Abstract
The phylogeographic structure of the land snail Xerocrassa mesostena on Crete inferred from AFLP markers and mitochondrial cox1 sequences can be explained by three mechanisms: gene flow restriction, population expansion and leptokurtic dispersal. Gene flow restriction by geographic barriers caused subdivision of the gene pool into distinct clusters. Population expansion was probably facilitated by deforestation of Crete in the postglacial. Newly available areas were colonized by leptokurtic dispersal, i.e. slow active expansion resulting in isolation by distance within the clusters and occasional long distance dispersal events that resulted in departures from the isolation by distance model. Less than one percent of the AFLP markers show correlations with environmental variables. Random phylogeographic breaks in the distribution of the mitochondrial haplotype groups indicate that single locus markers, especially mitochondrial DNA, might result in a misleading picture of the phylogeographic structure of a species. Restriction of gene flow between metapopulations caused by geographical barriers can interact with sexual selection resulting in the differentiation of these metapopulations into separate species without noticeable ecological differentiation. Evidence for gene flow between parapatrically distributed evolutionary units representing different stages of the speciation process suggests that the ongoing process of fragmentation of the X. mesostena complex might be an example for parapatric speciation. The lack of ecological differentiation between these units confirms theoretical predictions that divergent selection for local adaptation is not required for rapid speciation.
Highlights
Geographical isolation, selection and genetic drift may result in geographic differentiation of populations and in speciation
We studied the population structure of X. mesostena using amplified fragment length polymorphism (AFLP) markers [14] and compared it with the phylogeographic pattern revealed by mitochondrial sequences to infer the importance of geographic barriers for the differentiation process
1328 AFLP fragments of 70–322 bases length resulting from six primer combinations were scored in 95 individuals of X. mesostena and one individual of X. subvariegata and of X. grabusana as outgroups (Table S1)
Summary
Geographical isolation, selection and genetic drift may result in geographic differentiation of populations and in speciation. Snails often show distinct patterns of morphological and genetic differentiation of metapopulations and are classical study objects for investigating the roles of history and selection in the origin of diversity [3]. They provide paradigms for population structure due to selection as well as population structure resulting from historical or current geographical barriers. An example of population structure resulting from selection without geographical isolation is the periwinkle Littorina saxatilis. Some studies of genetic differentiation in land snails revealed no evidence for selection. It was inferred that ‘area effects’ in Cepaea nemoralis [7], genetic differentiation in Partula taeniata [8], and the differentiation of subspecies in Charpentieria itala [9] resulted from historical separation of metapopulations
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