Effects of water quality on infiltration, runoff and interrill erosion processes during simulated rainfall Article uri icon

abstract

  • This paper discusses the effects of water quality on the hydrological and erosion response of non-saline, non-sodic soils during simulated rain experiments. It is well known that rain water quality affects the behaviour of saline soils. In particular, rain simulation experiments cannot be run using tap water if realistic values of infiltration rates and soil erosion are to be found. This paper reports on similar effects for non-saline, non-sodic soils. Two soils - a well-aggregated clay-rich soil developed on marine silty clay deposits and a soil developed on silt loam - were selected and subjected to a series of simulated rainstorms using demineralized water and tap water. The experiments were conducted in two different laboratories in order to obtain results independent of the tap water quality or the rainfall simulator characteristics. The results indicate that time-to-ponding is largely delayed by solute-rich water (tap water). When tap water is used, infiltration rates are significantly overestimated, i.e. by more than 100 per cent. Interrill erosion rates increase by a factor of 2·5-3 when demineralized water is used. The silty clay soil was more affected by the water quality than the silt loam soil, with respect to infiltration and runoff production. Regarding interrill erosion rates, the two tested soils were similarly affected by the water quality. Therefore, it can be concluded that rainfall simulation experiments with non-dispersive soils (e.g. non-saline, non-sodic) must also be conducted using water with very low electrical conductivity (i.e. less than 30-50 μS cm-1), close to that of distilled water. The use of tap water certainly hampers comparisons and the relative ranking of the hydrdological and erosion response of different soils, while parameter values, such as final infiltration rate or time-to-ponding, cannot be extrapolated and extended to natural situations. Therefore, the majority of hydrological and erosion models and parameter values measured during rainfall simulations in the past should be used with caution for all types of soils. Copyright © 2001 John Wiley %26amp; Sons, Ltd.

publication date

  • 2001-01-01