Assortative mating and persistent reproductive isolation in hybrids

Assortative mating and persistent reproductive isolation in hybrids

The emergence of new species is driven by the establishment of mechanisms that limit gene flow between populations. A major challenge is reconciling the theoretical and empirical importance of assortative mating in speciation with the ease with which it can fail. Swordtail fish have an evolutionary...

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Published in:Proceedings of the National Academy of Sciences - PNAS Vol. 114; no. 41; pp. 10936 - 10941
Main Authors: Schumer, Molly, Powell, Daniel L., Delclós, Pablo J., Squire, Mattie, Cui, Rongfeng, Andolfatto, Peter, Rosenthal, Gil G.
Format: Journal Article
Language:English
Published: United States National Academy of Sciences 10-10-2017
Subjects:
Animal reproduction
Aquaculture
Assortative mating
Biological Sciences
Fish
Gene flow
Gene sequencing
Genomes
Hybridization
Hybrids
Mating
New species
Plastics
Population genetics
Populations
Reproductive isolation
Speciation
reproductive isolation
population structure
hybridization
assortative mating
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Summary:The emergence of new species is driven by the establishment of mechanisms that limit gene flow between populations. A major challenge is reconciling the theoretical and empirical importance of assortative mating in speciation with the ease with which it can fail. Swordtail fish have an evolutionary history of hybridization and fragile prezygotic isolating mechanisms. Hybridization between two swordtail species likely arose via pollution-mediated breakdown of assortative mating in the 1990s. Here we track unusual genetic patterns in one hybrid population over the past decade using whole-genome sequencing. Hybrids in this population formed separate genetic clusters by 2003, and maintained near-perfect isolation over 25 generations through strong ancestry-assortative mating. However, we also find that assortative mating was plastic, varying in strength over time and disappearing under manipulated conditions. In addition, a nearby population did not show evidence of assortative mating. Thus, our findings suggest that assortative mating may constitute an intermittent and unpredictable barrier to gene flow, but that variation in its strength can have a major effect on how hybrid populations evolve. Understanding how reproductive isolation varies across populations and through time is critical to understanding speciation and hybridization, as well as their dependence on disturbance.
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Author contributions: M. Schumer, D.L.P., P.J.D., M. Squire, P.A., and G.G.R. designed research; M. Schumer, D.L.P., P.J.D., M. Squire, and R.C. performed research; M. Schumer, D.L.P., P.J.D., M. Squire, R.C., P.A., and G.G.R. analyzed data; and M. Schumer, D.L.P., P.J.D., M. Squire, P.A., and G.G.R. wrote the paper.
Edited by Sarah P. Otto, University of British Columbia, Vancouver, BC, Canada, and approved August 21, 2017 (received for review June 27, 2017)
ISSN:0027-8424
1091-6490
DOI:10.1073/pnas.1711238114