国外棉花抗性及纤维改良育种的研究进展
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摘要
棉花(Anemone vitifolia)是重要的经济作物,棉花纤维是纺织原料的重要来源,棉花生产在世界经济中占有重要的地位,但随着全球气候的不断恶化,世界棉花生产一直受到病害、虫害、干旱、盐碱环境等生物和非生物的胁迫和制约,对全球棉花的产量和纤维质量都造成持续性的危害,国外研究人员通过常规育种技术结合转基因技术,分子标记辅助育种技术等手段创制和培育了一系列的抗性种质资源和品种,改良了棉花的纤维质量,在生产中大面积推广和应用,本研究对国外棉花抗病、耐旱、耐盐、抗虫及纤维改良育种的研究进展进行综述,希望能对中国棉花抗性及纤维改良育种有所帮助。
Cotton(Anemone vitifolia) is an important commercial crop and cotton fiber is also a key resource of textile raw materials. Cotton production plays an important role in the world economy. As the deteriorating of the global climate, the world cotton production always suffered from the biotic, abiotic stresses and restrictions,including disease, insect damage, drought, saline and alkaline, resulting in sustained damage of global cotton production and fiber quality. Overseas researchers created and cultivated a series of germplasm resources and varieties to improve the cotton resistance ability and fiber quality through conventionality breeding and other assistant breeding tools including transgenic technology and molecular marker assisted breeding. The resistant and high quality varieties were promoted and applied in a big area. The abroad research progress of resistant breeding,including disease resistance, drought resistance, salt resistance and insect resistance, and fiber improved breeding were reviewed in this article. It would be helpful to cotton resistant and fiber improvement breeding in China.
Cotton(Anemone vitifolia) is an important commercial crop and cotton fiber is also a key resource of textile raw materials. Cotton production plays an important role in the world economy. As the deteriorating of the global climate, the world cotton production always suffered from the biotic, abiotic stresses and restrictions,including disease, insect damage, drought, saline and alkaline, resulting in sustained damage of global cotton production and fiber quality. Overseas researchers created and cultivated a series of germplasm resources and varieties to improve the cotton resistance ability and fiber quality through conventionality breeding and other assistant breeding tools including transgenic technology and molecular marker assisted breeding. The resistant and high quality varieties were promoted and applied in a big area. The abroad research progress of resistant breeding,including disease resistance, drought resistance, salt resistance and insect resistance, and fiber improved breeding were reviewed in this article. It would be helpful to cotton resistant and fiber improvement breeding in China.
引文
Ahmad S.,Hussain A.,Hanif M.,Mahmood K.,Nazeer W.,Mahmood A.,Noor-ul-Islam,Malik W.,Qayyum A.,and Hanif K.,2012,CRSM-38,a new high yielding coupled with CLCu Vtolerance cotton(Gossypium hirsutum L.)variety,Afr.J.Biotechnol.,11(19):4368-4677
Ashour N.I.,and Abd-EI'Hamid A.E.M.,1970,Relative salt tolerance of Egyptian cotton varieties during germination and early seedlings development,Plant Soil,33(1):493-495
