空间变异性
生物量(生态学)
营养水平
生态学
空间分布
生态系统
空间生态学
生物
微生物种群生物学
微生物生态学
氮气
空间异质性
植物群落
群落结构
社区
生物量分配
真菌病原
共同空间格局
物种多样性
种内竞争
作者
Yimin Zhao,Xiang Liu,Yu Nie,Zhenhua Zhang,Shurong Zhou
出处
期刊:Ecology
[Wiley]
日期:2025-09-01
卷期号:106 (9): e70215-e70215
被引量:1
摘要
In plant communities, biomass varies considerably in both space and time. Both top down (e.g., pathogens) and bottom up (e.g., nutrients) can influence this variation, but their relative importance and the pathways in which they do so remain poorly understood. Here, we examined the separate and interactive influence of fungal pathogen exclusion and nitrogen addition on the spatial variability of plant community biomass and the underlying mechanisms in an alpine meadow. We found that fungal pathogen exclusion and nitrogen addition independently increased community spatial variability by increasing the variance of plant biomass more than the mean biomass, but there was no interaction between the treatments. Fungal pathogen exclusion increased spatial variation in community biomass by enhancing species covariation. In contrast, nitrogen addition increased community spatial variability mainly by enhancing species variability through increasing beta diversity among communities. Additionally, our observed increase in the spatial mean and variance of biomass in the pathogen exclusion treatment was mainly driven by dominant grasses, whereas all functional groups responded to nitrogen addition. Our results suggest that higher trophic groups and resources can regulate spatial variability of biomass distribution through distinct mechanisms. This enhances our knowledge regarding the roles of top-down and bottom-up forces in maintaining ecosystem functions across spatial scales.
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