
(B37 x 644) B37. <strong>The</strong> line was produced by crossing B37 X 644 then<br />
backcrossing to B37 followed by seven generations of selfing and<br />
selection for plant type and yield. Released 1975. Yellow dent corn<br />
inbred. Best adapted to the north central United States. Maturity is<br />
69 days from emergence to 50% of plants in silk (1625 heat units); 102<br />
days from 50% silk to harvest at 25% kernel moisture. <strong>Plant</strong>s 178 cm in<br />
height (to tassel tip), 56 cm ear height (to base of top ear), 11 cm<br />
long top ear internode, no tillers, single ear per stalk, normal<br />
cytoplasm. <strong>The</strong> stalk is of average strength and the roots are fair.<br />
Leaves are dark green, 30-60 degrees angle from stalk (upper half),<br />
light sheath pubescence, few marginal waves, longitudinal creases<br />
absent. Ear node leaf average width of 10 cm at widest point and length<br />
of 72 cm. <strong>The</strong>re are 14 leaves per mature plant, separated by relatively<br />
short internodes. Anthers are red and extrude from a green glume with<br />
red points of dehiscent. Ear is medium in length and has average taper,<br />
it is attached to a strong shank of medium length, and has a short husk<br />
extension. Kernels are arranged in 16 slightly curved rows. Kernel is<br />
thick, dark yellow with a bright yellow cap. Most closely resembles<br />
B37, except LH1 is an average of 20% shorter, has a lower ear height by<br />
an average of 30%, and it restores C cytoplasm nearly 100% while B37<br />
does not. Silking date is approximately the same but there is some<br />
indication that LH1 will dry slightly faster, at least to the 25%<br />
moisture level.<br />
<strong>The</strong> following were developed by Asgrow Seed Company, Kalamazoo, Michigan,<br />
United States. Received 04/1980.<br />
PI 644102. Zea mays L. subsp. mays<br />
Cultivar. Inbred. "P737M20"; NSL 109380. PVP 7900036. Pedigree - 737<br />
(Synonymous with Ia 2132) X Hooker's "Source A" germplasm resistant to<br />
northern corn leaf blight backcrossed an unstated number of times to<br />
276
inbred 737. Progeny were tested for (Ht) gene presence after each<br />
backcross. Released 01/05/1979. Sweet corn inbred. Best adapted to the<br />
southeast United States. Maturity is 63 days from emergence to 50% of<br />
plants in silk (1167 heat units); 18 days from 50% silk to optimum<br />
edible quality (406 heat units); 1488 heat units from 50% silk to harves<br />
t at 25% kernel moisture. <strong>Plant</strong>s 183 cm in height (to tassel tip), 71<br />
cm ear height (to base of top ear), 13 cm long top ear internode, no<br />
tillers, strong two-ear tendency, normal cytoplasm. Leaves are medium<br />
green, 30-60 degrees angle from stalk (upper half), medium sheath<br />
pubescence, few marginal waves, longitudinal creases absent. <strong>The</strong><br />
average ear node leaf width is 9 cm at its widest point with a length of<br />
66 cm. Tassels have 18 lateral branches, 30-40 degrees of branch angle<br />
from central spike, peduncle length of 36 cm from top leaf to basal<br />
branches, heavy pollen shed, yellow anther and glume. Ears 12 cm in<br />
length, 45 mm mid-point diameter, 54 grams in weight, 14 distinct<br />
straight kernel rows, green silk (exposed at silking stage), light green<br />
husk color (fresh), buff husk color (dry), very long husk extension<br />
(harvest stage), husk leaf length greater than 15 cm, 12 cm long shank<br />
with five internodes, upright position at dry husk stage, slight taper,<br />
average drying time (unhusked ear). Kernel (dried, from ear mid-point)<br />
12 mm long, 9 mm wide, 6 mm thick, pericarp whitish/partly transparent,<br />
aleurone homozygous transparent, endosperm yellow-orange, sweet (su1)<br />
type endosperm, 23 gm weight/100 seeds. Cob 30 mm diameter at<br />
mid-point, weak, white. Susceptible to stalk rot (diplodia, fusarium,<br />
and gibberella), cornborer, northern, southern, and western rootworm,<br />
earworm, sapbeetle, and aphid. Resistant to northern and southern leaf<br />
blight, southern rust, bacterial leaf blight, corn smut, maize dwarf<br />
mosaic, smut, and bacterial wilt. Most closely resembles Iowa 2132 for<br />
maturity, plant type, ear type, kernel type, edible quality, and usage.<br />
P737M20 differs from Iowa 2132 in that P737M20 possesses the Ht gene fo.<br />
<strong>The</strong> following were donated by L.A. De Almeida, EMBRAPA, Empresa Brasileira de<br />
Pesquisa, Agropecuaria, Londrina, Parana, Brazil. Received 01/08/2007.<br />
PI 644103. Glycine max (L.) Merr.<br />
Cultivated. Pureline. "BSR Tiana"; CGS 8243; SY 702001.<br />
<strong>The</strong> following were developed by Phil Bregitzer, USDA-ARS, National Small<br />
Grains <strong>Germplasm</strong> Research Facility, 1691 S. 2700 W., Aberdeen, Idaho 83210,<br />
United States; Darrell M. Wesenberg, USDA, ARS, National Small Grains<br />
<strong>Germplasm</strong>, Research Facility, Aberdeen, Idaho 83210, United States; Don<br />
Obert, USDA-ARS, 1691 S. 2700 W., Aberdeen, Idaho 83210, United States.<br />
Received 01/09/2007.<br />
PI 644104. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. 95SR316A; NSGC 18013. GP-180. Pedigree -<br />
Bancroft/Crystal. Released 2007. Two-rowed spring barley germplasm line<br />
that is agronomically-attractive with excellent values for most malt<br />
quality characteristics, and is resistant to most races of barley stripe<br />
rust (Puccinia striiformis f.sp. hordei).<br />
<strong>The</strong> following were developed by Phil Bregitzer, USDA-ARS, National Small<br />
Grains <strong>Germplasm</strong> Research Facility, 1691 S. 2700 W., Aberdeen, Idaho 83210,<br />
277
United States; Victor Raboy, USDA, ARS, 1691 South 2700 West, Aberdeen, Idaho<br />
83210, United States. Received 01/09/2007.<br />
PI 644105. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. LP1; NSGC 18014. GP-181. Pedigree -<br />
Harrington/lpa1-1//4*Harrington. Released 2007. Backcross-derived<br />
low-phytate line possessing the lpa1-1 mutation.<br />
PI 644106. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. LP1-WT; NSGC 18015. GP-182. Pedigree -<br />
Harrington/lpa1-1//4*Harrington. Released 2007. Backcross-derived,<br />
wild-type sib selection of LP1.<br />
PI 644107. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. LP2; NSGC 18016. GP-183. Pedigree -<br />
Harrington/lpa2-1//3*Harrington. Released 2007. Backcross-derived<br />
low-phytate line possessing the lpa2-1 mutation.<br />
PI 644108. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. LP2-WT; NSGC 18017. GP-184. Pedigree -<br />
Harrington/lpa2-1//3*Harrington. Released 2007. Backcross-derived,<br />
wild-type sib selection of LP2.<br />
PI 644109. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. LP3; NSGC 18018. GP-185. Pedigree -<br />
Harrington/lpa3-1//3*Harrington. Released 2007. Backcross-derived<br />
low-phytate line possessing the lpa3-1 mutation.<br />
PI 644110. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. LP3-WT; NSGC 18019. GP-186. Pedigree -<br />
Harrington/lpa3-1//3*Harrington. Released 2007. Backcross-derived,<br />
wild-type sib selection of LP3.<br />
PI 644111. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. LP4; NSGC 18020. GP-187. Pedigree -<br />
Harrington/M955//2*Harrington. Released 2007. Backcross-derived<br />
low-phytate line possessing the M955 mutation.<br />
PI 644112. Hordeum vulgare L. subsp. vulgare<br />
Breeding. Pureline. LP4-WT; NSGC 18021. GP-188. Pedigree -<br />
Harrington/M955//2*Harrington. Released 2007. Backcross-derived,<br />
wild-type sib selection of LP4.<br />
<strong>The</strong> following were developed by Xiuling Zhang, University of Minnesota, Dept.<br />
of Agronomy & <strong>Plant</strong> Genetics, 1991 Upper Buford Circle, St. Paul, Minnesota<br />
55108-6026, United States. Received 01/08/2007.<br />
PI 644113. Triticum aestivum L. subsp. aestivum<br />
Breeding. Pureline. CITR2492-sel-fhb; NSGC 17977. Pedigree - selection<br />
from CItr 2492. Resistance to Fusarium Head Blight (Fusarium<br />
graminearum).<br />
PI 644114. Triticum aestivum L. subsp. aestivum<br />
Breeding. Pureline. CITR11<strong>215</strong>-sel-fhb; NSGC 17978. Pedigree - selection<br />
