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Your query included: All accessions taxonomy genus name like Gossypium

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ACCESSIONPLANT NAMETAXONOMYORIGINGENEBANKIMAGEAVAILABILITYRECEIVEDSOURCE TYPESOURCE DATECOLLECTION SITECOORDINATESELEVATIONHABITATIMPROVEMENT LEVELNARRATIVE
0PI 698460MS-RIL-009Gossypium hirsutum L. Mississippi, United StatesNLGRPNot Available2021DEVELOPEDBreeding materialThe genetic base for cotton fiber properties of strength and length is narrow. MS-RIL-009 is a recombinant inbred line of cotton with fiber properties of 379 KN m per kg strength, 30.19 mm length, 5.93 % elongation, 4.82 micronaire, 6.29% short fiber content, 86.0% maturity, 4.71 g boll weight, and 38.30% lint. It may be used as a parent in crosses to develop cultivars with greater fiber strength.2115815PI 698460
1PI 698461MS-RIL-037Gossypium hirsutum L. Mississippi, United StatesNLGRPNot Available2021DEVELOPEDBreeding materialThe genetic base for cotton fiber properties of strength and length is narrow. MS-RIL-037is a recombinant inbred line of cotton with fiber properties of 364 KN m per kg strength, 31.37mm length, 5.98 % elongation, 3.99 micronaire, 6.46% short fiber content, 85.9% maturity, 4.62 g boll weight, and 35.18% lint. It may be used as a parent in crosses to develop cultivars with greater fiber strength and length.2115816PI 698461
2PI 698462MS-RIL-204Gossypium hirsutum L. Mississippi, United StatesNLGRPNot Available2021DEVELOPEDBreeding materialThe genetic base for cotton fiber properties of strength and length is narrow. MS-RIL-204 is a recombinant inbred line of cotton with fiber properties of 333.3 KN m per kg strength, 32.16 mm length, 6.84 % elongation, 4.49 micronaire, 5.93% short fiber content, 85.8% maturity, 5.21 g boll weight, and 31.98% lint. It may be used as a parent in crosses to develop cultivars with greater fiber length.2115817PI 698462
3PI 698463MS-RIL-219Gossypium hirsutum L. Mississippi, United StatesNLGRPNot Available2021DEVELOPEDBreeding materialThe genetic base for cotton fiber properties of strength and length is narrow. MS-RIL-219 is a recombinant inbred line of cotton with fiber properties of 340.6 KN m per kg strength, 32.165mm length, 6.54 % elongation, 4.14 micronaire, 6.12% short fiber content, 85.6% maturity, 5.84 g boll weight, and 36.11% lint. It may be used as a parent in crosses to develop cultivars with greater fiber strength and length.2115818PI 698463
4PI 698464MS-RIL-282Gossypium hirsutum L. Mississippi, United StatesNLGRPNot Available2021DEVELOPEDBreeding materialThe genetic base for cotton fiber properties of strength and length is narrow. MS-RIL-282 is a recombinant inbred line of cotton with fiber properties of 294.4 KN m per kg strength, 31.63 mm length, 7.18 % elongation, 4.12 micronaire, 6.92% short fiber content, 83.9 % maturity, 4.76 g boll weight, and 35.84% lint. It may be used as a parent in crosses to develop cultivars with greater fiber length.2115819PI 698464
5PI 698465MS-RIL-303Gossypium hirsutum L. Mississippi, United StatesNLGRPNot Available2021DEVELOPEDBreeding materialThe genetic base for cotton fiber properties of strength and length is narrow. MS-RIL-303 is a recombinant inbred line of cotton with fiber properties of 369.2 KN m per kg strength, 31.11 mm length, 7.19 % elongation, 4.72 micronaire, 6.57% short fiber content, 85.1 % maturity, 5.64 g boll weight, and 38.57 % lint. It may be used as a parent in crosses to develop cultivars with greater fiber strength and length.2115820PI 698465
6PI 698466'MS-RIL-490'Gossypium hirsutum L. Mississippi, United StatesNLGRPNot Available2021DEVELOPEDBreeding materialThe genetic base for cotton fiber properties of strength and length is narrow. MS-RIL-490 is a recombinant inbred line of cotton with fiber properties of 315.2 KN m per kg strength, 32.95 mm length, 6.63 % elongation, 4.15 micronaire, 5.91 % short fiber content, 85.1 % maturity, 5.31 g boll weight, and 35.27 % lint. It may be used as a parent in crosses to develop cultivars with greater fiber length.2115821PI 698466
7PI 698207'16R042'Gossypium hirsutum L. Iowa, United StatesPVPONot Available2021DEVELOPEDCultivar2113474PI 698207
8PI 698208'20R040'Gossypium hirsutum L. Iowa, United StatesPVPONot Available2021DEVELOPEDCultivar2113475PI 698208
9PI 698209'20R054'Gossypium hirsutum L. Iowa, United StatesPVPONot Available2021DEVELOPEDCultivar2113476PI 698209
10PI 698210'20R036'Gossypium hirsutum L. Iowa, United StatesPVPONot Available2021DEVELOPEDCultivar2113477PI 698210
11PI 698211'20R028'Gossypium hirsutum L. Iowa, United StatesPVPONot Available2021DEVELOPEDCultivar2113478PI 698211
12PI 698212'20R010'Gossypium hirsutum L. Iowa, United StatesPVPONot Available2021DEVELOPEDCultivar2113479PI 698212
13PI 698213'20R045'Gossypium hirsutum L. Iowa, United StatesPVPONot Available2021DEVELOPEDCultivar2113480PI 698213
14PI 698214'20R027'Gossypium hirsutum L. Iowa, United StatesPVPONot Available2021DEVELOPEDCultivar2113481PI 698214
15PI 698215'20R035'Gossypium hirsutum L. Iowa, United StatesPVPONot Available2021DEVELOPEDCultivar2113482PI 698215
16PI 698216'20R032'Gossypium hirsutum L. Iowa, United StatesPVPONot Available2021DEVELOPEDCultivar2113483PI 698216
17PI 698217'20R033'Gossypium hirsutum L. Iowa, United StatesPVPONot Available2021DEVELOPEDCultivar2113484PI 698217
18PI 698218'20R013'Gossypium hirsutum L. Iowa, United StatesPVPONot Available2021DEVELOPEDCultivar2113485PI 698218
19PI 698219'20R030'Gossypium hirsutum L. Iowa, United StatesPVPONot Available2021DEVELOPEDCultivar2113486PI 698219
20PI 698220'May 455'Gossypium hirsutum L. Texas, United StatesPVPONot Available2021DEVELOPEDCultivar2113487PI 698220
21PI 698221'May 505'Gossypium hirsutum L. Texas, United StatesPVPONot Available2021DEVELOPEDCultivar2113488PI 698221
22PI 698113'11PVVV09'Gossypium hirsutum L. Indiana, United StatesPVPONot Available2021DEVELOPEDGenetically Engineered2113362PI 698113
23PI 698114'11PNQF08'Gossypium hirsutum L. Indiana, United StatesPVPONot Available2021DEVELOPEDGenetically Engineered2113363PI 698114
24PI 698109TAM KJ-Q14 ESUGossypium hirsutum L. Texas, United StatesNLGRPNot Available2021DEVELOPEDBreeding materialTAM KJ-Q14 ESU combines excellent fiber length with fiber bundle strength exceeding 370 kN m per kg under irrigated culture and 365 kN m per kg under dryland culture across multiple performance trials. TAM KJ-Q14 ESU was selected for its combination of fiber bundle strength with HVI upper half mean length averaging 33 mm across multiple performance trials. TAM KJ-Q14 ESU averaged 384 kN m per kg fiber bundle strength and 34 mm upper half mean length across nine sites in the 2018 USDA ARS Regional High Quality trial. TAM KJ-Q14 ESU produced yarn with greater tenacity and equivalent appearance quality when spun on either ring or vortex spinning platforms compared with Acala 1517-08 and Tamcot 73.2113358PI 698109
25PI 698110TAM 12 J-39 ESUGossypium hirsutum L. Texas, United StatesNLGRPNot Available2021DEVELOPEDBreeding materialTAM 12 J-39 ESU combines competitive yield potential with fiber strength exceeding 350 kN m per kg. TAM 12J-39 ESU was evaluated in both the USDA-ARS RHQ in 2017 and the RBTN uniform trials in 2018 and 2019. In the 2017 Regional High Quality trials, TAM 12J-39 ESU was not different in lint yield than 13 of the 19 entries and was lower (p=0.05) yielding than only one of the commercial controls. Lint percent at 37.9 was lower than DP 1646 B2XF but was not different than PHY 764 WRF. TAM 12J-39 ESU averaged greater (p=0.05) fiber bundle strength than PHY 746 WRF and DP 1646 B2XF and TAM BB-2139 ELSU. In the 2018 RBTN national nurseries, TAM 12J-39 ESU yielded equivalent (p=0.05) to FM 958, DP 393, UA 222, and DP 493. TAM 12J-39 ESU averaged 365 kN m per kg across the multiple locations of these national nurseries and exceeded all commercial controls. All other HVI fiber properties were similar to commercial controls.2113359PI 698110
26PI 697030Arkot 0822Gossypium hirsutum L. Arkansas, United StatesNLGRPNot Available2021DEVELOPEDBreeding materialArkot 0822 is a conventional cotton germplasm line with morphological traits similar to 'UA248' (developed from same cross), 'DP 393' and 'UA48' (check cultivars), except Arkot 0822 has lower trichome density on abaxial leaves and on bract margins than the cultivars. Data from replicated field tests at four sites in Arkansas over six years indicated that lint yields of Arkot 0822 were equal to UA248 and exceeded lint yields of DP393 and UA48 at each location, except equal yields with DP 393 at Judd Hill. Over all locations, lint yields of Arkot 0822 were 7. 7 and 15.9% greater than DP 393 and UA48, respectively. Soils at all sites are silt loams, except the Sharkey clay at Keiser. Compared to UA248, Arkot 0822 produced higher lint index (8.2 vs. 7.7 g), seed index (11.8 vs. 11.3 g), fiber micronaire (4.91 vs. 4.54), and fiber elongation (7.0 vs. 6.5%); equal open boll percentage (56 vs. 56%), stem pubescence (5.6 vs. 5.5 rating), marginal bract trichome density (24.7 vs. 26.4 trichomes cm-1), lint fraction (40.5 vs. 40.1 %), seed ha-1 (15983 x 1000 vs 16312 x 1000), fibers per seed (15686 vs. 15816), fiber length (31.8 vs. 32.0 mm), fiber uniformity index (85.7 vs. 85.6%), and fiber strength (320 vs. 323 kN m kg-1); and lower plant height (98 vs. 103 cm), leaf pubescence rating (2.0 vs 3.5), fiber density (134 vs 144 fibers mm-2 of seed coat), and quality score (63 vs. 73). Arkot 0822 is resistance to all U.S. races of Xanthomonas citri ssp. malvacearum (ex Smith 1901) Schaad et al. 2007, the causal agent of bacterial blight. Damaged flowers for Arkot 0822 (62%) was lower than UA48 (66%) and equal to DP 393 (60%) and UA248 (63%) in tests of resistance to tarnished plant bug [Lygus lineolaris (Palisot de Beauvais)]. As indicated by lint yield at Judd Hill location (site of high Verticillium wilt), response of Arkot 0822 to Verticillium wilt [caused by Verticillium dahliae Kleb] was equal to UA248 and more tolerant than DP 393 and UA48. 2112245PI 697030
27PI 697031Arkot 0912-41Gossypium hirsutum L. Arkansas, United StatesNLGRPNot Available2021DEVELOPEDBreeding materialArkot 0912-41 is a conventional cotton germplasm line with morphological traits similar to 'UA222' and 'UA48' (check cultivars), except Arkot 0912-41 has higher trichome density on abaxial leaves, stems and bract margins than UA222 and UA48. Lint yields of Arkot 0912-41 from replicated field tests at four sites in Arkansas over five years exceeded lint yields of UA222 and UA48 at each location (except equal yields with UA222 at Rohwer). Over all locations, lint yields of Arkot 0912-41 were 12.9 and 23.3% greater than UA222 and UA48, respectively. Soils at all sites are silt loams, except the Sharkey clay at Keiser. Compared to UA222, Arkot 0912-41 produced higher lint fraction (41.0 vs. 40.2%), lint index (8.3 vs. 7. 7 g), seed index (11.6 vs. 11.1 g), plant height (103 vs. 100 cm), leaf pubescence rating (5.0 vs. 4.1 ), stem pubescence (6.2 vs. 5.6 rating), marginal bract trichome density (41.1 vs. 35.5 trichomes cm-1 ), fiber micronaire (4.64 vs. 4.54), fiber length (31.8 vs. 31.2 mm), fiber uniformity index (86.5 vs. 85.6%), and fiber strength (336 vs. 323 kN m kg-1 ); equal seed ha-1 (15919 x 1000 vs 15270 x 1000), fibers per seed (16574 vs. 16224), fiber density (148 vs. 149 fibers mm-2 of seed coat), open boll percentage (54 vs. 50%), quality score (62 vs. 56), and fiber elongation (6.6 vs. 6.3%); and lower short fiber content (6.3 vs. 6.7%). Arkot 0912-41 is resistance to all U.S. races of Xanthomonas citri ssp. malvacearum (ex Smith 1901) Schaad et al. 2007, the causal agent of bacterial blight. Damaged flowers for Arkot 0912-41 (51%) was lower than UA48 (55%) and susceptible check (74%) but higher than UA222 (42%) in tests of resistance to tarnished plant bug [Lygus lineolaris (Palisot de Beauvais)]. Lint yields at Judd Hill location suggest that Arkot 0912-41 is more tolerant to Verticillium wilt [caused by Verticillium dahliae Kleb] than UA222 and UA48, but it expressed more leaf symptoms than either check cultivar.2112246PI 697031
28PI 697032Arkot 0912-18Gossypium hirsutum L. Arkansas, United StatesNLGRPNot Available2021DEVELOPEDBreeding materialArkot 0912-18 is a conventional cotton germplasm line with morphological traits similar to 'UA222' and 'UA48' (check cultivars), except Arkot 0912-18 has higher trichome density on abaxial leaves, stems and bract margins than UA222 and UA48. Lint yields of Arkot 0912-18 from replicated field tests at four sites in Arkansas over five years exceeded lint yields of UA222 and UA48 at each location. Over all locations, lint yields of Arkot 0912-18 were 13.8 and 24.3% greater than UA222 and UA48, respectively. Soils at all sites are silt loams, except the Sharkey clay at Keiser. Compared to UA222, Arkot 0912-18 produced higher lint fraction (40.8 vs. 40.2%), seed ha-1 (16635 x 1000 vs 15270 x 1000), lint index (7.9 vs. 7.7 g), plant height (105 vs. 100 cm), leaf pubescence rating (5.5 vs. 4.1 ), stem pubescence (6.3 vs. 5.6 rating), marginal bract trichome density (39.9 vs. 35.5 trichomes cm-1), fiber micronaire (4.68 vs. 4.54), fiber uniformity index (86.6 vs. 85.6%), fiber strength (340 vs. 323 kN m kg-1 ), and fiber elongation (7 .0 vs. 6.3% ); equal seed index (11.2 vs. 11.1 g), fiber density (146 vs. 149 fibers mm-2 of seed coat), open boll percentage (53 vs. 50%), quality score (58 vs. 56), and fiber length (31.5 vs. 31.2 mm); and lower fibers per seed (15940 vs. 16224) and short fiber content(6.0 vs. 6.7%). Arkot 0912-18 is resistance to all U.S. races of Xanthomonas citri ssp. malvacearum (ex Smith 1901) Schaad et al. 2007, the causal agent of bacterial blight. Damaged flowers for Arkot 0912-18 (50%) was lower than UA48 (55%) and susceptible check (74%) but higher than UA222 (42%) in tests of resistance to tarnished plant bug [Lygus lineolaris (Palisot de Beauvais)]. Lint yields at Judd Hill location (site of high Verticillium wilt) suggest that Arkot 0912-18 is more tolerant to Verticillium wilt [caused by Verticillium dahliae Kleb] than UA222 and UA48, but it expressed more Verticillium wilt leaf symptoms than either check cultivar. 2112247PI 697032
29PI 697033Arkot 0908-60Gossypium hirsutum L. Arkansas, United StatesNLGRPNot Available2021DEVELOPEDBreeding materialArkot 0908-60 is a conventional cotton germplasm line with morphological traits similar to 'UA222' and 'UA48' (check cultivars), except Arkot 0908-60 has lower trichome density on abaxial leaves than UA222, lower stem pubescence density than UA222 or UA48, and higher density on bract margins than UA48. Lint yields of Arkot 0908-60 from replicated field tests at four sites in Arkansas over five years exceeded lint yields of UA222 and UA48 at each location. Over all locations, lint yields of Arkot 0908-60 were 16.6 and 27.3% greater than UA222 and UA48, respectively. Soils at all sites are silt loams, except the Sharkey clay at Keiser. Compared to UA222, Arkot 0908-60 produced higher lint fraction (41.9 vs. 40.2%), seed ha-1 (17878 x 1000 vs. 15270 x 1000), plant height (106 vs. 100 cm), fiber micronaire (4.83 vs. 4.54), and short fiber content (7.0 vs. 6.7%); equal open boll percentage (52 vs. 50%), lint index (7.6 vs. 7.7 fiber density (145 vs. 149 fibers mm-2 of seed coat), marginal bract trichome density (34.5 vs. 35.5 trichomes cm-1 ), quality score (54 vs. 56), fiber length (31.5 vs. 31.2 mm, fiber uniformity index (85.4 vs. 85.6%), fiber strength (317 vs. 323 kN m kg-1 ), fiber elongation (5.8 vs. 6.3%), and lower seed index (10.2 vs. 11.1 g), fibers per seed (14876 vs. 16224), leaf pubescence rating (2.5 vs. 4.1 ), and stem pubescence (4.8 vs. 5.6 rating. Arkot 0908-60 is resistance to all U.S. races of Xanthomonas citri ssp. malvacearum (ex Smith 1901) Schaad et al. 2007, the causal agent of bacterial blight. Damaged flowers for Arkot 0908-60 (50%) was lower than UA48 (55%) and susceptible check (74%) but higher than UA222 (42%) in tests of resistance to tarnished plant bug [Lygus lineolaris (Palisot de Beauvais)]. Lint yields at site of high Verticillium wilt suggest that Arkot 0912-60 is more tolerant to Verticillium wilt than UA222 and UA48, but its Verticillium wilt leaf symptoms were equal to both check cultivars. 2112248PI 697033
30PI 697034Arkot 0908-56Gossypium hirsutum L. Arkansas, United StatesNLGRPNot Available2021DEVELOPEDBreeding materialArkot 0908-56 is a conventional cotton germplasm line with morphological traits similar to 'UA222' and 'UA48' (check cultivars), except Arkot 0908-56 has higher trichome density on abaxial leaves and on bract margins than either cultivar, and lower density on stems than UA222. Lint yields of Arkot 0908-56 from replicated field tests at four sites in Arkansas over five years exceeded lint yields of UA222 and UA48 at each location. Over all locations, lint yields of Arkot 0908-56 were 14.1 and 24.6% greater than UA222 and UA48, respectively. Soils at all sites are silt loams, except the Sharkey clay at Keiser. Compared to UA222, Arkot 0908-56 produced higher lint fraction (42.8 vs. 40.2%), seed ha-1 (16737 x 1000 vs 15270 x 1000), lint index (7.9 vs. 7.7 g), plant height (108 vs. 100 cm), leaf pubescence rating (5.4 vs. 4.1), marginal bract trichome density (41.8 vs. 35.5 trichomes cm-1 ), fiber micronaire (4.74 vs. 4.54), fiber length (31.8 vs. 31.2 mm); equal open boll percentage (56 vs. 50%), fiber density (150 vs. 149 fibers mm-2 of seed coat), quality score (62 vs. 56), fiber uniformity index (86.0 vs. 85.6%), fiber strength (320 vs. 323 kN m kg-1 ); and lower stem pubescence (5.1 vs. 5.6 rating), seed index (10.3 vs. 11.1 g), fibers per seed (15589 vs. 16224), fiber elongation (5.7 vs. 6.3%), and short fiber content (6.5 vs. 6.7%). Arkot 0908-56 is resistance to all U.S. races of Xanthomonas citri ssp. malvacearum (ex Smith 1901) Schaad et al. 2007, the causal agent of bacterial blight. Damaged flowers for Arkot 0908-56 (50%) was lower than UA48 (55%) and susceptible check (74%) but higher than UA222 (42%) in tests of resistance to tarnished plant bug [Lygus lineolaris (Palisot de Beauvais)]. Lint yields at site of high Verticillium wilt suggest that Arkot 0908-56 is more tolerant to Verticillium wilt than UA222 and UA48, but it expressed more Verticillium wilt leaf symptoms than either check cultivar. 2112249PI 697034
31PI 697035Arkot 0908-52Gossypium hirsutum L. Arkansas, United StatesNLGRPNot Available2021DEVELOPEDBreeding materialArkot 0908-52 is a conventional cotton germplasm line with morphological traits similar to 'UA222' and 'UA48' (check cultivars), except Arkot 0908-52 has lower trichome density on abaxial leaves than UA222 and higher density on bract margins than UA48. Lint yields of Arkot 0908-52 from replicated field tests at four sites in Arkansas over five years exceeded lint yields of UA222 and UA48 at each location, except equal yields with UA222 at Rohwer. Over all locations, lint yields of Arkot 0908-52 were 13.9 and 24.3% greater than UA222 and UA48, respectively. Soils at all sites are silt loams, except the Sharkey clay at Keiser. Compared to UA222, Arkot 0908-52 produced higher lint fraction (42.3 vs. 40.2%), seed ha-1 (17100 x 1000 vs 15270 x 1000), plant height (106 vs. 100 cm), quality score (67 vs. 56), fiber length (32.3 vs. 31.2 mm), and short fiber content (6.9 vs. 6.7%) ; equal lint index (7.7 vs. 7.7 g), fiber density (152 vs. 149 fibers mm-2 of seed coat), open boll percentage (51 vs. 50%), stem pubescence (5.6 vs. 5.6 rating), marginal bract trichome density (34.9 vs. 35.5 trichomes cm-1 ), fiber micronaire (4.57 vs. 4.54), and fiber uniformity index (85.6 vs. 85.6%); and lower seed index (10.3 vs. 11.1 g), fibers per seed (15686 vs. 16224 ), leaf pubescence rating (2.0 vs. 4.1 ), fiber strength (307 vs. 323 kN m kg-1 ), and fiber elongation (5.3 vs. 6.3%). Arkot 0908-52 is resistance to all U.S. races of Xanthomonas citri ssp. malvacearum (ex Smith 1901) Schaad et al. 2007, the causal agent of bacterial blight. Damaged flowers for Arkot 0908-52 (58%) was lower than the susceptible check (74%), equal to UA48 (55%) but higher than UA222 (42%) in tests of resistance to tarnished plant bug [Lygus lineolaris (Palisot de Beauvais)]. Lint yields at site of high Verticillium wilt suggest that Arkot 0908-52 is more tolerant to Verticillium wilt than UA222 and UA48, but its Verticillium wilt leaf symptoms were equal to both check cultivars. 2112250PI 697035
32PI 697272NC18-05Gossypium hirsutum L. North Carolina, United StatesCOTNot Available2021DEVELOPEDBreeding materialNC18-05 resulted from a random mating population using multiple parents. Twelve cotton cultivars each with uniquely improved fiber quality and/or yield representing major cotton breeding programs of the United States were crossed with each other in a half diallele to produce the F1s. Equal amount of F1 hybrid seed from each of the 66 F1 hybrid combinations was mixed for planting in rows. The F1 hybrids and the progenies of the subsequent generations were randomly mated using natural outcrossing. Lines chosen for parents were: ‘Acala Ultima’ (A_Ultima, PI 603079), developed by California Planting Cotton Seed Distributors (Shafter, CA); ‘Coker315, PI 529530’, developed by Coker Pedigreed Seed Co. (Hartsville, SC); ‘Tamcot Pyramid’ (Pyramid, PI 617042), developed in the Texas Agriculture Experiment Station (Thaxton and El-Zik 2004); ‘Stoneville 825’ (STV825, PI 529524), developed by Stoneville Pedigreed Seed Co. (Stoneville, MS); ‘FiberMax 966’ (FM966, PI 619097), an Upland commercial cotton developed by Bayer Crop Science (Lubbock, TX); M-240RNR (M-240, PI 592511), a root knot nematode resistant line developed by the ARS (Shepherd et al., 1996); ‘Deltapine Acala 90’ (DP90, PI 529529), developed by Delta and Pine Land Co. (Scott, MS); ‘Sure-Grow 747’ (SG747, PI 656375), an Upland commercial cultivar developed by Sure-Grow Co. (Centre, AL); ‘Georgia King’ (GA_King, PI 552537) was developed and released by the University of Georgia (Baker, 1992); ‘Phytogen PSC 355’ (PSC355, PI 612974), ‘Stoneville 474’ (STV474, PI 578877), developed by Stoneville Pedigreed Seeds; and TM-1 (Texas Marker-1, PI 662944). Individual plants obtained after the fourth intermating cycle were self-pollinated in the field. About 700 F4 lines were grown for obtaining F4:5 lines in 2009. These F4:5 lines were planted in field for seed increase through self pollination in the summer of 2010. Released germplasm lines are selections from the F6 inbred lines. 2112507PI 697272
