Phylogeography and lineage‐specific patterns of genetic diversity and molecular evolution in a group of North American skinks

Geography influences the evolutionary trajectory of species by mediating opportunities for hybridization, gene flow, demographic shifts and adaptation. We sought to understand how geography and introgression can generate species‐specific patterns of genetic diversity by examining phylogeographical relationships in the North American skink species Plestiodon multivirgatus and P. tetragrammus (Squamata: Scincidae). Using a multilocus dataset (three mitochondrial genes, four nuclear genes; a total of 3455 bp) we discovered mito‐nuclear discordance, consistent with mt DNA introgression. We further tested for evidence of species‐wide mt DNA introgression by using comparisons of genetic diversity, selection tests and extended Bayesian skyline analyses. Our findings suggest that P. multivirgatus acquired its mitochondrial genome from P. tetragrammus after their initial divergence. This putative species‐wide mitochondrial capture was further evidenced by statistically indistinguishable substitution rates between mt DNA and nDNA in P. multivirgatus . This rate discrepancy was observed in P. multivirgatus but not P. tetragrammus , which has important implications for studies that combine mt DNA and nDNA sequences when inferring time since divergence between taxa. Our findings suggest that by facilitating opportunities for interspecific introgression, geography can alter the course of molecular evolution between recently diverged lineages.