农业新质生产力对农业碳排放强度的影响及作用机制OA
Impact and mechanism of agricultural new quality productive forces on agricultural carbon emission intensity
发展农业新质生产力是加快农业绿色低碳转型和推动农业高质量发展的重要支撑.基于 2013-2022年中国 30个省级行政区(不包括西藏、香港、澳门和台湾)的面板数据,采用双向固定效应模型检验农业新质生产力对农业碳排放强度的直接影响,并通过中介效应模型和二次项模型进一步分析其影响效应及作用机制.研究结果表明:农业新质生产力会显著降低农业碳排放强度;相较于其他区域,非粮食主产区与高农业科技投入地区的碳减排效果更显著;农业土地生产率是农业新质生产力降低农业碳排放的重要中介路径;农业新质生产力与农业碳排放存在 U型非线性关系,当农业新质生产力指数超过 0.58时,碳排放强度可能反弹.因此,农业新质生产力通过技术创新与效率优化显著抑制农业碳排放,但农业新质生产力碳减排效应受技术路径阶段性与区域资源禀赋的制约;政府需通过差异化政策设计、技术协同创新与动态监管机制,实现农业高质量发展与碳中和目标的协同.
As the core driver for optimizing agricultural production systems,agricultural new quality productive forces transform traditional farming practices through technological innovation and model upgrades,thereby playing a key role in advancing the green and low-carbon development of agriculture.Using panel data from 30 Chinese provinces(autonomous regions,municipalities,excluding Hong Kong,Macao,Taiwan and Xizang)from 2013 to 2022,this study employed a two-way fixed effects model to investigate the direct impact of agricultural new quality productive forces on agricultural carbon emission intensity.It further utilized mediating and quadratic term models to analyze the indirect effects and underlying mechanisms.The study found that agricultural new quality productive forces substantially reduced agricultural carbon emission intensity.A heterogeneity analysis showed that this carbon emission reduction effect was more pronounced in non-major grain-producing areas and regions with high agricultural technology investment.Furthermore,mechanism tests indicated two key findings:agricultural land productivity was an important mediating pathway through which agricultural new quality productive forces reduced carbon emissions,and a U-shaped non-linear relationship existed between these forces and agricultural carbon emissions.Specifically,when the index for agricultural new quality productive forces exceeded 0.58,carbon emission intensity may rebound.These conclusions provide important insights for optimizing the development strategies of agricultural new-quality productive forces and for formulating targeted,differentiated carbon emission reduction policies,thereby contributing to sustainable societal development.
郑兰钦;陈怡珑;连海峰;王武成;陈楗鑫
福建农林大学计算机与信息学院/生态与资源统计福建省高校重点实验室/数字福建农林大数据研究所 福州 350002福建农林大学计算机与信息学院/生态与资源统计福建省高校重点实验室/数字福建农林大数据研究所 福州 350002福建农林大学计算机与信息学院/生态与资源统计福建省高校重点实验室/数字福建农林大数据研究所 福州 350002福建农林大学计算机与信息学院/生态与资源统计福建省高校重点实验室/数字福建农林大数据研究所 福州 350002福建农林大学计算机与信息学院/生态与资源统计福建省高校重点实验室/数字福建农林大数据研究所 福州 350002
管理科学
农业新质生产力农业碳排放强度非线性关系土地生产率农业绿色发展
agricultural new quality productive forcesagricultural carbon emission intensitynonlinear relationshipland productivitygreen agricultural development
《中国生态农业学报(中英文)》 2026 (5)
1023-1035,13
国家自然科学基金项目(42202333)和福建省自然科学基金项目(2022J01152)资助 This study was supported by the National Natural Science Foundation of China(42202333)and the Natural Science Foundation of Fujian Province(2022J01152).
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