Farmers’ Adoption of Water Management Practice for Methane Reduction in Rice Paddies: A Spatial Analysis in Shiga, Japan

Shengyi Du (), Katsuya Tanaka and Hironori Yagi
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Shengyi Du: Graduate School of Economics, Doctorate Program, Shiga University, Hikone 520-2192, Japan
Katsuya Tanaka: Research Center for Sustainability and Environment, Shiga University, Hikone 520-2192, Japan
Hironori Yagi: Department of Agricultural and Resource Economics, The University of Tokyo, Tokyo 113-0033, Japan

Sustainability, 2025, vol. 17, issue 8, 1-17

Abstract: As global warming worsens, there is a growing need to reduce emissions of methane, a greenhouse gas. In agriculture, a water management method called alternate wetting and drying (AWD) has proven effective in mitigating methane emissions from paddy fields. It is, therefore, advisable to disseminate it efficiently. This study was conducted in Shiga Prefecture, Japan, to determine what influences AWD adoption behavior and examine the effectiveness of human networks in promoting AWD. Spatial statistical methods, including Moran’s I and Global G* and the spatial probit model, were employed for the purpose. The analysis results indicate that the behavior of surrounding farmers, which constitutes a spatial factor, influences that of the individual farmers. Moreover, farmers who acquire and use data, those with large-scale production, and those who mainly sell paddy rice tend to implement AWD, whereas corporate-managed farms do not. Therefore, to more efficiently improve the AWD implementation rate in Shiga Prefecture, this study makes several recommendations. Farmers’ active information sharing and technology exchange should be leveraged to strengthen networks and promote best practices for AWD dissemination. Advancing agricultural digitalization and data utilization is crucial, particularly by reducing digital equipment costs and securing technical personnel through public investment. Additionally, the approach toward corporate entities in AWD dissemination should be reconsidered, with market incentives playing a role. Lastly, promoting larger farmland parcels and increasing large-scale management farmers who are motivated to adopt AWD is essential. These strategies constitute this study’s original contribution.

Keywords: global warming; paddy agriculture; methane; alternate wetting and drying; spatial probit (search for similar items in EconPapers)
JEL-codes: O13 Q Q0 Q2 Q3 Q5 Q56 (search for similar items in EconPapers)
Date: 2025
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