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Your query included: All accessions taxonomy genus name like Gossypium

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Selected item(s) below:


ACCESSIONPLANT NAMETAXONOMYORIGINGENEBANKIMAGEAVAILABILITYRECEIVEDSOURCE TYPESOURCE DATECOLLECTION SITECOORDINATESELEVATIONHABITATIMPROVEMENT LEVELNARRATIVE
0PI 698548D1 43Gossypium thurberi Tod. COTNot Available2021Wild materialDonated by Dr. Chibwe Chungu, Phytogen, Corcoran, Caliifornia.2115900PI 698548
1PI 698547D1 42Gossypium thurberi Tod. COTNot Available2021Wild materialCollected by Dr. Scott Chamberlain, Rice University. Source Molino Basin Arizona USA. Donated to the US National Cotton Germplasm Collection2115898PI 698547
2PI 698443AD3 35Gossypium tomentosum Nutt. ex Seem. COTNot Available2021Donation from Margaret Clarke, National Tropical Botanic Gardens, Hawaii2115791PI 698443
3PI 698442AD3 34Gossypium tomentosum Nutt. ex Seem. COTNot Available2021Donation from Professor Jonathan Wendel, Iowa State University. Found in Hawaii. Packet W-692115790PI 698442
4PI 698441AD3 31Gossypium tomentosum Nutt. ex Seem. COTNot Available2021Donation from Professor Jonathan Wendel, Iowa State University. Found in Hawaii. Packet W-42115789PI 698441
5PI 698440AD3 30Gossypium tomentosum Nutt. ex Seem. COTNot Available2021Donation from Professor Jonathan Wendel, Iowa State University. Found in Hawaii. Packet W-32115788PI 698440
6PI 698439AD3 29Gossypium tomentosum Nutt. ex Seem. COTNot Available2021Donation from Professor Jonathan Wendel, Iowa State University. Found in Hawaii. Packet W-12115787PI 698439
7PI 698596D1 91Gossypium thurberi Tod. COTNot Available2021Wild materialCollected by Perin McNelis and A. Arnold, Borderland with the support of the USDA-ARS National Germplasm Resources Laboratory in cooperation with the Borderlands Restoration Network and the US Forest Service for a project to document the native crop wild relatives in the Wild Chile Botanical Area of the Coronado National Forest.2115947PI 698596
8PI 694731SA 3360Gossypium hirsutum L. COT20202107227PI 694731
9PI 694730SA 3359Gossypium hirsutum L. COT20202107226PI 694730
10PI 694729SA 3358Gossypium hirsutum L. COT20202107225PI 694729
11PI 694728SA 3357Gossypium hirsutum L. COT20202107224PI 694728
12PI 694727SA 3356Gossypium hirsutum L. COT20202107223PI 694727
13PI 694726SA 3355Gossypium hirsutum L. COT20202107222PI 694726
14PI 694725SA 3354Gossypium hirsutum L. COT20202107221PI 694725
15PI 694724SA 3353Gossypium hirsutum L. COT20202107220PI 694724
16PI 694723SA 3352Gossypium hirsutum L. COT20202107219PI 694723
17PI 694722SA 3351Gossypium hirsutum L. COT20202107218PI 694722
18PI 694721SA 3350Gossypium hirsutum L. COT20202107217PI 694721
19PI 694720SA 3349Gossypium hirsutum L. COT20202107216PI 694720
20PI 694719SA 3348Gossypium hirsutum L. COT20202107215PI 694719
21PI 694717SA 3346Gossypium hirsutum L. COT20202107213PI 694717
22PI 694718SA 3347Gossypium hirsutum L. COT20202107214PI 694718
23PI 694716SA 3345Gossypium hirsutum L. COT20202107212PI 694716
24PI 694715SA 3344Gossypium hirsutum L. COT20202107211PI 694715
25PI 694714SA 3343Gossypium hirsutum L. COT20202107210PI 694714
26PI 694713SA 3342Gossypium hirsutum L. COT20202107209PI 694713
27PI 694712SA 3341Gossypium hirsutum L. COT20202107208PI 694712
28PI 694710SA 3339Gossypium hirsutum L. COT20202107206PI 694710
29PI 694711SA 3340Gossypium hirsutum L. COT20202107207PI 694711
30PI 694709SA 3338Gossypium hirsutum L. COT20202107205PI 694709
31PI 694708SA 3337Gossypium hirsutum L. COT20202107204PI 694708
32PI 694707SA 3336Gossypium hirsutum L. COT20202107203PI 694707
33PI 694706SA 3335Gossypium hirsutum L. COT20202107202PI 694706
34PI 694705SA 3334Gossypium hirsutum L. COT20202107201PI 694705
35PI 694704SA 3333Gossypium hirsutum L. COT20202107200PI 694704
36PI 694703SA 3332Gossypium hirsutum L. COT20202107199PI 694703
37PI 694702SA 3331Gossypium hirsutum L. COT20202107198PI 694702
38PI 694700SA 3329Gossypium hirsutum L. COT20202107196PI 694700
39PI 694701SA 3330Gossypium hirsutum L. COT20202107197PI 694701
40PI 694699SA 3328Gossypium hirsutum L. COT20202107195PI 694699
41PI 694698SA 3327Gossypium hirsutum L. COT20202107194PI 694698
42PI 694697SA 3326Gossypium hirsutum L. COT20202107193PI 694697
43PI 694696SA 3325Gossypium hirsutum L. COT20202107192PI 694696
44PI 694695SA 3324Gossypium hirsutum L. COT20202107191PI 694695
45PI 694694SA 3323Gossypium hirsutum L. COT20202107190PI 694694
46PI 694693SA 3322Gossypium hirsutum L. COT20202107189PI 694693
47PI 694692SA 3321Gossypium hirsutum L. COT20202107188PI 694692
48PI 694691SA 3320Gossypium hirsutum L. COT20202107187PI 694691
49PI 694690SA 3319Gossypium hirsutum L. COT20202107186PI 694690
50PI 694689SA 3318Gossypium hirsutum L. COT20202107185PI 694689
51PI 694688SA 3317Gossypium hirsutum L. COT20202107184PI 694688
52PI 694687SA 3316Gossypium hirsutum L. COT20202107183PI 694687
53PI 694686SA 3315Gossypium hirsutum L. COT20202107182PI 694686
54PI 694685SA 3314Gossypium hirsutum L. COT20202107181PI 694685
55PI 694683SA 3312Gossypium hirsutum L. COT20202107179PI 694683
56PI 694684SA 3313Gossypium hirsutum L. COT20202107180PI 694684
57PI 694682SA 3311Gossypium hirsutum L. COT20202107178PI 694682
58PI 694681SA 3310Gossypium hirsutum L. COT20202107177PI 694681
59PI 694680SA 3309Gossypium hirsutum L. COT20202107176PI 694680
60PI 694679SA 3308Gossypium hirsutum L. COT20202107175PI 694679
61PI 694677SA 3306Gossypium hirsutum L. COT20202107173PI 694677
62PI 694678SA 3307Gossypium hirsutum L. COT20202107174PI 694678
63PI 694676SA 3305Gossypium hirsutum L. COT20202107172PI 694676
64PI 694675SA 3304Gossypium hirsutum L. COT20202107171PI 694675
65PI 694674SA 3303Gossypium hirsutum L. COT20202107170PI 694674
66PI 694673SA 3302Gossypium hirsutum L. COT20202107169PI 694673
67PI 694672SA 3301Gossypium hirsutum L. COT20202107168PI 694672
68PI 694670SA 3299Gossypium hirsutum L. COT20202107166PI 694670
69PI 694671SA 3300Gossypium hirsutum L. COT20202107167PI 694671
70PI 694669SA 3298Gossypium hirsutum L. COT20202107165PI 694669
71PI 694668SA 3297Gossypium hirsutum L. COT20202107164PI 694668
72PI 694667SA 3296Gossypium hirsutum L. COT20202107163PI 694667
73PI 694666SA 3295Gossypium hirsutum L. COT20202107162PI 694666
74PI 694664SA 3293Gossypium hirsutum L. COT20202107160PI 694664
75PI 694665SA 3294Gossypium hirsutum L. COT20202107161PI 694665
76PI 694663SA 3292Gossypium hirsutum L. COT20202107159PI 694663
77PI 694662SA 3291Gossypium hirsutum L. COT20202107158PI 694662
78PI 694661SA 3290Gossypium hirsutum L. COT20202107157PI 694661
79PI 694660SA 3289Gossypium hirsutum L. COT20202107156PI 694660
80PI 694659SA 3288Gossypium hirsutum L. COT20202107155PI 694659
81PI 694658SA 3287Gossypium hirsutum L. COT20202107154PI 694658
82PI 694657SA 3286Gossypium hirsutum L. COT20202107153PI 694657
83PI 694656SA 3285Gossypium hirsutum L. COT20202107152PI 694656
84PI 694655SA 3284Gossypium hirsutum L. COT20202107151PI 694655
85PI 694654SA 3283Gossypium hirsutum L. COT20202107150PI 694654
86PI 694653SA 3282Gossypium hirsutum L. COT20202107149PI 694653
87PI 694652SA 3281Gossypium hirsutum L. COT20202107148PI 694652
88PI 694651SA 3280Gossypium hirsutum L. COT20202107147PI 694651
89PI 694650SA 3279Gossypium hirsutum L. COT20202107146PI 694650
90PI 694649SA 3278Gossypium hirsutum L. COT20202107145PI 694649
91PI 694648SA 3277Gossypium hirsutum L. COT20202107144PI 694648
92PI 694647SA 3276Gossypium hirsutum L. COT20202107143PI 694647
93PI 694646SA 3275Gossypium hirsutum L. COT20202107142PI 694646
94PI 694645SA 3274Gossypium hirsutum L. COT20202107141PI 694645
95PI 694644SA 3273Gossypium hirsutum L. COT20202107140PI 694644
96PI 694643SA 3272Gossypium hirsutum L. COT20202107139PI 694643
97PI 694642SA 3271Gossypium hirsutum L. COT20202107138PI 694642
98PI 694641SA 3270Gossypium hirsutum L. COT20202107137PI 694641
99PI 694640SA 3269Gossypium hirsutum L. COT20202107136PI 694640
100PI 694639SA 3268Gossypium hirsutum L. COT20202107135PI 694639
101PI 694638SA 3267Gossypium hirsutum L. COT20202107134PI 694638
102PI 694637SA 3266Gossypium hirsutum L. COT20202107133PI 694637
103PI 694636SA 3265Gossypium hirsutum L. COT20202107132PI 694636
104PI 694635SA 3264Gossypium hirsutum L. COT20202107131PI 694635
105PI 694634SA 3263Gossypium hirsutum L. COT20202107130PI 694634
106PI 694633SA 3262Gossypium hirsutum L. COT20202107129PI 694633
107PI 694632SA 3261Gossypium hirsutum L. COT20202107128PI 694632
108PI 694631SA 3260Gossypium hirsutum L. COT20202107127PI 694631
109PI 694630SA 3259Gossypium hirsutum L. COT20202107126PI 694630
110PI 694629SA 3258Gossypium hirsutum L. COT20202107125PI 694629
111PI 694628SA 3257Gossypium hirsutum L. COT20202107124PI 694628
112PI 694627SA 3256Gossypium hirsutum L. COT20202107123PI 694627
113PI 694626SA 3255Gossypium hirsutum L. COT20202107122PI 694626
114PI 694625SA 3254Gossypium hirsutum L. COT20202107121PI 694625
115PI 694624SA 3253Gossypium hirsutum L. COTNot Available20202107120PI 694624
116PI 694623SA 3252Gossypium hirsutum L. COTNot Available20202107119PI 694623
117PI 694622SA 3251Gossypium hirsutum L. COT20202107118PI 694622
118PI 694621SA 3250Gossypium hirsutum L. COT20202107117PI 694621
119PI 694620SA 3249Gossypium hirsutum L. COT20202107116PI 694620
120PI 694619SA 3248Gossypium hirsutum L. COT20202107115PI 694619
121PI 694618SA 3247Gossypium hirsutum L. COT20202107114PI 694618
122PI 694617SA 3246Gossypium hirsutum L. COT20202107113PI 694617
123PI 694616SA 3245Gossypium hirsutum L. COT20202107112PI 694616
124PI 694615SA 3244Gossypium hirsutum L. COT20202107111PI 694615
125PI 694614SA 3243Gossypium hirsutum L. COT20202107110PI 694614
126PI 694613SA 3242Gossypium hirsutum L. COT20202107109PI 694613
127PI 694612SA 3241Gossypium hirsutum L. COT20202107108PI 694612
128PI 694610SA 3239Gossypium hirsutum L. COT20202107106PI 694610
129PI 694611SA 3240Gossypium hirsutum L. COT20202107107PI 694611
130PI 694609SA 3238Gossypium hirsutum L. COT20202107105PI 694609
131PI 694608SA 3237Gossypium hirsutum L. COT20202107104PI 694608
132PI 694607SA 3236Gossypium hirsutum L. COT20202107103PI 694607
133PI 694606SA 3235Gossypium hirsutum L. COT20202107102PI 694606
134PI 694604SA 3233Gossypium hirsutum L. COT20202107100PI 694604
135PI 694605SA 3234Gossypium hirsutum L. COT20202107101PI 694605
136PI 694603SA 3232Gossypium hirsutum L. COT20202107099PI 694603
137PI 694602SA 3231Gossypium hirsutum L. COT20202107098PI 694602
138PI 694601SA 3230Gossypium hirsutum L. COT20202107097PI 694601
139PI 694600SA 3229Gossypium hirsutum L. COT20202107096PI 694600
140PI 694598SA 3227Gossypium hirsutum L. COT20202107094PI 694598
141PI 694599SA 3228Gossypium hirsutum L. COT20202107095PI 694599
142PI 694597SA 3226Gossypium hirsutum L. COT20202107093PI 694597
143PI 694596SA 3225Gossypium hirsutum L. COT20202107092PI 694596
144PI 694595SA 3224Gossypium hirsutum L. COT20202107091PI 694595
145PI 694594SA 3223Gossypium hirsutum L. COT20202107090PI 694594
146PI 694593SA 3222Gossypium hirsutum L. COT20202107089PI 694593
147PI 694592SA 3221Gossypium hirsutum L. COT20202107088PI 694592
148PI 694591SA 3220Gossypium hirsutum L. COT20202107087PI 694591
149PI 694590SA 3219Gossypium hirsutum L. COT20202107086PI 694590
150PI 694589SA 3218Gossypium hirsutum L. COT20202107085PI 694589
151PI 694588SA 3217Gossypium hirsutum L. COT20202107084PI 694588
152PI 694587SA 3216Gossypium hirsutum L. COT20202107083PI 694587
153PI 694586SA 3215Gossypium hirsutum L. COT20202107082PI 694586
154PI 694585SA 3214Gossypium hirsutum L. COT20202107081PI 694585
155PI 694584SA 3213Gossypium hirsutum L. COT20202107080PI 694584
156PI 694583SA 3208Gossypium hirsutum L. COT20202107079PI 694583
157PI 694582SA 3207Gossypium hirsutum L. COT20202107078PI 694582
158PI 694581SA 3206Gossypium hirsutum L. COT20202107077PI 694581
159PI 694580SA 3205Gossypium hirsutum L. COT20202107076PI 694580
160PI 694579SA 3204Gossypium hirsutum L. COT20202107075PI 694579
161PI 694578SA 3203Gossypium hirsutum L. COT20202107074PI 694578
162PI 694577SA 3202Gossypium hirsutum L. COT20202107073PI 694577
163PI 694576SA 3201Gossypium hirsutum L. COT20202107072PI 694576
164PI 694575SA 3200Gossypium hirsutum L. COT20202107071PI 694575
165PI 694574SA 3199Gossypium hirsutum L. COT20202107070PI 694574
166PI 694573SA 3198Gossypium hirsutum L. COT20202107069PI 694573
167PI 694572SA 3197Gossypium hirsutum L. COT20202107068PI 694572
168PI 694571SA 3196Gossypium hirsutum L. COT20202107067PI 694571
169PI 694570SA 3195Gossypium hirsutum L. COT20202107066PI 694570
170PI 694569SA 3194Gossypium hirsutum L. COT20202107065PI 694569
171PI 694568SA 3193Gossypium hirsutum L. COT20202107064PI 694568
172PI 694567SA 3192Gossypium hirsutum L. COT20202107063PI 694567
173PI 694566SA 3181Gossypium hirsutum L. COT20202107062PI 694566
174PI 694565SA 3180Gossypium hirsutum L. COT20202107061PI 694565
175PI 694564SA 3179Gossypium hirsutum L. COT20202107060PI 694564
176PI 694563SA 3178Gossypium hirsutum L. COT20202107059PI 694563
177PI 694562SA 3177Gossypium hirsutum L. COT20202107058PI 694562
178PI 694561SA 3176Gossypium hirsutum L. COT20202107057PI 694561
179PI 694560SA 3175Gossypium hirsutum L. COT20202107056PI 694560
180PI 694559SA 3174Gossypium hirsutum L. COT20202107055PI 694559
181PI 694558SA 3173Gossypium hirsutum L. COT20202107054PI 694558
182PI 694557SA 3172Gossypium hirsutum L. COT20202107053PI 694557
183PI 694556SA 3171Gossypium hirsutum L. COT20202107052PI 694556
184PI 694555SA 3170Gossypium hirsutum L. COT20202107051PI 694555
185PI 694554SA 3169Gossypium hirsutum L. COT20202107050PI 694554
186PI 694553SA 3168Gossypium hirsutum L. COT20202107049PI 694553
187PI 694552SA 3167Gossypium hirsutum L. COT20202107048PI 694552
188PI 694551SA 3166Gossypium hirsutum L. COT20202107047PI 694551
189PI 694550SA 3165Gossypium hirsutum L. COT20202107046PI 694550
190PI 694549SA 3164Gossypium hirsutum L. COT20202107045PI 694549
191PI 694548SA 3163Gossypium hirsutum L. COT20202107044PI 694548
192PI 694547SA 3162Gossypium hirsutum L. COT20202107043PI 694547
193PI 694546SA 3161Gossypium hirsutum L. COT20202107042PI 694546
194PI 694545SA 3160Gossypium hirsutum L. COT20202107041PI 694545
195PI 694544SA 3159Gossypium hirsutum L. COT20202107040PI 694544
196PI 694543SA 3158Gossypium hirsutum L. COT20202107039PI 694543
197PI 694541SA 3156Gossypium hirsutum L. COT20202107037PI 694541
198PI 694542SA 3157Gossypium hirsutum L. COT20202107038PI 694542
199PI 694540SA 3155Gossypium hirsutum L. COT20202107036PI 694540
200PI 694539SA 3154Gossypium hirsutum L. COT20202107035PI 694539
201PI 694538SA 3153Gossypium hirsutum L. COT20202107034PI 694538
202PI 694537SA 3143Gossypium hirsutum L. COT20202107033PI 694537
203PI 694536SA 3142Gossypium hirsutum L. COT20202107032PI 694536
204PI 694176TX 2547Gossypium hirsutum L. COT20202106827PI 694176
205PI 694175TX 2528Gossypium hirsutum L. COTNot Available20202106826PI 694175
206PI 694173TX 2526Gossypium hirsutum L. COT20202106824PI 694173
207PI 694174TX 2527Gossypium hirsutum L. COT20202106825PI 694174
208PI 694172TX 2525Gossypium hirsutum L. COT20202106823PI 694172
209PI 694171TX 2524Gossypium hirsutum L. COT20202106822PI 694171
210PI 694170TX 2523Gossypium hirsutum L. COT20202106821PI 694170
211PI 694169TX 2522Gossypium hirsutum L. COT20202106820PI 694169
212PI 694121A1 198Gossypium herbaceum L. COT20202106772PI 694121
213PI 694120A1 197Gossypium herbaceum L. COT20202106771PI 694120
214PI 694119A1 196Gossypium herbaceum L. COT20202106770PI 694119
215PI 694118A1 195Gossypium herbaceum L. COT20202106769PI 694118
216PI 694117A1 194Gossypium herbaceum L. COT20202106768PI 694117
217PI 694116A1 193Gossypium herbaceum L. COT20202106767PI 694116
218PI 694115A1 192Gossypium herbaceum L. COTNot Available20202106766PI 694115
219PI 694114A1 191Gossypium herbaceum L. COT20202106765PI 694114
220PI 698595D1 90Gossypium thurberi Tod. COTNot Available2019Wild materialCollected by Perin McNelis, E. Lee, and A. Arnold with the support of the USDA-ARS National Germplasm Resources Laboratory in cooperation with the Borderlands Restoration Network and the US Forest Service for a project to document the native crop wild relatives in the Wild Chile Botanical Area of the Coronado National Forest.2115946PI 698595
221PI 688427NM 990764Gossypium hirsutum L. New Mexico, United StatesCOTNot Available2018DEVELOPEDBreeding material1965699PI 688427
222PI 688428NM 990649Gossypium hirsutum L. New Mexico, United StatesCOTNot Available2018DEVELOPEDBreeding material1965700PI 688428
223PI 688429NM 990815Gossypium hirsutum L. New Mexico, United StatesCOTNot Available2018DEVELOPEDBreeding material1965701PI 688429
224PI 688430NM 990827Gossypium hirsutum L. New Mexico, United StatesCOTNot Available2018DEVELOPEDBreeding material1965702PI 688430
225PI 688431Acala 1517-18 GLSGossypium hirsutum L. New Mexico, United StatesCOTNot Available2018DEVELOPEDBreeding material1965703PI 688431
226PI 688432NM 970123Gossypium hirsutum L. New Mexico, United StatesCOTNot Available2018DEVELOPEDBreeding material1965704PI 688432
227PI 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
228PI 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
229PI 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
230PI 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
231PI 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
232PI 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
233PI 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
234PI 698587D1 82Gossypium thurberi Tod. COTNot Available2017Wild materialCollected by Dr. James Frelichowski, USDA College Station, Texas, and Roeloff Sikkens, Soybean and Cotton Breeding, Auburn University, Auburn, Alabama. Foothills of Quinlan Mountains. Entrance Road to Kitt's Observatory or 386, side of road. Sample , 32°0'15.288"N 111°34'21.972"W 1065m elev2115942PI 698587
235PI 698588D1 83Gossypium thurberi Tod. COTNot Available2017Wild materialCollected by Dr. James Frelichowski, USDA College Station, Texas, and Roeloff Sikkens, Soybean and Cotton Breeding, Auburn University, Auburn, Alabama. Foothills of Quinlan Mountains. Entrance Road to Kitt's Observatory or 386, side of road. Sample , 31°59'27.834"N 111°34'39.726"W 1149.9m elev2115943PI 698588
236PI 698589D1 84Gossypium thurberi Tod. COTNot Available2017Wild materialCollected by Dr. James Frelichowski, USDA College Station, Texas, and Roeloff Sikkens, Soybean and Cotton Breeding, Auburn University, Auburn, Alabama. Foothills of Quinlan Mountains. Entrance Road to Kitt's Observatory or 386, side of road. Sample , 31°59'26.688"N 111°34'40.722"W 1158.4m elev2115944PI 698589
