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Mitogenome phylogeographic analysis of a planktonic crustacean
- Fields, Peter D., Obbard, Darren J., McTaggart, Seanna J., Galimov, Yan, Little, Tom J., Ebert, Dieter
- Molecular phylogenetics and evolution 2018 v.129 pp. 138-148
- Daphnia magna, Daphnia similis, ecology, ecotoxicology, evolution, genes, genetic markers, genetic variation, mitochondrial DNA, mitochondrial genome, models, nucleotide sequences, phylogeography, plankton, population genetics, space and time, Asia, Eurasia, Europe, Middle East
- Phylogeography places population genetics in an explicitly spatial context, and in doing so attempts to reconstruct the historical and contemporary evolutionary processes acting across a species range through space and time. Here we present the phylogeographical structure of Daphnia magna as determined for full mitochondrial genomes from samples of 60 populations throughout much of the species known range, including Europe, the Middle East, and Asia. Contrary to previous analyses, the present analysis of the mitochondrial genome reveals coarse-grained (continental scale) evidence for spatial structure, and in particular a deep split between Western Eurasia and East Asian D. magna lineages. In contrast to previous analyses with nuclear genetic markers, our mitogenomic analysis reveals much less structure within lineages. We quantify divergence between species using the full mitochondrial genome sequence of a closely related species, D. similis. The distribution of European and Middle Eastern genetic diversity is consistent with a rapid demographic expansion following the end of the most recent ice age about 10,000 years before present. By estimating species wide distributions of dN/dS in mtDNA, we provide evidence that the effectiveness of purifying selection on protein coding genes in the mitochondrial genome of coastal rock pool populations, which have pronounced extinction-colonization dynamics, is reduced compared to larger and more stable non-rock pool populations. The present study adds important insights into the evolutionary history of a widely used model organism in ecology, evolution and ecotoxicology, and highlights the utility of phylogeographic analysis of organellar genomes to understand evolutionary processes.