农业生态系统
生物群
丰度(生态学)
环境科学
生态系统
土壤碳
土壤生物学
生态学
物种丰富度
农林复合经营
覆盖作物
生态系统服务
固碳
农业
生物多样性
生态系统工程师
碳纤维
草原
土壤生物多样性
物种均匀度
可持续农业
生态系统生态学
农学
生态系统管理
土壤生态学
供应
作者
Wenfeng Xue,Ting Liu,Saisai Cheng,Xiaoyun Chen,Joann K. Whalen,M-y Liu
摘要
Abstract Organic substrates from plants and animals are crucial for sustainable agriculture, yet their effects on agroecosystem multifunctionality remain underexplored at the global scale. Using a meta-analysis of 8509 field observations, we examined how plant-based carbon inputs (legume cover crops) and animal-based carbon inputs (vermicompost) influence nine ecological functions. Both carbon inputs significantly improved agroecosystem multifunctionality, with legume cover crops increasing it by 17% and vermicompost by 31%. These improvements were concentrated in supporting and provisioning services. Soil biota abundance was strongly linked to multifunctionality and showed more frequent win-win relationships with other functions than species richness. Across agroecosystems, soil biota abundance was primarily associated with local soil properties, followed by climate factors. Our findings highlight soil biota abundance as a community attribute complementary to species richness that contributes to agroecosystem multifunctionality. We further propose site-specific management strategies that align plant- and animal-based carbon inputs with local environmental conditions in global croplands to enhance multifunctionality.
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