Initial species evenness modulates divergent stability responses to nitrogen enrichment in Tibetan alpine grasslands

doi:10.1093/jpe/rtaf205

J Plant Ecol ›› 2026, Vol. 19 ›› Issue (3): rtaf205.DOI: 10.1093/jpe/rtaf205

• Research Article •

Initial species evenness modulates divergent stability responses to nitrogen enrichment in Tibetan alpine grasslands

Ge Hou^1,2, Peili Shi^2*, Ning Zong², Jian Sun³, Tiancai Zhou³, Jialuo Yu², Yangjian Zhang^1,2,4, Lin Jiang⁵, Juntao Zhu^1,2*

¹Naqu Alpine Grassland Ecosystem National Observation and Research Station, Naqu 852000, China, ²Key Laboratory of Ecosystem Network Observation and Modelling, Institute of Geographic Sciences and Natural Resources Research, Chinese Academy of Sciences, Beijing 100101, China, ³State Key Laboratory of Tibetan Plateau Earth System, Resources and Environment (TPESRE), Institute of Tibetan Plateau Research, Chinese Academy of Sciences, Beijing 100101, China, ⁴College of Resources and Environment, University of Chinese Academy of Sciences, Beijing 100190, China, ⁵School of Biological Sciences, Georgia Institute of Technology, Atlanta GA 30318, USA

^*Corresponding authors. shipl@igsnrr.ac.cn (P. S.), zhujt@igsnrr.ac.cn (J. Z.)

Received:2025-03-23 Accepted:2025-09-21 Online:2025-12-04 Published:2026-06-01
Supported by:
This work was supported by the National Natural Science Foundation of China (41991234, 42077422, U20A2009, 32501415), the National Key Research and Development Program of China (2022YFF1301801), the Second Tibetan Plateau Scientific Expedition and Research (STEP) program (2019QZKK0302), and the Major Science and Technology Projects in Tibet (XZ202101ZD0007G and XZ202101ZD0003N).

初始物种均匀度调控高寒草地群落稳定性对氮富集的差异性响应

Abstract

Abstract: Anthropogenic nitrogen enrichment significantly alters plant community structure and productivity, often undermining long-term stability. However, the role of initial community structure, particularly species evenness, in mediating these stability responses remains inadequately understood. In this study, we conducted an 8-year nitrogen-addition experiment across four alpine grasslands on the Tibetan Plateau, which represent a natural gradient in initial evenness. Our results indicated that initial species evenness was crucial in mediating community stability under nitrogen enrichment. In low-evenness communities, stability exhibited a linear decline with increasing nitrogen, primarily driven by the instability of dominant species, specifically Carex parvula O. Yano in alpine meadows and Stipa purpurea Griseb. in alpine desert steppes. At lower nitrogen levels, dominant species biomass increased; however, as nitrogen levels rose, biomass variability increased, resulting in diminished overall stability. Conversely, high-evenness communities displayed nonlinear stability responses, buffered by species asynchrony. In the alpine meadow steppe, stability initially increased at low nitrogen levels but subsequently declined at higher nitrogen due to reductions in species evenness and functional redundancy. In the alpine steppe, stability first decreased at low nitrogen due to community imbalance, but compensatory dynamics among nitrogen-tolerant species, such as S. purpurea, restored stability at elevated nitrogen levels. These findings emphasize the diverse responses of alpine grasslands to nitrogen enrichment and underscore the significance of initial species evenness for ecosystem resilience. This study offers critical insights for forecasting ecosystem responses and formulating targeted management strategies in the context of global change.

The long-term experiments conducted in the alpine grasslands of the Qinghai-Tibet Plateau revealed that initial species evenness plays a crucial regulatory role in community stability under nitrogen enrichment. The stability of communities with low evenness decreases linearly with nitrogen addition, driven by the instability of dominant species; while communities with high evenness exhibit a non-linear response through species asynchrony, demonstrating stronger ecological resilience.

Key words: initial species evenness, community stability, species richness, species asynchrony, dominant species stability, nitrogen enrichment

摘要：
氮素富集显著影响植物群落结构和生产力，通常降低生态系统稳定性。然而，初始群落结构，尤其是物种均匀度如何调控稳定性对氮素富集的响应，仍缺乏系统认识。本研究以青藏高原高寒草地为对象，选择初始均匀度不同的4种高寒草地类型，开展了为期 8 年的氮添加实验。结果表明，初始物种均匀度在调控群落稳定性对氮素富集的响应中起到关键作用。在低均匀度群落中，稳定性随氮添加水平升高呈线性下降，这一变化主要受优势种不稳定性驱动，特别是对于高寒草甸和高寒荒漠草原，低氮添加增加优势种生物量；然而，随着氮水平升高，生物量波动增强，导致整体稳定性下降。相反，高均匀度群落中稳定性随氮添加量增加呈现非线性响应，主要与物种异步性的缓冲效应有关。在高寒草甸草原，低氮添加提升群落稳定性，而在高氮水平下，稳定性因物种均匀度和功能冗余降低而下降。在高寒草原，稳定性在低氮水平下因群落失衡而下降，但随氮水平升高，氮耐受物种(如紫花针茅 Stipa purpurea Griseb.)间的补偿效应恢复了群落稳定性。本研究揭示了高寒草地群落稳定性对氮素富集的多样化响应，并突出了初始物种均匀度对生态系统韧性的关键调控作用。研究结果为预测生态系统对全球氮素富集的响应以及制定针对性管理策略提供了科学依据。

关键词: 初始物种均匀度, 群落稳定性, 物种丰富度, 物种不同步性, 优势种稳定性, 氮素富集

Ge Hou , Peili Shi , Ning Zong , Jian Sun , Tiancai Zhou , Jialuo Yu , Yangjian Zhang , Lin Jiang , Juntao Zhu. Initial species evenness modulates divergent stability responses to nitrogen enrichment in Tibetan alpine grasslands[J]. J Plant Ecol, 2026, 19(3): 1-.

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Initial species evenness modulates divergent stability responses to nitrogen enrichment in Tibetan alpine grasslands

初始物种均匀度调控高寒草地群落稳定性对氮富集的差异性响应

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