Intra-Deme Molecular Diversity in Spatially Expanding Populations

doi:10.1093/molbev/msg009

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Mol. Biol. Evol. 20(1):76-86. 2003
DOI: 10.1093/molbev/msg009
© 2003 by the Society for Molecular Biology and Evolution. ISSN: 0737-4038

Intra-Deme Molecular Diversity in Spatially Expanding Populations

Nicolas Ray^*^,, Mathias Currat^*^, and Laurent Excoffier^,

^* Genetics and Biometry Lab, Department of Anthropology and Ecology, University of Geneva, Geneva, Switzerland
Computational and Molecular Population Genetics Lab, Zoological Institute, University of Bern, Bern, Switzerland

We report here a simulation study examining the effect of arecent spatial expansion on the pattern of molecular diversitywithin a deme. We first simulate a range expansion in a virtualworld consisting in a two-dimensional array of demes exchanginga given proportion of migrants (m) with their neighbors. Therecorded demographic and migration histories are then used undera coalescent approach to generate the genetic diversity in asample of genes. We find that the shape of the gene genealogiesand the overall pattern of diversity within demes depend notonly on the age of the expansion but also on the level of geneflow between neighboring demes, as measured by the product Nm,where N is the size of a deme. For small Nm values (< approximately20 migrants sent outwards per generation), a substantial proportionof coalescent events occur early in the genealogy, whereas withlarger levels of gene flow, most coalescent events occur aroundthe time of the onset of the spatial expansion. Gene genealogiesare star shaped, and mismatch distributions are unimodal aftera range expansion for large Nm values. In contrast, gene genealogiespresent a mixture of both very short and very long branch lengths,and mismatch distributions are multimodal for small Nm values.It follows that statistics used in tests of selective neutralitylike Tajima's D statistic or Fu's F_S statistic will show verysignificant negative values after a spatial expansion only indemes with high Nm values. In the context of human evolution,this difference could explain very simply the fact that analysesof samples of mitochondrial DNA sequences reveal multimodalmismatch distributions in hunter-gatherers and unimodal distributionsin post-Neolithic populations. Indeed, the current simulationsshow that a recent increase in deme size (resulting in a largerNm value) is sufficient to prevent recent coalescent eventsand thus lead to unimodal mismatch distributions, even if demesizes (and therefore Nm values) were previously much smaller.The fact that molecular diversity within deme is so dependenton recent levels of gene flow suggests that it should be possibleto estimate Nm values from samples drawn from a single deme.

Key Words: mismatch distribution • spatial expansion • demographic expansion • human evolution • mitochondrial DNA • subdivided population

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