Geocarto International (Dec 2023)

Consequences of spatial structure in soil–geomorphic data on the results of machine learning models

  • Daehyun Kim,
  • Insang Song,
  • Lorrayne Miralha,
  • Daniel R. Hirmas,
  • Ryan W. McEwan,
  • Tom G. Mueller,
  • Pavel Šamonil

DOI
https://doi.org/10.1080/10106049.2023.2245381
Journal volume & issue
Vol. 38, no. 1

Abstract

Read online

In this paper, we examined the degree to which inherent spatial structure in soil properties influences the outcomes of machine learning (ML) approaches to predicting soil spatial variability. We compared the performances of four ML algorithms (support vector machine, artificial neural network, random forest, and random forest for spatial data) against two non-ML algorithms (ordinary least squares regression and spatial filtering regression). None of the ML algorithms produced residuals that had lower mean values or were less autocorrelated over space compared with the non-ML approaches. We recommend the use of random forest when a soil variable of interest is weakly autocorrelated (Moran’s I 0.4). Overall, this work opens the door to a more consistent selection of model algorithms through the establishment of threshold criteria for spatial autocorrelation of input variables.

Keywords