Soil Types and Degradation Pathways in Saudi Arabia: A Geospatial Approach for Sustainable Land Management

Land degradation (LD) is an emerging threat of the decade that is not only deteriorating arable lands globally but also threatening global ecosystem sustainability. Therefore, the intensification of LD has stimulated global governing bodies and researchers to undertake initiatives against this dilemma through sustainable and eco-friendly approaches. Geographical mapping is critical in analysing land formation, soil composition and land use patterns, subsequently facilitating data-driven planning for soil conservation. In this review, Geographic Information System (GIS) technology, combined with Shuttle Radar Topography Mission (SRTM) data, is used to explore soil properties and land use patterns across Saudi Arabia, with a focus on soil types, soil thickness, and soil uses. Spatial analyses indicate that the most predominant soil type in the country is sandy, followed by loam and sandy loam. The soil depth distribution exhibits a notably bimodal pattern, with large areas characterized by shallow soils (0–4 m) and deep soils (43–50 m). These spatial visualizations provide valuable insights into soil heterogeneity, supporting evidence-based, site-specific strategies for sustainable land management. This study also outlines the major land degradation pathways affecting arable lands in Saudi Arabia and describes how these pathways can be used to assess the extent of land loss. Besides land loss pathways, the current study also explains the most suitable mitigation strategies, including mulching, cover cropping, and agroforestry, as well as how international governing bodies like the UNDP, UNEP, FAO, and World Bank can contribute to the mitigation of LD in Saudi Arabia. However, further studies are required to assess the intensity of these solutions for each soil type and thickness under different climatic conditions.