高安第斯属Oritrophium的起源和进化史中心(Astereae,Astraceae)

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS
Luciana Salomón, Marcela V. Nicola, Martha Kandziora, Filip Kolář, Petr Sklenář
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引用次数: 4

摘要

Páramo是物种最丰富的热带山地生态系统,在其植物群的多样性和进化来源方面得到了相对充分的研究,但我们对这种环境中的多样性知之甚少。本研究旨在揭示Oritrophium的进化史,Oritrophim是北美和南美洲高山栖息地的特有属,其物种多样性呈间断和双峰分布。我们的目的是理清该属的起源和辐射中心,以及在种间和种内水平上构建其遗传多样性的机制。我们对19个物种(占总数的85%)进行了采样,并在种群水平上扩大了对两个广泛分布的物种的采样,这两个物种分别包括19个和24个种群。利用核核糖体内部转录间隔区(ITS)和trnL-trnF叶绿体DNA区域,我们重建了年代系统发育,以测试该属的单系性,并揭示其多样化背后可能的历史力量。我们还进行了祖先面积估计,以重建该属的生物地理学历史。在种群水平上,我们构建了单倍型网络,并对分子变异进行了空间分析,以探索在种内水平上构建多样性的可能机制。Oritrophium产生了多系,其中两个物种与飞蓬密切相关,另外三个物种与Erigeron、Diplostephium、Linochilus和/或Hinterhubera关系模糊。剩下的14个物种形成了一个分支,即Oritrophium s.s.,可能起源于上新世早期,位于玻利维亚西北部安第斯山脉和厄瓜多尔南部,是该属多样性的中心。该群可能在上新世晚期随着Páramo的出现而多样化,并在更新世主要从南向北进一步分散。这种迁移既包括从安第斯山脉中部到墨西哥的长距离扩散,也包括物种沿安第斯山脉的逐渐迁移。因此,Oritrophium s.s.是第一个从南美洲的Páramo到北美洲远距离传播的记录。所调查物种的种内种群多样性和结构反映了南美洲的扩散模式。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Center of origin and evolutionary history in the high Andean genus Oritrophium (Astereae, Asteraceae)

Páramo, the most species-rich tropical mountain ecosystem, is relatively well-researched in terms of the diversity and evolutionary sources of its flora, yet we know very little about the diversification within this environment. This study aims to unravel the evolutionary history of Oritrophium, an endemic genus of alpine habitats in North and South America, with a disjunct and bi-modal distribution of its species diversity. We aim to disentangle the center of origin and radiation of the genus, and mechanisms structuring its genetic diversity at inter- and intra-specific level. We sampled 19 species (85% from the total) and extended the sampling at population level for the two widely distributed species, O. limnophilum and O. peruvianum, comprising 19 and 24 populations, respectively. Using nuclear ribosomal internal transcribed spacer (ITS) and trnL-trnF chloroplast DNA region, we reconstructed dated phylogenies to test the monophyly of the genus and unravel possible historical forces underlying its diversification. We also performed an ancestral area estimation to reconstruct the biogeographic history of the genus. At the population level, we constructed haplotype networks and run spatial analyses of molecular variance to explore possible mechanisms that operate on structuring the diversity at intraspecific level. Oritrophium resulted polyphyletic, with two species being closely related to Erigeron and three other species ambiguously related to Erigeron, Diplostephium, Linochilus, and/or Hinterhubera. The remaining 14 species formed a clade, Oritrophium s.s., that likely originated during the Early Pliocene in the Andes of northwestern Bolivia to southern Ecuador, the center of the genus' diversity. The group likely diversified with the emergence of the Páramo during the Late Pliocene and further dispersed mainly from South-to-North in the Pleistocene. This migration involved both, long-distance dispersal from the Central Andes to Mexico and gradual migration of the species along the Andes. Accordingly, Oritrophium s.s. appears as the first record of a long-distance dispersal from the Páramo of South America to North America. The dispersal pattern within South America was mirrored by the intraspecific population diversity and structure of the investigated species.

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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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