Your search found 17 records
1 Chandrakanth, M. G.; Romm, J. 1990. Groundwater depletion in India - Institutional management regimes. Natural Resources Journal, 30(Summer):485-500.
(Location: IWMI-HQ Call no: P 2272 Record No: H010976)
(1.26 MB)
2 Chandrakanth, M. G.; Shivakumaraswamy, B.; Vidya, M. R.; Pramesha, J. H. 1994. An institutional analysis of Ganga - Kalyan Scheme irrigation management transfer (IMT) in South India. In IIMI; Wuhan University of Hydraulic and Electrical Engineering. International Conference on Irrigation Management Transfer, Wuhan, China, 20-24 September 1994. Draft conference papers. Vol.3. Colombo, Sri Lanka: International Irrigation Management Institute (IIMI); Wuhan, China: Wuhan University of Hydraulic and Electrical Engineering. pp.19-23.
(Location: IWMI-HQ Call no: IIMI 631.7.3 G000 IIM Record No: H015547)
3 Nagaraj, N.; Chandrakanth, M. G.. 1995. Low yielding irrigation wells in Peninsular India: An economic analysis. Indian Journal of Agricultural Economics, 50(1):47-58.
(Location: IWMI-HQ Call no: P 3873 Record No: H016838)
4 Kerr, J. M.; Chandrakanth, M. G.; Deshpande, R. S. 1997. Managing groundwater development in Karnataka. In Kerr, J. M.; Marothia, D. K.; Singh, K.; Ramasamy, C.; Bentley, W. R. (Eds.), Natural resource economics: Theory and application in India. New Delhi, India: Oxford and IBH Publishing. pp.421-443.
(Location: IWMI-HQ Call no: 333.72 G635 KER Record No: H020219)
(Location: IWMI-HQ Call no: PER Record No: H021202)
6 Nagaraj, N.; Chandrakanth, M. G.. 1997. Intra- and inter-generational equity effects of irrigation well failures: Farmers in hard rock areas of India. Economic and Political Weekly, March 29:A/41-44.
(Location: IWMI-HQ Call no: P 4564 Record No: H021388)
(0.59 MB)
7 Chandrakanth, M. G.; Arun, V. 1997. Externalities in groundwater irrigation in hard rock areas. Indian Journal of Agricultural Economics, 52(4):761-771.
(Location: IWMI-HQ Call no: PER Record No: H022389)
8 Alemu, B.; Chandrakanth, M. G.; Bhat, M. G. 2002. Impact of watershed development programme in augmenting groundwater resource in drought situation. In Palanisami, K.; Kumar, D. S.; Chandrasekaran, B (Eds.), Watershed management: Issues and policies for 21st century. New Delhi, India: Associated Publishing Company. pp.192-210.
(Location: IWMI-HQ Call no: 333.91 G635 PAL Record No: H032856)
9 Chandrakanth, M. G.; Alemu, B.; Bhat, M. G. 2004. Combating negative externalities of drought: Groundwater recharge through Watershed Development Programme. Economic and Political Weekly, 39(11):1164-1170.
(Location: IWMI-HQ Call no: P 6803 Record No: H034374)
(0.76 MB)
(Location: IWMI HQ Call no: IWMI 631.7.4 G635 NAG Record No: H036603)
(272 KB)
(Location: IWMI HQ Call no: IWMI 631.7.4 G635 DEE Record No: H036602)
(240 KB)
Research highlight based on a paper titled “Groundwater markets promoting efficiency in water use in agriculture in Karnataka.”
12 Chaitra, B. S.; Chandrakanth, M. G.. 2005. Optimal extraction of groundwater for irrigation: Synergies from surface water bodies in tropical India. Water Policy, 7(6):597-611.
(Location: IWMI-HQ Call no: PER Record No: H038177)
13 Chandrakanth, M. G.; Shivakumaraswamy, B.; Sathisha, K. M.; Basavaraj; Adya, S.; Shyamasundar, M. S.; Ananda, K. K. 2008. Groundwater pricing, policy support and implications. In Palanisami, K.; Ramasamy, C.; Umetsu, C. (Eds.). Groundwater management and policies. New Delhi, India: Macmillan. pp.238-252.
