Can unmanned aerial vehicle (UAV) adoption reduce pesticide use and enhance yields? Evidence from mountainous rice farming in Yunnan, China

IF 6 1区经济学 Q1 AGRICULTURAL ECONOMICS & POLICY

Food Policy Pub Date : 2025-09-17 DOI:10.1016/j.foodpol.2025.102965

Junpeng Li , Wanglin Ma , Bowen Shen , Longwei Li

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引用次数: 0

Abstract

Enhancing food security while reducing pesticide use is central to sustainable agricultural development. Mountainous regions, characterized by fragile ecosystems and intensive pesticide use, present a major challenge. This study investigates how the adoption of unmanned aerial vehicles (UAVs) affects pesticide expenditure and rice yields in such regions, using data from 520 rice growers in Yunnan province, China. Employing a conditional mixed process model, we find that UAV adoption reduces pesticide expenditure by 77.3 yuan/mu and increases rice yields by 196.9 kg/mu. Disaggregated analyses reveal that the pesticide reduction effect due to UAV adoption is more pronounced among farmers with smaller landholdings and those cultivating fertile soil. Rice farmers cultivating large and fertile farmland receive more yield improvement from using UAVs for pesticide application. Quantile regression further indicates that the positive impacts of UAV adoption are greater among farmers with higher initial pesticide use and yields. Moreover, a higher intensity of UAV use is significantly associated with lower pesticide costs and greater rice output. These findings suggest that policies should promote UAV adoption and support deeper integration into farming practices to maximize environmental and productivity gains. Targeted subsidies, training programs, and financial incentives—especially for smallholder farmers in mountainous regions—can accelerate adoption and ensure equitable access. Moreover, fostering local UAV service providers and strengthening rural infrastructure can further enhance the efficiency and scalability of precision agriculture in challenging terrains.

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采用无人机（UAV）能减少农药使用并提高产量吗？来自中国云南山区水稻种植的证据

在减少农药使用的同时加强粮食安全是可持续农业发展的核心。以脆弱的生态系统和密集的农药使用为特征的山区是一个重大挑战。本研究利用中国云南省520名水稻种植者的数据，调查了无人机（uav）的采用如何影响这些地区的农药支出和水稻产量。采用有条件混合过程模型，发现采用无人机可减少农药支出77.3元/亩，水稻增产196.9 kg/亩。分类分析表明，在土地面积较小和土壤肥沃的农民中，采用无人机减少农药的效果更为明显。种植大片肥沃农田的稻农通过使用无人机施用农药获得了更多的产量提高。分位数回归进一步表明，在初始农药使用量和产量较高的农民中，采用无人机的积极影响更大。此外，更高的无人机使用强度与更低的农药成本和更高的水稻产量显著相关。这些发现表明，政策应促进无人机的采用，并支持无人机更深层次地融入农业实践，以最大限度地提高环境和生产力。有针对性的补贴、培训计划和财政激励——特别是针对山区的小农——可以加速采用并确保公平获取。此外，培育当地无人机服务提供商和加强农村基础设施可以进一步提高精准农业在具有挑战性地形中的效率和可扩展性。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Food Policy 管理科学-农业经济与政策

CiteScore

11.40

自引率

4.60%

发文量

128

审稿时长

62 days

期刊介绍： Food Policy is a multidisciplinary journal publishing original research and novel evidence on issues in the formulation, implementation, and evaluation of policies for the food sector in developing, transition, and advanced economies. Our main focus is on the economic and social aspect of food policy, and we prioritize empirical studies informing international food policy debates. Provided that articles make a clear and explicit contribution to food policy debates of international interest, we consider papers from any of the social sciences. Papers from other disciplines (e.g., law) will be considered only if they provide a key policy contribution, and are written in a style which is accessible to a social science readership.