Application of Machine Learning Models in Spatial Estimation of Soil Phosphorus and Potassium in SomeParts of Abyek Plain
Modeling and mapping of plants nutrient elements in soil has importance in increasing the productivity of agriculture and achieving sustainable development. The aim of this research was to prepare digital maps of two nutrients, namely, available phosphorus (Pav) and exchangeable potassium (Kex) using machine learning models (MLM) i.e., random forest (RF), cubist (CB), support vector regression (SVR) and k-nearest neighborhood (k-NN) at two depths of 15-30 and 0-15 cm in a part of Abyek Plain. In this regard, 278 soil profiles were dug, sampled from the desired horizons, and samples were analyzed. MLM performance was implemented by 10-fold cross-valuation. The modeling results demonstrated that the RF model had the highest accuracy and minimum error compared to the other three models in spatial estimation of available Pav and Kex at the two studied depths. According to the results, for Pav at a depth of 0-15 cm, CCC statistics values of 0.84, 0.74, 0.48 and 0.35 and NRMSE values of 0.38, 0.54, 0.70, and 0.80 belonged to RF, CB, k-NN, and SVR, respectively. For Kex at the same depth, CCC values were 0.82, 0.72, 0. 70, 0.47 and NRMSE 0.25, 0.34, 0.36 and 0.45, by RF, CB, SVR, and k-NN models, respectively. Similar results were obtained for 15-30 cm layer. The relative importance of environmental variables showed that soil covariates had a more effective role in the spatial estimation of Pav and Kex than other environmental variables. According to the estimated maps of the two elements and the predominance of agricultural land uses, major parts of the area are Pav deficient based on standard amounts. Therefore, to increase productivity and improve management of soil fertility, use of phosphate fertilizers is recommended under the supervision of soil experts.
-
Uncertainty and Spatial mapping of soil salinity and sodicity using machine learning methods in three different management depths in Abyek region
Azam Jafari, *, Zahra Rasaei
Iranian Journal of Soil and Water Research, Jun 2025 -
Assessment of environmental indices for soil lead contamination in a part of Shahr-e-Ray, Tehran Province
Shahla Rahmani Siyalarz, Ali Keshavarzi *, , Mohsen Farahbakhsh
Iranian Journal of Soil and Water Research, -
Modeling the Vertical Soil Calcium Carbonate Equivalent Variation by Machine Learning Algorithms in Qazvin Plain
S.R. Mousavi, F. Sarmadian *, M. Omid, P. Bogaert
Journal of water and soil, -
Digital Modeling of Three-Dimensional Soil Salinity Variation Using Machine Learning Algorithms in Arid and Semi-Arid lands of Qazvin Plain
Sayed Roholla Mousavi, *, Mahmoud Omid, Patrick Bogaert
Iranian Journal of Soil and Water Research,