Population genetic structure of the European pond turtle (Emys orbicularis) at the northern edge of the Pannonian Basin

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS
Peter Mikulíček, Petr Papežík, Stanislav Danko, Róbert Dankovics, Daniel Gruľa, Bálint Halpern, Peter Havaš, Botond Heltai, Enikő Horváth, Tomáš Kušík, Peter Puchala, Maria Schindler, Viliam Vongrej, Marcel Uhrin
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Abstract

Populations of plants and animals at the edge of a species’ range may exhibit lower genetic diversity due to a combination of historical (e.g., postglacial dispersal) and contemporary (e.g., low effective population size, strong genetic drift or bottlenecks) processes. In this study, we analysed the genetic structure of populations of the European pond turtle (Emys orbicularis) in the northern part of the Pannonian Basin (Slovakia, Hungary, Austria), which represents the edge of the species’ range. Using mitochondrial DNA (mtDNA) and microsatellite markers, we aimed to assign individuals and populations into phylogeographic lineages and to determine genetic variation and population structure. Our study revealed that most individuals from natural populations belong to mtDNA lineage II (widely distributed haplotype IIa, and likely endemic haplotypes IIl and IIo), which is typical for the whole Pannonian region. However, non-native haplotypes were detected in one Slovak population (haplotype Ib) and in the Austrian Donau Auen National Park (haplotype IVa). Microsatellite markers revealed high variability comparable to that in other parts of the range, suggesting that marginal populations may not necessarily have reduced genetic diversity. A genetically mixed population was found in the Donau Auen National Park, consisting of turtles belonging to mtDNA lineage II (taxonomically assessed as subspecies E. orbicularis orbicularis) and lineage IV (taxonomically assessed as E. orbicularis hellenica), which is native to the circum-Adriatic region. The admixture suggests intense hybridization and introgression between the two lineages (subspecies).

Abstract Image

潘诺尼亚盆地北部边缘欧洲池龟(Emys orbicularis)的种群遗传结构
由于历史(如冰川期后的扩散)和当代(如有效种群规模较小、强烈的遗传漂移或瓶颈)过程的共同作用,处于物种分布区边缘的动植物种群可能会表现出较低的遗传多样性。在这项研究中,我们分析了潘诺尼亚盆地北部(斯洛伐克、匈牙利、奥地利)欧洲池龟(Emys orbicularis)种群的遗传结构,该地区代表了该物种分布区的边缘。利用线粒体 DNA(mtDNA)和微卫星标记,我们旨在将个体和种群归入系统地理学系,并确定遗传变异和种群结构。我们的研究发现,来自自然种群的大多数个体属于 mtDNA 第 II 系(广泛分布的单倍型 IIa,以及可能的地方性单倍型 IIl 和 IIo),这是整个潘诺尼亚地区的典型特征。不过,在一个斯洛伐克种群(单体型 Ib)和奥地利多瑙河奥恩国家公园(单体型 IVa)中发现了非本地单体型。微卫星标记揭示了与该分布区其他地方相当的高变异性,表明边缘种群的遗传多样性不一定减少。在多瑙奥恩国家公园发现了一个基因混合种群,由属于 mtDNA 第 II 系(在分类学上被评估为 E. orbicularis orbicularis 亚种)和第 IV 系(在分类学上被评估为 E. orbicularis hellenica)的海龟组成,后者原产于环亚得里亚海地区。这种混杂现象表明,这两个品系(亚种)之间存在着强烈的杂交和引种现象。
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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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