Affiliation:
1. School of Biological Sciences The University of Queensland Queensland St Lucia Australia
2. School of Natural Sciences Massey University Auckland New Zealand
3. School of Natural and Environmental Sciences Newcastle University Newcastle upon Tyne UK
Abstract
AbstractGlobal environmental change is happening at unprecedented rates. Coral reefs are among the ecosystems most threatened by global change. For wild populations to persist, they must adapt. Knowledge shortfalls about corals' complex ecological and evolutionary dynamics, however, stymie predictions about potential adaptation to future conditions. Here, we review adaptation through the lens of quantitative genetics. We argue that coral adaptation studies can benefit greatly from “wild” quantitative genetic methods, where traits are studied in wild populations undergoing natural selection, genomic relationship matrices can replace breeding experiments, and analyses can be extended to examine genetic constraints among traits. In addition, individuals with advantageous genotypes for anticipated future conditions can be identified. Finally, genomic genotyping supports simultaneous consideration of how genetic diversity is arrayed across geographic and environmental distances, providing greater context for predictions of phenotypic evolution at a metapopulation scale.
Subject
General Environmental Science,Ecology,Environmental Chemistry,Global and Planetary Change