Abstract:Against the backdrop of intensifying global climate change, geopolitical conflicts, and increasing market volatility, enhancing grain production resilience has become a central issue in achieving national food security and sustainable agricultural development. Based on unbalanced panel data from 2,649 counties in China from 2011 to 2022, this study employs a difference-in-differences (DID) model to systematically assess the impact of the National Modern Agricultural Demonstration Zone (NMADZ) on grain production resilience and its underlying mechanisms. The results show that the construction of NMADZ significantly enhances grain production resilience. The strengthening effect is particularly pronounced in major grain-producing and production-consumption balanced regions, economically developed areas, eastern and central regions, and areas with relatively low rural labor endowment. NMADZ enhances grain production resilience by coordinating regional agricultural resources, promoting the efficient flow of production factors to optimize resource allocation efficiency, and by advancing modern agricultural technologies and strengthening organized production to improve agricultural productivity. Therefore, it is essential to systematically optimize the agricultural factor allocation mechanism, guide resources toward major and high-efficiency grain-producing areas, and improve supportive systems such as land transfer, agricultural services, and technological support, thereby continuously enhancing resource allocation efficiency and production efficiency, and fully unleashing the strategic role of NMADZ in reinforcing grain production resilience.
李少林, 马里. 国家现代农业示范区建设影响粮食生产韧性的作用机制及政策效应[J]. 《深圳大学学报》(人文社科版), 2025, 42(3): 5-11.
LI Shao-lin, MA Li. The Mechanism and Policy Effects of National Modern Agricultural Demonstration Zone Construction on Grain Production Resilience. , 2025, 42(3): 5-11.
[1] 仇焕广,雷馨圆,冷淦潇,等.新时期中国粮食安全的理论辨析[J].中国农村经济,2022,(7):2-17. [2] 左秀平,叶林祥,台德进,等.数字经济与中国粮食体系韧性:影响效应与作用机制[J].统计与决策,2024,40(21):117-122. [3] 王妍霏,叶举,曹杰.数字金融提升粮食体系韧性的机理及效应研究[J].经济经纬,2023,40(5):48-60. [4] 李明亮,陈德慧,余国新.数字普惠金融赋能粮食体系韧性——基于空间溢出效应视角分析[J].中国农业资源与区划,2024,45(5):74-84. [5] 郝爱民,谭家银.数字乡村建设对我国粮食体系韧性的影响[J].华南农业大学学报(社会科学版),2022,21(3):10-24. [6] 刘佳,秦芳.高标准农田建设对粮食生产韧性的影响研究——基于高标准农田建设试点政策的准自然实验[J]. 农业经济与管理,2024,(6):77-90. [7] 朱满德,张青.农业生产性服务与粮食生产韧性:影响机制与实证检验[J].湖南农业大学学报(社会科学版),2024, 25(6):1-11. [8] 马永喜,丁芮,俞书傲.技术培训对农户粮食生产韧性的影响效应与作用机制[J].湖南农业大学学报(社会科学版),2024,25(5):27-37. [9] 曾福生,蔡林军.劳动力转移影响粮食生产韧性的理论机制与实证检验[J].华南农业大学学报(社会科学版),2024,23(5):84-94. [10] 王娟娟,曲健.数字经济赋能粮食供应链韧性的效应及区域分异研究[J].西北民族大学学报(哲学社会科学版),2024,(1):138-154. [11] 韩冬,钟钰.地缘因素对我国粮食进口韧性的冲击与政策响应[J].国际贸易,2023,(9):52-61. [12] 李珒. 区域型农业产业政策的生态环境效应评估——基于国家现代农业示范区政策的准自然试验[J].改革, 2022,(10):117-132. [13] 曾常林,梅奕欣.国家现代农业示范区与劳动力:政策拉动下的就业增长[J].财经论丛,2022,(1):15-24. [14] Pingali P.Green revolution:Impacts, limits, and the path ahead[J].Proceedings of the National Academy of Scien-ces,2012,109(31):12302-12308. [15] Timmer C P.Reflections on food crises past[J].Food Pol-icy,2010,35(1):1-11. [16] Martin R, Sunley P, Gardiner B, et al.How regions react to recessions:Resilience and the role of economic struc-ture[J].Regional Studies,2016,50(4):561-585. [17] 张蕾蕾,宋林.数字治理与城市经济韧性[J].经济学动态,2024,(10):109-127. [18] Goldsmith-Pinkham P, Sorkin I, Swift H.Bartik instru-ments:What, when, why, and how[J].American Economic Review,2020,110(8):2586-2624. [19] 许文立,孙磊.市场激励型环境规制与能源消费结构转型——来自中国碳排放权交易试点的经验证据[J].数量经济技术经济研究,2023,40(7):133-155. [20] Rambachan A, Roth J.A more credible approach to parallel trends[J].The Review of Economic Studies,2023, 90(5):2555-2591. [21] 许文立,孙磊.市场激励型环境规制与能源消费结构转型——来自中国碳排放权交易试点的经验证据[J].数量经济技术经济研究,2023,40(7):133-155. [22] Goodman-Bacon A.Difference-in-differences with varia-tion in treatment timing[J].Journal of Econometrics,2021, 225(2):254-277. [23] De Chaisemartin C, D’Haultfoeuille X.Difference-in-differences estimators of intertemporal treatment effects[J].The Review of Economics and Statistics,2024,(2):1-45.
2025, Vol. 42 
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