Journal
AMERICAN JOURNAL OF BOTANY
Volume 103, Issue 1, Pages 99-109Publisher
WILEY
DOI: 10.3732/ajb.1500147
Keywords
Baker's law; breeding system; demographic history; dispersal; colonization bottleneck; isolation by distance; floral evolution; mating system; self-fertilization; single nucleotide polymorphism
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Funding
- National Science Foundation [DEB-1025004]
- University of Minnesota
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PREMISE OF THE STUDY: The population biology of outcrossing and self-fertilizing taxa is thought to differ because of the advantage that selfers have in colonizing unoccupied sites where mates and pollinators may be limiting (Baker's Law). This reduced tendency for outcrossers to colonize new sites, along with their greater dependence on pollinators to disperse pollen, has the potential to differently influence the genetic diversity and structure of outcrossing and selfing populations. METHODS: We conducted a comparative population genetic study of two sister outcrossing and selfing subspecies of Clarkia xantiana that have very recently diverged. We used DNA sequence variation (>40 kb from eight nuclear loci) from large samples of individuals from 14 populations to assess geographic patterns of genetic diversity and make inferences about the demographic and colonization histories of each subspecies. KEY RESULTS: We show that sequence variation is strongly reduced across all selfing populations. The demographic history of selfing populations exhibits recent colonization bottlenecks, whereas such bottlenecks are rarely observed for the outcrosser. The greater effect of genetic drift in the selfer has resulted in strong population genetic structure, but with no pattern of isolation by distance. By contrast, the stronger effect of gene flow in the outcrosser has resulted in considerably less structure, but a significant pattern of isolation by distance. CONCLUSIONS: Taken together, our results suggest that selfing populations are not at migration-drift equilibrium, are affected by strong episodes of genetic drift during colonization, and experience little or no subsequent gene flow from other populations after those founder events.
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