Genetic structure of the endemic Papaver occidentale indicates survival and immigration in the Western Prealps

IF 2.6 3区 生物学 Q2 PLANT SCIENCES Alpine Botany Pub Date : 2020-07-30 DOI:10.1007/s00035-020-00238-3
Loïc Pittet, Yann Fragnière, Sandra Grünig, Sébastien Bétrisey, Benoît Clément, Emanuel Gerber, Michał Ronikier, Gregor Kozlowski, Christian Parisod
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引用次数: 5

Abstract

Climatic oscillations of the Quaternary rapidly compelled plant species to shift their geographical range. How alpine plant species responded to climate change, however, remains elusive and remnants of the cold-adapted flora that currently strive in restricted ranges as small, isolated populations have been particularly overlooked. To address the evolutionary history of such a ‘glacial relict’, we here sampled and genotyped all known native populations of a narrow endemic species from the northwestern Alps, Papaver occidentale, as well as closely related taxa with double digest restriction-site Associated DNA (ddRAD) sequencing. Spatial patterns of genetic variation across populations coupled with insights from climatic niche modelling through time address underpinings of the long-term persistence of the species in face of climate changes. Evidence from population genetics and ecological modelling indicates that P. occidentale likely persisted through the last glacial maximum outside of the Western Prealps and that a major lineage recolonized the area from lower elevation, external regions. Differentiated lineages at the Northern margins of the species distribution range highlight highly divergent and geographically restricted populations that include considerable share of private markers and may indicate local glacial survival in isolated conditions. Our data thus imply that processes having shaped intraspecific spatial genetic structure within the Alps can be complex and lead to mosaic of populations with a mixed-history of local survival and immigration. A better understanding of spatio-temporal aspects of range contraction–expansion is crucial to shed light on processes underlying the evolution of remnant populations of such endemic species and set conservation priorities considering current climate changes.

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地方性西番木瓜的遗传结构指示其在西伯那普雷普斯的生存和迁移
第四纪的气候振荡迅速迫使植物物种改变其地理范围。然而,高山植物物种如何应对气候变化仍然难以捉摸,目前作为小而孤立的种群在有限范围内努力生存的适应寒冷的植物群的残余尤其被忽视。为了了解这种“冰川遗迹”的进化史,我们在这里对阿尔卑斯山西北部的一种狭窄特有物种Papaver occidentale的所有已知本地种群进行了采样和基因分型,以及使用双消化限制性位点相关DNA(ddRAD)测序的密切相关类群。种群间遗传变异的空间模式,再加上气候生态位建模的见解,以及该物种在气候变化面前长期持续存在的时间地址基础。来自种群遗传学和生态模型的证据表明,西太平洋假单胞菌很可能一直持续到西普雷普斯山脉以外的最后一次冰川盛期,并且一个主要谱系从海拔较低的外部地区重新定居在该地区。物种分布范围北部边缘的分化谱系突出了高度分化和地理限制的种群,其中包括相当多的私人标记,可能表明当地冰川在孤立条件下生存。因此,我们的数据表明,在阿尔卑斯山形成种内空间遗传结构的过程可能很复杂,并导致具有当地生存和移民混合历史的种群镶嵌。更好地了解范围收缩-扩张的时空方面,对于阐明此类特有物种残余种群进化的基本过程,并在考虑当前气候变化的情况下设定保护优先事项至关重要。
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来源期刊
Alpine Botany
Alpine Botany PLANT SCIENCES-
CiteScore
5.10
自引率
18.50%
发文量
15
审稿时长
>12 weeks
期刊介绍: Alpine Botany is an international journal providing a forum for plant science studies at high elevation with links to fungal and microbial ecology, including vegetation and flora of mountain regions worldwide.
期刊最新文献
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