237PI 698590D1 85Gossypium thurberi Tod. COTNot Available2017Wild materialCollected by Dr. James Frelichowski, USDA College Station, Texas, and Roeloff Sikkens, Soybean and Cotton Breeding, Auburn University, Auburn, Alabama. Foothills of Quinlan Mountains. Entrance Road to Kitt's Observatory or 386, side of road. Sample , 31°59'27.318"N 111°34'40.434"W 1149m elev2115945PI 698590
238PI 698586D1 81Gossypium thurberi Tod. COTNot Available2017Wild materialCollected by Dr. James Frelichowski, USDA College Station, Texas Apache Leap Mountains. East of Superior, turnoff 60 on Magma Mine Road, near private entrance on roadside, single plant. Sample , 33°18'0.384"N 111°3'53.364"W 1250.8m elev2115941PI 698586
239PI 676098'DP 1612B2XF'Gossypium hirsutum L. Iowa, United StatesPVPONot Available2016DEVELOPEDGenetically Engineered1934872PI 676098
240PI 676099'DP 1639 B2XF'Gossypium hirsutum L. Iowa, United StatesPVPONot Available2016DEVELOPEDGenetically Engineered1934873PI 676099
241PI 676100'14R953B2XF'Gossypium hirsutum L. Iowa, United StatesPVPONot Available2016DEVELOPEDGenetically Engineered1934875PI 676100
242PI 676101'15R550B2XF'Gossypium hirsutum L. Iowa, United StatesPVPONot Available2016DEVELOPEDGenetically Engineered1934876PI 676101
243PI 698579D1 74Gossypium thurberi Tod. COTNot Available2015Wild materialCollected by Dr. James Frelichowski and Janna Love, USDA College Station, Texas. Mule Mountains, Bisbee, along roadside 81. Sample AZ15-25a, 31°24’15.354”N 109°54’41.825”W 1556.2m elev2115932PI 698579
244PI 698580D1 75Gossypium thurberi Tod. COTNot Available2015Wild materialCollected by Dr. James Frelichowski and Janna Love, USDA College Station, Texas. Mule Mountains, Bisbee, along roadside 82. Sample AZ15-25b, 31°24’15.354”N 109°54’41.825”W 1556.2m elev2115933PI 698580
245PI 698581D1 76Gossypium thurberi Tod. COTNot Available2015Wild materialCollected by Dr. James Frelichowski and Janna Love, USDA College Station, Texas. Mule Mountains, Bisbee, along roadside 83. Sample AZ15-26a, 31°29’13.487”N 109°59’10.493”W 1569.3m elev2115934PI 698581
246PI 698582D1 77Gossypium thurberi Tod. COTNot Available2015Wild materialCollected by Dr. James Frelichowski and Janna Love, USDA College Station, Texas. Mule Mountains, Bisbee, along roadside 84. Sample AZ15-26b, 31°29’13.487”N 109°59’10.493”W 1569.3m elev2115935PI 698582
247PI 698583D1 78Gossypium thurberi Tod. COTNot Available2015Wild materialCollected by Dr. James Frelichowski and Janna Love, USDA College Station, Texas. Mule Mountains, Bisbee, along roadside 85. Sample AZ15-26c, 31°29’13.487”N 109°59’10.493”W 1569.3m elev2115936PI 698583
248PI 698584D1 79Gossypium thurberi Tod. COTNot Available2015Wild materialCollected by Dr. James Frelichowski and Janna Love, USDA College Station, Texas. Mule Mountains Foothills along roadside 80. Sample AZ15-27a, 31°32’21.341”N 110°0’37.193”W 1422.1m elev2115937PI 698584
249PI 698585D1 80Gossypium thurberi Tod. COTNot Available2015Wild materialCollected by Dr. James Frelichowski and Janna Love, USDA College Station, Texas. Mule Mountains Foothills along roadside 80. Sample AZ15-27b, 31°32’21.341”N 110°0’37.193”W 1422.1m elev2115938PI 698585
250PI 698574D1 69Gossypium thurberi Tod. COTNot Available2015Wild materialCollected by Dr. James Frelichowski and Janna Love, USDA College Station, Texas. Santa Rita Foothills along 83 roadsides near Sahuarita Road.. Sample AZ15-21, 31°57’57.233”N 110°40’23.405”W 1123.1m elev2115927PI 698574
251PI 698575D1 70Gossypium thurberi Tod. COTNot Available2015Wild materialCollected by Dr. James Frelichowski and Janna Love, USDA College Station, Texas. Santa Rita Foothills along 83 roadsides near Sahuarita Road.. Sample AZ15-22a, 31°52’10.073”N 110°40’42.233”W 1306.8m elev2115928PI 698575
252PI 698576D1 71Gossypium thurberi Tod. COTNot Available2015Wild materialCollected by Dr. James Frelichowski and Janna Love, USDA College Station, Texas. Santa Rita Foothills along 83 roadsides near Sahuarita Road.. Sample AZ15-22b, 31°52’10.073”N 110°40’42.233”W 1306.8m elev2115929PI 698576
253PI 698577D1 72Gossypium thurberi Tod. COTNot Available2015Wild materialCollected by Dr. James Frelichowski and Janna Love, USDA College Station, Texas. Rincon Mountains Foothills, Colossal Cave View Parking Lot. Sample AZ15-23, 32°3’45.072”N 110°38’3.966”W 1138.8m elev2115930PI 698577
254PI 698578D1 73Gossypium thurberi Tod. COTNot Available2015Wild materialCollected by Dr. James Frelichowski and Janna Love, USDA College Station, Texas. Rincon Mountains Foothill. Old Spanish Trail Road roadside near Saguaro Park. Sample AZ15-24, 32°7’29.843”N 110°42’58.853”W 896.3m elev2115931PI 698578
255PI 698570D1 65Gossypium thurberi Tod. COTNot Available2015Wild materialCollected by Dr. James Frelichowski and Janna Love, USDA College Station, Texas. Pajarita and Atascosa Mountains along Ruby Road or 39. Sample AZ15-18, 31°23’28.883”N 111°6’38.711”W 1247.7m elev2115923PI 698570
256PI 698571D1 66Gossypium thurberi Tod. COTNot Available2015Wild materialCollected by Dr. James Frelichowski and Janna Love, USDA College Station, Texas. Pajarita and Atascosa Mountains along Ruby Road or 39. Sample AZ15-19a, 31°24’57.492”N 111°9’43.415”W 1558.2m elev2115924PI 698571
257PI 698572D1 67Gossypium thurberi Tod. COTNot Available2015Wild materialCollected by Dr. James Frelichowski and Janna Love, USDA College Station, Texas. Pajarita and Atascosa Mountains along Ruby Road or 39. Sample AZ15-19b, 31°24’57.492”N 111°9’43.415”W 1558.2m elev2115925PI 698572
258PI 698573D1 68Gossypium thurberi Tod. COTNot Available2015Wild materialCollected by Dr. James Frelichowski and Janna Love, USDA College Station, Texas. Pajarita and Atascosa Mountains along Ruby Road or 39. Sample AZ15-20, 31°28’3.815”N 111°13’35.633”W 1351.1m elev2115926PI 698573
259PI 698557D1 52Gossypium thurberi Tod. COTNot Available2015Wild materialCollected by Dr. James Frelichowski and Janna Love, USDA College Station, Texas. Santa Rita Mountains, along Mount Hopkins Road.. Sample AZ15-09, 31°41’3.804”N 110°57’33.209”W 1189.3m elev2115909PI 698557
260PI 698558D1 53Gossypium thurberi Tod. COTNot Available2015Wild materialCollected by Dr. James Frelichowski and Janna Love, USDA College Station, Texas. Santa Rita Mountains, along Mount Hopkins Road.. Sample AZ15-10, 31°41’3.593”N 110°57’32.213”W 1190.8m elev2115910PI 698558
261PI 698559D1 54Gossypium thurberi Tod. COTNot Available2015Wild materialCollected by Dr. James Frelichowski and Janna Love, USDA College Station, Texas. Santa Rita Mountains, along Mount Hopkins Road.. Sample AZ15-11a, 31°41’3.341”N 110°57’29.525”W 1202.7m elev2115911PI 698559
262PI 698560D1 55Gossypium thurberi Tod. COTNot Available2015Wild materialCollected by Dr. James Frelichowski and Janna Love, USDA College Station, Texas. Santa Rita Mountains, along Mount Hopkins Road.. Sample AZ15-11b, 31°41’3.341”N 110°57’29.525”W 1202.7m elev2115912PI 698560
263PI 698561D1 56Gossypium thurberi Tod. COTNot Available2015Wild materialCollected by Dr. James Frelichowski and Janna Love, USDA College Station, Texas. Santa Rita Mountains, along Mount Hopkins Road.. Sample AZ15-11c, 31°41’3.341”N 110°57’29.525”W 1202.7m elev2115913PI 698561
264PI 698562D1 57Gossypium thurberi Tod. COTNot Available2015Wild materialCollected by Dr. James Frelichowski and Janna Love, USDA College Station, Texas. Santa Rita Mountains, along Mount Hopkins Road.. Sample AZ15-12, 31°40’18.485”N 110°55'8.705”W 1619.3m elev2115914PI 698562
265PI 698563D1 58Gossypium thurberi Tod. COTNot Available2015Wild materialCollected by Dr. James Frelichowski and Janna Love, USDA College Station, Texas. Santa Rita Mountains, along Mount Hopkins Road.. Sample AZ15-13, 31°40’36.941”N 110°55'7.229”W 1592m elev2115915PI 698563
266PI 698564D1 59Gossypium thurberi Tod. COTNot Available2015Wild materialCollected by Dr. James Frelichowski and Janna Love, USDA College Station, Texas. Santa Rita Mountains, Madera Canyon Road. Sample AZ15-14a, 31°47’17.873”N 110°53'3.143”W 1108.4m elev2115917PI 698564
267PI 698565D1 60Gossypium thurberi Tod. COTNot Available2015Wild materialCollected by Dr. James Frelichowski and Janna Love, USDA College Station, Texas. Santa Rita Mountains, Madera Canyon Road. Sample AZ15-14b, 31°47’17.873”N 110°53'3.143”W 1108.4m elev2115918PI 698565
268PI 698566D1 61Gossypium thurberi Tod. COTNot Available2015Wild materialCollected by Dr. James Frelichowski and Janna Love, USDA College Station, Texas. Santa Rita Mountains, Madera Canyon Road. Sample AZ15-15a, 31°45’19.289”N 110°53'11.435”W 1270m elev2115919PI 698566
269PI 698567D1 62Gossypium thurberi Tod. COTNot Available2015Wild materialCollected by Dr. James Frelichowski and Janna Love, USDA College Station, Texas. Santa Rita Mountains, Madera Canyon Road. Sample AZ15-15b, 31°45’17.825”N 110°53'12.767”W 1260.4m elev2115920PI 698567
270PI 698568D1 63Gossypium thurberi Tod. COTNot Available2015Wild materialCollected by Dr. James Frelichowski and Janna Love, USDA College Station, Texas. Santa Rita Mountains, 62 or Box Canyon Road. Sample AZ15-16, 31°47’52.271”N 110°48’32.297”W 1318.8m elev2115921PI 698568
271PI 698569D1 64Gossypium thurberi Tod. COTNot Available2015Wild materialCollected by Dr. James Frelichowski and Janna Love, USDA College Station, Texas. Santa Rita Mountains, 62 or Box Canyon Road. Sample AZ15-17, 31°47’59.087”N 110°46’51.107”W 1437.4m elev2115922PI 698569
272PI 698552D1 47Gossypium thurberi Tod. COTNot Available2015Wild materialCollected by Dr. James Frelichowski and Janna Love, USDA College Station, Texas. Santa Catalina Mountains, Mount Lemmon Road, Molino Basin Campground. Sample AZ15-04, 32°20’12.599”N 110°41’31.451”W 1321.9m elev2115904PI 698552
273PI 698553D1 48Gossypium thurberi Tod. COTNot Available2015Wild materialCollected by Dr. James Frelichowski and Janna Love, USDA College Station, Texas. Santa Catalina Mountains, Mount Lemmon Road, Molino Basin Campground. Sample AZ15-05, 32°20’11.351”N 110°41’31.685”W 1322.8m elev2115905PI 698553
274PI 698554D1 49Gossypium thurberi Tod. COTNot Available2015Wild materialCollected by Dr. James Frelichowski and Janna Love, USDA College Station, Texas. Santa Catalina Mountains, Mount Lemmon Road, Molino Basin Campground. Sample AZ15-06, 32°20’13.787”N 110°41’31.241”W 1329.3m elev2115906PI 698554
275PI 698555D1 50Gossypium thurberi Tod. COTNot Available2015Wild materialCollected by Dr. James Frelichowski and Janna Love, USDA College Station, Texas. Santa Catalina Mountains, Mount Lemmon Road, Molino Basin Campground. Sample AZ15-07, 32°19’49.404”N 110°41’44.178”W 1335.8m elev2115907PI 698555
276PI 698556D1 51Gossypium thurberi Tod. COTNot Available2015Wild materialCollected by Dr. James Frelichowski and Janna Love, USDA College Station, Texas. Santa Catalina Mountains, Mount Lemmon Road, Molino Basin Campground. Sample AZ15-08, 32°19’49.229”N 110°41’44.093”W 1317.4m elev2115908PI 698556
277PI 698549D1 44Gossypium thurberi Tod. COTNot Available2015Wild materialCollected by Dr. James Frelichowski and Janna Love, USDA College Station, Texas. Superstition Mountains. Along N. Apache Road or 88 between Fish Hill Creek and Tortilla Flats. Sample AZ15-01, 33°31’36.119”N 111°18’58.284”W 875.4m elev 2115901PI 698549
278PI 698550D1 45Gossypium thurberi Tod. COTNot Available2015Wild materialCollected by Dr. James Frelichowski and Janna Love, USDA College Station, Texas. Superstition Mountains. Along N. Apache Road or 88 between Fish Hill Creek and Tortilla Flats. Sample AZ15-02, 33°31’48.425”N 111°18’56.285”W 884.6m elev2115902PI 698550
279PI 698551D1 46Gossypium thurberi Tod. COTNot Available2015Wild materialCollected by Dr. James Frelichowski and Janna Love, USDA College Station, Texas. Superstition Mountains. Along N. Apache Road or 88 between Fish Hill Creek and Tortilla Flats. Sample AZ15-03, 33°31’59.189”N 111°18’49.95”W 890.9m elev Collected by Dr. James Frelichowski and Janna Love, USDA College Station, Texas. Superstition Mountains. Along N. Apache Road or 88 between Fish Hill Creek and Tortilla Flats. Sample AZ15-03, 33°31’59.189”N 111°18’49.95”W 890.9m elev Collected by Dr. James Frelichowski and Janna Love, USDA College Station, Texas. Superstition Mountains. Along N. Apache Road or 88 between Fish Hill Creek and Tortilla Flats. Sample AZ15-03, 33°31’59.189”N 111°18’49.95”W 890.9m elev Collected by Dr. James Frelichowski and Janna Love, USDA College Station, Texas. Superstition Mountains. Along N. Apache Road or 88 between Fish Hill Creek and Tortilla Flats. Sample AZ15-03, 33°31’59.189”N 111°18’49.95”W 890.9m elev 2115903PI 698551
280PI 675618'A1064497'Gossypium hirsutum L. Minnesota, United StatesPVPONot Available2015DEVELOPEDCultivar1930197PI 675618
281PI 675619'A1064498'Gossypium hirsutum L. Minnesota, United StatesPVPONot Available2015DEVELOPEDCultivar1930198PI 675619
282PI 675620'A1064500'Gossypium hirsutum L. Minnesota, United StatesPVPONot Available2015DEVELOPEDCultivar1930199PI 675620
283PI 675621'A1064501'Gossypium hirsutum L. Minnesota, United StatesPVPONot Available2015DEVELOPEDCultivar1930200PI 675621
284PI 675622'A1064502'Gossypium hirsutum L. Minnesota, United StatesPVPONot Available2015DEVELOPEDCultivar1930201PI 675622
285PI 675623'A1064503'Gossypium hirsutum L. Minnesota, United StatesPVPONot Available2015DEVELOPEDCultivar1930202PI 675623
286PI 675077MD 10-5Gossypium hirsutum L. Mississippi, United StatesCOTNot Available2015DEVELOPEDBreeding materialMD 10-5 has desirable combination of high lint yield and high fiber strength. This germplasm line was evaluated for lint yield and fiber quality across 9 to 14 locations in the Cotton Belt in the Regional High Quality (RHQ) test in 2012 and the Regional Breeder Testing Network (RBTN) tests in 2012 and 2013. It ranked as the highest for both lint yield and fiber strength in all tests. MD 10-5 is a full season line with white flowers, normal height, normal leaves, and nectarines. Other fiber properties of MD 10-5 are also desirable. Specifically, this germplasm line can be used as a parent in cotton breeding to improve both lint yield and fiber strength.1927183PI 675077
287PI 675105'GA 230'Gossypium hirsutum L. Georgia, United StatesPVPONot Available2015DEVELOPEDCultivar1927229PI 675105
288PI 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
289PI 674746'TM-1'Gossypium hirsutum L. Missouri, United StatesNLGRPNot Available2015DEVELOPEDBreeding materialDetailed history of TM-1 was well described by by Kohel et al (1970) in Crop Sci 10: 670?671. The source of TM-1 to be submitted has been maintained in Delta and Pine Land. A pure inbred TM-1 individual was selected from the pure seed TM-1 lot produced through generations of selfing in Scott, MS and has been used for various RandD projects including whole genome sequencing conducted in Monsanto Company.1926252PI 674746
290PI 674597'FM 8270GLB2'Gossypium hirsutum L. Texas, United StatesPVPONot Available2015DEVELOPEDGenetically Engineered1925850PI 674597
291PI 674611'ST 5289GLT'Gossypium hirsutum L. Mississippi, United StatesPVPONot Available2015DEVELOPEDGenetically Engineered1925864PI 674611
292PI 674612'ST 5032GLT'Gossypium hirsutum L. Mississippi, United StatesPVPONot Available2015DEVELOPEDGenetically Engineered1925865PI 674612
293PI 674469Arkot 0403neGossypium hirsutum L. Arkansas, United StatesCOTNot Available2015DEVELOPEDBreeding materialArkot 0403ne is a nectariless (no nectaries on leaves or flowers) line. Other morphological traits of Arkot 0403ne are similar to 'DP 393' (check cultivar), except Arkot 0403ne has less stem pubescence and is 4% taller. Over 16 replicated field tests in Arkansas, lint yields of Arkot 0403ne were equal to lint yields of DP393, but were 13% higher at Judd Hill and Marianna (silt loam soils in north and central Arkansas). Lint yields of Arkot 0403ne were produced with equal weight of lint per seed (lint index), smaller seed, but higher number of seed per area as DP 393. Compared to DP 393, Arkot 0403ne produced higher lint percentage (40.6 vs 39.0%), seed per area (7.2% more), and micronaire (4.78 vs. 4.62); equal lint index, fiber density (fibers per unit area of seed surface), fiber quality score, fiber length, uniformity index, and fiber strength; and lower seed index (11.8 vs. 11.1 g), fibers per seed (5.6% less), and fiber elongation (5.6 vs. 6.2%). Arkot 0403ne is resistance to all U.S. races of Xanthomonas axonopodis pv. malvacearum (Smith) Dye, the causal agent of bacterial blight. Due to its nectariless traits, Arkot 0403ne is more resistant to tarnished plant bug [Lygus lineolaris (Palisot de Beauvais)] than DP393. Response of Arkot 0403ne to fusarium wilt [caused by Fusarium oxysporum Schlect. F. sp. vasinfectum (Atk.) Snyd. and Hans.] was equal to the resistant check, M-315.1925722PI 674469
294PI 674470Arkot 0409Gossypium hirsutum L. Arkansas, United StatesCOTNot Available2015DEVELOPEDBreeding materialMorphological traits of Arkot 0409 are similar to 'DP 393' (check cultivar), except Arkot 0409 was 13.9% taller, has more pubescent leaves (rating of 3.4 vs. 1.9), and less pubescent stems (rating of3. 7 vs. 4.0). Over 4 years of replicated field tests at four Arkansas sites, lint yields of Arkot 0409 were 12.9% higher than lint yield ofDP393. Lint yields of Arkot 0409 were produced with higher weight of lint per seed (lint index) and higher number of seed per area as DP 393. Compared to DP 393, Arkot 0409 produced higher lint fraction (40.8 vs 39.0%), seed per area (7.1 % more), lint index (7.8 vs. 7.2g), fibers per seed (4.8% more), fiber density (fibers per unit area of seed surface, 6.3% more), and micronaire ( 4. 77 vs. 4.62); equal seed index, open bolls percentage, uniformity index, and fiber elongation; and lower Q-score (52 vs. 59), fiber length (1.16 vs 1.18 inches), and fiber strength (32.2 vs. 34.4 g/tex). Arkot 0409 is resistance to all U.S. races of Xanthomonas axonopodis pv. malvacearum (Smith) Dye, the causal agent of bacterial blight. Arkot 0409 is as resistant to tarnished plant bug [Lygus lineolaris (Palisot de Beauvais)] as DP393, and more resistant a susceptible Frego bract check. Response of Arkot 0409 to fusarium wilt [caused by Fusarium oxysporum Schlect. F. sp. vasinfectum (Atk.) Snyd. and Hans.] was equal to the resistant check, M-315.1925724PI 674470
