Alleviation of mercury toxicity to a marine copepod under multigenerational exposure by ocean acidification

Alleviation of mercury toxicity to a marine copepod under multigenerational exposure by ocean acidification

Abstract Ocean acidification (OA) may potentially modify the responses of aquatic organisms to other environmental stressors including metals. In this study, we investigated the effects of near-future OA (pCO2 1000 μatm) and mercury (Hg) on the development and reproduction of marine copepod Tigriopu...

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Main Authors: Yan Li, Wen-Xiong Wang, Minghua Wang
Format: Article
Language:English
Published: Nature Publishing Group 2017-03-01
Series:Scientific Reports
Online Access:https://doi.org/10.1038/s41598-017-00423-1
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spelling doaj-fa9b3c7920734deb9a072e93d80386862020-12-08T02:55:41ZengNature Publishing GroupScientific Reports2045-23222017-03-01711910.1038/s41598-017-00423-1Alleviation of mercury toxicity to a marine copepod under multigenerational exposure by ocean acidificationYan Li0Wen-Xiong Wang1Minghua Wang2Center for Marine Environmental Chemistry and Toxicology, College of the Environment & Ecology, Xiamen UniversityKey Laboratory of the Ministry of Education for Coastal and Wetland Ecosystems, Xiamen UniversityCenter for Marine Environmental Chemistry and Toxicology, College of the Environment & Ecology, Xiamen UniversityAbstract Ocean acidification (OA) may potentially modify the responses of aquatic organisms to other environmental stressors including metals. In this study, we investigated the effects of near-future OA (pCO2 1000 μatm) and mercury (Hg) on the development and reproduction of marine copepod Tigriopus japonicus under multigenerational life-cycle exposure. Metal accumulation as well as seven life history traits (survival rate, sex ratio, developmental time from nauplius to copepodite, developmental time from nauplius to adult, number of clutches, number of nauplii/clutch and fecundity) was quantified for each generation. Hg exposure alone evidently suppressed the number of nauplii/clutch, whereas single OA exposure negligibly affected the seven traits of copepods. However, OA exposure significantly alleviated the Hg inhibitory effects on number of nauplii/clutch and fecundity, which could be explained by the reduced Hg accumulation under OA. Such combined exposure also significantly shortened the development time. Thus, in contrast to earlier findings for other toxic metals, this study demonstrated that OA potentially mitigated the Hg toxicity to some important life traits in marine copepods during multigenerational exposure.https://doi.org/10.1038/s41598-017-00423-1
collection DOAJ
language English
format Article
sources DOAJ
author Yan Li
Wen-Xiong Wang
Minghua Wang
spellingShingle Yan Li
Wen-Xiong Wang
Minghua Wang
Alleviation of mercury toxicity to a marine copepod under multigenerational exposure by ocean acidification
Scientific Reports
author_facet Yan Li
Wen-Xiong Wang
Minghua Wang
author_sort Yan Li
title Alleviation of mercury toxicity to a marine copepod under multigenerational exposure by ocean acidification
title_short Alleviation of mercury toxicity to a marine copepod under multigenerational exposure by ocean acidification
title_full Alleviation of mercury toxicity to a marine copepod under multigenerational exposure by ocean acidification
title_fullStr Alleviation of mercury toxicity to a marine copepod under multigenerational exposure by ocean acidification
title_full_unstemmed Alleviation of mercury toxicity to a marine copepod under multigenerational exposure by ocean acidification
title_sort alleviation of mercury toxicity to a marine copepod under multigenerational exposure by ocean acidification
publisher Nature Publishing Group
series Scientific Reports
issn 2045-2322
publishDate 2017-03-01
description Abstract Ocean acidification (OA) may potentially modify the responses of aquatic organisms to other environmental stressors including metals. In this study, we investigated the effects of near-future OA (pCO2 1000 μatm) and mercury (Hg) on the development and reproduction of marine copepod Tigriopus japonicus under multigenerational life-cycle exposure. Metal accumulation as well as seven life history traits (survival rate, sex ratio, developmental time from nauplius to copepodite, developmental time from nauplius to adult, number of clutches, number of nauplii/clutch and fecundity) was quantified for each generation. Hg exposure alone evidently suppressed the number of nauplii/clutch, whereas single OA exposure negligibly affected the seven traits of copepods. However, OA exposure significantly alleviated the Hg inhibitory effects on number of nauplii/clutch and fecundity, which could be explained by the reduced Hg accumulation under OA. Such combined exposure also significantly shortened the development time. Thus, in contrast to earlier findings for other toxic metals, this study demonstrated that OA potentially mitigated the Hg toxicity to some important life traits in marine copepods during multigenerational exposure.
url https://doi.org/10.1038/s41598-017-00423-1
work_keys_str_mv AT yanli alleviationofmercurytoxicitytoamarinecopepodundermultigenerationalexposurebyoceanacidification
AT wenxiongwang alleviationofmercurytoxicitytoamarinecopepodundermultigenerationalexposurebyoceanacidification
AT minghuawang alleviationofmercurytoxicitytoamarinecopepodundermultigenerationalexposurebyoceanacidification
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