Distinct effects of drought and nitrogen enrichment on the compositional and productivity stability of temperate grasslands

doi:10.1093/jpe/rtaf167

J Plant Ecol ›› 2026, Vol. 19 ›› Issue (2): rtaf167.DOI: 10.1093/jpe/rtaf167

• Research Article •

Distinct effects of drought and nitrogen enrichment on the compositional and productivity stability of temperate grasslands

Jiatao Zhang¹, Lan Du¹, Yonghong Luo¹, Yann Hautier², Ru Tian¹, Yan Shen¹, Mohsin Mahmood¹, Zhuwen Xu^1,*

¹Ministry of Education Key Laboratory of Ecology and Resource Use of the Mongolian Plateau, Inner Mongolia Key Laboratory of Grassland Ecology, Observation and Research Station for the Typical Steppe Ecosystem of the Ministry of Education, School of Ecology and Environment, Inner Mongolia University, Hohhot 010021, China, ²Ecology and Biodiversity Group, Department of Biology, Utrecht University, Utrecht 3584 CS, The Netherlands

^*Corresponding author. Email: zwxu@imu.edu.cn

Received:2025-05-10 Accepted:2025-09-21 Online:2025-10-13 Published:2026-04-01
Supported by:
This work received support from the Science and Technology Plan of Inner Mongolia Autonomous Region (2025YFDZ0062), the Basic and Applied Basic Research Projects of Hohhot (2025-规-基-54), the Project for Scientific Innovation Capability Development of the Key Laboratory of Ecology and Resource Use of the Mongolian Plateau, Ministry of Education of China (MPL20250202), the National Natural Science Foundation of China (32060284), and the Natural Science Foundation of Inner Mongolia, China (2019JQ04).

干旱和氮富集对温带草原群落组成稳定性与生产力稳定性的差异化影响

Abstract

Abstract: Drought events and nitrogen deposition are substantially modifying the stability of terrestrial ecosystems. Previous studies have mostly investigated these factors separately, with an emphasis on productivity stability, leaving their combined effects on multiple dimensions of ecosystem stability poorly understood. We conducted a four-year grassland manipulative experiment to examine how three drought scenarios—intense drought, chronic drought, and precipitation frequency reduction—interact with nitrogen addition to influence community compositional stability and productivity stability. The results showed that drought and nitrogen enrichment independently influenced grassland stability without significant interactions. Both intense and chronic drought reduced productivity stability, while reduced precipitation frequency decreased compositional stability. Nitrogen addition decreased both types of stability. Productivity stability was driven by the dominant species’ productivity stability or a combination of it and species asynchrony, depending on the drought scenario. Compositional stability consistently depended on the dominant species’ compositional stability. Compositional and productivity stability remained decoupled across treatments. This study provides the first empirical evidence of the divergent responses of grassland compositional and productivity stability to various drought scenarios under nitrogen enrichment. Our findings highlight the importance of prioritizing dominant species and promoting species coexistence with diverse environmental responses to maintain stable grassland composition and productivity under global change.

Based on a four-year manipulative experiment, this study compared the effects of different drought scenarios and nitrogen enrichment on compositional and productivity stability in a temperate grassland. We found that these two dimensions of stability respond differently to drought types and nitrogen addition and remain persistently decoupled, highlighting the need to prioritize dominant species and promote the coexistence of species with diverse environmental response strategies to maintain grassland stability under global change.

Key words: chronic drought, dominant stability, intense drought, nitrogen deposition, precipitation redistribution, species asynchrony

摘要：
干旱和氮沉降会显著改变陆地生态系统稳定性。然而，以往研究主要关注干旱或氮沉降单因素对生产力稳定性的影响，而对二者交互如何影响生态系统多维度稳定性尚不清楚。为此，本研究开展了一项为期4年的草地全球变化因子控制实验，考察3种干旱情景(极端干旱、缓慢干旱和降水频率减少)与氮添加交互对群落组成稳定性和生产力稳定性的影响。结果表明：1)干旱和氮添加对草地稳定性的影响不存在交互作用。极端干旱和缓慢干旱均降低生产力稳定性，而减少降水频率则降低了群落组成稳定性。氮添加同时降低群落组成稳定性和生产力稳定性。2)生产力稳定性受到优势物种生产力稳定性或其与物种异步性的共同作用所驱动，具体取决于干旱情景类型；而群落组成稳定性则始终依赖于优势物种组成稳定性。3)在所有处理中，群落组成稳定性与生产力稳定性出现解耦现象。本研究首次提供了氮添加条件下，草原群落组成稳定性与生产力稳定性对不同干旱情景差异化响应的实验证据。上述结果表明，氮素有效性可调节刈割诱导的羊草补偿性生长强度，促进羊草的空间扩张，进而在利用羊草无性系修复斑块化退化草地中具有较大应用潜力。

关键词: 缓慢干旱, 优势种稳定性, 极端干旱, 氮沉降, 降水再分配, 物种异步性

Jiatao Zhang, Lan Du, Yonghong Luo, Yann Hautier, Ru Tian, Yan Shen, Mohsin Mahmood, Zhuwen Xu. Distinct effects of drought and nitrogen enrichment on the compositional and productivity stability of temperate grasslands[J]. J Plant Ecol, 2026, 19(2): 1-.

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Distinct effects of drought and nitrogen enrichment on the compositional and productivity stability of temperate grasslands

干旱和氮富集对温带草原群落组成稳定性与生产力稳定性的差异化影响

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