Center for Fisheries, Aquaculture and Aquatic Sciences and Department of Zoology, Southern Illinois University, Carbondale, IL 62901, USA.
Biology and Environmental Studies, Alma College, Alma, MI 48801, USA.
Environ Pollut. 2017 Jan;220(Pt A):375-382. doi: 10.1016/j.envpol.2016.09.073. Epub 2016 Oct 15.
The recent discovery of pyrethroid-resistant Hyalella azteca populations in California, USA suggests there has been significant exposure of aquatic organisms to these terrestrially-applied insecticides. Since resistant organisms are able to survive in relatively contaminated habitats they may experience greater pyrethroid bioaccumulation, subsequently increasing the risk of those compounds transferring to predators. These issues were evaluated in the current study following toxicity tests in water with permethrin which showed the 96-h LC50 of resistant H. azteca (1670 ng L) was 53 times higher than that of non-resistant H. azteca (31.2 ng L). Bioaccumulation was compared between resistant and non-resistant H. azteca by exposing both populations to permethrin in water and then measuring the tissue concentrations attained. Our results indicate that resistant and non-resistant H. azteca have similar potential to bioaccumulate pyrethroids at the same exposure concentration. However, significantly greater bioaccumulation occurs in resistant H. azteca at exposure concentrations non-resistant organisms cannot survive. To assess the risk of pyrethroid trophic transfer, permethrin-dosed resistant H. azteca were fed to fathead minnows (Pimephales promelas) for four days, after which bioaccumulation of permethrin and its biotransformation products in fish tissues were measured. There were detectable concentrations of permethrin in fish tissues after they consumed dosed resistant H. azteca. These results show that bioaccumulation potential is greater in organisms with pyrethroid resistance and this increases the risk of trophic transfer when consumed by a predator. The implications of this study extend to individual fitness, populations and food webs.
最近在美国加利福尼亚州发现了对拟除虫菊酯具有抗性的海螯虾种群,这表明水生生物已经受到了这些在陆地上应用的杀虫剂的大量暴露。由于具有抗性的生物能够在相对受污染的栖息地中生存,它们可能会经历更大的拟除虫菊酯生物积累,从而增加这些化合物转移到捕食者的风险。在本研究中,我们在水中进行了氯菊酯毒性测试,发现抗性海螯虾的 96 小时 LC50(1670ng/L)是无抗性海螯虾的 53 倍(31.2ng/L),从而评估了这些问题。通过将两种种群暴露于水中的氯菊酯中,然后测量达到的组织浓度,比较了抗性和非抗性海螯虾之间的生物积累情况。我们的结果表明,在相同的暴露浓度下,抗性和非抗性海螯虾具有相似的积累拟除虫菊酯的潜力。但是,在非抗性生物无法生存的暴露浓度下,抗性海螯虾的生物积累量显著增加。为了评估拟除虫菊酯营养转移的风险,将经过氯菊酯处理的抗性海螯虾喂给食蚊鱼(Pimephales promelas)四天,然后测量鱼类组织中氯菊酯及其生物转化产物的生物积累情况。在它们食用经过处理的抗性海螯虾后,在鱼类组织中检测到了氯菊酯的浓度。这些结果表明,具有拟除虫菊酯抗性的生物的生物积累潜力更大,当被捕食者消耗时,营养转移的风险就会增加。本研究的意义不仅限于个体的适应性、种群和食物网。
