Journal article
Potential and limits for rapid genetic adaptation to warming in a Great Barrier Reef coral
MV Matz, EA Treml, GV Aglyamova, LK Bay
Plos Genetics | PUBLIC LIBRARY SCIENCE | Published : 2018
Abstract
Can genetic adaptation in reef-building corals keep pace with the current rate of sea surface warming? Here we combine population genomics, biophysical modeling, and evolutionary simulations to predict future adaptation of the common coral Acropora millepora on the Great Barrier Reef (GBR). Genomics-derived migration rates were high (0.1–1% of immigrants per generation across half the latitudinal range of the GBR) and closely matched the biophysical model of larval dispersal. Both genetic and biophysical models indicated the prevalence of southward migration along the GBR that would facilitate the spread of heat-tolerant alleles to higher latitudes as the climate warms. We developed an indiv..
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Awarded by National Science Foundation
Funding Acknowledgements
This study has been supported by NSF (DEB-1054766) grant to MVM, ARC (LP120200245) and University of Melbourne ECR grants to EAT, a Coral Reef Alliance grant ("Coral Adaptation Challenge") to EAT and MVM, Queensland Government funding and AIMS funding to LKB.