[作为研究物种和物种形成问题的模型的高加索隐种啮齿类动物]。

Pub Date : 2015-07-01
M I Baskevich, S G Potapov, T A Mironova
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引用次数: 0

摘要

以高加索地区鼠类的隐种、海拔环境梯度突出的山地链和山地生境的岛状格局为模型,考虑了物种和物种形成的问题。这些情况为选择物种概念(生物学或系统发育),探索模式隐物种群体的祖先途径(同域或异域物种形成)以及测试“避难所”假说提供了额外的可能性。作为模型种,使用来自“高加索”组(一组无条纹桦小鼠)的兄弟种Sicista和田鼠亚种Terricola(田鼠,Arvicolinae)的代表。基于对来自“高加索人”类群的姐妹种Sicista和来自terrricola亚种(Microtus, Arvicolinae)的田鼠的核学、线粒体基因cytb的核苷酸序列、口腔特征的多元统计分析和生物地理学的新数据,重构了它们的进化史,并对适用的物种概念进行了检验。对于目前来自“高加索人”群的姐妹种Sicista来说,异源分散是典型的,这与物种在避难所形成的假设一致。高加索地区的土藓属兄弟物种的同系性被认为是次要的,它们的表型相似性是对相似环境条件的适应。证实高加索地区大田鼠(terrricola)和达格斯坦田鼠(terrricola)在没有杂交的情况下共存,支持了物种的生物学概念。来自高加索白桦小鼠群的Sicista异种的存在最符合系统发育概念。然而,在兄弟物种之间,特别是在共同进化线的极端变体(Sicista kazbegica, Sicista kluchorica)之间的高水平染色体差异并不与物种的生物学概念相矛盾。
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[Caucasian cryptic species of rodents as models for studying the problem of species and speciation].

The problem of species and speciation is considered using as a model the cryptic species of rodents inhabiting the Caucasus, the mountain chain with prominent altitude environmental gradient and insular pattern of mountain habitats. These circumstances open additional possibilities for the choice of species conception (biological or phylogenetic), exploration of ancestry pathways (sympatric or allopatric speciation) of model cryptic species groups, and testing the 'refuge' hypothesis. As model species, sibling-species Sicista from the group 'caucasica' (a group of unstriped birch mice) and representatives of the vole subspecies Terricola (Microtus, Arvicolinae) were used. Based on the new data on karyology, nucleotide sequences of mitochondrial gene cytb, multivariate statistical analysis of odontologic traits, and biogeography of sibling-species Sicista from the group 'caucasica' and voles from subspecies Terricola (Microtus, Arvicolinae), their evolutionary history is reconstructed and applicable species concepts are examined. For the present sibling-species Sicista from the group 'caucasica' the allopatric dispersion is typical, which agrees with the hypothesis of speciation in refuges. The sympatry of Terricola sibling-species in the Caucasus is considered as being secondary, and their phenotypic likeness--as an adaptation to similar environmental conditions. Affirmed coexistence of sibling-species Microtus (Terricola) majori and Microtus (Terricola) daghestanicus in the Caucasus (without their hybridization) supports the biological conception of species. The existence of Sicista allospecies from the group of Caucasian unstriped birch mice is best conformed to the phylogenetic conception. However, the high level of chromosomal differences between sibling-species and, in particular, between extreme variants of common evolutionary line (Sicista kazbegica, Sicista kluchorica) does not contradict the biological conception of species.

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