高原(数学)
生态学
环境科学
线虫
降级(电信)
多样性(政治)
作文(语言)
土壤退化
农学
土壤科学
土壤水分
生物
计算机科学
语言学
电信
数学分析
哲学
社会学
数学
人类学
作者
Mingyang Zhang,Yu Sun,Yongsheng Yang,Li Zhang,Zhenhua Zhang,Jing Zhao,Longfei Chen,Huakun Zhou
标识
DOI:10.1016/j.ecolind.2025.114106
摘要
• Soil nematode community composition is effectively predicted by belowground biomass. • Nematode diversity is strongly influenced by soil properties during the alpine meadow degradation process. • Light degradation exhibited the highest α-diversity of soil nematodes. Soil nematodes play a critical role in maintaining ecosystem services; however, their community dynamics in response to alpine meadow degradation remain poorly understood. This study aimed to assess how alpine meadow degradation affects soil nematode diversity and community composition, and to identify the key biotic and abiotic factors driving these changes. In this study, soil samples were collected and analyzed from three alpine meadows exhibiting different degrees of degradation on the Qinghai-Tibet Plateau. We evaluated soil nematode community composition and diversity as well as a range of soil physicochemical properties during alpine meadow degradation and identified the ecological predictors of soil nematode diversity and community composition using NMDS and SEM analyses. Our results showed that: (1) as alpine meadow degradation intensified, the relative abundance of bacterivores and fungal feeders initially decreased but then increased, whereas the relative abundance of omnivores exhibited the opposite trend, and the relative abundance of predators and plant feeders did not significantly change. (2) Soil nematode diversity significantly changed with alpine meadow degradation, and nematode diversity was greatest under light degradation. (3) During the alpine meadow degradation process, soil properties (pH, soil total nitrogen and soil available nitrogen), especially pH, were key factors affecting soil nematode diversity, and plant below-ground biomass had the strongest total positive effect on soil nematode community composition. Our study revealed that alpine meadow degradation significantly changed soil nematode diversity and community composition and that light degradation increased soil nematode diversity and may enhance soil ecosystem functions. Our study improves understanding of the soil nematode diversity and community composition of degradation and provides useful guidance for alpine meadow restoration.
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