33PI 697273NC18-06Gossypium hirsutum L. North Carolina, United StatesCOTNot Available2021DEVELOPEDBreeding materialNC18-06 resulted from a random mating population using multiple parents. Twelve cotton cultivars each with uniquely improved fiber quality and/or yield representing major cotton breeding programs of the United States were crossed with each other in a half diallele to produce the F1s. Equal amount of F1 hybrid seed from each of the 66 F1 hybrid combinations was mixed for planting in rows. The F1 hybrids and the progenies of the subsequent generations were randomly mated using natural outcrossing. Lines chosen for parents were: ‘Acala Ultima’ (A_Ultima, PI 603079), developed by California Planting Cotton Seed Distributors (Shafter, CA); ‘Coker315, PI 529530’, developed by Coker Pedigreed Seed Co. (Hartsville, SC); ‘Tamcot Pyramid’ (Pyramid, PI 617042), developed in the Texas Agriculture Experiment Station (Thaxton and El-Zik 2004); ‘Stoneville 825’ (STV825, PI 529524), developed by Stoneville Pedigreed Seed Co. (Stoneville, MS); ‘FiberMax 966’ (FM966, PI 619097), an Upland commercial cotton developed by Bayer Crop Science (Lubbock, TX); M-240RNR (M-240, PI 592511), a root knot nematode resistant line developed by the ARS (Shepherd et al., 1996); ‘Deltapine Acala 90’ (DP90, PI 529529), developed by Delta and Pine Land Co. (Scott, MS); ‘Sure-Grow 747’ (SG747, PI 656375), an Upland commercial cultivar developed by Sure-Grow Co. (Centre, AL); ‘Georgia King’ (GA_King, PI 552537) was developed and released by the University of Georgia (Baker, 1992); ‘Phytogen PSC 355’ (PSC355, PI 612974), ‘Stoneville 474’ (STV474, PI 578877), developed by Stoneville Pedigreed Seeds; and TM-1 (Texas Marker-1, PI 662944). Individual plants obtained after the fourth intermating cycle were self-pollinated in the field. About 700 F4 lines were grown for obtaining F4:5 lines in 2009. These F4:5 lines were planted in field for seed increase through self pollination in the summer of 2010. Released germplasm lines are selections from the F6 inbred lines. 2112508PI 697273
34PI 694816SA 3445Gossypium hirsutum L. COT20202107312PI 694816
35PI 694815SA 3444Gossypium hirsutum L. COT20202107311PI 694815
36PI 694814SA 3443Gossypium hirsutum L. COT20202107310PI 694814
37PI 694813SA 3442Gossypium hirsutum L. COT20202107309PI 694813
38PI 694811SA 3440Gossypium hirsutum L. COT20202107307PI 694811
39PI 694812SA 3441Gossypium hirsutum L. COT20202107308PI 694812
40PI 694810SA 3439Gossypium hirsutum L. COT20202107306PI 694810
41PI 694809SA 3438Gossypium hirsutum L. COT20202107305PI 694809
42PI 694808SA 3437Gossypium hirsutum L. COT20202107304PI 694808
43PI 694807SA 3436Gossypium hirsutum L. COT20202107303PI 694807
44PI 694806SA 3435Gossypium hirsutum L. COT20202107302PI 694806
45PI 694805SA 3434Gossypium hirsutum L. COT20202107301PI 694805
46PI 694804SA 3433Gossypium hirsutum L. COT20202107300PI 694804
47PI 694803SA 3432Gossypium hirsutum L. COT20202107299PI 694803
48PI 694801SA 3430Gossypium hirsutum L. COT20202107297PI 694801
49PI 694802SA 3431Gossypium hirsutum L. COT20202107298PI 694802
50PI 694800SA 3429Gossypium hirsutum L. COT20202107296PI 694800
51PI 694799SA 3428Gossypium hirsutum L. COT20202107295PI 694799
52PI 694798SA 3427Gossypium hirsutum L. COT20202107294PI 694798
53PI 694797SA 3426Gossypium hirsutum L. COT20202107293PI 694797
54PI 694796SA 3425Gossypium hirsutum L. COT20202107292PI 694796
55PI 694795SA 3424Gossypium hirsutum L. COT20202107291PI 694795
56PI 694794SA 3423Gossypium hirsutum L. COT20202107290PI 694794
57PI 694793SA 3422Gossypium hirsutum L. COT20202107289PI 694793
58PI 694792SA 3421Gossypium hirsutum L. COT20202107288PI 694792
59PI 694790SA 3419Gossypium hirsutum L. COT20202107286PI 694790
60PI 694791SA 3420Gossypium hirsutum L. COT20202107287PI 694791
61PI 694789SA 3418Gossypium hirsutum L. COT20202107285PI 694789
62PI 694788SA 3417Gossypium hirsutum L. COT20202107284PI 694788
63PI 694787SA 3416Gossypium hirsutum L. COT20202107283PI 694787
64PI 694786SA 3415Gossypium hirsutum L. COT20202107282PI 694786
65PI 694784SA 3413Gossypium hirsutum L. COT20202107280PI 694784
66PI 694785SA 3414Gossypium hirsutum L. COT20202107281PI 694785
67PI 694783SA 3412Gossypium hirsutum L. COT20202107279PI 694783
68PI 694782SA 3411Gossypium hirsutum L. COT20202107278PI 694782
69PI 694781SA 3410Gossypium hirsutum L. COT20202107277PI 694781
70PI 694780SA 3409Gossypium hirsutum L. COT20202107276PI 694780
71PI 694779SA 3408Gossypium hirsutum L. COT20202107275PI 694779
72PI 694778SA 3407Gossypium hirsutum L. COT20202107274PI 694778
73PI 694777SA 3406Gossypium hirsutum L. COT20202107273PI 694777
74PI 694776SA 3405Gossypium hirsutum L. COT20202107272PI 694776
75PI 694775SA 3404Gossypium hirsutum L. COT20202107271PI 694775
76PI 694774SA 3403Gossypium hirsutum L. COT20202107270PI 694774
77PI 694773SA 3402Gossypium hirsutum L. COT20202107269PI 694773
78PI 694772SA 3401Gossypium hirsutum L. COT20202107268PI 694772
79PI 694771SA 3400Gossypium hirsutum L. COT20202107267PI 694771
80PI 694770SA 3399Gossypium hirsutum L. COT20202107266PI 694770
81PI 694768SA 3397Gossypium hirsutum L. COT20202107264PI 694768
82PI 694769SA 3398Gossypium hirsutum L. COT20202107265PI 694769
83PI 694767SA 3396Gossypium hirsutum L. COT20202107263PI 694767
84PI 694766SA 3395Gossypium hirsutum L. COT20202107262PI 694766
85PI 694765SA 3394Gossypium hirsutum L. COT20202107261PI 694765
86PI 694764SA 3393Gossypium hirsutum L. COT20202107260PI 694764
87PI 694762SA 3391Gossypium hirsutum L. COT20202107258PI 694762
88PI 694763SA 3392Gossypium hirsutum L. COT20202107259PI 694763
89PI 694761SA 3390Gossypium hirsutum L. COT20202107257PI 694761
90PI 694760SA 3389Gossypium hirsutum L. COT20202107256PI 694760
91PI 694759SA 3388Gossypium hirsutum L. COT20202107255PI 694759
92PI 694757SA 3386Gossypium hirsutum L. COT20202107253PI 694757
93PI 694758SA 3387Gossypium hirsutum L. COT20202107254PI 694758
94PI 694756SA 3385Gossypium hirsutum L. COT20202107252PI 694756
95PI 694755SA 3384Gossypium hirsutum L. COT20202107251PI 694755
96PI 694754SA 3383Gossypium hirsutum L. COT20202107250PI 694754
97PI 694753SA 3382Gossypium hirsutum L. COT20202107249PI 694753
98PI 694752SA 3381Gossypium hirsutum L. COT20202107248PI 694752
99PI 694751SA 3380Gossypium hirsutum L. COT20202107247PI 694751
100PI 694749SA 3378Gossypium hirsutum L. COT20202107245PI 694749
101PI 694750SA 3379Gossypium hirsutum L. COT20202107246PI 694750
102PI 694748SA 3377Gossypium hirsutum L. COT20202107244PI 694748
103PI 694747SA 3376Gossypium hirsutum L. COT20202107243PI 694747
104PI 694746SA 3375Gossypium hirsutum L. COT20202107242PI 694746
105PI 694745SA 3374Gossypium hirsutum L. COT20202107241PI 694745
106PI 694743SA 3372Gossypium hirsutum L. COT20202107239PI 694743
107PI 694744SA 3373Gossypium hirsutum L. COT20202107240PI 694744
108PI 694742SA 3371Gossypium hirsutum L. COT20202107238PI 694742
109PI 694741SA 3370Gossypium hirsutum L. COT20202107237PI 694741
110PI 694740SA 3369Gossypium hirsutum L. COT20202107236PI 694740
111PI 694739SA 3368Gossypium hirsutum L. COT20202107235PI 694739
112PI 694738SA 3367Gossypium hirsutum L. COT20202107234PI 694738
113PI 694737SA 3366Gossypium hirsutum L. COT20202107233PI 694737
114PI 694736SA 3365Gossypium hirsutum L. COT20202107232PI 694736
115PI 694735SA 3364Gossypium hirsutum L. COT20202107231PI 694735
116PI 694734SA 3363Gossypium hirsutum L. COT20202107230PI 694734
117PI 694733SA 3362Gossypium hirsutum L. COT20202107229PI 694733
118PI 694731SA 3360Gossypium hirsutum L. COT20202107227PI 694731
119PI 694732SA 3361Gossypium hirsutum L. COT20202107228PI 694732
120PI 694730SA 3359Gossypium hirsutum L. COT20202107226PI 694730
121PI 694729SA 3358Gossypium hirsutum L. COT20202107225PI 694729
122PI 694728SA 3357Gossypium hirsutum L. COT20202107224PI 694728
123PI 694727SA 3356Gossypium hirsutum L. COT20202107223PI 694727
124PI 694726SA 3355Gossypium hirsutum L. COT20202107222PI 694726
125PI 694725SA 3354Gossypium hirsutum L. COT20202107221PI 694725
126PI 694724SA 3353Gossypium hirsutum L. COT20202107220PI 694724
127PI 694723SA 3352Gossypium hirsutum L. COT20202107219PI 694723
128PI 694722SA 3351Gossypium hirsutum L. COT20202107218PI 694722
129PI 694721SA 3350Gossypium hirsutum L. COT20202107217PI 694721
130PI 694720SA 3349Gossypium hirsutum L. COT20202107216PI 694720
131PI 694719SA 3348Gossypium hirsutum L. COT20202107215PI 694719
132PI 694717SA 3346Gossypium hirsutum L. COT20202107213PI 694717
133PI 694718SA 3347Gossypium hirsutum L. COT20202107214PI 694718
134PI 694716SA 3345Gossypium hirsutum L. COT20202107212PI 694716
135PI 694715SA 3344Gossypium hirsutum L. COT20202107211PI 694715
136PI 694714SA 3343Gossypium hirsutum L. COT20202107210PI 694714
137PI 694713SA 3342Gossypium hirsutum L. COT20202107209PI 694713
138PI 694712SA 3341Gossypium hirsutum L. COT20202107208PI 694712
139PI 694710SA 3339Gossypium hirsutum L. COT20202107206PI 694710
140PI 694711SA 3340Gossypium hirsutum L. COT20202107207PI 694711
141PI 694709SA 3338Gossypium hirsutum L. COT20202107205PI 694709
142PI 694708SA 3337Gossypium hirsutum L. COT20202107204PI 694708
143PI 694707SA 3336Gossypium hirsutum L. COT20202107203PI 694707
144PI 694706SA 3335Gossypium hirsutum L. COT20202107202PI 694706
145PI 694705SA 3334Gossypium hirsutum L. COT20202107201PI 694705
146PI 694704SA 3333Gossypium hirsutum L. COT20202107200PI 694704
147PI 694703SA 3332Gossypium hirsutum L. COT20202107199PI 694703
148PI 694702SA 3331Gossypium hirsutum L. COT20202107198PI 694702
149PI 694700SA 3329Gossypium hirsutum L. COT20202107196PI 694700
150PI 694701SA 3330Gossypium hirsutum L. COT20202107197PI 694701
151PI 694699SA 3328Gossypium hirsutum L. COT20202107195PI 694699
152PI 694698SA 3327Gossypium hirsutum L. COT20202107194PI 694698
153PI 694697SA 3326Gossypium hirsutum L. COT20202107193PI 694697
154PI 694696SA 3325Gossypium hirsutum L. COT20202107192PI 694696
155PI 694695SA 3324Gossypium hirsutum L. COT20202107191PI 694695
156PI 694694SA 3323Gossypium hirsutum L. COT20202107190PI 694694
157PI 694693SA 3322Gossypium hirsutum L. COT20202107189PI 694693
158PI 694692SA 3321Gossypium hirsutum L. COT20202107188PI 694692
159PI 694691SA 3320Gossypium hirsutum L. COT20202107187PI 694691
160PI 694690SA 3319Gossypium hirsutum L. COT20202107186PI 694690
161PI 694689SA 3318Gossypium hirsutum L. COT20202107185PI 694689
162PI 694688SA 3317Gossypium hirsutum L. COT20202107184PI 694688
163PI 694687SA 3316Gossypium hirsutum L. COT20202107183PI 694687
164PI 694686SA 3315Gossypium hirsutum L. COT20202107182PI 694686
165PI 694685SA 3314Gossypium hirsutum L. COT20202107181PI 694685
166PI 694683SA 3312Gossypium hirsutum L. COT20202107179PI 694683
167PI 694684SA 3313Gossypium hirsutum L. COT20202107180PI 694684
168PI 694682SA 3311Gossypium hirsutum L. COT20202107178PI 694682
169PI 694681SA 3310Gossypium hirsutum L. COT20202107177PI 694681
170PI 694680SA 3309Gossypium hirsutum L. COT20202107176PI 694680
171PI 694679SA 3308Gossypium hirsutum L. COT20202107175PI 694679
172PI 694677SA 3306Gossypium hirsutum L. COT20202107173PI 694677
173PI 694678SA 3307Gossypium hirsutum L. COT20202107174PI 694678
174PI 694676SA 3305Gossypium hirsutum L. COT20202107172PI 694676
175PI 694675SA 3304Gossypium hirsutum L. COT20202107171PI 694675
176PI 694674SA 3303Gossypium hirsutum L. COT20202107170PI 694674
177PI 694673SA 3302Gossypium hirsutum L. COT20202107169PI 694673
178PI 694672SA 3301Gossypium hirsutum L. COT20202107168PI 694672
179PI 694670SA 3299Gossypium hirsutum L. COT20202107166PI 694670
180PI 694671SA 3300Gossypium hirsutum L. COT20202107167PI 694671
181PI 694669SA 3298Gossypium hirsutum L. COT20202107165PI 694669
182PI 694668SA 3297Gossypium hirsutum L. COT20202107164PI 694668
183PI 694667SA 3296Gossypium hirsutum L. COT20202107163PI 694667
184PI 694666SA 3295Gossypium hirsutum L. COT20202107162PI 694666
185PI 694664SA 3293Gossypium hirsutum L. COT20202107160PI 694664
186PI 694665SA 3294Gossypium hirsutum L. COT20202107161PI 694665
187PI 694663SA 3292Gossypium hirsutum L. COT20202107159PI 694663
188PI 694662SA 3291Gossypium hirsutum L. COT20202107158PI 694662
189PI 694661SA 3290Gossypium hirsutum L. COT20202107157PI 694661
190PI 694660SA 3289Gossypium hirsutum L. COT20202107156PI 694660
191PI 694659SA 3288Gossypium hirsutum L. COT20202107155PI 694659
192PI 694658SA 3287Gossypium hirsutum L. COT20202107154PI 694658
193PI 694657SA 3286Gossypium hirsutum L. COT20202107153PI 694657
194PI 694656SA 3285Gossypium hirsutum L. COT20202107152PI 694656
195PI 694655SA 3284Gossypium hirsutum L. COT20202107151PI 694655
196PI 694654SA 3283Gossypium hirsutum L. COT20202107150PI 694654
197PI 694653SA 3282Gossypium hirsutum L. COT20202107149PI 694653
198PI 694652SA 3281Gossypium hirsutum L. COT20202107148PI 694652
199PI 694651SA 3280Gossypium hirsutum L. COT20202107147PI 694651
200PI 694650SA 3279Gossypium hirsutum L. COT20202107146PI 694650
201PI 694649SA 3278Gossypium hirsutum L. COT20202107145PI 694649
202PI 694648SA 3277Gossypium hirsutum L. COT20202107144PI 694648
203PI 694647SA 3276Gossypium hirsutum L. COT20202107143PI 694647
204PI 694646SA 3275Gossypium hirsutum L. COT20202107142PI 694646
205PI 694645SA 3274Gossypium hirsutum L. COT20202107141PI 694645
206PI 694644SA 3273Gossypium hirsutum L. COT20202107140PI 694644
207PI 694643SA 3272Gossypium hirsutum L. COT20202107139PI 694643
208PI 694642SA 3271Gossypium hirsutum L. COT20202107138PI 694642
209PI 694641SA 3270Gossypium hirsutum L. COT20202107137PI 694641
210PI 694640SA 3269Gossypium hirsutum L. COT20202107136PI 694640
211PI 694639SA 3268Gossypium hirsutum L. COT20202107135PI 694639
212PI 694638SA 3267Gossypium hirsutum L. COT20202107134PI 694638
213PI 694637SA 3266Gossypium hirsutum L. COT20202107133PI 694637
214PI 694636SA 3265Gossypium hirsutum L. COT20202107132PI 694636
215PI 694635SA 3264Gossypium hirsutum L. COT20202107131PI 694635
216PI 694634SA 3263Gossypium hirsutum L. COT20202107130PI 694634
217PI 694633SA 3262Gossypium hirsutum L. COT20202107129PI 694633
218PI 694632SA 3261Gossypium hirsutum L. COT20202107128PI 694632
219PI 694631SA 3260Gossypium hirsutum L. COT20202107127PI 694631
220PI 694630SA 3259Gossypium hirsutum L. COT20202107126PI 694630
221PI 694629SA 3258Gossypium hirsutum L. COT20202107125PI 694629
222PI 694628SA 3257Gossypium hirsutum L. COT20202107124PI 694628
223PI 694627SA 3256Gossypium hirsutum L. COT20202107123PI 694627
224PI 694626SA 3255Gossypium hirsutum L. COT20202107122PI 694626
225PI 694625SA 3254Gossypium hirsutum L. COT20202107121PI 694625
226PI 694624SA 3253Gossypium hirsutum L. COTNot Available20202107120PI 694624
227PI 694623SA 3252Gossypium hirsutum L. COTNot Available20202107119PI 694623
228PI 694622SA 3251Gossypium hirsutum L. COT20202107118PI 694622
229PI 694621SA 3250Gossypium hirsutum L. COT20202107117PI 694621
230PI 694620SA 3249Gossypium hirsutum L. COT20202107116PI 694620
231PI 694619SA 3248Gossypium hirsutum L. COT20202107115PI 694619
232PI 694618SA 3247Gossypium hirsutum L. COT20202107114PI 694618
233PI 694617SA 3246Gossypium hirsutum L. COT20202107113PI 694617
234PI 694616SA 3245Gossypium hirsutum L. COT20202107112PI 694616
235PI 694615SA 3244Gossypium hirsutum L. COT20202107111PI 694615
236PI 694614SA 3243Gossypium hirsutum L. COT20202107110PI 694614
237PI 694613SA 3242Gossypium hirsutum L. COT20202107109PI 694613
238PI 694612SA 3241Gossypium hirsutum L. COT20202107108PI 694612
239PI 694610SA 3239Gossypium hirsutum L. COT20202107106PI 694610
240PI 694611SA 3240Gossypium hirsutum L. COT20202107107PI 694611
241PI 694609SA 3238Gossypium hirsutum L. COT20202107105PI 694609
242PI 694608SA 3237Gossypium hirsutum L. COT20202107104PI 694608
243PI 694607SA 3236Gossypium hirsutum L. COT20202107103PI 694607
244PI 694606SA 3235Gossypium hirsutum L. COT20202107102PI 694606
245PI 694604SA 3233Gossypium hirsutum L. COT20202107100PI 694604
246PI 694605SA 3234Gossypium hirsutum L. COT20202107101PI 694605
247PI 694603SA 3232Gossypium hirsutum L. COT20202107099PI 694603
248PI 694602SA 3231Gossypium hirsutum L. COT20202107098PI 694602
249PI 694601SA 3230Gossypium hirsutum L. COT20202107097PI 694601
250PI 694600SA 3229Gossypium hirsutum L. COT20202107096PI 694600
251PI 694598SA 3227Gossypium hirsutum L. COT20202107094PI 694598
252PI 694599SA 3228Gossypium hirsutum L. COT20202107095PI 694599
253PI 694597SA 3226Gossypium hirsutum L. COT20202107093PI 694597
254PI 694596SA 3225Gossypium hirsutum L. COT20202107092PI 694596
255PI 694595SA 3224Gossypium hirsutum L. COT20202107091PI 694595
256PI 694594SA 3223Gossypium hirsutum L. COT20202107090PI 694594
257PI 694593SA 3222Gossypium hirsutum L. COT20202107089PI 694593
258PI 694592SA 3221Gossypium hirsutum L. COT20202107088PI 694592
259PI 694591SA 3220Gossypium hirsutum L. COT20202107087PI 694591
260PI 694590SA 3219Gossypium hirsutum L. COT20202107086PI 694590
261PI 694589SA 3218Gossypium hirsutum L. COT20202107085PI 694589
262PI 694588SA 3217Gossypium hirsutum L. COT20202107084PI 694588
263PI 694587SA 3216Gossypium hirsutum L. COT20202107083PI 694587
264PI 694586SA 3215Gossypium hirsutum L. COT20202107082PI 694586
265PI 694585SA 3214Gossypium hirsutum L. COT20202107081PI 694585
266PI 694584SA 3213Gossypium hirsutum L. COT20202107080PI 694584
267PI 694583SA 3208Gossypium hirsutum L. COT20202107079PI 694583
268PI 694582SA 3207Gossypium hirsutum L. COT20202107078PI 694582
269PI 694581SA 3206Gossypium hirsutum L. COT20202107077PI 694581
270PI 694580SA 3205Gossypium hirsutum L. COT20202107076PI 694580
271PI 694579SA 3204Gossypium hirsutum L. COT20202107075PI 694579
272PI 694578SA 3203Gossypium hirsutum L. COT20202107074PI 694578
273PI 694577SA 3202Gossypium hirsutum L. COT20202107073PI 694577
274PI 694576SA 3201Gossypium hirsutum L. COT20202107072PI 694576
275PI 694575SA 3200Gossypium hirsutum L. COT20202107071PI 694575
276PI 694574SA 3199Gossypium hirsutum L. COT20202107070PI 694574
277PI 694573SA 3198Gossypium hirsutum L. COT20202107069PI 694573
278PI 694572SA 3197Gossypium hirsutum L. COT20202107068PI 694572
279PI 694571SA 3196Gossypium hirsutum L. COT20202107067PI 694571
280PI 694570SA 3195Gossypium hirsutum L. COT20202107066PI 694570
281PI 694569SA 3194Gossypium hirsutum L. COT20202107065PI 694569
282PI 694568SA 3193Gossypium hirsutum L. COT20202107064PI 694568
283PI 694567SA 3192Gossypium hirsutum L. COT20202107063PI 694567
284PI 694566SA 3181Gossypium hirsutum L. COT20202107062PI 694566
285PI 694565SA 3180Gossypium hirsutum L. COT20202107061PI 694565
286PI 694564SA 3179Gossypium hirsutum L. COT20202107060PI 694564
287PI 694563SA 3178Gossypium hirsutum L. COT20202107059PI 694563
288PI 694562SA 3177Gossypium hirsutum L. COT20202107058PI 694562
289PI 694561SA 3176Gossypium hirsutum L. COT20202107057PI 694561
290PI 694560SA 3175Gossypium hirsutum L. COT20202107056PI 694560
291PI 694559SA 3174Gossypium hirsutum L. COT20202107055PI 694559
292PI 694558SA 3173Gossypium hirsutum L. COT20202107054PI 694558
293PI 694557SA 3172Gossypium hirsutum L. COT20202107053PI 694557
294PI 694556SA 3171Gossypium hirsutum L. COT20202107052PI 694556
295PI 694555SA 3170Gossypium hirsutum L. COT20202107051PI 694555
296PI 694554SA 3169Gossypium hirsutum L. COT20202107050PI 694554
297PI 694553SA 3168Gossypium hirsutum L. COT20202107049PI 694553
298PI 694552SA 3167Gossypium hirsutum L. COT20202107048PI 694552
299PI 694551SA 3166Gossypium hirsutum L. COT20202107047PI 694551
300PI 694550SA 3165Gossypium hirsutum L. COT20202107046PI 694550
301PI 694549SA 3164Gossypium hirsutum L. COT20202107045PI 694549
302PI 694548SA 3163Gossypium hirsutum L. COT20202107044PI 694548
303PI 694547SA 3162Gossypium hirsutum L. COT20202107043PI 694547
304PI 694546SA 3161Gossypium hirsutum L. COT20202107042PI 694546
305PI 694545SA 3160Gossypium hirsutum L. COT20202107041PI 694545
306PI 694544SA 3159Gossypium hirsutum L. COT20202107040PI 694544
307PI 694543SA 3158Gossypium hirsutum L. COT20202107039PI 694543
308PI 694541SA 3156Gossypium hirsutum L. COT20202107037PI 694541
309PI 694542SA 3157Gossypium hirsutum L. COT20202107038PI 694542
310PI 694540SA 3155Gossypium hirsutum L. COT20202107036PI 694540
311PI 694539SA 3154Gossypium hirsutum L. COT20202107035PI 694539
312PI 694538SA 3153Gossypium hirsutum L. COT20202107034PI 694538
313PI 694537SA 3143Gossypium hirsutum L. COT20202107033PI 694537
314PI 694536SA 3142Gossypium hirsutum L. COT20202107032PI 694536
315PI 694176TX 2547Gossypium hirsutum L. COT20202106827PI 694176
316PI 694175TX 2528Gossypium hirsutum L. COTNot Available20202106826PI 694175
317PI 694173TX 2526Gossypium hirsutum L. COT20202106824PI 694173
318PI 694174TX 2527Gossypium hirsutum L. COT20202106825PI 694174
319PI 694172TX 2525Gossypium hirsutum L. COT20202106823PI 694172
320PI 694171TX 2524Gossypium hirsutum L. COT20202106822PI 694171
321PI 694170TX 2523Gossypium hirsutum L. COT20202106821PI 694170
322PI 694169TX 2522Gossypium hirsutum L. COT20202106820PI 694169
323PI 693969'A1087159'Gossypium hirsutum L. Iowa, United StatesPVPONot Available2020DEVELOPEDGenetically Engineered2106613PI 693969
324PI 693970'A1087145'Gossypium hirsutum L. Iowa, United StatesPVPONot Available2020DEVELOPEDGenetically Engineered2106614PI 693970
325PI 693971'A1087160'Gossypium hirsutum L. Iowa, United StatesPVPONot Available2020DEVELOPEDGenetically Engineered2106615PI 693971
326PI 693972'A1087148'Gossypium hirsutum L. Iowa, United StatesPVPONot Available2020DEVELOPEDGenetically Engineered2106616PI 693972
327PI 693973'A1088572'Gossypium hirsutum L. Iowa, United StatesPVPONot Available2020DEVELOPEDCultivar2106617PI 693973
328PI 693974'A1088553'Gossypium hirsutum L. Iowa, United StatesPVPONot Available2020DEVELOPEDCultivar2106618PI 693974
329PI 693975'A1088519'Gossypium hirsutum L. Iowa, United StatesPVPONot Available2020DEVELOPEDCultivar2106619PI 693975
330PI 693976'A1088555'Gossypium hirsutum L. Iowa, United StatesPVPONot Available2020DEVELOPEDCultivar2106620PI 693976
331PI 693977'A1088562'Gossypium hirsutum L. Iowa, United StatesPVPONot Available2020DEVELOPEDCultivar2106621PI 693977
332PI 693978'A1088573'Gossypium hirsutum L. Iowa, United StatesPVPONot Available2020DEVELOPEDCultivar2106622PI 693978
333PI 693979'A1088597'Gossypium hirsutum L. Iowa, United StatesPVPONot Available2020DEVELOPEDCultivar2106623PI 693979
334PI 693980'A1088585'Gossypium hirsutum L. Iowa, United StatesPVPONot Available2020DEVELOPEDCultivar2106624PI 693980
335PI 693981'A1088542'Gossypium hirsutum L. Iowa, United StatesPVPONot Available2020DEVELOPEDCultivar2106625PI 693981
336PI 693774'Ton Buster Elite'Gossypium hirsutum L. Texas, United StatesPVPONot Available2020DEVELOPEDCultivar2105792PI 693774
