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Coccolithophore calcification response to past ocean acidification and climate change

Coccolithophore calcification response to past ocean acidification and climate change
Coccolithophore calcification response to past ocean acidification and climate change
Anthropogenic carbon dioxide emissions are forcing rapid ocean chemistry changes and causing ocean acidification (OA), which is of particular significance for calcifying organisms, including planktonic coccolithophores. Detailed analysis of coccolithophore skeletons enables comparison of calcite production in modern and fossil cells in order to investigate biomineralization response of ancient coccolithophores to climate change. Here we show that the two dominant coccolithophore taxa across the Paleocene–Eocene Thermal Maximum (PETM) OA global warming event (~56 million years ago) exhibited morphological response to environmental change and both showed reduced calcification rates. However, only Coccolithus pelagicus exhibits a transient thinning of coccoliths, immediately before the PETM, that may have been OA-induced. Changing coccolith thickness may affect calcite production more significantly in the dominant modern species Emiliania huxleyi, but, overall, these PETM records indicate that the environmental factors that govern taxonomic composition and growth rate will most strongly influence coccolithophore calcification response to anthropogenic change.
2041-1723
O'Dea, Sarah A.
6bc213bd-399f-4028-9ce8-0f3f95f44046
Gibbs, Samantha
82dfbcbc-3a8a-40da-8a80-fe7ad83f3110
Brown, Paul R.
fc3c29e0-a660-46a0-95f7-cb2b28926379
Young, Jeremy R.
18d63549-d248-4012-91b1-64382581ef53
Poulton, Alex J
14bf64a7-d617-4913-b882-e8495543e717
Newsam, Cherry
306e3d91-87a1-44a0-afc5-71a9f7cf0e0d
Wilson, Paul
f940a9f0-fa5a-4a64-9061-f0794bfbf7c6
O'Dea, Sarah A.
6bc213bd-399f-4028-9ce8-0f3f95f44046
Gibbs, Samantha
82dfbcbc-3a8a-40da-8a80-fe7ad83f3110
Brown, Paul R.
fc3c29e0-a660-46a0-95f7-cb2b28926379
Young, Jeremy R.
18d63549-d248-4012-91b1-64382581ef53
Poulton, Alex J
14bf64a7-d617-4913-b882-e8495543e717
Newsam, Cherry
306e3d91-87a1-44a0-afc5-71a9f7cf0e0d
Wilson, Paul
f940a9f0-fa5a-4a64-9061-f0794bfbf7c6

O'Dea, Sarah A., Gibbs, Samantha, Brown, Paul R., Young, Jeremy R., Poulton, Alex J, Newsam, Cherry and Wilson, Paul (2014) Coccolithophore calcification response to past ocean acidification and climate change. Nature Communications, 5, [5363]. (doi:10.1038/ncomms6363).

Record type: Article

Abstract

Anthropogenic carbon dioxide emissions are forcing rapid ocean chemistry changes and causing ocean acidification (OA), which is of particular significance for calcifying organisms, including planktonic coccolithophores. Detailed analysis of coccolithophore skeletons enables comparison of calcite production in modern and fossil cells in order to investigate biomineralization response of ancient coccolithophores to climate change. Here we show that the two dominant coccolithophore taxa across the Paleocene–Eocene Thermal Maximum (PETM) OA global warming event (~56 million years ago) exhibited morphological response to environmental change and both showed reduced calcification rates. However, only Coccolithus pelagicus exhibits a transient thinning of coccoliths, immediately before the PETM, that may have been OA-induced. Changing coccolith thickness may affect calcite production more significantly in the dominant modern species Emiliania huxleyi, but, overall, these PETM records indicate that the environmental factors that govern taxonomic composition and growth rate will most strongly influence coccolithophore calcification response to anthropogenic change.

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Published date: 2014

Identifiers

Local EPrints ID: 468584
URI: http://eprints.soton.ac.uk/id/eprint/468584
DOI: doi:10.1038/ncomms6363
ISSN: 2041-1723
PURE UUID: 126d36f9-da85-41d2-986c-75a187a2f1ca
ORCID for Paul Wilson: ORCID iD orcid.org/0000-0001-6425-8906

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Date deposited: 18 Aug 2022 16:41
Last modified: 17 Mar 2024 02:50

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Contributors

Author: Sarah A. O'Dea
Author: Samantha Gibbs
Author: Paul R. Brown
Author: Jeremy R. Young
Author: Alex J Poulton
Author: Cherry Newsam
Author: Paul Wilson ORCID iD

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