2022
DOI: 10.1111/ajae.12359
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Adapting network theory for spatial network externalities in agriculture: A case study on hempcross‐pollination

Abstract: Growers have increasingly expressed frustration over the negative externalities created by their neighbor's production practices. These spatial agricultural network problems include issues such as cross‐pollination and herbicide drift. We develop novel methods for estimating parameters that allow us to adapt and apply general network diffusion models to these spatial agricultural network problems. Doing so allows us to calculate externality damage within a region and calculate cost‐effective policies for allev… Show more

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Cited by 2 publications
(2 citation statements)
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“…Furthermore, incorporating the distance between farms would provide a more sophisticated measure of county vulnerability, as was demonstrated theoretically for hemp farms in Kentucky counties 33 . Our vulnerability metric assumes one source of hemp per county, as data for the locations of individual farms are not currently available.…”
Section: /11mentioning
confidence: 99%
“…Furthermore, incorporating the distance between farms would provide a more sophisticated measure of county vulnerability, as was demonstrated theoretically for hemp farms in Kentucky counties 33 . Our vulnerability metric assumes one source of hemp per county, as data for the locations of individual farms are not currently available.…”
Section: /11mentioning
confidence: 99%
“…This requires a framework capable of estimating regional network structure and its effect on OTM damage. Our framework is adapted from a general Spatially based Agricultural Negative Externality Problem diffusion model developed by Young and McCarty (2022), parameterized for the problem of dicamba OTM. We also draw insight from a general network diffusion model developed by Jackson and Yariv (2006).…”
Section: Network Diffusionmentioning
confidence: 99%