重访多系堇叶(芸苔科):新近发现的异域分类群的形态和基因组大小分化

IF 3.7
Stanislav Španiel, K. Marhold, Judita Zozomová-Lihová
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引用次数: 5

摘要

山梨花被认为是一种多年生高山植物,生长在五个孤立的欧洲山脉:比利牛斯山脉、西阿尔卑斯山、亚平宁山脉、皮林山和斯莫里卡斯山。最近的分子系统研究表明,来自远山的分离种群关系并不密切,属于5个独立的物种:A. cacuminum(西班牙比利牛斯)、A. cuneifolium(意大利亚平宁)、A. flexicaule(法国西阿尔卑斯山)、A. pirinicum(保加利亚皮林山)和A. spruneri(希腊斯莫里卡斯山)。本研究对分离的分类群进行了全面的形态计量学分析。我们在它们之间发现了细微的形态学差异。而其他分类群只能在调查性状的种群均值水平上进行识别。这些远亲物种的形态相似性显然是适应相似的高高山植被栖息地的结果。然而,尚不清楚这种适应是环境控制的还是遗传固定的,以及它是否反映了向相似形态的平行进化。并以其他萱草类群为例,讨论了其形态特征及其与环境因子的关系。所研究的物种有三种不同的倍性水平。在本文中,我们研究了相对核基因组大小的变化。阿尔卑斯和比利牛斯的物种相对于亚平宁和巴尔干的物种具有更大的单倍体基因组大小,这可能反映了该群体的进化史。提出了研究物种的命名说明,并选择了杉木和其他两个名称的选型。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Polyphyletic Alyssum cuneifolium (Brassicaceae) revisited: Morphological and genome size differentiation of recently recognized allopatric taxa
Alyssum cuneifolium has been recognized as a perennial alpine species growing in five isolated European mountain ranges: the Pyrenees, Western Alps, Apennines, Pirin Mts and Mt Smolikas. Recent molecular systematic studies revealed that the disjunct populations from distant mountains are not closely related and belong to five independent species: A. cacuminum (Spain, Pyrenees), A. cuneifolium (Italy, Apennines), A. flexicaule (France, Western Alps), A. pirinicum (Bulgaria, Pirin Mts), and A. spruneri (Greece, Mt Smolikas). The present study brings the thorough morphometric analysis of the segregated taxa. We found minor morphological differences between them. Whereas A. pirinicum can be clearly distinguished, the other taxa are recognizable only at the level of population means of investigated characters. The morphological similarity of these distantly related species is obviously the result of adaptation to similar high‐alpine scree habitats. It is not clear, however, whether this adaptation is environmentally controlled or whether it is also genetically fixed and whether it reflects parallel evolution towards similar morphotypes. The observed morphological patterns and their assumed correlation with environmental factors are discussed using examples from other Alyssum taxa. Three different ploidy levels have been reported for the species under study. In the present article, we examine variation in relative nuclear genome size. The Alpine and Pyrenean species have larger relative monoploid genome sizes than the Apennine and Balkan ones, probably reflecting the evolutionary history of the group. A nomenclatural account of the study species is presented, and lectotypes of A. cuneifolium and of two other names are selected.
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