295PI 674471Arkot 0410HGGossypium hirsutum L. Arkansas, United StatesCOTNot Available2015DEVELOPEDBreeding materialArkot 0410HG is displays the high glanding (HG) trait, with gossypol glands in the calyx lobes. Other morphological traits of Arkot 04JOHG are similar to 'DP 393' (check cultivar), except Arkot 0410HG was 5.6% taller, has more pubescent leaves (rating of 4.0 vs. 1.9), less pubescent stems (rating of 2.2 vs. 6.1 ), and 12.2% lower bract trichome density. Over 4 years of replicated field tests at four Arkansas sites, lint yields of Arkot 041 OHG were equal to than lint yields of DP393. Lint yields of Arkot 041 OHG were produced with higher weight of lint per seed (lint index) and lower number of seed per area as DP 393. Compared to DP 393, Arkot 0410HG produced higher lint fraction (41.5 vs 39.0%), lint index (8.6 vs. 7.2g), seed index (11.8 vs 11.lg), fibers per seed (16.5% more), and fiber density (fibers per unit area of seed surface, 11.8% more); equal open boll percentage, fiber quality score, micronaire, fiber length, uniformity index, and fiber elongation; and lower seed per area (11.4% less) and fiber strength (32.5 vs. 34.4 g/tex). Arkot 041 OHG is resistance to all U.S. races of Xanthomonas axonopodis pv. malvacearum (Smith) Dye, the causal agent of bacterial blight. Arkot 041 OHG is as resistant to tarnished plant bug [Lygus lineolaris (Palisot de Beauvois)] as DP393, and more resistant a susceptible Frego bract check. Incidence of fusarium wilt [caused by Fusarium oxysporum Schlect. F. sp. vasinfectum (Atk.) Snyd. and Hans.] was higher than the resistant check, M-315, but much lower than the susceptible check, Rowden.1925725PI 674471
296PI 674598'14R911B2XF'Gossypium hirsutum L. Minnesota, United StatesPVPONot Available2015DEVELOPEDGenetically Engineered1925851PI 674598
297PI 674599'14R914B2XF'Gossypium hirsutum L. Minnesota, United StatesPVPONot Available2015DEVELOPEDGenetically Engineered1925852PI 674599
298PI 674600'14R915B2XF'Gossypium hirsutum L. Minnesota, United StatesPVPONot Available2015DEVELOPEDGenetically Engineered1925853PI 674600
299PI 674601'DP 1522B2XF'Gossypium hirsutum L. Minnesota, United StatesPVPONot Available2015DEVELOPEDGenetically Engineered1925854PI 674601
300PI 674602'DP 1518B2XF'Gossypium hirsutum L. Minnesota, United StatesPVPONot Available2015DEVELOPEDGenetically Engineered1925855PI 674602
301PI 674603'DP 1538B2XF'Gossypium hirsutum L. Minnesota, United StatesPVPONot Available2015DEVELOPEDGenetically Engineered1925856PI 674603
302PI 674604'A1059058'Gossypium hirsutum L. Minnesota, United StatesPVPONot Available2015DEVELOPEDGenetically Engineered1925857PI 674604
303PI 674605'14R942B2XF'Gossypium hirsutum L. Minnesota, United StatesPVPONot Available2015DEVELOPEDCultivar1925858PI 674605
304PI 674606'14R948B2XF'Gossypium hirsutum L. Minnesota, United StatesPVPONot Available2015DEVELOPEDGenetically Engineered1925859PI 674606
305PI 674607'DP 1549B2XF'Gossypium hirsutum L. Minnesota, United StatesPVPONot Available2015DEVELOPEDGenetically Engineered1925860PI 674607
306PI 674608'DP 1553B2XF'Gossypium hirsutum L. Minnesota, United StatesPVPONot Available2015DEVELOPEDGenetically Engineered1925861PI 674608
307PI 674609'A1059053'Gossypium hirsutum L. Minnesota, United StatesPVPONot Available2015DEVELOPEDCultivar1925862PI 674609
308PI 674610'A1059059'Gossypium hirsutum L. Minnesota, United StatesPVPONot Available2015DEVELOPEDGenetically Engineered1925863PI 674610
309PI 674426PD 05064Gossypium hirsutum L. South Carolina, United StatesCOTNot Available2015DEVELOPEDBreeding materialPD 05064 is a noncommercial breeding line of cotton jointly released in 2014 by the Agricultural Research Service, United States Department of Agriculture, the Clemson University Experiment Station, and Cotton Incorporated. PD 05064 was selected as a single F3:4 row and derived from a cross of PD 94042 and cv. Jimian 8. Replicated field trial data from 2006-2013 indicate PD 05064 possesses broad adaptation and displays outstanding fiber quality properties significantly better than several commercial cultivars. Average High Volume Instrument (HVI) strength length, and micronaire fiber properties are 338 kN m kg-1, 30.6 mm, and 5.0, respectively. PD 05064 displays a full-season maturity, and on average, produces a 41% gin turnout. PD 05064 possesses lint yield potential similar to commercial cultivars. Data also suggest that PD 05064 is broadly adapted across the US upland cotton production region.1925408PI 674426
310PI 674427PD 05069Gossypium hirsutum L. South Carolina, United StatesCOTNot Available2015DEVELOPEDBreeding materialPD 05069 is a noncommercial breeding line of cotton jointly released in 2014 by the Agricultural Research Service, United States Department of Agriculture, the Clemson University Experiment Station, and Cotton Incorporated. PD 05069 was selected as a single F3:4 row and derived from a cross of PD 94042 and cv. Jimian 8. Replicated field trial data from 2006-2013 indicate PD 05069 possesses broad adaptation and displays outstanding fiber quality properties significantly better than several commercial cultivars. Average High Volume Instrument (HVI) strength length, and micronaire fiber properties are 346 kN m kg-1, 30.0 mm, and 5.0, respectively. PD 05069 displays a full-season maturity, and on average, produces a 41% gin turnout. PD 05069 possesses lint yield potential similar to commercial cultivars. Data also suggest that PD 05069 is broadly adapted across the US upland cotton production region.1925409PI 674427
311PI 674428PD 05070Gossypium hirsutum L. South Carolina, United StatesCOTNot Available2015DEVELOPEDBreeding materialPD 05070 is a noncommercial breeding line of cotton jointly released in 2014 by the Agricultural Research Service, United States Department of Agriculture, the Clemson University Experiment Station, and Cotton Incorporated. PD 05070 was selected as a single F3:4 row and derived from a cross of PD 94042 and cv. Jimian 8. Replicated field trial data from 2006-2013 indicate PD 05070 possesses broad adaptation and displays outstanding fiber quality properties significantly better than several commercial cultivars. Average High Volume Instrument (HVI) strength length, and micronaire fiber properties are 322 kN m kg-1, 29.1 mm, and 4.9, respectively. PD 05070 displays a full-season maturity, and on average, produces a 41% gin turnout. PD 05070 possesses lint yield potential similar to commercial cultivars. Data also suggest that PD 05070 is broadly adapted across the US upland cotton production region.1925410PI 674428
312PI 674429PD 05071Gossypium hirsutum L. South Carolina, United StatesCOTNot Available2015DEVELOPEDBreeding materialPD 05071 is a noncommercial breeding line of cotton jointly released in 2014 by the Agricultural Research Service, United States Department of Agriculture, the Clemson University Experiment Station, and Cotton Incorporated. PD 05071 was selected as a single F3:4 row and derived from a cross of PD 94042 and cv. Jimian 8. Replicated field trial data from 2006-2013 indicate PD 05071 possesses broad adaptation and displays outstanding fiber quality properties significantly better than several commercial cultivars. Average High Volume Instrument (HVI) strength length, and micronaire fiber properties are 318 kN m kg-1, 29.4 mm, and 4.9, respectively. PD 05071 displays a full-season maturity, and on average, produces a 39% gin turnout. PD 05071 possesses lint yield potential similar to commercial cultivars. Data also suggest that PD 05071 is broadly adapted across the US upland cotton production region.1925411PI 674429
313PI 674430PD 06001Gossypium hirsutum L. South Carolina, United StatesCOTNot Available2015DEVELOPEDBreeding materialPD 06001 is a noncommercial breeding line of cotton jointly released in 2014 by the Agricultural Research Service, United States Department of Agriculture, the Clemson University Experiment Station, and Cotton Incorporated. PD 06001 was selected as a single F3:4 row and derived from a cross of PD 93007 and AZ-93-180. Replicated field trial data from 2006-2013 indicate PD 06001 possesses broad adaptation and displays outstanding fiber quality properties significantly better than several commercial cultivars. Average High Volume Instrument (HVI) strength length, and micronaire fiber properties are 314 kN m kg-1, 30.2 mm, and 4.9, respectively. PD 06001 displays a full-season maturity, and on average, produces a 38% gin turnout. PD 06001 possesses lint yield potential similar to commercial cultivars. Data also suggest that PD 06001 is broadly adapted across the US upland cotton production region.1925412PI 674430
314PI 674431PD 06078Gossypium hirsutum L. South Carolina, United StatesCOTNot Available2015DEVELOPEDBreeding materialPD 06078 is a noncommercial breeding line of cotton jointly released in 2014 by the Agricultural Research Service, United States Department of Agriculture, the Clemson University Experiment Station, and Cotton Incorporated. PD 06078 was selected as a single F3:4 row and derived from a cross of PD 94042 and cv. SG-105. Replicated field trial data from 2006-2013 indicate PD 06078 possesses broad adaptation and displays outstanding fiber quality properties significantly better than several commercial cultivars. Average High Volume Instrument (HVI) strength length, and micronaire fiber properties are 326 kN m kg-1, 30.3 mm, and 5.1, respectively. PD 06078 displays a full-season maturity, and on average, produces a 40% gin turnout. PD 06078 possesses lint yield potential similar to commercial cultivars. Data also suggest that PD 06078 is broadly adapted across the US upland cotton production region.1925413PI 674431
315PI 674185'2355 B2RF'Gossypium hirsutum L. Texas, United StatesPVPONot Available2015DEVELOPEDCultivar1924370PI 674185
316PI 667753'ST 4946GLB2'Gossypium hirsutum L. Mississippi, United StatesPVPONot Available2013DEVELOPEDGenetically Engineered1909651PI 667753
317PI 667658NC05-11Gossypium hirsutum L. North Carolina, United StatesCOTNot Available2013DEVELOPEDBreeding materialNC05-11 , the normal-leaf shape germplasm line being released , had comparable lint yields to DP 451 BG/RR and similar lint percent and fiber properties with an exception of fiber elongation (Table 4). NC05-11 had Significantly higher fiber strength than the commercial cultivar (35.1 g/tex vs 31 .1 g/tex) and showed slightly longer fibers(29. 7 mm vs 29.2 mm) (Table 4). NC05-11 had a rating of 0 which is the same as the resistant check, M315 (Glass et aI., 2011). NC05-11 has an intermediate plant type which averages 139 cm in height. It averages 4.6 nodes to the first fruiting branch or 24.4 cm; it has pubescence and extrafloral nectaries. It has normal leaf, stem, and calyx glanding and no petal spot. It averages 32.3 seeds per boll with a seed index of 10.2 g and 5.7 grams per boll and 4.1 locks per boll .1908724PI 667658
318PI 667659NC05AZ21Gossypium hirsutum L. North Carolina, United StatesCOTNot Available2013DEVELOPEDBreeding materialNC05AZ21 significantly out yielded FM 832 in 2009 and 2010. NC05AZ21 had higher lint percent (43.2 vs 41 .9), about the same micronaire (4.9 vs 5.0) and fiber length (28.4 mm vs 28.7mm), but significantly lower fiber strength (30.2 g/tex vs 36.6 g/tex). Although the fiber strength was lower for NC05AZ21 than FM 832, the strength was within the acceptable range for the Upland cotton market while its fiber fineness was found to be 171 mTex. Yarn testing showed that NC05AZ21 had a yarn tenacity of 13.96 cN/tex, and a count strength product of 726, Fusarium wilt score for NC05AZ21 was the same as the resistant check M315 (0) (Glass et aI., 2012). NC05AZ21 has an open boll type, intermediate growth/plant habit, intermediate foliage density, intermediate stalk strength, a nOi mal fruiting branch pattern, medium green foliage color, averages 23.7 cm to first fruiting branch, 4.6 nodes to first fruiting branch, 35.4 seeds/boll, 8.7 seed index, 4.3 locks/boll, medium density pubescence, extra-floral nectaries present, normal glanding of the leaf, stem, and calyx lobe, with no petal spot.1908725PI 667659
319PI 667662'FM 2989GLB2'Gossypium hirsutum L. Texas, United StatesPVPONot Available2013DEVELOPEDGenetically Engineered1908728PI 667662
320PI 667663'FM 2484B2F'Gossypium hirsutum L. Texas, United StatesPVPONot Available2013DEVELOPEDCultivar1908729PI 667663
321PI 6675539023n4tGossypium hirsutum L. Mississippi, United StatesNLGRPNot Available2013DEVELOPEDBreeding materialThe 9023n4t mutant is quite unique since it has a partially naked body with a small tuft attached to one end of the seed. The lint percent of the mutant is 39 % higher than the lint percent of n2n2 and 57 % higher than that of N1N1. The mutant had lower short fiber content, lower seed coat neps and better yarn quality than the wild type cultivar. This mutant gins faster and with less energy when compared to other conventional and transgenic cultivars. This mutant can be included in cotton breeding programs to exploit its positive traits without the fear of adverse effect from low lint percent exhibited by N1, n2 and n3. The 9023n4t seed is restricted-use material, currently subject to pending U.S. Patent Application Serial No. 12/197,296, having an expected expiration date of 8/2 4/ 2028 . Availability of 9023n4t seed is for non- commercial research and breeding use onl y on a non- exclusive bas i s during the restricted use period. For questions regarding other use o f this material please contact the Texas Tech University Office of Technology Commercialization at 806 - 742-4105 .1907492PI 667553
322PI 667563ST 5445LLB2Gossypium hirsutum L. North Carolina, United StatesPVPONot Available2013DEVELOPEDGenetically Engineered1907503PI 667563
323PI 666042'MD 25-26ne'Gossypium hirsutum L. Mississippi, United StatesCOTNot Available2012DEVELOPEDThe three reselections out of MD25 were developed from an evaluation program starting with 153 F5:6 progenies in 2009. Based on 2009 results in the initial population, 42 progeny were retested in 2010 and 17 retested in 2011. The average yield from five location-year evaluations in 2010 and 2011 show that the three new MD25 progenies average yield was 155 kg ha-1 , significantly higher (11.3%) than that of the MD25check. No difference in yield components and fiber traits was detected. The 2011 Regional High Quality (RHO) study with eight locations and 22 entries showed that MD25-26ne, MD25-27, and MD25-87's yield was competitive with the leading USA varieties and that the three overall fiber quality traits, yarn tenacity and QS1 and QS2 scores exceeded all entries in the RHQ and RBTN, respectively.1905193PI 666042
324PI 666043'MD 25-27'Gossypium hirsutum L. Mississippi, United StatesCOTNot Available2012DEVELOPEDThe three reselections out of MD25 were developed from an evaluation program starting with 153 F5:6 progenies in 2009. Based on 2009 results in the initial population, 42 progeny were retested in 2010 and 17 retested in 2011. The average yield from five location-year evaluations in 2010 and 2011 show that the three new MD25 progenies average yield was 155 kg ha-1 , significantly higher (11.3%) than that of the MD25check. No difference in yield components and fiber traits was detected. The 2011 Regional High Quality (RHO) study with eight locations and 22 entries showed that MD25-26ne, MD25-27, and MD25-87's yield was competitive with the leading USA varieties and that the three overall fiber quality traits, yarn tenacity and QS1 and QS2 scores exceeded all entries in the RHQ and RBTN, respectively.1905194PI 666043
325PI 666044'MD 25-87'Gossypium hirsutum L. Mississippi, United StatesCOTNot Available2012DEVELOPEDThe three reselections out of MD25 were developed from an evaluation program starting with 153 F5:6 progenies in 2009. Based on 2009 results in the initial population, 42 progeny were retested in 2010 and 17 retested in 2011. The average yield from five location-year evaluations in 2010 and 2011 show that the three new MD25 progenies average yield was 155 kg ha-1 , significantly higher (11.3%) than that of the MD25check. No difference in yield components and fiber traits was detected. The 2011 Regional High Quality (RHO) study with eight locations and 22 entries showed that MD25-26ne, MD25-27, and MD25-87's yield was competitive with the leading USA varieties and that the three overall fiber quality traits, yarn tenacity and QS1 and QS2 scores exceeded all entries in the RHQ and RBTN, respectively.1905195PI 666044
326PI 666052'11R110B2R2'Gossypium hirsutum L. Missouri, United StatesPVPONot Available2012DEVELOPEDGenetically Engineered1905197PI 666052
327PI 666053DP 1321 B2RFGossypium hirsutum L. Missouri, United StatesPVPONot Available2012DEVELOPEDGenetically Engineered1905198PI 666053
328PI 666054'11R115B2R2'Gossypium hirsutum L. Missouri, United StatesPVPONot Available2012DEVELOPEDGenetically Engineered1905204PI 666054
329PI 666055'11R124B2R2'Gossypium hirsutum L. Missouri, United StatesPVPONot Available2012DEVELOPEDGenetically Engineered1905205PI 666055
330PI 666056'11R136B2R2'Gossypium hirsutum L. Missouri, United StatesPVPONot Available2012DEVELOPEDGenetically Engineered1905206PI 666056
331PI 666057'11R140B2R2'Gossypium hirsutum L. Missouri, United StatesPVPONot Available2012DEVELOPEDGenetically Engineered1905207PI 666057
332PI 666058'11R154B2R2'Gossypium hirsutum L. Missouri, United States Historic2012DEVELOPEDGenetically Engineered1905208PI 666058
333PI 665949'BRS 286'Gossypium hirsutum L. North Carolina, United StatesPVPONot Available2012DEVELOPEDCultivar1904853PI 665949
