Çoraman Emrah, Dundarova Heliana, Dietz Christian, Mayer Frieder
Eurasia Institute of Earth Sciences, Department of Ecology and Evolution, Istanbul Technical University, Maslak, Istanbul 34469, Turkey.
Museum für Naturkunde, Leibniz-Institut für Evolutions- und Biodiversitätsforschung, Berlin 10115, Germany.
R Soc Open Sci. 2020 Jun 3;7(6):191805. doi: 10.1098/rsos.191805. eCollection 2020 Jun.
Secondary contacts can play a major role in the evolutionary histories of species. Various taxa diverge in allopatry and later on come into secondary contact during range expansions. When they meet, their interactions and the extent of gene flow depend on the level of their ecological differentiation and the strength of their reproductive isolation. In this study, we present the multilocus phylogeography of two cryptic whiskered bat species, and , with a particular focus on their putative sympatric zone. Our findings suggest that and evolved in allopatry and came into secondary contact during range expansions. Individuals in the area of secondary contact, in Anatolia and the Balkans, have discordant population assignments based on the mitochondrial and the nuclear datasets. These observed patterns suggest that the local populations hybridized with expanding populations, which resulted in mitochondrial introgression from the former. In the introgression area, individuals with concordant nuclear and mitochondrial genotypes were identified in relatively few locations, suggesting that the indigenous populations might have been largely replaced by invading . Changing environmental conditions coupled with ecological competition is the likely reason for this replacement. Our study presents one possible example of a historical population replacement that was captured in phylogeographic patterns.
次级接触在物种的进化历史中可能发挥重要作用。各种分类群在异域中分化,随后在分布范围扩张期间发生次级接触。当它们相遇时,它们的相互作用和基因流动的程度取决于它们的生态分化水平和生殖隔离的强度。在本研究中,我们展示了两种隐伏须蝠物种( 和 )的多位点系统地理学,特别关注它们假定的同域分布区。我们的研究结果表明, 和 在异域中进化,并在分布范围扩张期间发生次级接触。在安纳托利亚和巴尔干半岛的次级接触区域内,基于线粒体和核数据集,个体的种群归属不一致。这些观察到的模式表明,当地的 种群与扩张的 种群杂交,这导致了线粒体基因从前者渗入。在渗入区域,相对较少的地点发现了核基因型和线粒体基因型一致的 个体,这表明当地种群可能在很大程度上被入侵的 所取代。环境条件的变化加上生态竞争可能是这种取代的原因。我们的研究展示了一个在系统地理学模式中捕获的历史种群取代的可能例子。
