植物生态学报

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氮磷添加增强天山高寒草地群落构建中确定性过程

洪翎桂, 安琦:, 张佛军, 任宇飞, 任正炜, 周小龙   

  1. 新疆大学, 830046
    兰州大学生态学院, 730000
  • 收稿日期:2025-09-21 修回日期:2026-02-07 接受日期:2026-01-27

Nitrogen and phosphorus addition enhances deterministic processes in community assembly of alpine grasslands in the Tianshan Mountains

HONG LingGui, AN Qi, ZHANG Fojun, REN Yufei, REN Zhengwei, ZHOU Xiao-Long   

  1. , 830046,
    , 730000,
  • Received:2025-09-21 Revised:2026-02-07 Accepted:2026-01-27

摘要: 理解养分添加如何影响群落构建的过程, 对于预测高寒草地生态系统对养分富集的响应至关重要。但是当前关于养分添加后群落构建过程的变化, 尤其是确定性和随机性过程的相对作用大小, 仍然存在争议。该研究在天山南麓的巴音布鲁克高寒草地设置了包括对照、氮、磷以及氮磷混合添加4个处理的养分添加实验, 调查了物种相对多度、地上生物量及植物功能性状, 使用性状-多度关系、β Raup–Crick指数、功能多样性、生态位重叠程度和土壤理化性质对养分添加的响应模式, 探讨养分添加后确定性与随机性过程在群落构建中的相对作用, 并进一步分析环境过滤与相似性限制两种生态位过程的相对重要性。结果表明, 氮添加处理下物种相对多度与植物高度呈显著正线性回归关系, 氮和氮磷混合添加处理中物种相对多度与种子大小呈显著负线性回归关系, 表明具有较高高度和种子较小的物种分别凭借光竞争和快速定殖优势成为群落优势种, 为基于性状的生态位理论提供了依据; 此外, 零模型分析(β Raup–Crick指数)结果表明, 养分添加后群落间物种组成差异明显小于随机模拟, 群落构建逐渐由随机过程向确定性过程转变; 含氮肥的养分添加显著提高了地上生物量, 同时导致功能丰富度、功能离散度和Rao指数显著下降, 并增加了生态位重叠程度, 表明养分添加增强了环境过滤作用, 促进功能性状趋同和物种组成收敛。然而, 短期养分添加并未显著降低物种丰富度, 可能是受限于本区域物种库稀有种比例低的特点。综上所述, 氮是该区域地上生物量的主要限制性养分, 养分添加通过强化环境过滤, 增强了高寒草地群落构建中的确定性过程。该研究揭示了高寒草地在养分富集背景下的功能趋同趋势, 为该区域草地的生物多样性保护提供了理论依据。

关键词: 养分添加, 群落构建, 物种相对多度, 功能性状, 生态位重叠

Abstract: Abstract Aims Understanding how nutrient addition influences community assembly is essential for predicting the responses of alpine grassland ecosystems to eutrophication. However, the relative importance of deterministic versus stochastic processes following nutrient addition remains debated. Methods We conducted a nutrient-addition experiment in the Bayanbulak alpine grassland on the southern slope of the Tianshan Mountains, with four treatments: control, nitrogen addition, phosphorus addition, and combined nitrogen and phosphorus addition. We measured species relative abundance (SRA), aboveground biomass, and plant functional traits. Using trait-abundance relationships, the β Raup–Crick index, functional diversity metrics, niche overlap, and the responses of soil physicochemical properties to fertilization, we evaluated how nutrient addition alters the balance between deterministic and stochastic assembly, and further assessed the relative importance of environmental filtering versus limiting similarity. Important findings Following N addition, SRA exhibited a significant positive linear relationship with plant height, while under N and NP additions SRA showed a significant negative linear relationship with seed size, indicating that taller species and species with smaller seeds became dominant via advantages in light competition and rapid colonization, respectively—consistent with trait-based niche assembly. Null-model analyses (β Raup–Crick) further revealed that between-community dissimilarity under nutrient addition was significantly lower than expected by randomization, indicating a shift from stochastic to deterministic assembly. Nitrogen-containing treatments significantly increased aboveground biomass, while significantly decreasing functional richness, functional dispersion, and Rao’s Q, and increasing niche overlap. These results suggest that nutrient addition enhanced environmental filtering, promoting functional trait convergence and compositional convergence. However, short-term nutrient addition did not significantly reduce species richness, likely because the regional species pool contains a relatively low proportion of rare species. Overall, nitrogen is the primary limiting nutrient for aboveground biomass in our study area, and nutrient enrichment promotes deterministic assembly by strengthening environmental filtering. These results reveal a trend toward functional convergence under nutrient enrichment and provide theoretical support for biodiversity conservation in alpine grasslands.

Key words: nutrient addition, community assembly, species relative abundance, functional traits, niche overlap