334PI 665950'RMBUP-C4'Gossypium hirsutum L. Mississippi, United StatesCOTNot Available2012DEVELOPEDBreeding materialWhen the euploid parental chromosome substitution lines (CS-B) were crossed with 5 diverse cultivars, 15 CS-B lines showed favorable additive effects that were greater than the corresponding chromosome or arm from TM-1 as follows: lint yield (2), boll weight (3), lint percentage (5), fiber strength (7), fiber length (7), micronaire (3), fiber uniformity (3) fiber elongation (5). After C3 (4 cycles) of random mating the mean agronomic and fiber properties of the S1 bulk are different than the mean of CS-B or mean of cultivar parents. Lint yield, fiber strength, micronaire, and elongation are closer to the mean of cultivar parents. Seed index is closer to mean of CS-B parents. Lint percentage and boll weight are near the mean of CS-B and cuHivar parents. Fiber UHM length is greater than the mean of either group of parents. Correlations among traits were changed and many correlations in C4 S1 are not Significantly different than zero. Agronomic and fiber properties and linkage relationships among alleles are different in this population. Data for the fifth cycle S1 are not available; however, we do not expect these mean values will vary much from the fourth cycle of random mating. One should be able to extract individual lines with agronomic and fiber properties superior to the mean of the segregating generation. Theoretically this population should have many introgressed alleles from G. barbadense. No reports in the literature of these CS-B lines being used in crosses with cultivars followed by the development of a random mated population were found. Thus, the random mated population, RMBU P-C4S 1 , is unique and should have great genetic and breeding value to the cotton industry. It is suggested that this introgressed population can be used for direct plant-to-row selections or that one boll or lock could be bulk harvested from each plant and planted and individual plant selections made in the S2 or later generations.1904855PI 665950
335PI 665928'M713 Ren1'Gossypium hirsutum L. Mississippi, United StatesCOTNot Available2012DEVELOPEDBreeding materialM713 Ren1 was developed by marker assisted selection. The reniform nematode resistance in GB-713 is significantly associated with three QTLs, Ren barb1 and Ren barb2 located on chromosome 21 and Ren barb3 located on chromosome 18 (Osman et al. 2011 Theor Appl Genect 122:271-280). M713 Ren1 is homozygous (SSR markers GH 132_201, BNL3279_106, BNL4011_152 and BNL569_131) for three QTLs (Ren barb1, Ren barb2 and Ren barb3). Reniform nematode, Rotylenchulus reniformis, was verified in greenhouse test. Reniform nematode egg production was reduced approximately 90% compared to a susceptible cultivar. Over-all plant size is similar to standard cultivars. M713 Ren1 offers an excellent source of resistance to the reniform nematode with acceptable agronomic and fiber traits and by using marker assisted selection the development of reniform resistant cultivars should be expedited.1904833PI 665928
336PI 665929'M713 Ren2'Gossypium hirsutum L. Mississippi, United StatesCOTNot Available2012DEVELOPEDBreeding material1904834PI 665929
337PI 665930'M713 Ren5'Gossypium hirsutum L. Mississippi, United StatesCOTNot Available2012DEVELOPEDBreeding materialM713 Ren5 was developed by marker assisted selection. The reniform nematode resistance in GB-713 is significantly associated with three QTLs, Ren barb1 and Ren barb2 located on chromosome 21 and Ren barb3 located on chromosome 18 (Osman et al. 2011 Theor Appl Genect 122:271-280). M713 Ren5 is homozygous (SSR markers GH 132_201, BNL3279_106, and BNL4011_152 ) for two QTLs (Ren barb1, and Ren barb2). Reniform nematode, Rotylenchulus reniformis, was verified in greenhouse test. Reniform nematode egg production was reduced approximately 90% compared to a susceptible cultivar. Over-all plant size is similar to standard cultivars. M713 Ren5 has green seed fuzz and offers an excellent source of resistance to the reniform nematode with acceptable agronomic and fiber traits and by using marker assisted selection the development of reniform resistant cultivars should be expedited.1904835PI 665930
338PI 665638'MD 15 M4'Gossypium hirsutum L. Mississippi, United StatesCOTNot Available2012DEVELOPEDBreeding materialMean, range, and sample variance statistical parameters were used to compare the mutants with their parents. Line charts from 150 random individual plants from the mutant and check variety indicated that there was a shift in means to the right for the mutant for fiber length and strength indicating an improvement of these traits in the mutant. The ranges of the mutant in fiber length, fiber strength, lint percent, and seed index were wider for the mutants. In 2010, significant differences in the sample variances were observed for fiber length, lint percent, micronaire, and seed index for the MD 15 M4 mutants and the check cultivar. Higher variances were accompanied by wider ranges for the mutant as compared to the check parent, MD 15. Overall, chemical mutagenesis appeared to have created new extremes at both the low and high ends for fiber length, fiber strength, lint percent, micronaire, and seed index. Cotton breeders and geneticists can exploit this new variability in their cotton improvement programs. This is relevant in light of the narrow germplasm base currently observed in cotton germ plasm which limits the success of breeding programs.1903421PI 665638
339PI 663886GVS1Gossypium hirsutum L. Mississippi, United StatesCOTNot Available2011DEVELOPEDBreeding materialA set of five upland (Gossypillm hirsllfllm) cotton germplasm lines which includes three semiglanded lines (GVSI, GVS2, GVS3) with varying gland densities and seed gossypol content, a totally glanded line (GVS4) and a totally glandless line (GVS5) all in the same genetic background, Stoneville 7 A. GVS4 and GVS5 are near isogenic lines (NILs); GVS4 has normal glanding and gossypol in the seed, while GVS5 has no glands or gossypol in the seed. In the Fl1? the seed gossypol content of GVSI, GVS2 and GVS3 was 0.90, 0.49, and 0.51% of the total seed weight, respectively. The parental line Stoneville 7 A glanded had 1.54% and the Stoneville 7 A glandless had 0.00% seed gossypol. The NILs GVS4 and GVS5 had 1.49% and 0.00% seed gossypol. GVS I, GVS2 and GVS3 have normal stem glanding similar to the glanded parent. Calyx glanding is normal in GVS 1 while GVS2 and GVS3 have a 17% reduction. Boll glanding scores were 100% (GVSI), 66% (GVS2) and 50% (GVS3) of the glanded parent. In the semi-glanded lines, leaf glanding was reduced at the end of the growing season, but the leaves were always glanded on veins and margins. GVS4 plants have normal glanding throughout and GVS5 plants are completely devoid of glands. Lint yields averaged 1,584 kg/ha for GVSI, 1,302 kg/ha for GVS2, 1,363 kg/ha for GVS3 and 1,632 kg/ha for the yield check SG 747. Lint yields for GVS4 and GVS5 were 1,535 and 1,347 kg/ha, respectively. Fiber length (HVI-UHM) was 30.48 mm for GVSI, 29.08 mm for GVS2, 28.83 mm for GVS3, 30.16 mm for GVS4 and 29.21 mm for GVS5 compared to the quality check FM 832 (32.13 mm) and yield check SG 747 (30.48 mm). Fiber strength was 298 kN m/kg for GVS I, 326 kN m/kg for GVS2, 278 kN m/kg for GVS3, GVS4 285 kN m/kg and 278 kN m/kg for GVS5, while FM 832 had 330 kN m/kg. Micronaire for FM 832, was 4.8 and 5.5 (GVSI), 5.3 (GVS2), 5.8 (GVS3), and 4.2 (GVS4, GVS5). These lines will be valuable tools for mapping projects, host plant resistance studies and a genetic resource to develop low seed gossypol lines.1888678PI 663886
340PI 663887GVS2Gossypium hirsutum L. Mississippi, United StatesCOTNot Available2011DEVELOPEDBreeding materialA set of five upland (Gossypillm hirsllfllm) cotton germplasm lines which includes three semiglanded lines (GVSI, GVS2, GVS3) with varying gland densities and seed gossypol content, a totally glanded line (GVS4) and a totally glandless line (GVS5) all in the same genetic background, Stoneville 7 A. GVS4 and GVS5 are near isogenic lines (NILs); GVS4 has normal glanding and gossypol in the seed, while GVS5 has no glands or gossypol in the seed. In the Fl1? the seed gossypol content of GVSI, GVS2 and GVS3 was 0.90, 0.49, and 0.51% of the total seed weight, respectively. The parental line Stoneville 7 A glanded had 1.54% and the Stoneville 7 A glandless had 0.00% seed gossypol. The NILs GVS4 and GVS5 had 1.49% and 0.00% seed gossypol. GVS I, GVS2 and GVS3 have normal stem glanding similar to the glanded parent. Calyx glanding is normal in GVS 1 while GVS2 and GVS3 have a 17% reduction. Boll glanding scores were 100% (GVSI), 66% (GVS2) and 50% (GVS3) of the glanded parent. In the semi-glanded lines, leaf glanding was reduced at the end of the growing season, but the leaves were always glanded on veins and margins. GVS4 plants have normal glanding throughout and GVS5 plants are completely devoid of glands. Lint yields averaged 1,584 kg/ha for GVSI, 1,302 kg/ha for GVS2, 1,363 kg/ha for GVS3 and 1,632 kg/ha for the yield check SG 747. Lint yields for GVS4 and GVS5 were 1,535 and 1,347 kg/ha, respectively. Fiber length (HVI-UHM) was 30.48 mm for GVSI, 29.08 mm for GVS2, 28.83 mm for GVS3, 30.16 mm for GVS4 and 29.21 mm for GVS5 compared to the quality check FM 832 (32.13 mm) and yield check SG 747 (30.48 mm). Fiber strength was 298 kN m/kg for GVS I, 326 kN m/kg for GVS2, 278 kN m/kg for GVS3, GVS4 285 kN m/kg and 278 kN m/kg for GVS5, while FM 832 had 330 kN m/kg. Micronaire for FM 832, was 4.8 and 5.5 (GVSI), 5.3 (GVS2), 5.8 (GVS3), and 4.2 (GVS4, GVS5). These lines will be valuable tools for mapping projects, host plant resistance studies and a genetic resource to develop low seed gossypol lines.1888681PI 663887
341PI 663888GVS3Gossypium hirsutum L. Mississippi, United StatesCOTNot Available2011DEVELOPEDBreeding materialA set of five upland (Gossypillm hirsllfllm) cotton germplasm lines which includes three semiglanded lines (GVSI, GVS2, GVS3) with varying gland densities and seed gossypol content, a totally glanded line (GVS4) and a totally glandless line (GVS5) all in the same genetic background, Stoneville 7 A. GVS4 and GVS5 are near isogenic lines (NILs); GVS4 has normal glanding and gossypol in the seed, while GVS5 has no glands or gossypol in the seed. In the Fl1? the seed gossypol content of GVSI, GVS2 and GVS3 was 0.90, 0.49, and 0.51% of the total seed weight, respectively. The parental line Stoneville 7 A glanded had 1.54% and the Stoneville 7 A glandless had 0.00% seed gossypol. The NILs GVS4 and GVS5 had 1.49% and 0.00% seed gossypol. GVS I, GVS2 and GVS3 have normal stem glanding similar to the glanded parent. Calyx glanding is normal in GVS 1 while GVS2 and GVS3 have a 17% reduction. Boll glanding scores were 100% (GVSI), 66% (GVS2) and 50% (GVS3) of the glanded parent. In the semi-glanded lines, leaf glanding was reduced at the end of the growing season, but the leaves were always glanded on veins and margins. GVS4 plants have normal glanding throughout and GVS5 plants are completely devoid of glands. Lint yields averaged 1,584 kg/ha for GVSI, 1,302 kg/ha for GVS2, 1,363 kg/ha for GVS3 and 1,632 kg/ha for the yield check SG 747. Lint yields for GVS4 and GVS5 were 1,535 and 1,347 kg/ha, respectively. Fiber length (HVI-UHM) was 30.48 mm for GVSI, 29.08 mm for GVS2, 28.83 mm for GVS3, 30.16 mm for GVS4 and 29.21 mm for GVS5 compared to the quality check FM 832 (32.13 mm) and yield check SG 747 (30.48 mm). Fiber strength was 298 kN m/kg for GVS I, 326 kN m/kg for GVS2, 278 kN m/kg for GVS3, GVS4 285 kN m/kg and 278 kN m/kg for GVS5, while FM 832 had 330 kN m/kg. Micronaire for FM 832, was 4.8 and 5.5 (GVSI), 5.3 (GVS2), 5.8 (GVS3), and 4.2 (GVS4, GVS5). These lines will be valuable tools for mapping projects, host plant resistance studies and a genetic resource to develop low seed gossypol lines.1888687PI 663888
342PI 663889GVS4Gossypium hirsutum L. Mississippi, United StatesCOTNot Available2011DEVELOPEDBreeding materialA set of five upland (Gossypillm hirsllfllm) cotton germplasm lines which includes three semiglanded lines (GVSI, GVS2, GVS3) with varying gland densities and seed gossypol content, a totally glanded line (GVS4) and a totally glandless line (GVS5) all in the same genetic background, Stoneville 7 A. GVS4 and GVS5 are near isogenic lines (NILs); GVS4 has normal glanding and gossypol in the seed, while GVS5 has no glands or gossypol in the seed. In the Fl1? the seed gossypol content of GVSI, GVS2 and GVS3 was 0.90, 0.49, and 0.51% of the total seed weight, respectively. The parental line Stoneville 7 A glanded had 1.54% and the Stoneville 7 A glandless had 0.00% seed gossypol. The NILs GVS4 and GVS5 had 1.49% and 0.00% seed gossypol. GVS I, GVS2 and GVS3 have normal stem glanding similar to the glanded parent. Calyx glanding is normal in GVS 1 while GVS2 and GVS3 have a 17% reduction. Boll glanding scores were 100% (GVSI), 66% (GVS2) and 50% (GVS3) of the glanded parent. In the semi-glanded lines, leaf glanding was reduced at the end of the growing season, but the leaves were always glanded on veins and margins. GVS4 plants have normal glanding throughout and GVS5 plants are completely devoid of glands. Lint yields averaged 1,584 kg/ha for GVSI, 1,302 kg/ha for GVS2, 1,363 kg/ha for GVS3 and 1,632 kg/ha for the yield check SG 747. Lint yields for GVS4 and GVS5 were 1,535 and 1,347 kg/ha, respectively. Fiber length (HVI-UHM) was 30.48 mm for GVSI, 29.08 mm for GVS2, 28.83 mm for GVS3, 30.16 mm for GVS4 and 29.21 mm for GVS5 compared to the quality check FM 832 (32.13 mm) and yield check SG 747 (30.48 mm). Fiber strength was 298 kN m/kg for GVS I, 326 kN m/kg for GVS2, 278 kN m/kg for GVS3, GVS4 285 kN m/kg and 278 kN m/kg for GVS5, while FM 832 had 330 kN m/kg. Micronaire for FM 832, was 4.8 and 5.5 (GVSI), 5.3 (GVS2), 5.8 (GVS3), and 4.2 (GVS4, GVS5). These lines will be valuable tools for mapping projects, host plant resistance studies and a genetic resource to develop low seed gossypol lines.1888688PI 663889
343PI 663890GVS5Gossypium hirsutum L. Mississippi, United StatesCOTNot Available2011DEVELOPEDBreeding materialA set of five upland (Gossypillm hirsllfllm) cotton germplasm lines which includes three semiglanded lines (GVSI, GVS2, GVS3) with varying gland densities and seed gossypol content, a totally glanded line (GVS4) and a totally glandless line (GVS5) all in the same genetic background, Stoneville 7 A. GVS4 and GVS5 are near isogenic lines (NILs); GVS4 has normal glanding and gossypol in the seed, while GVS5 has no glands or gossypol in the seed. In the Fl1? the seed gossypol content of GVSI, GVS2 and GVS3 was 0.90, 0.49, and 0.51% of the total seed weight, respectively. The parental line Stoneville 7 A glanded had 1.54% and the Stoneville 7 A glandless had 0.00% seed gossypol. The NILs GVS4 and GVS5 had 1.49% and 0.00% seed gossypol. GVS I, GVS2 and GVS3 have normal stem glanding similar to the glanded parent. Calyx glanding is normal in GVS 1 while GVS2 and GVS3 have a 17% reduction. Boll glanding scores were 100% (GVSI), 66% (GVS2) and 50% (GVS3) of the glanded parent. In the semi-glanded lines, leaf glanding was reduced at the end of the growing season, but the leaves were always glanded on veins and margins. GVS4 plants have normal glanding throughout and GVS5 plants are completely devoid of glands. Lint yields averaged 1,584 kg/ha for GVSI, 1,302 kg/ha for GVS2, 1,363 kg/ha for GVS3 and 1,632 kg/ha for the yield check SG 747. Lint yields for GVS4 and GVS5 were 1,535 and 1,347 kg/ha, respectively. Fiber length (HVI-UHM) was 30.48 mm for GVSI, 29.08 mm for GVS2, 28.83 mm for GVS3, 30.16 mm for GVS4 and 29.21 mm for GVS5 compared to the quality check FM 832 (32.13 mm) and yield check SG 747 (30.48 mm). Fiber strength was 298 kN m/kg for GVS I, 326 kN m/kg for GVS2, 278 kN m/kg for GVS3, GVS4 285 kN m/kg and 278 kN m/kg for GVS5, while FM 832 had 330 kN m/kg. Micronaire for FM 832, was 4.8 and 5.5 (GVSI), 5.3 (GVS2), 5.8 (GVS3), and 4.2 (GVS4, GVS5). These lines will be valuable tools for mapping projects, host plant resistance studies and a genetic resource to develop low seed gossypol lines.1888689PI 663890
344PI 662949FM 2011GTGossypium hirsutum L. Texas, United StatesPVPONot Available2011DEVELOPEDGenetically Engineered1883561PI 662949
345PI 662944TM1Gossypium hirsutum L. Arizona, United StatesNLGRPNot Available2011DEVELOPEDThe TM-1/NM24016 population has exceptional phenotypic diversity for agronomic and fiber traits (Percy et al., 2006). The RIL population and parents were phenotyped for ten traits in Maricopa, AZ and Las Cruces, NM over two years: boll size, lint percentage, lint yield, plant height (only Maricopa environments), fiber length (2.5%- and 50%-span lengths), micronaire (an indirect measure of fiber fineness), strength, elongation, and uniformity. Phenotypic and genotypic data from the parents and RILs are available from CottonDB (http://cottondb.tamu.edu). The Parents of TM-1/NM24016 Mapping Population NSL 477435 have been assigned new PI numbers to reflect their association with the Mapping population: 'TM1', PI 607172, newly assigned PI 662944 MAP and 'NM24016', PI 612327, newly assigned PI 662945 MAP.1883475PI 662944
346PI 662948'ST 4145LLB2'Gossypium hirsutum L. Missouri, United StatesPVPONot Available2011DEVELOPEDGenetically Engineered1883560PI 662948
347PI 660980SA 3825Gossypium hirsutum L. Georgia, United StatesCOT2011DEVELOPEDBreeding materialGA 120R1B3 is a non-commercial breeding line of cotton (Gossypium hirsutum L.) jointly released by the USDA Agricultural Research Service and the Agricultural Experiment Station at the University of Georgia in 2010. GA 120R1B3 was created using a single-seed decent method in a backcrossing program to combine the resistance to Meloidogyne incognita (the southern root-knot nematode) from M-120 RNR with the high yielding, high fiber quality characteristics of PD 94042. Two greenhouse evaluations of nematode reproduction were conducted in 2007. Field evaluations for yield and fiber quality were conducted from 2007 to 2009 and included three tests in fields infested with M. incognita and four tests in fields without M. incognita. GA 120R1B3 has a high level of resistance to M. incognita which is equivalent to the resistance found in M-120 RNR, but GA120R1B3 has significantly better lint percentage and fiber quality than M-120 RNR. GA 120R1B3 has yield and fiber quality generally comparable to commercial cultivars at the time of testing, and a lint percentage that was often greater than the commercial standards. GA 120R1B3 had good yield and excellent fiber quality in both the presence and absence of M. incognita.1864454PI 660980
348PI 698591D1 86Gossypium thurberi Tod. Arizona, United StatesCOTSEEDNot Available2009Wild materialMillenium Seed Bank Project, Bureau of Land Mgmt Save Our Seeds Project Transferred from USDA, Pullman, WA to College Station, TX.1826925PI 698591
349PI 656375'SURE-GROW 747'Gossypium hirsutum L. United StatesCOTNot Available2009DEVELOPEDCultivar1797057PI 656375
350PI 655546'06T201F'Gossypium hirsutum L. United StatesPVPONot Available2009DEVELOPEDGenetically Engineered1792622PI 655546
351PI 655547'MCS0711B2RF'Gossypium hirsutum L. United StatesPVPONot Available2009DEVELOPEDGenetically Engineered1792623PI 655547
