Hugo Denis scite author profile

One of the main challenges in coral reef conservation and restoration is the identification of coral populations resilient under global warming. Seascape genomics is a powerful tool to uncover genetic markers potentially involved in heat tolerance among large populations without prior information on phenotypes. Here, we aimed to confirm the role of several candidate heat associated loci identified using this method in driving the phenotypic response of Acropora millepora from New Caledonia to thermal stress. We subjected 7 colonies to a long-term ex-situ heat stress assay (4°C above the Maximum Monthly Mean) and investigated their physiological response along with their Symbiodiniaceae communities and genotypes. Despite having similar thermal histories and associated symbionts, these conspecific individuals differed greatly in their tolerance to heat stress. More importantly, the clustering of individuals based on their alleles at the candidate loci was able to resolve most of the phenotypic variation in heat tolerance. Colonies harboring a higher proportion of beneficial alleles sustained on average lower mortality, higher Symbiodiniaceae/chlorophyll concentrations and photosynthetic efficiency under prolonged heat stress. Together these results support the relevance of seascape genomics to reveal candidate loci for heat adaptation in corals and develop predictive models of heat tolerance.

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Climate adaptive loci revealed by seascape genomics corroborate phenotypic variation in heat tolerance of the coral Acropora millepora

Denis

Selmoni²,

Gossuin³

et al. 2023

Preprint

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One of the main challenges in coral reef conservation and restoration is the identification of coral populations resilient under global warming. Seascape genomics is a powerful tool to uncover genetic markers potentially involved in heat tolerance among large populations without prior information on phenotypes. Here, we aimed to assess the role of candidate heat associated loci identified using seascape genomics in driving the phenotypic response of Acropora millepora from New Caledonia to thermal stress. We subjected 7 colonies to a long-term ex-situ heat stress assay (4°C above the Maximum Monthly Mean) and investigated their physiological response along with their Symbiodiniaceae communities and genotypes. Despite sharing similar thermal histories and associated symbionts, these conspecific individuals differed greatly in their tolerance to heat stress. More importantly, the clustering of individuals based on their alleles at the candidate loci coincided with the phenotypic variation in heat tolerance. Colonies harboring a higher proportion of heat-associated alleles sustained on average lower mortality, higher Symbiodiniaceae/chlorophyll concentrations and photosynthetic efficiency under prolonged heat stress. Together these results support the relevance of seascape genomics to reveal candidate loci for heat adaptation in corals and develop predictive models of heat tolerance.

show abstract

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Hugo Denis

Screening for climate adaptative loci using seascape genomics resolves phenotypic variation in heat tolerance of the coral Acropora millepora.

Climate adaptive loci revealed by seascape genomics corroborate phenotypic variation in heat tolerance of the coral Acropora millepora

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