Your search found 8 records
1 Panda, S. N.; Khepar, S. D.; Kaushal, M. P.. 1990. Determination of net irrigation requirement of crops under different levels of assurance/risk for irrigation planning. In Tyagi, N. K.; Joshi, P. K.; Gupta, R. K.; Singh. N. T. (Eds.) Management of irrigation system: Papers from the National Symposium on Management of Irrigation System, Karnal, India February 24-27 1988. Karnal, India: Central Soil Salinity Research Institute. pp.281-287.
(Location: IWMI-HQ Call no: 631.7 G635 TYA Record No: H08219)
2 Kaushal, M. P.; Khepar, S. D. 1992. Optimizing net benefits from conjunctive use of water. ICID Bulletin, 41(1):27-42.
(Location: IWMI-HQ Call no: PER Record No: H011229)
3 Saggu, S. S.; Kaushal, M. P.. 1993. Drip irrigation is better than furrow irrigation for potato crop. Indian Farming, December:11-12.
(Location: IWMI-HQ Call no: P 3370 Record No: H014186)
4 Kaushal, M. P.; Khepar, S. D. 1980. Decision models for optimum utilization of canal and poor quality groundwater. In International Symposium on Water Resources Systems, December 20-22, 1980: Proceedings, Volume 1. Meerut, India: Sarita Prakashan. pp.IV/8/43-48.
Irrigation canals ; Groundwater ; Water quality ; Irrigation water ; Mathematical models ; Cropping systems ; Planning / India / Punjab
(Location: IWMI-HQ Call no: 333.91 G000 INT Record No: H017513)
5 Panda, S. N.; Khepar, S. D.; Kaushal, M. P.. 1996. Interseasonal irrigation system planning for waterlogged sodic soils. Journal of Irrigation and Drainage Engineering, 122(3):135-144.
Irrigation management ; Planning ; Sodic soils ; Waterlogging ; Irrigation systems ; Groundwater ; Simulation models ; Mathematical models ; Irrigation requirements ; Crop production / India / Punjab
(Location: IWMI-HQ Call no: PER Record No: H018464)
6 Sondhi, S. K.; Kaushal, M. P.; Aggarwal, R. 2001. Management of groundwater resources in Punjab. In International Water Management Institute (IWMI); Indian Council of Agricultural Research (ICAR). ICAR-IWMI Ground Water Policy Initiative - 2001, Policy Dialogue on Groundwater Management: papers presented at ICAR-IWMI Workshop on Groundwater Policy Initiative - 2001, Central Soil Salinity Research Institute, Karnal, India, 6-7 November 2001. Karnal India: Central Soil Salinity Research Institute. pp.240-255.
(Location: IWMI HQ Call no: IWMI 631.7.6.3 G635 IWM Record No: H029292)
(1.00 MB)
7 Sondhi, S. K.; Kaushal, M. P.. 2006. Simulation modeling and optimization studies for the groundwater basins of northwest India: case studies and policy implications. In Sharma, Bharat R.; Villholth Karen G.; Sharma, K. D. (Eds.). Groundwater research and management: integrating science into management decisions. Proceedings of IWMI-ITP-NIH International Workshop on "Creating Synergy Between Groundwater Research and Management in South and Southeast Asia," Roorkee, India, 8-9 February 2005. Colombo, Sri Lanka: International Water Management Institute (IWMI) pp.147-168.
Groundwater ; Simulation models ; Policy / India / Punjab / Southwest Haryana / Sirsa Irrigation Circle / Indo-Gangetic Basin
(Location: IWMI-HQ Call no: IWMI 333.9104 G000 SHA Record No: H039315)
(0.18 MB)
8 Kaushal, M. P.. 2009. Groundwater recharge technologies. Journal of Crop Improvement, 23(1): 83-93. [doi: https://doi.org/10.1080/15427520802418350]
Groundwater recharge ; Technology ; Rainwater ; Water conservation ; Water harvesting ; Runoff ; Filtration ; Pumps ; Policy / India / Punjab
(Location: IWMI HQ Call no: e-copy only Record No: H044106)
(0.44 MB)
Groundwater is declining at a very fast rate in the central plain region of Indian Punjab, comprising about 80% area of the state. Consequently, centrifugal pumps, which were earlier being used by farmers for pumping groundwater, are being replaced by costly submersible pumps. To control the declining water table situation, the groundwater aquifers need to be recharged to sustain agricultural production. Various groundwater recharge techniques, namely rooftop rain-water harvesting, recharge through surface runoff using tubewells, village ponds, surface drainage networks and optimal rainwater conservation in paddy fields. Various policy issues have been discussed for preventing overexploitation of groundwater aquifers to regulate and control groundwater development and management on a sustainable basis.
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