337PI 693757'Acala 1517-21'Gossypium hirsutum L. New Mexico, United StatesNLGRPNot Available2020DEVELOPEDCultivarThe New Mexico Agricultural Experiment Station announces the release of Upland cotton (Gossypium hirsutum L.) cultivar 'Acala 1517-21 '. Acala 1517-21 was derived from a single plant selection in F3 from a bi-parental cross between LA05307029 and AU-5491. This new cultivar was tested in 8 replicated field trials in New Mexico in 2012-2017 and 21 tests across 12 states of the Cotton Belt in 2016-2017. In New Mexico, Acala 1517-21 yielded similarly to medium-staple cultivars or transgenic commercial Acala cultivars including 'PHY 725 RF', 'PHY 755 WRF', 'PHY 764 WRF', 'FM 2322 GL', and 'FM 1830 GLT'. As compared to 'Acala 1517-08', Acala 1517-21 averaged 12.9% higher lint yield and 11.5% higher lint percent, with a similar boll weight, fiber length, length uniformity, elongation, micronaire, and short fiber content. However, Acala 1517-21 had similar or slightly lower fiber strength with significantly lower strength and elongation in one test. Compared to commercial transgenic and non-transgenic cultivars across the Cotton Belt, Acala 1517-21 had consistently longer and stronger fibers or lower micronaire readings. Acala 1517-21 represents a high-yielding Upland cotton cultivar with high lint percent and a long-staple. 2105789PI 693757
338PI 693756'UA248'Gossypium hirsutum L. New Mexico, United StatesNLGRPNot Available2020DEVELOPEDCultivarUA248 is a conventional cotton cultivar with morphological traits similar to ‘DP 393’ and ‘UA48’ (check cultivars), except UA248 is taller and has lower trichome density on bract margins than either cultivar. Data from replicated field tests at four sites in Arkansas over five years indicated that lint yields of UA248 were equal to lint yields of DP393 at each location, but were 13.3, 10.3, 12.5, and 9.7% higher than UA48 at Keiser (north), Judd Hill (north), Marianna (central delta) and Rohwer (south), respectively. Soils at all sites are silt loams, except the Sharkey clay at Keiser. Compared to DP 393, lint yields of UA248 were produced with equal number of seeds per area, seed index, lint fraction, and fiber density (estimated number of fibers per unit area of seed surface), but higher weight of lint per seed (lint index) per seed. Compared to UA48, UA248 produced higher plant height (103 vs, 96 cm), lint percentage (40.1 vs 37.8%), seed ha-1 (16.312 × 106 vs 14.985 × 106), lint index (7.7 vs. 7.5 g), fibers per seed (15819 vs. 13679), fiber density (144 vs 119 fibers mm-2 of seed coat), fiber elongation (6.9 vs. 4.5%) and leaf pubescence rating (3.5 vs 2.4); equal quality score, fiber uniformity index, and stem pubescence; and lower seed index (11.3 vs. 12.1 g), marginal bract trichome density (26.4 vs. 28.9 trichomes cm-1), fiber micronaire (4.54 vs. 4.94) and fiber strength (323 vs 356 kN m kg-1. UA248 is resistance to all U.S. races of Xanthomonas citri ssp. malvacearum (ex Smith 1901) Schaad et al. 2007, the causal agent of bacterial blight. Damaged flowers for UA248 (63%) was lower than UA48 (66%) and higher than DP 393 (60%) in tests of resistance to tarnished plant bug [Lygus lineolaris (Palisot de Beauvois)]. As indicated by lint yield at Judd Hill location (site of high Verticillium wilt), response of UA248 to Verticillium wilt [caused by Verticillium dahliae Kleb] was equal to DP 393 and more tolerant than UA48. Note: Plants, from which seed were produced, were evaluated and determined to be free of Bt (BG1 and BGII) and RR Flex transgenes. 2105788PI 693756
339PI 693257'PX3D32W3FE'Gossypium hirsutum L. Iowa, United StatesPVPONot Available2020DEVELOPEDGenetically Engineered2104854PI 693257
340PI 693258'PX3D43W3FE'Gossypium hirsutum L. Iowa, United StatesPVPONot Available2020DEVELOPEDGenetically Engineered2104855PI 693258
341PI 693259'PX5C45W3FE'Gossypium hirsutum L. Iowa, United StatesPVPONot Available2020DEVELOPEDGenetically Engineered2104856PI 693259
342PI 693260'PX5E28WEFE'Gossypium hirsutum L. Iowa, United StatesPVPONot Available2020DEVELOPEDGenetically Engineered2104857PI 693260
343PI 693261'PX5E34W3FE'Gossypium hirsutum L. Iowa, United StatesPVPONot Available2020DEVELOPEDGenetically Engineered2104858PI 693261
344PI 693262'PX444W3E-15CB'Gossypium hirsutum L. Iowa, United StatesPVPONot Available2020DEVELOPEDGenetically Engineered2104859PI 693262
345PI 693263'PX444W3E-15CBRN'Gossypium hirsutum L. Iowa, United StatesPVPONot Available2020DEVELOPEDGenetically Engineered2104860PI 693263
346PI 692970'UA212ne'Gossypium hirsutum L. Arkansas, United StatesNLGRPNot Available2020DEVELOPEDCultivarUA212ne is a nectariless (absence of nectaries on all plant parts) cotton with other morphological traits similar to ‘DP 393’ (check cultivar), except UA212ne has lower trichome density on abaxial leaf surface and bract margins. Over 4 years of replicated field tests at four sites in Arkansas, lint yields of UA212ne were equal to lint yields of DP393 on Sharkey clay soil at Keiser (north) and on silt loams at Judd Hill (north) and Rohwer (south), but were 25.2% than DP 393 on silt loam soils at Marianna (central delta) and 8.4% higher over all four locations. Compared to DP 393, lint yields of UA212ne were produced with equal number of seed per area, but higher weight of lint per seed (lint index), fibers per seed, and fiber density (estimated number of fibers per unit area of seed surface). Compared to DP 393, UA212ne produced higher lint percentage (42.2 vs 39.5%), lint index (8.0 vs. 7.6 g), fibers per seed (9.8% higher), and fiber density (14.9% more fibers per unit area of seed coat); equal seed per area, open boll percentage (maturity), plant height, stem pubescence rating, fiber uniformity index, fiber strength, and fiber elongation; and lower seed index (10.7 vs. 11.3 g), leaf pubescence rating (3.5 vs. 3.9), marginal bract trichome density (26.5 vs. 35.7 trichomes cm-1), and fiber micronaire (4.51 vs. 4.81). UA212ne is resistance to all U.S. races of Xanthomonas citri ssp. malvacearum (ex Smith 1901) Schaad et al. 2007, the causal agent of bacterial blight. UA212ne had lower damaged flowers than DP 393 (51 vs. 55%) in tests of resistance to tarnished plant bug [Lygus lineolaris (Palisot de Beauvois)]. As indicated by visual ratings and lint yield at Judd Hill location (site of high Verticillium wilt), response of UA212ne to Verticillium wilt [caused by Verticillium dahliae Kleb] was equal to DP 393. Note: Plants, from which seed were produced, were evaluated and determined to be free of Bt (BG1 and BGII) and RR Flex transgenes. 2098803PI 692970
347PI 691840TAM BB-2139 ELSUGossypium hirsutum L. Texas, United StatesNLGRPNot Available2019DEVELOPEDCultivarTAM BB-2139 ELSU is an extra long staple upland cotton germplasm line that expresses UHML equal to or exceeding the minimum UHML of pima cotton, Gossypium barbadense, when grown with supplemental irrigation. When grown under severe drought at Thrall, TX in 2017, TAM BB-2139 ELSU produced fibers with UHML of 32.5 mm, thus exceeding the minimum of 27.8 mm required for non-discount in international markets. TAM BB-2139 ELSU has lower lint percent than most commercial cultivars but was not different than Phytogen 725 RF when averaged across nine locations nation wide in 2016. In the 2016 nine-location trial (USDA Regional High Quality), TAM BB-2139 ELSU averaged 36.6 mm UHML, 342 kN m / kg fiber bundle strength. 2097465PI 691840
348PI 691836'Acala 1517-20'Gossypium hirsutum L. New Mexico, United StatesNLGRPNot Available2019DEVELOPEDCultivarAcala 1517-20 is moderately resistant to Fusarium wilt (Fusarium oxysporum f. sp. vasinfectum, FOV) race 4 (FOV4), similar to 'Pima DP 358 RF', based on vascular root staining and growth vigor in the field in California and foliar disease severity ratings in the greenhouse in New Mexico. This new cultivar was tested in 9 replicated field trials in New Mexico in 2008-2017 and 20 tests in 14 locations across 12 states in 2016-2017. Acala 1517-20 yielded similarly to the high-yielding Acala cotton cultivars including 'Acala 1517-99W', 'Acala 1517-16 B2RF' and 'Acala 1517-08' and the Acala-type transgenic commercial cultivars including 'PHY 725 RF', 'PHY 755 WRF', 'PHY 764 WRF' and 'FM 2322 GL', but lower than 'FM 1830 GLT'. Compared to Acala 1517-08, it had higher lint percentage, lower boll and seed weight, and lower short fiber content. Acala 1517-20 was susceptible to four races of bacterial blight and Alternaria leaf spot. It is recommended for regions where Acala cotton is grown in the presence of FOV4. It will also provide a new source of resistance to FOV4. 2097460PI 691836
349PI 691837'NuMex COT 17 GLS'Gossypium hirsutum L. New Mexico, United StatesCOTNot Available2019DEVELOPEDCultivarNuMex COT 17 GLS is a glandless cotton carrying Gl2e and is resistant to Fusarium wilt (Fusarium oxysporum f. sp. vasinfectum, FOV) race 4 with the level of resistance similar to the resistant checks 'PHY 802RF' and 'PHY 811 RF', when evaluated in two naturally infected fields in California; and it is more resistant than 'Acala 1517-08', when evaluated in the greenhouse in New Mexico. This new cultivar was tested in 7 replicated field trials in New Mexico in 2013-2017 and in 11 tests across 9 states in 2014. As compared to glandless 'Acala GLS', 'Acala 1517-18 GLS', and 'NuMex COT 15 GLS', NuMex COT 17 GLS yielded 26, 16, and 13% more lint, respectively, and it produced 93% of glanded Acala 1517-08 yield. It had significantly higher lint percentage than all the check cultivars. It is classified as a medium staple with fiber quality inferior to Acala cotton cultivars. NuMex COT 17 GLS is especially adapted to the Mississippi Delta as it was the top yielder in the region. It is resistant to four races of bacterial blight and less susceptible to Alternaria leaf spot than Acala 1517-08. The release of NuMex COT 17 GLS cultivar represents the first successful introgression from G. barbadense germplasm with Fusarium wilt race 4 resistance.2097461PI 691837
350PI 691652HOa1Gossypium hirsutum L. Louisiana, United StatesCOTNot Available2019DEVELOPEDBreeding materialFour upland cotton (Gossypium hirsutum L.) germplasm lines, HOa1, HOa2, HOa3, and HOa4 with elevated levels of seed oil oleic acid were developed and released by the Agricultural Research Service of the U. S. Department of Agriculture. High seed oil levels of oleic acid has been reported for a small number of G. barbadense L accessions. Include among these accession is GB713, which was also known as a source of reniform nematode (Rotylenchulus reniformis Linford and Oliveira) resistance and had been used to breed this trait into an upland cotton background. Root-knot nematode (Meloidogyne incognita (Kofoid & White) Chitwood) resistance was then bred into the GB713-based reniform resistant lines to yield germplasm with resistance to both nematodes. Testing the nematode resistant lines for seed oil fatty acid composition revealed elevated levels of oleic acid in some seeds. Selection and propagation of individual plants with the highest oleate levels indicated that the trait was stable for three successive generations with approximately double the level of oleic acid found in normal cottonseed oil. Oils with high levels of oleic acid are considered to be healthier and have improved oxidative stability at elevated temperature making them preferred for some cooking and frying applications.2097058PI 691652
351PI 691653HOa2Gossypium hirsutum L. Louisiana, United StatesCOTNot Available2019DEVELOPEDBreeding materialFour upland cotton (Gossypium hirsutum L.) germplasm lines, HOa1, HOa2, HOa3, and HOa4 with elevated levels of seed oil oleic acid were developed and released by the Agricultural Research Service of the U. S. Department of Agriculture. High seed oil levels of oleic acid has been reported for a small number of G. barbadense L accessions. Include among these accession is GB713, which was also known as a source of reniform nematode (Rotylenchulus reniformis Linford and Oliveira) resistance and had been used to breed this trait into an upland cotton background. Root-knot nematode (Meloidogyne incognita (Kofoid & White) Chitwood) resistance was then bred into the GB713-based reniform resistant lines to yield germplasm with resistance to both nematodes. Testing the nematode resistant lines for seed oil fatty acid composition revealed elevated levels of oleic acid in some seeds. Selection and propagation of individual plants with the highest oleate levels indicated that the trait was stable for three successive generations with approximately double the level of oleic acid found in normal cottonseed oil. Oils with high levels of oleic acid are considered to be healthier and have improved oxidative stability at elevated temperature making them preferred for some cooking and frying applications.2097059PI 691653
352PI 691654HOa3Gossypium hirsutum L. Louisiana, United StatesCOTNot Available2019DEVELOPEDBreeding materialFour upland cotton (Gossypium hirsutum L.) germplasm lines, HOa1, HOa2, HOa3, and HOa4 with elevated levels of seed oil oleic acid were developed and released by the Agricultural Research Service of the U. S. Department of Agriculture. High seed oil levels of oleic acid has been reported for a small number of G. barbadense L accessions. Include among these accession is GB713, which was also known as a source of reniform nematode (Rotylenchulus reniformis Linford and Oliveira) resistance and had been used to breed this trait into an upland cotton background. Root-knot nematode (Meloidogyne incognita (Kofoid & White) Chitwood) resistance was then bred into the GB713-based reniform resistant lines to yield germplasm with resistance to both nematodes. Testing the nematode resistant lines for seed oil fatty acid composition revealed elevated levels of oleic acid in some seeds. Selection and propagation of individual plants with the highest oleate levels indicated that the trait was stable for three successive generations with approximately double the level of oleic acid found in normal cottonseed oil. Oils with high levels of oleic acid are considered to be healthier and have improved oxidative stability at elevated temperature making them preferred for some cooking and frying applications.2097060PI 691654
353PI 691655HOa4Gossypium hirsutum L. Louisiana, United StatesCOTNot Available2019DEVELOPEDBreeding materialFour upland cotton (Gossypium hirsutum L.) germplasm lines, HOa1, HOa2, HOa3, and HOa4 with elevated levels of seed oil oleic acid were developed and released by the Agricultural Research Service of the U. S. Department of Agriculture. High seed oil levels of oleic acid has been reported for a small number of G. barbadense L accessions. Include among these accession is GB713, which was also known as a source of reniform nematode (Rotylenchulus reniformis Linford and Oliveira) resistance and had been used to breed this trait into an upland cotton background. Root-knot nematode (Meloidogyne incognita (Kofoid & White) Chitwood) resistance was then bred into the GB713-based reniform resistant lines to yield germplasm with resistance to both nematodes. Testing the nematode resistant lines for seed oil fatty acid composition revealed elevated levels of oleic acid in some seeds. Selection and propagation of individual plants with the highest oleate levels indicated that the trait was stable for three successive generations with approximately double the level of oleic acid found in normal cottonseed oil. Oils with high levels of oleic acid are considered to be healthier and have improved oxidative stability at elevated temperature making them preferred for some cooking and frying applications.2097061PI 691655
354PI 691517TTU 1-817Gossypium hirsutum L. Mississippi, United StatesNLGRPNot Available2019DEVELOPEDTwo germplasm sources with excellent fiber quality but different pedigrees (TAM 94L-25 and Acala 1517-99) were selected as parental lines for this experiment. The seeds of these populations were imbibed with distilled water for about 16 hrs. and then exposed to 3.0% v/v Ethyl Methane Sulfonate (EMS) for two hrs. to produce the M1 generation. Sodium bicarbonate was used to neutralize the EMS. The M1 seeds were triple rinsed, and then hand planted. From 2002 to 2004, the two mutant populations were advanced by harvesting a single boll from each plant and bulking the seeds to generate the M2:3, M3:4, and M4:5 generations. In 2005, seed cotton was hand harvested from 3,122 individual M5 plants across both populations, saw ginned, and fiber samples evaluated using High Volume Instrument. A total of 1,582 M5 plants from TAM 94L-25 and 1,540 M5 plants from Acala 1517-99 were evaluated in 2004-2007. Individual M5 lines were selected for superior HVI fiber quality traits (long, strong, and low micronaire values. Based on the 2007 HVI analyses, 72 M5 lines of TAM 94L-25 and 54 M5 lines of Acala 1517-99 were increased in unreplicated field trials in 2008. Finally, 33 M5 lines from the TAM 94-L25 and 30 M5 lines from Acala 1517-99 mutant lines were selected for advanced evaluation at Lubbock, TX (2012, 2013, 2014, & 2015), College Station, TX (2012 & 2013) and Stoneville, MS (2012 & 2013). Fiber samples were evaluated with HVI. Data for the six M5 lines proposed for release, the respective non-mutated parental lines, and a commercial check cultivar (Fiber Max 958) were analyzed using PROC GLIMMIX, and PROC GLM. Chemical mutagenesis of TAM 94L-25 and Acala1517-99 appeared to enhance the genetic variability and generate M5 lines with improved length and/or strength in lines proposed for release. 2096634PI 691517
355PI 691518TTU 1-1051Gossypium hirsutum L. Mississippi, United StatesNLGRPNot Available2019DEVELOPEDTwo germplasm sources with excellent fiber quality but different pedigrees (TAM 94L-25 and Acala 1517-99) were selected as parental lines for this experiment. The seeds of these populations were imbibed with distilled water for about 16 hrs. and then exposed to 3.0% v/v Ethyl Methane Sulfonate (EMS) for two hrs. to produce the M1 generation. Sodium bicarbonate was used to neutralize the EMS. The M1 seeds were triple rinsed, and then hand planted. From 2002 to 2004, the two mutant populations were advanced by harvesting a single boll from each plant and bulking the seeds to generate the M2:3, M3:4, and M4:5 generations. In 2005, seed cotton was hand harvested from 3,122 individual M5 plants across both populations, saw ginned, and fiber samples evaluated using High Volume Instrument. A total of 1,582 M5 plants from TAM 94L-25 and 1,540 M5 plants from Acala 1517-99 were evaluated in 2004-2007. Individual M5 lines were selected for superior HVI fiber quality traits (long, strong, and low micronaire values. Based on the 2007 HVI analyses, 72 M5 lines of TAM 94L-25 and 54 M5 lines of Acala 1517-99 were increased in unreplicated field trials in 2008. Finally, 33 M5 lines from the TAM 94-L25 and 30 M5 lines from Acala 1517-99 mutant lines were selected for advanced evaluation at Lubbock, TX (2012, 2013, 2014, & 2015), College Station, TX (2012 & 2013) and Stoneville, MS (2012 & 2013). Fiber samples were evaluated with HVI. Data for the six M5 lines proposed for release, the respective non-mutated parental lines, and a commercial check cultivar (Fiber Max 958) were analyzed using PROC GLIMMIX, and PROC GLM. Chemical mutagenesis of TAM 94L-25 and Acala1517-99 appeared to enhance the genetic variability and generate M5 lines with improved length and/or strength in lines proposed for release. 2096635PI 691518
356PI 691519TTU 1-1283Gossypium hirsutum L. Mississippi, United StatesNLGRPNot Available2019DEVELOPEDTwo germplasm sources with excellent fiber quality but different pedigrees (TAM 94L-25 and Acala 1517-99) were selected as parental lines for this experiment. The seeds of these populations were imbibed with distilled water for about 16 hrs. and then exposed to 3.0% v/v Ethyl Methane Sulfonate (EMS) for two hrs. to produce the M1 generation. Sodium bicarbonate was used to neutralize the EMS. The M1 seeds were triple rinsed, and then hand planted. From 2002 to 2004, the two mutant populations were advanced by harvesting a single boll from each plant and bulking the seeds to generate the M2:3, M3:4, and M4:5 generations. In 2005, seed cotton was hand harvested from 3,122 individual M5 plants across both populations, saw ginned, and fiber samples evaluated using High Volume Instrument. A total of 1,582 M5 plants from TAM 94L-25 and 1,540 M5 plants from Acala 1517-99 were evaluated in 2004-2007. Individual M5 lines were selected for superior HVI fiber quality traits (long, strong, and low micronaire values. Based on the 2007 HVI analyses, 72 M5 lines of TAM 94L-25 and 54 M5 lines of Acala 1517-99 were increased in unreplicated field trials in 2008. Finally, 33 M5 lines from the TAM 94-L25 and 30 M5 lines from Acala 1517-99 mutant lines were selected for advanced evaluation at Lubbock, TX (2012, 2013, 2014, & 2015), College Station, TX (2012 & 2013) and Stoneville, MS (2012 & 2013). Fiber samples were evaluated with HVI. Data for the six M5 lines proposed for release, the respective non-mutated parental lines, and a commercial check cultivar (Fiber Max 958) were analyzed using PROC GLIMMIX, and PROC GLM. Chemical mutagenesis of TAM 94L-25 and Acala1517-99 appeared to enhance the genetic variability and generate M5 lines with improved length and/or strength in lines proposed for release. 2096636PI 691519
357PI 691520TTU 2-411Gossypium hirsutum L. Mississippi, United StatesNLGRPNot Available2019DEVELOPEDTwo germplasm sources with excellent fiber quality but different pedigrees (TAM 94L-25 and Acala 1517-99) were selected as parental lines for this experiment. The seeds of these populations were imbibed with distilled water for about 16 hrs. and then exposed to 3.0% v/v Ethyl Methane Sulfonate (EMS) for two hrs. to produce the M1 generation. Sodium bicarbonate was used to neutralize the EMS. The M1 seeds were triple rinsed, and then hand planted. From 2002 to 2004, the two mutant populations were advanced by harvesting a single boll from each plant and bulking the seeds to generate the M2:3, M3:4, and M4:5 generations. In 2005, seed cotton was hand harvested from 3,122 individual M5 plants across both populations, saw ginned, and fiber samples evaluated using High Volume Instrument. A total of 1,582 M5 plants from TAM 94L-25 and 1,540 M5 plants from Acala 1517-99 were evaluated in 2004-2007. Individual M5 lines were selected for superior HVI fiber quality traits (long, strong, and low micronaire values. Based on the 2007 HVI analyses, 72 M5 lines of TAM 94L-25 and 54 M5 lines of Acala 1517-99 were increased in unreplicated field trials in 2008. Finally, 33 M5 lines from the TAM 94-L25 and 30 M5 lines from Acala 1517-99 mutant lines were selected for advanced evaluation at Lubbock, TX (2012, 2013, 2014, & 2015), College Station, TX (2012 & 2013) and Stoneville, MS (2012 & 2013). Fiber samples were evaluated with HVI. Data for the six M5 lines proposed for release, the respective non-mutated parental lines, and a commercial check cultivar (Fiber Max 958) were analyzed using PROC GLIMMIX, and PROC GLM. Chemical mutagenesis of TAM 94L-25 and Acala1517-99 appeared to enhance the genetic variability and generate M5 lines with improved length and/or strength in lines proposed for release. 2096637PI 691520