(Location: IWMI HQ Call no: 631.7.6.3 G635 PAL Record No: H041986)
14 Seema, H. M.; Chandrakanth, M. G.; Nagaraj, N. 2008. Equity in distribution of benefits from water harvesting and groundwater recharge: an economic study in Sujala Watershed Project in Karnataka. In Kumar, M. Dinesh (Ed.). Managing water in the face of growing scarcity, inequity and declining returns: exploring fresh approaches. Proceedings of the 7th Annual Partners Meet, IWMI TATA Water Policy Research Program, ICRISAT, Patancheru, Hyderabad, India, 2-4 April 2008. Vol.2. Hyderabad, India: International Water Management Institute (IWMI), South Asia Sub Regional Office. pp.720-746.
(Location: IWMI HQ Call no: IWMI 631.7 G635 KUM Record No: H042930)
(0.07 MB)
The paper looks at the impact of water harvesting programs in ground water recharge through the case of the Sujala watershed in Karnataka. On comparison with areas of non sujala watershed and non watershed cases in one normal rainfall and one drought year, it was revealed that Sujala has been successful in recharging groundwater, improving farmers’ incomes and increasing crop production. Further the program is inclusive and the benefits were accrued even to the small and marginal farmers. In fact the net return for small and marginal farmers was higher that that for large and medium farmers. The study concluded that there is potential for expansion of Sujala pattern of watershed development program in other parts of Karnataka and India.
15 Nagaraj, N.; Chandrakanth, M. G.; Prathima, R. 2008. Impact of water harvesting on groundwater recharge, productivity and net returns with integrated farming systems approach in eastern dry zone of Karnataka. In Kumar, M. Dinesh (Ed.). Managing water in the face of growing scarcity, inequity and declining returns: exploring fresh approaches. Proceedings of the 7th Annual Partners Meet, IWMI TATA Water Policy Research Program, ICRISAT, Patancheru, Hyderabad, India, 2-4 April 2008. Vol.2. Hyderabad, India: International Water Management Institute (IWMI), South Asia Sub Regional Office. pp.764-774.
(Location: IWMI HQ Call no: IWMI 631.7 G635 KUM Record No: H042931)
(0.03 MB)
The paper evaluates the performance of water harvesting structures by looking at the case of the Sujala watershed in Karnataka. The water harvesting structures have facilitated the rejuvenation of failed wells and enhanced the water yield. About 75% of the failed bore wells were rejuvenated as against 66% in the non- watershed. The yield of bore wells were increased by 21% in the watershed where as in non-watershed area the water yield has reduced by 11%. Investment analysis of water harvesting structures indicated that for every rupee of present investment on water harvesting structure there is a return of Rs. 2.79 in farm pond and Rs. 2.19 in recharge pits. Further, productivity of crops has enhanced through protective irrigation given at critical stages of crop growth and moisture conservation, which in turn increased the net returns of the farmer.
16 Chandrakanth, M. G.; Thamanadevi, G. L.; Nagaraj, N.; Priyanka, C. N.; Mamatha, M.; Srikanthamurthy, P. S.; Prakashkumar, M.; Nagaraju, Y.; Sanjeev, G.; Hosur, R.; Pradhani, U.; Biradar, B.; Mangalvedkar, R. 2012. Micro-irrigation: economics and outreach in Karnataka. In Palanisami, Kuppannan; Raman, S.; Mohan, Kadiri (Eds.). Micro-irrigation: economics and outreach. New Delhi, India: Macmillan. pp.27-54.
(Location: IWMI HQ Call no: IWMI Record No: H044865)
(Location: IWMI HQ Call no: e-copy only Record No: H047407)
(0.16 MB)
The potential of smallholder-irrigated agriculture to enhance food security and improve livelihoods has led the government of Ethiopia to invest significantly in irrigation establishment. This article aims to investigate the impact of small-scale irrigation on households’ livelihood. To deal with the problems of purposive targeting and self-selection which are likely to occur for this type of intervention, we use a sophisticated econometric technique called ‘propensity score matching’ to study this impact. Our findings confirm the presence of a statistically significant difference in income, overall expenditure, asset accumulation and expenditures on agricultural inputs between the treated and control households. In contrast, no statistically significant differences in livestock resources, food consumption, and expenditure on education and health were found. Furthermore, the proportion of poor is respectively 20 and 30% for the treated and control households. So, overall it can be concluded that participation in the small-scale irrigation has robust and positive effect on most of the livelihood indices and that an expansion of irrigation schemes is a good strategy in the water-stressed and drought-prone areas of Ethiopia.
Powered by DB/Text
WebPublisher, from