352PI 655548'MCS0702B2RF'Gossypium hirsutum L. United StatesPVPONot Available2009DEVELOPEDGenetically Engineered1792624PI 655548
353PI 655549'07W505DF'Gossypium hirsutum L. United StatesPVPONot Available2009DEVELOPEDGenetically Engineered1792625PI 655549
354PI 655550'07W514DF'Gossypium hirsutum L. United StatesPVPONot Available2009DEVELOPEDGenetically Engineered1792626PI 655550
355PI 655551'07W903DF'Gossypium hirsutum L. United StatesPVPONot Available2009DEVELOPEDGenetically Engineered1792627PI 655551
356PI 655552'07W901DF'Gossypium hirsutum L. United StatesPVPONot Available2009DEVELOPEDGenetically Engineered1792628PI 655552
357PI 655553'07W590DF'Gossypium hirsutum L. United StatesPVPONot Available2009DEVELOPEDGenetically Engineered1792629PI 655553
358PI 655554'DP 0935 B2RF'Gossypium hirsutum L. United StatesPVPONot Available2009DEVELOPEDGenetically Engineered1792630PI 655554
359PI 655555'MX0623B2RF'Gossypium hirsutum L. United StatesPVPONot Available2009DEVELOPEDGenetically Engineered1792631PI 655555
360PI 655556'DP 0924 B2RF'Gossypium hirsutum L. United StatesPVPONot Available2009DEVELOPEDGenetically Engineered1792632PI 655556
361PI 655557'565452G'Gossypium hirsutum L. United StatesPVPONot Available2009DEVELOPEDGenetically Engineered1792633PI 655557
362PI 655558'MX0622B2RF'Gossypium hirsutum L. United StatesPVPONot Available2009DEVELOPEDGenetically Engineered1792634PI 655558
363PI 655559'MCS0747B2RF'Gossypium hirsutum L. United StatesPVPONot Available2009DEVELOPEDGenetically Engineered1792635PI 655559
364PI 655560'07X440DF'Gossypium hirsutum L. United StatesPVPONot Available2009DEVELOPEDGenetically Engineered1792636PI 655560
365PI 654509Arkot 9704Gossypium hirsutum L. Arkansas, United StatesCOTNot Available2008DEVELOPED08/2008Breeding materialMorphological traits of Arkot 9704 are similar to SG105 (check cultivar), except Arkot 9704 is taller, has a more glabrous leaf and lower bract trichome density. Over 14 replicated field tests in Arkansas, lint yields of Arkot were comparable to yields of SG 105 and PSC 355 with slightly better adaptation to more southern locations. Yields of Arkot 9704 were produced with fewer seed per area and higher weight of fibers per seed (lint index) than the check cultivars. Compared to SG 105, Arkot 9704 produced higher open boll percentage, lint percentage, seed index, and fibers per seed; similar micronaire and lower fiber length, length uniformity index, and fiber strength . Arkot 9704 is resistance to all U.S. races of Xanthomonas campestris pv. malvacearum (Smith) Dye, the causal agent of bacterial blight. Resistance to Verticillium wilt (caused by Verticillium dahliae, Kleb) is equal to SG 105 and PSC 355. Resistance of Arkot 9704 to root-knot nematode {Meloidogyne incognita [(Kofoid and White, 1919) Chitwood, 1949]} is equal to SG 105, but less resistant than PSC 355. Arkot 9704 is more resistant to tarnished plant bug [Lygus lineolaris (Palisot de Beauvois)] than SG 105, but less resistant than PSC 355. 1784452PI 654509
366PI 654510Arkot 9706Gossypium hirsutum L. Arkansas, United StatesCOTNot Available2008DEVELOPED08/2008Breeding materialMorphological traits of Arkot 9706 are similar to SG105 (check cultivar), except Arkot 9706 tends to have a taller final plant height. Over 14 replicated field tests in Arkansas, lint yields of Arkot were comparable to yields of SG 105 and PSC 355 with better adaptation to more southern locations. Yields of Arkot 9706 were produced with fewer seed per area and higher weight of fibers per seed than the check cultivars. Compared to SG 105, Arkot 9706 produced higher, lint percentage, seed index and fibers per seed; similar open boll percentage, micronaire and length uniformity index; and lower fiber length and fiber strength . Arkot 9706 is resistance to all U.S. races of Xanthomonas campestris pv. malvacearum (Smith) Dye, the causal agent of bacterial blight. Resistance to Verticillium wilt (caused by Verticillium dahliae, Kleb) is equal to SG 105 and PSC 355. Resistance of Arkot 9706 to root-knot nematode {Meloidogyne incognita [(Kofoid and White, 1919) Chitwood, 1949]} is equal to SG 105, but less resistant than PSC 355. Arkot 9706 is more resistant to tarnished plant bug [Lygus lineolaris (Palisot de Beauvois)] than SG 105 or PSC 355. 1784455PI 654510
367PI 654511Arkot 9721Gossypium hirsutum L. Arkansas, United StatesCOTNot Available2008DEVELOPED08/2008Breeding materialMorphological traits of Arkot 9721 are similar to SG105 (check cultivar), except Arkot 9721 is taller and has a more glabrous leaf and higher bract trichome density. Over 10 replicated Arkansas field tests conducted in 2004, 2005, and 2007, lint yields of Arkot were comparable to yields of SG 105 and PSC 355. Significantly low yields of Arkot 9721 compared to the check cultivars in four 2006 tests may have been due to poor quality seed. Compared to SG 105, Arkot 9721 produced higher seed index, fiber length, and uniformity index; similar open boll percent, lint index, fiber strength and fiber elongation, and lower lint percent, micronaire, seed per area, and fibers per seed. Arkot 9721 is resistance to all U.S. races of Xanthomonas campestris pv. malvacearum (Smith) Dye, the causal agent of bacterial blight. Resistance to Verticillium wilt (caused by Verticillium dahliae, Kleb) appeared to be slightly less than SG 105 and PSC 355. Resistance of Arkot 9721 to root-knot nematode {Meloidogyne incognita [(Kofoid and White, 1919) Chitwood, 1949]} is equal to SG 105. Arkot 9721 is more resistant to tarnished plant bug [Lygus lineolaris (Palisot de Beauvois)] than SG 105, and equal to PSC 355. The most outstanding characteristics of Arkot 9721 is it high fiber quality as indicated by long fibers (30.7 mm compared to 29.1mm for checks over all tests), low micronaire (4.7 compared to 4.9 for checks), and high uniformity index (85.2% compared to 84.6 for checks).1784457PI 654511
368PI 654065SJ-07P-FR01Gossypium barbadense L. California, United StatesCOTNot Available2008DEVELOPED2008Breeding materialSJ-07P-FR01, SJ-07P-FR02, SJ-07P-FR03 and SJ-07P-FR04 were developed and released to provide germplasm with good levels of resistance to Fusarium wilt [Fusarium oxysporum f. sp. vasinfectum] race 4 to cotton breeders in California. These lines provide needed alternative sources of FOV resistance and broaden the genetic base of resistant germplasm critical to maintaining a healthy Pima cotton industry in the San Joaquin Valley of California. Lines SJ-07P-FR01-FR03 were developed from a single F2 plant and advanced from F2 to F3 by single plant selection. Following generations were advanced as individual families or populations. SJ-07P-FR04 is a population originating from re-selection within P 73. The lines were evaluated for resistance to race 4 in two field trials conducted in 2003 and 2004 and in three greenhouse trials conducted in 2004 and 2005. Five replicated field evaluations for yield potential, fiber characteristics, and other agronomic traits were conducted at Westside, CA, Shafter, CA and Maricopa, AZ in 2005 and 2006. The SJ-07P-FR series possesses moderate lint yield potential, and good to superior fiber length and strength. Caution should be applied when utilizing these lines and it should not be assumed that the lines provide complete resistance against FOV race 4.1778763PI 654065
369PI 654066SJ-07P-FR02Gossypium barbadense L. California, United StatesCOTNot Available2008DEVELOPED2008Breeding materialSJ-07P-FR01, SJ-07P-FR02, SJ-07P-FR03 and SJ-07P-FR04 were developed and released to provide germplasm with good levels of resistance to Fusarium wilt [Fusarium oxysporum f. sp. vasinfectum] race 4 to cotton breeders in California. These lines provide needed alternative sources of FOV resistance and broaden the genetic base of resistant germplasm critical to maintaining a healthy Pima cotton industry in the San Joaquin Valley of California. Lines SJ-07P-FR01-FR03 were developed from a single F2 plant and advanced from F2 to F3 by single plant selection. Following generations were advanced as individual families or populations. SJ-07P-FR04 is a population originating from re-selection within P 73. The lines were evaluated for resistance to race 4 in two field trials conducted in 2003 and 2004 and in three greenhouse trials conducted in 2004 and 2005. Five replicated field evaluations for yield potential, fiber characteristics, and other agronomic traits were conducted at Westside, CA, Shafter, CA and Maricopa, AZ in 2005 and 2006. The SJ-07P-FR series possesses moderate lint yield potential, and good to superior fiber length and strength. Caution should be applied when utilizing these lines and it should not be assumed that the lines provide complete resistance against FOV race 4.1778764PI 654066
370PI 654067SJ-07P-FR03Gossypium barbadense L. California, United StatesCOTNot Available2008DEVELOPED2008Breeding materialSJ-07P-FR01, SJ-07P-FR02, SJ-07P-FR03 and SJ-07P-FR04 were developed and released to provide germplasm with good levels of resistance to Fusarium wilt [Fusarium oxysporum f. sp. vasinfectum] race 4 to cotton breeders in California. These lines provide needed alternative sources of FOV resistance and broaden the genetic base of resistant germplasm critical to maintaining a healthy Pima cotton industry in the San Joaquin Valley of California. Lines SJ-07P-FR01-FR03 were developed from a single F2 plant and advanced from F2 to F3 by single plant selection. Following generations were advanced as individual families or populations. SJ-07P-FR04 is a population originating from re-selection within P 73. The lines were evaluated for resistance to race 4 in two field trials conducted in 2003 and 2004 and in three greenhouse trials conducted in 2004 and 2005. Five replicated field evaluations for yield potential, fiber characteristics, and other agronomic traits were conducted at Westside, CA, Shafter, CA and Maricopa, AZ in 2005 and 2006. The SJ-07P-FR series possesses moderate lint yield potential, and good to superior fiber length and strength. Caution should be applied when utilizing these lines and it should not be assumed that the lines provide complete resistance against FOV race 4.1778765PI 654067
371PI 654068SJ-07P-FR04Gossypium barbadense L. California, United StatesCOTNot Available2008DEVELOPED2008Breeding materialSJ-07P-FR01, SJ-07P-FR02, SJ-07P-FR03 and SJ-07P-FR04 were developed and released to provide germplasm with good levels of resistance to Fusarium wilt [Fusarium oxysporum f. sp. vasinfectum] race 4 to cotton breeders in California. These lines provide needed alternative sources of FOV resistance and broaden the genetic base of resistant germplasm critical to maintaining a healthy Pima cotton industry in the San Joaquin Valley of California. Lines SJ-07P-FR01-FR03 were developed from a single F2 plant and advanced from F2 to F3 by single plant selection. Following generations were advanced as individual families or populations. SJ-07P-FR04 is a population originating from re-selection within P 73. The lines were evaluated for resistance to race 4 in two field trials conducted in 2003 and 2004 and in three greenhouse trials conducted in 2004 and 2005. Five replicated field evaluations for yield potential, fiber characteristics, and other agronomic traits were conducted at Westside, CA, Shafter, CA and Maricopa, AZ in 2005 and 2006. The SJ-07P-FR series possesses moderate lint yield potential, and good to superior fiber length and strength. Caution should be applied when utilizing these lines and it should not be assumed that the lines provide complete resistance against FOV race 4.1778766PI 654068
372PI 653516'JAJO 1201'Gossypium hirsutum L. United States Historic2008DEVELOPEDCultivar1752672PI 653516
373PI 653517SA 3802Gossypium hirsutum L. United StatesCOT2008DEVELOPEDCultivar1752675PI 653517
374PI 653524'FM 835LLB2'Gossypium hirsutum L. United StatesPVPONot Available2008DEVELOPEDGenetically Engineered1752700PI 653524
375PI 653110SA 3744Gossypium hirsutum L. South Carolina, United States Historic2008DEVELOPEDBreeding materialPossesses outstanding fiber quality as determined by High Volume Instrument (HVI) testing. Average HVI values for fiber strength, fiber length, and micronaire are ~300 kN m kg-1, ~29 mm, and ~4.6, respectively. Average HVI fiber uniformity index and fiber elongation values are greater than 82% and ~5.5% respectively. Is a full-season germplasm line possessing mid to late maturity and displays a medium to tall plant height (~100 cm) under dryland production conditions when no plant growth regulators are used. On average, produces a 38% gin turnout. Possesses lint yield potential similar to or just below commercial cultivars and is best adapted to the southeastern USA. Broad adaptation across the USA Upland cotton production region that warrants its use in regions other than the southeastern USA.1751743PI 653110
376PI 653111SA 3745Gossypium hirsutum L. South Carolina, United StatesCOT2008DEVELOPED2007Breeding materialPossesses outstanding fiber quality as determined by High Volume Instrument (HVI) testing. Average HVI values for fiber strength, fiber length, and micronaire are ~300 kN m kg-1, ~29 mm, and ~4.5, respectively. Average HVI fiber uniformity index and fiber elongation values are greater than 82% and ~5.5 %, respectively. Full-season germplasm line possessing mid to late maturity and displays a medium to tall plant height (~100 cm) under dryland production conditions when no plant growth regulators are used. On average produces a 38% gin turnout. Possesses lint yield potential similar to or just below commercial cultivars and is best adapted to the southeastern USA. Has broad adaptation across the USA Upland cotton production region that warrants its use in regions other than the southeastern USA.1751744PI 653111
377PI 652942RMUP-C5Gossypium hirsutum L. Mississippi, United StatesCOTNot Available2008DEVELOPEDBreeding materialThe parents used in developing the population represent a diverse group of lines from major breeding programs. The bulked pollen method of pollination was used in the development and there were six cycles of random mating with intercrossing of the F1,s considered cycle zero. Selfed seed of C5S1 have been released. Comparisons of correlation coefficients between traits among parents, C0 and C5 cycles of random mating show reshuffling of linkage blocks. Because this germplasm represents random mating among parents form the major seed breeding companies, this population should be of value to breeders across the U.S. Cotton Belt.1751269PI 652942
378PI 652865SA 3751Gossypium hirsutum L. Texas, United StatesCOTNot Available2008DEVELOPED2007Breeding materialExhibits longer UHM length through a longer fiber length development period than Fiber Max 832 or TTU 202. Exhibits better combining ability for improved fiber length than Fiber Max 832 or TTU 202. In testing over 8 locations and 3 years in central and south Texas, TAM 01E-22 produced less lint yield per acre than Fiber max 832 or PSC 355 but averaged higher, p=0.05, HVI fiber bundle strength at 33.9 g/tex and produced fibers with UHM length 7 and 16% longer than Fiber Max 832 and PSC 355, respectively.1749134PI 652865
379PI 651859Arkot 9625Gossypium hirsutum L. Arkansas, United StatesCOTNot Available2007DEVELOPED01/2008Breeding materialMorphological traits similar to SG105 (check cultivar), except leaf pubescence is intermediate between SG105 and PSC 355. Over 14 replicated field tests in Arkansas, yielded the same as the average yields of SG 105 and PSC 355. Compared to SG 105, tended to produce higher open boll percentage, seed index, lint index, and fibers per seed; similar lint percentage, micronaire, fiber length and length uniformity and lower plant height, seed per acre and fiber strength. Resistance to all U.S. races of Xanthomonas campestris pv. malvacearum, the causal agent of bacterial blight. Resistance to fusarium wilt [cuased by Fusarium oxysporum] is intermediate between known resistant and susceptible check. Resistance to tarnished plant bug [Lygus lineolaris] is intermediate to the resistance of SC 105 and PSC 355. Less resistant to Verticillium wilt (caused by Verticillium dahliae) than SG 105 or PSC 355.1744967PI 651859
380PI 648225'KRYPTON PIMA'Gossypium barbadense L. California, United StatesPVPONot Available2007DEVELOPEDGenetically Engineered1728170PI 648225
381PI 646198'DP 353 Pima'Gossypium barbadense L. Arizona, United States Historic2007DEVELOPEDCultivar1721033PI 646198
382PI 644074SA 3882Gossypium hirsutum L. Mississippi, United StatesCOT2006DEVELOPEDBreeding materialMS-01RKN was evaluated for resistance to root-knot nematode, [Melodogyne incognita (Kofoid and White) Chitwood] in two greenhouse evaluations and in the Regional root-knot nematode/Fusarium Wilt Nursery at Tallassee, AL. It was evaluated for yield and fiber properties for two years at Mississippi State, MS. Root-knot nematode greenhouse evaluation gall score was 2.5 and 14,328 eggs per plant were produced compared with a gall score of 1.8. and 5,612 eggs per plant for M315 the nematode resistant check line and a gall score of 4.0 and 90,625 eggs per plant on M8 the susceptible check line. In the Regional nursery it had 8 % wilted plants compared with 48% wilted plants on Rowden the susceptible check. Agronomic properties were Lint yield 893 Kg/ha, Boll weight 5.03, Lint % 40.6, Fiber Length 28.3mm, Fiber Strength 289kNm/kg, Mic 5.0.1715796PI 644074
383PI 644075SA 3883Gossypium hirsutum L. Mississippi, United StatesCOT2006DEVELOPEDBreeding materialMS-24RKN was evaluated for resistance to root-knot nematode, [Melodogyne incognita (Kofoid and White) Chitwood] in two greenhouse evaluations and in the Regional root-knot nematode/Fusarium Wilt Nursery at Tallassee, AL. It was evaluated for yield and fiber properties for two years at Mississippi State, MS. Root-knot nematode greenhouse evaluation gall score was 2.6 and 7,529 eggs per plant were produced compared with a gall score of 1.8. and 5,612 eggs per plant for M315 the nematode resistant check line and a gall score of 4.0 and 90,625 eggs per plant on M8 the susceptible check line. In the Regional nursery it had 5 % wilted plants compared with 48% wilted plants on Rowden the susceptible check. Agronomic properties were Lint yield 906 Kg/ha, Boll weight 5.18, Lint % 41.8, Fiber Length 28.8mm, Fiber Strength 289kNm/kg, Mic 5.11715797PI 644075
