Your search found 4 records
1 Cooke, R. A.; Badiger, S.; Garcfa, A. M. 2001. Drainage equations for random and irregular tile drainage systems. Agricultural Water Management, 48(3):207-224.
(Location: IWMI-HQ Call no: PER Record No: H028270)
2 Badiger, S.; Sakthivadivel, R.; Aloysius, N.; Sally, H. 2002. Preliminary assessment of a traditional approach to rainwater harvesting and artificial recharging of groundwater in Alwar District, Rajasthan. IWMI-TATA Water Policy Research Program Annual Partners' Meet, 2002. Vallabh Vidyanagar, Gujarat, India: IWMI-TATA Water Policy Research Program. 18p.
Groundwater management ; Artificial recharge ; Water harvesting ; Rainfall-runoff relationships ; Pumping ; Drought ; Water deficit ; Watersheds ; Farmers / India / Rajasthan / Alwar District
(Location: IWMI HQ Call no: IWMI 631.7.6.3 G635 IWM Record No: H029284)
http://www.iwmi.cgiar.org/iwmi-tata_html/PartnersMeet/pdf/010%20-%20Badiger.pdf
https://vlibrary.iwmi.org/PDF/H029284.pdf
https://vlibrary.iwmi.org/PDF/H029284.pdf
(0.41 MB) (415.39 KB)
3 Badiger, S.; Sakthivadivel, R.; Aloysius, N.; Sally, H. 2003. Preliminary assessment of a traditional approach to rainwater harvesting and artificial recharging of groundwater in Alwar District, Rajasthan. Poverty-Focused Smallholder Water Management: an IWMI research project supported by DFID. Final report document 5 of 9. Colombo, Sri Lanka: International Water Management Institute (IWMI). 18p.
Water harvesting ; Water storage ; Groundwater recharge ; Supplemental irrigation ; Water conservation ; Watersheds ; Wells ; Water table ; Smallholders / India / Rajasthan / Alwar District
(Location: IWMI HQ Call no: IWMI Record No: H043994)
(0.3 MB)
4 Bharucha, Z. P.; Attwood, S.; Badiger, S.; Balamatti, A.; Bawden, R.; Bentley, J. W.; Chander, M.; Davies, L.; Dixon, H.; Dixon, J.; D’Souza, M.; Flora, C. B.; Green, M.; Joshi, D.; Komarek, A. M.; McDermid, L. R.; Mathijs, E.; Rola, A. C.; Patnaik, S.; Pattanayak, S.; Pingali, P.; Prasad, V. P. V.; Rabbinge, R.; Ramanjaneyulu, G. V.; Ravindranath, N. H.; Sage, C.; Saha, A.; Salvatore, C.; Saxena, L. P.; Singh, C.; Smith, P.; Srinidhi, A.; Sugam, R.; Thomas, R.; Uphoff, N.; Pretty, J. 2021. The top 100 questions for the sustainable intensification of agriculture in India’s rainfed drylands. International Journal of Agricultural Sustainability, 19(2):106-127. [doi: https://doi.org/10.1080/14735903.2020.1830530]
Sustainable intensification ; Rainfed agriculture ; Dryland farming ; Agricultural development ; Policies ; Farming systems ; Agricultural production ; Livestock ; Climate change ; Resilience ; Ecosystem services ; Natural resources ; Water resources ; Watersheds / India
(Location: IWMI HQ Call no: e-copy only Record No: H051091)
(2.04 MB)
India has the largest area of rainfed dryland agriculture globally, with a variety of distinct types of farming systems producing most of its coarse cereals, food legumes, minor millets, and large amounts of livestock. All these are vital for national and regional food and nutritional security. Yet, the rainfed drylands have been relatively neglected in mainstream agricultural and rural development policy. As a result, significant social-ecological challenges overlap in these landscapes: endemic poverty, malnutrition and land degradation. Sustainable intensification of dryland agriculture is essential for helping to address these challenges, particularly in the context of accelerating climate change. In this paper, we present 100 questions that point to the most important knowledge gaps and research priorities. If addressed, these would facilitate and inform sustainable intensification in Indian rainfed drylands, leading to improved agricultural production and enhanced ecosystem services. The horizon scanning method used to produce these questions brought together experts and practitioners involved in a broad range of disciplines and sectors. This exercise resulted in a consolidated set of questions covering the agricultural drylands, organized into 13 themes. Together, these represent a collective programme for new cross- and multi-disciplinary research on sustainable intensification in the Indian rainfed drylands.
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