Reproductive isolation of hybrid populations driven by genetic incompatibilities.

TitleReproductive isolation of hybrid populations driven by genetic incompatibilities.
Publication TypeJournal Article
Year of Publication2015
AuthorsSchumer, M, Cui, R, Rosenthal, GG, Andolfatto, P
JournalPLoS Genet
Volume11
Issue3
Paginatione1005041
Date Published2015 Mar
ISSN1553-7404
KeywordsGene Flow, Genetic Drift, Genetic Speciation, Genetic Variation, Genetics, Population, Hybridization, Genetic, Models, Genetic, Models, Theoretical, Reproductive Isolation, Selection, Genetic
Abstract

<p>Despite its role in homogenizing populations, hybridization has also been proposed as a means to generate new species. The conceptual basis for this idea is that hybridization can result in novel phenotypes through recombination between the parental genomes, allowing a hybrid population to occupy ecological niches unavailable to parental species. Here we present an alternative model of the evolution of reproductive isolation in hybrid populations that occurs as a simple consequence of selection against genetic incompatibilities. Unlike previous models of hybrid speciation, our model does not incorporate inbreeding, or assume that hybrids have an ecological or reproductive fitness advantage relative to parental populations. We show that reproductive isolation between hybrids and parental species can evolve frequently and rapidly under this model, even in the presence of substantial ongoing immigration from parental species and strong selection against hybrids. An interesting prediction of our model is that replicate hybrid populations formed from the same pair of parental species can evolve reproductive isolation from each other. This non-adaptive process can therefore generate patterns of species diversity and relatedness that resemble an adaptive radiation. Intriguingly, several known hybrid species exhibit patterns of reproductive isolation consistent with the predictions of our model. </p>

DOI10.1371/journal.pgen.1005041
Alternate JournalPLoS Genet.
PubMed ID25768654
PubMed Central IDPMC4359097