from CItr 11<strong>215</strong>. Resistance to Fusarium Head Blight (Fusarium<br />
graminearum).<br />
278
PI 644115. Triticum aestivum L. subsp. aestivum<br />
Breeding. Pureline. CITR12021-sel-fhb; NSGC 17979. Pedigree - selection<br />
from CItr 12021. Resistance to Fusarium Head Blight (Fusarium<br />
graminearum).<br />
PI 644116. Triticum aestivum L. subsp. aestivum<br />
Breeding. Pureline. CITR12470-sel-fhb; NSGC 17980. Pedigree - selection<br />
from CItr 12470. Resistance to Fusarium Head Blight (Fusarium<br />
graminearum).<br />
PI 644117. Triticum aestivum L. subsp. aestivum<br />
Breeding. Pureline. PI57364-sel-fhb; NSGC 17981. Pedigree - selection<br />
from PI 57364. Resistance to Fusarium Head Blight (Fusarium<br />
graminearum).<br />
PI 644118. Triticum aestivum L. subsp. aestivum<br />
Breeding. Pureline. PI132856-sel-fhb; NSGC 17982. Pedigree - selection<br />
from PI 132856. Resistance to Fusarium Head Blight (Fusarium<br />
graminearum).<br />
PI 644119. Triticum aestivum L. subsp. aestivum<br />
Breeding. Pureline. PI163429-sel-fhb; NSGC 17983. Pedigree - selection<br />
from PI 163429. Resistance to Fusarium Head Blight (Fusarium<br />
graminearum).<br />
PI 644120. Triticum aestivum L. subsp. aestivum<br />
Breeding. Pureline. PI163439-sel-fhb; NSGC 17984. Pedigree - selection<br />
from PI 163439. Resistance to Fusarium Head Blight (Fusarium<br />
graminearum).<br />
PI 644121. Triticum aestivum L. subsp. aestivum<br />
Breeding. Pureline. PI168716-sel-fhb; NSGC 17985. Pedigree - selection<br />
from PI 168716. Resistance to Fusarium Head Blight (Fusarium<br />
graminearum).<br />
PI 644122. Triticum aestivum L. subsp. aestivum<br />
Breeding. Pureline. PI168727-sel-fhb; NSGC 17986. Pedigree - selection<br />
from PI 168727. Resistance to Fusarium Head Blight (Fusarium<br />
graminearum).<br />
PI 644123. Triticum aestivum L. subsp. aestivum<br />
Breeding. Pureline. PI182568-sel-fhb; NSGC 17987. Pedigree - selection<br />
from PI 182568. Resistance to Fusarium Head Blight (Fusarium<br />
graminearum).<br />
PI 644124. Triticum aestivum L. subsp. aestivum<br />
Breeding. Pureline. PI182583-sel-fhb; NSGC 17988. Pedigree - selection<br />
from PI 182583. Resistance to Fusarium Head Blight (Fusarium<br />
graminearum).<br />
PI 644125. Triticum aestivum L. subsp. aestivum<br />
Breeding. Pureline. PI182586-sel-fhb; NSGC 17989. Pedigree - selection<br />
from PI 182586. Resistance to Fusarium Head Blight (Fusarium<br />
graminearum).<br />
279
PI 644126. Triticum aestivum L. subsp. aestivum<br />
Breeding. Pureline. PI182591-sel-fhb; NSGC 17990. Pedigree - selection<br />
from PI 182591. Resistance to Fusarium Head Blight (Fusarium<br />
graminearum).<br />
PI 644127. Triticum aestivum L. subsp. aestivum<br />
Breeding. Pureline. PI184512-sel-fhb; NSGC 17991. Pedigree - selection<br />
from PI 184512. Resistance to Fusarium Head Blight (Fusarium<br />
graminearum).<br />
PI 644128. Triticum aestivum L. subsp. aestivum<br />
Breeding. Pureline. PI185380-sel-fhb; NSGC 17992. Pedigree - selection<br />
from PI 185380. Resistance to Fusarium Head Blight (Fusarium<br />
graminearum).<br />
PI 644129. Triticum aestivum L. subsp. aestivum<br />
Breeding. Pureline. PI192219-sel-fhb; NSGC 17993. Pedigree - selection<br />
from PI 192219. Resistance to Fusarium Head Blight (Fusarium<br />
graminearum).<br />
PI 644130. Triticum aestivum L. subsp. aestivum<br />
Breeding. Pureline. PI192498-sel-fhb; NSGC 17994. Pedigree - selection<br />
from PI 192498. Resistance to Fusarium Head Blight (Fusarium<br />
graminearum).<br />
PI 644131. Triticum aestivum L. subsp. aestivum<br />
Breeding. Pureline. PI192660-sel-fhb; NSGC 17995. Pedigree - selection<br />
from PI 192660. Resistance to Fusarium Head Blight (Fusarium<br />
graminearum).<br />
PI 644132. Triticum aestivum L. subsp. aestivum<br />
Breeding. Pureline. PI203083-sel-fhb; NSGC 17996. Pedigree - selection<br />
from PI 203083. Resistance to Fusarium Head Blight (Fusarium<br />
graminearum).<br />
PI 644133. Triticum aestivum L. subsp. aestivum<br />
Breeding. Pureline. PI213833-sel-fhb; NSGC 17997. Pedigree - selection<br />
from PI 213833. Resistance to Fusarium Head Blight (Fusarium<br />
graminearum).<br />
PI 644134. Triticum aestivum L. subsp. aestivum<br />
Breeding. Pureline. PI256958-sel-fhb; NSGC 17998. Pedigree - selection<br />
from PI 256958. Resistance to Fusarium Head Blight (Fusarium<br />
graminearum).<br />
PI 644135. Triticum aestivum L. subsp. aestivum<br />
Breeding. Pureline. PI264927-sel-fhb; NSGC 17999. Pedigree - selection<br />
from PI 264927. Resistance to Fusarium Head Blight (Fusarium<br />
graminearum).<br />
PI 644136. Triticum aestivum L. subsp. aestivum<br />
Breeding. Pureline. PI264940-sel-fhb; NSGC 18000. Pedigree - selection<br />
from PI 264940. Resistance to Fusarium Head Blight (Fusarium<br />
graminearum).<br />
PI 644137. Triticum aestivum L. subsp. aestivum<br />
Breeding. Pureline. PI264946-sel-fhb; NSGC 18001. Pedigree - selection<br />
280
from PI 264946. Resistance to Fusarium Head Blight (Fusarium<br />
graminearum).<br />
PI 644138. Triticum aestivum L. subsp. aestivum<br />
Breeding. Pureline. PI264998-sel-fhb; NSGC 18002. Pedigree - selection<br />
from PI 264998. Resistance to Fusarium Head Blight (Fusarium<br />
graminearum).<br />
PI 644139. Triticum aestivum L. subsp. aestivum<br />
Breeding. Pureline. PI294975-sel-fhb; NSGC 18003. Pedigree - selection<br />
from PI 294975. Resistance to Fusarium Head Blight (Fusarium<br />
graminearum).<br />
PI 644140. Triticum aestivum L. subsp. aestivum<br />
Breeding. Pureline. PI349534-sel-fhb; NSGC 18004. Pedigree - selection<br />
from PI 349534. Resistance to Fusarium Head Blight (Fusarium<br />
graminearum).<br />
PI 644141. Triticum aestivum L. subsp. aestivum<br />
Breeding. Pureline. PI351221-sel-fhb; NSGC 18005. Pedigree - selection<br />
from PI 351221. Resistance to Fusarium Head Blight (Fusarium<br />
graminearum).<br />
PI 644142. Triticum aestivum L. subsp. aestivum<br />
Breeding. Pureline. PI351256-sel-fhb; NSGC 18006. Pedigree - selection<br />
from PI 351256. Resistance to Fusarium Head Blight (Fusarium<br />
graminearum).<br />
PI 644143. Triticum aestivum L. subsp. aestivum<br />
Breeding. Pureline. PI351476-sel-fhb; NSGC 18007. Pedigree - selection<br />
from PI 351476. Resistance to Fusarium Head Blight (Fusarium<br />
graminearum).<br />
PI 644144. Triticum aestivum L. subsp. aestivum<br />
Breeding. Pureline. PI351743-sel-fhb; NSGC 18008. Pedigree - selection<br />
from PI 351743. Resistance to Fusarium Head Blight (Fusarium<br />
graminearum).<br />
PI 644145. Triticum aestivum L. subsp. aestivum<br />
Breeding. Pureline. PI351748-sel-fhb; NSGC 18009. Pedigree - selection<br />
from PI 351748. Resistance to Fusarium Head Blight (Fusarium<br />
graminearum).<br />
PI 644146. Triticum aestivum L. subsp. aestivum<br />
Breeding. Pureline. PI351993-sel-fhb; NSGC 18010. Pedigree - selection<br />
from PI 351993. Resistance to Fusarium Head Blight (Fusarium<br />
graminearum).<br />
PI 644147. Triticum aestivum L. subsp. aestivum<br />
Breeding. Pureline. PI360869-sel-fhb; NSGC 18011. Pedigree - selection<br />
from PI 360869. Resistance to Fusarium Head Blight (Fusarium<br />
graminearum).<br />
PI 644148. Triticum aestivum L. subsp. aestivum<br />
Breeding. Pureline. PI382144-sel-fhb; NSGC 18012. Pedigree - selection<br />
from PI 382144. Resistance to Fusarium Head Blight (Fusarium<br />
graminearum).<br />
281
<strong>The</strong> following were donated by Mark McGuiness, U.S. National Arboretum, USDA,<br />
ARS, 3501 New York Avenue, N.E., Washington, District of Columbia 20002,<br />
United States. Received 12/06/2001.<br />
PI 644149. Malus hybrid<br />
NA# 29342; GMAL 4589; Dainty.<br />
<strong>The</strong> following were donated by Gus Schmid, Swiss Federal Research Station for<br />
Fruit, Growing, Viticulture and Horticulture, Wadenswil, Zurich CH-8820,<br />
Switzerland. Received 02/12/2003.<br />
PI 644150. Malus domestica Borkh.<br />
GMAL 1640; C 08367; Q 22792; GMAL 4625; Bohnapfel. Collected in Unknown.<br />
Rhineland, Germany. Pedigree - Originated second half of 1700's.<br />
Comments:: Size medium to large 59-75:60-75 mm; shape variable, intermediate<br />
