Hydrological simulation of a conservation bench terrace system in a subhumid climate |
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| Authors: | VISHWA NATH SHARDA JAGIR SINGH SAMRA |
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| Institution: | 1. Central Soil and Water Conservation Research and Training Institute , Dehradun, 248195, UP, India E-mail: cswcrti@icar.deihi.nic.in;2. Indian Council of Agricultural Research , Krishi Bhawan, New Delhi, 110001, India E-mail: jssamra@icar.delhi.nic.in |
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| Abstract: | Abstract A finite element model to simulate runoff and soil erosion from agricultural lands has been developed. The sequential solutions of the governing differential equations were found: Richards' equation with a sink term for infiltration and soil water dynamics under cropped conditions; St Venant equation with kinematic wave approximation for overland and channel flow; and sediment continuity equation, for soil erosion. The model developed earlier has been improved to simulate erosion/deposition in impoundments and predicted and observed soil loss values were in reasonably good agreement when the model was tested for a conservation bench terrace (CBT) system. The finite element model was extensively applied to study the hydrological behaviour of a CBT system vis-à-vis the conventional system of sloping borders. The model estimates runoff and soil loss reasonably well, under varying conditions of rainfall and at different crop growth stages. The probable reasons for discrepancies between observation and simulation are reported and discussed. Sensitivity analysis was carried out to study the effect of various hydrological, soil and topographical parameters, such as ratio of contributing to receiving areas, weir length, depth of impoundment, slope of contributing area, etc. on the flow behaviour in a CBT system. |
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| Keywords: | conservation bench terrace impoundments erosion simulation Dehradun India |
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