Some Hawaiian coral species show resilience to warming oceans

Embargoed until: Publicly released: 2022-03-11 03:00

International

Representative photo of the experimental system after twenty-two months of exposure to control conditions. Credit: McLachlan et al., 2022.

Some coral species display resilience to the effects of ocean warming and acidification due to climate change, according to international research on three types of coral in Hawaii. The researchers say this indicates the possible capacity for some corals to survive and cope with changing ocean conditions. The team collected samples from three coral species across four reef sites in Hawaii between 29 August and 11 November 2015 and placed them into seawater tanks of varying conditions including a control tank, ocean acidification, ocean warming, and a combination of the two. The coral samples were maintained under these conditions for 22 months and the team found that two of the three coral species coped well under future ocean conditions.

Media release

From: Springer Nature

Climate change: Some Hawaiian coral species show resilience to warming oceans *IMAGES*

Some coral species display resilience to the effects of ocean warming and acidification due to climate change, reports a study of three types of coral in Hawaii published in Scientific Reports. These findings provide insight into the possible capacity for some corals to survive and cope with changing ocean conditions.

Coral reefs across the globe face threats from increasing ocean temperatures and acidification due to climate change, which puts significant stress on coral health and can lead to mass coral bleaching.

Rowan McLachlan and colleagues collected 66 samples from three coral species across four reef sites in Hawaii between 29 August and 11 November 2015. The three species were Montipora capitata (a branching and plating stony coral), Porites compressa (a branching species known as finger coral), and Porites lobata (or lobe coral, a boulder-shaped species). The samples were placed in seawater tanks with four different conditions: a control tank with current ocean conditions, an ocean acidification scenario (-0.2 pH units), an ocean warming scenario (+2 °C), and a combined acidification and warming scenario. The coral samples were maintained under these conditions for 22 months.

The authors found coral survival was influenced by temperature, with only 61% of coral samples surviving warmer conditions compared to 92% in the control tank. Across the three climate change conditions, M. capitata had lower survival than P. compressa (67% vs 83% survival). P. compressa was also more resilient in the combined warming and acidification condition compared to M. capitata and P. lobata, with 71% of samples surviving compared to 46% and 56% respectively. The authors suggest that, unlike under the control conditions, many M. capitata individuals were unable to acquire enough energy to survive under the combined climate change conditions. This could explain its higher mortality rates compared to P. compressa, which, in contrast, was able to acquire more than enough energy in future ocean conditions. There were few physiological differences between surviving P. lobata corals under control or future ocean conditions.

The authors suggest that the resilience of Porites species of corals to temperature and acidification, and their role in in reef-building, provide hope that some reef ecosystems may be maintained despite changing ocean conditions.

Journal/
conference: Nature Scientific Reports

Research:Paper

Organisation/s: The Ohio State University, USA

Funder: AGG obtained major funding for this research from the National Science Foundation OCE Division of Ocean Sciences (award number: 1459536). Additional support to AGG came from the HW Hoover Foundation and the National Science Foundation OCE Division of Ocean Sciences (award number 1838667) and to CPJ and RJT from UH Sea Grant (award number: 2180), the National Science Foundation Ocean Acidification Program (award number: OA-1416889), and NSF OCE Division of Ocean Sciences (award number: 1514861). RHM obtained funding for some sample analyses from Sigma Xi—The Scientific Honor Society (National and Ohio State Chapter Awards).

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