Environmental variables shape the deviation of phylogenetic relatedness between terrestrial and aquatic herbaceous angiosperms across China

doi:10.1093/jpe/rtaf034

J Plant Ecol ›› 2025, Vol. 18 ›› Issue (3): rtaf034.DOI: 10.1093/jpe/rtaf034

• Research Articles •

Environmental variables shape the deviation of phylogenetic relatedness between terrestrial and aquatic herbaceous angiosperms across China

Yangyang Liu¹, Hong Qian², and Yadong Zhou^1,*

¹School of Life Sciences, Nanchang University, Nanchang 330031, China
²Research and Collections Center, Illinois State Museum, Springfield, IL 62703, USA

^*Corresponding author. E‐mail: ydzhou@ncu.edu.cn

Received:2024-07-14 Accepted:2025-03-15 Online:2025-03-27 Published:2025-06-01
Supported by:
National Science Foundation of China (32260046); Thousand Talents Program of Jiangxi Province (jxsq2023101079).

环境因子驱动中国陆生与水生草本被子植物系统发育亲缘关系的差异

Abstract

Abstract: Compared to terrestrial plants whose diversity is more directly influenced by climate, aquatic plant diversity is considered to be more dependent on water environments. Therefore, it could be predicted that the phylogenetic relatedness of terrestrial plants is more susceptible to climate filtering than that of aquatic plants. We compiled a comprehensive distribution dataset of herbaceous angiosperms in China, including both terrestrial and aquatic species. We compared the phylogenetic relatedness and its environmental correlation of the two groups, using the standardized effect size of phylogenetic diversity (PD_ses) and the standardized effect size of mean phylogenetic distance (MPD_ses), which reflect shallow and deep evolutionary histories, respectively. We also use the deviation of PD_ses (ΔPD_ses) and MPD_ses (ΔMPD_ses) between terrestrial and aquatic plants to reflect differences in the phylogenetic relatedness between terrestrial and aquatic plants. Our results showed that the geographical patterns of PD_ses and MPD_ses between aquatic and terrestrial plants are roughly consistent. ΔPD_ses and ΔMPD_ses between terrestrial and aquatic plants vary across the geographical scale and environmental gradient. Environmental variables (current climate, historical climate change and topography) explained more of the variation in PD_ses and MPD_ses of terrestrial plants than that of aquatic plants, with the current climate explaining more of ΔPD_ses and ΔMPD_ses between terrestrial and aquatic plants. Our results reveal the differential impacts of large-scale environmental factors on the phylogenetic relatedness of terrestrial versus aquatic plant communities, providing a new perspective for understanding the ecological and evolutionary dynamics of these two distinct plant assemblages.

Key words: terrestrial, aquatic, phylogenetic relatedness, deviation, environmental variables, China

摘要：
相较于陆生植物多样性主要受气候的直接影响，水生植物多样性通常被认为更依赖于水体环境。因此，陆生植物的系统发育亲缘关系可能比水生植物对气候过滤作用更加敏感。为了验证这一假设，本研究整合了中国草本被子植物(含陆生与水生植物类群)分布数据集，通过计算系统发育多样性标准化效应值(PD_ses)和平均谱系距离标准化效应值(MPD_ses)，比较了陆生与水生两类植物的系统发育亲缘关系及其与环境的关联。在此基础上，进一步通过计算陆生与水生植物间PD_ses和MPD_ses的差值(ΔPD_ses和ΔMPD_ses) 来衡量两类植物系统发育亲缘关系的差异。结果表明，陆生与水生植物PD_ses和MPD_ses的地理分布格局总体一致，环境变量(当代气候、历史气候变化及地形)对陆生植物PD_ses和MPD_ses变化的解释高于水生植物; ΔPD_ses和ΔMPD_ses在地理尺度和环境梯度呈显著的空间异质性，当代气候是ΔPD_ses和ΔMPD_ses空间格局的主要驱动因子。上述研究结果揭示了大尺度环境因子对陆生与水生植物系统发育亲缘关系的影响存在差异，为理解两类植物类群的演化规律提供了新视角。

关键词: 陆地, 水体, 系统发育亲缘关系, 偏差, 环境变量, 中国

Yangyang Liu, Hong Qian, Yadong Zhou. Environmental variables shape the deviation of phylogenetic relatedness between terrestrial and aquatic herbaceous angiosperms across China[J]. J Plant Ecol, 2025, 18(3): 1-15.

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Environmental variables shape the deviation of phylogenetic relatedness between terrestrial and aquatic herbaceous angiosperms across China

环境因子驱动中国陆生与水生草本被子植物系统发育亲缘关系的差异

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