转Cry1Ab和Cry1Ac融合基因型抗虫水稻对田间二化螟和大螟种群发生动态的影响

Abstract

PDF HTML阅读 XML下载 导出引用 引用提醒 转Cry1Ab和Cry1Ac融合基因型抗虫水稻对田间二化螟和大螟种群发生动态的影响 DOI: 10.5846/stxb201102260222 作者: 作者单位: 南京农业大学植物保护学院昆虫学系,南京农业大学植物保护学院昆虫学系,南京农业大学植物保护学院昆虫学系,南京农业科学研究院植物保护研究所水稻害虫研究组,南京农业大学植物保护学院昆虫学系 作者简介: 通讯作者: 中图分类号: 基金项目: 转基因生物新品种培育重大专项课题(2009ZX08011-007B; 2009ZX08012-005B和2011ZX08012-005); 教育部霍英东基金(122033); 博士点基金(20070307002) Effects of insect-resistant transgenic Bt rice with a fused Cry1Ab+Cry1Ac gene on population dynamics of the stem borers, Chilo suppressalis and Sesamia inferens, occurring in paddyfield Author: Affiliation: Department of Entomology, College of Plant Protections, Nanjing Agricultural University,Department of Entomology, College of Plant Protections, Nanjing Agricultural University,Department of Entomology, College of Plant Protections, Nanjing Agricultural University,Institute of Plant Protection, Chinese Academy of Agricultural Sciences,Department of Entomology, College of Plant Protections, Nanjing Agricultural University Fund Project: 摘要 | 图/表 | 访问统计 | 参考文献 | 相似文献 | 引证文献 | 资源附件 | 文章评论 摘要:以Bt水稻华恢1号(Cry1Ac和CryAb融合基因;简称HH1)及其对照亲本明恢63(简称MH63)稻田靶标害虫二化螟Chilo suppressalis和次靶标害虫大螟Sesamia inferens为研究对象,研究了转基因抗虫水稻大田螟虫发生规律及其靶标和次靶标害虫致害力差异。结果表明,Bt水稻及其对照亲本上二化螟或大螟的卵块数量差异不显著,同时,对照亲本上二化螟与大螟的落卵量差异不显著,但Bt水稻上二化螟的落卵量显著大于大螟。与对照亲本相比,Bt水稻上二化螟幼虫发生量显著降低,降幅高达84.9%-100%,但大螟发生量差异不显著;此外,对照亲本上二化螟幼虫发生量显著高于大螟,但Bt水稻上两者差异不显著。同时,Bt水稻上二化螟导致的枯心/白穗率和受害丛率都显著低于其在对照亲本上的致害程度,降幅分别为30.8%-98.3%和11.4%-96.6%,而大螟差异不显著。可见,Bt水稻对靶标害虫二化螟具有较高抗性,而对次靶标害虫大螟的抗性不明显。另一方面,Bt水稻和对照亲本上二化螟导致的枯心/白穗率和受害从率都显著高于大螟。可见,二化螟仍是当前非转基因水稻上的主要害虫,而Bt水稻对二化螟幼虫发生的显著抑制作用以及对大螟幼虫发生的不显著影响,使得其大面积商业化种植下靶标害虫二化螟和次靶标害虫大螟间的竞争替代成为可能。 Abstract:The approval of transgenic Bacillus thuringiensis rice (ab., Bt rice) with double-stacked traits (including a rice restorer line of cv. Bt Huahui-1 and a hybrid rice line of cv. Bt Shanyou-63, both expressing a fused Cry1Ab+Cry1Ac gene) by China's Ministry of Agriculture (MOA) on 27 November 2009 was a momentous day for biotech crops worldwide. To date, some experiments have been carried out in labs or under controlled environmental conditions, which indicate that Bt rice can perform remarkably well against two targeted lepidopteran pests (e.g., the stem borer, Chilo suppressalis, and leaf-folder, Cnaphalocrocis medinalis), and simultaneously offers: 1) the potential to generate economic benefits due to yield increases, and 2) overall decreases in insecticide use in China. In this study, the field experiments were conducted in order to examine the population dynamics and damage characteristics of two stem borers (i.e., target pest, C. suppressalis and a sub-target pest, Sesamia inferens) feeding on the Bt rice with a fused Cry1Ab+Cry1Ac gene (cv., Bt Huahui-1) and its parent line of nontransgenic rice (cv., Minghui-63). The results indicate that no significant differences were found in the number of egg masses per 100 plants for C. suppressalis or S. inferens occurring on Bt rice in contrast to nontransgenic rice. In addition, no significant differences in egg mass densities between C. suppressalis and S. inferens were found when fed on nontransgenic rice, whereasas a significant increase in egg mass were observed for C. suppressalis relative to S. inferens fed on Bt rice. Compared with nontransgenic rice, Bt rice significantly reduced the population density (i.e., individuals per 100 plants; 84.9%-100%) of C. suppressalis larvae, while the transgenicity did not significantly influence the population abundance for S. inferens. Moreover, C. suppressalis had significantly higher larval abundances than S. inferens when they fed on nontransgenic rice, while no significant differences were observed when fed on Bt rice. Simultaneously, significantly lower percentages of dead heart or white head plants (30.8%-98.3%), and damaged plants (11.4%-96.6%) resulted from C. suppressalis, while no significant differences were detected in the damage percentages for S. inferens, as they fed on the Bt rice relative to the nontransgenic rice cultivar. Therefore, Bt rice appears to have a higher resistance to the targeted pest, C. suppressalis, while lower resistance was observed for the sub-target pest,S. inferens. Furthermore, significantly higher damage percentages were caused by C. suppressalis relative to S. inferens, regardless of the transgenicity of the rice cultivar. Thus, the stem borer, C. suppressalis, remains the key insect pest in the paddyfield. While it is presumed, owing to the significant inhibition of Bt rice on the occurrence of C. suppressalis relative to S. inferens under the commercialization usage of Bt rice, the inter-species competition and population succession may be occurring between the target and sub-target pests of stem borers. Furthermore, additional field research work needs to be conducted, especially during the rice growing season when high densities of C. suppressalis and S. inferens are both available on Bt rice to assess ecological risks of the inter-species competition and population successions between the target and sub-target insect pests. 参考文献 相似文献 引证文献