第三极荨麻属麻叶荨麻分支的物种界限

doi:10.17520/biods.2025138

生物多样性

第三极荨麻属麻叶荨麻分支的物种界限

王凤英^1,3，吴增源²，崔涵^2,3，李垠蕾^2,4，邓莉娟^2,5，王红¹，刘杰^1,2*

1. 中国科学院昆明植物研究所东亚植物多样性与生物地理学重点实验室，昆明 650201；2. 中国科学院昆明植物研究所中国西南野生生物种质资源库，昆明 650201；3. 中国科学院大学，北京 100049；4. 云南大学生态与环境学院，昆明 650091；5. 陕西师范大学生命科学学院，西北濒危药材资源开发国家工程实验室，西安 710062

收稿日期:2025-04-15 修回日期:2025-06-09 接受日期:2025-06-19
通讯作者: 刘杰

Species boundaries of cannabina Clade of Urtica in the Third Pole

Fengying Wang^1,3, Zengyuan Wu², Han Cui^2,3, Yinlei Li^2,4, Lijuan Deng^2,5, Hong Wang¹, Jie Liu^1,2*

1 CAS Key Laboratory for Plant Diversity and Biogeography of East Asia, Kunming Institute of Botany, Chinese Academy of Sciences, Kunming 650201

2 Germplasm Bank of Wild Species, Kunming Institute of Botany, Chinese Academy of Sciences, Kunming 650201

3 University of Chinese Academy of Sciences, Beijing 100049

4 School of Ecology and Environmental Sciences, Yunnan University, Kunming 650091

5 National Engineering Laboratory for Resource Developing of Endangered Chinese Crude Drugs in Northwest of China, College of Life Sciences, Shaanxi Normal University, Xi'an, 710062

Received:2025-04-15 Revised:2025-06-09 Accepted:2025-06-19
Contact: Jie Liu

摘要/Abstract

摘要： 基于多学科证据的整合分类学，是当前解决物种界限问题的有效方法。荨麻属(Urtica)麻叶荨麻分支(cannabina Clade)广泛分布于生物多样性丰富且生态环境独特的“第三极”地区。然而，由于该属植物复杂的形态特征和演化历史，其近缘种之间的界限仍不清楚。本研究以分布于该地区的麻叶荨麻分支(含亚种)4个物种(麻叶荨麻、三角叶荨麻、异株荨麻、高原荨麻)为研究对象，选取滇藏荨麻和膜叶荨麻及近缘属为外类群，基于麻叶荨麻分支50个个体(每个种4至10个)及18个外类群样本的基因组重测序数据，提取质体基因组和“Angiosperms353核基因数据集”解析系统发育关系和群体结构，并结合地理分布以及形态性状聚类分析，开展了整合分类学研究。结果表明：(1)高原荨麻是单系类群，且在形态特征和地理分布上与其他物种分化明显，尽管与异株荨麻在喜马拉雅和横断山地区存在同域分布，但二者在海拔梯度上存在分异；(2)尾尖异株荨麻和甘肃异株荨麻在地理分布、形态特征及遗传组成方面均与异株荨麻原亚种存在明显不同，暗示可能为隐存种，其分类地位有待进一步验证；(3)三角叶荨麻、麻叶荨麻和异株荨麻等近缘物种的分布区重叠，性状和遗传聚类出现交叉，同时检测到核质冲突信号，表明种间可能存在基因渐渗。高山环境中物种的形态趋同可能是物种间性状难以区分的原因。此外，研究证实质体基因组结合“Angiosperms353核基因数据集”在近缘物种界定中有较好的应用潜力。本研究利用多重证据解析了该地区荨麻属植物的物种界限，加深了对其种间关系与分布格局的理解，并为该区域内其他类群的整合分类学研究提供了一个可借鉴的范式。

关键词: 荨麻属, 近缘种, 第三极, 被子植物353基因集, 质体基因组, 整合分类学, 物种界限

Abstract

Aims: Integrative taxonomy, which combines multiple lines of evidence, offers an effective approach for resolving species boundaries. The cannabina Clade of the genus Urtica is widely distributed across the “Third Pole”, a region characterized by exceptional biodiversity and distinctive ecological environments. Despite their wide distribution, species boundaries within this clade have been challenging due to complex morphological traits and complicated evolutionary history. In this study, we conducted an integrative taxonomic assessment of four species of cannabina Clade (Urtica cannabina; U. triangularis; U. dioica; U. hyperborea) from the Third Pole by integrating genomic data with analyses of geographic distribution and morphological traits, using U. mairei, U. membranifolia and several related genera as outgroups.