Basal H.,Smith C.W.,Thaxton P.S.,and Hemphill J.K.,2005,Seedling drought tolerance in upland cotton,Crop Sci.,45(2):766-771
Briddon R.,and Markham P.,2000,Cotton leaf curl virus disease,Virus Res.,71(2000):151-159
Burke H.R.,Clark W.E.,Cate J.R.,and Fryxell P.A.,1986,Origin and dispersal of the boll weevil,Bull.Entomol.Soc.Am.,32(4):228-238
Cavalcani S.R.,Helena M.L.,Gomes M.R.,and Silvano G.E.,2003,Mechanical damage in cotton buds caused by the boll weevil,Pesqui.Agropecu.Bras.,38(11):1351-1356
Chen L.B.,and Li Y.Q.,2004,The research progress on cotton fiber development at molecular level,Fenzi Zhiwu Yuzhong(Molecular Plant Breeding),2(1):105-111(陈良兵,李永起,2004,棉花纤维发育的分子研究进展,分子植物育种,2(1):105-111)
de Oliveira R.S.,Oliveira-Neto O.B.,Moura H.F.N.,de Macedo L.L.,Arraes F.B.,Lucena W.A.,Lourenco-Tessutti I.T.,de Deus Barbosa A.A.,da Silva M.C.,and Grossi-de-Sa M.F.,2016,Transgenic cotton plants expressing Cry1Ia12 toxin confer resistance to fall armyworn(Spodoptera frugiperda)and cotton boll weevil(Anthonomus grandis),Front.Plant Sci.,7(854):165
Downes S.,Walsh T.,and Tay W.T.,2016,Bt resistance in Australian insect pest species,Curr.Opin.Insect Sci.,15:78-83
Dubey N.K.,Goel R.,Ranjan A.,Idris A.,Singh S.K.,Bag S.K.,Chandrashekar K.C.,Pandey K.D.,Singh P.K.,and Sawant S.,2013,Comparative transcriptome analysis of Gossypium hirsutum L.in response to sap sucking insects:aphid and whitefly,BMC Genomics,14(1):241-261
Grossi-de-Sa M.F.,de Magalhaes M.Q.,Silva M.S.,Silva S.M.,Dias S.C.,Nakasu E.Y.,Oliveira G.R.,Neto O.B.,de Sampaio O.R.,Soares L.H.,Ayub M.A.,Siqueira H.A.,and Figueira E.L.,2007,Susceptibility of Anthomomus grandis(cotton boll weevil)and Spodoptera frugiperda(fall armyworm)to a Cry Ia-type toxin from a Brazilian Bacillus thuringiensis strain,J.Biochem.Mol.Biol.,40(5):773-782
Gutierrez O.A.,Jenkins J.N.,McCarty J.C.,Wubben M.J.,Hayes R.W.,and Callahan F.E.,2010,SSR markers closely associated with genes for resistance to root-knot nematode on chromosomes 11 and 14 of upland cotton,Theor.Appl.Genet.,121(7):1323-1337
Hassan H.M.,Azhar F.M.,Khan A.A.,Basra S.M.A.,and Hussain M.,2015,Characterization of cotton(Gossypium hirsutum)germplasm for drought tolerance using seeding traits and molecular markers,Int.J.Agric.Biol.,17(6):1213-1218
Kumar V.,Joshi S.G.,Bell A.A.,and Rathore K.S.,2013,Enhanced resistance against Thielaviopsis basicola in transgenic cotton plants expressing Arabidopsis NPR1 gene,Transgenic Res.,22(2):359-368
Li T.C.,Shi Y.J.,and Huo Y.F.,2014,Commercial planting status and potential ecological risk of Indian genetically modified insect-resistant cotton,Heilongjiang Nongye Kexue(Heilongjiang Agricultural Sciences),(4):111-114(李田春,史雅静,霍艳峰,2014,印度转基因抗虫棉的商业种植现状及其潜在的生态风险,黑龙江农业科学,(4):111-114)
Longenberger P.S.,Smith C.W.,Thaxton P.S.,and Mcmichael B.L.,2006,Development of a screening method for drought tolerance in cotton seedlings,Crop Sci.,46(5):2104-2110
