Hydraulic Conductivity of Soils: A Comprehensive Review of the Impacts of Chemicals, Soil Salinity, Organic Matter, and Land Use

Abstract

Abstract The contamination of groundwater by toxic heavy metals, organic compounds, and microbiological contaminants is a significant issue worldwide. To address this problem, various methods have been employed, including in-situ remediation and transporting polluted soil or groundwater for final treatment. This study aims to review the impact of soil heterogeneity on in-situ remediation, with a particular focus on subsurface preferential flow that accelerates solute transport. The study highlights the importance of soil hydraulic conductivity in soil production, ecological health, and water resource management. Soil hydraulic conductivity is influenced by soil structure, moisture content, and chemical exposure. The findings of this study emphasize that sustainable soil management and environmental restoration require an understanding of hydraulic conductivity parameters and the implementation of appropriate management strategies.