Department of Biology, Unit of Ecology & Evolution, University of Fribourg, Chemin du Musée 10, CH-1700 Fribourg, Switzerland.
Mol Phylogenet Evol. 2012 Feb;62(2):612-23. doi: 10.1016/j.ympev.2011.11.006. Epub 2011 Nov 20.
Spotted knapweed (Centaurea stoebe) occurs from Western Asia to Western Europe both as diploid and tetraploid cytotypes, predominantly in single-cytotype populations with higher frequency of diploid populations. Interestingly, only tetraploids have been recorded so far from its introduced range in North America where they became highly invasive. We performed phylogenetic and network analyses of more than 40 accessions of the C. stoebe and C. paniculata groups and other related taxa using cloned internal transcribed spacer (ITS) and sequences of the chloroplast trnT-trnL and atpBrbcL regions to (i) assess the evolutionary origin of tetraploid C. stoebe s.l., and (ii) uncover the phylogeny of the C. stoebe group. Both issues have not been studied so far and thus remained controversial. Cloned ITS sequences showed the presence of two slightly divergent ribotypes occurring in tetraploid cytotype, while only one major ribotype was present in diploid C. stoebe s.str. This pattern suggests an allopolyploid origin of tetraploids with contribution of the diploid C. stoebe s.str. genome. Although we were not able to detect the second parental taxon, we hypothesize that hybridization might have triggered important changes in morphology and life history traits, which in turn may explain the colonization success of the tetraploid taxon. Bayesian relaxed clock estimations indicate a relatively recent--Pleistocene origin of the tetraploid C. stoebe s.l. Furthermore, our analyses showed a deep split between the C. paniculata and C. stoebe groups, and a young diversification of the taxa within the C. stoebe group. In contrast to nrDNA analyses, the observed pattern based on two cpDNA regions was inconclusive with respect to the origin and phylogeny of the studied taxa, most likely due to shared ancient polymorphism and frequent homoplasies.
多枝矢车菊(Centaurea stoebe)在亚洲西部到欧洲西部均存在二倍体和四倍体两种细胞型,主要以单倍体种群为主,其中二倍体种群的频率较高。有趣的是,目前仅在其引入的北美地区发现了四倍体,且这些四倍体已成为高度入侵物种。我们对超过 40 份多枝矢车菊和矢车菊属其他相关类群的 C. stoebe 和 C. paniculata 组进行了系统发育和网络分析,使用克隆的内转录间隔区(ITS)和叶绿体 trnT-trnL 和 atpBrbcL 区域的序列,(i)评估四倍体 C. stoebe s.l.的进化起源,以及(ii)揭示 C. stoebe 组的系统发育。这两个问题迄今尚未得到研究,因此仍存在争议。克隆的 ITS 序列显示,四倍体细胞型中存在两种略有不同的核糖体类型,而二倍体 C. stoebe s.str. 中仅存在一种主要核糖体类型。这种模式表明四倍体的异源多倍体起源与二倍体 C. stoebe s.str. 基因组的贡献有关。尽管我们未能检测到第二个亲本分类群,但我们假设杂交可能引发了形态和生活史特征的重要变化,这反过来可能解释了四倍体分类群的成功定植。贝叶斯松弛时钟估计表明,四倍体 C. stoebe s.l.的起源相对较近,处于更新世。此外,我们的分析表明,C. paniculata 和 C. stoebe 组之间存在很深的分裂,以及 C. stoebe 组内的分类群的年轻多样化。与 nrDNA 分析相反,基于两个 cpDNA 区域的观察模式对于所研究分类群的起源和系统发育没有明确的结论,这很可能是由于共享的古老多态性和频繁的同功性。