384PI 644076SA 3884Gossypium hirsutum L. Mississippi, United StatesCOT2006DEVELOPEDBreeding materialMS-30RKN was evaluated for resistance to root-knot nematode, [Melodogyne incognita (Kofoid and White) Chitwood] in two greenhouse evaluations and in the Regional root-knot nematode/Fusarium Wilt Nursery at Tallassee, AL. It was evaluated for yield and fiber properties for two years at Mississippi State, MS. Root-knot nematode greenhouse evaluation gall score was 2.4 and 18,305 eggs per plant were produced compared with a gall score of 1.8. and 5,612 eggs per plant for M315 the nematode resistant check line and a gall score of 4.0 and 90,625 eggs per plant on M8 the susceptible check line. In the Regional nursery it had 5 % wilted plants compared with 63% wilted plants on Rowden the susceptible check. Agronomic properties were Lint yield 1016 Kg/ha, Boll weight 5.17, Lint % 42.1, Fiber Length 28.8mm, Fiber Strength 279kNm/kg, Mic 5.1. 1715798PI 644076
385PI 644077SA 3885Gossypium hirsutum L. Mississippi, United StatesCOT2006DEVELOPEDBreeding materialMS-33RKN was evaluated for resistance to root-knot nematode, [Melodogyne incognita (Kofoid and White) Chitwood] in two greenhouse evaluations and in the Regional root-knot nematode/Fusarium Wilt Nursery at Tallassee, AL. It was evaluated for yield and fiber properties for two years at Mississippi State, MS. Root-knot nematode greenhouse evaluation gall score was 2.7 and 15,277 eggs per plant were produced compared with a gall score of 1.8. and 5,612 eggs per plant for M315 the nematode resistant check line and a gall score of 4.0 and 90,625 eggs per plant on M8 the susceptible check line. In the Regional nursery it had 12 % wilted plants compared with 48% wilted plants on Rowden the susceptible check. Agronomic properties were Lint yield 991 Kg/ha, Boll weight 5.03, Lint % 41.5, Fiber Length 29.0mm, Fiber Strength 292kNm/kg, Mic 5.1. 1715799PI 644077
386PI 644078SA 3886Gossypium hirsutum L. Mississippi, United StatesCOT2006DEVELOPEDBreeding materialMS-35RKN was evaluated for resistance to root-knot nematode, [Melodogyne incognita (Kofoid and White) Chitwood] in two greenhouse evaluations and in the Regional root-knot nematode/Fusarium Wilt Nursery at Tallassee, AL. It was evaluated for yield and fiber properties for two years at Mississippi State, MS. Root-knot nematode greenhouse evaluation gall score was 2.0 and 11,783 eggs per plant were produced compared with a gall score of 1.8. and 5,612 eggs per plant for M315 the nematode resistant check line and a gall score of 4.0 and 90,625 eggs per plant on M8 the susceptible check line. In the Regional nursery it had 5 % wilted plants compared with 48% wilted plants on Rowden the susceptible check. Agronomic properties were Lint yield 915 Kg/ha, Boll weight 5.08, Lint % 40.6, Fiber Length 28.5mm, Fiber Strength 303kNm/kg, Mic 4.9. 1715800PI 644078
387PI 644079SA 3887Gossypium hirsutum L. Mississippi, United StatesCOT2006DEVELOPEDBreeding materialMS-37RKN was evaluated for resistance to root-knot nematode, [Melodogyne incognita (Kofoid and White) Chitwood] in two greenhouse evaluations and in the Regional root-knot nematode/Fusarium Wilt Nursery at Tallassee, AL. It was evaluated for yield and fiber properties for two years at Mississippi State, MS. Root-knot nematode greenhouse evaluation gall score was 2.4 and 5,387 eggs per plant were produced compared with a gall score of 1.8. and 5,612 eggs per plant for M315 the nematode resistant check line and a gall score of 4.0 and 90,625 eggs per plant on M8 the susceptible check line. In the Regional nursery it had 2 % wilted plants compared with 48% wilted plants on Rowden the susceptible check. Agronomic properties were Lint yield 827 Kg/ha, Boll weight 4.96, Lint % 40.11, Fiber Length 28.9mm, Fiber Strength 283kNm/kg, Mic 5.0. 1715801PI 644079
388PI 644039'DP 147 RF'Gossypium hirsutum L. Mississippi, United StatesPVPONot Available2006DEVELOPEDGenetically Engineered1714881PI 644039
389PI 644040'DP 167 RF'Gossypium hirsutum L. Mississippi, United StatesPVPONot Available2006DEVELOPEDGenetically Engineered1714882PI 644040
390PI 644041'DP 164 B2RF'Gossypium hirsutum L. Mississippi, United StatesPVPONot Available2006DEVELOPEDGenetically Engineered1714883PI 644041
391PI 644061'DP 143 B2RF'Gossypium hirsutum L. Mississippi, United StatesPVPONot Available2006DEVELOPEDGenetically Engineered1715760PI 644061
392PI 644062'DP 117 B2RF'Gossypium hirsutum L. Mississippi, United StatesPVPONot Available2006DEVELOPEDGenetically Engineered1715761PI 644062
393PI 644063'DP 110 RF'Gossypium hirsutum L. Mississippi, United StatesPVPONot Available2006DEVELOPEDGenetically Engineered1715762PI 644063
394PI 643972SA 3864Gossypium hirsutum L. PakistanCOT2006DEVELOPED2006Breeding materialIn the normal cotton growing season of 2002-03, the recombinant inbred lines resistant to the old strain of CLCuD were grown in the Burewala region (Cotton Research Station Vehari, Pakistan) to provide maximum inoculum of the Burewala strain of CLCuD. Out of these, NIBGE-115 was found virus free. In 2003-04, NIBGE-115 along with cultivars/genotypes were raised in the Burewala region and screened for resistance to Burewala strain, both visually and with a PCR-based diagnostic test. A standard randomized complete block design with four replications was followed. The screening was continued for two successive normal cotton-growing seasons (2004-06). Out of the 20 cotton cultivars/genotypes, NIBGE-115 showed field resistance against the Burewala strain of CLCuD. Is nectaried, possesses normal shaped leaves and bracts, with pubescent stems/leaves, and glanded, exhibiting a spreading type plant habit with 0-4 monopodial branches. Flowering initiates 40-47 d after planting with the pollen being cream-colored. Average lint yields were 7.48% more than CIM-496 (standard) at all locations conducted from 2004-06. Fiber properties of the line (measured with high volume instrument) were fairly acceptable (3% shorter, 5% stronger, and 5% higher micronaire value than CIM-496. Germplasm will be useful for breeding cultivars against the Burewala virus strain of the cotton leaf curl disease.1714330PI 643972
395PI 643917SA 3862Gossypium hirsutum L. Louisiana, United StatesCOT2006DEVELOPED2006Breeding materialThe comparable yield of LA1110004 combined with its exceptional fiber strength and length as well as its favorable micronaire, elongation and fiber length uniformity values makes it valuable to cotton breeding programs looking to improve fiber quality. Phenotypically, LA1110004 possess the okra leaf shape and has smooth leaves and pubescent stems. LA1110004 is of medium to full maturity. Results from the performance trials with commercial cultivars averaged over 2003-2005 showed that the lint yield of LA1110004 was not significantly different. The lint percentage for LA11004 averaged 40%. Upper Half Mean (UHM) length of LA1110004 averaged 1.16 inches across the ten trials. The HVI fiber bundle strength of LA1110004 was 35.7 g/tex. Micronaire averaged 4.8. Elongation values averaged 8.3. The uniformity index value for LA1110004 was greater than any of the commercial cultivars.1713505PI 643917
396PI 643918SA 3863Gossypium hirsutum L. Louisiana, United StatesCOT2006DEVELOPED2006Breeding materialThe superior fiber strength and length of this line as well as its favorable micronaire, elongation and fiber length uniformity values makes it valuable to cotton breeding programs looking to improve fiber quality and maintain high yield potential. LA1110017 has a normal leaf shape, hairy leaves and pubescent stems. It is of medium to full maturity. Results from common performance trials with popular cultivars averaged over 2003-2005 showed that the lint yields of LA1110017 were comparable. The Upper Half Mean (UHM) length averages 1.19 inches. The HVI fiber bundle strength of LA1110017 has an average of 35.0 g/tex. The average micronaire value of LA1110017 is 4.6 and the elongation value for LA1110017 is 8.07. Uniformity index value for LA1110017 is 84.14. The lint percentage of LA1110017 averages 40%. 1713516PI 643918
397PI 643915SA 3860Gossypium hirsutum L. Texas, United StatesCOT2006DEVELOPED2006Breeding materialMidseason maturing germplasm line. Has normal shaped leaves and glanded and nectaried. Produces flowers with cream colored petals, anthers, and pollen. Bolls have four to five locks and resist shattering but are not storm proof and are suitable for picker harvesting. Averaged 115 cm in height. HVI and AFIS fiber quality data analysis showed the superiority of this line over the FiberMax check cultivars. Has higher HVI upper half mean length, stronger fiber, good micronaire, higher length uniformity index, lower short fiber content, higher maturity ratio, and fewer neps than the check cultivars FiberMax 958 and FiberMax 989. Yarn results showed excellent tenacity level. Lint yield slightly lower than both FiberMax check cultivars.1713502PI 643915
398PI 643916SA 3861Gossypium hirsutum L. Texas, United StatesCOT2006DEVELOPED2006Breeding materialMidseason maturing germplasm line with normal shaped leaves, glanded and nectaried. Produces flowers with cream colored petals, anthers, and pollen. Bolls have four to five locks and resist shattering but are not storm proof so are suitable for picker harvesting. Averaged 123 cm in height. HVI and AFIS fiber quality data analysis showed the superiority of this line over the FiberMax check cultivars. Has higher HVI upper half mean length, stronger fiber, good micronaire, higher length uniformity index, lower short fiber content, higher maturity ratio, and fewer neps than the check cultivars FiberMax 958 and FiberMax 989. Yarn results showed excellent tenacity level. Lint yield slightly lower than both FiberMax check cultivars.1713503PI 643916
399PI 643438SA 3854Gossypium hirsutum L. Arkansas, United StatesCOT2006DEVELOPED2006Breeding materialMorphological traits are similar to SG105, check cultivar, except that Arkot 9304a displays high glanding characteristic (gossypol glands in calyx crown), intermediate level of leaf pubescence and smaller bracts. Over 12 replicated field tests in Arkansas, Arkot 9304a yielded the same as SG 105. Compared to SG105, Arkot 9304a tended to higher fibers per seed, seed index, and lint index; similar open bolls percentage, plant height, lint percentage, micronaire, fiber length, length uniformity and fiber strength; and lower seed per area. Resistant to all U.S. races of Xanthomonas campestris pv. malvacearum, the causal agent of bacterial blight. Resistance to fusarium wilt, caused by Fusarium oxysporum, was intermediate to known resistant and susceptible checks. Resistance of Arkot 9304a to tarnished plant bug [Lygus lineolaris] was equal to that of SG105.1712469PI 643438
400PI 643439SA 3855Gossypium hirsutum L. Arkansas, United StatesCOT2006DEVELOPED2006Breeding materialMorphological traits are similar to SG105 (check cultivar) except that Arkot 9304b displays high glanding characteristic (gossypol glands in calyx crown), intermediate level of leaf pubescence and smaller bracts. Over 12 replicated field tests in Arkansas, Arkot 9304b yielded 3% more than SG 105. Compared to SG 105, Arkot 9304b tended to have higher lint percentage, open bolls percentage, fibers per seed, seed index, and lint index; similar plant height, micronaire, length uniformity, and fiber strength, lower fiber length and seed per area. Resistant to all U.S. races of Xanthomonas campestris pv. malvacearum, the causal agent of bacterial blight. Resistant to fusarium wilt [caused by Fusarium oxysporum sp. vasinfectum] was equal to a known resistant check. Resistance to tarnished plant bug [Lygus lineolaris] was equal to SG 105.1712473PI 643439
401PI 643440SA 3856Gossypium hirsutum L. Arkansas, United StatesCOT2006DEVELOPED2006Breeding materialMorphological traits similar to SG 105 (check cultivar) except that Arkot 9308 displays high glanding characteristic (gossypol glands in calyx crown) and smaller bracts. Over 12 replicated field tests in Arkansas, yielded 2% more than SG 105. Compared to SG 105, Arkot 9308 tended to have higher plant height, lint percentage, open bolls percentage, seed index, lint index, micronaire and fiber strength, similar fibers per seed, fiber length and length uniformity and lower seed per area. Resistant to all U.S. races of Xanthomonas campestris pv. malvacearum, the causal agent of bacterial blight. Resistant to fusarium wilt [caused by Fusarium oxysporum sp. vasinfectum] was intermediate to known resistant and suspecptible checks. Resistance to tarnished plant bug [Lygus lineolaris] was equal to that of SG 105.1712474PI 643440
402PI 643441SA 3857Gossypium hirsutum L. Arkansas, United StatesCOT2006DEVELOPED2006Breeding materialMorphological traits similar to SG 105 (check culivar) except that Arkot 9314 displays high glanding characteristic (gossypol glands in calyx crown) and smaller bracts. Over 12 replicated field tests in Arkansas yielded 5% more than SG 105. Compared to SG 105, Arkot 9314 tended to have higher plant height, lint percentage, open bolls percentage, seed index, lint index, fibers per seed, micronaire, similar fiber length, length uniformity, and fiber strength, lower seed per area. Resistant to all U.S. races of Xanthomonas campestris pv. malvacearum, the causal agent of bacterial blight. Resistance to fusarium wilt [caused by Fusarium oxysporum sp. vasinfectum] intermediate to known resistant and susceptible checks. Resistance to tarnished plant bug [Lygus lineolaris] was equal to that of SG 105.1712475PI 643441
403PI 643442SA 3858Gossypium hirsutum L. Arkansas, United StatesCOT2006DEVELOPED2006Breeding materialMorphological traits similar to SG 105 (check cultivar) except that Arkot 9506 displays smaller bracts. Over 15 replicated field tests in Arkansas yielded 6% more than SG 105. Compared to SG 105, Arkot 9506 tended to have higher lint percentage, lint index, and fibers per seed, similar oen bolls percentage, seed index, and micronaire, lower plant height, fiber length, length uniformity, fiber strength and seed per area. Resistant to all U.S. races of Xanthomonas campestris pv. malvacearum, the causal agent of bacterial blight. Resistance to fusarium wilt [caused by Fusarium oxysporum sp. vasinfectum] intermediate to known resistant and susceptible checks. Resstance to tarnished plant bug [Lygus lineolaris] was equal to that of SG 105.1712476PI 643442
404PI 643443SA 3859Gossypium hirsutum L. Arkansas, United StatesCOT2006DEVELOPED2006Breeding materialMorphological traits similar to SG 105 (check cultivar) except that Arkot 9513 displays smaller bracts. Over 15 replicated field tests in Arkansas, Arkot 9513 yielded the same as SG 105. Compared to SG 105, Arkot 9513 tended to have higher lint percentage, open boll percentage, lint index, fibers per seed, fiber strength, similar plant height, seed index, micronaire, fiber length and length uniformity and lower seed per area. Resistance to all U.S. races of Xanthomonas campestris pv. malvacearum, the causal agent of bacterial blight. Resistance to fusarium wilt [caused by Fusarium oxysproum sp. vasinfectum] was equal to a known resistant check. Resistance of Arkot 9513 to tarnished plant bug [Lygus lineolaris] was equal to that of SG 105.1712477PI 643443
405PI 643444SA 3876Gossypium hirsutum L. Arkansas, United StatesCOT2006DEVELOPED2006Breeding materialMorphological traits similar to SG 105 (check cultivar) except that Arkot RM24 displays intermediate leaf pubescence, higher marginal bract trichome density, and smaller bracts. Over 15 replicated field tests in Arkansas, yielded 12% more than SG 105. Compared to SG 105, Arkot RM24 tended to have higher lint percentage, open bolls percentage, seed per area, and fibers per seed, similar plant height, lint index, micronaire, and fiber length, lower seed index, length uniformity, and fiber strength. Resistant to all U.S. races of Xanthomonas campestris pv. malvacearum, the causal agent of bacterial blight. Resistance to fusarium wilt [caused by Fusarium oxysporum sp. vasinfectum] was as resistant as a known resistant check. Resistance to tarnished plant bug [Lygus lineolaris] was equal to that of SG 105.1712478PI 643444
406PI 408779A1 21Gossypium herbaceum L. IranCOT2006COLLECTED1308322PI 408779
407PI 408796A1 38Gossypium herbaceum L. AfricaCOT2006COLLECTED1308339PI 408796
408PI 529655A1 79Gossypium herbaceum L. ZimbabweCOT2006COLLECTEDcollect: COTTON RESH INST 19841424591PI 529655
409PI 529685A1 112Gossypium herbaceum L. UzbekistanCOT2006COLLECTEDcollect: N I VAVILOV IPI 19851424621PI 529685
410PI 529693A1 120Gossypium herbaceum L. UzbekistanCOT2006COLLECTEDcollect: N I VAVILOV IPI 19851424629PI 529693
411PI 630013A1 139Gossypium herbaceum L. IranCOT2006DONATED1638254PI 630013
412PI 643086'FM 960B2'Gossypium hirsutum L. Mississippi, United StatesPVPONot Available2006DEVELOPEDGenetically Engineered1705252PI 643086
413PI 698271AD3 33Gossypium tomentosum Nutt. ex Seem. COTNot Available2006Donation from Professor Jonathan Wendel, Iowa State University. Collected in Hawaii. Packet number W-6A2114981PI 698271
414PI 639148SA 3803Gossypium hirsutum L. Texas, United StatesCOT2005DEVELOPEDBreeding materialHas lower yield, lint percent and boll size compared to standard cultivars; however, fiber strength was improved 10-15 percent over standard cultivars. Detailed information on the development and evaluation of this line can be found in Miss. Agric. and For. Exp. Stn. Bull. 1130.1675257PI 639148
415PI 639149SA 3814Gossypium hirsutum L. Mississippi, United StatesCOT2005DEVELOPEDBreeding materialHas lower lint percent, higher micronaire, lower elongation and shorter fibers compared to standard cultivars; however, fiber strength was improved 10-15 percent over standard cultivars. Detailed information on the development and evaluation of this line can be found in Miss. Agric. and For. Exp. Stn. Bull. 1130.1675258PI 639149
416PI 639150SA 3815Gossypium hirsutum L. Mississippi, United StatesCOT2005DEVELOPEDBreeding materialHas lower yield, lower lint percent, smaller bolls, lower elongation and shorter fibers compared to standard cultivars; however, fiber strength was improved 20-25 percent over standard cultivars. Detailed information on the development and evaluation of this line can be found in Miss. Agric. and For. Exp. Stn. Bull. 1130.1675259PI 639150
