Worldwide analysis of reef surveys sorts coral taxa by (adaptive) response to heat stress

Abstract

AbstractCoral reefs around the world are under threat due to widespread decline of hard corals caused by anomalous heat waves. Different coral taxa are known to have different sensitivities to heat. However, little is known about how long-term effects of heat exposure differ between coral taxa, nor in particular how such effects might drive adaptive processes. Here, we combined worldwide reef survey data with remotely sensed thermal anomalies to evaluate how local rates of taxa-specific coral cover were associated with heat stress. We found a negative association between coral cover and heat stress: weaker for massive and encrusting Poritidae, for meandroid Favidae and Mussidae; and stronger for branching, tabular and corymbose Acroporidae. Additionally, we found that coral cover decline driven by recent heat stress (measured as the year before a survey) was mitigated by long-term past heat (measured since 1985) in branching, tabular and corymbose Acroporidae and Pocilloporidae, but not in Poritidae, Favidae and Mussidae. This mitigation of coral decline was not observed under the effect of short-term past heat (measured during the two previous years), suggesting that these presumptive adaptive processes are the result of evolutionary adaptation, rather than of physiological acclimatization. We finally queried the Coral Trait Database to characterize morphological, physiological and reproductive traits of different taxa showing similar heat-responses. Further genomics studies should confirm the evolutionary origin of such divergent adaptive responses to heat stress.