无脊椎动物
环境科学
土壤碳
土壤生物学
土壤生态学
生态系统
土壤呼吸
土壤生物多样性
生态学
生物量(生态学)
陆地生态系统
土壤有机质
土壤食物网
碳循环
草原
土壤水分
温带气候
土壤动物
生物多样性
农学
自行车
土壤健康
土壤类型
生物扰动
生态系统工程师
土壤科学
土工试验
营养循环
全球变化
土壤分类
作者
Changli Liu,Catherine L. Parr,Benoit Guénard,Xiaoyu Cen,Hua Chai,Mingxu Li,Zhiwei Zhong,Shenliang Zhao,Jie Li,Nianpeng He
摘要
ABSTRACT Soil invertebrates represent vital components of belowground biodiversity and play pivotal roles in regulating key carbon (C) cycling processes, particularly soil respiration. Despite the recognised effects of invertebrates on soil respiration, previous studies suffer from a major blind spot: a lack of global‐scale interpretations of inferred associations describing how these organisms mediate C release. In this study, we integrated 556 datasets spanning 90 publications to systematically assess the global patterns and inferred associations by which soil invertebrates influence soil respiration. The results revealed that soil invertebrates, on average, enhanced soil respiration by 52%. Across climatic zones, the magnitude of this positive effect tended to decline from tropical to temperate regions. When classified by body size, among the large‐bodied soil invertebrates, ants and termites increased soil respiration by 60% and 62%, respectively, whereas earthworms stimulated it by 47%. In contrast, small‐to‐medium‐bodied soil invertebrates exerted no significant effect. Across ecosystem types, soil invertebrates stimulated soil respiration more strongly in forest ecosystems, with an increase of 55%, compared to a 44% increase in grassland ecosystems. The pathways through which soil invertebrates influence respiration varied markedly among body‐size groups and ecosystem types. Overall, soil invertebrates primarily influenced soil microbial biomass C, fungal biomass and bacterial biomass, as well as soil organic N, soil organic C and soil pH, which in turn were closely associated with soil respiration. These findings underscore the key role of soil invertebrates in influencing soil CO 2 emissions and provide insights essential for improving Earth system models under ongoing climate change.
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