Economic Efficiency of Climate Smart Agriculture Technology: Case of Agrophotovoltaics

Abstract

Climate change must be the most serious environmental crisis of the present human generation. While corresponding climate-smart agriculture (CSA) practices are emerging, the extent to which CSA is profitable to farmers is unclear. In this paper, we focus on agrophotovoltaics (APV), one of the CSA policies intensively pursued by the Korean government, to analyze the profitability of APV and its implications for rural sustainability. First, we consider the total profit of farms before and after APV installation by a region through generalized least squares (GLS) to verify that APV has overall profitability through the region. Additionally, we estimate farms’ productivity by region with a generalized method of moments (GMM) to compare with the results of the profitability. We predict that APV installation will be more profitable than not installing, and the regions with lower productivity will show higher profitability than other regions. The results are in line with the prediction. The profitability of APV is verified in all regions, and the order of profitability by region and productivity by region are opposite to each other. It suggests that regions with lower productivity may have a higher preference for installing APV, implying the installation of APV provides a new incentive to continue farming even in regions with low agricultural productivity. These results have an important policy implication on rural sustainability since the implementation of CSA could generate a sound and sustainable farming environment by addressing the challenges of climate change.