Shiying Zhu ¹ Jianxu Liu ¹ YanSong Li ¹ Siqi Wang ¹ Jiande Cui ¹ Woraphon Yamaka ^2*

• ¹ Shandong University of Finance and Economics, Jinan, China
• ² Chiang Mai University, Chiang Mai, Thailand

As global climate change intensifies, mitigating agricultural carbon emissions has become a critical research focus. This study aims to explore the dual effects of agricultural technological progress on carbon emissions and its underlying mechanisms. Using panel data from 30 Chinese provinces from 2002 to 2021, we employ a two-tier stochastic frontier model for empirical analysis. Our key findings are: (1) Agricultural technological progress exhibits a significant dual effect on carbon emission intensity, with an average net reduction of 3.17%. (2) Different types of agricultural technologies have varying impacts on emission intensity: mechanical technologies increase emissions, while resource-saving and biochemical technologies reduce them. (3) The impact of technological progress on emission intensity shows notable regional heterogeneity. ( 4) Factors such as agricultural land management scale, fiscal support for agriculture, and agricultural human capital significantly influence the emission reduction effects of technological progress. Based on these results, we recommend implementing differentiated agricultural technology promotion strategies, developing "carbon-smart" agricultural management systems, and strengthening incentive mechanisms for low-carbon agricultural technology innovation and application.