358PI 691521TTU 2-475Gossypium hirsutum L. Mississippi, United StatesNLGRPNot Available2019DEVELOPEDTwo germplasm sources with excellent fiber quality but different pedigrees (TAM 94L-25 and Acala 1517-99) were selected as parental lines for this experiment. The seeds of these populations were imbibed with distilled water for about 16 hrs. and then exposed to 3.0% v/v Ethyl Methane Sulfonate (EMS) for two hrs. to produce the M1 generation. Sodium bicarbonate was used to neutralize the EMS. The M1 seeds were triple rinsed, and then hand planted. From 2002 to 2004, the two mutant populations were advanced by harvesting a single boll from each plant and bulking the seeds to generate the M2:3, M3:4, and M4:5 generations. In 2005, seed cotton was hand harvested from 3,122 individual M5 plants across both populations, saw ginned, and fiber samples evaluated using High Volume Instrument. A total of 1,582 M5 plants from TAM 94L-25 and 1,540 M5 plants from Acala 1517-99 were evaluated in 2004-2007. Individual M5 lines were selected for superior HVI fiber quality traits (long, strong, and low micronaire values. Based on the 2007 HVI analyses, 72 M5 lines of TAM 94L-25 and 54 M5 lines of Acala 1517-99 were increased in unreplicated field trials in 2008. Finally, 33 M5 lines from the TAM 94-L25 and 30 M5 lines from Acala 1517-99 mutant lines were selected for advanced evaluation at Lubbock, TX (2012, 2013, 2014, & 2015), College Station, TX (2012 & 2013) and Stoneville, MS (2012 & 2013). Fiber samples were evaluated with HVI. Data for the six M5 lines proposed for release, the respective non-mutated parental lines, and a commercial check cultivar (Fiber Max 958) were analyzed using PROC GLIMMIX, and PROC GLM. Chemical mutagenesis of TAM 94L-25 and Acala1517-99 appeared to enhance the genetic variability and generate M5 lines with improved length and/or strength in lines proposed for release. 2096638PI 691521
359PI 691522TTU 2-1073Gossypium hirsutum L. Mississippi, United StatesNLGRPNot Available2019DEVELOPEDTwo germplasm sources with excellent fiber quality but different pedigrees (TAM 94L-25 and Acala 1517-99) were selected as parental lines for this experiment. The seeds of these populations were imbibed with distilled water for about 16 hrs. and then exposed to 3.0% v/v Ethyl Methane Sulfonate (EMS) for two hrs. to produce the M1 generation. Sodium bicarbonate was used to neutralize the EMS. The M1 seeds were triple rinsed, and then hand planted. From 2002 to 2004, the two mutant populations were advanced by harvesting a single boll from each plant and bulking the seeds to generate the M2:3, M3:4, and M4:5 generations. In 2005, seed cotton was hand harvested from 3,122 individual M5 plants across both populations, saw ginned, and fiber samples evaluated using High Volume Instrument. A total of 1,582 M5 plants from TAM 94L-25 and 1,540 M5 plants from Acala 1517-99 were evaluated in 2004-2007. Individual M5 lines were selected for superior HVI fiber quality traits (long, strong, and low micronaire values. Based on the 2007 HVI analyses, 72 M5 lines of TAM 94L-25 and 54 M5 lines of Acala 1517-99 were increased in unreplicated field trials in 2008. Finally, 33 M5 lines from the TAM 94-L25 and 30 M5 lines from Acala 1517-99 mutant lines were selected for advanced evaluation at Lubbock, TX (2012, 2013, 2014, & 2015), College Station, TX (2012 & 2013) and Stoneville, MS (2012 & 2013). Fiber samples were evaluated with HVI. Data for the six M5 lines proposed for release, the respective non-mutated parental lines, and a commercial check cultivar (Fiber Max 958) were analyzed using PROC GLIMMIX, and PROC GLM. Chemical mutagenesis of TAM 94L-25 and Acala1517-99 appeared to enhance the genetic variability and generate M5 lines with improved length and/or strength in lines proposed for release. 2096639PI 691522
360PI 691459CA 4007Gossypium hirsutum L. Texas, United StatesNLGRPNot Available2019DEVELOPEDBreeding materialCA 4007 exhibits improved drought tolerance compared with cultivars that have historically performed well under water-limited conditions in the Texas High Plains. CA 4007 has similar production, agronomic, and fiber quality traits as cotton cultivars adapted to the Texas High Plains. As a breeding source for water-limited environment, CA 4007 germplasm has some important agronomic traits that could contribute to yield when compared with the currently available genetic sources, specifically relative boll retention under stress, fiber length, and fiber strength. CA 4007 is a good candidate to breed for improved yield and fiber quality when water is a limiting resource. Seed may be requested under an appropriate MTA for research purposes by non-profit institutions, and under an appropriate research agreement or license/sales agreement by for-profit entities 2096550PI 691459
361PI 691458'ST 4550GLTP'Gossypium hirsutum L. Mississippi, United StatesPVPONot Available2019DEVELOPEDGenetically Engineered2096549PI 691458
362PI 690767'NC18-07'Gossypium hirsutum L. North Carolina, United StatesCOTNot Available2019DEVELOPEDBreeding materialNC18-07 resulted from a random mating population using multiple parents. Twelve cotton cultivars each with uniquely improved fiber quality and/or yield representing major cotton breeding programs of the United States were crossed with each other in a half diallele to produce the F1s. Equal amount of F1 hybrid seed from each of the 66 F1 hybrid combinations was mixed for planting in rows. The F1 hybrids and the progenies of the subsequent generations were randomly mated using natural outcrossing. Lines chosen for parents were: ‘Acala Ultima’ (A_Ultima, PI 603079), developed by California Planting Cotton Seed Distributors (Shafter, CA); ‘Coker315, PI 529530’, developed by Coker Pedigreed Seed Co. (Hartsville, SC); ‘Tamcot Pyramid’ (Pyramid, PI 617042), developed in the Texas Agriculture Experiment Station (Thaxton and El-Zik 2004); ‘Stoneville 825’ (STV825, PI 529524), developed by Stoneville Pedigreed Seed Co. (Stoneville, MS); ‘FiberMax 966’ (FM966, PI 619097), an Upland commercial cotton developed by Bayer Crop Science (Lubbock, TX); M-240RNR (M-240, PI 592511), a root knot nematode resistant line developed by the ARS (Shepherd et al., 1996); ‘Deltapine Acala 90’ (DP90, PI 529529), developed by Delta and Pine Land Co. (Scott, MS); ‘Sure-Grow 747’ (SG747, PI 656375), an Upland commercial cultivar developed by Sure-Grow Co. (Centre, AL); ‘Georgia King’ (GA_King, PI 552537) was developed and released by the University of Georgia (Baker, 1992); ‘Phytogen PSC 355’ (PSC355, PI 612974), ‘Stoneville 474’ (STV474, PI 578877), developed by Stoneville Pedigreed Seeds; and TM-1 (Texas Marker-1, PI 662944). Individual plants obtained after the fourth intermating cycle were self-pollinated in the field. About 700 F4 lines were grown for obtaining F4:5 lines in 2009. These F4:5 lines were planted in field for seed increase through self pollination in the summer of 2010. Released germplasm lines are selections from the F6 inbred lines. 2092653PI 690767
363PI 690768'NC18-08'Gossypium hirsutum L. North Carolina, United StatesCOTNot Available2019DEVELOPEDBreeding materialNC18-08 resulted from a random mating population using multiple parents. Twelve cotton cultivars each with uniquely improved fiber quality and/or yield representing major cotton breeding programs of the United States were crossed with each other in a half diallele to produce the F1s. Equal amount of F1 hybrid seed from each of the 66 F1 hybrid combinations was mixed for planting in rows. The F1 hybrids and the progenies of the subsequent generations were randomly mated using natural outcrossing. Lines chosen for parents were: ‘Acala Ultima’ (A_Ultima, PI 603079), developed by California Planting Cotton Seed Distributors (Shafter, CA); ‘Coker315, PI 529530’, developed by Coker Pedigreed Seed Co. (Hartsville, SC); ‘Tamcot Pyramid’ (Pyramid, PI 617042), developed in the Texas Agriculture Experiment Station (Thaxton and El-Zik 2004); ‘Stoneville 825’ (STV825, PI 529524), developed by Stoneville Pedigreed Seed Co. (Stoneville, MS); ‘FiberMax 966’ (FM966, PI 619097), an Upland commercial cotton developed by Bayer Crop Science (Lubbock, TX); M-240RNR (M-240, PI 592511), a root knot nematode resistant line developed by the ARS (Shepherd et al., 1996); ‘Deltapine Acala 90’ (DP90, PI 529529), developed by Delta and Pine Land Co. (Scott, MS); ‘Sure-Grow 747’ (SG747, PI 656375), an Upland commercial cultivar developed by Sure-Grow Co. (Centre, AL); ‘Georgia King’ (GA_King, PI 552537) was developed and released by the University of Georgia (Baker, 1992); ‘Phytogen PSC 355’ (PSC355, PI 612974), ‘Stoneville 474’ (STV474, PI 578877), developed by Stoneville Pedigreed Seeds; and TM-1 (Texas Marker-1, PI 662944). Individual plants obtained after the fourth intermating cycle were self-pollinated in the field. About 700 F4 lines were grown for obtaining F4:5 lines in 2009. These F4:5 lines were planted in field for seed increase through self pollination in the summer of 2010. Released germplasm lines are selections from the F6 inbred lines. 2092654PI 690768
364PI 690769'NC18-09'Gossypium hirsutum L. North Carolina, United StatesCOTNot Available2019DEVELOPEDBreeding materialNC18-09 resulted from a random mating population using multiple parents. Twelve cotton cultivars each with uniquely improved fiber quality and/or yield representing major cotton breeding programs of the United States were crossed with each other in a half diallele to produce the F1s. Equal amount of F1 hybrid seed from each of the 66 F1 hybrid combinations was mixed for planting in rows. The F1 hybrids and the progenies of the subsequent generations were randomly mated using natural outcrossing. Lines chosen for parents were: ‘Acala Ultima’ (A_Ultima, PI 603079), developed by California Planting Cotton Seed Distributors (Shafter, CA); ‘Coker315, PI 529530’, developed by Coker Pedigreed Seed Co. (Hartsville, SC); ‘Tamcot Pyramid’ (Pyramid, PI 617042), developed in the Texas Agriculture Experiment Station (Thaxton and El-Zik 2004); ‘Stoneville 825’ (STV825, PI 529524), developed by Stoneville Pedigreed Seed Co. (Stoneville, MS); ‘FiberMax 966’ (FM966, PI 619097), an Upland commercial cotton developed by Bayer Crop Science (Lubbock, TX); M-240RNR (M-240, PI 592511), a root knot nematode resistant line developed by the ARS (Shepherd et al., 1996); ‘Deltapine Acala 90’ (DP90, PI 529529), developed by Delta and Pine Land Co. (Scott, MS); ‘Sure-Grow 747’ (SG747, PI 656375), an Upland commercial cultivar developed by Sure-Grow Co. (Centre, AL); ‘Georgia King’ (GA_King, PI 552537) was developed and released by the University of Georgia (Baker, 1992); ‘Phytogen PSC 355’ (PSC355, PI 612974), ‘Stoneville 474’ (STV474, PI 578877), developed by Stoneville Pedigreed Seeds; and TM-1 (Texas Marker-1, PI 662944). Individual plants obtained after the fourth intermating cycle were self-pollinated in the field. About 700 F4 lines were grown for obtaining F4:5 lines in 2009. These F4:5 lines were planted in field for seed increase through self pollination in the summer of 2010. Released germplasm lines are selections from the F6 inbred lines. 2092655PI 690769
365PI 690770'NC18-10'Gossypium hirsutum L. North Carolina, United StatesCOTNot Available2019DEVELOPEDBreeding material NC18-10 resulted from a random mating population using multiple parents. Twelve cotton cultivars each with uniquely improved fiber quality and/or yield representing major cotton breeding programs of the United States were crossed with each other in a half diallele to produce the F1s. Equal amount of F1 hybrid seed from each of the 66 F1 hybrid combinations was mixed for planting in rows. The F1 hybrids and the progenies of the subsequent generations were randomly mated using natural outcrossing. Lines chosen for parents were: ‘Acala Ultima’ (A_Ultima, PI 603079), developed by California Planting Cotton Seed Distributors (Shafter, CA); ‘Coker315, PI 529530’, developed by Coker Pedigreed Seed Co. (Hartsville, SC); ‘Tamcot Pyramid’ (Pyramid, PI 617042), developed in the Texas Agriculture Experiment Station (Thaxton and El-Zik 2004); ‘Stoneville 825’ (STV825, PI 529524), developed by Stoneville Pedigreed Seed Co. (Stoneville, MS); ‘FiberMax 966’ (FM966, PI 619097), an Upland commercial cotton developed by Bayer Crop Science (Lubbock, TX); M-240RNR (M-240, PI 592511), a root knot nematode resistant line developed by the ARS (Shepherd et al., 1996); ‘Deltapine Acala 90’ (DP90, PI 529529), developed by Delta and Pine Land Co. (Scott, MS); ‘Sure-Grow 747’ (SG747, PI 656375), an Upland commercial cultivar developed by Sure-Grow Co. (Centre, AL); ‘Georgia King’ (GA_King, PI 552537) was developed and released by the University of Georgia (Baker, 1992); ‘Phytogen PSC 355’ (PSC355, PI 612974), ‘Stoneville 474’ (STV474, PI 578877), developed by Stoneville Pedigreed Seeds; and TM-1 (Texas Marker-1, PI 662944). Individual plants obtained after the fourth intermating cycle were self-pollinated in the field. About 700 F4 lines were grown for obtaining F4:5 lines in 2009. These F4:5 lines were planted in field for seed increase through self pollination in the summer of 2010. Released germplasm lines are selections from the F6 inbred lines. 2092656PI 690770
366PI 690771'NC18-11'Gossypium hirsutum L. North Carolina, United StatesCOTNot Available2019DEVELOPEDBreeding materialNC18-11 resulted from a random mating population using multiple parents. Twelve cotton cultivars each with uniquely improved fiber quality and/or yield representing major cotton breeding programs of the United States were crossed with each other in a half diallele to produce the F1s. Equal amount of F1 hybrid seed from each of the 66 F1 hybrid combinations was mixed for planting in rows. The F1 hybrids and the progenies of the subsequent generations were randomly mated using natural outcrossing. Lines chosen for parents were: ‘Acala Ultima’ (A_Ultima, PI 603079), developed by California Planting Cotton Seed Distributors (Shafter, CA); ‘Coker315, PI 529530’, developed by Coker Pedigreed Seed Co. (Hartsville, SC); ‘Tamcot Pyramid’ (Pyramid, PI 617042), developed in the Texas Agriculture Experiment Station (Thaxton and El-Zik 2004); ‘Stoneville 825’ (STV825, PI 529524), developed by Stoneville Pedigreed Seed Co. (Stoneville, MS); ‘FiberMax 966’ (FM966, PI 619097), an Upland commercial cotton developed by Bayer Crop Science (Lubbock, TX); M-240RNR (M-240, PI 592511), a root knot nematode resistant line developed by the ARS (Shepherd et al., 1996); ‘Deltapine Acala 90’ (DP90, PI 529529), developed by Delta and Pine Land Co. (Scott, MS); ‘Sure-Grow 747’ (SG747, PI 656375), an Upland commercial cultivar developed by Sure-Grow Co. (Centre, AL); ‘Georgia King’ (GA_King, PI 552537) was developed and released by the University of Georgia (Baker, 1992); ‘Phytogen PSC 355’ (PSC355, PI 612974), ‘Stoneville 474’ (STV474, PI 578877), developed by Stoneville Pedigreed Seeds; and TM-1 (Texas Marker-1, PI 662944). Individual plants obtained after the fourth intermating cycle were self-pollinated in the field. About 700 F4 lines were grown for obtaining F4:5 lines in 2009. These F4:5 lines were planted in field for seed increase through self pollination in the summer of 2010. Released germplasm lines are selections from the F6 inbred lines. 2092657PI 690771
367PI 690772'NC18-12'Gossypium hirsutum L. North Carolina, United StatesCOTNot Available2019DEVELOPEDBreeding materialNC18-12 resulted from a random mating population using multiple parents. Twelve cotton cultivars each with uniquely improved fiber quality and/or yield representing major cotton breeding programs of the United States were crossed with each other in a half diallele to produce the F1s. Equal amount of F1 hybrid seed from each of the 66 F1 hybrid combinations was mixed for planting in rows. The F1 hybrids and the progenies of the subsequent generations were randomly mated using natural outcrossing. Lines chosen for parents were: ‘Acala Ultima’ (A_Ultima, PI 603079), developed by California Planting Cotton Seed Distributors (Shafter, CA); ‘Coker315, PI 529530’, developed by Coker Pedigreed Seed Co. (Hartsville, SC); ‘Tamcot Pyramid’ (Pyramid, PI 617042), developed in the Texas Agriculture Experiment Station (Thaxton and El-Zik 2004); ‘Stoneville 825’ (STV825, PI 529524), developed by Stoneville Pedigreed Seed Co. (Stoneville, MS); ‘FiberMax 966’ (FM966, PI 619097), an Upland commercial cotton developed by Bayer Crop Science (Lubbock, TX); M-240RNR (M-240, PI 592511), a root knot nematode resistant line developed by the ARS (Shepherd et al., 1996); ‘Deltapine Acala 90’ (DP90, PI 529529), developed by Delta and Pine Land Co. (Scott, MS); ‘Sure-Grow 747’ (SG747, PI 656375), an Upland commercial cultivar developed by Sure-Grow Co. (Centre, AL); ‘Georgia King’ (GA_King, PI 552537) was developed and released by the University of Georgia (Baker, 1992); ‘Phytogen PSC 355’ (PSC355, PI 612974), ‘Stoneville 474’ (STV474, PI 578877), developed by Stoneville Pedigreed Seeds; and TM-1 (Texas Marker-1, PI 662944). Individual plants obtained after the fourth intermating cycle were self-pollinated in the field. About 700 F4 lines were grown for obtaining F4:5 lines in 2009. These F4:5 lines were planted in field for seed increase through self pollination in the summer of 2010. Released germplasm lines are selections from the F6 inbred lines.2092658PI 690772
368PI 690773'NC18-13'Gossypium hirsutum L. North Carolina, United StatesCOTNot Available2019DEVELOPEDBreeding materialNC18-13 resulted from a random mating population using multiple parents. Twelve cotton cultivars each with uniquely improved fiber quality and/or yield representing major cotton breeding programs of the United States were crossed with each other in a half diallele to produce the F1s. Equal amount of F1 hybrid seed from each of the 66 F1 hybrid combinations was mixed for planting in rows. The F1 hybrids and the progenies of the subsequent generations were randomly mated using natural outcrossing. Lines chosen for parents were: ‘Acala Ultima’ (A_Ultima, PI 603079), developed by California Planting Cotton Seed Distributors (Shafter, CA); ‘Coker315, PI 529530’, developed by Coker Pedigreed Seed Co. (Hartsville, SC); ‘Tamcot Pyramid’ (Pyramid, PI 617042), developed in the Texas Agriculture Experiment Station (Thaxton and El-Zik 2004); ‘Stoneville 825’ (STV825, PI 529524), developed by Stoneville Pedigreed Seed Co. (Stoneville, MS); ‘FiberMax 966’ (FM966, PI 619097), an Upland commercial cotton developed by Bayer Crop Science (Lubbock, TX); M-240RNR (M-240, PI 592511), a root knot nematode resistant line developed by the ARS (Shepherd et al., 1996); ‘Deltapine Acala 90’ (DP90, PI 529529), developed by Delta and Pine Land Co. (Scott, MS); ‘Sure-Grow 747’ (SG747, PI 656375), an Upland commercial cultivar developed by Sure-Grow Co. (Centre, AL); ‘Georgia King’ (GA_King, PI 552537) was developed and released by the University of Georgia (Baker, 1992); ‘Phytogen PSC 355’ (PSC355, PI 612974), ‘Stoneville 474’ (STV474, PI 578877), developed by Stoneville Pedigreed Seeds; and TM-1 (Texas Marker-1, PI 662944). Individual plants obtained after the fourth intermating cycle were self-pollinated in the field. About 700 F4 lines were grown for obtaining F4:5 lines in 2009. These F4:5 lines were planted in field for seed increase through self pollination in the summer of 2010. Released germplasm lines are selections from the F6 inbred lines. 2092659PI 690773
369PI 690774'NC18-14'Gossypium hirsutum L. North Carolina, United StatesCOTNot Available2019DEVELOPEDBreeding materialNC18-14 resulted from a random mating population using multiple parents. Twelve cotton cultivars each with uniquely improved fiber quality and/or yield representing major cotton breeding programs of the United States were crossed with each other in a half diallele to produce the F1s. Equal amount of F1 hybrid seed from each of the 66 F1 hybrid combinations was mixed for planting in rows. The F1 hybrids and the progenies of the subsequent generations were randomly mated using natural outcrossing. Lines chosen for parents were: ‘Acala Ultima’ (A_Ultima, PI 603079), developed by California Planting Cotton Seed Distributors (Shafter, CA); ‘Coker315, PI 529530’, developed by Coker Pedigreed Seed Co. (Hartsville, SC); ‘Tamcot Pyramid’ (Pyramid, PI 617042), developed in the Texas Agriculture Experiment Station (Thaxton and El-Zik 2004); ‘Stoneville 825’ (STV825, PI 529524), developed by Stoneville Pedigreed Seed Co. (Stoneville, MS); ‘FiberMax 966’ (FM966, PI 619097), an Upland commercial cotton developed by Bayer Crop Science (Lubbock, TX); M-240RNR (M-240, PI 592511), a root knot nematode resistant line developed by the ARS (Shepherd et al., 1996); ‘Deltapine Acala 90’ (DP90, PI 529529), developed by Delta and Pine Land Co. (Scott, MS); ‘Sure-Grow 747’ (SG747, PI 656375), an Upland commercial cultivar developed by Sure-Grow Co. (Centre, AL); ‘Georgia King’ (GA_King, PI 552537) was developed and released by the University of Georgia (Baker, 1992); ‘Phytogen PSC 355’ (PSC355, PI 612974), ‘Stoneville 474’ (STV474, PI 578877), developed by Stoneville Pedigreed Seeds; and TM-1 (Texas Marker-1, PI 662944). Individual plants obtained after the fourth intermating cycle were self-pollinated in the field. About 700 F4 lines were grown for obtaining F4:5 lines in 2009. These F4:5 lines were planted in field for seed increase through self pollination in the summer of 2010. Released germplasm lines are selections from the F6 inbred lines. 2092660PI 690774
