在多应力环境中,非常规终点显示磺草酮对摇蚊的毒性高于常规终点

IF 4.1 2区 环境科学与生态学 Q1 MARINE & FRESHWATER BIOLOGY
Sofie B. Rasmussen , Thijs Bosker , S.Henrik Barmentlo , Olof Berglund , Martina G. Vijver
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引用次数: 0

摘要

越来越多的证据表明,标准毒性测试可能低估了神经毒性杀虫剂的环境风险。有人建议将运动性和流动性等行为终点作为标准测试终点的敏感性和生态相关性补充。在标准化测试中,化学品和额外压力源可能产生的交互影响通常会被忽视。因此,我们旨在研究同时暴露于环境应激源(温度升高和捕食提示)和烟碱乙酰胆碱受体(nAChR)调节型杀虫剂("磺草快")对一系列常规和非常规终点的影响。我们采用了一种多因素实验设计,其中包括三种应激源,即磺胺草醚(2.0-110 µg/L)、捕食风险(捕食线索的存在/不存在)和升高的温度(20 °C和23 °C),共产生了24种不同的处理条件。额外的胁迫因素并没有改变对磺胺草醚的敏感性。为了评估潜在的叠加效应,我们采用独立作用(IA)模型来预测对八个终点的影响,包括常规终点(生长、存活率、总出苗率和出苗时间)和非传统终点(成鱼大小、游泳能力和探索行为)。在常规终点方面,观察到的影响要么低于预期,要么完全符合 IA 模型的预测。相反,我们发现捕食线索和温度与磺胺草醚结合使用对成虫体型、幼虫探索能力和游泳行为的影响比预测的要大。然而,与非常规终点不同的是,没有任何常规终点检测到神经毒性杀虫剂与环境胁迫因素的交互作用。由于神经毒性杀虫剂的安全环境浓度取决于受试生物及其环境的具体情况,因此承认这些相互作用、增加生态毒理学测试系统的生态背景可能会促进环境风险分析和解释。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Non-conventional endpoints show higher sulfoxaflor toxicity to Chironomus riparius than conventional endpoints in a multistress environment

Evidence grows that standard toxicity testing might underestimate the environmental risk of neurotoxic insecticides. Behavioural endpoints such as locomotion and mobility have been suggested as sensitive and ecologically relevant additions to the standard tested endpoints. Possible interactive effects of chemicals and additional stressors are typically overlooked in standardised testing. Therefore, we aimed to investigate how concurrent exposure to environmental stressors (increased temperature and predation cues) and a nicotinic acetylcholine receptor (nAChR)-modulating insecticide (‘sulfoxaflor’) impact Chironomus riparius across a range of conventional and non-conventional endpoints. We used a multifactorial experimental design encompassing three stressors, sulfoxaflor (2.0–110 µg/L), predation risk (presence/absence of predatory cues), and elevated temperature (20 °C and 23 °C), yielding a total of 24 distinct treatment conditions. Additional stressors did not change the sensitivity of C. riparius to sulfoxaflor. To assess potential additive effects, we applied an Independent Action (IA) model to predict the impact on eight endpoints, including conventional endpoints (growth, survival, total emergence, and emergence time) and less conventional endpoints (the size of the adults, swimming abilities and exploration behaviour). For the conventional endpoints, observed effects were either lower than expected or well-predicted by the IA model. In contrast, we found greater than predicted effects of predation cues and temperature in combination with sulfoxaflor on adult size, larval exploration, and swimming behaviour. However, in contrast to the non-conventional endpoints, no conventional endpoints detected interactive effects of the neurotoxic insecticide and the environmental stressors. Acknowledging these interactions, increasing ecological context of ecotoxicological test systems may, therefore, advance environmental risk analysis and interpretation as the safe environmental concentrations of neurotoxic insecticides depend on the context of both the test organism and its environment.

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来源期刊
Aquatic Toxicology
Aquatic Toxicology 环境科学-毒理学
CiteScore
7.10
自引率
4.40%
发文量
250
审稿时长
56 days
期刊介绍: Aquatic Toxicology publishes significant contributions that increase the understanding of the impact of harmful substances (including natural and synthetic chemicals) on aquatic organisms and ecosystems. Aquatic Toxicology considers both laboratory and field studies with a focus on marine/ freshwater environments. We strive to attract high quality original scientific papers, critical reviews and expert opinion papers in the following areas: Effects of harmful substances on molecular, cellular, sub-organismal, organismal, population, community, and ecosystem level; Toxic Mechanisms; Genetic disturbances, transgenerational effects, behavioral and adaptive responses; Impacts of harmful substances on structure, function of and services provided by aquatic ecosystems; Mixture toxicity assessment; Statistical approaches to predict exposure to and hazards of contaminants The journal also considers manuscripts in other areas, such as the development of innovative concepts, approaches, and methodologies, which promote the wider application of toxicological datasets to the protection of aquatic environments and inform ecological risk assessments and decision making by relevant authorities.
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