非洲高山旗舰重访II:阐明巨型senecios(Dendrosenecio,Astraceae)的进化关系和物种边界

IF 2.6 3区 生物学 Q2 PLANT SCIENCES
Abel Gizaw, Juan Manuel Gorospe, Martha Kandziora, Desalegn Chala, Lovisa Gustafsson, Abush Zinaw, Luciana Salomón, Gerald Eilu, Christian Brochmann, Filip Kolář, Roswitha Schmickl
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引用次数: 7

摘要

高山植物辐射在世界上所有主要的山脉系统中都很常见,被认为是这些地区物种多样性的主要解释。为了研究这种多样性起源背后的机制,有必要确定辐射高山群落的系统发育关系和物种边界。Dendrosenecio属(菊科)是东非高山热带高山植物辐射的标志性例子。到目前为止,分子标记的有限采样导致系统发育分辨率和亚属分类不足,阻碍了对多样化驱动因素的全面理解。在这里,我们使用Hyb-Seq和Compositae1061探针组生成了42个样本的靶向细胞核和脱靶质体DNA数据,这些样本代表了目前接受的所有11个物种。我们结合了融合方法和亲缘关系分析来推断系统发育关系,估计分化时间和评估物种边界。Dendrosenecio的谱系分化似乎发生在中新世晚期和更新世之间,从东非第一个高海拔栖息地开始。我们检索了四个主要分支,对应于四个地理上遥远的山脉群,证明了异地物种形成在该群早期多样化中的重要性。细胞核不一致性表明,在山脉群之间偶尔长距离传播后,历史上发生了杂交。物种划界分析支持10个物种,但只有5个得到了充分支持,这表明需要进行种群层面的研究,解决生态物种形成和二次接触后的杂交等过程,以确定该属目前的多样性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Afro-alpine flagships revisited II: elucidating the evolutionary relationships and species boundaries in the giant senecios (Dendrosenecio, Asteraceae)

Alpine plant radiations are common across all major mountain systems of the world, and have been regarded as the main explanation for the species diversity found within these areas. To study the mechanisms behind the origin of this diversity, it is necessary to determine phylogenetic relationships and species boundaries in radiating alpine groups. The genus Dendrosenecio (Asteraceae) is an iconic example of a tropical-alpine plant radiation in the East African high mountains. To this date, limited sampling of molecular markers has resulted in insufficient phylogenetic resolution and infrageneric classification, hindering a comprehensive understanding of the drivers of diversification. Here, we used Hyb-Seq and the Compositae1061 probe set to generate targeted nuclear and off-target plastid DNA data for 42 samples representing all currently accepted 11 species. We combined coalescent methods and paralogy analysis to infer phylogenetic relationships, estimate divergence times and evaluate species boundaries. Lineage differentiation in Dendrosenecio seems to have occurred between the Late Miocene and the Pleistocene, starting when the first high elevation habitats became available in East Africa. We retrieved four major clades corresponding to four geographically distant mountain groups, testifying the importance of allopatric speciation in the early diversification of the group. Cytonuclear discordance suggested the occurrence of historical hybridization following occasional long-distance dispersal between mountain groups. The species delimitation analysis favored 10 species, but only five were fully supported, suggesting that population-level studies addressing processes such as ecological speciation and hybridization after secondary contact are needed to determine the current diversity found in the genus.

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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.
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