to tall, rectangular to truncate-conic, straight to convex,<br />
ribbed at eye and sometimes on body; skin greenish- yellow, orange-brown<br />
flush and stripes; flesh firm, coarse, greenish white; flavour subacid<br />
to slightly sweet; season very late; tree upright, late flowering.<br />
<strong>The</strong> following were donated by Robert C. Lamb, New York State Agric. Exp.<br />
Station, Department of Horticulture, Geneva, New York 14456, United States.<br />
Received 12/14/1984.<br />
PI 644151. Malus domestica Borkh.<br />
Cultivar. "1-159"; C 15169; Q 25258; BE9676; GMAL 4627.<br />
<strong>The</strong> following were donated by Lab. for Fruit Tree Genetics & Breeding,<br />
Research Inst. for Fruit Growing, Trustul Pomiculturii, Pitesti-Maracineni,<br />
Arges 0300, Romania. Received 03/13/1985.<br />
PI 644152. Malus domestica Borkh.<br />
Cultivar. "Pionier"; C 15657; Q 25398; BE9840; GMAL 4628.<br />
PI 644153. Malus domestica Borkh.<br />
Cultivar. "Generos"; C 15657; Q 25399; BE9840; GMAL 4629.<br />
<strong>The</strong> following were donated by J. Reckin, Experimental Garden, DDR 1303<br />
Finowfurt, Gorkistrasse 20, Finowfurt, Germany. Received 04/03/1985.<br />
PI 644154. Malus domestica Borkh.<br />
Cultivar. "Bohn"; C 15814; Q 25481; GMAL 4630.<br />
<strong>The</strong> following were donated by L.B. Baxter, Granite Belt Horticulture Res Sta,<br />
P.O. Box 10, Applethorpe, Queensland, Australia. Received 08/13/1987.<br />
PI 644155. Malus domestica Borkh.<br />
13-86; BE-1398; Q 26936; GMAL 4631.<br />
282
PI 644156. Malus domestica Borkh.<br />
63-43 (Granite Belt); BE-1398; Q 26937; GMAL 4632.<br />
PI 644157. Malus domestica Borkh.<br />
BE-1398; 35-155 (Earlidel); Q 26939; GMAL 4633; Earlidel.<br />
<strong>The</strong> following were donated by N.I. Vavilov Institute of <strong>Plant</strong> Industry, 44<br />
Herzen Street, Leningrad, Leningrad 190000, Russian Federation. Received<br />
04/1988.<br />
PI 644158. Malus domestica Borkh.<br />
Cultivar. "Mironchik"; C; Q 27137; GMAL 4634. Collected in Former Soviet<br />
Union.<br />
PI 644159. Malus domestica Borkh.<br />
Cultivar. "Pepin Litovskii"; D; Q 27138; GMAL 4635. Collected in Former<br />
Soviet Union.<br />
PI 644160. Malus domestica Borkh.<br />
Cultivar. "Kitaika Saninskaia"; E; Q 27139; GMAL 4636. Collected in<br />
Former Soviet Union.<br />
PI 644161. Malus domestica Borkh.<br />
Cultivar. "Papirovka"; H; Q 27142; GMAL 4637. Collected in Former Soviet<br />
Union.<br />
<strong>The</strong> following were donated by Maxine Thompson, Oregon State University,<br />
Department of Horticulture, Cordley Hall 2042, Corvallis, Oregon 97331-2911,<br />
United States. Received 12/13/1988.<br />
PI 644162. Malus domestica Borkh.<br />
Cultivar. 880488; "Nurshah"; T&B 880488; Q 27397; GMAL 4638. Collected<br />
in Pakistan.<br />
PI 644163. Malus domestica Borkh.<br />
Cultivar. 880492; "Shinibalt I"; T&B 880492; Q 27398; GMAL 4639.<br />
Collected in Pakistan.<br />
PI 644164. Malus domestica Borkh.<br />
Cultivar. 880549; "Goharaman"; T&B 880549; Q 27403; GMAL 4640. Collected<br />
in Pakistan.<br />
<strong>The</strong> following were collected by Fu Ren Min. Developed by Shaanxi Resh. Inst.<br />
of Pomology, Yamg Ling, Shaanxi, China. Donated by Ren Min Fu, Shaanxi Res.<br />
Inst. of Pomology, Yang Ling, Shaanxi, China. Received 01/07/1989.<br />
PI 644165. Malus domestica Borkh.<br />
Cultivar. "Jin Guang"; BE-<strong>215</strong>1; Q 27585; BE<strong>215</strong>1; GMAL 4641. Collected in<br />
China.<br />
PI 644166. Malus domestica Borkh.<br />
Cultivar. "Yian Guang"; BE-<strong>215</strong>1; Q 27586; BE<strong>215</strong>1; GMAL 4642. Collected<br />
in China.<br />
283
PI 644167. Malus domestica Borkh.<br />
Cultivar. "Yian Feng"; BE-<strong>215</strong>1; Q 27587; BE<strong>215</strong>1; GMAL 4643. Collected in<br />
China.<br />
<strong>The</strong> following were donated by A. P. Camilo, Estacao Expt. de Cacador, EMPASC,<br />
Caixa Postal D-1, CEP 89500, Cacador, Santa Catarina, Brazil. Received<br />
05/16/1990.<br />
PI 644168. Malus domestica Borkh.<br />
Cultivar. "BR-2"; BE-2926; Q 28077; GMAL 4644. Pedigree - Chance<br />
seedling selection from open-pollinated Golden Delicious. Blooms one<br />
week before Golden Delicious, ripens at same time. Fruit<br />
yellowish-green. Chemical treatment needed for breaking bud dormancy in<br />
areas with 600-650 chilling hours. Released in 1980.<br />
<strong>The</strong> following were donated by Fruit Growing Institute, 12 Ostromila, Plovdiv,<br />
Plovdiv, Bulgaria. Received 10/15/1990.<br />
PI 644169. Malus domestica Borkh.<br />
Cultivar. "Trakiiska Ranna"; BE-3162; Q 28356; GMAL 4645. Pedigree -<br />
Seedling selection from open pollination of Berner Rosenapfel in 1952.<br />
Growth vigorous. Flowers midearly. Fruit medium weight of 130 grams,<br />
round-conical, red. Flesh yellow, sweet-sour. Maturity end of July/early<br />
August before Prima.<br />
<strong>The</strong> following were donated by Joe <strong>No</strong>rton, Auburn University, Department of<br />
Horticulture, Auburn, Alabama 36849, United States. Received 10/21/1991.<br />
PI 644170. Malus domestica Borkh.<br />
Cultivar. "Liaofu"; BE-3678; Q 28776; GMAL 4646. Collected in China.<br />
<strong>The</strong> following were donated by William A. Gustafson, Jr., University of<br />
Nebraska, 122 Mussell Hall, Lincoln, Nebraska 68583-0714, United States.<br />
Received 12/23/1991.<br />
PI 644171. Malus domestica Borkh.<br />
BE-3777; Q 28826; GMAL 4647; Hua Guan. Collected in China. 'Better<br />
than Japanese 'Fuji' and American 'Red Delicious' in color, taste,<br />
storage and productivity.'.<br />
<strong>The</strong> following were donated by William R. Feldman, Boyce Thompson Southwestern<br />
Arboretum, 37615 E. Hwy 60, Superior, Arizona 85273-5100, United States; A.<br />
Saparmuraolov, Turkmen <strong>Plant</strong> Station in Gar, Gar, Turkmenistan. Received<br />
03/01/1999.<br />
PI 644172. Malus domestica Borkh.<br />
Cultivar. "Dikaya from Gyuen"; 7854; Q 39701; GMAL 4648.<br />
PI 644173. Malus domestica Borkh.<br />
Cultivar. "Saivanskaiya(Apple-Tree From Saivan)"; 12245; Q 39705; GMAL<br />
4649.<br />
284
<strong>The</strong> following were donated by Susan K. Brown, Cornell University, New York<br />
State Agric. Exp. Sta., Department of Horticultural Sciences, Geneva, New<br />
York 14456-0462, United States. Received 10/21/2003.<br />
PI 644174. Malus domestica Borkh.<br />
Cultivated. "Honeycrisp"; GMAL 4652.<br />
<strong>The</strong> following were donated by Jules Janick, Purdue University, Department of<br />
Horticulture, and Landscape Architecture, West Lafayette, Indiana 47907-1165,<br />
United States. Received 10/21/2003.<br />
PI 644175. Malus domestica Borkh.<br />
Cultivar. Coop 39; GMAL 4653.<br />
<strong>The</strong> following were donated by James Luby, University of Minnesota, Department<br />
of Horticultural Science, 342 Alderman Hall, St. Paul, Minnesota 55108,<br />
United States; David Bedford, University of Minnesota, Horticultural Research<br />
Center, 600 Arboretum Boulevard, Excelsior, Minnesota 55331, United States.<br />
Received 04/02/2004.<br />
PI 644176. Malus domestica Borkh.<br />
"Malinda"; GMAL 4668.<br />
<strong>The</strong> following were donated by Lab. for Fruit Tree Genetics & Breeding,<br />
Research Inst. for Fruit Growing, Trustul Pomiculturii, Pitesti-Maracineni,<br />
Arges 0300, Romania. Received 02/20/1981.<br />
PI 644177. Malus domestica Borkh.<br />
Cultivar. "Geoagiu 21"; G21; C 06226; GMAL 1656; Q 22333; GMAL 4669.<br />
<strong>The</strong> following were donated by William R. Feldman, Boyce Thompson Southwestern<br />
Arboretum, 37615 E. Hwy 60, Superior, Arizona 85273-5100, United States; A.<br />
Saparmuraolov, Turkmen <strong>Plant</strong> Station in Gar, Gar, Turkmenistan. Received<br />
03/01/1999.<br />
PI 644178. Malus sp.<br />
Cultivar. "Almali95-1"; 36965; Q 39699; GMAL 4670.<br />
PI 644179. Malus sp.<br />
Cultivar. "Babarabkaturshi"; 10130; Q 39700; GMAL 4671.<br />
<strong>The</strong> following were donated by Fruit Growing Institute, 12 Ostromila, Plovdiv,<br />
Plovdiv, Bulgaria. Received 02/16/1993.<br />
PI 644180. Malus sp.<br />
