生物地球化学循环
表土
土壤水分
环境科学
氮气
生物地球化学
土壤有机质
土壤科学
农学
土层
氮同位素
库存(枪支)
氮气循环
生态系统
草原
农业
土壤碳
土壤肥力
时序
水文学(农业)
土壤pH值
土壤化学
稳定同位素比值
土壤功能
耕地
同位素
大块土
同位素分析
植被(病理学)
放射性核素
有机质
作者
Chenxi Xia,Wenxin Ba,Jun Shan,Xu Zhao,Xueyan Liu,Wulahati Adalibieke,Haoming Yu,Feng Zhou
摘要
Abstract Fertilizer nitrogen (N) can accumulate in the soil‐vadose zone‐groundwater continuum as legacy N, exerting a consistent influence on key biogeochemical processes such as crop N uptake, N leaching, and gaseous N emissions. However, the regional stock of legacy N in soils and its contribution to soil N pools remain unknown due to the lack of effective estimation methods, hindering the understanding of its environmental and agricultural effects. Here, we proposed a method for quantifying legacy N stock at the regional scale by identifying an exponential decay pattern in multi‐year N retention rates and establishing a validated power function fitting between a parameter related to the initial retention rate and the N application rate. We further proposed a novel N isotope model to constrain the contribution of legacy N to soil N pools. Overall, China's upland croplands have accumulated legacy N of 54.7 ± 24.9 Tg N in top 30 cm soils over the past six decades (1961–2020). Croplands in southern China are hotspots for legacy N accumulation, likely due to their rich soil organic carbon. Legacy N may account for 43%–89% of soil organic N sequestration. The N isotope model estimates that legacy N constitutes 21.4% ± 6.9% of total soil N, comparable with the compiled proportion of total N increases due to fertilization (16.0%). These findings suggest that the legacy N from historical fertilizers substantially enhances soil fertility, and may inform biogeochemical parameterization given that the components of soil N pools may differ in stability.
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