Impact of late Quaternary climate change on the demographic history of Japanese field voles and hares revealed by mitochondrial cytochrome b sequences.
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Abstract
The mitochondrial cytochrome b gene of the Japanese field vole (Microtus montebelli), an herbivorous rodent, was subjected to an analysis of sequence variation with the objective of elucidating the population histories of this species. Construction of a phylogenetic tree revealed the existence of several region-specific lineages in Honshu and Kyushu, which were evenly separated from each other. In consideration of the documented time-dependent evolutionary rates of rodents, the estimated divergence times indicate that the region-specific lineages of M. montebelli emerged 160,000-300,000 years ago. In a haplotype network, the region-specific lineages from northern and central Honshu tended to show star-shaped clusters, with additional internal star-shaped clusters, indicative of two periods of population expansion. The onsets of the expansions were estimated to have occurred 15,000 and 10,000 years ago, respectively, suggestive of association with the two periods of rapid warming following the Last Glacial Maximum (LGM). In contrast, such predicted post-LGM expansion events were less pronounced in the southern lineages, implying latitudinal dependence of the effect of the LGM on population dynamics. Sado Island haplotypes exhibited a network with a star-shaped pattern and a 10,000-year-old expansion signal, surrounded by a Honshu haplotype cluster with a 15,000-year-old expansion signal, suggesting contribution of the post-LGM expansion events in the formation of the Sado population. A reanalysis of Cytb sequence of the Japanese hare (Lepus brachyurus), which has a similar geographic range to the voles, yielded results that were consistent with those of the vole analysis, confirming that the characteristics of the post-LGM expansion event were dependent on latitude, involved two successive expansion events, and enabled migration across deep straits. It seems reasonable to infer that the environmental changes that occurred during the warm periods following the LGM were a contributing factor in the expansion of the distribution range of newly emerged haplotype groups.
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