@ARTICLE{TreeBASE2Ref31217, author = {Jie Xu and Bernhard Hausdorf}, title = {Repeated hybridisation increased diversity in the door snail complex Charpentieria itala in the Southern Alps}, year = {2020}, keywords = {ddRAD, Charpentieria, Southern Alps, phylogeography, hybridization, land snails}, doi = {}, url = {http://}, pmid = {}, journal = { Molecular Phylogenetics and Evolution}, volume = {}, number = {}, pages = {}, abstract = {The door snail species complex Charpentieria itala is widely distributed in the Southern Alps and subdivided into several morphologically differentiated subspecies. Thus, it can be used as a model group for understanding migration and differentiation processes in the Southern Alps. We generated genome-wide double digest Restriction Site Associated DNA (ddRAD) sequencing data for 166 specimens from 36 populations of the door snail Charpentieria itala and for 8 specimens of the other three Charpentieria species to reconstruct their evolutionary history and phylogeography. Phylogenetic and STRUCTURE analyses based on the ddRAD data indicated that the repeated separation of the populations in western and eastern groups by the Garda glacier during the glacials was the process that most strongly shaped the population structure of C. itala. This process may also explain a similar phylogeographic boundary in many other southern Alpine animal and plant species. Our study revealed that some populations that resemble Charpentieria stenzii morphologically and ecologically, the ?stenzioid? subspecies, originated by a hybridization event with Charpentieria stenzii. A further hybridization event between stenzioid populations that survived the glacials in mountain refuges and non-stenzioid populations that probably came into contact with stenzioid populations as a result of climate warming during an interglacial resulted in the origin of a hybrid subspecies that is adapted to intermediate altitudes. Our study demonstrated that the origin of new differentiated taxa by hybridization, is more frequent than previously assumed. Moreover, our study showed that hybridization may result in different outcomes even if genetically similar population groups were involved depending on the temporal and spatial extent of hybridization.} }

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