Future too warm for baby sharks
New research has found as climate change causes the world’s oceans to warm, baby sharks are born smaller, exhausted, undernourished and into environments that are already difficult for them to survi
ARC Centre of Excellence for Coral Reef Studies
James Cook University Townsville
Queensland 4811 Australia
Phone: 61 7 4781 4000
Email: info@coralcoe.org.au
While the threat of coral bleaching as a result of climate change poses a serious risk to the future of coral reefs world wide, new research has found that some baby corals may be able to cope with the negative effects of ocean acidification.
Ocean acidification, which is a direct consequence of increased atmospheric carbon dioxide levels, is expected to have a deleterious effect on many marine species over the next century.
An international team examining the impact of ocean acidification on coral has found that a key reef-building coral can, over a relatively short period of time, acclimate to a doubling of atmospheric carbon dioxide levels.
“Our aim was to explore the effect of a more acidic ocean on every gene in the coral genome,” says study lead author Dr Aurelie Moya, a molecular ecologist with the ARC Centre of Excellence for Coral Reef Studies at James Cook University.
The researchers exposed baby corals from the Great Barrier Reef to acidified seawater for varying lengths of time and investigated how they responded at a molecular level.
“We found that, whereas 3 days of exposure to high CO2 disrupts formation of the coral skeleton, within nine days the baby corals had re-adjusted their gene expression to pre-exposure levels. Longer exposure seems to be less detrimental to coral health than we had assumed based on shorter-term studies,” Dr Aurelie Moya says.
“These findings suggest that baby corals have the capacity to acclimate to elevated carbon dioxide.”
“We saw that within a few days juvenile coral adapted to CO2 levels double those experienced today with no obvious disruption to its life processes,” says study co-author, Professor David Miller, who leads the molecular biology group in the Coral CoE.
Professor Miller says the findings are particularly significant as they centred on staghorn coral.
“Staghorn corals are the key reef-building corals throughout the Pacific and Indian oceans. These are traditionally considered to have poor stress tolerance. So this work provides a glimmer of hope that coral reefs can attenuate the effects of ocean acidification.”
The research team examined tens of thousands of coral genes and was able to identify those that were responsible for enabling acclimation to high carbon dioxide.
Dr Moya says the study is an essential first step to better understand how reef-building corals adapt to environmental stress.
However both Dr Moya and Professor Miller remain cautious about the ability of corals to tolerate the combination of increased carbon dioxide and climate change.
“This study focused on one single stressor, ocean acidification, but we must keep in mind that the combination of several stressors, such as ocean acidification and warming could lead to larger impacts on baby corals,” Dr Moya says.
“The next step is to investigate the effect of combined stressors on corals’ gene expression.”
Paper
Rapid acclimation of juvenile corals to CO2-mediated acidification by up-regulation of HSP and Bcl-2 genes by Aurelie Moya, Lotte Huisman, Sylvain Foret, Jean-Pierre Gattuso, David Hayward, Eldon Ball and David Miller is published in the journal, Molecular Ecology.
http://onlinelibrary.wiley.com/doi/10.1111/mec.13021/abstract
Images
Corals – image credit: Aurelie Moya
Contacts
Dr Aurelie Moya – +61 (0) 7 4781 3654
Professor David Miller – +61 (0) 419 671 768
Eleanor Gregory, Coral CoE Communications Manager – 0428 785 895
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ARC Centre of Excellence for Coral Reef Studies
James Cook University Townsville
Queensland 4811 Australia
Phone: 61 7 4781 4000
Email: info@coralcoe.org.au