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气候适宜性、距离隔离和河流阻力解释了巴西鞭尾蜥的遗传变异。

Climatic suitability, isolation by distance and river resistance explain genetic variation in a Brazilian whiptail lizard.

机构信息

Pós-Graduação em Ecologia, Centro de Biociências, Universidade Federal do Rio Grande do Norte, Natal, RN, Brazil.

Universidade Federal de Mato Grosso do Sul, Centro de Ciências Biológicas e da Saúde, Laboratório de Zoologia, Campo Grande, MS, Brazil.

出版信息

Heredity (Edinb). 2018 Mar;120(3):251-265. doi: 10.1038/s41437-017-0017-2. Epub 2017 Dec 14.

DOI:10.1038/s41437-017-0017-2
PMID:29238076
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5836570/
Abstract

Spatial patterns of genetic variation can help understand how environmental factors either permit or restrict gene flow and create opportunities for regional adaptations. Organisms from harsh environments such as the Brazilian semiarid Caatinga biome may reveal how severe climate conditions may affect patterns of genetic variation. Herein we combine information from mitochondrial DNA with physical and environmental features to study the association between different aspects of the Caatinga landscape and spatial genetic variation in the whiptail lizard Ameivula ocellifera. We investigated which of the climatic, environmental, geographical and/or historical components best predict: (1) the spatial distribution of genetic diversity, and (2) the genetic differentiation among populations. We found that genetic variation in A. ocellifera has been influenced mainly by temperature variability, which modulates connectivity among populations. Past climate conditions were important for shaping current genetic diversity, suggesting a time lag in genetic responses. Population structure in A. ocellifera was best explained by both isolation by distance and isolation by resistance (main rivers). Our findings indicate that both physical and climatic features are important for explaining the observed patterns of genetic variation across the xeric Caatinga biome.

摘要

遗传变异的空间模式有助于了解环境因素是如何允许或限制基因流动并为区域适应创造机会的。来自巴西半干旱卡廷加生物群落等恶劣环境的生物可能揭示出严峻的气候条件如何影响遗传变异模式。本文我们结合了来自线粒体 DNA 的信息以及物理和环境特征,研究了卡廷加景观的不同方面与鞭尾蜥 Ameivula ocellifera 的空间遗传变异之间的关系。我们调查了哪些气候、环境、地理和/或历史因素最能预测:(1)遗传多样性的空间分布,以及(2)种群间的遗传分化。我们发现,A. ocellifera 的遗传变异主要受到温度可变性的影响,这调节了种群之间的连通性。过去的气候条件对塑造当前的遗传多样性很重要,这表明遗传反应存在时间滞后。A. ocellifera 的种群结构最好由距离隔离和阻力隔离(主要河流)来解释。我们的研究结果表明,物理和气候特征对于解释在干旱的卡廷加生物群落中观察到的遗传变异模式都很重要。

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