Effects of water temperature on development and heavy metal toxicity change in two midge species of C hironomus riparius and C . yoshimatsui in an era of rapid climate change

Climate change is the most significant stressor that is anticipated increasingly to affect human and global ecosystems. Arthropods, including insects, are particularly vulnerable to global warming and this group is often used for various ecotoxicological tests. In addition, temperature is one of the...

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Published in:Entomological research 2013-03, Vol.43 (2), p.123-129
Main Authors: Mo, Hyoung‐ho, Yoo, DongHun, Bae, Yeon Jae, Cho, Kijong
Format: Article
Language:English
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Summary:Climate change is the most significant stressor that is anticipated increasingly to affect human and global ecosystems. Arthropods, including insects, are particularly vulnerable to global warming and this group is often used for various ecotoxicological tests. In addition, temperature is one of the most important toxicity‐modifying factors in ecotoxicology. Therefore, temperature dependent toxicological research is required to obtain ecologically relevant conclusions during the current era of rapid climate change. This study shows that two midge species ( C hironomus riparius   M eigen and C . yoshimatsui   M artin et   S ublette) exhibit different developmental characteristics and responses to cadmium and lead heavy metals with temperature. The former species is an internationally standardized test species in ecotoxicological studies, whereas the latter species is native to K orea. Hence, even though these two species belong to the same genus, C hironomus , their development differs with temperature, which leads to different responses to heavy metals. There was a decline in developmental time (from egg and larva to pupa) for both species with temperature; however, there was a species difference in the rate of decline. In the acute toxicity test, the 48‐hr LC 50 values for cadmium and lead decreased with temperature for both species. In the chronic toxicity test, emergence rates tended to decrease with temperature, except for when C . yoshimatsui was exposed to cadmium.
ISSN:1738-2297
1748-5967
DOI:10.1111/1748-5967.12014