370PI 690471RMBHMTUP-C4Gossypium hirsutum L. Mississippi, United StatesCOTNot Available2019DEVELOPEDBreeding materialThe genetic base that is used for breeding upland cotton (Gossypium hirsutum L.) needs more allelic diversity. Use of wild species of Gossypium is one approach that is of interest to breeders, but interspecific crosses between G. hirsutum and wild tetraploid species or the cultivated tetraploid species G. barbadense L. have not been widely used in cultivar breeding due to the extreme difficulty of extracting elite lines in later generations. Following a non-conventional breeding approach, we used 32 chromosome substitution lines to capture allelic diversity from three donor tetraploid Gossypium species and combined that with the intra-specific allelic diversity among 5 Upland cultivars. By random-mating the 32 F1 hybrids and subsequent generations for 5 cycles, the intra- and inter-specific diversity from four Gossypium AD-genome species was combined in a new random-mated population dubbed "Random Mated Barbadense, Hirsutum, Mustelinum, Tomentosum, Upland Population" (RMBHMTUP-C4). This population is very diverse and should facilitate efforts to broaden the genetic base for cotton breeding. In spite of its allelic diversity, it has characteristics that make it very much like an upland cultivar population in phenotype and fiber properties. During the development of this population, we did not observe any the sterility or other breeding problems that are normally observed in conventional interspecific crosses. We harvested about 2,209 bolls after each of the five cycles of random mating (11,045 bolls). Assuming 25 seed per boll, this equates to 276,125 hand-crossed seed, each from union of two genetically unique pollen and egg gametes. Each of the corresponding 552,250 meioses that gave rise to these gametes would have included multiple opportunities for recombination of alleles. Thus, we have developed a unique random-mated population among four tetraploid Gossypium species.2091858PI 690471
371PI 690458GA qFL25-A1Gossypium hirsutum L. Georgia, United StatesCOTNot Available2019DEVELOPEDBreeding materialGA qFL25-A1 is one of 8 upland cotton (Gossypium hirsutum) germplasm lines that were developed by the Molecular Cotton Breeding Laboratory, Department of Crop and Soil Science at the University of Georgia's Coastal Plains Experiment Station in Tifton, GA. These 8 germplasm lines resulted from crosses of Sealand 883 (SL883)(PI 528875), an interspecific introgression line, by 4 diverse G. hirsutum cultivar parents, Acala SJ4 (Pl 529538), Paymaster HS26 (PVP 8600087, Pl 606814), Deltapine 50 (PVP 8400154, Pl 529566), and GA2004089, an unreleased breeding line. Previous mapping work identified qFL-Chr.25, a quantitative trait locus (QTL) with significant effect on fiber upper half mean length carried by SL883. Bulked sister lines were selected with the aid of marker-assisted selection from several F3:5 segregating families for each of these 4 crosses to quantify the effect of the QTL in highly related sister lines. The 8 lines presented here represent the best genotypes from that group for lint percent and fiber quality, especially UHML, from these experiments. The presence of the SL883 allele for qFL-Chr.25 resulted in an increase of 0.6 mm (1.9 %) to 3.5 mm (11.7 %), and an average increase of 1.7 mm (5.6 %), compared to the germplasm lines' corresponding sister lines. These 8 lines should be useful for marker assisted improvement of fiber length. GA qFL25-A1 exhibited UHML significantly longer than parent Acala SJ4 (33.5 mm vs. 29.2 mm respectively). 2091844PI 690458
372PI 690459GA qFL25-A2Gossypium hirsutum L. Georgia, United StatesCOTNot Available2019DEVELOPEDBreeding materialGA qFL25-A2 is one of 8 upland cotton (Gossypium hirsutum) germplasm lines that were developed by the Molecular Cotton Breeding Laboratory, Department of Crop and Soil Science at the University of Georgia's Coastal Plains Experiment Station in Tifton, GA. These 8 germplasm lines resulted from crosses of Sealand 883 (SL883)(PI 528875), an interspecific introgression line, by 4 diverse G. hirsutum cultivar parents, Acala SJ4 (Pl 529538), Paymaster HS26 (PVP 8600087, Pl 606814), Deltapine 50 (PVP 8400154, Pl 529566), and GA2004089, an unreleased breeding line. Previous mapping work identified qFL-Chr.25, a quantitative trait locus (QTL) with significant effect on fiber upper half mean length carried by SL883. Bulked sister lines were selected with the aid of marker-assisted selection from several F3:5 segregating families for each of these 4 crosses to quantify the effect of the QTL in highly related sister lines. The 8 lines presented here represent the best genotypes from that group for lint percent and fiber quality, especially UHML, from these experiments. The presence of the SL883 allele for qFL-Chr.25 resulted in an increase of 0.6 mm (1.9 %) to 3.5 mm (11.7 %), and an average increase of 1.7 mm (5.6 %), compared to the germplasm lines' corresponding sister lines. These 8 lines should be useful for marker assisted improvement of fiber length. GA qFL25-A2 exhibited UHML significantly longer than parent Acala SJ4 (32.7 mm vs. 29.2 mm respectively). 2091845PI 690459
373PI 690460GA qFL25-P2Gossypium hirsutum L. Georgia, United StatesCOTNot Available2019DEVELOPEDBreeding materialGA qFL25-P2 is one of 8 upland cotton (Gossypium hirsutum) germplasm lines that were developed by the Molecular Cotton Breeding Laboratory, Department of Crop and Soil Science at the University of Georgia's Coastal Plains Experiment Station in Tifton, GA. These 8 germplasm lines resulted from crosses of Sealand 883 (SL883)(PI 528875), an interspecific introgression line, by 4 diverse G. hirsutum cultivar parents, Acala SJ4 (Pl 529538), Paymaster HS26 (PVP 8600087, Pl 606814), Deltapine 50 (PVP 8400154, Pl 529566), and GA2004089, an unreleased breeding line. Previous mapping work identified qFL-Chr.25, a quantitative trait locus (QTL) with significant effect on fiber upper half mean length carried by SL883. Bulked sister lines were selected with the aid of marker-assisted selection from several F3:5 segregating families for each of these 4 crosses to quantify the effect of the QTL in highly related sister lines. The 8 lines presented here represent the best genotypes from that group for lint percent and fiber quality, especially UHML, from these experiments. The presence of the SL883 allele for qFL-Chr.25 resulted in an increase of 0.6 mm (1.9 %) to 3.5 mm (11.7 %), and an average increase of 1.7 mm (5.6 %), compared to the germplasm lines' corresponding sister lines. These 8 lines should be useful for marker assisted improvement of fiber length. GA qFL25-P2 exhibited UHML significantly longer than parent Paymaster HS26 (32.3 mm vs. 29.0 mm respectively). 2091846PI 690460
374PI 690461GA qFL25-P1Gossypium hirsutum L. Georgia, United StatesCOTNot Available2019DEVELOPEDBreeding materialGA qFL25-P1 is one of 8 upland cotton (Gossypium hirsutum) germplasm lines that were developed by the Molecular Cotton Breeding Laboratory, Department of Crop and Soil Science at the University of Georgia's Coastal Plains Experiment Station in Tifton, GA. These 8 germplasm lines resulted from crosses of Sealand 883 (SL883)(PI 528875), an interspecific introgression line, by 4 diverse G. hirsutum cultivar parents, Acala SJ4 (Pl 529538), Paymaster HS26 (PVP 8600087, Pl 606814), Deltapine 50 (PVP 8400154, Pl 529566), and GA2004089, an unreleased breeding line. Previous mapping work identified qFL-Chr.25, a quantitative trait locus (QTL) with significant effect on fiber upper half mean length carried by SL883. Bulked sister lines were selected with the aid of marker-assisted selection from several F3:5 segregating families for each of these 4 crosses to quantify the effect of the QTL in highly related sister lines. The 8 lines presented here represent the best genotypes from that group for lint percent and fiber quality, especially UHML, from these experiments. The presence of the SL883 allele for qFL-Chr.25 resulted in an increase of 0.6 mm (1.9 %) to 3.5 mm (11.7 %), and an average increase of 1.7 mm (5.6 %), compared to the germplasm lines' corresponding sister lines. These 8 lines should be useful for marker assisted improvement of fiber length. GA qFL25-P1 exhibited UHML significantly longer than parent Paymaster HS26 (31.5 mm vs. 29.0 mm respectively). 2091847PI 690461
375PI 690462GA qFL25-G2Gossypium hirsutum L. Georgia, United StatesCOTNot Available2019DEVELOPEDBreeding materialGA qFL25-G2 is one of 8 upland cotton (Gossypium hirsutum) germplasm lines that were developed by the Molecular Cotton Breeding Laboratory, Department of Crop and Soil Science at the University of Georgia's Coastal Plains Experiment Station in Tifton, GA. These 8 germplasm lines resulted from crosses of Sealand 883 (SL883)(PI 528875), an interspecific introgression line, by 4 diverse G. hirsutum cultivar parents, Acala SJ4 (Pl 529538), Paymaster HS26 (PVP 8600087, Pl 606814), Deltapine 50 (PVP 8400154, Pl 529566), and GA2004089, an unreleased breeding line. Previous mapping work identified qFL-Chr.25, a quantitative trait locus (QTL) with significant effect on fiber upper half mean length carried by SL883. Bulked sister lines were selected with the aid of marker-assisted selection from several F3:5 segregating families for each of these 4 crosses to quantify the effect of the QTL in highly related sister lines. The 8 lines presented here represent the best genotypes from that group for lint percent and fiber quality, especially UHML, from these experiments. The presence of the SL883 allele for qFL-Chr.25 resulted in an increase of 0.6 mm (1.9 %) to 3.5 mm (11.7 %), and an average increase of 1.7 mm (5.6 %), compared to the germplasm lines' corresponding sister lines. These 8 lines should be useful for marker assisted improvement of fiber length. GA qFL25-G2 exhibited UHML significantly longer than parent GA 2004089 (33.5 mm vs. 29.9 mm respectively). 2091848PI 690462
376PI 690463GA qFL25-G1Gossypium hirsutum L. Georgia, United StatesCOTNot Available2019DEVELOPEDBreeding materialGA qFL25-G1 is one of 8 upland cotton (Gossypium hirsutum) germplasm lines that were developed by the Molecular Cotton Breeding Laboratory, Department of Crop and Soil Science at the University of Georgia's Coastal Plains Experiment Station in Tifton, GA. These 8 germplasm lines resulted from crosses of Sealand 883 (SL883)(PI 528875), an interspecific introgression line, by 4 diverse G. hirsutum cultivar parents, Acala SJ4 (Pl 529538), Paymaster HS26 (PVP 8600087, Pl 606814), Deltapine 50 (PVP 8400154, Pl 529566), and GA2004089, an unreleased breeding line. Previous mapping work identified qFL-Chr.25, a quantitative trait locus (QTL) with significant effect on fiber upper half mean length carried by SL883. Bulked sister lines were selected with the aid of marker-assisted selection from several F3:5 segregating families for each of these 4 crosses to quantify the effect of the QTL in highly related sister lines. The 8 lines presented here represent the best genotypes from that group for lint percent and fiber quality, especially UHML, from these experiments. The presence of the SL883 allele for qFL-Chr.25 resulted in an increase of 0.6 mm (1.9 %) to 3.5 mm (11.7 %}, and an average increase of 1.7 mm (5.6 %), compared to the germplasm lines' corresponding sister lines. These 8 lines should be useful for marker assisted improvement of fiber length. GA qFL25-G1 exhibited UHML significantly longer than parent GA 2004089 (33.6 mm vs. 29.9 mm respectively). 2091849PI 690463
377PI 690464GA qFL25-D2Gossypium hirsutum L. Georgia, United StatesCOTNot Available2019DEVELOPEDBreeding materialGA qFL25-D2 is one of 8 upland cotton (Gossypium hirsutum) germplasm lines that were developed by the Molecular Cotton Breeding Laboratory, Department of Crop and Soil Science at the University of Georgia's Coastal Plains Experiment Station in Tifton, GA. These 8 germplasm lines resulted from crosses of Sealand 883 (SL883)(PI 528875), an interspecific introgression line, by 4 diverse G. hirsutum cultivar parents, Acala SJ4 (Pl 529538), Paymaster HS26 (PVP 8600087, Pl 606814), Deltapine 50 (PVP 8400154, Pl 529566), and GA2004089, an unreleased breeding line. Previous mapping work identified qFL-Chr.25, a quantitative trait locus (QTL) with significant effect on fiber upper half mean length carried by SL883. Bulked sister lines were selected with the aid of marker-assisted selection from several F3:5 segregating families for each of these 4 crosses to quantify the effect of the QTL in highly related sister lines. The 8 lines presented here represent the best genotypes from that group for lint percent and fiber quality, especially UHML, from these experiments. The presence of the SL883 allele for qFL-Chr.25 resulted in an increase of 0.6 mm (1.9 %) to 3.5 mm (11.7 %), and an average increase of 1.7 mm (5.6 %), compared to the germplasm lines' corresponding sister lines. These 8 lines should be useful for marker assisted improvement of fiber length. GA qFL25-D2 exhibited UHML significantly longer than parent Deltapine 50 (33.5 mm vs. 28.6 mm respectively). 2091850PI 690464
378PI 690465GA qFL25-D1Gossypium hirsutum L. Georgia, United StatesCOTNot Available2019DEVELOPEDBreeding materialGA qFL25-D1 is one of 8 upland cotton (Gossypium hirsutum) germplasm lines that were developed by the Molecular Cotton Breeding Laboratory, Department of Crop and Soil Science at the University of Georgia's Coastal Plains Experiment Station in Tifton, GA. These 8 germplasm lines resulted from crosses of Sealand 883 (SL883)(PI 528875), an interspecific introgression line, by 4 diverse G. hirsutum cultivar parents, Acala SJ4 (Pl 529538), Paymaster HS26 (PVP 8600087, Pl 606814), Deltapine 50 (PVP 8400154, Pl 529566), and GA2004089, an unreleased breeding line. Previous mapping work identified qFL-Chr.25, a quantitative trait locus (QTL) with significant effect on fiber upper half mean length carried by SL883. Bulked sister lines were selected with the aid of marker-assisted selection from several F3:5 segregating families for each of these 4 crosses to quantify the effect of the QTL in highly related sister lines. The 8 lines presented here represent the best genotypes from that group for lint percent and fiber quality, especially UHML, from these experiments. The presence of the SL883 allele for qFL-Chr.25 resulted in an increase of 0.6 mm (1.9 %) to 3.5 mm (11.7 %), and an average increase of 1.7 mm (5.6 %), compared to the germplasm lines' corresponding sister lines. These 8 lines should be useful for marker assisted improvement of fiber length. GA qFL25-D1 exhibited UHML significantly longer than parent Deltapine 50 (33.3 mm vs. 28.6 mm respectively). 2091851PI 690465
379PI 690433GA R01-40-08Gossypium hirsutum L. Georgia, United StatesCOTNot Available2019DEVELOPEDBreeding material'R01-40-08', is a Gossypium hirsutum germplasm line developed by the Molecular Cotton Breeding Laboratory, Department of Crop and Soil Sciences, at the University of Georgia. R01-40-08 was selected from an interspecific inbred backcross population derived from the cross of ‘Tamcot 2111’ (G. hirsutum) with ‘Pima S-6’ (G. barbadense). This G. hirsutum germplasm line harbors an introgressed quantitative trait locus (QTL), qFL-Chr.1, conferring improved upper half mean fiber length (UHML) from Pima S-6. Field trials conducted in Plains and Tifton, Georgia in 2009, 2013, and 2014 indicate that R01-40-08 exhibits improved UHML of 1.5 mm longer than the Tamcot 2111 parent, representing a 5% improvement. R01-40-08 had fiber yields over 18% higher than the Pima S-6 parent and equivalent to the higher yielding parent, Tamcot 2111. This germplasm line will provide upland cotton breeders with an adapted source of the qFL-Chr.1 QTL for improved UHML and the tightly linked markers published previously will allow breeders to utilize marker-assisted selection for rapid incorporation.2091782PI 690433
380PI 690437'FSSY09'Gossypium hirsutum L. Texas, United StatesPVPONot Available2019DEVELOPEDCultivar2091786PI 690437
381PI 690438'NG 2982 B3XF'Gossypium hirsutum L. Texas, United StatesPVPONot Available2019DEVELOPEDGenetically Engineered2091787PI 690438
382PI 690439'NG 3930 B3XF'Gossypium hirsutum L. Texas, United StatesPVPONot Available2019DEVELOPEDGenetically Engineered2091788PI 690439
383PI 690440'NG 3956 B3XF'Gossypium hirsutum L. Texas, United StatesPVPONot Available2019DEVELOPEDGenetically Engineered2091789PI 690440
384PI 690441'NG 3994 B3XF'Gossypium hirsutum L. Texas, United StatesPVPONot Available2019DEVELOPEDGenetically Engineered2091790PI 690441
385PI 688427NM 990764Gossypium hirsutum L. New Mexico, United StatesCOTNot Available2018DEVELOPEDBreeding material1965699PI 688427
386PI 688428NM 990649Gossypium hirsutum L. New Mexico, United StatesCOTNot Available2018DEVELOPEDBreeding material1965700PI 688428
387PI 688429NM 990815Gossypium hirsutum L. New Mexico, United StatesCOTNot Available2018DEVELOPEDBreeding material1965701PI 688429
388PI 688430NM 990827Gossypium hirsutum L. New Mexico, United StatesCOTNot Available2018DEVELOPEDBreeding material1965702PI 688430
389PI 688431Acala 1517-18 GLSGossypium hirsutum L. New Mexico, United StatesCOTNot Available2018DEVELOPEDBreeding material1965703PI 688431
390PI 688432NM 970123Gossypium hirsutum L. New Mexico, United StatesCOTNot Available2018DEVELOPEDBreeding material1965704PI 688432
391PI 688413'TTU SCM3-7-3-A3'Gossypium hirsutum L. Texas, United StatesPVPONot Available2018DEVELOPEDGenetic materialThree cotton populations that had been exposed to Ethyl MethaneSulfonate (EMS) using conventional chemical mutagenesis techniques provided the original M5 parental populations screened in this study. No DNA or RNA were utilized at any time in this process to ensure that selected lines would not be considered transgenic or GMO in origin. The parental populations were TAM 94L-25 (PI 631440) (Smith, 2003); Acala 1517-99 (Reg. no. CV-115, PI 612326) (Cantrell, et al., 2000); and TTU SCM3-7-3-3 (Reg. No.GS-4, PI 657942) (Bechere, et al., 2010).1965685PI 688413
392PI 688414TTU SCM3-7-3-A3Gossypium hirsutum L. Texas, United StatesPVPONot Available2018DEVELOPEDGenetic materialThree cotton populations that had been exposed to Ethyl MethaneSulfonate (EMS) using conventional chemical mutagenesis techniques provided the original M5 parental populations screened in this study. No DNA or RNA were utilized at any time in this process to ensure that selected lines would not be considered transgenic or GMO in origin. The parental populations were TAM 94L-25 (PI 631440) (Smith, 2003); Acala 1517-99 (Reg. no. CV-115, PI 612326) (Cantrell, et al., 2000); and TTU SCM3-7-3-3 (Reg. No.GS-4, PI 657942) (Bechere, et al., 2010).1965686PI 688414
393PI 688415AFIS 1-1-1422-A5Gossypium hirsutum L. Texas, United StatesPVPONot Available2018DEVELOPEDGenetic materialThree cotton populations that had been exposed to Ethyl MethaneSulfonate (EMS) using conventional chemical mutagenesis techniques provided the original M5 parental populations screened in this study. No DNA or RNA were utilized at any time in this process to ensure that selected lines would not be considered transgenic or GMO in origin. The parental populations were TAM 94L-25 (PI 631440) (Smith, 2003); Acala 1517-99 (Reg. no. CV-115, PI 612326) (Cantrell, et al., 2000); and TTU SCM3-7-3-3 (Reg. No.GS-4, PI 657942) (Bechere, et al., 2010).1965687PI 688415
394PI 688416AFIS 1-136-A5Gossypium hirsutum L. Texas, United StatesPVPONot Available2018DEVELOPEDGenetic materialThree cotton populations that had been exposed to Ethyl MethaneSulfonate (EMS) using conventional chemical mutagenesis techniques provided the original M5 parental populations screened in this study. No DNA or RNA were utilized at any time in this process to ensure that selected lines would not be considered transgenic or GMO in origin. The parental populations were TAM 94L-25 (PI 631440) (Smith, 2003); Acala 1517-99 (Reg. no. CV-115, PI 612326) (Cantrell, et al., 2000); and TTU SCM3-7-3-3 (Reg. No.GS-4, PI 657942) (Bechere, et al., 2010).1965688PI 688416
395PI 688417AFIS 2-340-A5Gossypium hirsutum L. Texas, United StatesPVPONot Available2018DEVELOPEDGenetic materialThree cotton populations that had been exposed to Ethyl MethaneSulfonate (EMS) using conventional chemical mutagenesis techniques provided the original M5 parental populations screened in this study. No DNA or RNA were utilized at any time in this process to ensure that selected lines would not be considered transgenic or GMO in origin. The parental populations were TAM 94L-25 (PI 631440) (Smith, 2003); Acala 1517-99 (Reg. no. CV-115, PI 612326) (Cantrell, et al., 2000); and TTU SCM3-7-3-3 (Reg. No.GS-4, PI 657942) (Bechere, et al., 2010).1965689PI 688417
396PI 687864Arkot 0611Gossypium hirsutum L. Arkansas, United StatesCOTNot Available2018DEVELOPEDBreeding materialMorphological traits of Arkot 0611 are similar to 'DP 393' (check cultivar), except trichome density of Arkot 0611 was higher on abaxial leaf surfaces and bract margins. Lint yield of Arkot 0611 was 10.3% higher than DP 393 over 16 replicated field tests at four sites in Arkansas. By location, lint yields of Arkot 0611 were equal to lint yields of DP 393 on Sharkey clay soil at Keiser (north) and on silt loam soil at Rohwer (south), but were 19.4% higher on silt loam soil at Judd Hill (north) and 11.7% higher on silt loam soil at Marianna ( central Arkansas). Compared to DP 393, lint yields of Arkot 0611 were produced with higher lint percentage, number of seed per area, lint index, fibers per seed, and fiber density ( estimated number of fibers per unit area of seed surface); and lower seed size (seed index). Compared to DP 393, Arkot 06 I 1 produced higher leaf pubescence rating ( 4.0 vs. 2.5), marginal bract trichome density (34.0 vs. 24.9 trichomes cm-1), open boll percentage (66 vs. 61 %), lint percentage (40.8 vs. 39.5), seed per area(8.3% higher), lint index (7.6 vs. 7.5 g), fibers per seed (l 0.1 % higher), fiber density (13. 7% higher), fiber elongation (7.8 vs. 6.6%); equal plant height and stem pubescence; and lower seed index (I 0.3 vs. 11.3 g), quality score (40 vs. 49), micronaire (4.77 vs. 4.96), fiber length (30.0 vs 29.7 mm), uniformity index (83.9 vs. 85.1 %), and fiber strength (300 vs. 326 kN m Kg-1). Arkot 0611 is resistance to all U.S. races of Xanthomonas citri ssp. malvacearum ( ex Smith 190 I) Schaad et al. 2007, the causal agent of bacterial blight. Arkot 0611 had lower damaged flowers (more resistance) than DP 393 in tests of resistance to tarnished plant bug [Lygus lineolaris (Palisot de Beauvois)]. Response of Arkot 06 I I to fusarium wilt [caused by Fusarium oxysporum Schlect. F. sp. vasinfectum (Atk.) Snyd. & Hans.] was equal to the ,resistant check, M-315. 1964026PI 687864
