Your search found 9 records
1 Mathur, S.; Rao, S.. 1999. Modeling water uptake by plant roots. Journal of Irrigation and Drainage Engineering, 125(3):159-165.
(Location: IWMI-HQ Call no: PER Record No: H024526)
2 Deshingkar, P.; Kulkarni, U.; Rao, L.; Rao, S.. 2003. Changing food systems in India: Resource sharing and marketing arrangements for vegetable production in Andhra Pradesh. Development Policy Review, 21(5-6):627-639.
(Location: IWMI-HQ Call no: PER Record No: H032625)
(0.13 MB)
3 Patil, B. R.; Pande, A. B.; Rao, S.; Dixit, S. K.; Pathak, P.; Rego, T. J.; Wani, S. P. 2003. Conjunctive use of water resource technology and extension in improving productivity of rainfed farming: An experience at Lalatora, Madhya Pradesh, India. In Wani, S. P.; Maglinao, A. R.; Ramakrishna, A.; Rego, T. J. (Eds.), Integrated watershed management for land and water conservation and sustainable agricultural production in Asia: Proceedings of the ADB-ICRISAT-IWMI Project Review and Planning Meeting, 10-14 December 2001, Hanoi, Vietnam. Andhra Pradesh, India; Colombo, Sri Lanka; Manila, Philippines: ICRISAT; IWMI; ADB. pp.97-108.
(Location: IWMI-HQ Call no: IWMI 333.91 G570 WAN Record No: H034984)
(10.29 MB)
(Location: IWMI-HQ Call no: P 6963 Record No: H035154)
5 Gosain, A. K.; Rao, S.. 2012. Analysis of climate scenarios in the Godavari River Basin [India]. In Nagothu, U. S.; Gosain, A. K.; Palanisami, Kuppannan (Eds.). Water and climate change: an integrated approach to address adaptation challenges. New Delhi, India: Macmillan. pp.59-79.
(Location: IWMI HQ Call no: IWMI Record No: H044790)
6 Gosain, A. K.; Rao, S.. 2012. Climate change impact assessment on water resources of the Godavari River Basin [India]. In Nagothu, U. S.; Gosain, A. K.; Palanisami, Kuppannan (Eds.). Water and climate change: an integrated approach to address adaptation challenges. New Delhi, India: Macmillan. pp.80-104.
(Location: IWMI HQ Call no: IWMI Record No: H044791)
7 Gosain, A. K.; Rao, S.; Mani, A. 2011. Hydrological modelling: a case study of the Kosi Himalayan Basin using SWAT. In Shukla, M. K. (Ed.) Soil hydrology, land use and agriculture: measurement and modelling. Wallingford, UK: CABI. pp.211-230.
(Location: IWMI HQ Call no: e-copy SF Record No: H045781)
8 Kloppmann, W.; Sandhu, C.; Groeschke, M.; Pandian, R. S.; Picot-Colbeau, G.; Fahimuddin, M.; Ahmed, S.; Alazard, M.; Amerasinghe, Priyanie; Bhola, P.; Boisson, A.; Elango, L.; Feistel, U.; Fischer, S.; Ghosh, N. C.; Grischek, T.; Grutzmacher, G.; Hamann, E.; Nair, I. S.; Jampani, Mahesh; Mondal, N. C.; Monninkhoff, B.; Pettenati, M.; Rao, S.; Sarah, S.; Schneider, M.; Sklorz, S.; Thiery, D.; Zabel, A. 2015. Modelling of natural water treatment systems in India: Learning from the Saph Pani case studies. In Wintgens. T.; Nattorp, A.; Elango, L.; Asolekar, S. R. (Eds.). Natural water treatment systems for safe and sustainable water supply in the Indian context: Saph Pani, London, UK: IWA Publishing. pp. 227-250.
(Location: IWMI HQ Call no: e-copy only Record No: H047553)
(12.42 MB) (3.9 MB)
(Location: IWMI HQ Call no: e-copy only Record No: H049627)
(0.54 MB)
The Bundelkhand region of India is characterized by acute shortages of water due to recurrent failures of the monsoon. This study estimated the water availability, water requirement, and water deficit in the Bundelkhand region using geographic information system (GIS) data. The study identified suitable crops that can be promoted for sustaining the water resources in the region. Total water availability is estimated to be 17.48 billion cubic meters (BCM), of which 91.3% is available for irrigation. The irrigation water deficit is estimated to be 5.31 BCM, which is 1/4 of the crop water requirement. Farmers in the region give high priority to irrigation of water-guzzling cereal crops instead of pulses and oilseed crops, which have lower water requirements. A crop suitability index revealed that pearl millet, sesame, and soybean are the most suitable crops for sustainable use of water resources in the region. An optimum cropping plan to allocate existing land and water resources, coupled with efficient modern technology such as direct-seeded rice, micro-irrigation, etc., can be the best solution to sustain the natural resources and the income of farmers in the study region.
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