Abstract
Populations occurring in similar habitats and displaying similar phenotypes are increasingly used to explore parallel evolution at the molecular level. This generally ignores the possibility that parallel evolution can be mimicked by the fragmentation of an ancestral population followed by genetic exchange with ecologically different populations. Here we demonstrate such an ecological vicariance scenario in multiple stream populations of threespine stickleback fish divergent from a single adjacent lake population. On the basis of demographic and population genomic analyses, we infer the initial spread of a stream-adapted ancestor followed by the emergence of a lake-adapted population, that selective sweeps have occurred mainly in the lake population, that adaptive lake–stream divergence is maintained in the face of gene flow from the lake into the streams, and that this divergence involves major inversion polymorphisms also important to marine-freshwater stickleback divergence. Overall, our study highlights the need for a robust understanding of the demographic and selective history in evolutionary investigations.
Highlights
Populations occurring in similar habitats and displaying similar phenotypes are increasingly used to explore parallel evolution at the molecular level
The reason is that gene flow between ecologically different populations in contact will cause genetic differentiation at neutral markers to be lower within than among population pairs—the pattern expected under parallel divergence
In situations involving ecological vicariance with gene flow, comparing multiple population pairs can permit the reliable identification of selected loci and confirm divergent selection, but inference about the genetic basis of independent parallel evolution will be inappropriate because divergence did not occur repeatedly
Summary
Populations occurring in similar habitats and displaying similar phenotypes are increasingly used to explore parallel evolution at the molecular level. Distinguishing parallel divergence from ecological vicariance scenarios is crucial when attempting to explore how deterministically selection acts at the genomic level during evolution While this distinction is not possible based on phylogenetic relationships at neutral markers[18,19], it can be achieved by combining thorough analyses of molecular signatures around the loci under divergent selection with robust reconstructions of the populations’ demographic history[14,20]. We here present such an investigation based on populations of threespine stickleback fish (Gasterosteus aculeatus) adapted to lake and stream habitats within the Lake Constance basin in Central Europe. Multiple stream populations show a reduction in the extent of lateral plating, the phenotype predominant in freshwater stickleback on a global scale
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