干扰驱动的湿地土壤特性、植物功能性状与生物多样性变化

doi:10.1093/jpe/rtaf142

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干扰驱动的湿地土壤特性、植物功能性状与生物多样性变化

收稿日期:2025-04-24 接受日期:2025-08-26

Disturbance-driven variation in soil characteristics, plant functional traits, and biodiversity in wetlands

Yuhan Zou^1,2,3,4, Xiying Tang^1,2,3,4, Lijuan Cui^1,2,3,4*, Xinsheng Zhao^1,2,3,4, Xiajie Zhai^1,2,3,4, Yinru Lei^1,2,3,4, Jinzhi Wang^1,2,3,4, Huazhe Li^1,2,3,4, Wei Li^1,2,3,4*

¹State Key Laboratory of Wetland Conservation and Restoration, Beijing 100091, China.

²Institute of Ecological Conservation and Restoration, Chinese Academy of Forestry, Beijing 100091, China.

³Institute of Wetland Research, Chinese Academy of Forestry, Beijing 100091, China.

⁴Beijing Key Laboratory of Wetland Ecological Function and Restoration, Beijing 100091, China

^*Corresponding authors. E-mail: wetlands108@126.com (L.C.); wetlands207@163.com (W.L.)

Received:2025-04-24 Accepted:2025-08-26
Supported by:
This work was funded by two key initiatives: the Certification of Wetland Ecological Characteristics (CAFYBB2021MC006) and the Research on the Evolution of Ecological Quality of Ecosystems in the Yellow River Basin (CAFYBB2021ZB003), under the auspices of the special project for basic scientific research in central public welfare research institutes. These projects provided essential support for the research, underscoring the commitment to enhancing our understanding of wetland ecosystems and their ecological quality, particularly in significant areas like the Yellow River Basin.

摘要/Abstract

摘要： 湿地是具有重要生态功能的关键生态系统，正日益受到人类干扰的影响。理解干扰如何通过土壤条件、功能性状和生物多样性影响植物群落，对于湿地保护具有重要意义。本研究旨在探讨干扰强度如何塑造土壤–植物相互作用及多维度生物多样性。我们在陕西朱鹮国家级自然保护区沿干扰梯度(依据功能分区及植被退化、人类活动等现场指标划分)调查了4个区域。结果表明，干扰显著改变了土壤养分、盐分和化学计量特征，尤其是在高干扰区显著增加了N:P比和电导率。这些变化伴随植物功能性状由资源获取型向资源保守型转变(如比叶面积降低、叶干物质含量及C:P、N:P比升高)。物种丰富度在高干扰区达到峰值，而功能多样性(FRic、FDis、Rao’s Q)和Faith’s PD在中等干扰水平最高；MPD和MNTD在中高干扰下增加，表明环境过滤作用减弱、群落装配的随机性增强。PCA、RDA、回归及SEM分析一致支持上述结果，强调土壤介导的效应对性状表达和多样性格局的重要影响。上述研究表明，中等强度干扰可通过增加生态位与进化空间促进功能和系统发育多样性，从而增强生态系统的韧性；而过强的干扰则可能导致群落同质化和稳定性下降。结合性状与系统发育视角有助于制定适应性、低强度的管理策略，以维持湿地生物多样性和多功能性。

关键词: 干扰强度, 土壤理化性质, 湿地, 多样性, 植物功能性状

Abstract: Wetlands are ecologically critical ecosystems increasingly impacted by anthropogenic disturbances. Understanding how disturbance shapes plant communities via soil conditions, functional traits, and biodiversity is essential for wetland conservation. Here, we aimed to examine how disturbance intensity shapes soil-plant interactions and multidimensional biodiversity in a protected wetland. We surveyed four zones of the Crested Ibis National Nature Reserve (Shaanxi, China) along a disturbance gradient defined by zoning categories and field indicators such as vegetation degradation and human activity. Results showed that disturbance significantly altered soil nutrients, salinity, and stoichiometry, especially increasing N:P ratios and conductivity in highly disturbed zones. These shifts corresponded with trait changes from acquisitive to conservative strategies (e.g., reduced SLA, increased LDMC and C:P, N:P). While species richness peaked under high disturbance, functional diversity (FRic, FDis, Rao’s Q) and Faith’s PD were highest at moderate levels. MPD and MNTD increased under moderate to high disturbance, indicating reduced filtering and greater stochasticity. PCA, RDA, regression, and SEM supported these findings, highlighting soil-mediated effects on trait expression and diversity patterns. Our findings suggest that moderate disturbance enhances functional and phylogenetic diversity, promoting ecosystem resilience through greater niche and evolutionary space. Excessive disturbance, however, leads to homogenization and instability. Integrating trait-based and phylogenetic perspectives supports adaptive, low-intensity management to sustain wetland biodiversity and multifunctionality.

Key words: disturbance intensity, soil physicochemical properties, wetlands, diversity, plant functional traits

. 干扰驱动的湿地土壤特性、植物功能性状与生物多样性变化[J]. Journal of Plant Ecology, DOI: 10.1093/jpe/rtaf142.

Yuhan Zou, Xiying Tang, Lijuan Cui, Xinsheng Zhao, Xiajie Zhai, Yinru Lei, Jinzhi Wang, Huazhe Li, Wei Li. Disturbance-driven variation in soil characteristics, plant functional traits, and biodiversity in wetlands[J]. J Plant Ecol, DOI: 10.1093/jpe/rtaf142.

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