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变树脂产生的金合欢族(豆科)的形态进化:形态特征是否保留系统发育信号?

Morphological evolution in the variable resin-producing Detarieae (Fabaceae): do morphological characters retain a phylogenetic signal?

机构信息

Institut de recherche en biologie végétale (Département de Sciences biologiques), Université de Montréal, Montréal, Québec H1X 2B2, Canada.

出版信息

Ann Bot. 2010 Feb;105(2):311-25. doi: 10.1093/aob/mcp280. Epub 2009 Nov 25.

DOI:10.1093/aob/mcp280
PMID:19939978
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2814753/
Abstract

BACKGROUND AND AIMS

Previous molecular phylogenetic studies disagree with the informal generic-level taxonomic groups based on morphology. In this study morphological characters in the caesalpinioid clade Detarieae are evaluated within a phylogenetic framework as a means of better understanding phylogenetic relationships and morphological evolution.

METHODS

Morphological characters were observed and scored for representative species of Detarieae focusing on the resin-producing genera. Phylogenetic analyses were carried out with morphological characters alone and then combined with DNA sequences.

KEY RESULTS

Despite a high level of homoplasy, morphological data support several clades corresponding to those recovered in molecular phylogenetic analyses. The more strongly supported clades are each defined by at least one morphological synapomorphy. Several characters (e.g. apetaly) previously used to define informal generic groups evolved several times independently, leading to the differences observed with the molecular phylogenetic analyses. Although floral evolution is complex in Detarieae some patterns are recovered.

CONCLUSIONS

New informal taxonomic groupings are proposed based on the present findings. Floral evolution in the diverse Detarieae clade is characterized by a repeated tendency toward zygomorphy through the reduction of lateral petals and toward complete loss of petals.

摘要

背景与目的

先前的分子系统发育研究与基于形态的非正式属级分类群不一致。本研究在系统发育框架内评估了含羞草族中的形态特征,以期更好地理解系统发育关系和形态进化。

方法

对含羞草族中具有代表性的产树脂属进行形态特征观察和评分。单独进行形态学分析,并与 DNA 序列相结合进行系统发育分析。

主要结果

尽管存在高水平的同形现象,但形态数据支持与分子系统发育分析中恢复的几个分支相对应。支持度更高的分支都至少有一个形态学同源特征定义。一些先前用于定义非正式属级分组的特征(例如无花瓣)多次独立进化,导致与分子系统发育分析观察到的差异。尽管含羞草族的花部进化较为复杂,但还是可以发现一些模式。

结论

基于目前的研究结果,提出了新的非正式分类分组。在多样化的含羞草族中,花部进化的特点是通过侧花瓣的减少和完全丧失花瓣,向两侧对称的趋势重复发生。

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