Cultivar. "ROUMYANA"; BE-4503; Q 29709; GMAL 4676.<br />
<strong>The</strong> following were donated by N.I. Vavilov Institute of <strong>Plant</strong> Industry, 44<br />
Herzen Street, Leningrad, Leningrad 190000, Russian Federation. Received<br />
04/1988.<br />
285
PI 644181. Malus domestica Borkh.<br />
Cultivar. "Skryzhapel"; G; Q 27141; GMAL 4686. Collected in Former<br />
Soviet Union.<br />
<strong>The</strong> following were donated by Maxine Thompson, Oregon State University,<br />
Department of Horticulture, Cordley Hall 2042, Corvallis, Oregon 97331-2911,<br />
United States. Received 12/13/1988.<br />
PI 644182. Malus domestica Borkh.<br />
Cultivar. 880522; "Shinibalt II"; T&B 880522; Q 27399; GMAL 4687.<br />
Collected in Pakistan.<br />
<strong>The</strong> following were donated by Raivo Vihman, 430 Number 7 Road, Steuben, Maine<br />
04680, United States. Received 02/24/2000.<br />
PI 644183. Malus domestica Borkh.<br />
Cultivar. "Koidu Renett"; Q 42565; GMAL 4691.<br />
PI 644184. Malus sp.<br />
Cultivar. "Sidrunkollane Talioun"; Q 43125; GMAL 4692.<br />
<strong>The</strong> following were donated by Rich Stadnik, Pup's Cider Co., LLC, 193 East<br />
Rd., Greenfield, New Hampshire 03047, United States. Received 04/07/2005.<br />
PI 644185. Malus domestica Borkh.<br />
GMAL 4693; Jewett Red. Jewett Red (aka <strong>No</strong>dhead). Originated in Hollis,<br />
New Hampshire before 1850. Large, mostly red with green background.<br />
Very light bloom. Very crisp, excellent flavor. Harvest late<br />
September.<br />
PI 644186. Malus domestica Borkh.<br />
GMAL 4694; Granite Beauty. Originated in Weare, New Hampshire (date<br />
uncertain, but historic). Medium, russeted, greenish. Unattractive,<br />
sweet. Harvest mid-September.<br />
PI 644187. Malus domestica Borkh.<br />
Pup's Tego; GMAL 4695. A medium to large, conical crab (?). Yellow,<br />
with pink blush. Quite sweet. Coloring of a Winter Banana. Harvest<br />
mid to late September. Tends to go biennial. Very little astringency.<br />
Probably an open pollinated seedling of Tolman Sweet x ?.<br />
PI 644188. Malus domestica Borkh.<br />
Pups' Fleurie; GMAL 4696. A medium size, very early bittersweet cider<br />
apple. Red over yellow with maroon stripes. Yellow flesh. Short<br />
keeper. Harvest around Labor Day. Unfermented juice has distinct<br />
floral notes which dissipate when fermented. Nice medium tannins. Gene<br />
rally a bit light on the sugars. Used at Pup's Cider Company to add<br />
tannins to other early juices. Reliable annual cropper.<br />
PI 644189. Malus domestica Borkh.<br />
Pup's Jeannette; GMAL 4697. A large bittersharp cider apple. Course,<br />
greenish yellow skin with pink splashes. Flesh not distinctively crisp.<br />
Bug's stay away from it, generally produces insect free fruit with no<br />
286
spraying. Inedibly sharp, but useful as such in hard cider. Harvest<br />
beginning late September over a 2 to 3 week period. Fruit drops just<br />
prior to being ripe. Medium tannins. Very biennial. Tends to bloom<br />
early.<br />
<strong>The</strong> following were donated by Carole Bassett, USDA/ARS, Appalachian Fruit<br />
Research, 2217 Wiltshire Rd., Kearneysville, West Virginia 25430, United<br />
States. Received 08/25/2005.<br />
PI 644190. Malus domestica Borkh.<br />
"Goldspur Golden Delicious"; GMAL 4698. Collected from Steve Miller's<br />
orchard, Kearneysville, WV.<br />
<strong>The</strong> following were donated by William Howell, Washington State University,<br />
Irrigated Agr. Research & Extension Cntr, 24106 <strong>No</strong>rth Bunn Road, Prosser,<br />
Washington 99350, United States. Received 08/31/2005.<br />
PI 644191. Malus domestica Borkh.<br />
"Fireside"; IRA 254-1; GMAL 4699.<br />
<strong>The</strong> following were collected by Fu Ren Min. Developed by Shaanxi Resh. Inst.<br />
of Pomology, Yamg Ling, Shaanxi, China. Donated by Ren Min Fu, Shaanxi Res.<br />
Inst. of Pomology, Yang Ling, Shaanxi, China. Received 01/07/1989.<br />
PI 644192. Malus domestica Borkh.<br />
Cultivar. "Qing Guan"; BE-<strong>215</strong>1; T27588G; Q 27588; BE<strong>215</strong>1; GMAL 4701.<br />
Collected in China.<br />
<strong>The</strong> following were collected by Philip L. Forsline, USDA, ARS, Cornell<br />
University, <strong>Plant</strong> Genetic <strong>Resources</strong> Unit, Geneva, New York 14456-0462, United<br />
States; James Luby, University of Minnesota, Department of Horticultural<br />
Science, 342 Alderman Hall, St. Paul, Minnesota 55108, United States.<br />
Received 01/07/2006.<br />
PI 644193. Malus sieversii (Ledeb.) M. Roem.<br />
Wild. MN 85-23-28; GMAL 4708. Collected 08/29/1995 in Kazakhstan.<br />
Latitude 47° 14' 39" N. Longitude 81° 34' 14" E. Elevation 870<br />
m. Semipalitinsk Region (Tarbagatai Mountain Range). Village of<br />
Alekseyevka. 4 km. <strong>No</strong>rtheast of Alekseyevka, 20 km. <strong>No</strong>rth of Urdzhar.<br />
Flat area near stream. Collected in South end of West Valley.<br />
Coordinates in Urdzhar: 47-05-01, 81-37-49. Temp: max. +41, min. -40.<br />
Stoney gravely loam soil. Good drainage. 400 mm rainfall. Dominant tree<br />
sp.: Populus. Dominant shrub sp.: Crataegus, Rosa; Associated-Viburnum.<br />
Random pop. as close as 20 m. to stream. Many new small trees growing.<br />
Sampled 30 fruits from 1 tree. Fruit is firm with aromatic flavor. Fruit<br />
size is larger than 50mm. GMAL 4708 is an individual seedling selction<br />
form seed lot GMAL 3606. It was grown at the University of Minnesota.<br />
Comments from Minnesota: nice, yellow.<br />
<strong>The</strong> following were donated by Philip L. Forsline, USDA, ARS, Cornell<br />
University, <strong>Plant</strong> Genetic <strong>Resources</strong> Unit, Geneva, New York 14456-0462, United<br />
States; James Luby, University of Minnesota, Department of Horticultural<br />
287
Science, 342 Alderman Hall, St. Paul, Minnesota 55108, United States.<br />
Received 01/07/2006.<br />
PI 644194. Malus sieversii (Ledeb.) M. Roem.<br />
Wild. MN 85-25-110; GMAL 4709. Collected 08/29/1995 in Kazakhstan.<br />
Latitude 47° 14' 39" N. Longitude 81° 34' 14" E. Elevation 870<br />
m. Semipalitinsk Region (Tarbagatai Mountain Range). Village of<br />
Alekseyevka. 4 km. <strong>No</strong>rtheast of Alekseyevka, 20 km. <strong>No</strong>rth of Urdzhar.<br />
Flat area near stream. Collected in South end of West Valley.<br />
Coordinates in Urdzhar: 47-05-01, 81-37-49. Temp: max. +41, min. -40.<br />
Stoney gravely loam soil. Good drainage. 400 mm rainfall. Dominant tree<br />
sp.: Populus. Dominant shrub sp.: Crataegus, Rosa; Associated-Viburnum.<br />
Random pop. as close as 20 m. to stream. Many new small trees growing.<br />
Sampled 30 fruits from 1 tree. Fruit is firm with aromatic flavor. Fruit<br />
size is larger than 50mm. GMAL 4709 is an individual seedling selection<br />
from seed lot GMAL 3606. It was grown at the University of Minnesota.<br />
Comments from Minnesota: scab resistant.<br />
PI 644195. Malus sieversii (Ledeb.) M. Roem.<br />
Wild. MN 85-25-110; GMAL 4710. Collected 08/29/1995 in Kazakhstan.<br />
Latitude 47° 14' 39" N. Longitude 81° 34' 14" E. Elevation 870<br />
m. Semipalitinsk Region (Tarbagatai Mountain Range). Village of<br />
Alekseyevka. 4 km. <strong>No</strong>rtheast of Alekseyevka, 20 km. <strong>No</strong>rth of Urdzhar.<br />
Flat area near stream. Collected in South end of West Valley.<br />
Coordinates in Urdzhar: 47-05-01, 81-37-49. Temp: max. +41, min. -40.<br />
Stoney gravely loam soil. Good drainage. 400 mm rainfall. Dominant tree<br />
sp.: Populus. Dominant shrub sp.: Crataegus, Rosa; Associated-Viburnum.<br />
Random pop. as close as 20 m. to stream. Many new small trees growing.<br />
Sampled 30 fruits from 1 tree. Fruit is firm with aromatic flavor. Fruit<br />
size is larger than 50mm. GMAL 4710 is an individual seedling selection<br />
from seed lot GMAL 3612. It was grown at the University of Minnesota.<br />
Comments from Minnesota: attractive.<br />
<strong>The</strong> following were collected by Philip L. Forsline, USDA, ARS, Cornell<br />
University, <strong>Plant</strong> Genetic <strong>Resources</strong> Unit, Geneva, New York 14456-0462, United<br />
States; James Luby, University of Minnesota, Department of Horticultural<br />
