Abstract:
Soil water repellency (SWR) is a natural phenomenon reduces the rate of wetting and retention
of water in soil caused by the presence of hydrophobic coatings on soil particles. It varies non linear with the changes in soil moisture content, where the relation can be shown in water dependent repellency curves (WRC). In general, SWR does not show at soil moisture contents
near saturation and increases with drying to a maximum with drying, and may or may not reach
non-repellent levels with extreme drying. The WRC, and the parameters associated with the
curve, can be used as indicators of the magnitude and the extent of water repellency over
changing field moisture contents in soils. The objective of this study was to determine the WRC
in a Eucalyptus plantation forest soil in Diyathalawa by gradual drying of soil samples pre wetted until the disappearance of SWR obtained from 0–5 cm soil layer. The drying process was
conducted under controlled conditions of temperature and humidity using a controlled
environmental chamber with two temperatures (20 °C, 30 °C) and two RH levels (40%, 60%)
separately under four environment scenarios (20 °C, 40% RH; 20 °C, 60% RH; 30 °C, 40% RH; 30
°C, 60% RH). The environment scenarios were selected considering the possible varying
environment conditions of the area. While gradual drying, sub samples were taken to measure
the moisture content and the SWR using water drop penetration time (WDPT) test, and the WRC
was developed. Using the WRC, critical water content (CWC), maximum potential water
repellency (MWR), water content at MWR (WCMWR), and area below the curves (AWRC) were
determined. SWR at all four conditions varied nonlinearly with decreasing soil moisture. The
initial water content at non-repellent wet condition was 35 %. With gradual drying of the soils,
SWR appeared, reached a maximum level, and decreased again. Under the four environment
scenarios, the CWC were in a range of 27–33%, the WCMWR were in a range of 12–15%, and the
MWR were >7200s. Changing in the environment conditions do not cause considerable change
in the range of water contents that the soil showed SWR, or the MWR. It can be concluded that
the soil will show water repellent conditions at most field moist conditions, except at very wet
situation which may occur only in event of extended heavy rainfall to wet the soil, enough to
exceed CWC