Hydrologic response of undisturbed soil cores to simulated rainfall
1994
Smettem, K.R. (Western Australia Univ., Nedlands. Dept. of Soil Science and Plant Nutrition) | Kirkby, C. (Commonwealth Scientific and Industrial Research Organisation, Glen Osmond (Australia). Div. of Soils) | Chittleborough, D.J. (Adelaide Univ., Glen Osmond (Australia). Waite Agricultural Research Inst.)
Experiments to characterize runoff and drainage from large undisturbed soil cores obtained from a site under volunteer pasture are presented. The objectives were to evaluate if a simple kinematic wave model could be used to characterize drainage under conditions of by-passing flow and to investigate the variability of runoff generation under wet and dry antecedent conditions in this well structured soil. Cores were taken to depths of 0.4 and 0.7 m, with six cores from each depth. Results show that variations in soil structure between cores have a greater influence on the hydrologic response than variations in antecedent water content. It may be inferred that, in this soil, good structure continuity substantially enhances soil drainage and, in consequence, decreases surface runoff. During wetting, kinematic celerities ranged from 337 to 3200 mm per h in the short cores and from 357 to 1400 mm per h in the long cores. The corresponding estimated ranges of mobile or 'macropore' fractions were from 0.015 to 0.154 cu m per cu m in the short cores and 0.033 to 0.132 cu m per cu m in the long cores. Both parameters were approximately log-normally distributed. Measured drainage hydrographs were reasonably well described by the kinematic model but the physical significance of the model parameters was unclear.
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