Science, 342 Alderman Hall, St. Paul, Minnesota 55108, United States.<br />
Received 04/07/2006.<br />
PI 644196. Malus sieversii (Ledeb.) M. Roem.<br />
Wild. MN 85-21-123; GMAL 4711. Collected 08/29/1995 in Kazakhstan.<br />
Latitude 47° 16' 12" N. Longitude 81° 34' 25" E. Elevation 990<br />
m. Semipalitinsk Region (Tarbagatai Mountain Range). 20 km. <strong>No</strong>rth of<br />
Urdzhar. 7 km. <strong>No</strong>rtheast of Alekseyevka. Landform mostly hillside.<br />
Collected in <strong>No</strong>rth end of West Valley, upstream 3 km. from site 05<br />
(GMAL's 3604-3607, GMAL's 3760-3789). Silt to clay loam soil. Slope<br />
incline: 10%. Aspect: West. Dominant tree sp: M. sieversii;<br />
Associated-Populus, Pyrus, Acer. Dom. shrub sp: Rosa; Assoc.-Lonicera,<br />
Amygdalus, Rubus. Dominant herbaceous: Grasses; Assoc.-Potentilla,<br />
Fragaria. Sampled 30 fruits from 1 tree. Fruit is firm with aromatic<br />
flesh flavor. Very little scab. Skin clear. Spur type tree. GMAL 4711<br />
is an individual seedling selection from seed lot GMAL 3615. It was<br />
grown at the University of Minnesota. Comments from Minnesota: scab<br />
resistant.<br />
288
PI 644197. Malus sieversii (Ledeb.) M. Roem.<br />
Wild. MN 85-24-53; GMAL 4712. Collected 08/29/1995 in Kazakhstan.<br />
Latitude 47° 15' 20" N. Longitude 81° 34' 20" E. Elevation 920<br />
m. Semipalitinsk Region (Tarbagatai Mountain Range). 20 km. <strong>No</strong>rth of<br />
Urdzhar. 5 km. <strong>No</strong>rtheast of Alekseyevka. Collected mainly on west slopes<br />
in center of West Valley. Equidistant between sites 05 & 06 (GMAL's<br />
3604-3615, GMAL's 3760-3789). Silt to clay loam soil. Aspect: West.<br />
Landform mostly hillside. Dominant tree sp.: M. sieversii. Dominant<br />
shrub sp.: Rosa; Associated-Lonicera, Rubus. Dominant herbaceous: Malva;<br />
Assoc.-Fragaria. Sampled 40 fruits from 1 tree. Flesh flavor is<br />
aromatic. Over color is 90% red. Fruit size is larger than 50mm. Spur<br />
type tree. GMAL 4712 is an individual seedling selection from seedlot<br />
GMAL 3622. It was grown at the University of Minnesota. Comments from<br />
Minnesota: attractive.<br />
PI 644198. Malus sieversii (Ledeb.) M. Roem.<br />
Wild. MN 85-22-99; GMAL 4713. Collected 08/30/1995 in Kazakhstan.<br />
Latitude 47° 15' 20" N. Longitude 81° 34' 20" E. Elevation 920<br />
m. Semipalitinsk Region (Tarbagatai Mountain Range). 20 km. <strong>No</strong>rth of<br />
Urdzhar. 5 km. <strong>No</strong>rtheast of Alekseyevka. Collected mainly on west slopes<br />
in center of West Valley. Equidistant between sites 05 & 06 (GMAL's<br />
3604-3615, GMAL's 3760-3789). Silt to clay loam soil. Aspect: <strong>No</strong>rth.<br />
Landform mostly hillside. Dominant tree sp.: M. sieversii. Dominant<br />
shrub sp.: Rosa; Associated-Lonicera, Rubus. Dominant herbaceous: Malva;<br />
Assoc.-Fragaria. Sampled 30 fruits from 1 tree. Looks like a<br />
domesticated apple. Fruit is firm with aromatic flesh flavor, juicy.<br />
Fruit size is larger than 50mm. Winter keeper. Very heavy cropload.<br />
Scion also collected. GMAL 4713 is an individual seedling selection<br />
from seedlot GMAL 3623. It was grown at the University of Minnesota.<br />
Comments from Minnesota: scab resistant.<br />
PI 644199. Malus sieversii (Ledeb.) M. Roem.<br />
Wild. MN 85-26-21; GMAL 4714. Collected 08/30/1995 in Kazakhstan.<br />
Latitude 47° 15' 20" N. Longitude 81° 34' 20" E. Elevation 920<br />
m. Semipalitinsk Region (Tarbagatai Mountain Range). 20 km. <strong>No</strong>rth of<br />
Urdzhar. 5 km. <strong>No</strong>rtheast of Alekseyevka. Collected mainly on west slopes<br />
in center of West Valley. Equidistant between sites 05 & 06 (GMAL's<br />
3604-3615, GMAL's 3760-3789). Silt to clay loam soil. Aspect: <strong>No</strong>rth.<br />
Landform mostly hillside. Dominant tree sp.: M. sieversii. Dominant<br />
shrub sp.: Rosa; Associated-Lonicera, Rubus. Dominant herbaceous: Malva;<br />
Assoc.-Fragaria. Sampled 30 fruits from 1 tree. Looks like a<br />
domesticated apple. Fruit is firm with aromatic flesh flavor, juicy.<br />
Fruit size is larger than 50mm. Winter keeper. Very heavy cropload.<br />
Scion also collected. GMAL 4714 is an individual seedling selction from<br />
seedlot GMAL 3623. It was grown at the University of Minnesota.<br />
Comments from Minnesota: nice texture.<br />
<strong>The</strong> following were donated by Philip L. Forsline, USDA, ARS, Cornell<br />
University, <strong>Plant</strong> Genetic <strong>Resources</strong> Unit, Geneva, New York 14456-0462, United<br />
States; James Luby, University of Minnesota, Department of Horticultural<br />
Science, 342 Alderman Hall, St. Paul, Minnesota 55108, United States.<br />
Received 04/07/2006.<br />
PI 644200. Malus sieversii (Ledeb.) M. Roem.<br />
Wild. MN 85-28-17; GMAL 4715. Collected 08/30/1995 in Kazakhstan.<br />
Latitude 47° 15' 20" N. Longitude 81° 34' 20" E. Elevation 920 m.<br />
289
Semipalitinsk Region (Tarbagatai Mountain Range). 20 km. <strong>No</strong>rth of<br />
Urdzhar. 5 km. <strong>No</strong>rtheast of Alekseyevka. Collected mainly on west slopes<br />
in center of West Valley. Equidistant between sites 05 & 06 (GMAL's<br />
3604-3615, GMAL's 3760-3789). Silt to clay loam soil. Aspect: <strong>No</strong>rth.<br />
Landform mostly hillside. Dominant tree sp.: M. sieversii. Dominant<br />
shrub sp.: Rosa; Associated-Lonicera, Rubus. Dominant herbaceous: Malva;<br />
Assoc.-Fragaria. Sampled 30 fruits from 1 tree. Looks like a<br />
domesticated apple. Fruit is firm with aromatic flesh flavor, juicy.<br />
Fruit size is larger than 50mm. Winter keeper. Very heavy cropload.<br />
Scion also collected. GMAL 4715 is an individual seedling selection from<br />
seedlot GMAL 3623. It was grown at the University of Minnesota.<br />
Comments from Minnesota: late ripening.<br />
<strong>The</strong> following were collected by Philip L. Forsline, USDA, ARS, Cornell<br />
University, <strong>Plant</strong> Genetic <strong>Resources</strong> Unit, Geneva, New York 14456-0462, United<br />
States; James Luby, University of Minnesota, Department of Horticultural<br />
Science, 342 Alderman Hall, St. Paul, Minnesota 55108, United States.<br />
Received 04/07/2006.<br />
PI 644201. Malus sieversii (Ledeb.) M. Roem.<br />
Wild. MN 85-28-25; GMAL 4716. Collected 08/30/1995 in Kazakhstan.<br />
Latitude 47° 15' 20" N. Longitude 81° 34' 20" E. Elevation 920 m.<br />
Semipalitinsk Region (Tarbagatai Mountain Range). 20 km. <strong>No</strong>rth of<br />
Urdzhar. 5 km. <strong>No</strong>rtheast of Alekseyevka. Collected mainly on west slopes<br />
in center of West Valley. Equidistant between sites 05 & 06 (GMAL's<br />
3604-3615, GMAL's 3760-3789). Silt to clay loam soil. Aspect: <strong>No</strong>rth.<br />
Landform mostly hillside. Dominant tree sp.: M. sieversii. Dominant<br />
shrub sp.: Rosa; Associated-Lonicera, Rubus. Dominant herbaceous: Malva;<br />
Assoc.-Fragaria. Sampled 30 fruits from 1 tree. Looks like a<br />
domesticated apple. Fruit is firm with aromatic flesh flavor, juicy.<br />
Fruit size is larger than 50mm. Winter keeper. Very heavy cropload.<br />
Scion also collected. GMAL 4716 is an individual seedling selection from<br />
seed lot GMAL 3623. It was grown at the University of Minnesota.<br />
Comments from Minnesota: late ripening.<br />
<strong>The</strong> following were donated by Philip L. Forsline, USDA, ARS, Cornell<br />
University, <strong>Plant</strong> Genetic <strong>Resources</strong> Unit, Geneva, New York 14456-0462, United<br />
States; James Luby, University of Minnesota, Department of Horticultural<br />
Science, 342 Alderman Hall, St. Paul, Minnesota 55108, United States.<br />
Received 04/07/2006.<br />
PI 644202. Malus sieversii (Ledeb.) M. Roem.<br />
Wild. MN 88-27-40; GMAL 4717. Collected 08/31/1995 in Kazakhstan.<br />
Latitude 47° 16' 41" N. Longitude 81° 35' 59" E. Elevation 1120 m.<br />
Semipalitinsk Region (Tarbagatai Mountain Range). 20 km. <strong>No</strong>rth of<br />
Urdzhar, 6 km. East-<strong>No</strong>rtheast of Alekseyevka, on separate jeep trail.<br />
East Valley collection site. Collected on north end on flat by East<br />
River. Slope incline 2 degrees. Aspect: East. Dominant tree sp.: M.<br />