Luo D.,2006,Latest advances in mechanisms of cotton fiber development from China,Fenzi Zhiwu Yuzhong(Molecular Plant Breeding),4(S3):1-3(罗达,2006,中国科学家在棉花纤维发育研究领域取得最新进展,分子植物育种,4(S3):1-3)
Ma X.F.,Yang D.G.,and Zhang X.Y.,2013,Investigation on cotton breeding in Australia,Zhongguo Mianhua(China Cotton),40(2):1-3(马雄风,杨代刚,张雪研,2013,澳大利亚棉花育种考察报告,中国棉花,40(2):1-3)
Mahmood S.,Irfan M.,Raheel F.,and Hussain A.,2006,Characteriazation of cotton(Gossypium hirsutum L.)varieties for growth and productivity traits under water deficit conditions,Econ.Rev.,4(3):232-238
Maqbool A.,Abbas W.,Rao A.Q.,Irfan M.,Zahur M.,Bakhsh A.,Riazuddin S.,and Husnain T.,2010,Gossypium arboretum GHSP26 enhances drought tolerance in Gossypium hirsutum,Biotechnol Prog.,26(1):21-25
Martins W.F.,Ayres C.F.,and Lucena W.A.,2007,Genetic diversity of Brazilian natural populations of Anthonomus grandis Boheman(Coleoptera Curculionidae),the major cotton pest in the New World,Genet.Mol.Res.,6(1):23-32
Mei M.,Syed N.H.,Gao W.,Thaxton P.M.,Smith C.W.,Stelly D.M.,and Chen Z.J.,2004,Genetic mapping and QTL analysis of fiber-related traits in cotton(Gossypium),Theor.Appl.Genet.,108(2):280-291
Meng C.M.,Cai C.P.,and Guo W.Z.,2012,Advances in cotton stress resistance breeding,Nanjing Nongye Daxue Xuebao(Journal of Nanjing Agricultural University),35(5):25-34(孟超敏,蔡彩平,郭旺珍,2012,棉花抗逆育种研究进展,南京农业大学学报,35(5):25-34)
Meredith W.R.J.,Culp T.W.,Robert K.Q.,Ruppenicker G.F.,Anthony W.S.,and Williford J.R.,1991,Determining future cotton variety fiber quality objectives,Text.Res.J.,61(12):715-720
Nazeer W.,Ahmad S.,Mahmood K.,Tipu A.L.,Mahmood A.,and Zhou B.,2014a,Introgression of genes for cotton leaf curl virus resistance and increased fiber strength from Gossypium stocksii into uplant cotton(G.hirsutum),Genet.Mol.Res.,13(1):1133-1143
Nazeer W.,Tipu A.L.,Ahmad S.,Mahmood K.,Mahmood A.,Zhou B.,and Fang D.,2014b,Evaluation of cotton leaf curl virus resistance in BC1,BC2 and BC3 progenies from an interspecific cross between Gossypium arboretum and Gossypium hirsutum,PLoS One,9(11):111861
Nehl D.B.,Allen S.J.,Mondal A.H.,and Lonergan P.A.,2004,Black root rot:A pandemic in Australian cotton,Australasian Plant Pathol.,33(1):87-95
Niu C.,Lister H.E.,Nguyen B.,Wheeler T.A.,and Wright R.J.,2008,Resistance to Thielaviopsis basicola in the cultivated A genome cotton,Theor.Appl.Genet.,117(8):1313-1323
Oerke E.C.,2006,Crop losses to pests,J.Agric.Sci.,144:31-43
Paterson A.H.,Saranga Y.,Menz M.,Jiang C.X.,and Wright R.,2003,QTL analysis of genotype×environment interactions affecting cotton fiber quality,Theor.Appl.Genet.,106(3):384-396
Patil D.V.,Deosarkar D.B,and Gaikwad A.R.,2012,Drought tolerance studies in cotton genotypes,J.Cotton Res.Dev.,26(1):21-25
Pereg L.L.,2013,Black root rot of cotton in Australia:the host,the pathogen and disease management,Crop Pasture Sci.,64(11-12):1112-1126
Qadir M.,and Shams M.,1997,Some agronomic and physiological aspects of salt tolerance in cotton(Gossypium hirsutum L.),J.Agromomy Crop Sci.,179(2):101-106
