Published November 16, 2021 | Version v1
Software Open

Analysis of ancestry heterozygosity suggests that hybrid incompatibilities in threespine stickleback are environment-dependent

  • 1. Stanford University
  • 2. University of Bern
  • 3. University of California, San Diego
  • 4. Monash University
  • 5. Women's Health Research Institute
  • 6. DataSeer Research Data Services*
  • 7. Sage Bionetworks
  • 8. Harvard Medical School
  • 9. University of Minnesota
  • 10. University of British Columbia

Description

Hybrid incompatibilities occur when interactions between opposite-ancestry alleles at different loci reduce the fitness of hybrids. Most work on incompatibilities has focused on those that are 'intrinsic', meaning they affect viability and sterility in the laboratory. Theory predicts that ecological selection can also underlie hybrid incompatibilities, but tests of this hypothesis using sequence data are scarce. In this article, we compiled genetic data for F2 hybrid crosses between divergent populations of threespine stickleback fish (Gasterosteus aculeatus L.) that were born and raised in either the field (semi-natural experimental ponds) or the laboratory (aquaria). Because selection against incompatibilities results in elevated ancestry heterozygosity, we tested the prediction that ancestry heterozygosity will be higher in pond-raised fish compared to those raised in aquaria. We found that ancestry heterozygosity was elevated by approximately 3% in crosses raised in ponds compared to those raised in aquaria. Additional analyses support a phenotypic basis for incompatibility and suggest that environment-specific single-locus heterozygote advantage is not the cause of selection on ancestry heterozygosity. Our study provides evidence that, in stickleback, a coarse—albeit indirect—signal of environment-dependent hybrid incompatibility is reliably detectable and suggests that extrinsic incompatibilities can evolve before intrinsic incompatibilities.

Notes

readme.txt files overview how best to use the data.

Files

code.zip

Files (29.2 kB)

Name Size Download all
md5:0c6490e82ac019387df6de74d4858bb4
29.2 kB Preview Download

Additional details