Chen Ya-Ping, Zhao Fei, Paton Alan J, Sunojkumar Purayidathkandy, Gao Lian-Ming, Xiang Chun-Lei
CAS Key Laboratory for Plant Diversity and Biogeography of East Asia, Kunming Institute of Botany, Chinese Academy of Sciences, Kunming, China.
Royal Botanic Gardens, Kew, Richmond, United Kingdom.
Front Plant Sci. 2022 Sep 8;13:985488. doi: 10.3389/fpls.2022.985488. eCollection 2022.
As one of the largest genera of Lamiaceae and of great medicinal importance, is also phylogenetically and taxonomically recalcitrant largely ascribed to its recent rapid radiation in the Hengduan Mountains. Previous molecular phylogenetic studies using limited loci have only successfully resolved the backbone topology of the genus, but the interspecific relationships suffered from low resolution, especially within the largest clade (Clade IV) which comprises over 80% species. In this study, we attempted to further elucidate the phylogenetic relationships within especially Clade IV using plastome sequences with a broad taxon sampling of ca. 80% species of the genus. To reduce systematic errors, twelve different plastome data sets (coding and non-coding regions with ambiguously aligned regions and saturated loci removed or not) were employed to reconstruct phylogeny using maximum likelihood and Bayesian inference. Our results revealed largely congruent topologies of the 12 data sets and recovered major lineages of consistent with previous studies, but several incongruences are also found among these data sets and among single plastid loci. Most of the shallow nodes within Clade IV were resolved with high support but extremely short branch lengths in plastid trees, and showed tremendous conflicts with the nrDNA tree, morphology and geographic distribution. These incongruences may largely result from stochasticity (due to insufficient phylogenetic signal) and hybridization and plastid capture. Therefore, the uniparental-inherited plastome sequences are insufficient to disentangle relationships within a genus which has undergone recent rapid diversification. Our findings highlight a need for additional data from nuclear genome to resolve the relationships within Clade IV and more focused studies to assess the influences of multiple processes in the evolutionary history of . Nevertheless, the morphology of the shape and surface sculpture/indumentum of nutlets is of systematic importance that they can distinguish the four major clades of .
作为唇形科最大的属之一且具有重要药用价值,[属名]在系统发育和分类学上也难以处理,这在很大程度上归因于其近期在横断山脉的快速辐射。先前使用有限位点的分子系统发育研究仅成功解析了该属的主干拓扑结构,但种间关系的分辨率较低,尤其是在包含超过80%物种的最大分支(分支IV)内。在本研究中,我们试图通过对该属约80%物种进行广泛的分类群抽样,利用质体基因组序列进一步阐明[属名]内的系统发育关系,特别是分支IV内的关系。为了减少系统误差,我们采用了十二个不同的质体基因组数据集(去除或未去除比对不明确区域和饱和位点的编码和非编码区域),使用最大似然法和贝叶斯推断来重建系统发育。我们的结果显示,这12个数据集的拓扑结构基本一致,并恢复了与先前研究一致的[属名]的主要谱系,但在这些数据集之间以及单个质体位点之间也发现了一些不一致之处。分支IV内的大多数浅分支节点在质体树中得到了高支持度的解析,但分支长度极短,并且与nrDNA树、形态学和地理分布存在巨大冲突。这些不一致可能主要源于随机性(由于系统发育信号不足)以及杂交和质体捕获。因此,单亲遗传的质体基因组序列不足以理清一个经历了近期快速多样化的属内的关系。我们的研究结果凸显了需要来自核基因组的额外数据来解决分支IV内的关系,以及需要更有针对性的研究来评估[属名]进化历史中多种过程的影响。然而,小坚果的形状和表面纹饰/毛被的形态在系统学上具有重要意义,它们可以区分[属名]的四个主要分支。
