用于进化和生态分析的大规模物种水平的被子植物系统发育时间树。

A large-scale species level dated angiosperm phylogeny for evolutionary and ecological analyses.

作者信息

Janssens Steven B, Couvreur Thomas L P, Mertens Arne, Dauby Gilles, Dagallier Leo-Paul M J, Vanden Abeele Samuel, Vandelook Filip, Mascarello Maurizio, Beeckman Hans, Sosef Marc, Droissart Vincent, van der Bank Michelle, Maurin Olivier, Hawthorne William, Marshall Cicely, Réjou-Méchain Maxime, Beina Denis, Baya Fidele, Merckx Vincent, Verstraete Brecht, Hardy Olivier

机构信息

Botanic Garden Meise, Meise, Belgium Botanic Garden Meise Meise Belgium.

Laboratory for Plant Conservation and Population Biology, KULeuven, Leuven, Belgium Laboratory for Plant Conservation and Population Biology, KULeuven Leuven Belgium.

出版信息

Biodivers Data J. 2020 Jan 21;8:e39677. doi: 10.3897/BDJ.8.e39677. eCollection 2020.

DOI:10.3897/BDJ.8.e39677

PMID:32015666

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6987248/

Abstract

Phylogenies are a central and indispensable tool for evolutionary and ecological research. Even though most angiosperm families are well investigated from a phylogenetic point of view, there are far less possibilities to carry out large-scale meta-analyses at order level or higher. Here, we reconstructed a large-scale dated phylogeny including nearly 1/8th of all angiosperm species, based on two plastid barcoding genes, (incl. ) and Novel sequences were generated for several species, while the rest of the data were mined from GenBank. The resulting tree was dated using 56 angiosperm fossils as calibration points. The resulting megaphylogeny is one of the largest dated phylogenetic tree of angiosperms yet, consisting of 36,101 sampled species, representing 8,399 genera, 426 families and all orders. This novel framework will be useful for investigating different broad scale research questions in ecological and evolutionary biology.

摘要

系统发育树是进化和生态研究的核心且不可或缺的工具。尽管从系统发育的角度对大多数被子植物科进行了充分研究，但在目级或更高级别进行大规模荟萃分析的可能性要小得多。在此，我们基于两个质体条形码基因（包括和）重建了一个包含近八分之一被子植物物种的大规模定年系统发育树。为几个物种生成了新序列，其余数据则从基因库中挖掘。使用56个被子植物化石作为校准点对所得的树进行定年。所得的巨型系统发育树是迄今为止最大的被子植物定年系统发育树之一，由36,101个采样物种组成，代表8,399个属、426个科和所有目。这个新框架将有助于研究生态和进化生物学中不同的广泛尺度的研究问题。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/2b14/6987248/f767016d4337/bdj-08-e39677-g001.jpg

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用于进化和生态分析的大规模物种水平的被子植物系统发育时间树。

A large-scale species level dated angiosperm phylogeny for evolutionary and ecological analyses.

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