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在一种地衣形成真菌的种群中,适应性分化与沿着海拔梯度的当地生物气候条件相吻合。

Adaptive differentiation coincides with local bioclimatic conditions along an elevational cline in populations of a lichen-forming fungus.

作者信息

Dal Grande Francesco, Sharma Rahul, Meiser Anjuli, Rolshausen Gregor, Büdel Burkhard, Mishra Bagdevi, Thines Marco, Otte Jürgen, Pfenninger Markus, Schmitt Imke

机构信息

Senckenberg Biodiversity and Climate Research Centre (BiK-F), Senckenberganlage 25, 60325, Frankfurt am Main, Germany.

Institut für Ökologie, Evolution und Diversität, Goethe-Universität Frankfurt, Max-von-Laue-Str. 9, 60438, Frankfurt am Main, Germany.

出版信息

BMC Evol Biol. 2017 Mar 31;17(1):93. doi: 10.1186/s12862-017-0929-8.

DOI:10.1186/s12862-017-0929-8
PMID:28359299
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5374679/
Abstract

BACKGROUND

Many fungal species occur across a variety of habitats. Particularly lichens, fungi forming symbioses with photosynthetic partners, have evolved remarkable tolerances for environmental extremes. Despite their ecological importance and ubiquity, little is known about the genetic basis of adaption in lichen populations. Here we studied patterns of genome-wide differentiation in the lichen-forming fungus Lasallia pustulata along an altitudinal gradient in the Mediterranean region. We resequenced six populations as pools and identified highly differentiated genomic regions. We then detected gene-environment correlations while controlling for shared population history and pooled sequencing bias, and performed ecophysiological experiments to assess fitness differences of individuals from different environments.

RESULTS

We detected two strongly differentiated genetic clusters linked to Mediterranean and temperate-oceanic climate, and an admixture zone, which coincided with the transition between the two bioclimates. High altitude individuals showed ecophysiological adaptations to wetter and more shaded conditions. Highly differentiated genome regions contained a number of genes associated with stress response, local environmental adaptation, and sexual reproduction.

CONCLUSIONS

Taken together our results provide evidence for a complex interplay between demographic history and spatially varying selection acting on a number of key biological processes, suggesting a scenario of ecological speciation.

摘要

背景

许多真菌物种存在于多种栖息地。特别是地衣,即与光合伙伴形成共生关系的真菌,已经进化出对极端环境的显著耐受性。尽管它们具有生态重要性且分布广泛,但关于地衣种群适应的遗传基础却知之甚少。在这里,我们研究了在地中海地区沿着海拔梯度形成地衣的真菌脓疱茶渍(Lasallia pustulata)全基因组分化的模式。我们对六个种群进行了混合重测序,并确定了高度分化的基因组区域。然后,我们在控制共享种群历史和混合测序偏差的同时检测基因与环境的相关性,并进行了生态生理学实验,以评估来自不同环境的个体的适应性差异。

结果

我们检测到两个与地中海和温带海洋性气候相关的高度分化的遗传簇,以及一个混合区,该混合区与两种生物气候之间的过渡相吻合。高海拔个体表现出对更湿润和更阴暗条件的生态生理适应。高度分化的基因组区域包含许多与应激反应、局部环境适应和有性生殖相关的基因。

结论

综合我们的结果为人口历史与作用于一些关键生物学过程的空间变化选择之间的复杂相互作用提供了证据,这表明了一种生态物种形成的情景。

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