Methods: Geographic boundaries were delineated using ArcGIS based on occurrence records from GBIF, PPBC, NPSRC, iNaturalist, and records collected from the field. Morphological traits differentiation was assessed via Principal Coordinate Analysis (PCoA) of 16 morphological traits. Phylogenetic relationships and population genetic structure were reconstructed based on plastid genome data and the Angiosperms353 nuclear gene set from 50 individuals of the cannabina Clade.

Results: Our analyses revealed the following key findings: (1)Urtica hyperborea is a well-supported monophyletic clade, exhibiting distinct morphological and geographic range. Although it overlaps in distribution with U. dioica in the Himalaya and Hengduan Mountains, they typically occupy different altitudinal gradients; (2)Urtica dioica subsp. afghanica and U. dioica subsp. gansuensis display significant divergence in distribution, morphology, and genomic from U. dioica subsp. dioica, suggesting the possible presence of cryptic species. However, their taxonomic status requires further investigation; (3) Urtica triangularis, U. cannabina, and U. dioica show geographical overlapping and little clustering difference in both morphological and genetic data. The observed cyto-nuclear discordance indicates potential genetic introgression among these taxa. Morphological convergence among species in high-altitude environments might contribute to the difficulty in distinguishing between them based on their traits. Furthermore, our study demonstrates that the integration of plastome data with the Angiosperm353 nuclear gene dataset shows great promise in delimiting closely related species.

Conclusion: Through the integration of multiple lines of evidences, this study comprehensively delineates species boundaries within the cannabina Clade and offers new insights into plant evolutionary processes in the Third Pole. These findings not only enhance our understanding of interspecific relationships and distribution patterns within the genus Urtica, but also offer a robust methodological framework for exploring the integrated taxonomy in other plant groups across the Third Pole region.

Key words: Urtica, closely related species, Third Pole, Angiosperms 353 genes, plastid genome, integrative taxonomy, species boundary

王凤英, 吴增源, 崔涵, 李垠蕾, 邓莉娟, 王红, 刘杰. 第三极荨麻属麻叶荨麻分支的物种界限. 生物多样性, DOI: 10.17520/biods.2025138.

Fengying Wang, Zengyuan Wu, Han Cui, Yinlei Li, Lijuan Deng, Hong Wang, Jie Liu. Species boundaries of cannabina Clade of Urtica in the Third Pole. Biodiversity Science, DOI: 10.17520/biods.2025138.

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[1]	谢林哲, 彭旻晟, 韩建林, 方美英, 吕锋骅, 陈宁博, 王国栋, 李钢, 尹婷婷. 家养动物及其野生近缘种中文名与拉丁名使用建议[J]. 生物多样性, 2025, 33(4): 24293-.
[2]	杜新宇, 卢金梅, 李德铢. 石松类和蕨类植物质体基因组结构演化研究进展[J]. 生物多样性, 2019, 27(11): 1172-1183.
[3]	赵耀, 李耕耘, 杨继. 栽培植物野生近缘种的保护与利用[J]. 生物多样性, 2018, 26(4): 414-426.
[4]	蒋志刚, 李立立, 胡一鸣, 胡慧建, 李春旺, 平晓鸽, 罗振华. 青藏高原有蹄类动物多样性和特有性: 演化与保护[J]. 生物多样性, 2018, 26(2): 158-170.
[5]	于燕波, 王群亮, ShelaghKell, NigelMaxted, Brian V. Ford-Lloyd, 魏伟, 康定明, 马克平. 中国栽培植物野生近缘种及其保护对策[J]. 生物多样性, 2013, 21(6): 750-757.
[6]	王坤, 杨继, 陈家宽. 近缘种比较研究在植物入侵生态学中的应用[J]. 生物多样性, 2009, 17(4): 353-361.
[7]	侯向阳, 高卫东. 作物野生近缘种的保护与利用[J]. 生物多样性, 1999, 07(4): 327-331.