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2003Suppression of skeletal growth in scleractinian corals by decreasing ambient carbonate-ion concentration: a cross-family comparisonProc. R. Soc. Lond. B.270179–184http://doi.org/10.1098/rspb.2002.2212

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Suppression of skeletal growth in scleractinian corals by decreasing ambient carbonate-ion concentration: a cross-family comparison

Francesca Marubini

Centre Scientifique de Monaco, Avenue Saint–Martin, MC–98000 Monaco, Principality of Monaco

[email protected]

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Christine Ferrier–Pages

Centre Scientifique de Monaco, Avenue Saint–Martin, MC–98000 Monaco, Principality of Monaco

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Jean–Pierre Cuif

Laboratoire de Géologie, UniversitéParis XI, Orsay, F–91405 Orsay Cedex, France

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Francesca Marubini

Centre Scientifique de Monaco, Avenue Saint–Martin, MC–98000 Monaco, Principality of Monaco

[email protected]

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Christine Ferrier–Pages

Centre Scientifique de Monaco, Avenue Saint–Martin, MC–98000 Monaco, Principality of Monaco

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Jean–Pierre Cuif

Laboratoire de Géologie, UniversitéParis XI, Orsay, F–91405 Orsay Cedex, France

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Published:22 January 2003https://doi.org/10.1098/rspb.2002.2212

Abstract

Biogenic calcification is influenced by the concentration of available carbonate ions. The recent confirmation of this for hermatypic corals has raised concern over the future of coral reefs because [CO₃²⁻] is a decreasing function of increasing pCO₂ in the atmosphere. As one of the overriding features of coral reefs is their diversity, understanding the degree of variability between species in their ability to cope with a change in [CO₃²⁻] is a priority. We cultured four phylogenetically and physiologically different species of hermatypic coral (Acropora verweyi, Galaxea fascicularis, Pavona cactus and Turbinaria reniformis) under ‘normal’ (280 mu;mol kg⁻¹) and ‘low’ (140 μmol kg⁻¹) carbonate–ion concentrations. The effect on skeletogenesis was investigated quantitatively (by calcification rate) and qualitatively (by microstructural appearance of growing crystalline fibres using scanning electron microscopy (SEM)). The ‘low carbonate’ treatment resulted in a significant suppression of calcification rate and a tendency for weaker crystallization at the distal tips of fibres. However, while the calcification rate was affected uniformly across species (13–18%reduction), the magnitude of the microstructural response was highly species specific: crystallization was most markedly affected in A. verweyi and least in T. reniformis. These results are discussed in relation to past records and future predictions of carbonate variability in the oceans.

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This Issue

22 January 2003

Volume 270Issue 1511

Article Information

DOI:https://doi.org/10.1098/rspb.2002.2212
PubMed:12590757
Published by:Royal Society
Print ISSN:0962-8452
Online ISSN:1471-2954

History:

Published online22/01/2003
Published in print22/01/2003

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Suppression of skeletal growth in scleractinian corals by decreasing ambient carbonate-ion concentration: a cross-family comparison

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This Issue