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Spatial genetic structure and historical demography of East Asian wild boar
Author(s) -
Hu C.,
Pan T.,
Wu Y.,
Zhang C.,
Chen W.,
Chang Q.
Publication year - 2020
Publication title -
animal genetics
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.756
H-Index - 81
eISSN - 1365-2052
pISSN - 0268-9146
DOI - 10.1111/age.12955
Subject(s) - wild boar , genetic structure , phylogeography , biology , genetic diversity , mtdna control region , ecology , demographic history , evolutionary biology , population , gene flow , pleistocene , phylogenetic tree , east asia , domestication , geography , demography , haplotype , allele , genetics , archaeology , paleontology , china , sociology , gene
Summary Pleistocene climatic fluctuations may have had a profound impact on the evolutionary history of many species. The geographical pattern of European wild boar ( Sus scrofa ) is clearly studied, and it was greatly influenced by ancient climatic events, especially the Last Glacial Maximum. Previous research on genetic variation has mainly focused on the origin and distribution histories of domestic pigs. However, some questions have not been answered, including those concerning the genetic diversity, geographical pattern and possible historic influence of climate on East Asian wild boar (EAWB). Employing the control region of mtDNA (511 bp), we investigated the contributions of historic climate, which possibly shaped the genetic pattern of wild boar. Given that the level of genetic diversity of wild boars is higher in East Asia than in Europe, 172 haplotypes were detected from 680 individuals. Phylogenetic analysis demonstrated the complex phylogeographic structure of EAWB. Mismatch analysis, neutrality tests and the Bayesian Skyline Plot results all retrieved signals of a rapid population expansion, which might have played an important role in driving the formation of complex spatial genetic structure. Genetic data and species distribution modelling showed that the Last Glacial Maximum had weak effect on the distribution of the EAWB. We suggest that, in shaping spatial genetic structure in East Asian, long‐term gene flow and population history played more important roles than Pleistocene climate fluctuations.

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