397PI 687866Arkot 0617Gossypium hirsutum L. Arkansas, United StatesCOTNot Available2018DEVELOPEDBreeding materialMorphological traits of Arkot 0617 are similar to 'DP 393' (check cultivar), except trichome density of Arkot 0617 was higher on abaxial leaf surfaces and bract margins but lower on stems. Over 16 replicated field tests at four sites in Arkansas, lint yields of Arkot 0617 were equal to lint yields of DP 393 on silt loam soil at Marianna (central Arkansas) and on silt loam soil at Rohwer (south), but were 10 .. 3% higher on Sharkey clay soil at Keiser (north) and 5.4% higher on silt loam soil at Judd Hill (north). Compared to DP 393, lint yields of Arkot 0617 were produced with higher lint percentage; equal number of seed per area, fibers per seed, and fiber density (estimated number of fibers per unit area of seed surface); and lower seed size (seed index) and weight of lint per seed (lint index). Compared to DP 393, Arkot 0617 produced higher leaf pubescence rating (4.1 vs. 2.5), marginal bract trichome density (27.6 vs. 24.9 trichomes cm·'), open boll percentage (67 vs. 61 %), lint percentage (40.3 vs. 39.5), fiber quality score (58 vs. 49), and fiber length (30.5 vs. 29.7 g); equal seed per area, fibers per seed, fiber density, micronaire, uniformity index, fiber strength, and elongation; and lower stem pubescence rating (3.2 vs. 5.0), lint index (7.4 vs. 7.5 g), and seed index (10.9 vs. 11.3 g). Arkot 0617 is resistance to all U.S. races of Xanthomonas citri ssp. malvacearum (ex Smith 1901) Schaad et al. 2007, the causal agent of bacterial blight. Arkot 0617 had equal damaged flowers as DP 393 in tests of resistance to tarnished plant bug [Lygus lineolaris (Palisot de Beauvois)]. 1964028PI 687866
398PI 687203'ST 5818GLT'Gossypium hirsutum L. Georgia, United StatesPVPONot Available2018DEVELOPEDGenetically Engineered1962582PI 687203
399PI 687031PSLC-U01Gossypium hirsutum L. Texas, United StatesCOTNot Available2018DEVELOPEDBreeding materialThe Agricultural Research Service, United States Department of Agriculture and Cotton Incorporated announce the joint release of seven Upland cotton germplasm lines, PSLC-U01, PSLC-U02, PSLC-U03, PSLC-U04, PSLC-U05, PSLC-U06, and PSLC-U07 that possess competitive lint yield, superior fiber strength, length, and uniformity when grown on the High Plains of Texas. The PSLC germplasm lines originated from the cross of two commercial cultivars, ‘Phytogen 72’ [PHY 72 (female)] and ‘Stoneville 474’ [STV 474 (male)]. The PSLC_U01-U07 lines were originally selected from a total of 137 F7 recombinant inbred lines; each derived from a single seed decent (F1 to F7). Since the initial selection from the replicated trials at USDA-ARS, Plant Stress and Germplasm Development Research Unit, Lubbock, Texas, the PSLC-U01-U07 lines showed excellent fiber quality properties. In 2014, fiber strength ranged with averages from 311.3 to 351.7 kN m kg-1 and in 2016 from 299.8 to 345.0 kN m kg-1 for the PSLC lines. While in 2014, the two parents (PHY 72= 327.8 and STV 474 = 285.2 kN m kg-1) and the four check cultivars (‘DeltaPine 1212’, ‘FiberMax 2011’, ‘Phytogen 375’, and ‘Stoneville 5458’) ranged from 272.9 to 306.3 kN m kg-1, and in 2016, the two parent (PHY 72= 320.8 and STV 474 = 285.2 kN m kg-1) and the four check cultivars ranged 270.5 to 307.8 kN m kg-1. In 2014, fiber length ranged with averages from 28.87 to 31.83 mm and in 2016 from 28.51 to 31.88 mm for the PSLC lines. While in 2014, the two parents and the four check cultivars ranged from 27.08 to 29.46 mm, and in 2016, the two parent and the four check cultivars ranged 27.31 to 29.53 mm. The replicated trials also revealed that fiber uniformity increasing at least 1 % in the PSLC germplasm lines, and the lines kept micronaire which is an estimated of fiber maturity and fineness within acceptable thresh holds. 1958044PI 687031
400PI 687032PSLC-U02Gossypium hirsutum L. Texas, United StatesCOTNot Available2018DEVELOPEDBreeding materialThe Agricultural Research Service, United States Department of Agriculture and Cotton Incorporated announce the joint release of seven Upland cotton germplasm lines, PSLC-U01, PSLC-U02, PSLC-U03, PSLC-U04, PSLC-U05, PSLC-U06, and PSLC-U07 that possess competitive lint yield, superior fiber strength, length, and uniformity when grown on the High Plains of Texas. The PSLC germplasm lines originated from the cross of two commercial cultivars, ‘Phytogen 72’ [PHY 72 (female)] and ‘Stoneville 474’ [STV 474 (male)]. The PSLC_U01-U07 lines were originally selected from a total of 137 F7 recombinant inbred lines; each derived from a single seed decent (F1 to F7). Since the initial selection from the replicated trials at USDA-ARS, Plant Stress and Germplasm Development Research Unit, Lubbock, Texas, the PSLC-U01-U07 lines showed excellent fiber quality properties. In 2014, fiber strength ranged with averages from 311.3 to 351.7 kN m kg-1 and in 2016 from 299.8 to 345.0 kN m kg-1 for the PSLC lines. While in 2014, the two parents (PHY 72= 327.8 and STV 474 = 285.2 kN m kg-1) and the four check cultivars (‘DeltaPine 1212’, ‘FiberMax 2011’, ‘Phytogen 375’, and ‘Stoneville 5458’) ranged from 272.9 to 306.3 kN m kg-1, and in 2016, the two parent (PHY 72= 320.8 and STV 474 = 285.2 kN m kg-1) and the four check cultivars ranged 270.5 to 307.8 kN m kg-1. In 2014, fiber length ranged with averages from 28.87 to 31.83 mm and in 2016 from 28.51 to 31.88 mm for the PSLC lines. While in 2014, the two parents and the four check cultivars ranged from 27.08 to 29.46 mm, and in 2016, the two parent and the four check cultivars ranged 27.31 to 29.53 mm. The replicated trials also revealed that fiber uniformity increasing at least 1 % in the PSLC germplasm lines, and the lines kept micronaire which is an estimated of fiber maturity and fineness within acceptable thresh holds. 1958045PI 687032
401PI 687033PSLC-U03Gossypium hirsutum L. Texas, United StatesCOTNot Available2018DEVELOPEDBreeding materialThe Agricultural Research Service, United States Department of Agriculture and Cotton Incorporated announce the joint release of seven Upland cotton germplasm lines, PSLC-U01, PSLC-U02, PSLC-U03, PSLC-U04, PSLC-U05, PSLC-U06, and PSLC-U07 that possess competitive lint yield, superior fiber strength, length, and uniformity when grown on the High Plains of Texas. The PSLC germplasm lines originated from the cross of two commercial cultivars, ‘Phytogen 72’ [PHY 72 (female)] and ‘Stoneville 474’ [STV 474 (male)]. The PSLC_U01-U07 lines were originally selected from a total of 137 F7 recombinant inbred lines; each derived from a single seed decent (F1 to F7). Since the initial selection from the replicated trials at USDA-ARS, Plant Stress and Germplasm Development Research Unit, Lubbock, Texas, the PSLC-U01-U07 lines showed excellent fiber quality properties. In 2014, fiber strength ranged with averages from 311.3 to 351.7 kN m kg-1 and in 2016 from 299.8 to 345.0 kN m kg-1 for the PSLC lines. While in 2014, the two parents (PHY 72= 327.8 and STV 474 = 285.2 kN m kg-1) and the four check cultivars (‘DeltaPine 1212’, ‘FiberMax 2011’, ‘Phytogen 375’, and ‘Stoneville 5458’) ranged from 272.9 to 306.3 kN m kg-1, and in 2016, the two parent (PHY 72= 320.8 and STV 474 = 285.2 kN m kg-1) and the four check cultivars ranged 270.5 to 307.8 kN m kg-1. In 2014, fiber length ranged with averages from 28.87 to 31.83 mm and in 2016 from 28.51 to 31.88 mm for the PSLC lines. While in 2014, the two parents and the four check cultivars ranged from 27.08 to 29.46 mm, and in 2016, the two parent and the four check cultivars ranged 27.31 to 29.53 mm. The replicated trials also revealed that fiber uniformity increasing at least 1 % in the PSLC germplasm lines, and the lines kept micronaire which is an estimated of fiber maturity and fineness within acceptable thresh holds. 1958046PI 687033
402PI 687034PSLC-U04Gossypium hirsutum L. Texas, United StatesCOTNot Available2018DEVELOPEDBreeding materialThe Agricultural Research Service, United States Department of Agriculture and Cotton Incorporated announce the joint release of seven Upland cotton germplasm lines, PSLC-U01, PSLC-U02, PSLC-U03, PSLC-U04, PSLC-U05, PSLC-U06, and PSLC-U07 that possess competitive lint yield, superior fiber strength, length, and uniformity when grown on the High Plains of Texas. The PSLC germplasm lines originated from the cross of two commercial cultivars, ‘Phytogen 72’ [PHY 72 (female)] and ‘Stoneville 474’ [STV 474 (male)]. The PSLC_U01-U07 lines were originally selected from a total of 137 F7 recombinant inbred lines; each derived from a single seed decent (F1 to F7). Since the initial selection from the replicated trials at USDA-ARS, Plant Stress and Germplasm Development Research Unit, Lubbock, Texas, the PSLC-U01-U07 lines showed excellent fiber quality properties. In 2014, fiber strength ranged with averages from 311.3 to 351.7 kN m kg-1 and in 2016 from 299.8 to 345.0 kN m kg-1 for the PSLC lines. While in 2014, the two parents (PHY 72= 327.8 and STV 474 = 285.2 kN m kg-1) and the four check cultivars (‘DeltaPine 1212’, ‘FiberMax 2011’, ‘Phytogen 375’, and ‘Stoneville 5458’) ranged from 272.9 to 306.3 kN m kg-1, and in 2016, the two parent (PHY 72= 320.8 and STV 474 = 285.2 kN m kg-1) and the four check cultivars ranged 270.5 to 307.8 kN m kg-1. In 2014, fiber length ranged with averages from 28.87 to 31.83 mm and in 2016 from 28.51 to 31.88 mm for the PSLC lines. While in 2014, the two parents and the four check cultivars ranged from 27.08 to 29.46 mm, and in 2016, the two parent and the four check cultivars ranged 27.31 to 29.53 mm. The replicated trials also revealed that fiber uniformity increasing at least 1 % in the PSLC germplasm lines, and the lines kept micronaire which is an estimated of fiber maturity and fineness within acceptable thresh holds. 1958047PI 687034
403PI 687035PSLC-U05Gossypium hirsutum L. Texas, United StatesCOTNot Available2018DEVELOPEDBreeding materialThe Agricultural Research Service, United States Department of Agriculture and Cotton Incorporated announce the joint release of seven Upland cotton germplasm lines, PSLC-U01, PSLC-U02, PSLC-U03, PSLC-U04, PSLC-U05, PSLC-U06, and PSLC-U07 that possess competitive lint yield, superior fiber strength, length, and uniformity when grown on the High Plains of Texas. The PSLC germplasm lines originated from the cross of two commercial cultivars, ‘Phytogen 72’ [PHY 72 (female)] and ‘Stoneville 474’ [STV 474 (male)]. The PSLC_U01-U07 lines were originally selected from a total of 137 F7 recombinant inbred lines; each derived from a single seed decent (F1 to F7). Since the initial selection from the replicated trials at USDA-ARS, Plant Stress and Germplasm Development Research Unit, Lubbock, Texas, the PSLC-U01-U07 lines showed excellent fiber quality properties. In 2014, fiber strength ranged with averages from 311.3 to 351.7 kN m kg-1 and in 2016 from 299.8 to 345.0 kN m kg-1 for the PSLC lines. While in 2014, the two parents (PHY 72= 327.8 and STV 474 = 285.2 kN m kg-1) and the four check cultivars (‘DeltaPine 1212’, ‘FiberMax 2011’, ‘Phytogen 375’, and ‘Stoneville 5458’) ranged from 272.9 to 306.3 kN m kg-1, and in 2016, the two parent (PHY 72= 320.8 and STV 474 = 285.2 kN m kg-1) and the four check cultivars ranged 270.5 to 307.8 kN m kg-1. In 2014, fiber length ranged with averages from 28.87 to 31.83 mm and in 2016 from 28.51 to 31.88 mm for the PSLC lines. While in 2014, the two parents and the four check cultivars ranged from 27.08 to 29.46 mm, and in 2016, the two parent and the four check cultivars ranged 27.31 to 29.53 mm. The replicated trials also revealed that fiber uniformity increasing at least 1 % in the PSLC germplasm lines, and the lines kept micronaire which is an estimated of fiber maturity and fineness within acceptable thresh holds. 1958048PI 687035
404PI 687036PSLC-U06Gossypium hirsutum L. Texas, United StatesCOTNot Available2018DEVELOPEDBreeding materialThe Agricultural Research Service, United States Department of Agriculture and Cotton Incorporated announce the joint release of seven Upland cotton germplasm lines, PSLC-U01, PSLC-U02, PSLC-U03, PSLC-U04, PSLC-U05, PSLC-U06, and PSLC-U07 that possess competitive lint yield, superior fiber strength, length, and uniformity when grown on the High Plains of Texas. The PSLC germplasm lines originated from the cross of two commercial cultivars, ‘Phytogen 72’ [PHY 72 (female)] and ‘Stoneville 474’ [STV 474 (male)]. The PSLC_U01-U07 lines were originally selected from a total of 137 F7 recombinant inbred lines; each derived from a single seed decent (F1 to F7). Since the initial selection from the replicated trials at USDA-ARS, Plant Stress and Germplasm Development Research Unit, Lubbock, Texas, the PSLC-U01-U07 lines showed excellent fiber quality properties. In 2014, fiber strength ranged with averages from 311.3 to 351.7 kN m kg-1 and in 2016 from 299.8 to 345.0 kN m kg-1 for the PSLC lines. While in 2014, the two parents (PHY 72= 327.8 and STV 474 = 285.2 kN m kg-1) and the four check cultivars (‘DeltaPine 1212’, ‘FiberMax 2011’, ‘Phytogen 375’, and ‘Stoneville 5458’) ranged from 272.9 to 306.3 kN m kg-1, and in 2016, the two parent (PHY 72= 320.8 and STV 474 = 285.2 kN m kg-1) and the four check cultivars ranged 270.5 to 307.8 kN m kg-1. In 2014, fiber length ranged with averages from 28.87 to 31.83 mm and in 2016 from 28.51 to 31.88 mm for the PSLC lines. While in 2014, the two parents and the four check cultivars ranged from 27.08 to 29.46 mm, and in 2016, the two parent and the four check cultivars ranged 27.31 to 29.53 mm. The replicated trials also revealed that fiber uniformity increasing at least 1 % in the PSLC germplasm lines, and the lines kept micronaire which is an estimated of fiber maturity and fineness within acceptable thresh holds. 1958049PI 687036
405PI 687037PSLC-U07Gossypium hirsutum L. Texas, United StatesCOTNot Available2018DEVELOPEDBreeding materialThe Agricultural Research Service, United States Department of Agriculture and Cotton Incorporated announce the joint release of seven Upland cotton germplasm lines, PSLC-U01, PSLC-U02, PSLC-U03, PSLC-U04, PSLC-U05, PSLC-U06, and PSLC-U07 that possess competitive lint yield, superior fiber strength, length, and uniformity when grown on the High Plains of Texas. The PSLC germplasm lines originated from the cross of two commercial cultivars, ‘Phytogen 72’ [PHY 72 (female)] and ‘Stoneville 474’ [STV 474 (male)]. The PSLC_U01-U07 lines were originally selected from a total of 137 F7 recombinant inbred lines; each derived from a single seed decent (F1 to F7). Since the initial selection from the replicated trials at USDA-ARS, Plant Stress and Germplasm Development Research Unit, Lubbock, Texas, the PSLC-U01-U07 lines showed excellent fiber quality properties. In 2014, fiber strength ranged with averages from 311.3 to 351.7 kN m kg-1 and in 2016 from 299.8 to 345.0 kN m kg-1 for the PSLC lines. While in 2014, the two parents (PHY 72= 327.8 and STV 474 = 285.2 kN m kg-1) and the four check cultivars (‘DeltaPine 1212’, ‘FiberMax 2011’, ‘Phytogen 375’, and ‘Stoneville 5458’) ranged from 272.9 to 306.3 kN m kg-1, and in 2016, the two parent (PHY 72= 320.8 and STV 474 = 285.2 kN m kg-1) and the four check cultivars ranged 270.5 to 307.8 kN m kg-1. In 2014, fiber length ranged with averages from 28.87 to 31.83 mm and in 2016 from 28.51 to 31.88 mm for the PSLC lines. While in 2014, the two parents and the four check cultivars ranged from 27.08 to 29.46 mm, and in 2016, the two parent and the four check cultivars ranged 27.31 to 29.53 mm. The replicated trials also revealed that fiber uniformity increasing at least 1 % in the PSLC germplasm lines, and the lines kept micronaire which is an estimated of fiber maturity and fineness within acceptable thresh holds. 1958050PI 687037
406PI 677330Arkot 0502neGossypium hirsutum L. Arkansas, United StatesCOTNot Available2016DEVELOPEDBreeding materialArkot 0502ne is a nectariless (no nectaries on leaves or flowers) line. Other morphological traits of Arkot 0502ne are similar to 'DP 393' (check cultivar), except Arkot 0502ne has lower density oftrichomes (less pubescence) on leaves, stems, and the marginal of bracts. Over 20 replicated field tests at four sites in Arkansas, lint yields of Arkot 0502ne were equal to lint yields of DP 393, but were 7% higher at Judd Hill (site having silt loam soil in north Arkansas). Compared to DP 393, lint yields of Arkot 0502ne were produced with equal number of seed per area, weight of lint per seed (lint index), and seed size (seed index), but lower number of fibers per seed and fiber density (estimated number of fibers per unit area of seed surface). Compared to DP 393, Arkot 0502ne produced higher Q-score (70 vs. 51), fiber length (31 .6 vs. 30.2 mm), length uniformity index (86.3 vs. 85.2%), and fiber strength (352 vs. 332 kN m kg- 1; equalseed per area, plant height, open bolls percentage, lint percentage, lint index, seed index, micronaire; and lower fibers per seed (7 .5% lower), fiber density (6.4% fewer fibers per unit area of seed surface) and fiber elongation (5.8 vs. 6.5%). Arkot 0502ne is resistance to all U.S. races of Xanthomonas citri ssp.malvacearum (ex Smith 1901) Schaad et al. 2007, the causal agent of bacterial blight. In field tests, it demonstrated tolerance to Verticillium wilt (caused by Verticillium dahliae Kleb.). Its nectariless trait should provide Arkot 0502ne some resistance to tarnished plant bug [Lygus lineolaris (Palisot de Beauvois)].Notes:1. Plants, from which seed were produced, were evaluated and determined to be free ofBt (BGl and BGII) and RR Flex transgenes.2. Delinted seed were inadvertently treated with Evergol Prime (0.32oz/cwt), Vortex FL (0.08oz/cwt), Allegiance FL (0.75oz/cwt), and Gaucho 600 (6 oz/cwt). Treated seed were washed thoroughly but some red dye is visible on micropylar ends of seed.1940826PI 677330
407PI 677331'Arkot 0504ne'Gossypium hirsutum L. Arkansas, United StatesCOTNot Available2016DEVELOPEDBreeding materialArkot 0504ne is a nectariless (no nectaries on leaves or flowers) line. Other morphological traits of Arkot 0504ne are similar to 'DP 393' (check cultivar), except Arkot 0504ne is taller and has lower density of trichomes (less pubescence), but higher density of trichomes on bract margins. Over 20 replicated field tests at four sites in Arkansas, lint yields of Arkot 0504ne were equal to lint yields of DP 393. Compared to DP 393, lint yields of Arkot 0504ne were produced with lower weight of lint per seed (lint index), but equal number of seed per area, seed size (seed index), fibers per seed, and fiber density (estimated number of fibers per unit area of seed surface). Compared to DP 393, Arkot 0504ne produced taller plants (106 vs 100 cm), higher open boll percentage (67 vs. 59%), better Q-score (64 vs. 51 ), and longer fiber length (31.2 vs. 30.2 mm); equal lint percentage, seed per area, seed index, fibers per seed, and fiber density, length uniformity index, and fiber strength; and lower lint index (7.3 vs 7.5 g), micronaire (4.62 vs. 4.80) and fiber elongation (6.0 vs. 6.5%). Arkot 0504ne is resistance to all U.S. races of Xanthomonas citri ssp. malvacearum (ex Smith 190 I) Schaad et al. 2007, the causal agent of bacterial blight. Its nectariless trait should provide Arkot 0504ne some resistance to tarnished plant bug [Lygus lineolaris (Palisot de Beauvais)]. Response of Arkot 0504ne to fusarium wilt [caused by Fusarium oxysporum Schlect. F. sp. vasinfectum (Atk.) Snyd. and Hans.] was equal to the resistant check, M-315. Note: Plants, from which seed were produced, were evaluated and determined to be free of Bt (BG 1 and BGII) and RR Flex transgenes.1940827PI 677331
408PI 677332'Arkot 0506ne'Gossypium hirsutum L. Arkansas, United StatesCOTNot Available2016DEVELOPEDBreeding materialArkot 0506ne is a nectariless (no nectaries on leaves or flowers) line. Other morphological traits of Arkot 0506ne are similar to 'DP 393' (check cultivar), except Arkot 0506ne had less stem pubescence. Over 20 replicated field tests at four sites in Arkansas, lint yields of Arkot 0502ne were equal to lint yields of DP393, but were 9% higher at Keiser (Sharkey clay soil in north Arkansas). Compared to DP 393, lint yields of Arkot 0506ne were produced with higher seed per area, but lower weight of lint per seed (lint index), fibers per seed, and fiber density (estimated number of fibers per unit area of seed surface). Compared to DP 393, Arkot 0506ne produced higher seed per area (5.5% more), open boll percentage (64 vs. 59%), Q-score (64 vs. 51 ), and longer fiber length (31.5 vs. 30.2 mm); equal plant height, seed index, length uniformity index, fiber strength, and micronaire; and lower lint percentage (38.1 vs. 39.2%), lint index (7.3 vs 7.5 g), fibers per seed (7.6% lower), fiber density (8.6% fewer fibers per unit of seed surface), and fiber elongation (5.3 vs. 6.5%). Arkot 0506ne is resistance to all U.S. races of Xanthomonas citri ssp. malvacearum (ex Smith 1901) Schaad et al. 2007, the causal agent of bacterial blight. Its nectariless trait should provide Arkot 0506ne some resistance to tarnished plant bug [Lygus lineolaris (Palisot de Beauvois)]. Response of Arkot 0506ne to fusarium wilt [caused by Fusarium oxysporum Schlect. F. sp. vasinfectum (Atk.) Snyd. and Hans.] was equal to the resistant check, M-315. Note: Plants, from which seed were produced, were evaluated and determined to be free of Bt (BG I and BGII) and RR Flex transgenes.1940828PI 677332