417PI 639151SA 3816Gossypium hirsutum L. Mississippi, United StatesCOT2005DEVELOPEDBreeding materialHas lower yield, lower lint percent, smaller bolls, lower elongation and shorter fibers compared to standard cultivars; however, fiber strength was improved 20-25 percent over standard cultivars. Detailed information on the development and evaluation of this line can be found in Miss. Agric. and For. Exp. Stn. Bull. 1130.1675260PI 639151
418PI 639152SA 3807Gossypium hirsutum L. Mississippi, United StatesCOT2005DEVELOPEDBreeding materialHas lower yield, lower lint percent, lower percent fiber elongation, and shorter fibers compared to standard cultivars; however, fiber strength was improved 12-18 percent over standard cultivars. Detailed information on the development and evaluation of this line can be found in Miss. Agric. and For. Exp. Stn. Bull. 1130.1675261PI 639152
419PI 639153SA 3808Gossypium hirsutum L. Mississippi, United StatesCOT2005DEVELOPEDBreeding materialHas lower yield, lower lint percent, higher micronaire, lower percent fiber elongation, and shorter fibers compared to standard cultivars; however, fiber strength was improved 12-18 percent over standard cultivars. Detailed information on the development and evaluation of this line can be found in Miss. Agric. and For. Exp. Stn. Bull. 1130.1675262PI 639153
420PI 639154SA 3809Gossypium hirsutum L. Mississippi, United StatesCOT2005DEVELOPEDBreeding materialHas lower yield, lower lint percent, higher micronaire, lower percent fiber elongation, and shorter fibers compared to standard cultivars; however, fiber strength was improved 12-20 percent over standard cultivars. Detailed information on the development and evaluation of this line can be found in Miss. Agric. and For. Exp. Stn. Bull. 1130.1675263PI 639154
421PI 639155SA 3810Gossypium hirsutum L. Mississippi, United StatesCOT2005DEVELOPEDBreeding materialHas lower yield, lower lint percent, lower micronaire, and lower percent fiber elongation compared to standard cultivars; however, fiber strength was improved 10-18 percent over standard cultivars. Detailed information on the development and evaluation of this line can be found in Miss. Agric. and For. Exp. Stn. Bull. 1130.1675264PI 639155
422PI 639156SA 3811Gossypium hirsutum L. Mississippi, United StatesCOT2005DEVELOPEDBreeding materialHas lower yield, lower lint percent, higher micronaire, and lower percent fiber elongation compared to standard cultivars; however, fiber strength was improved 10-18 percent over standard cultivars. Detailed information on the development and evaluation of this line can be found in Miss. Agric. and For. Exp. Stn. Bull. 1130.1675265PI 639156
423PI 639157SA 3812Gossypium hirsutum L. Mississippi, United StatesCOT2005DEVELOPEDBreeding materialHas lower yield, lower lint percent, higher micronaire, and lower percent fiber elongation compared to standard cultivars; however, fiber strength was improved 12-20 percent over standard cultivars. Detailed information on the development and evaluation of this line can be found in Miss. Agric. and For. Exp. Stn. Bull. 1130.1675266PI 639157
424PI 639158SA 3813Gossypium hirsutum L. Mississippi, United StatesCOT2005DEVELOPEDBreeding materialHas lower yield, lower lint percent, higher micronaire, lower percent fiber elongation, and shorter fibers compared to standard cultivars; however, fiber strength was improved 15-25 percent over standard cultivars. Detailed information on the development and evaluation of this line can be found in Miss. Agric. and For. Exp. Stn. Bull. 1130.1675267PI 639158
425PI 639159SA 3804Gossypium hirsutum L. Mississippi, United StatesCOT2005DEVELOPEDBreeding materialHas lower yield, lower lint percent, lower micronaire, and lower percent fiber elongation compared to standard cultivars; however, fiber strength was improved 12-20 percent over standard cultivars. Detailed information on the development and evaluation of this line can be found in Miss. Agric. and For. Exp. Stn. Bull. 1130.1675268PI 639159
426PI 639160SA 3805Gossypium hirsutum L. Mississippi, United StatesCOT2005DEVELOPEDBreeding materialHas lower yield, lower lint percent, smaller bolls, lower micronaire, lower percent fiber elongation and longer fibers compared to standard cultivars; however, fiber strength was improved 12-18 percent over standard cultivars. Detailed information on the development and evaluation of this line can be found in Miss. Agric. and For. Exp. Stn. Bull. 1130.1675269PI 639160
427PI 639161SA 3806Gossypium hirsutum L. Mississippi, United StatesCOT2005DEVELOPEDBreeding materialHas lower yield, lower lint percent, lower micronaire, lower percent fiber elongation and longer fibers compared to standard cultivars; however, fiber strength was improved 12-20 percent over standard cultivars. Detailed information on the development and evaluation of this line can be found in Miss. Agric. and For. Exp. Stn. Bull. 1130.1675270PI 639161
428PI 638689'DP 454 BG/RR'Gossypium hirsutum L. Mississippi, United StatesPVPONot Available2005DEVELOPEDGenetically Engineered1673416PI 638689
429PI 638690'DP 6222 RR Acala'Gossypium hirsutum L. Mississippi, United StatesPVPONot Available2005DEVELOPEDGenetically Engineered1673417PI 638690
430PI 638691'DP 6226 BG/RR Acala'Gossypium hirsutum L. Mississippi, United StatesPVPONot Available2005DEVELOPEDGenetically Engineered1673418PI 638691
431PI 638528'Acala NemX HY'Gossypium hirsutum L. California, United StatesPVPONot Available2005DEVELOPEDCultivar1671763PI 638528
432PI 638529'Acala Fiesta RR'Gossypium hirsutum L. California, United StatesPVPONot Available2005DEVELOPEDGenetically Engineered1671764PI 638529
433PI 638530'Hammer'Gossypium hirsutum L. California, United StatesPVPONot Available2005DEVELOPEDCultivar1671765PI 638530
434PI 638531'Acala Ultima EF'Gossypium hirsutum L. California, United StatesPVPONot Available2005DEVELOPEDCultivar1671766PI 638531
435PI 638506SA 3539Gossypium hirsutum L. Arkansas, United StatesCOT2005DEVELOPEDBreeding materialMorphological traits similar to Stoneville 474 and PSC 355 (check cultivars) except has less dense leaf pubescence. Lint yields were similar to the check cultivars, with performance relatively better in north than south Arkansas environments. Compared to these check cultivars, tended to have higher lint fraction, longer fiber length, lower micronaire, and slightly lower fiber strength. Is resistant to all U.S. races of Xanthomonas campestris pv. malvacearum, the causal agent of bacterial blight, and resistance to fusarium wilt was equal to a known resistant check.1671124PI 638506
436PI 638507SA 3540Gossypium hirsutum L. Arkansas, United StatesCOT2005DEVELOPEDBreeding materialMorphological traits are similar to Stoneville 474 and PSC 355 (check cultivars) except that has less dense leaf pubescence and was slightly shorter. Lint yields were similar to the check cultivars, with performance relatively better in north than south Arkansas environments. Displayed ca. 8% higher lint index, ca. 7% larger seed and ca. 7% more fibers per seed than the check cultivars, and tended to have similar lint fraction, fiber length, micronaire, and higher fiber strength and slightly lower fiber elongation. Resistant to all U.S. races of Xanthomonas campestris pv. malvacearum, fusarium wilt resistance was equal to a known resistant check. Demonstrated an intermediate level of resistance to root knot nematode.1671125PI 638507
437PI 638508SA 3541Gossypium hirsutum L. Arkansas, United StatesCOT2005DEVELOPEDBreeding materialMorphological traits similar to Stoneville 474 and PSC 355 (check cultivars) except that Arkot 9108 has less dense leaf pubescence and was slightly shorter. In over 29 replicated field tests in Arkansas, lint yields of Arkot 9108 were ca. 7% higher than the check cultivars, displayed ca. 8% higher lint index, ca. 7% larger seed and ca. 7% more fibers per seed than the check cultivars. Also tended to have similar lint fraction, fiber length, higher fiber strength, higher micronaire, and slightly lower fiber elongation vs. checks. Resistant to all U.S. races of Xanthomonas campestris pv. malvacearum, fusarium wilt was equal to a known resistant check. Has an intermediate level of resistance to tarnished plant bug.1671126PI 638508
438PI 636722'DP 455 BG/RR'Gossypium hirsutum L. NetherlandsCOTNot Available2005DEVELOPEDGenetically Engineered1669832PI 636722
439PI 636723'DP 543 BGII/RR'Gossypium hirsutum L. NetherlandsCOTNot Available2005DEVELOPEDGenetically Engineered1669833PI 636723
440PI 636697SA 3518Gossypium hirsutum L. Mississippi, United StatesCOT2005DEVELOPEDBreeding materialA day-neutral germplasm line of cotton which was developed from the photoperiodic race stock T-0041, it was evaluated for yield, yield components and fiber traits1669497PI 636697
441PI 636698SA 3519Gossypium hirsutum L. Mississippi, United StatesCOT2005DEVELOPEDBreeding materialA day-neutral germplasm line of cotton which was developed from the photoperiodic race stock T-0050, it was evaluated for yield, yield components and fiber traits1669498PI 636698
442PI 636699SA 3520Gossypium hirsutum L. Mississippi, United StatesCOT2005DEVELOPEDBreeding materialA day-neutral germplasm line of cotton which was developed from the photoperiodic race stock T-0064, it was evaluated for yield, yield components and fiber traits1669499PI 636699
443PI 636700SA 3521Gossypium hirsutum L. Mississippi, United StatesCOT2005DEVELOPEDBreeding materialA day-neutral germplasm line of cotton which was developed from the photoperiodic race stock T-0081, it was evaluated for yield, yield components and fiber traits1669500PI 636700
444PI 636701SA 3522Gossypium hirsutum L. Mississippi, United StatesCOT2005DEVELOPEDBreeding materialA day-neutral germplasm line of cotton which was developed from the photoperiodic race stock T-0093, it was evaluated for yield, yield components and fiber traits1669501PI 636701
445PI 636702SA 3523Gossypium hirsutum L. Mississippi, United StatesCOT2005DEVELOPEDBreeding materialA day-neutral germplasm line of cotton which was developed from the photoperiodic race stock T-0149, it was evaluated for yield, yield components and fiber traits1669502PI 636702
446PI 636703SA 3524Gossypium hirsutum L. Mississippi, United StatesCOT2005DEVELOPEDBreeding materialA day-neutral germplasm line of cotton which was developed from the photoperiodic race stock T-0171, it was evaluated for yield, yield components and fiber traits1669503PI 636703
447PI 636704SA 3525Gossypium hirsutum L. Mississippi, United StatesCOT2005DEVELOPEDBreeding materialA day-neutral germplasm line of cotton which was developed from the photoperiodic race stock T-0173, it was evaluated for yield, yield components and fiber traits1669504PI 636704
448PI 636705SA 3526Gossypium hirsutum L. Mississippi, United StatesCOT2005DEVELOPEDBreeding materialA day-neutral germplasm line of cotton which was developed from the photoperiodic race stock T-0178, it was evaluated for yield, yield components and fiber traits1669505PI 636705
449PI 636706SA 3527Gossypium hirsutum L. Mississippi, United StatesCOT2005DEVELOPEDBreeding materialA day-neutral germplasm line of cotton which was developed from the photoperiodic race stock T-0209, it was evaluated for yield, yield components and fiber traits1669506PI 636706
450PI 636707SA 3528Gossypium hirsutum L. Mississippi, United StatesCOT2005DEVELOPEDBreeding materialA day-neutral germplasm line of cotton which was developed from the photoperiodic race stock T-0219, it was evaluated for yield, yield components and fiber traits1669507PI 636707
451PI 636708SA 3529Gossypium hirsutum L. Mississippi, United StatesCOT2005DEVELOPEDBreeding materialA day-neutral germplasm line of cotton which was developed from the photoperiodic race stock T-0221, it was evaluated for yield, yield components and fiber traits1669508PI 636708
452PI 636709SA 3530Gossypium hirsutum L. Mississippi, United StatesCOT2005DEVELOPEDBreeding materialA day-neutral germplasm line of cotton which was developed from the photoperiodic race stock T-0241, it was evaluated for yield, yield components and fiber traits1669509PI 636709
453PI 636710SA 3531Gossypium hirsutum L. Mississippi, United StatesCOT2005DEVELOPEDBreeding materialA day-neutral germplasm line of cotton which was developed from the photoperiodic race stock T-0338, it was evaluated for yield, yield components and fiber traits1669510PI 636710
454PI 636711SA 3532Gossypium hirsutum L. Mississippi, United StatesCOT2005DEVELOPEDBreeding materialA day-neutral germplasm line of cotton which was developed from the photoperiodic race stock T-0347, it was evaluated for yield, yield components and fiber traits1669511PI 636711
455PI 636712SA 3533Gossypium hirsutum L. Mississippi, United StatesCOT2005DEVELOPEDBreeding materialA day-neutral germplasm line of cotton which was developed from the photoperiodic race stock T-0620, it was evaluated for yield, yield components and fiber traits1669512PI 636712
456PI 636713SA 3534Gossypium hirsutum L. Mississippi, United StatesCOT2005DEVELOPEDBreeding materialA day-neutral germplasm line of cotton which was developed from the photoperiodic race stock T-0636, it was evaluated for yield, yield components and fiber traits1669513PI 636713
457PI 636714SA 3535Gossypium hirsutum L. Mississippi, United StatesCOT2005DEVELOPEDBreeding materialA day-neutral germplasm line of cotton which was developed from the photoperiodic race stock T-0725, it was evaluated for yield, yield components and fiber traits1669514PI 636714
458PI 636715SA 3536Gossypium hirsutum L. Mississippi, United StatesCOT2005DEVELOPEDBreeding materialA day-neutral germplasm line of cotton which was developed from the photoperiodic race stock T-0763, it was evaluated for yield, yield components and fiber traits1669515PI 636715
459PI 636716SA 3537Gossypium hirsutum L. Mississippi, United StatesCOT2005DEVELOPEDBreeding materialA day-neutral germplasm line of cotton which was developed from the photoperiodic race stock T-0764, it was evaluated for yield, yield components and fiber traits1669516PI 636716
460PI 636717SA 3538Gossypium hirsutum L. Mississippi, United StatesCOT2005DEVELOPEDBreeding materialA day-neutral germplasm line of cotton which was developed from the photoperiodic race stock T-0790, it was evaluated for yield, yield components and fiber traits1669517PI 636717
461PI 636490SA 3516Gossypium hirsutum L. Texas, United StatesCOT2004DEVELOPEDBreeding materialA pubescent leaf and stem line that combines high yield potential with excellent fiber qualities, especially fiber strength, and is adapted to south and central Texas. Is a mid-season maturity, picker-type upland cotton with a growth habit similar to Tamcot 22 when grown with supplemental irrigation. Average yield is similar to Suregrow 747 and FiberMax 832. Upper Half Mean (UHM) length averages 1.14 in., longer than Suregrow 747 but not as long as FiberMax 832. Averaged over the performance trials high volume instrument fiber bundle strength averaged 36.6 g/tex, similar to FiberMax 832. The average micronaire reading is 4.4 which is similar to SureGrow 747.1668960PI 636490
462PI 636491SA 3517Gossypium hirsutum L. Texas, United StatesCOT2004DEVELOPEDBreeding materialA nectariless, pubescent leaf and stem line that combines high yield potential with excellent fiber qualities, especially fiber strength, and is adapted to south and central Texas. Is a mid-season maturity, picker-type upland cotton with a growth habit similar to Tamcot 22 when grown with supplemental irrigation. Average yield is similar to Suregrow 747 and FiberMax 832. Upper Half Mean (UHM) length averages 1.12 in. longer than Suregrow 747 but not as long as FiberMax 832. Averaged over the performance trials high volume instrument fiber bundle strength averaged 33.6 g/tex, similar to FiberMax 832. The average micronaire reading is 4.8 which is similar to SureGrow 747.1668961PI 636491
463PI 636306'NG 2448R'Gossypium hirsutum L. United StatesCOTNot Available2004DEVELOPEDGenetically Engineered1665599PI 636306
464PI 636308'NG 1553R'Gossypium hirsutum L. United StatesCOTNot Available2004DEVELOPEDGenetically Engineered1665601PI 636308
465PI 636309'ST 4646B2R'Gossypium hirsutum L. United StatesCOTNot Available2004DEVELOPEDGenetically Engineered1665602PI 636309
466PI 636310'DP 444 BG/RR'Gossypium hirsutum L. United StatesPVPONot Available2004DEVELOPEDGenetically Engineered1665603PI 636310
467PI 636346SA 3499Gossypium hirsutum L. Texas, United StatesCOT2004DEVELOPED2004Breeding materialCS-B01 is an alien chromosome substitution line (2n=52) in which the chromosome 01 pair of G. hirsutum has been replaced by the chromosomal material from G. barbadense doubled-haploid line 3-79 which has high fiber quality and length. In other regards, it is nearly isogenic to G. hirsutum inbred line TM-1. The chromosome substitution line was developed via recurrent backcrossing to G. hirsutum plants monosomic for chromosome-01, coupled with recovery of the corresponding monosomic backcross progeny. The alien chromosome is expectedly an intact derivative of the 3-79 chromosome, because homologous recombination with the corresponding G. hirsutum chromosome (absent) was precluded by the monosomy of all BCnF1 plants. Loci on the other 25 chromosome pairs of CS-B01 were subject to effects of backcrossing and recombination, so >98% of them expectedly derive from G. hirsutum, probably TM-1.1665775PI 636346
468PI 636347SA 3500Gossypium hirsutum L. Texas, United StatesCOT2004DEVELOPED2004Breeding materialCS-B02 is an alien chromosome substitution line (2n=52) in which the chromosome 02 pair of G. hirsutum has been replaced by the corresponding chromosomal material from G. barbadense doubled haploid line 3-79 which has high fiber quality and length. In other regards, it is nearly isogenic to G. hirsutum inbred line TM-1. The chromosome substitution line was developed via recurrent backcrossing to G. hirsutum plants monosomic for chromosome-02, coupled with recovery of the corresponding monosomic backcross progeny. The alien chromosome is expectedly an intact derivative of the 3-79 chromosome, because homologous recombination with the corresponding G. hirsutum chromosome (absent) was precluded by the monosomy of all BCnF1 plants. Loci on the other 25 chromosome pairs of CS-B02 were subject to effects of backcrossing and recombination, so >98% of them expectedly derive from G. hirsutum, probably TM-1.1665776PI 636347
