Drivers of population genetic differentiation in the wild: isolation by dispersal limitation, isolation by adaptation and isolation by colonization

Empirical population genetic studies have been dominated by a neutralist view, according to which gene flow and drift are the main forces driving population genetic structure in nature. The neutralist view in essence describes a process of isolation by dispersal limitation (IBDL) that generally lead...

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Bibliographic Details
Published in:	Molecular ecology Vol. 22; no. 24; pp. 5983 - 5999
Main Authors:	Orsini, Luisa, Vanoverbeke, Joost, Swillen, Ine, Mergeay, Joachim, Meester, Luc
Format:	Journal Article
Language:	English
Published:	Oxford Blackwell Publishing Ltd 01-12-2013 Blackwell
Subjects:	Adaptation, Physiological - genetics Biological and medical sciences Biological evolution Dispersal Ecology Ecosystem Evolution, Molecular Founder Effect Fundamental and applied biological sciences. Psychology Gene Flow Genetic diversity Genetic Drift Genetic Variation Genetics of eukaryotes. Biological and molecular evolution Genetics, Population - methods Genotype Genotype & phenotype habitats isolation by adaptation isolation by colonization isolation by distance isolation by environment landscapes Models, Genetic monopolization Population genetics Population genetics, reproduction patterns Genetic variability isolation by adaptation isolation by environment isolation by colonization Population genetics Dispersion monopolization isolation by distance Limitation Environment Colonization Distance Adaptation
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Summary:	Empirical population genetic studies have been dominated by a neutralist view, according to which gene flow and drift are the main forces driving population genetic structure in nature. The neutralist view in essence describes a process of isolation by dispersal limitation (IBDL) that generally leads to a pattern of isolation by distance (IBD). Recently, however, conceptual frameworks have been put forward that view local genetic adaptation as an important driver of population genetic structure. Isolation by adaptation (IBA) and monopolization (M) posit that gene flow among natural populations is reduced as a consequence of local genetic adaptation. IBA stresses that effective gene flow is reduced among habitats that show dissimilar ecological characteristics, leading to a pattern of isolation by environment. In monopolization, local genetic adaptation of initial colonizing genotypes results in a reduction in gene flow that fosters the persistence of founder effects. Here, we relate these different processes driving landscape genetic structure to patterns of IBD and isolation by environment (IBE). We propose a method to detect whether IBDL, IBA and M shape genetic differentiation in natural landscapes by studying patterns of variation at neutral and non‐neutral markers as well as at ecologically relevant traits. Finally, we reinterpret a representative number of studies from the recent literature by associating patterns to processes and identify patterns associated with local genetic adaptation to be as common as IBDL in structuring regional genetic variation of populations in the wild. Our results point to the importance of quantifying environmental gradients and incorporating ecology in the analysis of population genetics.
Bibliography:	http://dx.doi.org/10.1111/mec.12561 FWO - No. G.0468.10 ark:/67375/WNG-XCWRBKMF-D KU Leuven Research Fund - No. GOA/2008/6; No. PF/2010/7 ArticleID:MEC12561 istex:EA4D520D842F864D70E92E95957ACFF014AD1329 ObjectType-Article-2 SourceType-Scholarly Journals-1 ObjectType-Feature-3 content type line 23 ObjectType-Review-1 ObjectType-Article-1 ObjectType-Feature-2
ISSN:	0962-1083 1365-294X
DOI:	10.1111/mec.12561