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昆虫、杀虫剂和激效:研究的证据和考虑因素。

Insects, insecticides and hormesis: evidence and considerations for study.

机构信息

Nova Scotia Agricultural College.

出版信息

Dose Response. 2012 Mar 30;11(2):154-77. doi: 10.2203/dose-response.12-008.Cutler. Print 2013.

DOI:10.2203/dose-response.12-008.Cutler
PMID:23930099
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3682195/
Abstract

Insects are ubiquitous, crucial components of almost all terrestrial and fresh water ecosystems. In agricultural settings they are subjected to, intentionally or unintentionally, an array of synthetic pesticides and other chemical stressors. These ecological underpinnings, the amenability of insects to laboratory and field experiments, and our strong knowledgebase in insecticide toxicology, make the insect-insecticide model an excellent one to study many questions surrounding hormesis. Moreover, there is practical importance for agriculture with evidence of pest population growth being accelerated by insecticide hormesis. Nevertheless, insects have been underutilized in studies of hormesis. Where hormesis hypotheses have been tested, results clearly demonstrate stimulatory effects on multiple taxa as measured through several biological endpoints, both at individual and population levels. However, many basic questions are outstanding given the myriad of chemicals, responses, and ecological interactions that are likely to occur.

摘要

昆虫无处不在,是几乎所有陆地和淡水生态系统的关键组成部分。在农业环境中,昆虫会受到各种合成农药和其他化学应激源的有意或无意的影响。这些生态基础、昆虫对实验室和野外实验的适应性以及我们在杀虫剂毒理学方面的坚实知识库,使得昆虫-杀虫剂模型成为研究许多与毒物兴奋效应相关问题的绝佳模型。此外,对于农业来说,杀虫剂毒物兴奋效应加速害虫种群增长的证据具有实际意义。然而,在毒物兴奋效应的研究中,昆虫的应用还不够充分。在已经测试了毒物兴奋效应假设的地方,结果清楚地表明,通过多种生物终点,在个体和种群水平上,对多个分类群都有刺激作用。然而,鉴于可能发生的众多化学物质、反应和生态相互作用,仍有许多基本问题悬而未决。

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