Does the growing of Bt maize change abundance or ecological function of non-target animals compared to the growing of non-GM maize? A systematic review.

IF 4.3 3区 材料科学 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC ACS Applied Electronic Materials Pub Date : 2022-06-06 DOI:10.1186/s13750-022-00272-0
Michael Meissle, Steven E Naranjo, Jörg Romeis
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Abstract

Background: Hundreds of studies on environmental effects of genetically modified (GM) crops became available over the past 25 years. For maize producing insecticidal proteins from Bacillus thuringiensis (Bt), potential adverse effects on non-target organisms are a major area of concern and addressed in risk assessments. Reviews and meta-analyses have helped various stakeholders to address uncertainties regarding environmental impacts of the technology. Many field studies from Europe and other parts of the world have been published in the last decade, and those data are often not covered by previous meta-analyses. Therefore, we conducted a systematic review to answer the question: "Does the growing of Bt maize change abundance or ecological function of non-target animals compared to the growing of non-GM maize?"

Methods: Literature published until August 2019 was searched systematically in 12 bibliographic databases, 17 specialized webpages, and reference sections of 78 review articles. Defined eligibility criteria were applied to screen titles, abstracts, and full texts of the retrieved references. A custom-made database was developed with quantitative data on invertebrate abundance, activity density, or predation/parasitism rates. Eligible data that did not fit the quantitative database were captured in detailed tables and summarized narratively. For the first time, a critical appraisal scheme for field studies on non-targets in GM crops was developed to estimate the risk of bias (internal validity) and the suitability to answer the review question (external validity) of all primary data. Meta-analyses on different taxonomic levels, functional groups, and types of Bt maize were conducted. Untreated Bt maize was either compared with untreated non-Bt maize, or with insecticide-treated non-Bt maize. The influence of contributions by private sector product developers on reported effects was investigated.

Review findings: The database on non-target effects of Bt maize field trials contains more than 7200 records from 233 experiments and 120 articles. Meta-analyses on different taxonomic levels revealed only few and often non-robust significant effect sizes when both Bt maize and non-Bt maize were untreated. Bt maize harboured fewer parasitoids (Braconidae, Tachinidae) of the European corn borer, the main target pest of Lepidoptera-active Bt maize, compared with non-Bt maize. Similarly, sap beetles (Nitidulidae), that are associated with Lepidoptera damage, were recorded less in Bt maize. In some analyses, a negative effect of Bt maize was observed for rove beetles (Staphylinidae) and hoverflies (Syrphidae) and a positive effect for ladybeetles (Coccinellidae), flower bugs (Anthocoridae), and lacewings (Neuroptera). However, those effects were not consistent for different analyses and often related to individual articles. When untreated Bt maize was compared with pyrethroid-treated non-Bt maize, more effect sizes were significant. In particular, populations of predators were reduced after pyrethroid treatment, while few data were available for other insecticides. Funnel plots showed no evidence for publication bias and the analyses of private sector contribution revealed no evidence for influence of vested interests. Conclusions about potential effects of Bt maize on vertebrates or on animals inhabiting off-crop habitats were not possible, because only few such studies fitting the format of direct Bt/non-Bt comparisons on plot or field level were identified.

Conclusions: The current work largely confirmed previously published results. The effects of Bt maize on the community of non-target invertebrates inhabiting maize fields were small and mostly neutral, especially when compared with the effects of broad-spectrum pyrethroid insecticide treatments.

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与种植非转基因玉米相比,种植Bt玉米是否改变了非靶动物的丰度或生态功能?系统回顾
背景:在过去的 25 年中,已有数百项关于转基因作物对环境影响的研究。对于生产苏云金芽孢杆菌(Bt)杀虫蛋白的玉米来说,对非目标生物的潜在不利影响是一个主要的关注领域,并在风险评估中得到了解决。审查和荟萃分析有助于各利益相关方解决该技术对环境影响的不确定性。过去十年间,欧洲和世界其他地区发表了许多实地研究报告,而这些数据往往不在以往的荟萃分析范围内。因此,我们进行了一项系统综述来回答这个问题:"与种植非转基因玉米相比,种植 Bt 玉米是否会改变非目标动物的数量或生态功能?在 12 个书目数据库、17 个专业网页和 78 篇综述文章的参考文献部分系统检索了截至 2019 年 8 月发表的文献。在筛选检索到的参考文献的标题、摘要和全文时,采用了定义的资格标准。根据无脊椎动物的丰度、活动密度或捕食/寄生率等定量数据开发了一个定制数据库。对于不符合定量数据库的合格数据,则以详细表格的形式记录下来,并进行叙述性总结。首次针对转基因作物中的非目标物田间研究制定了关键评估方案,以估计所有原始数据的偏差风险(内部有效性)和回答综述问题的适宜性(外部有效性)。对不同分类水平、功能组和 Bt 玉米类型进行了元分析。未经处理的 Bt 玉米与未经处理的非 Bt 玉米进行了比较,或与经过杀虫剂处理的非 Bt 玉米进行了比较。研究还调查了私营部门产品开发商的贡献对报告效果的影响:Bt 玉米田间试验的非目标效应数据库包含来自 233 项试验和 120 篇文章的 7200 多条记录。对不同分类水平进行的元分析表明,当 Bt 玉米和非 Bt 玉米均未处理时,只有很少且往往不稳定的显著效应大小。与非 Bt 玉米相比,Bt 玉米寄生的欧洲玉米螟(鳞翅目活性 Bt 玉米的主要目标害虫)的寄生虫(蛙科、蛛科)较少。同样,与鳞翅目害虫有关的汁液甲虫(Nitidulidae)在 Bt 玉米中的记录也较少。在一些分析中,观察到 Bt 玉米对菜青虫(Staphylinidae)和食蚜蝇(Syrphidae)有负面影响,而对瓢虫(Coccinellidae)、花蝽(Anthocoridae)和草蜻蛉(Neuroptera)有正面影响。不过,这些影响在不同的分析中并不一致,而且往往与个别文章有关。当未经处理的 Bt 玉米与经过除虫菊酯处理的非 Bt 玉米进行比较时,更多的效应大小是显著的。特别是,除虫菊酯处理后天敌数量减少,而其他杀虫剂的数据很少。漏斗图显示没有证据表明存在出版偏差,对私营部门贡献的分析也没有发现既得利益影响的证据。关于 Bt 玉米对脊椎动物或栖息在非作物生境中的动物的潜在影响,目前还无法得出结论,因为符合在地块或田间进行 Bt 与非 Bt 直接比较的此类研究为数不多:目前的工作在很大程度上证实了之前公布的结果。Bt 玉米对栖息在玉米田里的非目标无脊椎动物群落的影响很小,而且大多是中性的,尤其是与广谱拟除虫菊酯杀虫剂的影响相比。
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