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Morphological plasticity of the coral skeleton under CO2-driven seawater acidification

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  • E. Tambutté

    (Centre Scientifique de Monaco, 8 Quai Antoine 1er
    Laboratoire Européen Associé 647 « BIOSENSIB », Centre Scientifique de Monaco- Centre National de la Recherche Scientifique, 8 Quai Antoine 1er)

  • A. A. Venn

    (Centre Scientifique de Monaco, 8 Quai Antoine 1er
    Laboratoire Européen Associé 647 « BIOSENSIB », Centre Scientifique de Monaco- Centre National de la Recherche Scientifique, 8 Quai Antoine 1er)

  • M. Holcomb

    (Centre Scientifique de Monaco, 8 Quai Antoine 1er
    Present address: ARC Centre of Excellence in Coral Reef Studies, School of Earth and Environment & Oceans Institute, The University of Western Australia, Crawley, WA 6009, Australia)

  • N. Segonds

    (Centre Scientifique de Monaco, 8 Quai Antoine 1er
    Laboratoire Européen Associé 647 « BIOSENSIB », Centre Scientifique de Monaco- Centre National de la Recherche Scientifique, 8 Quai Antoine 1er)

  • N. Techer

    (Centre Scientifique de Monaco, 8 Quai Antoine 1er
    Laboratoire Européen Associé 647 « BIOSENSIB », Centre Scientifique de Monaco- Centre National de la Recherche Scientifique, 8 Quai Antoine 1er)

  • D. Zoccola

    (Centre Scientifique de Monaco, 8 Quai Antoine 1er
    Laboratoire Européen Associé 647 « BIOSENSIB », Centre Scientifique de Monaco- Centre National de la Recherche Scientifique, 8 Quai Antoine 1er)

  • D. Allemand

    (Centre Scientifique de Monaco, 8 Quai Antoine 1er
    Laboratoire Européen Associé 647 « BIOSENSIB », Centre Scientifique de Monaco- Centre National de la Recherche Scientifique, 8 Quai Antoine 1er)

  • S. Tambutté

    (Centre Scientifique de Monaco, 8 Quai Antoine 1er
    Laboratoire Européen Associé 647 « BIOSENSIB », Centre Scientifique de Monaco- Centre National de la Recherche Scientifique, 8 Quai Antoine 1er)

Abstract

Ocean acidification causes corals to calcify at reduced rates, but current understanding of the underlying processes is limited. Here, we conduct a mechanistic study into how seawater acidification alters skeletal growth of the coral Stylophora pistillata. Reductions in colony calcification rates are manifested as increases in skeletal porosity at lower pH, while linear extension of skeletons remains unchanged. Inspection of the microstructure of skeletons and measurements of pH at the site of calcification indicate that dissolution is not responsible for changes in skeletal porosity. Instead, changes occur by enlargement of corallite-calyxes and thinning of associated skeletal elements, constituting a modification in skeleton architecture. We also detect increases in the organic matrix protein content of skeletons formed under lower pH. Overall, our study reveals that seawater acidification not only causes decreases in calcification, but can also cause morphological change of the coral skeleton to a more porous and potentially fragile phenotype.

Suggested Citation

  • E. Tambutté & A. A. Venn & M. Holcomb & N. Segonds & N. Techer & D. Zoccola & D. Allemand & S. Tambutté, 2015. "Morphological plasticity of the coral skeleton under CO2-driven seawater acidification," Nature Communications, Nature, vol. 6(1), pages 1-9, November.
    • Handle: RePEc:nat:natcom:v:6:y:2015:i:1:d:10.1038_ncomms8368
    DOI: 10.1038/ncomms8368
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