Biogeographic vulnerability to ocean acidification and warming in a marine bivalve

Anthropogenic CO2 emissions are rapidly changing seawater temperature, pH and carbonate chemistry. This study compares the embryonic development under high pCO(2) conditions across the south-north distribution range of the marine clam Limecola balthica in NW Europe. The combined effects of elevated...

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Bibliographic Details
Published in:Marine Pollution Bulletin
Main Authors: Colen C, Van, Jansson, Anna, Saunier, A, Lacoue-Labathe, T, Vincx, M
Format: Article in Journal/Newspaper
Language:unknown
Published: 2018
Subjects:
Ocean acidification
Sea surface temperature rise
Mollusks
Embryogenesis
Limecola (Macoma) balthica
biogeography
Online Access:https://research.abo.fi/en/publications/4e9597ec-aa84-4398-b009-8f8703fabd45
https://doi.org/10.1016/j.marpolbul.2017.10.092
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Summary:Anthropogenic CO2 emissions are rapidly changing seawater temperature, pH and carbonate chemistry. This study compares the embryonic development under high pCO(2) conditions across the south-north distribution range of the marine clam Limecola balthica in NW Europe. The combined effects of elevated temperature and reduced pH on hatching success and size varied strongly between the three studied populations, with the Gulf of Finland population appearing most endangered under the conditions predicted to occur by 2100. These results demonstrate that the assessment of marine faunal population persistence to future climatic conditions needs to consider the interactive effects of co-occurring physico-chemical alterations in seawater within the local context that determines population fitness, adaptation potential and the system resilience to environmental change.

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