Plant community root traits outweigh target species in mediating soil carbon and nitrogen storage across grazing-exclusion chronosequences in semi-arid grasslands

doi:10.1093/jpe/rtaf131

J Plant Ecol ›› 2026, Vol. 19 ›› Issue (1): rtaf131.DOI: 10.1093/jpe/rtaf131

• Research Article •

Plant community root traits outweigh target species in mediating soil carbon and nitrogen storage across grazing-exclusion chronosequences in semi-arid grasslands

Yu An¹, Yang Gao^2,*, Jian Liu², Yuqi Zhang², Duojia Wang², Hongyuan Ma¹and Shouzheng Tong¹

¹Northeast Institute of Geography and Agroecology, Chinese Academy of Sciences, Changchun 130102, China,²Jilin Academy of Agricultural Sciences (Northeast Agricultural Research Center of China), Changchun 130033, China ^*Corresponding author. Email: gaoyang2302@126.com

Received:2025-04-21 Accepted:2025-08-10 Online:2025-08-16 Published:2026-02-01
Supported by:
This work was supported by the National Natural Science Foundation of China (U23A2004, 42371049, 42471066, 41601053), the Science and Technology Development Program of Jilin Province, China (20230203003SF), and the Basic Research Grant of Jilin Academy of Agricultural Sciences, China (KYJF2023JJ102).

半干旱草原植物群落根系性状调控土壤碳和氮储量随禁牧时间的变化

Abstract

Abstract: Semi-arid grasslands serve as critical carriers for carbon and nitrogen sequestration in ecologically fragile regions, with plant root functional traits playing a pivotal regulatory role. However, current restoration efforts, overly focused on target species selection strategies, may underestimate root networks’ contribution to soil carbon/nitrogen accumulation. This study examined soil organic carbon (SOC) and total nitrogen (TN) storage, and root traits of target species (Leymus chinensis) and plant community across a chronosequence of grazing-exclusion grasslands in China’s semi-arid Songnen Plain. Results showed that both SOC and TN contents generally increased with grazing-exclusion duration, exhibiting a strong positive linear relationship (R² = 0.83, P < 0.001). SOC storage peaked at 27 years (79.89 t ha⁻¹), while TN storage stabilized after 19 years (9.46 t ha⁻¹). Root traits at target species and community levels exhibited similar temporal trends. Variance partitioning analysis revealed that community root traits had stronger independent effects on SOC/TN storage than target species. The random forest model identified community root carbon content (RCC), root weight (RW), root diameter (RD), and special root length (SRL) as key predictors. Structural equation modelling further indicated grazing exclusion directly and indirectly influenced SOC/TN accumulation. Specifically, reduced community SRL negatively affected RCC and RD, thereby promoting SOC and TN storage, respectively. This study underscores that community root traits, particularly their trade-off relationships, play a more pivotal role than target species in regulating soil functions, thereby establishing a novel trait-based framework for guiding grassland restoration in semi-arid regions.

Traditional grassland restoration practices often prioritize target species selection, overlooking the critical role of root networks. This study, conducted across a grazing-exclusion chronosequence in semi-arid grasslands, reveals that the regulatory effect of plant community root traits on soil carbon and nitrogen accumulation significantly surpasses that of target species. This conclusion provides a scientific basis for optimizing restoration strategies and enhancing ecological functions in arid and semi-arid grasslands.

Key words: community-weighted mean, ecological restoration, root traits, soil functions, Songnen grassland

摘要：
半干旱草原是生态脆弱区碳氮固存的重要载体，其固碳/氮能力受到植物根系性状的调控。然而，当前草地修复措施主要关注恢复目标物种的选择，忽略了地下根系互作网络对土壤碳/氮累积的贡献。本研究以中国半干旱区松嫩草原为对象，分析了禁牧时间对土壤有机碳(SOC)和全氮(TN)储量的影响，以及恢复目标物种羊草(Leymus chinensis)和植物群落根系性状对SOC和TN变化的相对贡献。结果表明：1)SOC和TN含量均随禁牧年限增加显著上升，且二者之间显著正相关(R² = 0.83，P < 0.001)。随着禁牧时间延长，SOC储量持续增加并于27年时达到峰值(79.89 t ha⁻¹)，而TN储量则在19年后趋于稳定(9.46 t ha⁻¹)。2)沿着禁牧时间序列，恢复目标物种与群落水平根系功能性状与SOC和TN表现出相似的时间动态特征。3)方差分解分析显示，群落根系性状对土壤SOC/TN储量的独立贡献高于恢复目标物种。随机森林模型分析的结果显示，群落根碳含量(RCC)、根重(RW)、根直径(RD)和比根长(SRL)是SOC和TN积累的关键预测因子。结构方程模型进一步发现，禁牧降低了群落SRL，负向调控RCC和RD，进而促进了SOC和TN的累积。上述结果表明植物群落功能性状(尤其是性状间权衡关系)比恢复目标物种在调控土壤生态功能方面的作用更为关键，相关结果建立了基于功能性状的新生态恢复框架，为半干旱区草原恢复提供理论基础。

关键词: 群落加权平均值, 生态恢复, 根系性状, 土壤功能, 松嫩草地

Yu An, Yang Gao, Jian Liu, Yuqi Zhang, Duojia Wang, Hongyuan Ma, Shouzheng Tong. Plant community root traits outweigh target species in mediating soil carbon and nitrogen storage across grazing-exclusion chronosequences in semi-arid grasslands[J]. J Plant Ecol, 2026, 19(1): 1-.

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Plant community root traits outweigh target species in mediating soil carbon and nitrogen storage across grazing-exclusion chronosequences in semi-arid grasslands

半干旱草原植物群落根系性状调控土壤碳和氮储量随禁牧时间的变化

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