环境科学
温室气体
农业
发射强度
水田
肥料
泥炭
农作物产量
化石燃料
空间变异性
土地利用
生产(经济)
大气科学
作物
温室
持续性
影响评估
农业生产力
全球变暖
农用地
农林复合经营
空间分布
土地利用、土地利用的变化和林业
作物残渣
空间生态学
粮食安全
作者
Peiyu Cao,Franco Bilotto,Carlos Gonzalez Fischer,Nathaniel D. Mueller,Kimberly M. Carlson,Avery W. Driscoll,James S. Gerber,Pete Smith,Francesco N. Tubiello,Paul C. West,Liangzhi You,Mario Herrero
标识
DOI:10.1038/s41558-026-02558-4
摘要
Abstract Spatially explicit cropland greenhouse gas emission data are essential for identifying emission hotspots and guiding sustainable mitigation strategies. Here we develop high-resolution (5 arcmin) global maps of cropland emissions across 46 crop classes in 2020 by integrating sectoral datasets on synthetic fertilizer, manure, crop residue, in-field burning, rice cultivation and cultivated drained peatlands. Global croplands emitted 2.5 (95% CI 2.4–2.7) GtCO 2 e yr −1 , with drained peatlands (35%), rice paddies (35%) and synthetic fertilizer (23%) as the primary contributors. Four crops—rice, maize, oil palm and wheat—accounted for 67% of total emissions. Emission areal intensities averaged 2 MgCO 2 e ha − 1 globally, with higher intensities in Asia and Europe, where croplands also achieved high caloric productivity. Spatial correlations between emission intensity and production efficiency reveal geographic trade-offs between mitigation potential and food production. The resulting dataset establishes a unified global framework for a spatially explicit assessment of agricultural emissions and efficiency.
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