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Microplastics increases the heat tolerance of Daphnia magna under global warming via hormetic effects

Mengjie Chang, Mingyang Li, Wencheng Xu, Xin Li, Jian Liu, Robby Stoks, Chao Zhang

2022Ecotoxicology and Environmental Safety24 citationsDOIOpen Access PDF

Abstract

The ecological risk assessment of microplastics under global warming receives increasing attention. Yet, such studies mostly focused on increased mean temperatures (MT), ignoring another key component of global warming, namely daily temperature fluctuations (DTF). Moreover, we know next to nothing about the combined effects of multigenerational exposure to microplastics and warming. In this study, Daphnia magna was exposed to an environmentally relevant concentration of polystyrene microplastics (5 μg L−1) under six thermal conditions (MT: 20 ℃, 24 ℃; DTF: 0 ℃, 5 ℃, 10 ℃) over two generations to investigate the interactive effects of microplastics and global warming. Results showed that microplastics had no effects on Daphnia at standard thermal conditions (constant 20 °C). Yet, microplastics increased the fecundity, heat tolerance, amount of energy storage, net energy budget and cytochrome P450 activity, and decreased the energy consumption when tested under an increased MT or DTF, indicating a hormesis effect induced by microplastics under warming. The unexpected increase in heat tolerance upon exposure to microplastics could be partly explained by the reduced energy consumption and/or increased energy availability. Overall, the present study highlighted the importance of including DTF and multigenerational exposure to improve the ecological risk assessment of microplastics under global warming.

Topics & Concepts

MicroplasticsGlobal warmingDaphnia magnaEnvironmental scienceFecundityDaphniaEnvironmental chemistryEcologyBiologyClimate changeChemistryToxicityZooplanktonEnvironmental healthPopulationOrganic chemistryMedicineMicroplastics and Plastic PollutionNanoparticles: synthesis and applicationsEnvironmental Toxicology and Ecotoxicology