[1]McMichael S C. Hopi cotton,a source of cotton seed free of gossypol pigment [J]. Agron J,1959,51:630.
[2]McMichael S C.Combined effect of glandless genes g1212 and g13 on pigment glands in the cotton plant[J]. Agron J,1960,52:385-386.
[3]Afifi A,Bary A A,Kamel S A,et al. Bahtim 110,a new strain of Egyptian cotton free from gossypol [J]. Emp Cot Grow Rev,1966,43:112-120.
[4]Kohel R J,Lee J A. Genetic analysis of Egyptian glandless seeds cotton[J]. Crop Sci,1984,24(6):1119-1121.
[5]Cheng H,Lu C,Yu J Z,et al. Fine mapping and candidate gene analysis of the dominant glandless gene Gl2e in cotton (Gossypium spp.)[J]. Theoretical and Applied Genetics,2016,129(7):1347-1355.
[6]刘毓湘,吴中道,于绍杰,等. 无腺体棉育种与棉籽利用[M]. 北京:农业出版社,1988.
[7]陈旭升,狄佳春,刘剑光,等. 棉花无腺体性状的遗传及低酚棉产业化前景[J]. 江西农业学报,2003,15(1):43-47.
[8]陈旭升,狄佳春,许乃银,等. 双价转基因抗虫低酚棉的抗病虫特性研究[J]. 江西农业学报,2004,16(2):20-24.
[9]田一秀,马晓杰,狄佳春,等. 显性低酚杂交棉的杂种优势及营养成分分析[J]. 江苏农业学报,2012,28(6):1229-1234.
[10]陈旭升,肖松华,许乃银,等. 杂交棉新品种——苏杂201[J]. 江苏农业科学,2006(6):107,258.
[11]全国饲料工业标准化技术委员会. 饲料中游离棉酚的测定方法: GB 13086—1991[S]. 北京:国家标准出版社,1991.
[12]杜润鸿. 中棉紫光——引领棉籽加工新方向[J]. 粮油加工,2006(7):22-24.
[13]新华网. 美国批准新型转基因棉花用作食品原料[Z/OL]. (2019-10-14)[2020-10-15]. http://www.xinhuanet.com/2019-10/14/c_1125102020.htm.
[14]陈旭升,狄佳春,马晓杰. 双亲等位点抗虫杂交棉F1、F2农艺性状比较[J]. 江苏农业科学,2013,41(8):79-81.
[15]陈莹,张法铭,姜辉,等. 我国棉花形态标记性状应用研究进展[J]. 江苏农业科学,2019,47(18):46-50.
[16]陈旭升,狄佳春,赵亮. 抗虫杂交棉F1与F2的经济性状相关特性分析[J]. 江西农业学报,2017,29(6):13-15.
[1]陈旭升,狄佳春,赵亮.转基因抗虫杂交棉“星杂棉168”品种特性分析[J].江苏农业科学,2014,42(11):126.
Chen Xusheng,et al().Characteristics of transgenic hybrid cotton cultivar “Xingzamian 168” with insect-resistance[J].Jiangsu Agricultural Sciences,2014,42(16):126.
[2]蔡立旺,施庆华,高进,等.转基因抗虫杂交棉苏棉29栽培技术规程[J].江苏农业科学,2015,43(05):70.
Cai Liwang,et al.Cultivation technology regulation of transgenic hybrid cotton cultivar “Sumian 29” with insect resistance[J].Jiangsu Agricultural Sciences,2015,43(16):70.