Widespread Scope for Coral Adaptation Under Combined Ocean Warming and Acidification

Overview

Journal Proc Biol Sci

Specialty Biology

Date 2024 Sep 24

PMID 39317315

Authors

Christopher P Jury

Robert J Toonen

Affiliations

Soon will be listed here.

Abstract

Reef-building coral populations are at serious risk of collapse due to the combined effects of ocean warming and acidification. Nonetheless, many corals show potential to adapt to the changing ocean conditions. Here we examine the broad sense heritability (H) of coral calcification rates across an ecologically and phylogenetically diverse sampling of eight of the primary reef-building corals across the Indo-Pacific. We show that all eight species exhibit relatively high heritability of calcification rates under combined warming and acidification (0.23-0.56). Furthermore, tolerance to each factor is positively correlated and the two factors do not interact in most of the species, contrary to the idea of trade-offs between temperature and pH sensitivity, and all eight species can co-evolve tolerance to elevated temperature and reduced pH. Using these values together with historical data, we estimate potential increases in thermal tolerance of 1.0-1.7°C over the next 50 years, depending on species. None of these species are probably capable of keeping up with a high global change scenario and climate change mitigation is essential if reefs are to persist. Such estimates are critical for our understanding of how corals may respond to global change, accurately parametrizing modelled responses, and predicting rapid evolution.

Citing Articles

Experimental coral reef communities transform yet persist under mitigated future ocean warming and acidification.

Jury C, Bahr K, Cros A, Dobson K, Freel E, Graham A Proc Natl Acad Sci U S A. 2024; 121(45):e2407112121.

PMID: 39471225 PMC: 11551444. DOI: 10.1073/pnas.2407112121.

Widespread scope for coral adaptation under combined ocean warming and acidification.

Jury C, Toonen R Proc Biol Sci. 2024; 291(2031):20241161.

PMID: 39317315 PMC: 11421923. DOI: 10.1098/rspb.2024.1161.

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