sieversii. Dominant shrub sp.: Rosa; Associated-Lonicera, Rubus.<br />
Dominant herbaceous: Malva; Assoc.-Fragaria. Sampled 30 fruits from 1<br />
tree. Fruit is firm with aromatic flesh flavor. Over color is 70% red.<br />
Fruit size is larger than 50mm. Looks scab free. Winter type. Commercial<br />
size. GMAL 4717 is an individual seedling selection from seed lot GMAL<br />
3626. It was grown at the University of Minnesota. Comments from<br />
Minnesota: scab resistant.<br />
290
PI 644203. Malus sieversii (Ledeb.) M. Roem.<br />
Wild. MN-88-27-43; GMAL 4718. Collected 08/31/1995 in Kazakhstan.<br />
Latitude 47° 16' 41" N. Longitude 81° 35' 59" E. Elevation 1120 m.<br />
Semipalitinsk Region (Tarbagatai Mountain Range). 20 km. <strong>No</strong>rth of<br />
Urdzhar, 6 km. East-<strong>No</strong>rtheast of Alekseyevka, on separate jeep trail.<br />
East Valley collection site. Collected on north end on flat by East<br />
River. Slope incline 2 degrees. Aspect: East. Dominant tree sp.: M.<br />
sieversii. Dominant shrub sp.: Rosa; Associated-Lonicera, Rubus.<br />
Dominant herbaceous: Malva; Assoc.-Fragaria. Sampled 30 fruits from 1<br />
tree. Fruit is firm with aromatic flesh flavor. Over color is 70% red.<br />
Fruit size is larger than 50mm. Looks scab free. Winter type. Commercial<br />
size. GMAL 4718 is an individual seedling selction from seed lot GMAL<br />
3626. It was grown at the University of Minnesota. Comments from<br />
Minnesota: scab resistant.<br />
PI 644204. Malus sieversii (Ledeb.) M. Roem.<br />
Wild. MN 85-23-54; GMAL 4719. Collected 08/31/1995 in Kazakhstan.<br />
Latitude 47° 16' 41" N. Longitude 81° 35' 59" E. Elevation 1120 m.<br />
Semipalitinsk Region (Tarbagatai Mountain Range). 20 km. <strong>No</strong>rth of<br />
Urdzhar, 6 km. East-<strong>No</strong>rtheast of Alekseyevka, on separate jeep trail.<br />
East Valley collection site. Collected on north end on flat by East<br />
River. Slope incline 2 degrees. Aspect: East. Dominant tree sp.: M.<br />
sieversii. Dominant shrub sp.: Rosa; Associated-Lonicera, Rubus.<br />
Dominant herbaceous: Malva; Assoc.-Fragaria. Sampled 30 fruits from 1<br />
tree. Fruit is firm with aromatic flesh flavor. Over color is 70% red.<br />
Fruit size is larger than 50mm. Looks scab free. Winter type. Commercial<br />
size. GMAL 4719 is an individual seedling selection from seed lot GMAL<br />
3626. It was grown at the University of Minnesota. Comments form<br />
Minnesota: scab resistant.<br />
PI 644205. Malus sieversii (Ledeb.) M. Roem.<br />
Wild. MN 88-28-52; GMAL 4720. Collected 08/31/1995 in Kazakhstan.<br />
Latitude 47° 15' 52" N. Longitude 81° 35' 5" E. Elevation 1000 m.<br />
Semipalitinsk Region (Tarbagatai Mountain Range). 20 km. <strong>No</strong>rth of<br />
Urdzhar, 3-4 km. <strong>No</strong>rtheast of Alekseyevka. Collected in Middle and South<br />
Valley. Aspect: <strong>No</strong>rth. Dominant tree sp.: M. sieversii. Dominant shrub<br />
sp.: Amygdalus; Associated-Rosa. Dominant herbaceous: Aster;<br />
Assoc.-Xanthium. Sampled 40 fruits from 1 tree. Flesh flavor is<br />
acid/aromatic mix. Fruit size is larger than 50mm. Nice clean finish.<br />
GMAL 4720 is an individual seedling selection form seed lot GMAL 3640.<br />
It was grown at the University of Minnesota. Comments from Minnesota:<br />
large, yellow fruit.<br />
PI 644206. Malus sieversii (Ledeb.) M. Roem.<br />
Wild. MN 85-21-112; GMAL 4721. Collected 08/31/1995 in Kazakhstan.<br />
Latitude 47° 15' 52" N. Longitude 81° 35' 5" E. Elevation 1000 m.<br />
Semipalitinsk Region (Tarbagatai Mountain Range). 20 km. <strong>No</strong>rth of<br />
Urdzhar, 3-4 km. <strong>No</strong>rtheast of Alekseyevka. Collected from east end of<br />
Middle Valley. Aspect: <strong>No</strong>rth. Dominant tree sp.: M. sieversii. Dominant<br />
shrub sp.: Amygdalus; Associated-Rosa. Dominant herbaceous: Aster;<br />
Assoc.-Xanthium. Sampled 30 fruits from 1 tree. Fruit is hard with<br />
aromatic flesh flavor. Over color is 90% red. Fruit size is larger than<br />
50mm. Very free of disease. GMAL 4721 is a individual seedling selection<br />
from seed lot GMAL 3641. It was grown at the University of Minnesota.<br />
Comments from Minnesota: large, yellow fruit.<br />
291
PI 644207. Malus sieversii (Ledeb.) M. Roem.<br />
Wild. MN 85-23-21; GMAL 4722. Collected 08/31/1995 in Kazakhstan.<br />
Latitude 47° 15' 52" N. Longitude 81° 35' 5" E. Elevation 1000 m.<br />
Semipalitinsk Region (Tarbagatai Mountain Range). 20 km. <strong>No</strong>rth of<br />
Urdzhar, 3-4 km. <strong>No</strong>rtheast of Alekseyevka. Collected from east end of<br />
Middle Valley. Aspect: <strong>No</strong>rth. Dominant tree sp.: M. sieversii. Dominant<br />
shrub sp.: Amygdalus; Associated-Rosa. Dominant herbaceous: Aster;<br />
Assoc.-Xanthium. Sampled 30 fruits from 1 tree. Fruit is hard with<br />
aromatic flesh flavor. Over color is 90% red. Fruit size is larger than<br />
50mm. Very free of disease. GMAL 4722 is an individual seedling<br />
selection from seed lot GMAL 3641. It was grown at the University of<br />
Minnesota. Comments from Minnesota: scab resistant.<br />
PI 644208. Malus sieversii (Ledeb.) M. Roem.<br />
Wild. MN 88-29-71; GMAL 4723. Collected 08/31/1995 in Kazakhstan.<br />
Latitude 47° 15' 52" N. Longitude 81° 35' 5" E. Elevation 1000 m.<br />
Semipalitinsk Region (Tarbagatai Mountain Range). 20 km. <strong>No</strong>rth of<br />
Urdzhar, 3-4 km. <strong>No</strong>rtheast of Alekseyevka. Collected in West and South<br />
Valley. Slope incline: 10 degrees. Aspect: South. Dominant tree sp.: M.<br />
sieversii. Dominant shrub sp.: Amygdalus; Associated-Rosa. Dominant<br />
herbaceous: Aster; Assoc.-Xanthium. Sampled 30 fruits from 1 tree.<br />
Fruit is firm with aromatic flesh flavor, juicy. <strong>No</strong> scab present. Hail<br />
damage. Fruit larger than 50mm. Very free of disease. Spur type tree.<br />
GMAL 4723 is an individual seedling selection seed lot GMAL 3649. It<br />
was grown at the University of Minnesota. Comments from Minnesota:<br />
large, yellow fruit.<br />
PI 644209. Malus sieversii (Ledeb.) M. Roem.<br />
Wild. MN 85-23-14; GMAL 4724. Collected 08/29/2006 in Kazakhstan.<br />
Latitude 47° 14' 39" N. Longitude 81° 34' 14" E. Elevation 870 m.<br />
Semipalitinsk Region (Tarbagatai Mountain Range). Village of<br />
Alekseyevka. 4 km. <strong>No</strong>rtheast of Alekseyevka, 20 km. <strong>No</strong>rth of Urdzhar.<br />
Flat area near stream. Collected in South end of West Valley.<br />
Coordinated in Urdzhar: 47-05-01, 81-37-49. Temp: max. +41, min. -40.<br />
Stoney gravely loam soil. Good drainage. 400mm rainfall. Dominant tree<br />
sp.: Populus. Dominant shrub sp.: Crataugus, Rosa; Associated-Viburnum.<br />
Random pop. as close as 20 m. to stream. Many new small trees growing.<br />
Sampled 5 fruits from 1 tree. Fruit is firm. GMAL 4724 is an individual<br />
seedling selection from seed lot GMAL 3760. It was grown at the<br />
University of Minnesota. Comments from Minnesota: scab resistant.<br />
PI 644210. Malus sieversii (Ledeb.) M. Roem.<br />
Wild. MN 85-23-37; GMAL 4725. Collected 08/30/1995 in Kazakhstan.<br />
Latitude 47° 16' 14" N. Longitude 81° 34' 45" E. Elevation 960 m.<br />
Semipalitinsk Region (Tarbagatai Mountain Range). 20 km. <strong>No</strong>rth of<br />
Urdzhar, 6 km. NE of Alekseyevka. Slopes of East-West Valley. Collected<br />
on north slope of <strong>No</strong>rth Valley. Between & East of sites 05 & 06 (GMAL's<br />
3604-3615, GMAL's 3760-3789). Slope incline: 5-20 degrees. Aspect: South<br />
and <strong>No</strong>rth. Rainfall: 400 mm. Dominant tree sp.: M. sieversii;<br />
Assoc.-Crataegus. Dominant shrub sp.: Rosa; Associated-Amydalus.<br />
Dominant herbaceous: Aster. Sampled 5 fruits from 1 tree. Fruit is<br />
firm. GMAL 4725 is an individual seedling selection from seed lot GMAL<br />
3793. It was grown at the University of Minnesota. Comments from<br />
Minnesota: scab resistant.<br />
PI 644211. Malus sieversii (Ledeb.) M. Roem.<br />
Wild. MN 85-26-15; GMAL 4726. Collected 09/10/1995 in Kazakhstan.<br />
292
Latitude 42° 53' 18" N. Longitude 69° 52' 52" E. Elevation 910 m.<br />
Karatau Province. Boraldy River Forest area. 5 km. <strong>No</strong>rth of Boraldy<br />
