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Assessing the impact of elevated pCO2 within and across generations in a highly invasive fouling mussel (Musculista senhousia).

Authors :
Zhao, Liqiang
Liu, Baozhan
An, Wei
Deng, Yuewen
Lu, Yanan
Liu, Bingxin
Wang, Li
Cong, Yuting
Sun, Xin
Source :
Science of the Total Environment. Nov2019, Vol. 689, p322-331. 10p.
Publication Year :
2019

Abstract

Marine biofouling by the swiftly spreading invasive mussel (Musculista senhousia) has caused serious ecological and economic consequences in the global coastal waters. However, the fate of this highly invasive fouling species in a rapidly acidifying ocean remains unknown. Here, we demonstrated the impacts of ocean acidification within and across generations, to understand whether M. senhousia has the capacity to acclimate to changing ocean conditions. During the gonadal development, exposure of mussels to elevated p CO 2 caused significant decreases of survival, growth performance and condition index, and shifted the whole-organism energy budget by inflating energy expenses to fuel compensatory processes, eventually impairing the success of spawning. Yet, rapid transgenerational acclimation occurred during the early life history stage and persisted into adulthood. Eggs spawned from CO 2 -exposed mussels were significantly bigger compared with those from non-CO 2 -exposed mussels, indicating increased maternal provisioning into eggs and hence conferring larvae resilience under harsh conditions. Larvae with a prior history of transgenerational exposure to elevated p CO 2 developed faster and had a higher survival than those with no prior history of CO 2 exposure. Transgenerational exposure significantly increased the number of larvae completing metamorphosis. While significant differences in shell growth were no longer observed during juvenile nursery and adult grow-out, transgenerationally exposed mussels displayed improved survival in comparison to non-transgenerationally exposed mussels. Metabolic plasticity arose following transgenerational acclimation, generating more energy available for fitness-related functions. Overall, the present study demonstrates the remarkable ability of M. senhousia to respond plastically and acclimate rapidly to changing ocean conditions. Unlabelled Image • Asian date mussels are sensitive to elevated p CO 2 during gonadal ripening. • Transgenerational phenotypic plasticity occurred through all life history stages. • Maternal provisioning and metabolic adaptation serve as key mechanisms. • Mussels hold the great ability to rapidly adapt to changing ocean conditions. [ABSTRACT FROM AUTHOR]

Details

Language :
English
ISSN :
00489697
Volume :
689
Database :
Academic Search Index
Journal :
Science of the Total Environment
Publication Type :
Academic Journal
Accession number :
138181970
Full Text :
https://doi.org/10.1016/j.scitotenv.2019.06.466