Rahman M.,Hussain D.,Malik T.A.,and Zafar Y.,2005,Genetics of resistance to cotton leaf curl disease in Gossypium hisutum,Plant Pathol.,54(6):764-772
Rajagopalan P.A.,Naik A.,Katturi P.,Kurulekar M.,Kankanallu R.S.,and Anandalakshmi R.,2012,Dominance of resistance-breaking cotton leaf curl Burewala virus(CLCu Bu V)in northwestern India,Arch.Virol.,157(5):855-868
Ranjan A.,Nigam D.,Asif M.H.,Singh R.,Rajan S.,Mantri S.,Pandey N.,Trivedi I.,Rai K.M.,Jena S.N.,Koul B.,Pathre U.V.,and Sawant S.V.,2012,Genome wide expression profiling of two accession of G.herbaceum L.in response to drought,BMC Genomics,13(1):94
Rengasamy P.,2006,World salinization with emphasis on Australia,J.Exp.Bot.,57(5):1017-1023
Schnepf H.E.,and Whiteley H.R.,1981,Cloning and expression of the Bacillus thuringiensis crystal protein gene in Escherichia coli,Proc.Natl.Acad.Sci.USA,78(5):2893-2897
Shepherd R.L.,1974,Transgressive segregation for root-knot nematode resistance in cotton,Crop Sci.,14(6):872-875
Shepherd R.L.,1983,New sources of resistance to root-knot nematodes among primitive cottons,Crop Sci.,23(5):999-1002
Shepherd R.L.,McCarty J.C.J.,Jenkins J.N.,and Parrott W.L.,1996,Registration of nine cotton germplasm lines resistant to root-knot nematode,Crop Sci.,36(3):820
Shepherd R.L.,McCarty J.C.J.,Jenkins J.N.,and Parrott W.L.,1988,Registration of twelve nonphotoperiodic lines with root-knot nematode resistant primitive cotton germplasm,Crop Sci.,28(5):868-869
Tiendrebeogo F.,Lefeuvre P.,Hoareau M.,Villemot J.,Konate G.,Traore A.S.,Barro N.,Traore V.S.,Reynaud B.,Traore O.,and Lett J.M.,2010,Molecular diversity of cotton leaf curl Gezira virus isolates and their satellite DNAs associated with okra leaf curl disease in Burkina faso,Virol.J.,7:48
Tiwari R.S.,and Stewart J.M.,2008,Effect of salt on several genotypes of Gossypium,Summaries of Arkansas,Cotton Research,573:34-36
Ulloa M.,and Mrjr M.,2000,Genetic linkage map and QTLanalysis of agronomic and fiber quality traits in an intraspecific population,J.Cotton Sci.,4(3):161-170
Wang H.,and Davis R.M.,1997,Susceptibility of selected cotton cultivars to seedling disease pathogens and benefits of chemical seed treatment,Plant Dis.,81(9):1085-1088
Wang K.B.,Guo X.M.,Zhang X.Y.,Song M.Z.,Yuan Y.L.,Du X.M,Xing C.Z.,and Li W.M.,2007,Investigation on cotton breeding in Australia,Zhongguo Mianhua(China Cotton),34(5):8-12(王坤波,郭香墨,张香云,宋美珍,袁有禄,杜雄明,邢朝柱,李伟明,2007,巴西棉花考察报告,中国棉花,34(5):8-12)
Wenel J.F.,and Cronn R.C.,2003,Polyploidy and the evolutionary history of cotton,Adv.Agron.,78(2):139-186
Wheeler T.A.,Hake K.D.,and Dever J.K.,2000,Survey of Meloidogyne incognita and Thielaviposis basicola:Their impact on cotton fruiting and producers'management choices in infested fields,J.Nematol.,32(S4):576-583
Ynturi P.,Jenkins J.N.,McCarty J.C.,Gutierrez O.A.,and Saha S.,2006,Association of root-knot nematode resistance genes with simple sequence repeat markers on two chromosomes in cotton,Crop Sci.,46(6):2670-2674