Forest Camp which is 80 km. <strong>No</strong>rth of Chimkent. Landform: slighty<br />
inclined plateau. Xerophytic. Very stony soil, dry. Slope incline: 10<br />
degrees, N-NW. Rainfall: less than 300 mm. Dominant tree sp: Crataegus;<br />
Associated-M. Sieversii. Dominant shrub sp: Amygdalus; Assoc-Cerasus.<br />
Associated herbaceous: Rheum, Tulipa. Sampled 8 fruits from 1 tree.<br />
Flesh flavor is aromatic. Mostly spur-type. Very tenacious-late season<br />
type. Drought tolerant. GMAL 4726 is an individual seedling selection<br />
from seed lot GMAL 3973. It was grown at the University of Minnesota.<br />
Comments from Minnesota: scab resistant.<br />
PI 644212. Malus sieversii (Ledeb.) M. Roem.<br />
Wild. MN 85-25-29; GMAL 4727. Collected 09/10/1995 in Kazakhstan.<br />
Latitude 42° 53' 18" N. Longitude 69° 52' 52" E. Elevation 910 m.<br />
Karatau Province. Boraldy River Forest area. 5 km. <strong>No</strong>rth of Boraldy<br />
Forest Camp which is 80 km. <strong>No</strong>rth of Chimkent. Landform: slighty<br />
inclined plateau. Xerophytic. Very stony soil, dry. Slope incline: 10<br />
degrees, N-NW. Rainfall: less than 300 mm. Dominant tree sp: Crataegus;<br />
Associated-M. Sieversii. Dominant shrub sp: Amygdalus; Assoc-Cerasus.<br />
Associated herbaceous: Rheum, Tulipa. Sampled 8 fruits from 1 tree.<br />
Fruit is firm with aromatic flesh flavor. Over color is 75% red. Mostly<br />
spur-type. Very tenacious-late season type. Drought tolerant. GMAL 4727<br />
is an individual seedling selection from seed lot GMAL 3976. It was<br />
grown at the University of Minnesota. Cooemts from Minnesota: scab<br />
resistant.<br />
PI 644213. Malus sieversii (Ledeb.) M. Roem.<br />
Wild. MN 80-14-20; GMAL 4728. Collected 08/28/1996 in Kazakhstan.<br />
Latitude 43° 20' 23" N. Longitude 79° 28' 54" E. Elevation 1640 m.<br />
Ketmen Mts. Village-Kirghiz sai. Southwest of Bol'shoye Asku Village.<br />
Heavily grazed area, no undergrowth. Heavily grazed area, no<br />
undergrowth. Soil: Gravely loam. Incline 10-20%, north, open grazed. N.<br />
ridge above stream; rainfall 600-650mm. Dominant tree sp:<br />
Apricot, Crataegus; Assoc-Populus & Betula above 1660m. Dominant shrub sp:<br />
Sorbus, Berberis; Assoc-Lonicera. Sampled 50 fruits from 1 tree. Flesh<br />
flavor is subacid. Fruit size is over 50mm. Free of insects and<br />
disease. Interesting striped. Same as 01-01P-13, GMAL 4069. GMAL 4728<br />
is an individual seedling selection from seed lot GMAL 4010. It was gro<br />
wn at the University of Minnesota. Comments from Minnesota: nice<br />
fruit.<br />
PI 644214. Malus sieversii (Ledeb.) M. Roem.<br />
Wild. MN 80-15-27; GMAL 4729. Collected 09/08/1996 in Kazakhstan.<br />
Latitude 45° 24' 12" N. Longitude 80° 24' 22" E. Elevation 1500 m.<br />
15km east of Topelevka-Djungarsky Range. 3 km southeast of Topelevka<br />
Forestry Camp. Collections made in radius around camp. Aspect west.<br />
Fertile. Dominant tree sp: Malus sierversii; Assoc.-Betula, Crataegus,<br />
Acer, Quercus, Tilia, Populus, Betula. Dom. Shrub Sp: Berberis,<br />
Lonicera: Assoc.-Cotoneaster, Rubus, Berberis, Ribes. Dom.<br />
herb.:Fragaria,Grasses,Humulus:Assoc.-Dianthus. Sampled 100 fruits from<br />
1 tree. Flesh flavor is aromatic. Fruit size is larger than 50mm.<br />
Free of of disease and insects. Scion collected also. GMAL 4729 is an<br />
individual seedling selction from seed lot GMAL 4035. It was grown at<br />
the University of Minnesota. Comments from Minnesota: nice.<br />
293
PI 644<strong>215</strong>. Malus sieversii (Ledeb.) M. Roem.<br />
Wild. MN 80-16-24; GMAL 4730. Collected 09/14/1996 in Kazakhstan.<br />
Latitude 42° 40' 9" N. Longitude 70° 15' 4" E. Elevation 830 m.<br />
Kok Bulak (Black Spring) Forestry Camp. 35 km southeast of Boraldy Camp<br />
visited in 1995. Collections made in and around camp-north, east, south<br />
of camp. Variable and open, stream bed and hillsides. Rainfall 275mm.<br />
Dominant tree sp: Crataegus; Assoc.-Malus, Vitis, Morus Rhamnus.<br />
Dominant shrub sp: Amygdalus, Pyrus, Rosa. Dominant herbaceous: Grasses.<br />
Sampled 80 fruits from 1 tree. Flesh flavor is aromatic. Fruit size is<br />
larger than 50mm. Free of disease. Heavy codling moth. GMAL 4730 is an<br />
individual seedling selection from seed lot GMAL 4050. It was grown at<br />
the University of Minnesota. Comments from Minnesota: ripe 10/1.<br />
PI 644216. Malus sieversii (Ledeb.) M. Roem.<br />
Wild. MN 80-16-18; GMAL 4731. Collected 09/14/1996 in Kazakhstan.<br />
Latitude 42° 40' 9" N. Longitude 70° 15' 4" E. Elevation 840 m.<br />
Kok Bulak (Black Spring) Forestry Camp. 35 km southeast of Boraldy Camp<br />
visited in 1995. Collections made in and around camp-north, east, south<br />
of camp. Variable and open, stream bed and hillsides. Rainfall 275mm.<br />
Dominant tree sp: Crataegus; Assoc.-Malus, Vitis, Morus Rhamnus.<br />
Dominant shrub sp: Amygdalus, Pyrus, Rosa. Dominant herbaceous: Grasses.<br />
Sampled 70 fruits from 1 tree. Flesh flavor is aromatic. Fruit size is<br />
larger than 50mm. Free of disease and insects. Excellent flavor, very<br />
large leaf. Scion also collected. GMAL 4731 is an individual seedling<br />
selection from seed lot GMAL 4051. It was grown at the University of<br />
Minnesota. Comments from Minnesota: late ripening.<br />
PI 644217. Malus sieversii (Ledeb.) M. Roem.<br />
Wild. MN 80-16-26; GMAL 4732. Collected 08/28/1996 in Kazakhstan.<br />
Latitude 43° 17' 30" N. Longitude 79° 30' 50" E. Elevation 1660 m.<br />
Ketmer Mts., Kirghiz sai. Southwest of Bol'shoye Aksa village.<br />
Heavily grazed area, no undergrowth. Soil: Gravely loam. Incline 10-20%,<br />
north, open-grazed. Rainfall 600-650mm. Dominant tree sp: Apricot,<br />
Crataegus; Assoc-Populus & Betula above 1660m. Dominant shrub sp:<br />
Sorbus, Berberis; Assoc-Lonicera. Elevation 1600-1660 meters. Sampled 8<br />
fruits from 20 trees. Flesh flavor is acid. Moderate scab. Apricots<br />
in area are early blooming, very good quality. Late maturing types.<br />
GMAL 4732 is an individual seedling selection from seed lot 4059. It<br />
was grown at the University of Minnesota. Comments from Minnesota:<br />
late ripening.<br />
294
Species Index<br />
Abelmoschus tuberculatus (643123)<br />
Acanthosicyos naudinianus (641945)<br />
Achillea biebersteinii (64<strong>215</strong>3)<br />
Achnatherum hymenoides (642817-642831)<br />
Agropyron cristatum (642816)<br />
Agropyron desertorum (642832)<br />
Agrostis stolonifera var. palustris (642009, 642054, 642350, 642450-642452,<br />
642804, 643136-643137, 643424)<br />
Alopecurus magellanicus (642840)<br />
Alysicarpus vaginalis (643885)<br />
Amaranthus caudatus (642736, 642741)<br />
Amaranthus crassipes (642743)<br />
Amaranthus cruentus (642734-642735, 642742, 643039-643040, 643042-643065,<br />
643077-643078)<br />
Amaranthus dubius (642737, 642739)<br />
Amaranthus hypochondriacus (642733, 643036-643038, 643041, 643066-643076)<br />
Amaranthus spinosus (642740)<br />
Amaranthus tamaulipensis (642738)<br />
Andropogon gerardii (642389, 642398)<br />
Arachis hypogaea (641925-641926, 641950, 644011)<br />
Arachis hypogaea var. fastigiata (642850)<br />
Arachis hypogaea var. hypogaea (642025-642026, 642851)<br />
Astragalus cornutus (64<strong>215</strong>4)<br />
Astragalus galegiformis (64<strong>215</strong>5)<br />
Astragalus tibetanus (642145)<br />
Avena sativa (641965-641999, 642005, 642358, 642412, 643088, 644091)<br />
Beta vulgaris (643989)<br />
Beta vulgaris subsp. vulgaris (641927)<br />
Brassica juncea (643909)<br />
Brassica oleracea var. botrytis (642006, 642172)<br />
Brassica oleracea var. capitata (642011)<br />
Brassica rapa subsp. pekinensis (644006-644007)<br />
Bromus catharticus (644034)<br />
Bromus catharticus var. catharticus (642838)<br />
Bromus coloratus (642835, 642837, 642839, 642841-642842)<br />
Bromus hybrid (643141)<br />
Bromus inermis subsp. inermis (642844-642846)<br />
Bromus sp. (642833)<br />
Cajanus cajan (642783)<br />
Capsicum annuum (642166, 642455, 643122, 644093-644096)<br />
Capsicum baccatum var. umbilicatum (643124)<br />
Capsicum chinense (644037)<br />
Capsicum sp. (642955-642957)<br />
Catharanthus roseus (642802-642803)<br />
