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Legume-based crop diversification reinforces soil health and carbon storage driven by microbial biomass and aggregates

农学 土壤碳 表土 环境科学 土壤质量 固碳 土壤有机质 土壤健康 农业生态系统 种植制度 绿肥 土壤水分 化学 作物 土壤科学 生物 氮气 农业 生态学 有机化学
作者
Zhengjun Yan,Jie Zhou,Chunyan Liu,Rong Jia,Kevin Z. Mganga,Lei Yang,Yadong Yang,Leanne Peixoto,Huadong Zang,Zhaohai Zeng
出处
期刊:Soil & Tillage Research [Elsevier BV]
卷期号:234: 105848-105848 被引量:93
标识
DOI:10.1016/j.still.2023.105848
摘要

Diversified cropping is a crucial management practice for increasing carbon (C) and nitrogen (N) sequestration in agroecosystems. However, knowledge gaps regarding the mechanisms by which diversified cropping affects C sequestration and soil quality remain unclear. Herein, a field experiment across six-year was performed to explore the effect of three contrasting cropping systems (i.e., winter wheat/summer maize, winter wheat/summer maize-early soybean, and nature fallow) on soil quality and C sequestration, as well as their main drivers at both 0–20 cm and 20–40 cm soil depths. Diversified cropping increased soil organic C (SOC) stock by 9% and the majority of the soil biochemical metrics in the topsoil despite a 40% reduction in the fertilizer application relative to wheat/maize. This was attributed to increased SOC content in large macroaggregates and enhanced microbial turnover due to diverse fresh residue inputs under diversified cropping. Alternatively, the soil organic C, microbial biomass C, C-acquisition enzyme activity, and N-acquisition enzyme activity in large macroaggregates (> 2 mm) were increased by 15%, 15%, 32%, and 16% in the topsoil under diversified cropping versus wheat/maize, respectively. Partial least squares path model displayed that increased C sequestration was mainly driven by microbial biomass C irrespective of the bulk- and aggregate scale. Furthermore, diversified cropping increased the soil quality index by 1- to 2-fold relative to maize/wheat since increased aggregate stability benefited soil structure and nutrient cycling regardless of soil depth. Overall, increased SOC stock is dominantly driven by microbial biomass C, and the improved soil quality is mainly impelled by soil organic C and aggregate stability in responding to diversified cropping were expected to create win-win scenarios for agroecosystems.
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