Genetic rescue often leads to higher fitness as a result of increased heterozygosity across animal taxa

Mol Ecol. 2024 Oct;33(19):e17532. doi: 10.1111/mec.17532. Epub 2024 Sep 16.

Abstract

Biodiversity loss has reached critical levels partly due to anthropogenic habitat loss and degradation. These landscape changes are damaging as they can fragment species distributions into small, isolated populations, resulting in limited gene flow, population declines and reduced adaptive potential. Genetic rescue, the translocation of individuals to increase genetic diversity and ultimately fitness, has produced promising results for fragmented populations but remains underutilized due to a lack of long-term data and monitoring. To promote a better understanding of genetic rescue and its potential risks and benefits over the short-term, we reviewed and analysed published genetic rescue attempts to identify whether genetic diversity increases following translocation, and if this change is associated with increased fitness. Our review identified 19 studies that provided genetic and fitness data from before and after the translocation; the majority of these were on mammals, and included experimental, natural and conservation-motivated translocations. Using a Bayesian meta-analytical approach, we found that on average, genetic diversity and fitness increased in populations post translocations, although there were some exceptions to this trend. Overall, genetic diversity was a positive predictor of population fitness, and in some cases this relationship extended three generations post-rescue. These data suggest a single translocation can have lasting fitness benefits, and support translocation as another tool to facilitate conservation success. Given the limited number of studies with long-term data, we echo the need for genetic monitoring of populations post-translocation to understand whether genetic rescue can also limit the loss of adaptive potential in the long-term.

Keywords: conservation genetics; conservation translocation; genetic rescue; heterozygosity; meta‐analysis.

Publication types

  • Review
  • Meta-Analysis

MeSH terms

  • Animals
  • Bayes Theorem
  • Biodiversity
  • Conservation of Natural Resources
  • Ecosystem
  • Gene Flow
  • Genetic Fitness*
  • Genetic Variation*
  • Genetics, Population*
  • Heterozygote