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Regional adaptation defines sensitivity to future ocean acidification

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  • Piero Calosi

    (Université du Québec à Rimouski
    Marine Biology & Ecology Research Centre, School of Marine Science and Engineering, Plymouth University, Drake Circus)

  • Sedercor Melatunan

    (Marine Biology & Ecology Research Centre, School of Marine Science and Engineering, Plymouth University, Drake Circus
    Faculty of Fisheries and Marine Science, University of Pattimura, Kampus Poka)

  • Lucy M. Turner

    (Marine Biology & Ecology Research Centre, School of Marine Science and Engineering, Plymouth University, Drake Circus
    University of Gothenburg)

  • Yuri Artioli

    (Plymouth Marine Laboratory, Prospect Place, West Hoe)

  • Robert L. Davidson

    (NERC Biomolecular Analysis Facility-Metabolomics Node (NBAF-B), University of Birmingham)

  • Jonathan J. Byrne

    (NERC Biomolecular Analysis Facility-Metabolomics Node (NBAF-B), University of Birmingham)

  • Mark R. Viant

    (NERC Biomolecular Analysis Facility-Metabolomics Node (NBAF-B), University of Birmingham
    School of Biosciences, University of Birmingham)

  • Stephen Widdicombe

    (Plymouth Marine Laboratory, Prospect Place, West Hoe)

  • Simon D. Rundle

    (Marine Biology & Ecology Research Centre, School of Marine Science and Engineering, Plymouth University, Drake Circus)

Abstract

Physiological responses to temperature are known to be a major determinant of species distributions and can dictate the sensitivity of populations to global warming. In contrast, little is known about how other major global change drivers, such as ocean acidification (OA), will shape species distributions in the future. Here, by integrating population genetics with experimental data for growth and mineralization, physiology and metabolomics, we demonstrate that the sensitivity of populations of the gastropod Littorina littorea to future OA is shaped by regional adaptation. Individuals from populations towards the edges of the natural latitudinal range in the Northeast Atlantic exhibit greater shell dissolution and the inability to upregulate their metabolism when exposed to low pH, thus appearing most sensitive to low seawater pH. Our results suggest that future levels of OA could mediate temperature-driven shifts in species distributions, thereby influencing future biogeography and the functioning of marine ecosystems.

Suggested Citation

  • Piero Calosi & Sedercor Melatunan & Lucy M. Turner & Yuri Artioli & Robert L. Davidson & Jonathan J. Byrne & Mark R. Viant & Stephen Widdicombe & Simon D. Rundle, 2017. "Regional adaptation defines sensitivity to future ocean acidification," Nature Communications, Nature, vol. 8(1), pages 1-10, April.
    • Handle: RePEc:nat:natcom:v:8:y:2017:i:1:d:10.1038_ncomms13994
    DOI: 10.1038/ncomms13994
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