Some calcifiers (mussels, gastropods and corals) protect their shell or skeleton from the corrosive effects of increasing ocean acidification. They can therefore resist some of the damaging effects of increasing ocean acidity generated by the release of carbon dioxide (CO2) in the atmosphere through human activities. This resistance is diminished when organisms are exposed to extended period of elevated temperature (28.5°C). This is a result of an international study (1), co-led by Jean-Pierre Gattuso, research scientist at Laboratoire d’océanographie de Villefranche (CNRS/UPMC), published in the journal Nature Climate Change. These results suggest that the ongoing and future warming of the Mediterranean combined with the rise of its acidity will increase the frequency of mass-mortality events.
The oceans absorb about one fourth of the carbon dioxide (CO2) released by the use of fossil fuel and changes in land use. This amounts to 1 million tons CO2 every hour and leads to large changes in the chemistry of seawater, including an increase in its acidity. This acidification threatens calcifying organisms, those that build shells and skeletons, such as mollusks and corals.
In this study, led by R. Rodolfo-Metalpa, scientists relocated corals, gastropods and mussels around the island of Ischia (Gulf of Naples, Italy) where seawater is naturally acidified by CO2 vents linked to the volcanic activity of Vesuvio. The use of a radioactive tracer demonstrated that these organisms are able to produce limestone at the level of acidity expected for 2100 (pH of 7.8 versus 8.1 today), sometimes at even a higher rate. The tissues and organic layers covering the shells and skeletons play a major role to protect them from the corrosive action of high-acidity seawater. However, the areas of shells and skeletons that are not protected by tissues or organic layers are vulnerable and more prone to dissolution. The higher the acidity, the faster dissolution is. The scientists have shown that this capacity to resist is much lower when the organisms are subject to an extended period of elevated temperature (28.5°C). At this temperature, mortality is increasing with increasing acidity.
Some Mediterranean invertebrates already live at their upper limit of temperature tolerance and have already experienced mass-mortality events. The combined effect of warming and increased acidity will likely increase the frequency of these events in the future.
1) Part of the European projects EPOCA and MedSeA. The partner institutions are: CNRS, Université Pierre et Marie Curie, Plymouth University, International Atomic Energy Agency, Centre Scientifique de Monaco, Zoological Station of Naples and Bar Ilan University. Note : The European project EPOCA (European project on ocean acidification) coordinated by Jean-Pierre Gattuso (CNRS) was launched in May 2008 for 4 ans to investigate ocean acidification and its consequences. EPOCA is coordinated by CNRS and gathers more than 160 scientists from 32 partners instituions in 10 countries. Project web site: View web site
Previous EPOCA press release: View web site
R. Rodolfo-Metalpa1,2, F. Houlbrèque1, *, É. Tambutté3, F. Boisson1, C. Baggini2, F. P. Patti4, R. Jeffree1,
M. Fine5,6, A. Foggo2, J.-P. Gattuso7 and J. M. Hall-Spencer2 and J. M. Hall-Spencer2, 2011. Coral and mollusc resistance to ocean acidification adversely affected by warming. Nature Climate change.
1 International Atomic Energy Agency—Marine Environment Laboratories, Principality of Monaco,
2 Marine Institute, Marine Biology and Ecology Research Centre, University of Plymouth
3 Centre Scientifique de Monaco
4 Stazione Zoologica ‘A. Dohrn’, Functional and Evolutionary Ecology Laboratory, Punta S. Pietro, Italy,
5 Faculty of Life Sciences, Bar-Ilan University, Ramat-Gan, Israel
6 Interuniversity Institute for Marine Science, Israel
7 CNRS/UPMC, Laboratoire d’Océanographie de Villefranche, Villefranche-sur-mer, France
* Presently at: Centre IRD, Noumea, Nouvelle-Caledonie, France
Scientist l Jean-Pierre Gattuso l T +33 4 93 76 38 59 l firstname.lastname@example.org
Press CNRS l Laetitia Louis l T +33 1 44 96 51 37 l Laetitia.email@example.com
CNRS, 25 August 2011. Press release.