Full Citation
Title: Estimating US farmers' speed of climate change adaptation: the case of subsurface tile drainage
Citation Type: Journal Article
Publication Year: 2023
ISBN:
ISSN: 20416326
DOI: 10.1108/AFR-02-2023-0027/FULL/XML
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Abstract: Purpose: Climate change is expected to cause larger and more frequent precipitation events in key agricultural regions of the United States, damaging crops and soils. Subsurface tile drainage is an important technology for mitigating the risks of a wetter climate in crop production. In this study, the authors examine how quickly farmers adapt to increased precipitation by investing in drainage technology. Design/methodology/approach: Using farm-level data from the 2018 Agricultural Resource Management Survey (ARMS) of soybean producers, the authors construct a drainage adoption timeline based on when the operator began farming their land and when tile drainage was installed, if at all. The authors examine both the initial investment decision and the speed with which drainage is installed by adopters. A Heckman-style Poisson regression is used to model the count nature of adoption speed (measured in years taken to install tile drainage) and to correct for potential sample-selection bias. Findings: The authors find that local precipitation is not a significant determinant of the drainage investment decision but may be highly influential in the timing of adoption among drainage users. Farms exposed to crop-damaging levels of precipitation install tile drainage faster than those with low to moderate levels of rainfall. Estimates of farm adaptation speeds are heterogeneous across farm and operator characteristics, most notably land tenure status. Originality/value: Understanding how US farmers adapt to extreme weather through technology adoption is key to predicting the long-term impacts of climate change on America's food system. This study extends the existing climate adaptation literature by focusing on the speed of adoption of an important and increasingly common climate-mitigating technology – subsurface tile drainage.
Url: https://www.emerald.com/insight/content/doi/10.1108/AFR-02-2023-0027/full/html
User Submitted?: No
Authors: Comstock, Haden; DeLay, Nathan
Periodical (Full): Agricultural Finance Review
Issue: 4-5
Volume: 83
Pages: 734-761
Data Collections: IPUMS NHGIS
Topics: Natural Resource Management
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