新烟碱类杀虫剂与麦角甾醇生物合成抑制性杀菌剂对三种蜜蜂的协同致死作用

Synergistic mortality between a neonicotinoid insecticide and an ergosterol-biosynthesis-inhibiting fungicide in three bee species.

作者信息

Sgolastra Fabio, Medrzycki Piotr, Bortolotti Laura, Renzi Maria Teresa, Tosi Simone, Bogo Gherardo, Teper Dariusz, Porrini Claudio, Molowny-Horas Roberto, Bosch Jordi

机构信息

Dipartimento di Scienze Agrarie, Università di Bologna, Bologna, Italy.

CREA-API, Consiglio per la Ricerca in Agricoltura e l'Analisi dell'Economia Agraria, Unità di Ricerca in Apicoltura e Bachicoltura, Bologna, Italy.

出版信息

Pest Manag Sci. 2017 Jun;73(6):1236-1243. doi: 10.1002/ps.4449. Epub 2016 Nov 29.

DOI:10.1002/ps.4449

PMID:27685544

Abstract

BACKGROUND

Neonicotinoid insecticides have been identified as an important factor contributing to bee diversity declines. Nonetheless, uncertainties remain about their impact under field conditions. Most studies have been conducted on Apis mellifera and tested single compounds. However, in agricultural environments, bees are often exposed to multiple pesticides. We explore the synergistic mortality between a neonicotinoid (clothianidin) and an ergosterol-biosynthesis-inhibiting fungicide (propiconazole) in three bee species (A. mellifera, Bombus terrestris, Osmia bicornis) following oral exposure in the laboratory.

RESULTS

We developed a new approach based on the binomial proportion test to analyse synergistic interactions. We estimated uptake of clothianidin per foraging bout in honey bees foraging on seed-coated rapeseed fields. We found significant synergistic mortality in all three bee species exposed to non-lethal doses of propiconazole and their respective LD of clothianidin. Significant synergism was only found at the first assessment times in A. mellifera (4 and 24 h) and B. terrestris (4 h), but persisted throughout the experiment (96 h) in O. bicornis. O. bicornis was also the most sensitive species to clothianidin.

CONCLUSION

Our results underscore the importance to test pesticide combinations likely to occur in agricultural environments, and to include several bee species in environmental risk assessment schemes. © 2016 Society of Chemical Industry.

摘要

背景

新烟碱类杀虫剂已被确认为导致蜜蜂多样性下降的一个重要因素。尽管如此，其在田间条件下的影响仍存在不确定性。大多数研究针对西方蜜蜂进行，且测试的是单一化合物。然而，在农业环境中，蜜蜂常常会接触到多种农药。我们在实验室中对三种蜜蜂（西方蜜蜂、熊蜂、角额壁蜂）进行口服暴露试验，探究了一种新烟碱类杀虫剂（噻虫胺）与一种抑制麦角固醇生物合成的杀菌剂（丙环唑）之间的协同致死作用。

结果

我们开发了一种基于二项比例检验的新方法来分析协同相互作用。我们估算了在播种有包衣种子的油菜田觅食的蜜蜂每次觅食活动中噻虫胺的摄入量。我们发现，在所有三种接触了非致死剂量丙环唑及其各自噻虫胺半数致死剂量的蜜蜂中，均出现了显著的协同致死现象。仅在西方蜜蜂（4小时和24小时）和熊蜂（4小时）的首次评估时间发现了显著的协同作用，但在角额壁蜂整个实验过程（96小时）中这种协同作用一直存在。角额壁蜂也是对噻虫胺最敏感的物种。

结论

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新烟碱类杀虫剂与麦角甾醇生物合成抑制性杀菌剂对三种蜜蜂的协同致死作用

Synergistic mortality between a neonicotinoid insecticide and an ergosterol-biosynthesis-inhibiting fungicide in three bee species.

作者信息

机构信息

出版信息

BACKGROUND

RESULTS

CONCLUSION

背景

结果

结论

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