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Centrality to the metapopulation is more important for population genetic diversity than habitat area or fragmentation.

Anthony A SneadAndrey TatarenkovD Scott TaylorKristine MarsonRyan L Earley
Published in: Biology letters (2024)
Drift and gene flow affect genetic diversity. Given that the strength of genetic drift increases as population size decreases, management activities have focused on increasing population size through preserving habitats to preserve genetic diversity. Few studies have empirically evaluated the impacts of drift and gene flow on genetic diversity. Kryptolebias marmoratus , henceforth 'rivulus', is a small killifish restricted to fragmented New World mangrove forests with gene flow primarily associated with ocean currents. Rivulus form distinct populations across patches, making them a well-suited system to test the extent to which habitat area, fragmentation and connectivity are associated with genetic diversity. Using over 1000 individuals genotyped at 32 microsatellite loci, high-resolution landcover data and oceanographic simulations with graph theory, we demonstrate that centrality (connectivity) to the metapopulation is more strongly associated with genetic diversity than habitat area or fragmentation. By comparing models with and without centrality standardized by the source population's genetic diversity, our results suggest that metapopulation centrality is critical to genetic diversity regardless of the diversity of adjacent populations. While we find evidence that habitat area and fragmentation are related to genetic diversity, centrality is always a significant predictor with a larger effect than any measure of habitat configuration.
Keyphrases
  • genetic diversity
  • climate change
  • genome wide
  • high resolution
  • multiple sclerosis
  • white matter
  • mass spectrometry
  • electronic health record
  • molecular dynamics
  • functional connectivity
  • convolutional neural network