Ocean acidification reshapes the otolith-body allometry of growth in juvenile sea bream

The effects of elevated CO2 partial pressure (pCO2) on otolith calcification and on the coupling between somatic and otolith growth were investigated in juvenile gilthead sea bream Sparus aurata. Six-month old individuals were raised during seven weeks under four pCO2 conditions set according to pro...

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Bibliographic Details
Published in:Journal of experimental marine biology and ecology 2015-02, Vol.463, p.87-94
Main Authors: Réveillac, Elodie, Lacoue-Labarthe, Thomas, Oberhänsli, François, Teyssié, Jean-Louis, Jeffree, Ross, Gattuso, Jean-Pierre, Martin, Sophie
Format: Article
Language:English
Subjects:
Climate change
Marine
Ocean acidification
Otolith calcification
Somatic-otolith growth allometry
Sparus aurata
Temperate coastal fish
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Summary:The effects of elevated CO2 partial pressure (pCO2) on otolith calcification and on the coupling between somatic and otolith growth were investigated in juvenile gilthead sea bream Sparus aurata. Six-month old individuals were raised during seven weeks under four pCO2 conditions set according to projected future ocean acidification scenarios. Body and otolith biometric parameters were measured throughout the experiment along with the otolith biomineralization monitored using a radiotracer technique based on 45Ca incorporation. Sea bream exhibited somatic growth resilience to all treatments. In contrast, increased growth rate and shape complexity of otoliths were observed with a pHT drop from 8.1 to 7.5. Hypercalcification was observed under lowered pH, with a rate of calcium incorporation increasing by up to 18% between pHT 8.1 and pHT 7.7. This work highlighted an uncoupling of otolith and body growth of juvenile sea bream within 40days at pHT 7.9 projected to be reached by the end of the century. As the otolith is an essential tool used in reconstructing fish life history, this work suggests that information resulting from otolith studies should be interpreted with caution with respect to the potential impacts that ocean acidification projected modifications could have on otolith biomineralization. •pCO2 elevation modulates otolith but not somatic growth in sea bream juvenile fish.•Uncoupling between somatic and otolith growth appears within 40days at a pCO2 level projected by 2100.•Otolith density did not seem to be affected by increased pCO2 level but the otolith surface area.•pCO2 level projected by 2100 increases otolith calcification rate by 18%.•Ocean acidification resets parameters of tools used in fisheries stock management.
ISSN:0022-0981
1879-1697
DOI:10.1016/j.jembe.2014.11.007