Distinct geographic patterns and drivers of plant, bacterial, and fungal β-diversity in semi-arid grasslands: Insights from a 1,700 km transect in northern China

doi:10.1093/jpe/rtaf148

J Plant Ecol ›› 2026, Vol. 19 ›› Issue (1): rtaf148.DOI: 10.1093/jpe/rtaf148

• Research Article •

Distinct geographic patterns and drivers of plant, bacterial, and fungal β-diversity in semi-arid grasslands: Insights from a 1,700 km transect in northern China

Congwen Wang^1,2,3, Yuan Wang^2,3, Linna Ma^2,3, Xuehua Ye^2,3, Guofang Liu^2,3,4,*

¹State Key Laboratory of Black Soils Conservation and Utilization, Northeast Institute of Geography and Agroecology, Chinese Academy of Sciences, Changchun 130102, China, ²State Key Laboratory of Vegetation and Environmental Change, Institute of Botany, Chinese Academy of Sciences, Beijing 100093, China, ³College of Resources and Environment, University of Chinese Academy of Sciences, Beijing 100049, China, ⁴College of Life and Environmental Sciences, Shaoxing University, Shaoxing 312000, China

^*Corresponding author. Email: liuguofang2004@126.com

Received:2025-03-27 Accepted:2025-09-05 Online:2025-09-09 Published:2026-02-01
Supported by:
This work supported by Postdoctoral Fellowship Program of CPSF (GZC20232644), Jilin Provincial Natural Science Foundation (YDZJ202401482ZYTS), and the National Key Research and Development Program of China (2016YFC0500501).

中国北方半干旱草地植物、细菌与真菌β多样性的地理格局及驱动因子

Abstract

Abstract: The β-diversity, as the variation in community composition across habitats, is crucial for understanding regional community assembly and biodiversity conservation. While biogeographic patterns of both macro- and microorganisms have been well-documented, little is known about studies that simultaneously examine these patterns and their driving mechanisms across continuous spatial scales in both above- and belowground communities. Here, we conducted a field survey along a 1700-kilometer transect across diverse landscapes, including meadow steppe, typical steppe, desert steppe and inland dunes in the semi-arid region (aridity ranging from 0.66 to 0.83) of northern China to investigate patterns and drivers of β-diversity in plant, bacterial and fungal communities at continuous spatial scales. We found that organisms with various dispersal traits exhibited significantly different distance-decay relationships, with plants showing the steepest slope (−0.190), followed by fungi (−0.095) and bacteria (−0.061). Species turnover was the primary component of β-diversity across plant, bacterial and fungal communities at various spatial scales. Furthermore, β-diversity, its turnover components, and β-deviation of plant, bacterial and fungal communities all showed significant and positive relationships with spatial scale. Moreover, environmental distance had a greater impact on β-diversity patterns than geographic distance. Among environmental factors, aridity emerged as the dominant driver significantly influencing the β-diversity of plant and microbial communities, with the strongest effect on the bacterial community. These findings provide essential insights into the mechanisms influencing β-diversity in both plant and soil microbial communities, highlighting the importance of spatial scale and environmental filtering in community assembly.

This study investigated the β-diversity patterns and drivers of plant, bacterial, and fungal communities across continuous spatial scales in semi-arid regions of northern China, revealing that environmental factors, particularly aridity, played a crucial role in shaping community β-diversity, with spatial scale and environmental filtering being key drivers of community assembly.

Key words: β-diversity, distance-decay relationship, environmental filtering, dispersal limitation, aridity, grasslands

摘要：
β多样性能够反映不同生境中群落组成的变化，对于理解区域尺度群落构建和生物多样性保护至关重要。虽然β多样性的生物地理格局已有较多报道，但少有研究同时评估地上与地下生物多样性的空间变异及其驱动机制。基于中国北方半干旱地区(干旱指数0.66−0.83)长达1700 km的样带调查，本研究旨在解析连续空间尺度上植物、细菌和真菌群落β多样性的格局与驱动因素。研究发现：1)具有不同扩散特性的生物群落距离-衰减关系存在显著差异；其中，植物的衰减斜率最陡(−0.190)，其次是真菌(−0.095)和细菌(−0.061)。2)在不同空间尺度上，物种更替是β多样性的主要组成部分。植物、细菌和真菌群落的β多样性、更替成组分以及β偏差均随空间尺度显著增加。3)环境距离对β多样性格局的影响大于地理距离。干燥度是影响植物和微生物群落β多样性的主要环境因素，其对细菌群落的影响尤为显著。综上所述，本研究加深了植物与土壤微生物群落β多样性驱动机制的认识，突出了空间尺度和环境过滤在群落构建中的重要作用。

关键词: β多样性, 距离-衰减关系, 环境过滤, 扩散限制, 干燥度, 草地

Congwen Wang, Yuan Wang, Linna Ma, Xuehua Ye, Guofang Liu. Distinct geographic patterns and drivers of plant, bacterial, and fungal β-diversity in semi-arid grasslands: Insights from a 1,700 km transect in northern China[J]. J Plant Ecol, 2026, 19(1): 1-.

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Distinct geographic patterns and drivers of plant, bacterial, and fungal β-diversity in semi-arid grasslands: Insights from a 1,700 km transect in northern China

中国北方半干旱草地植物、细菌与真菌β多样性的地理格局及驱动因子

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