Affiliation:
1. Biodiversity Institute and Natural History Museum University of Kansas Lawrence Kansas USA
2. Department of Biology and Museum of Southwestern Biology University of New Mexico Albuquerque New Mexico USA
3. Australian National Wildlife Collection CSIRO National Research Collections Australia Canberra Australian Capital Territory Australia
Abstract
AbstractMany organisms possess multiple discrete genomes (i.e. nuclear and organellar), which are inherited separately and may have unique and even conflicting evolutionary histories. Phylogenetic reconstructions from these discrete genomes can yield different patterns of relatedness, a phenomenon known as cytonuclear discordance. In many animals, mitonuclear discordance (i.e. discordant evolutionary histories between the nuclear and mitochondrial genomes) has been widely documented, but its causes are often considered idiosyncratic and inscrutable. We show that a case of mitonuclear discordance in Todiramphus kingfishers can be explained by extensive genome‐wide incomplete lineage sorting (ILS), likely a result of the explosive diversification history of this genus. For these kingfishers, quartet frequencies reveal that the nuclear genome is dominated by discordant topologies, with none of the internal branches in our consensus nuclear tree recovered in >50% of genome‐wide gene trees. Meanwhile, a lack of inter‐species shared ancestry, non‐significant pairwise tests for gene flow, and little evidence for meaningful migration edges between species, leads to the conclusion that gene flow cannot explain the mitonuclear discordance we observe. This lack of evidence for gene flow combined with evidence for extensive genome‐wide gene tree discordance, a hallmark of ILS, leads us to conclude that the mitonuclear discordance we observe likely results from ILS, specifically deep coalescence of the mitochondrial genome. Based on this case study, we hypothesize that similar demographic histories in other ‘great speciator’ taxa across the Indo‐Pacific likely predispose these groups to high levels of ILS and high likelihoods of mitonuclear discordance.
Funder
Division of Environmental Biology
National Institutes of Health
Subject
Genetics,Ecology, Evolution, Behavior and Systematics
Cited by
2 articles.
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