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Mycoheterotrophic 属 Voyria 的系统发育关系及其对龙胆科生物地理历史的意义。

Phylogenetic relationships of the mycoheterotrophic genus Voyria and the implications for the biogeographic history of Gentianaceae.

机构信息

Naturalis Biodiversity Center, Leiden University, P.O. Box 9517, Leiden, Netherlands.

出版信息

Am J Bot. 2013 Apr;100(4):712-21. doi: 10.3732/ajb.1200330. Epub 2013 Mar 26.

DOI:10.3732/ajb.1200330
PMID:23535773
Abstract

PREMISE OF THE STUDY

The angiosperm family Gentianaceae comprises over 1700 species in 91 genera. Gentianaceae are distributed worldwide, but most species occur in temperate zones. Phylogenetic studies demonstrate that the family consists of six monophyletic tribes. However, the phylogenetic position of the mycoheterotrophic genus Voyria, with a remarkable trans-Atlantic distribution, remained unknown.

METHODS

We used nuclear ITS and 18S rDNA and mitochondrial apt1 and matR data to infer the phylogenetic position of Voyria in Gentianaceae. In addition, with Bayesian relaxed molecular clock analyses we obtained age estimates for the diversification of Voyria and Gentianaceae in general and used these results to reconstruct the ancestral areas associated with the early diversification events in Gentianaceae.

KEY RESULTS

Our results demonstrate that Voyria is an early diverging lineage within Gentianaceae with no close relationships to other mycoheterotrophic Gentianaceae lineages. Voyria originated in the neotropics during the Early Eocene but only reached its current transoceanic distribution around the end of the Oligocene. The neotropics were an important area for the early diversification events in Gentianaceae, most of which occurred during the Eocene.

CONCLUSIONS

Voyria is an old, phylogenetically isolated lineage within Gentianaceae, and the current distribution of the genus is indicative of the ancestral area in which the early diversification events of Gentianaceae occurred. In parallel with many other pantropical families, our results suggest that migration of tropical taxa through Laurasia during the Early Eocene has played an important role in shaping the current global distribution of Gentianaceae.

摘要

研究前提

被子植物龙胆科包含 91 属的 1700 多种物种。龙胆科分布于世界各地,但大多数物种分布在温带地区。系统发育研究表明,该科由六个单系族组成。然而,具有显著跨大西洋分布的菌根异养属 Voyria 的系统发育位置仍然未知。

方法

我们使用核 ITS 和 18S rDNA 以及线粒体 apt1 和 matR 数据推断 Voyria 在龙胆科中的系统发育位置。此外,我们还使用贝叶斯松弛分子钟分析获得了 Voyria 和龙胆科总体多样化的年龄估计,并利用这些结果重建了与龙胆科早期多样化事件相关的早期扩散区域。

主要结果

我们的结果表明,Voyria 是龙胆科中一个早期分化的谱系,与其他菌根异养龙胆科谱系没有密切关系。Voyria 起源于早始新世的新热带地区,但直到渐新世末期才达到目前的跨洋分布。新热带地区是龙胆科早期多样化事件的重要区域,其中大部分发生在始新世。

结论

Voyria 是龙胆科中一个古老的、系统发育上孤立的谱系,该属的当前分布表明了早期龙胆科多样化事件发生的原始区域。与许多其他泛热带科一样,我们的结果表明,早始新世热带类群通过劳亚古陆的迁移在塑造龙胆科目前的全球分布中发挥了重要作用。

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