Estimating the potential value of variable rate nitrogen applications: A comparison of spatial econometric and geostatistical models

Terry Hurley; Kikuo Oishi; Gary L. Malzer

Estimating the potential value of variable rate nitrogen applications: A comparison of spatial econometric and geostatistical models

Terry Hurley, Kikuo Oishi, Gary L. Malzer

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Abstract

Site-specific crop response functions (SSCRFs) are useful for estimating the value of variable rate nitrogen applications (VRA), but appropriate statistical models are necessary. Problems estimating SSCRFs using experimental field data include region, spatial, treatment, and strip dependent heteroskedasticity and correlation. We develop a spatial autoregressive error (SARE) model for dealing with these problems and compare results with previous analysis based on a geostatistical (GEO) model. VRA value estimates for the two models differ notably for 1995 data from Southern Minnesota. Furthermore, findings show that the results of a comparison of model performance are location specific.

Original language	English (US)
Pages (from-to)	231-249
Number of pages	19
Journal	Journal of Agricultural and Resource Economics
Volume	30
Issue number	2
State	Published - Aug 1 2005

Keywords

Geostatistics
Precision agriculture
Site-specific crop response functions
Spatial autoregressive error
Variable rate nitrogen application

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Estimating the potential value of variable rate nitrogen applications: A comparison of spatial econometric and geostatistical models

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Keywords

UN SDGs

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