Corals can't adjust to acid ocean water, even after a year

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A year long test of how corals react to the more acidic ocean conditions expected under future climate scenarios has found that they are unable to adapt, according to Australian scientists. The researchers exposed four types of coral to different carbon dioxide conditions over a year, to test the idea that corals might be able to adjust to the more acidic oceans, given enough time. They found no evidence of the corals acclimatising to the more acidic conditions, even after a year. The researchers say it is likely that the sensitivity of individual species to the increasingly acid oceans will shape the composition of future reefs.

Journal/conference: Nature Climate Change

Link to research (DOI): 10.1038/s41558-019-0486-9

Organisation/s: The University of Western Australia, ARC Centre of Excellence for Coral Reef Studies, Victoria University of Wellington

Funder: Funding support was as follows: M.T.M. by an ARC Laureate Fellowship (LF120100049) and ARC Centre of Excellence for Coral Reef Studies (CE140100020); S.C. by an ARC DECRA (DE160100668); C.E.C. by ARC Centre of Excellence for Coral Reef Studies (CE140100020) and a Rutherford Discovery Fellowship (Royal Society of New Zealand; RDF-VUW1701); R.C.C. by a National Science Foundation grant OCE 14-15268, the Moorea Coral Reef LTER programme (NSF OCE 12-36905) and from the Gordon and Betty Moore Foundation.

Media release

STUDY FINDS OCEAN ACIDIFICATION THREATENS CORAL REEF SYSTEMS

A new study led by The University of Western Australia has found the future of the world’s coral reefs is under threat from ocean acidification with many corals unable to adapt to the conditions.

The study, published today in Nature Climate Change, determined the capacity of coral reefs to acclimatise to ocean acidification by investigating the chemistry in the corals’ calcifying fluid.

Co-author Professor Malcolm McCulloch, ARC Laureate Fellow from UWA’s Oceans, said the researchers examined four species of coral and two types of calcifying algae in a year-long test.

“We found that corals and coralline algae weren’t able to acclimatise to ocean acidification,” Professor McCulloch said.

“The effects of ocean acidification on the calcifying fluid were rapid and persisted after one year in the experimental conditions.

“Two coral species that were resistant to ocean acidification were resistant from the start while the two sensitive ones were affected from the start and were not able to acclimatise.

“The two species resistant to ocean acidification used different mechanisms to alleviate the effects of ocean acidification.”

Lead author Dr Steeve Comeau, from the Sorbonne UniversitĂ© – CNRS Laboratoire d’OcĂ©anographie de Villefranche sur Mer in France, said the results validated previous research that found coral reefs were under threat from ocean acidification.

“The results also confirm that ocean acidification could have repercussions on the competition between species which could in turn affect the ecological function of reefs,” Dr Comeau said.

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