Ashour N.I.,and Abd-EI'Hamid A.E.M.,1970,Relative salt tolerance of Egyptian cotton varieties during germination and early seedlings development,Plant Soil,33(1):493-495
Basal H.,Smith C.W.,Thaxton P.S.,and Hemphill J.K.,2005,Seedling drought tolerance in upland cotton,Crop Sci.,45(2):766-771
Briddon R.,and Markham P.,2000,Cotton leaf curl virus disease,Virus Res.,71(2000):151-159
Burke H.R.,Clark W.E.,Cate J.R.,and Fryxell P.A.,1986,Origin and dispersal of the boll weevil,Bull.Entomol.Soc.Am.,32(4):228-238
Cavalcani S.R.,Helena M.L.,Gomes M.R.,and Silvano G.E.,2003,Mechanical damage in cotton buds caused by the boll weevil,Pesqui.Agropecu.Bras.,38(11):1351-1356
Chen L.B.,and Li Y.Q.,2004,The research progress on cotton fiber development at molecular level,Fenzi Zhiwu Yuzhong(Molecular Plant Breeding),2(1):105-111(陈良兵,李永起,2004,棉花纤维发育的分子研究进展,分子植物育种,2(1):105-111)
de Oliveira R.S.,Oliveira-Neto O.B.,Moura H.F.N.,de Macedo L.L.,Arraes F.B.,Lucena W.A.,Lourenco-Tessutti I.T.,de Deus Barbosa A.A.,da Silva M.C.,and Grossi-de-Sa M.F.,2016,Transgenic cotton plants expressing Cry1Ia12 toxin confer resistance to fall armyworn(Spodoptera frugiperda)and cotton boll weevil(Anthonomus grandis),Front.Plant Sci.,7(854):165
Downes S.,Walsh T.,and Tay W.T.,2016,Bt resistance in Australian insect pest species,Curr.Opin.Insect Sci.,15:78-83
Dubey N.K.,Goel R.,Ranjan A.,Idris A.,Singh S.K.,Bag S.K.,Chandrashekar K.C.,Pandey K.D.,Singh P.K.,and Sawant S.,2013,Comparative transcriptome analysis of Gossypium hirsutum L.in response to sap sucking insects:aphid and whitefly,BMC Genomics,14(1):241-261
Grossi-de-Sa M.F.,de Magalhaes M.Q.,Silva M.S.,Silva S.M.,Dias S.C.,Nakasu E.Y.,Oliveira G.R.,Neto O.B.,de Sampaio O.R.,Soares L.H.,Ayub M.A.,Siqueira H.A.,and Figueira E.L.,2007,Susceptibility of Anthomomus grandis(cotton boll weevil)and Spodoptera frugiperda(fall armyworm)to a Cry Ia-type toxin from a Brazilian Bacillus thuringiensis strain,J.Biochem.Mol.Biol.,40(5):773-782
Gutierrez O.A.,Jenkins J.N.,McCarty J.C.,Wubben M.J.,Hayes R.W.,and Callahan F.E.,2010,SSR markers closely associated with genes for resistance to root-knot nematode on chromosomes 11 and 14 of upland cotton,Theor.Appl.Genet.,121(7):1323-1337
Hassan H.M.,Azhar F.M.,Khan A.A.,Basra S.M.A.,and Hussain M.,2015,Characterization of cotton(Gossypium hirsutum)germplasm for drought tolerance using seeding traits and molecular markers,Int.J.Agric.Biol.,17(6):1213-1218
Kumar V.,Joshi S.G.,Bell A.A.,and Rathore K.S.,2013,Enhanced resistance against Thielaviopsis basicola in transgenic cotton plants expressing Arabidopsis NPR1 gene,Transgenic Res.,22(2):359-368
Li T.C.,Shi Y.J.,and Huo Y.F.,2014,Commercial planting status and potential ecological risk of Indian genetically modified insect-resistant cotton,Heilongjiang Nongye Kexue(Heilongjiang Agricultural Sciences),(4):111-114(李田春,史雅静,霍艳峰,2014,印度转基因抗虫棉的商业种植现状及其潜在的生态风险,黑龙江农业科学,(4):111-114)
Longenberger P.S.,Smith C.W.,Thaxton P.S.,and Mcmichael B.L.,2006,Development of a screening method for drought tolerance in cotton seedlings,Crop Sci.,46(5):2104-2110
