Phylogeography of the Euro-Siberian steppe plant Astragalus austriacus: Late Pleistocene climate fluctuations fuelled formation and expansion of two main lineages from a Pontic-Pannonian area of origin
IF 4.3 3区 材料科学Q1 ENGINEERING, ELECTRICAL & ELECTRONIC
Clemens Maylandt , Anna Seidl , Philipp Kirschner , Simon Pfanzelt , Gergely Király , Barbara Neuffer , Frank R. Blattner , Herbert Hurka , Nikolai Friesen , Alexander V. Poluyanov , Petr A. Kosachev , Corinna Schmiderer , Karl-Georg Bernhardt , Karin Tremetsberger
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引用次数: 0
Abstract
The Euro-Siberian steppes have experienced large-scale range fluctuations due to the climatic changes of the Pleistocene that may have also fuelled reshuffling of past steppe vegetation. These species-rich steppe grasslands were much more widespread during glacials and contracted during interglacials, a dynamic which should also be reflected by the evolutionary history of their biota. Astragalus austriacus is a widespread steppe species with European-western Siberian distribution and an ideal model to study the florogenesis of the Euro-Siberian steppes. Here, we inferred the phylogeography of A. austriacus based on genotyping-by-sequencing (GBS) data from populations sampled from the western edge of the Pannonian region across the Pontic region to the western Siberian region. Additionally, we applied molecular dating using single gene sequence data (ycf1, matK and ITS). We outline an evolutionary scenario in which intraspecific diversification occurred in the eastern part of Europe during the later Pleistocene (0.48–0.24 Ma). From there, the species expanded both eastwards and westwards, likely during a cold period, which is reflected by two main lineages within A. austriacus that today occur in the Pannonian sensu lato and in the Pontic/south-western Siberian regions, respectively. Demographic modelling supported such a scenario and showed that population sizes were larger during the last cold stage and contracted postglacially. Within the Pannonian sensu lato region, strong substructure was detected, likely as a result of repeated disintegration of the continuous cold-stage steppes in Europe. Finally, our results are in line with evolutionary scenarios suggested for other steppe species such as Adonis vernalis.
由于更新世的气候变化,欧洲-西伯利亚大草原经历了大规模的范围波动,这可能也加剧了过去草原植被的重新组合。这些物种丰富的草原在冰川期分布更为广泛,而在间冰期则有所收缩,其生物群的进化史也应反映出这一动态。黄芪(Astragalus austriacus)是欧洲-西伯利亚西部分布广泛的草原物种,也是研究欧洲-西伯利亚草原植物发生的理想模型。在此,我们根据从潘诺尼亚地区西部边缘、波罗的海地区到西伯利亚西部地区采样的种群的基因分型测序(GBS)数据,推断了黄芪的系统地理学。此外,我们还利用单基因序列数据(ycf1、matK 和 ITS)进行了分子年代测定。我们勾勒出这样一种进化情景:在更新世晚期(0.48-0.24 Ma),欧洲东部出现了种内分化。从那里开始,该物种向东和向西扩展,很可能是在一个寒冷时期,这反映在 A. austriacus 的两个主要品系中,这两个品系今天分别出现在潘诺尼亚(Pannonian sensu lato)和波罗的海(Pontic)/西伯利亚西南部地区。人口模型支持这种假设,并表明在最后一个寒冷阶段,种群规模较大,而在冰川期之后,种群规模缩小。在潘诺尼亚(Pannonian sensu lato)地区,我们发现了很强的亚结构,这可能是欧洲连续寒冷阶段草原反复解体的结果。最后,我们的研究结果与其他草原物种(如 Adonis vernalis)的进化情况一致。