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Oblique geographic coordinates as covariates for digital soil mapping

Anders Bjørn Møller, Amélie Beucher, Nastaran Pouladi, Mogens Humlekrog Greve

2020SOIL74 citationsDOIOpen Access PDF

Abstract

Abstract. Decision tree algorithms, such as random forest, have become a widely adapted method for mapping soil properties in geographic space. However, implementing explicit spatial trends into these algorithms has proven problematic. Using x and y coordinates as covariates gives orthogonal artifacts in the maps, and alternative methods using distances as covariates can be inflexible and difficult to interpret. We propose instead the use of coordinates along several axes tilted at oblique angles to provide an easily interpretable method for obtaining a realistic prediction surface. We test the method on four spatial datasets and compare it to similar methods. The results show that the method provides accuracies better than or on par with the most reliable alternative methods, namely kriging and distance-based covariates. Furthermore, the proposed method is highly flexible, scalable and easily interpretable. This makes it a promising tool for mapping soil properties with complex spatial variation.

Topics & Concepts

CovariateOblique caseComputer scienceKrigingRandom forestDigital mappingData miningScalabilityArtificial intelligenceRemote sensingGeographyMachine learningPhilosophyDatabaseLinguisticsSoil Geostatistics and MappingSoil and Land Suitability AnalysisRemote Sensing in Agriculture
Oblique geographic coordinates as covariates for digital soil mapping | Litcius