Luo D.,2006,Latest advances in mechanisms of cotton fiber development from China,Fenzi Zhiwu Yuzhong(Molecular Plant Breeding),4(S3):1-3(罗达,2006,中国科学家在棉花纤维发育研究领域取得最新进展,分子植物育种,4(S3):1-3)
Ma X.F.,Yang D.G.,and Zhang X.Y.,2013,Investigation on cotton breeding in Australia,Zhongguo Mianhua(China Cotton),40(2):1-3(马雄风,杨代刚,张雪研,2013,澳大利亚棉花育种考察报告,中国棉花,40(2):1-3)
Mahmood S.,Irfan M.,Raheel F.,and Hussain A.,2006,Characteriazation of cotton(Gossypium hirsutum L.)varieties for growth and productivity traits under water deficit conditions,Econ.Rev.,4(3):232-238
Maqbool A.,Abbas W.,Rao A.Q.,Irfan M.,Zahur M.,Bakhsh A.,Riazuddin S.,and Husnain T.,2010,Gossypium arboretum GHSP26 enhances drought tolerance in Gossypium hirsutum,Biotechnol Prog.,26(1):21-25
Martins W.F.,Ayres C.F.,and Lucena W.A.,2007,Genetic diversity of Brazilian natural populations of Anthonomus grandis Boheman(Coleoptera Curculionidae),the major cotton pest in the New World,Genet.Mol.Res.,6(1):23-32
Mei M.,Syed N.H.,Gao W.,Thaxton P.M.,Smith C.W.,Stelly D.M.,and Chen Z.J.,2004,Genetic mapping and QTL analysis of fiber-related traits in cotton(Gossypium),Theor.Appl.Genet.,108(2):280-291
Meng C.M.,Cai C.P.,and Guo W.Z.,2012,Advances in cotton stress resistance breeding,Nanjing Nongye Daxue Xuebao(Journal of Nanjing Agricultural University),35(5):25-34(孟超敏,蔡彩平,郭旺珍,2012,棉花抗逆育种研究进展,南京农业大学学报,35(5):25-34)
Meredith W.R.J.,Culp T.W.,Robert K.Q.,Ruppenicker G.F.,Anthony W.S.,and Williford J.R.,1991,Determining future cotton variety fiber quality objectives,Text.Res.J.,61(12):715-720
Nazeer W.,Ahmad S.,Mahmood K.,Tipu A.L.,Mahmood A.,and Zhou B.,2014a,Introgression of genes for cotton leaf curl virus resistance and increased fiber strength from Gossypium stocksii into uplant cotton(G.hirsutum),Genet.Mol.Res.,13(1):1133-1143
Nazeer W.,Tipu A.L.,Ahmad S.,Mahmood K.,Mahmood A.,Zhou B.,and Fang D.,2014b,Evaluation of cotton leaf curl virus resistance in BC1,BC2 and BC3 progenies from an interspecific cross between Gossypium arboretum and Gossypium hirsutum,PLoS One,9(11):111861
Nehl D.B.,Allen S.J.,Mondal A.H.,and Lonergan P.A.,2004,Black root rot:A pandemic in Australian cotton,Australasian Plant Pathol.,33(1):87-95
Niu C.,Lister H.E.,Nguyen B.,Wheeler T.A.,and Wright R.J.,2008,Resistance to Thielaviopsis basicola in the cultivated A genome cotton,Theor.Appl.Genet.,117(8):1313-1323
Oerke E.C.,2006,Crop losses to pests,J.Agric.Sci.,144:31-43
Paterson A.H.,Saranga Y.,Menz M.,Jiang C.X.,and Wright R.,2003,QTL analysis of genotype×environment interactions affecting cotton fiber quality,Theor.Appl.Genet.,106(3):384-396
Patil D.V.,Deosarkar D.B,and Gaikwad A.R.,2012,Drought tolerance studies in cotton genotypes,J.Cotton Res.Dev.,26(1):21-25
Pereg L.L.,2013,Black root rot of cotton in Australia:the host,the pathogen and disease management,Crop Pasture Sci.,64(11-12):1112-1126
Qadir M.,and Shams M.,1997,Some agronomic and physiological aspects of salt tolerance in cotton(Gossypium hirsutum L.),J.Agromomy Crop Sci.,179(2):101-106
