Preferential flow in water-repellent sands

Water-repellent soils occur all over the world and affect both ground,vater pollution and crop yield. The finger-like wetting patterns in these soils have many similarities with unstable wetting fronts in coarse-grained sandy soils. Our objectives were to study the water movement in,vater-repellent sand and to examine how the theory for unstable wetting fronts applies to water-repellent sands. infiltration experiments, in which moisture content and matric potentials were measured, were carried out in slab chambers with identical sands but with different levels of water repellence. Soil water characteristics were determined in separate experiments. Infiltration in the hydrophilic soil resulted in a uniform and horizontal front. All water-repellent sands showed a fingered now pattern. For negative water-entry values, water infiltrated without delay, For positive values, water entered the soil only after the depth of the ponded mater equaled or exceeded the water-entry pressure, which increased with increasing repellency: The finger widths predicted with the unstable now theory agreed rather well with the observed values. In general, the research showed that the wetting patterns of water repellent sands depended directly on the soil water characteristic curve, This implies that the type of wetting front and risk to groundwater pollution can be predicted based on laboratory-measured soil hydraulic properties.