Institute of Biology, Geobotany and Botanical Garden, Martin Luther University Halle-Wittenberg, Neuwerk 21, 06108 Halle (Saale), Germany.
Institute of Biology, Geobotany and Botanical Garden, Martin Luther University Halle-Wittenberg, Neuwerk 21, 06108 Halle (Saale), Germany.
Mol Phylogenet Evol. 2024 Dec;201:108204. doi: 10.1016/j.ympev.2024.108204. Epub 2024 Sep 26.
The western Eurasian-Mediterranean grass genus Cynosurus, comprising about 11 species, is morphologically well delimited by the regular occurrence of conspicuous sterile spikelets distal to the fertile ones on the outer, abaxial side of the inflorescences. However, our molecular phylogenetic study using nuclear ribosomal DNA (ITS, ETS) and plastid DNA sequences (trnL-F, matK) has shown that the genus is not monophyletic in its current delimitation, but consists of three distinct lineages. These lineages were found to be closely related to a group of 6-7 genera taxonomically assigned to the subtribe Parapholiinae. These Parapholiinae genera were consistently monophyletic in our analyses, but the suggested relationships to the three lineages of Cynosurus varied depending on the particular DNA region examined. This was the case for both plastid and nuclear DNA, with cytonuclear discordance and 'chloroplast capture' indicating earlier hybridization. Interestingly, hybridization also proved to be the most likely explanation even with regard to the 18S-26S cistrons of the nuclear ribosomal DNA, where an exceptional evolutionary divergence between ITS and ETS was found. The results highlight and illustrate the important role of hybridization in the evolution of grasses. In terms of taxonomy, our findings argue against maintaining a polyphyletic genus Cynosurus s.l. but instead argue for dividing it into three monophyletic genera: Cynosurus s.s., Falona, which is reestablished here, and Ciliochloa, which is described as a new genus. In addition, it is proposed that the two subtribes Cynosurinae and Parapholiinae be combined into a single subtribe Cynosurinae, which is also monophyletic. The possible genetic background of the formation of sterile spikelets and the occasional occurrence of inflorescences with consistently fertile spikelets are discussed. New combinations are Ciliochloa effusa, C. effusa var. obliquata, C. effusa var. fertilis, C. elegans, C. gracilis, C. turcomanica and Falona colorata.
欧亚-地中海甘草属的西方草属 Cynosurus,包含约 11 个物种,其形态学特征通过在花序的外、背侧上,在可育小穗的远端经常出现明显的不育小穗而得到很好的界定。然而,我们使用核核糖体 DNA(ITS、ETS)和质体 DNA 序列(trnL-F、matK)进行的分子系统发育研究表明,该属在其当前的定义中不是单系的,而是由三个不同的谱系组成。这些谱系与一组 6-7 个分类学上归入副朴属亚族的属密切相关。在我们的分析中,这些副朴属属始终是单系的,但与 Cynosurus 的三个谱系的建议关系因所检查的特定 DNA 区域而异。质体和核 DNA 都是如此,核质不和谐和“质体捕获”表明早期杂交。有趣的是,即使对于核核糖体 DNA 的 18S-26S 顺反子,杂交也是最有可能的解释,因为在那里发现了 ITS 和 ETS 之间异常的进化分歧。研究结果突出并说明了杂交在草类进化中的重要作用。在分类学方面,我们的发现反对维持多系 Cynosurus s.l. 属,而是主张将其分为三个单系属:Cynosurus s.s.、Falona,这里重新建立了该属,以及 Ciliochloa,它被描述为一个新属。此外,建议将两个亚科 Cynosurinae 和 Parapholiinae 合并为一个单亚科 Cynosurinae,该亚科也是单系的。讨论了不育小穗形成的可能遗传背景和花序中偶尔出现一致可育小穗的情况。提出了新的组合:Ciliochloa effusa、C. effusa var. obliquata、C. effusa var. fertilis、C. elegans、C. gracilis、C. turcomanica 和 Falona colorata。