469PI 636348SA 3501Gossypium hirsutum L. Texas, United StatesCOT2004DEVELOPED2004Breeding materialCS-B04 is an alien chromosome substitution line (2n=52) in which the chromosome 04 pair of G. hirsutum has been replaced by the corresponding chromosomal material from G. barbadense doubled-haploid line 3-79, which has high fiber quality and length. In other regards, it is nearly isogenic to G. hirsutum inbred line TM-1. The chromosome substitution line was developed via recurrent backcrossing to G. hirsutum plants monosomic for chromosome-04, coupled with recovery of the corresponding monosomic backcross progeny. The alien chromosome is expectedly an intact derivative of the 3-79 chromosome, because homologous recombination with the corresponding G. hirsutum chromosome (absent) was predluded by the monosomy of all BCnF1 plants. Loci on the other 25 chromosome pairs of CS-B04 were subject to effects of backcrossing and recombination, so >98% of them expecedly derive from G. hirsutum, probably TM-1.1665777PI 636348
470PI 636349SA 3502Gossypium hirsutum L. Texas, United StatesCOT2004DEVELOPED2004Breeding materialCS-B06 is an alien chromosome substitution line (2n=52) in which the chromosome 06 pair of G. hirsutum has been replaced by the corresponding chromosomal material from G. barbadense doubled haploid line 3-79 which has high fiber quality and length. In other regards, it is nearly isogenic to G. hirsutum inbred line TM-1. The chromosome subsitution line was developed via recurrent backcrossing to G. hirsutum plants monosomic for chromosome-06, coupled with recovery of the coresponding monosomic backcross progeny. The alien chromosome is expectedly an intact derivative of the 3-79 chromosome, because homologous recombination with the corresponding G. hirsutum chromosome (absent) was precluded by the monosomy of all BCnF1 plants. Loci on the other 25 chromosome pairs of CS-B06 were subject to effects of backcrossing and recombination, so >98% of them expectedly derive from G. hirsutum, probably TM-1.1665778PI 636349
471PI 636350SA 3503Gossypium hirsutum L. Texas, United StatesCOT2004DEVELOPED2004Breeding materialCS-B07 is an alien chromosome substitution line (2n=52) in which the chromosome 07 pair of G. hirsutum has been replaced by the corresponding chromosomal material from G. barbadense doubled haploid line 3-79 which has high fiber quality and length. In other regards, it is nearly isogenic to G. hirsutum inbred line TM-1. The chromosome substitution line was developed via recurrent backcrossing to G. hirsutum plants monosomic for chromosome-07, coupled with recovery of the corresponding monosomic backcross progeny. The alien chromosome is expectedly an intact derivative of the 3-79 chromosome, because homologous recombination with the corresponding G. hirsutum chromosome (absent) was precluded by the monosomy of all BCnF1 plants. Loci on the other 25 chromosome pairs of CS-B07 were subject to effects of backcrossing and recombination, so >98% of them expectedly derive from G. hirsutum, probably TM-1.1665779PI 636350
472PI 636351SA 3504Gossypium hirsutum L. Texas, United StatesCOT2004DEVELOPED2004Breeding materialCS-B16 is an alien chromosome substitution line (2n=52) in which the chromosome 16 pair of G. hirsutum has been replaced by the corresponding chromosomal material from G. barbadense doubled haploid line 3-79 which has high fiber quality and length. In other regards, it is nearly isogenic to G. hirsutum inbred line TM-1. The chromosome substitution line was developed via recurrent backcrossing to G. hirsutum plants monosomic for chromosome-16, coupled with recovery of the corresponding monosomic backcross progeny. The alien chromosome is expectedly an intact derivative of the 3-79 chromosome, because homologous recombination with the corresponding G. hirsutum chromosome (absent) was precluded by the monosomy of all BCnF1 plants. Loci on the other 25 chromosome pairs of CS-B16 were subject to effects of backcrossing and recombination, so >98% of them expectedly derive from G. hirsutum, probably TM-1.1665780PI 636351
473PI 636352SA 3505Gossypium hirsutum L. Texas, United StatesCOT2004DEVELOPED2004Breeding materialCS-B17 is an alien chromosome substitution line (2n=52) in which the chromosome 17 pair of G. hirsutum has been replaced by the corresponding chromosomal material from G. barbadense doubled haploid line 3-79 which has high fiber quality and length. In other regards, it is nearly isogenic to G. hirsutum inbred line TM-1. The chromosome substitution line was developed via recurrent backcrossing to G. hirsutum plants monosomic for chromosome-17, coupled with recovery of the corresponding monosomic backcross progeny. The alien chromosome is expectedly an intact derivative of the 3-79 chromosome, because homologous recombination with the corresponding G. hirsutum chromosome (absent) was precluded by the monosomy of all BCnF1 plants. Loci on the other 25 chromosome pairs of CS-B17 were subject to effects of backcrossing and recombination, so >98% of them expectedly derive from G. hirsutum, probably TM-1.1665781PI 636352
474PI 636353SA 3506Gossypium hirsutum L. Texas, United StatesCOT2004DEVELOPED2004Breeding materialCS-B18 is an alien chromosome substitution line (2n=52) in which the chromosome 18 pair of G. hirsutum has been replaced by the corresponding chromosomal material from G. barbadense doubled haploid line 3-79 which has high fiber quality and length. In other regards, it is nearly isogenic to G. hirsutum inbred line TM-1. The chromosome substitution line was developed via recurrect backcrossing to G. hirsutum plants monosomic for chromosome-18, coupled with recovery of the corresponding monosomic backcross progeny. The alien chromosome is expectedly an intact derivative of the 3-79 chromosome, because homologous recombination with the corresponding G. hirsutum chromosome (absent) was precluded by the monosomy of all BCnF1 plants. Loci on the other 25 chromosome pairs of CS-B18 were subject to effects of backcrossing and recombination, so >98% of them expectedly derive from G. hirsutum, probably TM-1.1665782PI 636353
475PI 636354SA 3507Gossypium hirsutum L. Texas, United StatesCOT2004DEVELOPED2004Breeding materialCS-B25 is an alien chromosome substitution line (2n=52) in which the chromosome 25 pair of G. hirsutum has been replaced by the corresponding chromosomal material from G. barbadense doubled haploid line 3-79 which has high fiber quality and length. In other regards, it is nearly isogenic to G. hirsutum inbred line TM-1. The chromosome substitution line was developed via recurrent backcrossing to G. hirsutum plants monosomic for chromosome-25, coupled with recovery of the corresponding monosomic backcross progeny. The alien chromosome is expectedly an intact derivative of the 3-79 chromosome, because homologous recombination with the corresponding G. hirsutum chromosome (absent) was precluded by the monosomy of all BCnF1 plants. Loci on the other 25 chromosome pairs of CS-B25 were subject to effects of backcrossing and recombination, so >98% of them expectedly derive from G. hirsutum, probably TM-1.1665783PI 636354
476PI 636355SA 3508Gossypium hirsutum L. Texas, United StatesCOT2004DEVELOPED2004Breeding materialCS-B05sh is an alien chromosome substitution line (2n=52) in which chromosome arm 5sh of G. hirsutum has been replaced by the corresponding chromosomal material from G. barbadense doubled haploid line 3-79 which has high fiber quality and length. For the opposing arm and all other chromosomes, line CS-B05sh is expected to be nearly isogenic to G. hirsutum inbred line TM-1. The chromosome substitution line was developed via rrecurrent backcrossing to G. hirsutum plants monotelodisomic for Te05Lo, coupled with recovery of the corresponding monotelodisomic backcross progeny at each generation. The alien chromosome arm is expectedly an intact derivative of most or all of the 3-79 chromosome arm, because homologous recombination with the corresponding G. hirsutum chromosome segment was selectively precluded in the absence of the latter in all BCnF1 plants (monotelodisomic). Greater than 98% of loci on the telosome and other 25 chromosome pairs expectedly derive from G. hirsutum TM-1, because they were disomic during backcross generations and thus subject to effects of backcrossing and recombination.1665784PI 636355
477PI 636356SA 3509Gossypium hirsutum L. Texas, United StatesCOT2004DEVELOPED2004Breeding materialCS-B11sh is an alien chromosome substitution line (2n=52) in which chromosome arm 11sh of G. hirsutum has been replaced by the corresponding chromosomal material from G. barbadense doubled haploid line 3-79 which has high fiber quality and length. For the opposing arm and all other chromosomes, line CS-B11sh is expected to be nearly isogenic to G. hirsutum inbred line TM-1. The chromosome substitution line was developed via recurrent backcrossing to G. hirsutum plants monotelodisomic for Te11Lo, coupled with recovery of the corresponding monotelodisomic backcross progeny at each generation. The alien chromosome arm is expectedly an intact derivative of most or all the 3-79 chromosome arm, because homologous recombination with the corresponding G. hirsutum chromosome segment was selectively precluded in the absence of the latter in all BCnF1 plants (monotelodisomic). Greater than 98% of loci on the telosome and the other 25 chromosome pairs expectedly derive from G. hirsutum TM-1, because they were disomic during backcross generations and thus subject to effects of backcrossing and recombination.1665785PI 636356
478PI 636357SA 3510Gossypium hirsutum L. Texas, United StatesCOT2004DEVELOPED2004Breeding materialCS-B12sh is an alien chromosome substitution line (2n=52) in which chromosome arm 12sh of G. hirsutum has been replaced by the corresponding chromosomal material from G. barbadense doubled haploid line 3-79 which has high fiber quality and length. For the opposing arm and all other chromosomes, line CS-B12sh is expected to be nearly isogenic to G. hirsutum inbred line TM-1. The chromosome substitution line was developed via recurrent backcrossing to G. hirsutum plants monotelodisomic for Te12Lo, coupled with recovery of the corresponding monotelodisomic backcross progeny at each generation. The alien chromosome arm is expectedly an intact derivative of most or all the 3-79 chromosome arm, because homologous recombination with the corresponding G. hirsutum chromosome segment was selectively precluded in the absence of the latter in all BCnF1 plants (monotelodisomic). Greater than 98% of loci on the telosome and the other 25 chromosome pairs expectedly derive from G. hirsutum TM-1, because they were disomic during backcross generations and thus subject to effects of backcrossing and recombination.1665786PI 636357
479PI 636358SA 3511Gossypium hirsutum L. Texas, United StatesCOT2004DEVELOPED2004Breeding materialCS-B14sh is an alien chromosome substitution line (2n=52) in which chromosome arm 14sh of G. hirsutum has been replaced by the corresponding chromosomal material from G. barbadense doubled-haploid line 3-79, which has high fiber quality and length. For the opposing arm and all other chromosomes, line CS-B14sh is expected to be nearly isogenic to G. hirsutum inbred line TM-1. The chromosome substitution line was developed via recurrent backcrossing to G. hirsutum plants monotelodisomic for Te14Lo, coupled with recovery of the corresponding monotelodisomic backcross progeny at each generation. The alien chromosome arm is expectedly an intact derivative of most or all the 3-79 chromosome arm, because homologous recombination with the corresponding G. hirsutum chromosome segment was selectively precluded absence of the latter in all BCnF1 plants (monotelodisomic). Greater than 98% of loci on the telosome and the other 25 chromosome pairs expectedly derive from G. hirsutum TM-1, because they were disomic during backcross generations and thus subject to effects of backcrossing and recombination.1665787PI 636358
480PI 636359SA 3512Gossypium hirsutum L. Texas, United StatesCOT2004DEVELOPED2004Breeding materialCS-B15sh is an alien chromosome substitution line (2n=52) in which chromosome arm 15sh of G. hirsutum has been replaced by the corresponding chromosomal material from G. barbadense doubled-haploid line 3-79, which has high fiber quality and length. For the opposing arm and all other chromosomes, line CS-B15sh is expected to be nearly isogenic to G. hirsutum inbred line TM-1. The chromosome substitution line was developed via recurrent backcrossing to G. hirsutum plants monotelodisomic for Te15Lo, coupled with recovery of the corresponding monotelodisomic backcross progeny at each generation. The alien chromosome arm is expectedly an intact derivative of most or all the 3-79 chromosome arm, because homologous recombination with the corresponding G. hirsutum chromosome segment was selectively precluded absence of the latter in all BCnF1 plants (monotelodisomic). Greater than 98% of loci on the telosome and the other 25 chromosome pairs expectedly derive from G. hirsutum TM-1, because they were disomic during backcross generations and thus subject to effects of backcrossing and recombination.1665788PI 636359
481PI 636360SA 3513Gossypium hirsutum L. Texas, United StatesCOT2004DEVELOPED2004Breeding materialCS-B22Lo is an alien chromosome substitution line (2n=52) in which chromosome arm 22Lo of G. hirsutum has been replaced by the corresponding chromosomal material from G. barbadense doubled-haploid line 3-79, which has high fiber quality and length. For the opposing arm and all other chromosomes, line CS-B22Lo is expected to be nearly isogenic to G. hirsutum inbred line TM-1. The chromosome substitution line was developed via recurrent backcrossing to G. hirsutum plants monotelodisomic for Te22sh, coupled with recovery of the corresponding monotelodisomic backcross progeny at each generation. The alien chromosome arm is expectedly an intact derivative of most or all the 3-79 chromosome arm, because homologous recombination with the corresponding G. hirsutum chromosome segment was selectively precluded absence of the latter in all BCnF1 plants (monotelodisomic). Greater than 98% of loci on the telosome and the other 25 chromosome pairs expectedly derive from G. hirsutum TM-1, because they were disomic during backcross generations and thus subject to effects of backcrossing and recombination.1665789PI 636360
482PI 636361SA 3514Gossypium hirsutum L. Texas, United StatesCOT2004DEVELOPED2004Breeding materialCS-B22sh is an alien chromosome substitution line (2n=52) in which chromosome arm 22sh of G. hirsutum has been replaced by the corresponding chromosomal material from G. barbadense doubled-haploid line 3-79, which has high fiber quality and length. For the opposing arm and all other chromosomes, line CS-B22sh is expected to be nearly isogenic to G. hirsutum inbred line TM-1. The chromosome substitution line was developed via recurrent backcrossing to G. hirsutum plants monotelodisomic for Te22Lo, coupled with recovery of the corresponding monotelodisomic backcross progeny at each generation. The alien chromosome arm is expectedly an intact derivative of most or all the 3-79 chromosome arm, because homologous recombination with the corresponding G. hirsutum chromosome segment was selectively precluded absence of the latter in all BCnF1 plants (monotelodisomic). Greater than 98% of loci on the telosome and the other 25 chromosome pairs expectedly derive from G. hirsutum TM-1, because they were disomic during backcross generations and thus subject to effects of backcrossing and recombination.1665790PI 636361
483PI 636362SA 3515Gossypium hirsutum L. Texas, United StatesCOT2004DEVELOPED2004Breeding materialCS-B26Lo is an alien chromosome substitution line (2n=52) in which chromosome arm 26Lo of G. hirsutum has been replaced by the corresponding chromosomal material from G. barbadense doubled-haploid line 3-79, which has high fiber quality and length. For the opposing arm and all other chromosomes, line CS-B26Lo is expected to be nearly isogenic to G. hirsutum inbred line TM-1. The chromosome substitution line was developed via recurrent backcrossing to G. hirsutum plants monotelodisomic for Te26sh, coupled with recovery of the corresponding monotelodisomic backcross progeny at each generation. The alien chromosome arm is expectedly an intact derivative of most or all the 3-79 chromosome arm, because homologous recombination with the corresponding G. hirsutum chromosome segment was selectively precluded absence of the latter in all BCnF1 plants (monotelodisomic). Greater than 98% of loci on the telosome and the other 25 chromosome pairs expectedly derive from G. hirsutum TM-1, because they were disomic during backcross generations and thus subject to effects of backcrossing and recombination.1665791PI 636362
484PI 417903A1 61Gossypium herbaceum L. Gujarat, IndiaCOT2004DONATED06/07/19771315822PI 417903
485PI 417910A1 66Gossypium herbaceum L. Gujarat, IndiaCOT2004DONATED06/07/19771315829PI 417910
486PI 441982A1 84Gossypium herbaceum L. ChinaCOT2004COLLECTEDFrom Sinkiang1336918PI 441982
487PI 529656A1 80Gossypium herbaceum L. ZimbabweCOT2004COLLECTEDcollect: COTTON RESH INST 19841424592PI 529656
488PI 529686A1 113Gossypium herbaceum L. UzbekistanCOT2004COLLECTEDcollect: N I VAVILOV IPI 19851424622PI 529686
489PI 529691A1 118Gossypium herbaceum L. UzbekistanCOT2004COLLECTEDcollect: N I VAVILOV IPI 19851424627PI 529691
490PI 529696A1 123Gossypium herbaceum L. UzbekistanCOT2004COLLECTEDcollect: N I VAVILOV IPI 19851424632PI 529696
491PI 529700A1 127Gossypium herbaceum L. SwitzerlandCOT2004COLLECTEDcollect: N I VAVILOV IPI 19851424636PI 529700
492PI 634815'PLATINUM PIMA'Gossypium barbadense L. California, United StatesPVPONot Available2004DEVELOPEDGenetically Engineered1654359PI 634815
493PI 167906A1 5Gossypium arboreum L. TurkeyCOT2003DONATED09/19481144479PI 167906
494PI 367241A1 16Gossypium herbaceum L. IndiaCOTNot Available2003DONATED09/29/19711275105PI 367241
495PI 408776A1 18Gossypium herbaceum L. AfghanistanCOT2003COLLECTED1308319PI 408776
496PI 408777A1 19Gossypium herbaceum L. AfghanistanCOT2003COLLECTED1308320PI 408777
497PI 408780A1 22Gossypium herbaceum L. AfghanistanCOT2003COLLECTED1308323PI 408780
498PI 408781A1 23Gossypium herbaceum L. Former, Soviet UnionCOT2003COLLECTED1308324PI 408781
499PI 408784A1 26Gossypium herbaceum L. TurkeyCOT2003COLLECTED1308327PI 408784