Molecular evidence and environmental niche evolution at the origin of the disjunct distribution in three mountain endemic Tephroseris (Asteraceae) of the Mediterranean basin

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS
Martino Adamo, Katarina Skokanová, Javier Bobo-Pinilla, Elisa Giaccone, Julio Peñas de Giles, Marco Mucciarelli
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Abstract

Studies on the origin and evolutionary history of closely related plants help to understand patterns of diversity of the mountain flora in addition to providing the basis for their identification. The genus Tephroseris includes three endemic taxa with small and disjoint distributions in the high mountains of the Iberian Peninsula and on the Maritime Alps. Tephroseris balbisiana is native to the Southwestern Alps, Tephroseris elodes to Sierra Nevada, and Tephroseris coincyi to Sierra de Gredos. These taxa have been treated under different combinations of species or subspecies due to limited morphological differentiation, but comprehensive studies have not been published so far. By combining information from phylogeny, molecular dating and genome size, we demonstrated the taxonomic distinctiveness between T. balbisiana and the two Iberian taxa. Although the lack of variability in plastid DNA hampered the precise estimation of the diversification events, some of the recovered patterns suggested a recent divergence of T. balbisiana, T. elodes and T. coincyi dating back to the Pleistocene (0.5–2.8 Mya). However, niche modeling supported a geographical overlap between the three taxa during the Last Glacial Maximum (LGM). Moreover, the fragmentation of their ancient larger distribution range, particularly in the lower elevations of the Iberian Peninsula, and migration to glacial refuges in the south-western Alps, provide the most plausible explanations for the current disjoint distribution within the Mediterranean mountains. Furthermore, based on the evidence we gathered, we inferred that the alpine T. balbisiana, as well as the Iberian taxa, should be considered as three distinct subspecies.

Abstract Image

地中海盆地三种山地特有的紫苏属植物间断分布起源的分子证据和环境生态位演化
对密切相关植物的起源和进化史的研究有助于了解山地植物群的多样性模式,并为其鉴定提供基础。Tephroseris属包括三个特有类群,分布在伊比利亚半岛的高山和海上阿尔卑斯山,面积小且不相交。巴尔比西亚特phroseris balbisiana原产于西南阿尔卑斯山,埃洛德斯特phroseis elodes原产于内华达山脉,coincyi特phrose里斯原产于格雷多斯山脉。由于形态分化有限,这些分类群被分为不同的物种或亚种组合,但迄今为止尚未发表全面的研究。通过结合系统发育、分子年代测定和基因组大小的信息,我们证明了巴尔比星T.balbisiana和两个伊比利亚分类群之间的分类学差异。尽管质体DNA缺乏变异性,阻碍了对多样化事件的精确估计,但一些恢复的模式表明,巴尔比氏T.balbisiana、埃洛德斯T.elodes和coincyi最近的分化可以追溯到更新世(0.5-2.8 Mya)。然而,生态位建模支持了最后一次冰川盛期(LGM)期间三个分类群之间的地理重叠。此外,它们古老的较大分布范围的碎片化,特别是在伊比利亚半岛的低海拔地区,以及向阿尔卑斯山西南部冰川避难所的迁移,为目前地中海山脉内的不相交分布提供了最合理的解释。此外,根据我们收集的证据,我们推断高山巴尔比西亚目T.balbisiana和伊比利亚分类群应被视为三个不同的亚种。
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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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