Bellusci F, Pellegrino G, Palermo A M, Musacchio A
Department of Ecology, University of Calabria, via Bucci 6/B, Rende, I-87036 Cosenza, Italy.
Mol Phylogenet Evol. 2008 Jun;47(3):986-91. doi: 10.1016/j.ympev.2008.03.019. Epub 2008 Mar 20.
A molecular phylogenetic analysis was performed on 14 species of the Mediterranean unrewarding orchid genus Serapias using sequences of four noncoding regions of chloroplast DNA. This study has led to a new interpretation of the evolutionary relationships in this genus. The well-defined phylogenetic tree supports a division of taxa into two main clades, each including two minor groups. The molecular relationships found in this study differ from those defined by traditional systematic morphological assessments. By comparing the variation in sequence to variations in floral traits, we propose that the split in the two main lineages reflects an early differentiation of flower size, perhaps due to the shift from allo- to self-pollination. Conversely, the relationships within each minor group do not reflect floral size variation; therefore, we presume that this diversification resulted from genetic drift, local selection forces, and multiple, independent transitions towards self-pollination and polyploidy.
利用叶绿体DNA四个非编码区域的序列,对地中海地区14种无回报的舌唇兰属兰花进行了分子系统发育分析。这项研究对该属的进化关系产生了新的解释。定义明确的系统发育树支持将分类群分为两个主要分支,每个分支包括两个较小的类群。本研究中发现的分子关系与传统系统形态学评估所定义的关系不同。通过比较序列变异与花部性状变异,我们提出两个主要谱系的分裂反映了花大小的早期分化,这可能是由于从异花授粉到自花授粉的转变。相反,每个较小类群内的关系并不反映花大小的变异;因此,我们推测这种多样化是由遗传漂变、局部选择力以及向自花授粉和多倍体的多次独立转变导致的。