Extrapolating non-target risk of Bt crops from laboratory to field

The tiered approach to assessing ecological risk of insect-resistant transgenic crops assumes that lower tier laboratory studies, which expose surrogate non-target organisms to high doses of insecticidal proteins, can detect harmful effects that might be manifested in the field. To test this assumpt...

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Veröffentlicht in:	Biology letters (2005) 2010-02, Vol.6 (1), p.74-77
Hauptverfasser:	Duan, Jian J, Lundgren, Jonathan G, Naranjo, Steve, Marvier, Michelle
Format:	Artikel
Sprache:	eng
Schlagworte:	Animals Bacillus thuringiensis Bacterial Proteins - toxicity bacterial toxins Bt crops Community Ecology Crops Crops, Agricultural - chemistry crystal proteins Endotoxins - toxicity field experimentation food chain Hemolysin Proteins - toxicity insecticidal proteins Insecticides - toxicity insects Invertebrates - drug effects Meta-Analysis Non-Target Effects nontarget organisms Pest Control, Biological - methods Pest Control, Biological - statistics & numerical data plant-incorporated protectants Plants, Genetically Modified - chemistry Risk Assessment Species Specificity Transgenic Crops transgenic plants tritrophic interactions
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creator	Duan, Jian J Lundgren, Jonathan G Naranjo, Steve Marvier, Michelle
description	The tiered approach to assessing ecological risk of insect-resistant transgenic crops assumes that lower tier laboratory studies, which expose surrogate non-target organisms to high doses of insecticidal proteins, can detect harmful effects that might be manifested in the field. To test this assumption, we performed meta-analyses comparing results for non-target invertebrates exposed to Bacillus thuringiensis (Bt) Cry proteins in laboratory studies with results derived from independent field studies examining effects on the abundance of non-target invertebrates. For Lepidopteran-active Cry proteins, laboratory studies correctly predicted the reduced field abundance of non-target Lepidoptera. However, laboratory studies incorporating tri-trophic interactions of Bt plants, herbivores and parasitoids were better correlated with the decreased field abundance of parasitoids than were direct-exposure assays. For predators, laboratory tri-trophic studies predicted reduced abundances that were not realized in field studies and thus overestimated ecological risk. Exposure to Coleopteran-active Cry proteins did not significantly reduce the laboratory survival or field abundance of any functional group examined. Our findings support the assumption that laboratory studies of transgenic insecticidal crops show effects that are either consistent with, or more conservative than, those found in field studies, with the important caveat that laboratory studies should explore all ecologically relevant routes of exposure.
doi_str_mv	10.1098/rsbl.2009.0612
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Lett</addtitle><addtitle>Biol. Lett</addtitle><description>The tiered approach to assessing ecological risk of insect-resistant transgenic crops assumes that lower tier laboratory studies, which expose surrogate non-target organisms to high doses of insecticidal proteins, can detect harmful effects that might be manifested in the field. To test this assumption, we performed meta-analyses comparing results for non-target invertebrates exposed to Bacillus thuringiensis (Bt) Cry proteins in laboratory studies with results derived from independent field studies examining effects on the abundance of non-target invertebrates. For Lepidopteran-active Cry proteins, laboratory studies correctly predicted the reduced field abundance of non-target Lepidoptera. However, laboratory studies incorporating tri-trophic interactions of Bt plants, herbivores and parasitoids were better correlated with the decreased field abundance of parasitoids than were direct-exposure assays. 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subjects	Animals Bacillus thuringiensis Bacterial Proteins - toxicity bacterial toxins Bt crops Community Ecology Crops Crops, Agricultural - chemistry crystal proteins Endotoxins - toxicity field experimentation food chain Hemolysin Proteins - toxicity insecticidal proteins Insecticides - toxicity insects Invertebrates - drug effects Meta-Analysis Non-Target Effects nontarget organisms Pest Control, Biological - methods Pest Control, Biological - statistics & numerical data plant-incorporated protectants Plants, Genetically Modified - chemistry Risk Assessment Species Specificity Transgenic Crops transgenic plants tritrophic interactions
title	Extrapolating non-target risk of Bt crops from laboratory to field
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