409PI 677333'Arkot 0517HG'Gossypium hirsutum L. Arkansas, United StatesCOTNot Available2016DEVELOPEDBreeding materialArkot 05 l 7HG displays the high glanding (HG) trait which is expressed by gossypol glands found in the calyx lobes. Other morphological traits of Arkot 05 l 7HG are similar to 'DP 393' (check cultivar), except Arkot 05 I 7HG has higher density of trichomes on leaves (leaf pubescence), but lower density of trichomes on stems (stem pubescence) and on the margins of bracts. Over 20 replicated field tests at four sites in Arkansas, lint yields of Arkot 0517HG were equal to lint yields of DP393, but were 9% higher at Judd Hill and Marianna (silt loam soils in north Arkansas). Compared to DP 393, lint yields of Arkot 05 l 7HG were produced with fewer seed per area, but higher weight of lint per seed (lint index), seed size (seed index), fibers per seed, and fiber density (estimated number of fibers per unit area of seed surface). Compared to DP 393, Arkot 05 l 7HG produced higher lint index (8.3 vs. 7 .5 g), seed index (12.3 vs. 11.4 g), fibers per seed (14% more), fiber density (8.6% more), Q-score (67 vs 51), and fiber length (31.0 vs. 30.2 mm); equal plant height, open boll percentage, lint percentage, length uniformity index, fiber strength, and fiber elongation; and lower seed per area (6.6% fewer) and micronaire (4.49 vs. 4.80). Arkot 0517HG is resistance to all U.S. races ofXanthomonas citri ssp. malvacearum (ex Smith 1901) Schaad et al. 2007, the causal agent of bacterial blight. Its high glanding trait should provide Arkot 0517HG some resistance to boll feeding lepidopteria. In field tests, it demonstrated tolerance to VerticiJlium wilt (caused by Verticillium dahliae Kleb.). Response of Arkot 0517HG to fusarium wilt [caused by Fusarium oxysporum Schlect. F. sp. vasinfectum (Atk.) Snyd. and Hans.] was equal to the resistant check, M-315.Notes:1. Plants, from which seed were produced, were evaluated and determined to be free of Bt (BG 1 and BGII) and RR Flex transgenes.2. Delinted seed were inadvertently treated with Evergol Prime (0.32ozlcwt), Vortex FL (0.08ozlcwt), Allegiance FL (0.75ozlcwt), and Gaucho 600 (6 ozlcwt). Treated seed were washed thoroughly but some red dye is visible on micropylar ends of seed.1940829PI 677333
410PI 677343'PX06520-42-2-1'Gossypium hirsutum L. Texas, United StatesCOTNot Available2016DEVELOPEDBreeding materialPX06520-42-2-1 is a high fiber quality line that in testing across 23 tests produced an average fiber length of 31.8 mm, a fiber strength of 353 kN m kg-1, a fiber length uniformity of 85.3%, and a short fiber content of 7.04%. This is in contrast to the commercial cultivar check, FM958, that had a fiber length of 29.6 mm, a fiber strength of 308 kN m kg-1, a fiber length uniformity of 83.8%, and a short fiber content of 7.62%. In the 23 tests, PX06520-42-2-1 had an average lint yield of 1,619 kg ha-1 and lint percent of 41.1%, in contrast to the high yielding commercial cultivar check, DP 393, that had a lint yield of 1,710 kg ha-1 and a lint percent of 42.1%. PX06520-42-2-1 has a large boll size (5.78 g) and high seed weight (11.44 g/100 seed).1940839PI 677343
411PI 677344'PX06520-42-2-3'Gossypium hirsutum L. Texas, United StatesCOTNot Available2016DEVELOPEDBreeding materialPX06520-42-2-3 is a high fiber quality line that in testing across 13 tests produced an average fiber length of 32.5 mm, a fiber strength of 366 kN m kg-1, a fiber length uniformity of 85.8%, and a short fiber content of 6.62%. This is in contrast to the commercial cultivar check, FM958, that had a fiber length of 29.5 mm, a fiber strength of 308 kN m kg-1, a fiber length uniformity of 83.5%, and a short fiber content of 7.67%. In the 13 tests, PX06520-42-2-3 had an average lint yield of 1,572 kg ha-1 and lint percent of 39.7%, in contrast to the high yielding commercial cultivar check, DP 393, that had a lint yield of 1,775 kg ha-1 and a lint percent of 41.6%. PX06520-42-2-3 has a large boll size (5.96 g) and high seed weight (12.37 g/100 seed).1940840PI 677344
412PI 677334'CS-B05sh-RI-10'Gossypium hirsutum L. Mississippi, United StatesCOTNot Available2016DEVELOPEDBreeding materialThe CS-B05sh-RIL-10 (078-8623) were selected from the fifty CS-B05shRILs for release based on their improved fiber quality traits especially superior elongation percentage of 7 .64. This line showed improved elongation percentage compared to the commercial lines of DP 393 and PHY 370 WR, which had elongation percentage of 6.86 and 6.25, respectively. These line had also higher elongation percentages than the recurrent parent TM-1, 3-79 and CS-B05sh, which were grown in the same locations and same year in a separate experiment. However, this line had poor agronomic qualities compared to the commercial lines. Fiber elongation (ability to stretch before breaking) is one of the important traits in determining yarn quality. This line carrying a small segment of chromosome five short arm from G. barbadense provide an effective way of Upland cotton improvement by targeted interspecific introgression of desirable traits from G. barbadense with reduced linkage drag effects.1940830PI 677334
413PI 677335'CS-B05sh-RI-34'Gossypium hirsutum L. Mississippi, United StatesCOTNot Available2016DEVELOPEDBreeding materialThe CS-B05sh-RIL-34 (078-8634) were selected from the fifty CS-805shRILs for release based on their improved fiber quality traits especially superior elongation percentage of 7.64. This line showed improved elongation percentage compared to the commercial lines of DP 393 and PHY 370 WR, which had elongation percentage of 6.86 and 6.25, respectively. These line had also higher elongation percentages than the recurrent parent TM-1, 3-79 and CS-805sh, which were grown in the same locations and same year in a separate experiment. However, this line had poor agronomic qualities compared to the commercial lines. Fiber elongation (ability to stretch before breaking) is one of the important traits in determining yarn quality. This line carrying a small segment of chromosome five short arm from G. barbadense provide an effective way of Upland cotton improvement by targeted interspecific introgression of desirable traits from G. barbadense with reduced linkage drag effects.1940831PI 677335
414PI 677336'CS-B05sh-RI-66'Gossypium hirsutum L. Mississippi, United StatesCOTNot Available2016DEVELOPEDBreeding materialThe CS-B05sh-RIL-66 (078-8656) were selected from the fifty CS-B05shRILs for release based on their improved fiber quality traits especially superior elongation percentage of 7.64. This line showed improved elongation percentage compared to the commercial lines of DP 393 and PHY 370 WR, which had elongation percentage of 6.86 and 6.25, respectively. These line had also higher elongation percentages than the recurrent parent TM-1, 3-79 and CS-B05sh, which were grown in the same locations and same year in a separate experiment. However, this line had poor agronomic qualities compared to the commercial lines. Fiber elongation (ability to stretch before breaking) is one of the important traits in determining yarn quality. This line carrying a small segment of chromosome five short arm from G. barbadense provide an effective way of Upland cotton improvement by targeted interspecific introgression of desirable traits from G. barbadense with reduced linkage drag effects.1940832PI 677336
415PI 677337'CS-B05sh-RI-68'Gossypium hirsutum L. Mississippi, United StatesCOTNot Available2016DEVELOPEDBreeding materialThe CS-B05sh-RIL-68 (078-8657) were selected from the fifty CS-B05shRILs for release based on their improved fiber quality traits especially superior elongation percentage of 7.64. This lineshowed improved elongation percentage compared to the commercial lines of DP 393 and PHY 370 WR, which had elongation percentage of 6.86 and 6.25, respectively. These line had also higher elongation percentages than the recurrent parent TM-1, 3-79 and CS-B05sh, which were grown in the same locations and same year in a separate experiment. However, this line had poor agronomic qualities compared to the commercial lines. Fiber elongation (ability to stretch before breaking) is one of the important traits in determining yarn quality. This line carrying a small segment of chromosome five short arm from G. barbadense provide an effective way of Upland cotton improvement by targeted interspecific introgression of desirable traits from G. barbadense with reduced linkage drag effects1940833PI 677337
416PI 677338'CS-B05sh-RI-83'Gossypium hirsutum L. Mississippi, United StatesCOTNot Available2016DEVELOPEDBreeding materialThe CS-B05sh-RIL-83 (078-8664) were selected from the fifty CS-B05shRILs for release based on their improved fiber quality traits especially superior elongation percentage of 7.64. This line showed improved elongation percentage compared to the commercial lines of DP 393 and PHY 370 WR, which had elongation percentage of 6.86 and 6.25, respectively. These line had also higher elongation percentages than the recurrent parent TM-1, 3-79 and CS-805sh, which were grown in the same locations and same year in a separate experiment. However, this line had poor agronomic qualities compared to the commercial lines. Fiber elongation (ability to stretch before breaking) is one of the important traits in determining yarn quality. This line carrying a small segment of chromosome five short arm from G. barbadense provide an effective way of Upland cotton improvement by targeted interspecific introgression of desirable traits from G. barbadense with reduced linkage drag effects.1940834PI 677338
417PI 677339'CS-B05sh-RI-93'Gossypium hirsutum L. Mississippi, United StatesCOTNot Available2016DEVELOPEDBreeding materialThe CS-B05sh-RIL-93 (078-8667) were selected from the fifty CS-BOSshRILs for release based on their improved fiber quality traits especially superior elongation percentage of 7.64. This line showed improved elongation percentage compared to the commercial lines of DP 393 and PHY 370 WR, which had elongation percentage of 6.86 and 6.25, respectively. These line had also higher elongation percentages than the recurrent parent TM-1, 3-79 and CS-805sh, which were grown in the same locations and same year in a separate experiment. However, this line had poor agronomic qualities compared to the commercial lines. Fiber elongation (ability to stretch before breaking) is one of the important traits in determining yarn quality. This line carrying a small segment of chromosome five short arm from G. barbadense provide an effective way of Upland cotton improvement by targeted interspecific introgression of desirable traits from G. barbadense with reduced linkage drag effects.1940835PI 677339
418PI 677340'CS-B17-RIL-59'Gossypium hirsutum L. Mississippi, United StatesCOTNot Available2016DEVELOPEDBreeding materialThe population of 50 lines of CS-B17RILs were grown in three locations for two years. The CS-B17RILs segregated only for the genes located on chromosome 17. This CS-B17 -RIL-59 (078-8691) line was selected for reduced micronaire, an improved fiber quality trait from 50 CS-8 17 Rl Ls based on the results of three years field trials at two different locations in diverse environments. It had also lower micronaire than the recurrent parent TM-1 , 3-79 and CS-B17, which were grown in the same locations and same year in a separate experiment. This unique line carrying a small segment of chromosome 17 from G. barbadense provides an effective way of Upland cotton improvement by targeted interspecific introgression of desirable traits especially micronaire from G. barbadense with reduced linakge drag effects.1940836PI 677340
419PI 677341'CS-B17-RIL-60'Gossypium hirsutum L. Mississippi, United StatesCOTNot Available2016DEVELOPEDBreeding materialThe population of 50 lines of CS-B17Rils were grown in three locations for two years. The CS-817RILs segregated only for the genes located on chromosome 17. This CS-B17-RIL-60 (078-8692) line was selected for reduced micronaire, an improved fiber quality trait from 50 CS-B17 Rlls based on the results of three years field trials at two different locations in diverse environments. It had also lower micronaire than the recurrent parent TM-1, 3-79 and CS-B17, which were grown in the same locations and same year in a separate experiment. This unique line carrying a small segment of chromosome 17 from G. barbadense provides an effective way of Upland cotton improvement by targeted interspecific introgression of desirable traits especially micronaire from G. barbadense with reduced linakge drag effects.1940837PI 677341
420PI 677342'CS-B17-RIL-98'Gossypium hirsutum L. Mississippi, United StatesCOTNot Available2016DEVELOPEDBreeding materialThe population of 50 lines of CS-B17Rils were grown in three locations for two years. The CS-B17Rils segregated only for the genes located on chromosome 17. This CS-B17-RIL-98 (078-8717) line was selected for reduced micronaire, an improved fiber quality trait from 50 CS-B17 Rlls based on the results of three years field trials at two different locations in diverse environments. It had also lower micron a ire than the recurrent parent TM-1, 3-79 and CS-B17, which were grown in the same locations and same year in a separate experiment. This unique line carrying a small segment of chromosome 17 from G. barbadense provides an effective way of Upland cotton improvement by targeted interspecific introgression of desirable traits especially micronaire from G. barbadense with reduced linakge drag effects.1940838PI 677342
421PI 676997'ST 6182GLT'Gossypium hirsutum L. Georgia, United StatesPVPONot Available2016DEVELOPEDGenetically Engineered1939903PI 676997
422PI 676996'ST 5115GLT'Gossypium hirsutum L. Mississippi, United StatesPVPONot Available2016DEVELOPEDCultivar1939902PI 676996
423PI 676277'FM2007GLT'Gossypium hirsutum L. Texas, United StatesPVPONot Available2016DEVELOPEDCultivar1937586PI 676277
424PI 687865Arkot 0712Gossypium hirsutum L. Arkansas, United StatesCOTNot Available2015DEVELOPEDBreeding materialMorphological traits of Arkot 0712 are similar to 'DP 393' (check cultivar) except Arkot 0712 has higher trichome density on leaves, bract margins and stems and is shorter in height. Over 16 replicated field tests at four sites in Arkansas, lint yields of Arkot 0712 were equal to lint yields of DP 393 at each location. Over I 2 locations of the 2015 Regional Cotton Breeders Testing Network test, Arkot 0712 produced the 20th highest yield of 28 entries. Compared to DP 393, lint yields of Arkot 0712 were produced by higher rumber of seed per area; equal lint percentage and fibers per seed; and lower weight of lint per seed (lint index), seed size (seed index), but had lower weight of lint per seed (lint index), seed index and fiber density (estimated number of fibers per unit area of seed surface). Compared to DP 393, Arkot 0712 produced higher open boll percentage (61 vs. 57%), leaf pubescence (3.8 vs. 2.8), stem pubescence (5.5 vs. 5.1 ), marginal bract trichomes ( 42.1 vs 3 1.6), seed per area (8. 7% higher), Q-score ( 62 vs. 54 ), fiber length (30.5 vs. 29.7 mm), and elongation (7.4 vs. 6.8%),); equal lint percentage and fibers per seed; and lower plant height (4.0% shorter), lint index (7.0 vs. 7.5 g), seed index (10.6 vs. 11.2 g), fiber density (4.8% fewer), micronaire (4.48 vs. 4.85), uniformity index (84.2 vs. 85.2%) and fiber strength (294 vs 323 kN m kg-1). Arkot 0712 is resistance to all U.S. races of Xanthomonas citri ssp. malvacearum (ex Smith 1901) Schaad et al. 2007, the causal agent of bacterial blight. In small plot tests, Arkot 0712 was more resistant to tarnished plant bug [Lygus lineolaris (Palisot de Beauvois)] than the susceptible check and equal to DP 393. Response of Arkot 0712 to fusarium wilt [caused by Fusarium oxysporum Schlect. F. sp. vasinfectum (Atk.) Snyd. & Hans.] was equal to the resistant check, M-315. 1964027PI 687865
425PI 698475TEX 2583Gossypium hirsutum L. COTNot Available2013Collected by Dr. James Frelichowski and Dr. Louis Prom USDA College Station, Texas, with assistance from Tropical Agricultural Research Station, Mayaguez, Puerto Rico. Sample PR13-01. 18°26'45.1"N 66°55'56.4"W 6.9m elev2115827PI 698475
426PI 698476TEX 2584Gossypium hirsutum L. COTNot Available2013Collected by Dr. James Frelichowski and Dr. Louis Prom USDA College Station, Texas, with assistance from Tropical Agricultural Research Station, Mayaguez, Puerto Rico. Sample PR13-02. 18°26'39.1"N 66°55'23.21"W 13.8m elev2115828PI 698476
427PI 698477TEX 2585Gossypium hirsutum L. COTNot Available2013Collected by Dr. James Frelichowski and Dr. Louis Prom USDA College Station, Texas, with assistance from Tropical Agricultural Research Station, Mayaguez, Puerto Rico. Sample PR13-03. 18°26'38.8"N 66°55'23.3"W 13.8m elev2115829PI 698477
428PI 698478TEX 2586Gossypium hirsutum L. COTNot Available2013Collected by Dr. James Frelichowski and Dr. Louis Prom USDA College Station, Texas, with assistance from Tropical Agricultural Research Station, Mayaguez, Puerto Rico. Sample PR13-04. 18°26'40.5"N 66°55'21.6"W 9.5m elev2115830PI 698478
429PI 698479TEX 2587Gossypium hirsutum L. COTNot Available2013Collected by Dr. James Frelichowski and Dr. Louis Prom USDA College Station, Texas, with assistance from Tropical Agricultural Research Station, Mayaguez, Puerto Rico. Sample PR13-05. 18°26'47.2"N 66°54'40.8"W 22.3m elev2115831PI 698479
430PI 698480TEX 2588Gossypium hirsutum L. COTNot Available2013Collected by Dr. James Frelichowski and Dr. Louis Prom USDA College Station, Texas, with assistance from Tropical Agricultural Research Station, Mayaguez, Puerto Rico. Sample PR13-06. 18°26'47.2"N 66°54'40.8"W 22.3m elev2115832PI 698480
431PI 698481TEX 2589Gossypium hirsutum L. COTNot Available2013Collected by Dr. James Frelichowski and Dr. Louis Prom USDA College Station, Texas, with assistance from Tropical Agricultural Research Station, Mayaguez, Puerto Rico. Sample PR13-09.2115833PI 698481
432PI 698482TEX 2590Gossypium hirsutum L. COTNot Available2013Collected by Dr. James Frelichowski and Dr. Louis Prom USDA College Station, Texas, with assistance from Tropical Agricultural Research Station, Mayaguez, Puerto Rico. Sample PR13-10. 18°26'10.6"N 66°1'17"W 13.9m elev2115834PI 698482
433PI 698483TEX 2591Gossypium hirsutum L. COTNot Available2013Collected by Dr. James Frelichowski and Dr. Louis Prom USDA College Station, Texas, with assistance from Tropical Agricultural Research Station, Mayaguez, Puerto Rico. Sample PR13-11. 18°26'10.6"N 66°1'17"W 13.9m elev2115835PI 698483
434PI 698484TEX 2592Gossypium hirsutum L. COTNot Available2013Collected by Dr. James Frelichowski and Dr. Louis Prom USDA College Station, Texas, with assistance from Tropical Agricultural Research Station, Mayaguez, Puerto Rico. Sample PR13-12. 18°29'27.7"N 66°47'20.6"W 2.9m elev2115836PI 698484
435PI 698485TEX 2593Gossypium hirsutum L. COTNot Available2013Collected by Dr. James Frelichowski and Dr. Louis Prom USDA College Station, Texas, with assistance from Tropical Agricultural Research Station, Mayaguez, Puerto Rico. Sample PR13-13. 18°29'27.5"N 66°47'20.5"W 3.2m elev2115837PI 698485
436PI 698486TEX 2594Gossypium hirsutum L. COTNot Available2013Collected by Dr. James Frelichowski and Dr. Louis Prom USDA College Station, Texas, with assistance from Tropical Agricultural Research Station, Mayaguez, Puerto Rico. Sample PR13-15. 18°29'27.9"N 66°47'21"W 2.8m elev2115838PI 698486
437PI 698487TEX 2595Gossypium hirsutum L. COTNot Available2013Collected by Dr. James Frelichowski and Dr. Louis Prom USDA College Station, Texas, with assistance from Tropical Agricultural Research Station, Mayaguez, Puerto Rico. Sample PR13-16. 18°29'28.1"N 66°47'21"W 1.9m elev2115839PI 698487
438PI 698488TEX 2596Gossypium hirsutum L. COTNot Available2013Collected by Dr. James Frelichowski and Dr. Louis Prom USDA College Station, Texas, with assistance from Tropical Agricultural Research Station, Mayaguez, Puerto Rico. Sample PR13-17. 18°29'28.2"N 66°47'21.2"W 3m elev2115840PI 698488
439PI 698489TEX 2597Gossypium hirsutum L. COTNot Available2013Collected by Dr. James Frelichowski and Dr. Louis Prom USDA College Station, Texas, with assistance from Tropical Agricultural Research Station, Mayaguez, Puerto Rico. Sample PR13-18. 18°29'28.3"N 66°47'20.9"W 2.5m elev2115841PI 698489
440PI 698490TEX 2598Gossypium hirsutum L. COTNot Available2013Collected by Dr. James Frelichowski and Dr. Louis Prom USDA College Station, Texas, with assistance from Tropical Agricultural Research Station, Mayaguez, Puerto Rico. Sample PR13-19. 18°29'29.1"N 66°47'20.4"W 3.8m elev2115842PI 698490
441PI 698491TEX 2599Gossypium hirsutum L. COTNot Available2013Collected by Dr. James Frelichowski and Dr. Louis Prom USDA College Station, Texas, with assistance from Tropical Agricultural Research Station, Mayaguez, Puerto Rico. Sample PR13-21. 18°0'49.2"N 67°8'58.2"W 5.5m elev2115843PI 698491
442PI 698492TEX 2600Gossypium hirsutum L. COTNot Available2013Collected by Dr. James Frelichowski and Dr. Louis Prom USDA College Station, Texas, with assistance from Tropical Agricultural Research Station, Mayaguez, Puerto Rico. Sample PR13-22. 18°0'49.6"N 67°8'29.2"W 5.5m elev2115844PI 698492
443PI 698493TEX 2601Gossypium hirsutum L. COTNot Available2013Collected by Dr. James Frelichowski and Dr. Louis Prom USDA College Station, Texas, with assistance from Tropical Agricultural Research Station, Mayaguez, Puerto Rico. Sample PR13-23. 17°57'22.3"N 67°11'56.7"W 16.3m elev2115845PI 698493
444PI 698494TEX 2602Gossypium hirsutum L. COTNot Available2013Collected by Dr. James Frelichowski and Dr. Louis Prom USDA College Station, Texas, with assistance from Tropical Agricultural Research Station, Mayaguez, Puerto Rico. Sample PR13-24. 17°57'22.3"N 67°11'56.8"W 12.1m elev2115846PI 698494
445PI 698495TEX 2603Gossypium hirsutum L. COTNot Available2013Collected by Dr. James Frelichowski and Dr. Louis Prom USDA College Station, Texas, with assistance from Tropical Agricultural Research Station, Mayaguez, Puerto Rico. Sample PR13-25. 17°57'25"N 67°11'57.9"W 2.5m elev2115847PI 698495
446PI 698496TEX 2604Gossypium hirsutum L. COTNot Available2013Collected by Dr. James Frelichowski and Dr. Louis Prom USDA College Station, Texas, with assistance from Tropical Agricultural Research Station, Mayaguez, Puerto Rico. Sample PR13-26. 17°57'21.2"N 67°11'56.3"W 2.5m elev2115848PI 698496
447PI 698497TEX 2605Gossypium hirsutum L. COTNot Available2013Collected by Dr. James Frelichowski and Dr. Louis Prom USDA College Station, Texas, with assistance from Tropical Agricultural Research Station, Mayaguez, Puerto Rico. Sample PR13-27. 17°57'46.1"N 67°8'1.1"W 20.8m elev2115849PI 698497
448PI 698498TEX 2606Gossypium hirsutum L. COTNot Available2013Collected by Dr. James Frelichowski and Dr. Louis Prom USDA College Station, Texas, with assistance from Tropical Agricultural Research Station, Mayaguez, Puerto Rico. Sample PR13-28. 17°57'45.2"N 67°8'0.1"W 32.8m elev2115850PI 698498
