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Litter manipulation enhances plant community heterogeneity via distinct mechanisms: The role of distribution patterns of plant functional composition and niche breadth variability

发布时间:2023-02-23 字体大小 T |T

Title: Litter manipulation enhances plant community heterogeneity via distinct mechanisms: The role of distribution patterns of plant functional composition and niche breadth variability  

Authors: Zhouwen Ma, Lan Li, Qingping Zhou, Fujiang Hou*

Journal: Journal of Environmental Management

Impact factor: 8.91

Abstract: Plant litter can greatly alter community compositional dynamics and variability of intraspecific interactions in grasslands, and thus the overall ecosystem structure and functions. However, whether plant activity can be driven by plant litter to modify plant community heterogeneity remains poorly explored. We investigate the responses of plant community heterogeneity to litter addition as well as their associated mechanisms. Here we conducted a three-year field experiment in a Tibetan alpine meadow to explore the effects of multiple plant litter addition (five mass levels and three species) on plant communities. We found that the effect of litter manipulation on plant community heterogeneity was mainly driven by litter mass rather than litter species. Higher litter mass manipulation significantly enhanced plant community heterogeneity, which was mainly determined by the niche breadth of forbs and the distribution patterns of functional composition rather than plant diversity. Our findings provide significant insights for understanding the effects of plant litter on grassland ecosystem dynamics to maintain the structure and function of ecosystems. Furthermore, this study suggests that reasonable management practices (e.g., moderate grazing in non- growing seasons) may be pivotal in achieving sustainability of grassland systems through plant litter dynamics.

Linkage: https://doi.org/10.1016/j.jenvman.2022.115877

Litter manipulation enhances plant community heterogeneity via distinct mechanisms The role of distribution patterns of plant functional composition and niche breadth variability.pdf