Phylogeography of a Holarctic rodent (Myodes rutilus): testing high-latitude biogeographical hypotheses and the dynamics of range shifts

Aim: We used the Holarctic northern red-backed vole (Myodes rutilus) as a model organism to improve our understanding of how dynamic, northern high-latitude environments have affected the genetic diversity, demography and distribution of boreal organisms. We tested spatial and temporal hypotheses de...

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Bibliographic Details
Published in:	Journal of biogeography Vol. 42; no. 2; pp. 377 - 389
Main Authors:	Kohli, Brooks A., Fedorov, Vadim B., Waltari, Eric, Cook, Joseph A.
Format:	Journal Article
Language:	English
Published:	Oxford Blackwell Publishing Ltd 01-02-2015 John Wiley & Sons Ltd Wiley Subscription Services, Inc
Subjects:	Beringia boreal mammals contact zone Eurasian Pleistocene refugia historical demography Holarctic Interpreting the past range-wide phylogeography species distribution modelling species tree
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Summary:	Aim: We used the Holarctic northern red-backed vole (Myodes rutilus) as a model organism to improve our understanding of how dynamic, northern high-latitude environments have affected the genetic diversity, demography and distribution of boreal organisms. We tested spatial and temporal hypotheses derived from previous mitochondrial studies, comparative phylogeography, palaeoecology and the fossil record regarding diversification of M. rutilus in the Palaearctic and Beringia. Location: High-latitude biomes across the Holarctic. Methods: We used a multilocus phylogeographical approach combined with species distribution models to characterize the biogeographical and demographic history of M. rutilus. Our molecular assessment included widespread sampling (more than 100 localities), species tree reconstruction and population genetic analyses. Results: Three well-differentiated mitochondrial lineages correspond to geographical regions, but nuclear genes were less structured. Multilocus divergence estimates indicated that diversification of M. rutilus was driven by events occurring before c. 100 ka. Population expansion in all three clades occurred prior to the Last Glacial Maximum (LGM) and presumably led to secondary contact. Species distribution modelling predicted a broad LGM distribution consistent with population and range expansion during this period. Main conclusions: The biogeographical history of M. rutilus differs from other boreal forest-associated species. Well-differentiated clades and the existence of secondary contact zones indicate prolonged isolation and persistence in Eurasian and Beringian réfugia. Dynamic demographic and distributional changes emphasize the impact of pre-LGM glacial-interglacial cycles on contemporary geographical structure. The Bering Strait was not a significant factor in the diversification of northern red-backed voles.
Bibliography:	Graduate and Professional Students Association University of New Mexico Department of Biology ark:/67375/WNG-W9NF1N6H-X Biology Graduate Students Association istex:2FF747CA502FD210DB55817EA95A6BE91A8CA20F Appendix S1 Samples used. Appendix S2 Supplementary sequencing and species distribution modelling methods. Appendix S3 Supplementary figures. National Science Foundation - No. NSF-DEB 0731350; No. NSF 0717214; No. NSF 1258010 ArticleID:JBI12433
ISSN:	0305-0270 1365-2699
DOI:	10.1111/jbi.12433