On-Farm Balancing Reservoir Design on the Basis of Canal Water Availability and Ground Water Quality
Abstract
Balancing reservoir is an intermediate water storage tank between the watercourse and the farm. Even in high rainfall areas, agriculture is not sustainable in the absence of water storage structures. Inflow components i.e. water availability of canal water, groundwater and rainfall occurrence over the balancing reservoir. The outflow components mainly water requirements for crops and evaporation from surface area of water balancing reservoir, balance the water storage capacity that mitigates the water demand of the crops and on the basis of balancing components deciding the design of water balancing reservoir. A comparative analysis reveals that the part of this capacity results from a very significant development of balancing reservoir (particularly in the smaller range of sizes) in the time interval, probably as a response to rapidly declining canal supplies. The rainfall trend analysis shows that the rainfall occurrence at probability at 50% chance is 370.8 mm which occurs once at two years of recurrence interval that shows the occurrence of surface as well as subsurface water to the study areas. A fundamental implication is that field ‘losses’ such as seepage and percolation do not necessary to represent losses at a larger scale.References
Amarasinghe, U.A., Bhaduri, A., Singh, O.P., Ojha, A., & Anand, B.K., 2008 Cost and benefits of intermediate water storage structures: Case study of diggies in Rajasthan. In Proceedings of the CGIAR Challenge Program on Water and Food and 2nd International Forum on Water and Food. Addis Ababa, Ethiopia, Vol. 3, pp. 79-82.
Chou, F. N. F., & Wu, C., 2010 Reducing the impacts of flood-induced reservoir turbidity on a regional water supply system. Advances in Water Resources, 33(2), 146-157.
District Plan Report, 2010-11 Sirsa District, Haryana
Gupta, S. & Sharma, A., 2008. Water year report sirsa, Haryana (2007). Chandigarh, India: Central Ground Water Board.
Jayatilaka, C.J., Sakthivadivel, R., Shinogi, Y., Makin, I.W., & Witharana, P., 2001 Predicting water availability in irrigation tank cascade systems: The cascade water balance model. Research Report 48. Colombo, Sri Lanka: International Water Management Institute.
Jhorar, R.K., Smit, A.A.M.F.R., & Roest, C.W.J., 2009 Assessment of alternative water management options for irrigated agriculture. Agricultural Water Management, 96(6), 975-981.
Panda, S.N., 2010 Optimum sizing of on-farm reservoir for various cropping systems in rainfed uplands of Eastern India. Rainwater Harvesting and Reuse through Farm Ponds, 60.
Sakthivadivel, R., Fernando, N., & Brewer, J.D., 1997 Rehabilitation planning for small tanks in cascades: A methodology based on rapid assessment. Research Report 13. IWMI, Colomb.
Singh, R., Refsgaard, J. C., Yde, L., Jorgensen, G. H., & Thorsen, M., 1997 Hydraulic-hydrological simulations of canal-command for irrigation water management. Irrigation and Drainage Systems, 11(3), 185-213.
Singh, R., Van Dam, J.C., & Feddes, R.A., 2006 Water productivity analysis of irrigated crops in Sirsa district, India. Agricultural Water Management, 82(3), 253-278.
Tyagi, N.K., 1998 Diagnostic analysis and some approaches for improving water delivery performance in the Bhakra canal command. Proceedings of the 5th IT IS network international meeting, FAO Regional Office for Asia and the Pacific, Bangkok, Thailand.
Vora, M.D., Solanki, H.B., & Bhoi, K.L., 2008 Farm pond technology for enhancing crop productivity in bhai area of Gujrat-A case study. Journal of Agricultural Engineering. 45 (1).