Centrosema pubescens (643886-643887)<br />
Chamaecrista fasciculata (641947, 643888-643894)<br />
Chamaecrista nictitans var. nictitans (643081)<br />
Chenopodium quinoa (643079)<br />
Cicer arietinum (641935-641936, 642413, 642852-642853, 643436-643437)<br />
Cicer hybrid (642748)<br />
Cichorium intybus (642320)<br />
Citrullus lanatus (642164-642165, 642369)<br />
Citrullus lanatus var. lanatus (641956)<br />
Clitoria ternatea (641948)<br />
295
Cucumis melo (642012)<br />
Cucurbita pepo (644097)<br />
Cynosurus cristatus (642806-642807)<br />
Dactylis glomerata (642370, 642808-642815, 642836)<br />
Daucus carota (642755-642761, 643114-643120)<br />
Deschampsia cespitosa (642843)<br />
Deschampsia flexuosa (642834)<br />
Desmanthus virgatus (643895-643896)<br />
Desmodium intortum (643897)<br />
Desmodium uncinatum (643898)<br />
Diascia hybrid (642805)<br />
Elymus canadensis (641962)<br />
Elymus elymoides (641963-641964)<br />
Elymus trachycaulus (643910)<br />
Eragrostis variabilis (642849)<br />
Erysimum hieraciifolium (642453-642454)<br />
Festuca arundinacea (642933, 643140)<br />
Festuca lemanii (642356)<br />
Festuca rubra (642002)<br />
Festuca rubra subsp. commutata (642449, 642456, 643134)<br />
Festuca rubra subsp. rubra (641951, 642357, 643979)<br />
Galium verum (64<strong>215</strong>2)<br />
Glycine max (641937-641938, 642013, 642055, 642167, 642318-642319,<br />
642324-642348, 642421-642422, 642458-642459, 642732, 642754, 642768,<br />
642935, 642958, 643146-643148, 643394-643395, 643911-643914,<br />
643976-643977, 644024-644025, 644042-644059, 644103)<br />
Gossypium hirsutum (641928-641930, 642007, 642049-642052, 642162-642163,<br />
642414, 642769, 643086, 643438-643444, 643915-643918, 643972,<br />
644039-644041, 644061-644063, 644074-644079)<br />
Helianthus annuus (642056-642084, 642702, 642770-642777)<br />
Hibiscus laevis (643083-643084)<br />
Hibiscus ponticus (643460)<br />
Hibiscus sabdariffa (643882)<br />
Hordeum vulgare subsp. vulgare (641939-641940, 642046, 642368, 642403,<br />
642786-642787, 642854-642855, 642887-642929, 643149-643167,<br />
643194-643393, 643445, 644031-644032, 644069-644070, 644104-644112)<br />
Ipomoea batatas var. batatas (641933-641934, 642847-642848)<br />
Ipomoea hildebrandtii (643125)<br />
Ipomoea indica (643990)<br />
Ipomoea lacunosa (643991)<br />
Krascheninnikovia ceratoides (642149)<br />
Lactuca sativa (642004, 642008, 642010, 642169-642170, 642314, 642374, 642953,<br />
643085, 643135, 643138, 643434, 643980, 643983-643985, 644033,<br />
644035-644036, 644064, 644073, 644098)<br />
Lagenaria siceraria (641946, 642039-642045)<br />
Lens culinaris subsp. culinaris (643448-643453)<br />
Lespedeza capitata (643080)<br />
Lespedeza daurica var. daurica (643899-643902)<br />
Lespedeza juncea (643903-643904)<br />
Lesquerella argyraea (641921, 643169, 643178)<br />
Lesquerella fendleri (641918-641920, 641922-641924, 642047-642048,<br />
643170-643171, 643176-643177, 643179)<br />
Lesquerella lasiocarpa (643172-643173)<br />
Lesquerella lindheimeri (643174)<br />
Lesquerella mexicana (643175)<br />
Lesquerella schaffneri (643180)<br />
Limnanthes alba subsp. alba (643187-643192)<br />
296
Limnanthes douglasii subsp. nivea (643182)<br />
Limnanthes douglasii subsp. rosea (643183-643186)<br />
Limnanthes sp. (643181, 643193)<br />
Linum usitatissimum (642375)<br />
Lobelia erinus (642801)<br />
Lolium multiflorum (642959, 644087)<br />
Lolium perenne (642377, 643422, 643432, 643986)<br />
Malus domestica (644150-644177, 644181-644183, 644185-644192)<br />
Malus hybrid (644149)<br />
Malus sieversii (644193-644217)<br />
Malus sp. (644178-644180, 644184)<br />
Marrubium vulgare (64<strong>215</strong>1)<br />
Medicago minima (642778)<br />
Medicago rigidula (642951)<br />
Medicago sativa (643396)<br />
Medicago sativa subsp. falcata (643446-643447)<br />
Muhlenbergia asperifolia (642401)<br />
Nicotiana tabacum (642317)<br />
Onobrychis alba subsp. laconica (642147)<br />
Onobrychis arenaria subsp. arenaria (64<strong>215</strong>0)<br />
Onobrychis petraea (642146)<br />
Oryza sativa (641931-641932, 642351-642352, 642749, 642943-642945,<br />
642962-642964, 643121, 643127-643131, 643397-643398, 644012-644015,<br />
644028-644029)<br />
Panicum virgatum (642190-642313, 642395)<br />
Phaseolus acutifolius (642116-642117)<br />
Phaseolus acutifolius var. tenuifolius (642140)<br />
Phaseolus lunatus (642132)<br />
Phaseolus polystachios subsp. sinuatus (642133)<br />
Phaseolus sp. (642093-642094)<br />
Phaseolus vulgaris (641958-641960, 642014-642019, 642027-642028,<br />
642085-642092, 642095-642115, 642118-642121, 642129-642131,<br />
642134-642139, 642141-642144, 642168, 642316, 642321, 642353-642354,<br />
642359-642360, 642402, 642423, 642447-642448, 642703, 642779, 642782,<br />
642857, 642940, 642946-642950, 643421, 643973, 644088-644089)<br />
Phaseolus vulgaris var. aborigineus (642122-642128)<br />
Physalis alkekengi (644005)<br />
Physalis pubescens (644008-644010)<br />
Pisum sativum (641957, 642173-642179, 642349, 642784-642785, 644092)<br />
Poa pratensis (642023, 642053, 642355, 642371-642372, 642457, 642934, 643431,<br />
644071, 644090)<br />
Pueraria sp. (643905)<br />
Ribes petraeum var. biebersteinii (642399)<br />
Ricinus communis (642000)<br />
Rubus bullatus (643955)<br />
Rubus caesius (643947, 643953)<br />
Rubus chamaemorus (643941)<br />
Rubus geoides (643940)<br />
Rubus hybrid (643942, 643945-643946, 643967, 643971)<br />
Rubus idaeus (643948-643952, 643957, 643959)<br />
Rubus ikenoensis (643943)<br />
Rubus inermis (643968)<br />
Rubus irenaeus (643938)<br />
Rubus lambertianus (643936)<br />
Rubus lambertianus var. glaber (643960)<br />
Rubus mesogaeus (643958)<br />
Rubus nubigenus (643969)<br />
297
Rubus parvifolius (643937, 643939)<br />
Rubus riograndis (643944)<br />
Rubus sachalinensis (643956)<br />
Rubus sp. (643954, 643970)<br />
Rubus spectabilis (643961, 643965-643966)<br />
Rubus trivialis (643962-643964)<br />
Saccharum sp. (64<strong>215</strong>6)<br />
Sambucus cerulea (642400)<br />
Sanguisorba minor (644023)<br />
Schizachyrium scoparium (642388, 642397)<br />
Secale cereale (643433)<br />
Senna alexandrina (642024)<br />
Senna marilandica (642404, 643082)<br />
Sesamum indicum (643458-643459)<br />
Setaria italica subsp. italica (642744-642747)<br />
Solanum dulcamara (643457)<br />
Solanum jamesii (641941-641944)<br />
Solanum lycopersicum (642001, 644019, 644022)<br />
Solanum scabrum (643126)<br />
Solanum stenotomum (642442)<br />
Solanum stoloniferum (643992-644004)<br />
Solanum tuberosum (642180-642189, 642429-642437, 642445, 644018)<br />
Solanum tuberosum subsp. andigenum (642438-642441, 642443-642444, 642446)<br />
Sorghastrum nutans (642387, 642396)<br />
Sorghum bicolor subsp. bicolor (642390-642394, 642788-642793, 642870-642886,<br />
642930-642932, 642968-643035, 643097-643113, 643461-643881,<br />
643919-643934)<br />
Spinacia oleracea (642322-642323)<br />
Teramnus labialis (641949, 643906)<br />
Thymus sp. (642148)<br />
Tricyrtis latifolia (643883)<br />
Tricyrtis macropoda (643884)<br />
Trifolium ambiguum (643168)<br />
Trifolium squarrosum (643907-643908)<br />
Triticum aestivum subsp. aestivum (641952, 641961, 642171, 642315,<br />
642361-642367, 642376, 642378-642386, 642405-642411, 642415-642417,<br />
642780-642781, 642794, 642799-642800, 642856, 642936-642939, 642952,<br />
642965-642967, 643087, 643089-643096, 643133, 643139, 643142-643143,<br />
643399-643419, 643423, 643425-643430, 643935, 643978, 643981-643982,<br />
644016-644017, 644020-644021, 644066-644068, 644072, 644080-644086,<br />
644113-644148)<br />
Triticum aestivum subsp. compactum (643435)<br />
Triticum turgidum subsp. durum (642020-642022, 642373, 644065)<br />
Urochloa hybrid (644030)<br />
Vernonia galamensis var. galamensis (642418-642420)<br />
Vicia sativa (643132)<br />
Vigna unguiculata subsp. unguiculata (64<strong>215</strong>7-642161, 644038)<br />
X Triticosecale sp. (642003, 643454-643456, 643974-643975, 643987-643988)<br />
Zea mays subsp. mays (641953-641955, 642029-642038, 642424-642428,<br />
642704-642731, 642750-642753, 642762-642767, 642795-642798,<br />
642858-642869, 642941-642942, 642954, 642960-642961, 643420,<br />
644026-644027, 644060, 644099-644102)<br />
298