Developing parsimonious model for digital soil mapping using forward recursive feature selection

Autor: Songchao Chen, Xianglin Zhang, Jie Xue, Nan Wang, Yi Xiao, Zhou Shi, Anne Richer-de-Forges, Dominique Arrouays
Rok vydání: 2023
Popis: In the context of increasing soil degradation worldwide, spatially explicit soil information is urgently needed to support decision-making for sustaining limited soil resources. Digital soil mapping (DSM) has been proven as an efficient way to deliver soil information from local to global scales. The number of environmental covariates used for DSM has rapidly increased due to the growing volume of remote sensing data, therefore variable selection is necessary to deal with multicollinearity and improve model parsimony. Compared with Boruta, recursive feature elimination (RFE), and variance inflation factor (VIF) analysis, we proposed the use of modified greedy feature selection, namely forward recursive feature selection (FRFS), for DSM regression. For this purpose, using quantile regression forest, 402 soil samples and 392 environmental covariates were used to map the spatial distribution of soil organic carbon density (SOCD) in Northeast and North China. The result showed that FRFS selected the most parsimonious model with only 9 covariates (e.g., brightness index, mean annual temperature), much lower than RFE (22 covariates), VIF (30 covariates), and Boruta (76 covariates). The repeated validation (50 times) showed that the FRFS derived model performed better than these using full covariates, Boruta, RFE and VIF. Despite the similar performance of the uncertainty estimate (PICP), the model using FRFS and RFE had the lowest global uncertainty (0.86) as indicated by the uncertainty index. In addition, FRFS had the best computation efficiency when considering the steps of variable selection and map prediction. Given these advantages over Boruta, RFE and VIF, FRFS has a high potential in fine-resolution soil mapping practices, especially for these studies at a broad scale involving heavy computation on millions or billions of pixels.
Databáze: OpenAIRE