Rahman M.,Hussain D.,Malik T.A.,and Zafar Y.,2005,Genetics of resistance to cotton leaf curl disease in Gossypium hisutum,Plant Pathol.,54(6):764-772
Rajagopalan P.A.,Naik A.,Katturi P.,Kurulekar M.,Kankanallu R.S.,and Anandalakshmi R.,2012,Dominance of resistance-breaking cotton leaf curl Burewala virus(CLCu Bu V)in northwestern India,Arch.Virol.,157(5):855-868
Ranjan A.,Nigam D.,Asif M.H.,Singh R.,Rajan S.,Mantri S.,Pandey N.,Trivedi I.,Rai K.M.,Jena S.N.,Koul B.,Pathre U.V.,and Sawant S.V.,2012,Genome wide expression profiling of two accession of G.herbaceum L.in response to drought,BMC Genomics,13(1):94
Rengasamy P.,2006,World salinization with emphasis on Australia,J.Exp.Bot.,57(5):1017-1023
Schnepf H.E.,and Whiteley H.R.,1981,Cloning and expression of the Bacillus thuringiensis crystal protein gene in Escherichia coli,Proc.Natl.Acad.Sci.USA,78(5):2893-2897
Shepherd R.L.,1974,Transgressive segregation for root-knot nematode resistance in cotton,Crop Sci.,14(6):872-875
Shepherd R.L.,1983,New sources of resistance to root-knot nematodes among primitive cottons,Crop Sci.,23(5):999-1002
Shepherd R.L.,McCarty J.C.J.,Jenkins J.N.,and Parrott W.L.,1996,Registration of nine cotton germplasm lines resistant to root-knot nematode,Crop Sci.,36(3):820
Shepherd R.L.,McCarty J.C.J.,Jenkins J.N.,and Parrott W.L.,1988,Registration of twelve nonphotoperiodic lines with root-knot nematode resistant primitive cotton germplasm,Crop Sci.,28(5):868-869
Tiendrebeogo F.,Lefeuvre P.,Hoareau M.,Villemot J.,Konate G.,Traore A.S.,Barro N.,Traore V.S.,Reynaud B.,Traore O.,and Lett J.M.,2010,Molecular diversity of cotton leaf curl Gezira virus isolates and their satellite DNAs associated with okra leaf curl disease in Burkina faso,Virol.J.,7:48
Tiwari R.S.,and Stewart J.M.,2008,Effect of salt on several genotypes of Gossypium,Summaries of Arkansas,Cotton Research,573:34-36
Ulloa M.,and Mrjr M.,2000,Genetic linkage map and QTLanalysis of agronomic and fiber quality traits in an intraspecific population,J.Cotton Sci.,4(3):161-170
Wang H.,and Davis R.M.,1997,Susceptibility of selected cotton cultivars to seedling disease pathogens and benefits of chemical seed treatment,Plant Dis.,81(9):1085-1088
Wang K.B.,Guo X.M.,Zhang X.Y.,Song M.Z.,Yuan Y.L.,Du X.M,Xing C.Z.,and Li W.M.,2007,Investigation on cotton breeding in Australia,Zhongguo Mianhua(China Cotton),34(5):8-12(王坤波,郭香墨,张香云,宋美珍,袁有禄,杜雄明,邢朝柱,李伟明,2007,巴西棉花考察报告,中国棉花,34(5):8-12)
Wenel J.F.,and Cronn R.C.,2003,Polyploidy and the evolutionary history of cotton,Adv.Agron.,78(2):139-186
Wheeler T.A.,Hake K.D.,and Dever J.K.,2000,Survey of Meloidogyne incognita and Thielaviposis basicola:Their impact on cotton fruiting and producers'management choices in infested fields,J.Nematol.,32(S4):576-583
Ynturi P.,Jenkins J.N.,McCarty J.C.,Gutierrez O.A.,and Saha S.,2006,Association of root-knot nematode resistance genes with simple sequence repeat markers on two chromosomes in cotton,Crop Sci.,46(6):2670-2674