Comparative incidence of cotton spider mites on transgenic Bt versus conventional cotton in relation to contents of secondary metabolites

文献类型: 外文期刊

第一作者: Ma, Hui

作者: Ma, Hui;Zhao, Ming;Wang, Hongyan;Wang, Zhongmin;Wang, Qi;Dong, Hezhong

作者机构:

关键词: Bt cotton;Cotton spider mites;Secondary metabolites

期刊名称:ARTHROPOD-PLANT INTERACTIONS ( 影响因子:1.988; 五年影响因子:2.059 )

ISSN: 1872-8855

年卷期: 2014 年 8 卷 1 期

页码:

收录情况: SCI

摘要: With the wide adoption of transgenic Bacillus thuringiensis (Bt) cotton, the incidence of bollworm has reduced significantly, but secondary pests such as cotton spider mites have become serious problems in Bt cotton fields. The objective of the present study was to investigate the underlying mechanism of increased incidence of secondary pests in Bt cotton. Two transgenic cotton varieties, sGK321 and Bt-C12, and their non-transformed counterparts, SY321 and C12, were used to study differences in the incidence of spider mites in relation to secondary metabolites. Plants of each cotton cultivar were infested with five female adult spider mites and then isolated. Leaf samples with a pair of adult mites of the same age were transferred individually into Petri dishes for examination of egg laying and duration of development stages. The number of spider mites on Bt-C12 and sGK321 was more than that on C12 and SY321. The cotton spider mites feeding on Bt-C12 laid significantly more eggs than those feeding on C12; those feeding on sGK321 laid significantly more eggs than those feeding on SY321. The generation time of spider mites feeding on Bt-C12 was greatly reduced relative to those feeding on C12. Also, the generation time of mites feeding on sGK321 was shorter than those feeding on SY321. Gossypol and tannin contents in leaves of Bt-C12 were substantially lower than those in C12, and the contents in leaves of sGK321 were significantly lower than those in leaves of SY321. The occurrence of spider mites was more serious on Bt than non-Bt cotton, and the fitness of the mites on Bt cotton was higher than on non-Bt cotton. Reductions in gossypol and tannin contents in Bt cotton decreased the generation time and increased the number of eggs of cotton spider mites.

分类号:

  • 相关文献

[1]Effects of genotypes and plant density on yield, yield components and photosynthesis in Bt transgenic cotton. Dong, HZ,Li, WJ,Tang, W,Li, ZH,Zhang, DM. 2006

[2]Increased yield and revenue with a seedling transplanting system for hybrid seed production in Bt cotton. Dong, HZ,Li, WJ,Tang, W,Li, ZH,Zhang, DM. 2005

[3]Variability of endotoxin expression in Bt transgenic cotton. Dong, H. Z.,Li, W. J.. 2007

[4]Nitrogen rate and plant density effects on yield and late-season leaf senescence of cotton raised on a saline field. Dong, Hezhong,Li, Weijiang,Eneji, A. Egrinya,Zhang, Dongmei,Eneji, A. Egrinya. 2012

[5]Planting density and leaf-square regulation affected square size and number contributing to altered insecticidal protein content in Bt cotton. Yuan Chen,Chen, Dehua,Yabing Li,Yuan Chen,Eltayib H.M.A. Abidallha,Dapeng Hu,Yuan Li,Xiang Zhang,Dehua Chen.

[6]Nitrogen (N) Application Gradually Enhances Boll Development and Decreases Boll Shell Insecticidal Protein Content in N-Deficient Cotton. Yuan Chen,Chen, Dehua,Yabing Li,Mingyuan Zhou,Qiuzhi Rui,Zezhou Cai,Xiang Zhang,Yuan Chen,Dehua Chen. 2018

[7]Effects of soil salinity on rhizosphere soil microbes in transgenic Bt cotton fields. Luo Jun-yu,Cui Jin-jie,Zhou Zhi-guo,Zhang Shuai,Zhu Xiang-zhen,Lu Li-min,Wang Chun-yi,Li Chun-hua,Cui Jin-jie,Zhou Zhi-guo. 2017

[8]Bt cotton expressing CrylAc/Cry2Ab or CrylAc/epsps does not harm the predator Propylaea japonica through its prey Aphis gossypii. Yao Zhao,Yan Ma,Lin Niu,Weihua Ma,Amani Mannakkara,Lizhen Chen,Chaoliang Lei. 2013

[9]Effects of Bt transgenic cotton lines on the cotton bollworm parasitoid Microplitis mediator in the laboratory. Liu, XX,Zhang, QW,Zhao, JZ,Li, HC,Xu, BL,Ma, XM. 2005

[10]Increasing tolerance to Cry1Ac cotton from cotton bollworm, Helicoverpa armigera, was confirmed in Bt cotton farming area of China. Li, Guo-Ping,Wu, Kong-Ming,Gould, Fred,Wang, Jian-Kang,Miaoi, Jin,Gao, Xi-Wu,Guo, Yu-Yuan. 2007

[11]Efficacy of transgenic Bt cotton for resistance to the Asian corn borer (Lepidoptera : Crambidae). He, KL,Wang, ZY,Bai, SX,Zheng, L,Wang, YB,Cui, HY. 2006

[12]Influences of Bacillus thuringiensis Berliner cotton planting on population dynamics of the cotton aphid, Aphis gossypii Glover, in northern China. Guo, YY. 2003

[13]Effect of farm management practices in the Bt toxin production by Bt cotton: evidence from farm fields in China. Mi, Jianwei,Chen, Ruijian,Hu, Ruifa,Huang, Jikun,Mi, Jianwei,Hu, Ruifa,Mi, Jianwei,Chen, Ruijian,Su, Honghua,Wu, Kongming,Qiao, Fangbin,Hu, Ruifa. 2014

[14]Multivariate analysis linkage of phyllospheric microbial community of transgenic cotton from SGK321 to Cry1Ac: A temporal expression dynamics. Pan, Jiangang,Cui, Mengmeng,Hu, Qing,Ma, Anzhou,Bai, Zhihui,Qi, Hongyan,Pan, Jiangang,Zhang, Hongxun,Guo, Hongguang,Pan, Jiangang,Yang, Dianlin. 2012

[15]Biosafety management and commercial use of genetically modified crops in China. Peng, Yufa,Wu, Kongming,Hallerman, Eric M.. 2014

[16]Regulation of the seasonal population patterns of Helicoverpa armigera moths by Bt cotton planting. Gao, Yu-lin,Wu, Kong-ming,Feng, Hong-qiang.

[17]Seasonal Migration of Helicoverpa armigera (Lepidoptera: Noctuidae) Over the Bohai Sea. Wu, Xianfu,Wu, Bo,Wu, Kongming,Feng, Hongqiang.

[18]Frequency of Bt resistance genes in Helicoverpa armigera populations from the Yellow River cotton-farming region of China. Wu, KM,Gould, F,Feng, HQ,He, YZ,Guo, YY. 2004

[19]Regional reversion of insecticide resistance in Helicoverpa armigera (Lepidoptera : Noctuidae) is associated with the use of Bt cotton in northern China. Mu, W,Liang, GM,Guo, YY. 2005

[20]The evolution of cotton pest management practices in China. Guo, YY. 2005

作者其他论文 更多>>

微信小程序