449PI 698499TEX 2607Gossypium hirsutum L. COTNot Available2013Collected by Dr. James Frelichowski and Dr. Louis Prom USDA College Station, Texas, with assistance from Tropical Agricultural Research Station, Mayaguez, Puerto Rico. Sample PR13-29. 17°58'53.1"N 67°6'35.6"W 64.5m elev2115851PI 698499
450PI 698500TEX 2608Gossypium hirsutum L. COTNot Available2013Collected by Dr. James Frelichowski and Dr. Louis Prom USDA College Station, Texas, with assistance from Tropical Agricultural Research Station, Mayaguez, Puerto Rico. Sample PR13-30. 17°58'52.5"N 67°6'37.2"W 60.8m elev2115852PI 698500
451PI 698501TEX 2609Gossypium hirsutum L. COTNot Available2013Collected by Dr. James Frelichowski and Dr. Louis Prom USDA College Station, Texas, with assistance from Tropical Agricultural Research Station, Mayaguez, Puerto Rico. Sample PR13-31. 17°59'42.6"N 67°3'59.8"W 52.7m elev2115853PI 698501
452PI 698502TEX 2610Gossypium hirsutum L. COTNot Available2013Collected by Dr. James Frelichowski and Dr. Louis Prom USDA College Station, Texas, with assistance from Tropical Agricultural Research Station, Mayaguez, Puerto Rico. Sample PR13-32. 17°59'33.5"N 67°3'55"W 56.5m elev2115854PI 698502
453PI 698503TEX 2611Gossypium hirsutum L. COTNot Available2013Collected by Dr. James Frelichowski and Dr. Louis Prom USDA College Station, Texas, with assistance from Tropical Agricultural Research Station, Mayaguez, Puerto Rico. Sample PR13-33. 17°59'25"N 67°3'48.1"W 73.6m elev2115855PI 698503
454PI 698504TEX 2612Gossypium hirsutum L. COTNot Available2013Collected by Dr. James Frelichowski and Dr. Louis Prom USDA College Station, Texas, with assistance from Tropical Agricultural Research Station, Mayaguez, Puerto Rico. Sample PR13-34a. 17°59'8.4"N 67°3'19.5"W 63m elev2115856PI 698504
455PI 698505TEX 2613Gossypium hirsutum L. COTNot Available2013Collected by Dr. James Frelichowski and Dr. Louis Prom USDA College Station, Texas, with assistance from Tropical Agricultural Research Station, Mayaguez, Puerto Rico. Sample PR13-36. 17°59'8.9"N 67°3'19.7"W 63.6m elev2115857PI 698505
456PI 698506TEX 2614Gossypium hirsutum L. COTNot Available2013Collected by Dr. James Frelichowski and Dr. Louis Prom USDA College Station, Texas, with assistance from Tropical Agricultural Research Station, Mayaguez, Puerto Rico. Sample PR13-37. 17°58'44.7"N 67°3'22.3"W 31.6m elev2115858PI 698506
457PI 698507TEX 2615Gossypium hirsutum L. COTNot Available2013Collected by Dr. James Frelichowski and Dr. Louis Prom USDA College Station, Texas, with assistance from Tropical Agricultural Research Station, Mayaguez, Puerto Rico. Sample PR13-38. 17°58'37"N 67°3'18.7"W 24.2m elev2115859PI 698507
458PI 698508TEX 2616Gossypium hirsutum L. COTNot Available2013Collected by Dr. James Frelichowski and Dr. Louis Prom USDA College Station, Texas, with assistance from Tropical Agricultural Research Station, Mayaguez, Puerto Rico. Sample PR13-39. 17°58'39.4"N 67°3'15.8"W 23.2m elev2115860PI 698508
459PI 698509TEX 2617Gossypium hirsutum L. COTNot Available2013Collected by Dr. James Frelichowski and Dr. Louis Prom USDA College Station, Texas, with assistance from Tropical Agricultural Research Station, Mayaguez, Puerto Rico. Sample PR13-40. 17°58'32.3"N 67°2'59.4"W 12.3m elev2115861PI 698509
460PI 698510TEX 2618Gossypium hirsutum L. COTNot Available2013Collected by Dr. James Frelichowski and Dr. Louis Prom USDA College Station, Texas, with assistance from Tropical Agricultural Research Station, Mayaguez, Puerto Rico. Sample PR13-41. 17°59'14.2"N 66°59'13.8"W 51.3m elev2115862PI 698510
461PI 698511TEX 2619Gossypium hirsutum L. COTNot Available2013Collected by Dr. James Frelichowski and Dr. Louis Prom USDA College Station, Texas, with assistance from Tropical Agricultural Research Station, Mayaguez, Puerto Rico. Sample PR13-42. 17°59'5.9"N 66°57'24"W 33.1m elev2115863PI 698511
462PI 698512TEX 2620Gossypium hirsutum L. COTNot Available2013Collected by Dr. James Frelichowski and Dr. Louis Prom USDA College Station, Texas, with assistance from Tropical Agricultural Research Station, Mayaguez, Puerto Rico. Sample PR13-43. 17°57'14.4"N 66°50'57"W 8.8m elev2115864PI 698512
463PI 698513TEX 2621Gossypium hirsutum L. COTNot Available2013Collected by Dr. James Frelichowski and Dr. Louis Prom USDA College Station, Texas, with assistance from Tropical Agricultural Research Station, Mayaguez, Puerto Rico. Sample PR13-44. 18°1'2.1"N 66°55'5.5"W 27.2m elev2115865PI 698513
464PI 698514TEX 2622Gossypium hirsutum L. COTNot Available2013Collected by Dr. James Frelichowski and Dr. Louis Prom USDA College Station, Texas, with assistance from Tropical Agricultural Research Station, Mayaguez, Puerto Rico. Sample PR13-46. 18°21'34.3"N 67°15'36.3"W 78.3m elev2115866PI 698514
465PI 698515TEX 2623Gossypium hirsutum L. COTNot Available2013Collected by Dr. James Frelichowski and Dr. Louis Prom USDA College Station, Texas, with assistance from Tropical Agricultural Research Station, Mayaguez, Puerto Rico. Sample PR13-47. 18°12'25.2"N 67°9'13.1"W 19m elev2115867PI 698515
466PI 698516TEX 2624Gossypium hirsutum L. COTNot Available2013Collected by Dr. James Frelichowski and Dr. Louis Prom USDA College Station, Texas, with assistance from Tropical Agricultural Research Station, Mayaguez, Puerto Rico. Sample PR13-48. 18°12'25.9"N 67°9'13.5"W 11.6m elev2115868PI 698516
467PI 698517TEX 2625Gossypium hirsutum L. COTNot Available2013Collected by Dr. James Frelichowski and Dr. Louis Prom USDA College Station, Texas, with assistance from Tropical Agricultural Research Station, Mayaguez, Puerto Rico. Sample PR13-49. 18°12'26.1"N 67°9'12.4"W 14.3m elev2115869PI 698517
468PI 665226'CA 4002'Gossypium hirsutum L. Texas, United StatesCOTNot Available2012DEVELOPEDBreeding materialProposed release CA 4002, tested as experimental number 08-10-706, is a non-commercial, early-maturing, competitive yielding, Verticillium wilt resistant germplasm line of cotton (Gossypium hirsutum L.) developed in the cotton breeding program at Texas Agrilife Research in Lubbock. CA 4002 is well adapted to the Texas High Plains region and has shorter stature, quicker fruiting habit and more storm tolerant bolls than most Verticillium wilt resistant germplasm sources. CA 4002 has excellent fiber properties, equivalent to available commercial cultivars with highest fiber quality grown on the Texas High Plains.1901743PI 665226
469PI 665058'NN-3'Gossypium hirsutum L. PakistanCOTNot Available2012DEVELOPEDBreeding materialNN-3 was also tested in NCVT for two cotton-growing seasons (2008 and 2009). In 2008, SCY of NN-3 out yielded the standard CIM-496 for CIM-496 . However, in 2009, NN-3 out yielded the standard cultivar (CIM-496) by 73.54%. This substantial increase in yield has been attributed to the high tolerance of NN-3 to the CLCuD, also shown by NN-3 in NCVT as in this year the disease severely infected most cotton lines/varieties including the standard. Response to CLCuD was estimated for three consecutive cotton growing seasons at NIBGE cotton field. The elite genotype NN-3 has shown absolute resistance to the disease in 2005 versus 60%, 90% and 26% for CIM-496, NIAB-111 and NIBGE-2, respectively. In 2006, minimum infection of the disease was observed on NN-3 compared to the three standards. The same trend was noted during 2007 . NN-3 (140 cm) was taller than CIM-496 (120 cm), N-111 (115 cm) and NIBGE-2 (125 cm). Average number of monopodial branches of NN-3 were more than CIM-496 and NIAB-111 but similar to NIBGE-2. A total of 27.5 number of sympodial branches plant-1 were found on NN-3, however, minimum number of sympodial branches plant-1 (24) were observed on NIAB-111. Average number of bolls plant-1 were 46 for NN-3, 48 for CIM-496, 41 for NIAB-111 and 49 for NIBGE-2 while, maximum average boll weight were recorded for NIAB-111 followed by CIM-496, NN-3 and NIBGE-2. The ginning turn out percentage (GOT) of NN-3 was 39% which was marginally lower than CIM-496 and significantly higher than N-111 and NIBGE-2 (Table 5). However, staple length of NN-3 is relatively shorter than CIM-496 and NIAB-111 (Table 5). Micronaire value of NN-3 is similar to the value of CIM-496 while it is higher than NIAB-111 and NIBGE-2. Fiber bundle strength of all the genotypes is comparable, except NIBGE-2 which is the highest. We calculated non significant difference of uniformity index values among all the genotypes.1901545PI 665058
470PI 664925'Arkot 0111'Gossypium hirsutum L. Arkansas, United StatesCOTNot Available2012DEVELOPEDBreeding materialMorphological traits of Arkot 0111 are similar to `DP 393? (check cultivar), except Arkot 0111 was shorter and has higher trichome density on leaves and bract margins, and lower trichome density on stems. Over 16 replicated field tests in Arkansas, lint yields of Arkot 0111 were 3.5% lower and equal to yields of DP 393 and `SG 105?, respectively. Lint yields of Arkot 0111 were produced with higher weight (lint index) and number of fibers per seed, and lower number of seed per area as DP 393. Compared to DP 393, Arkot 0111 produced lower seed per area and lint percentage; similar percentage of open bolls; and higher lint index, seed index, fibers per seed, quality score, fiber length and length uniformity. Arkot 0111 is resistance to all U.S. races of Xanthomonas axonopodis pv. malvacearum (Smith) Dye, the causal agent of bacterial blight. Arkot 0111 is more resistant to tarnished plant bug [Lygus lineolaris (Palisot de Beauvois)] than susceptible a Frego bract check, is similar in resistance as SG 105, but is less resistant than DP 393. Fusarium wilt [caused by Fusarium oxysporum Schlect. F. sp. vasinfectum (Atk.) Snyd. and Hans.] plants of Arkot 0111 was higher than the resistant check, M-315, but less than the susceptible check.1898816PI 664925
471PI 664926Arkot 0113Gossypium hirsutum L. Arkansas, United StatesCOTNot Available2012DEVELOPEDBreeding materialMorphological traits of Arkot 0113 are similar to `DP 393? (check cultivar), except Arkot 0113 has higher trichome density on leaves and bract margins. Over 16 replicated field tests in Arkansas, lint yields of Arkot 0113 were 9.1% and 10.8% higher than yields of DP 393 and `SG 105?, respectively. Lint yields of Arkot 0113 were produced with higher weight (lint index) and number of fibers per seed, and higher number of seed per area as DP 393. Compared to DP 393, Arkot 0113 produced lower lint fraction, micronaire, and fiber strength; similar plant height, percentage of open bolls, quality score, and fiber elongation; and higher seed per area, lint index, seed index, fibers per seed, and fiber length. Arkot 0113 is resistance to all U.S. races of Xanthomonas axonopodis pv. malvacearum (Smith) Dye, the causal agent of bacterial blight. Arkot 0113 is more resistant to tarnished plant bug [Lygus lineolaris (Palisot de Beauvois)] than susceptible a Frego bract check, is intermediate in resistance between DP 393 and SG 105. Fusarium wilt [caused by Fusarium oxysporum Schlect. F. sp. vasinfectum (Atk.) Snyd. and Hans.] plants of Arkot 0113 was higher than the resistant check, M-315, but less than the susceptible check.1898831PI 664926
472PI 664927Arkot 0114Gossypium hirsutum L. Arkansas, United StatesCOTNot Available2012DEVELOPEDBreeding materialMorphological traits of Arkot 0114 are similar to `DP 393? (check cultivar), except Arkot 0114 has higher trichome density on leaves but lower trichome density on stems and marginal bract margins. Stem pubescence of Arkot 0114 is sparse. Over 16 replicated field tests in Arkansas, lint yields of Arkot 0114 were 17.9% and 19.8% higher than yields of DP 393 and `SG 105?, respectively. Lint yields of Arkot 0114 were produced with higher weight (lint index) and number of fibers per seed, and equal number of seed per area as DP 393. Compared to DP 393, Arkot 0114 produced lower micronaire and fiber strength; similar percentage of open bolls, seed per area, lint fraction, quality score, fiber length and fiber elongation; and lint index, seed index, and fibers per seed. Arkot 0114 is resistance to all U.S. races of Xanthomonas axonopodis pv. malvacearum (Smith) Dye, the causal agent of bacterial blight. Arkot 0114 is more resistant to tarnished plant bug [Lygus lineolaris (Palisot de Beauvois)] than susceptible a Frego bract check, is intermediate in resistance between DP 393 and SG 105. Response of Arkot 0114 to fusarium wilt [caused by Fusarium oxysporum Schlect. F. sp. vasinfectum (Atk.) Snyd. and Hans.] was equal to the resistant check, M-315.1898832PI 664927
473PI 664928UA103Gossypium hirsutum L. Arkansas, United StatesCOTNot Available2012DEVELOPEDBreeding materialUA103 is an open-canopy (?okra-leaf?) cotton with other morphological traits similar to `DP 393? (check cultivar), except UA103 has lower trichome density on abaxial leaf surfaces, stems, and bract margins. Over 16 replicated field tests in Arkansas, lint yields of UA222 were equal to DP393 and `SG105?. Yields of UA103 were produced with higher weight of lint per seed (lint index) and similar number of seed per area as DP 393. Compared to DP 393, UA103 produced lower seed per area, lower micronaire, and elongation; equal plant height, and lint percentage, and fiber uniformity index; and higher percentage of open bolls, lint index, seed index, fiber per seed, quality score and fiber length. UA103 is resistance to all U.S. races of Xanthomonas axonopodis pv. malvacearum (Smith) Dye, the causal agent of bacterial blight. UA222 is more resistant to tarnished plant bug [Lygus lineolaris (Palisot de Beauvois)] than a susceptible Frego bract check, is similar in resistance as SG105, but is less resistant than DP393. UA222 is as resistant to tarnished plant bug [Lygus lineolaris (Palisot de Beauvois)] as DP393 and more resistant than SG105 and a susceptible Frego bract check. Response of UA103 to fusarium wilt [caused by Fusarium oxysporum Schlect. F. sp. vasinfectum (Atk.) Snyd. and Hans.] was equal to the resistant check, M-315.1898833PI 664928
474PI 664929UA222Gossypium hirsutum L. Arkansas, United StatesCOTNot Available2012DEVELOPEDBreeding material1898834PI 664929
475PI 664553TAM 94L-25-M24Gossypium hirsutum L. Texas, United StatesCOTNot Available2012DEVELOPEDBreeding materialTAM 94L-25-M24 was developed by treating the parent germplasm line, TAM 94L-25 (PI 631440), an upland cotton line with improved high volume instrument (HVI) upper half mean length (UHML), with the chemical mutagen ethyl methanesulfonate (EMS). TAM 94L-25-M24 exhibits UHML and fiber bundle strength that exceeds that ofthe parent, TAM 94L-25, FM 832, and Phytogen 355. Other HVI fiber quality parameters were within acceptable ranges. TAM 94L-25-M24 should be useful in creating cultivars with improved fiber length and strength.1898008PI 664553
476PI 664554TAM 94L-25-M25Gossypium hirsutum L. Texas, United StatesCOTNot Available2012DEVELOPEDBreeding materialTAM 94L-25-M25 was developed by treating the parent germplasm line, TAM 94L-25 (PI 631440), an upland cotton line with improved high volume instrument (HVI) upper half mean length (UHML), with the chemical mutagen ethyl methanesulfonate (EMS). TAM 94L-25-M25 exhibits UHML and fiber bundle strength that exceeds that of the parent, TAM 94L-25, FM 832, and Phytogen 355. Other HVI fiber quality parameters were within acceptable ranges. TAM 94L-25-M25 should be useful in creating cultivars with improved fiber length and strength.1898009PI 664554
477PI 664555TAM 94L-25-M30Gossypium hirsutum L. Texas, United StatesCOTNot Available2012DEVELOPEDBreeding materialTAM 94L-25-M30 was developed by treating the parent germplasm line, TAM 94L-25 (PI 631440), an upland cotton line with improved high volume instrument (HVI) upper half mean length (UHML), with the chemical mutagen ethyl methanesulfonate (EMS). TAM 94L-25-M30 exhibits UHML and fiber bundle strength that exceeds that ofthe parent, TAM 94L-25, FM 832, and Phytogen 355. Other HVI fiber quality parameters were within acceptable ranges. TAM 94L-25-M30 should be useful in creating cultivars with improved fiber length and strength.1898010PI 664555
478PI 663908'MT2468 Ren1'Gossypium hirsutum L. Mississippi, United StatesCOTNot Available2011DEVELOPEDBreeding materialMT2468 Ren1 was evaluated for reniform nematode, Rotylenchulus reniformis, resistance in greenhouse tests. It exhibited a moderate level of resistance compared to a susceptible cultivar. In agronomic evaluations it had lower lint percentage, smaller bolls, smaller seed, and lower yield compared to a cultivar check Deltapine 393. MT2468 Ren1 had shorter fibers, lower strength but higher elongation compared to Deltapine 393. This line initiates fruit about two later than standard cultivars: therefore, it?s later in reaching maturity. Over-all plant size is similar to standard cultivars.1890005PI 663908
479PI 663909MT2468 Ren2Gossypium hirsutum L. Mississippi, United StatesCOTNot Available2011DEVELOPEDBreeding materialMT2468 Ren2 was evaluated for reniform nematode, Rotylenchulus reniformis, resistance in greenhouse tests. It exhibited a moderate level of resistance compared to a susceptible cultivar. In agronomic evaluations it had lower lint percentage, smaller bolls, and lower yield compared to a cultivar check Deltapine 393. MT2468 Ren2 had shorter fibers but higher fiber strength compared to Deltapine 393. This line initiates fruit about two later than standard cultivars; therefore, it?s later in reaching maturity. Over-all plant size is similar to standard cultivars.1890007PI 663909
480PI 663910MT2468 Ren3Gossypium hirsutum L. Mississippi, United StatesCOTNot Available2011DEVELOPEDBreeding materialMT2468 Ren3 was evaluated for reniform nematode, Rotylenchulus reniformis, resistance in greenhouse tests. It exhibited a moderate level of resistance compared to a susceptible cultivar. In agronomic evaluations it had smaller bolls, smaller seed and lower yield compared to a cultivar check Deltapine 393. MT2468 Ren3 had shorter fibers, a lower fiber uniformity, weaker fibers compared to Deltapine 393. This line initiates fruit about two later than standard cultivars; therefore, it?s later in reaching maturity. Over-all plant size is similar to standard cultivars.1890010PI 663910
481PI 663892'09R784B2R2'Gossypium hirsutum L. Missouri, United StatesPVPONot Available2011DEVELOPEDGenetically Engineered1888710PI 663892
482PI 663893'10R022R2'Gossypium hirsutum L. Missouri, United StatesPVPONot Available2011DEVELOPEDGenetically Engineered1888711PI 663893
483PI 66389410R018R2Gossypium hirsutum L. Missouri, United StatesPVPONot Available2011DEVELOPEDGenetically Engineered1888713PI 663894
484PI 663895'10R019R2'Gossypium hirsutum L. Missouri, United StatesPVPONot Available2011DEVELOPEDGenetically Engineered1888715PI 663895
485PI 663896'10R014R2'Gossypium hirsutum L. Missouri, United StatesPVPONot Available2011DEVELOPEDGenetically Engineered1888716PI 663896
486PI 663897'09R637R2'Gossypium hirsutum L. Missouri, United StatesPVPONot Available2011DEVELOPEDGenetically Engineered1888717PI 663897
487PI 663898'11R159B2R2'Gossypium hirsutum L. Missouri, United StatesPVPONot Available2011DEVELOPEDGenetically Engineered1888718PI 663898
488PI 663899'10R047B2R2'Gossypium hirsutum L. Missouri, United StatesPVPONot Available2011DEVELOPEDGenetically Engineered1888719PI 663899
489PI 663900'10R008B2R2'Gossypium hirsutum L. Missouri, United StatesPVPONot Available2011DEVELOPEDGenetically Engineered1888720PI 663900
490PI 663901'10R050B2R2'Gossypium hirsutum L. Missouri, United StatesPVPONot Available2011DEVELOPEDGenetically Engineered1888721PI 663901
491PI 663902'10R040B2R2'Gossypium hirsutum L. Missouri, United StatesPVPONot Available2011DEVELOPEDGenetically Engineered1888722PI 663902
492PI 663903'10R015B2R2'Gossypium hirsutum L. Missouri, United StatesPVPONot Available2011DEVELOPEDGenetically Engineered1888723PI 663903
493PI 663904'10R051B2R2'Gossypium hirsutum L. PVPONot Available2011Genetically Engineered1888724PI 663904
494PI 663905'10R020B2R2'Gossypium hirsutum L. Missouri, United StatesPVPONot Available2011DEVELOPEDGenetically Engineered1888725PI 663905
495PI 663906'10R013B2R2'Gossypium hirsutum L. Missouri, United StatesPVPONot Available2011DEVELOPEDGenetically Engineered1888726PI 663906
496PI 662039TamRKRNR-9Gossypium hirsutum L. Texas, United StatesCOTNot Available2011DEVELOPEDBreeding materialF9 generation with selection for nematode resistance. Morphologically resembes G. hirstum in most respects. Has pubescent leaves and stems, white petal with red color spots, and are still segregating for pollen color having buff or yellow pollen. Tends to be taller and later maturing than commerical upland cotton./1880818PI 662039
497PI 662040TamRKRNR-12Gossypium hirsutum L. Texas, United StatesCOTNot Available2011DEVELOPEDBreeding materialF9 generation with selection for nematode resistance. Morphologically resembes G. hirstum in most respects. Has pubescent leaves and stems, white petal with red color spots, and are still segregating for pollen color having buff or yellow pollen. Tends to be taller and later maturing than commerical upland cotton./1880819PI 662040
498PI 662041TAM 04WB-33sGossypium hirsutum L. Texas, United StatesCOTNot Available2011DEVELOPEDCultivarTAM 04WB-33s upland cotton (Gossypium hirsutum L) germplasm line (Reg. no. GP- ,PI ) was developed by the Cotton Improvement Laboratory, Department of Soil and Crop Sciences, Texas AgriLife Research and released in 2010 as part of an ongoing effort to create germplasm with combinations of improved fiber quality parameters, especially upper half mean length (UHML) and fiber bundle strength (Str), that contribute to the production of improved yarn. TAM 04WB-33s exhibited High Volume Instrument (HVI) UHML and Str greater than the comparison cultivars when grown under irrigated culture at multiple locations in central and south Texas during 2007, 2008, and 2009. Limited yarn evaluation indicated that TAM 04WB-33s produced 30 count carded yarn that was 27% stronger and required 43% more force to break than either 'Deltapine 491' or 'Fibermax 832.' This germplasm line is competitive in all other fiber properties and in yield potential with current upland cotton cultivars adapted to central and south Texas.1880820PI 662041
499PI 662042TAM SIUP 98Gossypium hirsutum L. Texas, United StatesCOTNot Available2011DEVELOPEDBreeding materialTAM SIUP 98 is morphologically similar to most Upland cotton cultivars. It has a normal leaf shape and fruiting habit. TAM SIUP 98 is approximately seven days later maturing, taller, and more storm resistant than both FM 832 and DPL 491. The plant type is slightly bushy which is similar to FM 832.1880821PI 662042