Assisted gene flow yields Acropora palmata corals with robust physiological performance under warmer water temperatures in a land-based nursery
Listed in
This article is not in any list yet, why not save it to one of your lists.Abstract
Assisted gene flow (AGF) is a conservation approach that facilitates the spread of alleles and may accelerate the recovery of genetically depauperate cohorts. The threatened Caribbean coral Acropora palmata is approaching regional extinction within the western Atlantic partly due to increasing water temperatures associated with global climate change. Previously, AGF was conducted by crossing gametes collected from three regions (Curaçao - CU, Florida - FL, and Puerto Rico - PR) characterized by contrasting temperature regimes and low gene flow between them. Here, we tested the thermal tolerance of these AGF cohorts in comparison to purebred Florida and Curaçao cohorts. Exposure to high temperatures resulted in few physiological changes, likely because the corals hosted the thermally tolerant algal symbiont, Durusdinium trenchii . However, the FL x FL cohort was the most sensitive to the high temperatures with a significant reduction in net photosynthesis and maximum electron transport rate under this treatment. Like the phenotypic responses, gene expression changes in response to heat stress were muted overall. Consequently, there was little power to detect correlations between genotype and phenotype. Relative to mid-parent values, CUxFL AGF cohorts showed 26 overexpressed and 48 underexpressed genes. Differentially expressed genes included known stress responders. Importantly, hybrid crosses harbored 879 private alleles that were previously not recovered in representative genets from Florida and thus carry important conservation value. These findings suggest that AGF corals not only carry novel alleles but also represent novel gene expression patterns.
