一篇关于转基因是否减少农药用量的研究论文
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level 9
静亭小筑 楼主
Resistance evolution to the first generation of genetically modified Diabrotica-active Bt-maize events by western corn rootworm: management and monitoring considerations.
Transgenic Res. 2013 Apr;22(2):269-99. doi: 10.1007/s11248-012-9657-4.
Abstract
Western corn rootworm (Diabrotica virgifera virgifera; WCR) is a major coleopteran maize pest in North America and the EU, and has traditionally been managed through crop rotation and broad-spectrum soil insecticides. Genetically modified Bt-maize offers an additional management tool for WCR and has been valuable in reducing insecticide use and increasing farm income. A concern is that the widespread, repeated, and exclusive deployment of the same Bt-maize transformation event will result in the rapid evolution of resistance in WCR. This publication explores the potential of WCR to evolve resistance to plant-produced Bt-toxins from the first generation of Diabrotica-active Bt-maize events (MON 863 and MON 88017, DAS-59122-7 and MIR604), and whether currently implemented risk management strategies to delay and monitor resistance evolution are appropriate. In twelve of the twelve artificial selection experiments reported, resistant WCR populations were yielded rapidly. Field-selected resistance of WCR to Cry3Bb1 is documented in some US maize growing areas, where an increasing number of cases of unexpected damage of WCR larvae to Bt-maize MON 88017 has been reported. Currently implemented insect resistance management measures for Bt-crops usually rely on the high dose/refuge (HDR) strategy. Evidence (including laboratory, greenhouse and field data) indicates that several conditions contributing to the success of the HDR strategy may not be met for the first generation of Bt-maize events and WCR: (1) the Bt-toxins are expressed heterogeneously at a low-to-moderate dose in roots; (2) resistance alleles may be present at a higher frequency than initially assumed; (3) WCR may mate in a non-random manner; (4) resistance traits could have non-recessive inheritance; and (5) fitness costs may not necessarily be associated with resistance evolution. However, caution must be exercised when extrapolating laboratory and greenhouse results to field conditions. Model predictions suggest that a 20 % refuge of non-Diabrotica-active Bt-maize can delay resistance evolution in WCR under certain conditions. This publication concludes that further research is needed to resolve the remaining scientific uncertainty related to the appropriateness of the HDR in delaying resistance evolution in WCR, resistance monitoring is essential to detect early warning signs indicating resistance evolution in the field, and that integrated pest management reliant on multiple tactics should be deployed to ensure effective long-term corn rootworm management and sustainable use of Bt-maize.
2013年11月06日 03点11分 1
level 9
静亭小筑 楼主
目前只能评价Bt玉米,水稻的情况只能推测。你看看有木有争议。@BoilThreeRiver
2013年11月06日 03点11分 2
转基因水稻都有商业许可证了。你跟我争论玉米做什么?我没否认转基因玉米的优势啊。再说这片摘要通篇也没有提到水稻
2013年11月06日 03点11分
别扯什么化工厂了。研究研究农药使用量问题吧。@BoilThreeRiver
2013年11月06日 03点11分
bt蛋白对水稻不会有什么毒性,要不湖北转基因水稻也不会得到商业生产许可
2013年11月06日 03点11分
回复 静亭小筑:建议你研究一下杂交水稻的农药量,对比一下就知道了。 :
2013年11月06日 03点11分
level 9
静亭小筑 楼主
还有一个报告,指出转基因作物在种植16年后实际增加了农药用量:
“Impacts of genetically engineered crops on pesticide use in the U.S. — the first sixteen years” by Charles M Benbrook of Washington State University, published September 28th in peer reviewed “Environmental Sciences Europe 2012〃.
2013年11月06日 04点11分 3
level 6
真正的科学论文少有人问津,转转们也不见得有什么科学素养
2013年11月07日 05点11分 4
他们习惯于高举科学的大旗喷别人没有素养,却不习惯看论文研究资料。看到对转基因不利的,习惯性地无视。[鄙视]
2013年11月07日 07点11分
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