摘要
Stylet penetration behaviors of cotton aphids Aphis gossypii Glover on a transgenic cotton line "GK-12" expressing Bt toxic protein of Cry 1A (Bt cotton) and a non- Bt conventional cotton line "Simian-3" (CK cotton) were recorded with the direct current electrical penetration graph (DC-EPG) technique. Cotton aphids reared on Bt cotton (abbreviated as Bt-aphids) and its parental non-Bt control line (CK-aphids) for more than 20 generations each, were used for recordings on two cotton lines. Among 47 selected parameters reflecting the activities of aphid stylets within plant tissues, there were eight parameters of CK-aphids showing significant differences between the performances of CK- aphids on Bt cotton and CK cotton, while for Bt-aphids, all the parameters were statistically equal between the performances on the two cotton lines. All parameters with significant differences indicated that CK-aphids could penetrate into Bt cotton more easily, but the phloem saps of Bt cotton were not as good as those of regular cotton for CK-aphids. Based on the present results, we concluded that there were some factors in Bt cotton affecting penetration behaviors of CK-aphids, but it just took several generations for CK-aphids to completely adapt Bt cotton, and Bt-aphids could feed on two cotton lines without difficulty.
Stylet penetration behaviors of cotton aphids Aphis gossypii Glover on a transgenic cotton line "GK-12" expressing Bt toxic protein of Cry 1A (Bt cotton) and a non- Bt conventional cotton line "Simian-3" (CK cotton) were recorded with the direct current electrical penetration graph (DC-EPG) technique. Cotton aphids reared on Bt cotton (abbreviated as Bt-aphids) and its parental non-Bt control line (CK-aphids) for more than 20 generations each, were used for recordings on two cotton lines. Among 47 selected parameters reflecting the activities of aphid stylets within plant tissues, there were eight parameters of CK-aphids showing significant differences between the performances of CK- aphids on Bt cotton and CK cotton, while for Bt-aphids, all the parameters were statistically equal between the performances on the two cotton lines. All parameters with significant differences indicated that CK-aphids could penetrate into Bt cotton more easily, but the phloem saps of Bt cotton were not as good as those of regular cotton for CK-aphids. Based on the present results, we concluded that there were some factors in Bt cotton affecting penetration behaviors of CK-aphids, but it just took several generations for CK-aphids to completely adapt Bt cotton, and Bt-aphids could feed on two cotton lines without difficulty.
基金
Acknowledgments We thank W. F. Tjallingii, Wageningen University, the Netherlands, for the scientific and technical support on DC-EPG applications, and E. A. Backus, USDA Agricultural Research Service, Crop Diseases, Pests & Genetics Unit, USA, for help and comments on statistical data analysis. This work was supported jointly by National Key Basic Research Program of China (No. G2000046803), National Natural Science Foundation of China (No. 39970153) and Jiangsu Science Foundation (BK2006501).
