Agribusiness and Information Management

Korean Society of Food and Agricultural Information Science (한국농식품정보과학회)
권호 표지
DOI QR코드

DOI QR Code

Opportunities for Agricultural Water Management Interventions in the Krishna Western Delta - A case from Andhra Pradesh, India

  • Kumar, K. Nirmal Ravi (Dept of Agril. Economics, Agricultural College, Acharya N. G. Ranga Agricultural University (ANGRAU))
  • Received : 2017.04.05
  • Accepted : 2017.06.05
  • Published : 2017.07.31
Download PDF
⟨ Previous Next ⟩

Abstract

Agricultural water management has gained enormous attention in the developing world to alleviate poverty, reduce hunger and conserve ecosystems in small-scale production systems of resource-poor farmers. The story of food security in the $21^{st}$ century in India is likely t o be closely linked to the story of water security. Today, the water resource is under severe threat. The past experiences in India in general and in Andhra Pradesh in particular, indicated inappropriate management of irrigation has led to severe problems like excessive water depletion, reduction in water quality, water logging, salinization, marked reduction in the annual discharge of some of the rivers, lowering of ground water tables due to pumping at unsustainable rates, intrusion of salt water in some coastal areas etc. Considering the importance of irrigation water resource efficiency, Krishna Western Delta (KWD) of Andhra Pradesh was purposively selected for this in depth study, as the farming community in this area are severely affected due to severe soil salinity and water logging problems and hence, adoption of different water saving crop production technologies deserve special mention. It is quite disappointing that, canals, tube wells and filter points and other wells could not contribute much to the irrigated area in KWD. Due to less contribution from these sources, the net area irrigated also showed declining growth at a rate of -6.15 per cent. Regarding paddy production, both SRI and semi-dry cultivation technologies involves less irrigation cost (Rs. 2475.21/ha and Rs. 3248.15/ha respectively) when compared to transplanted technology (Rs. 4321.58/ha). The share of irrigation cost in Total Operational Cost (TOC) was highest for transplanted technology of paddy (11.06%) followed by semi-dry technology (10.85%) and SRI technology (6.21%). The increased yield and declined cost of cultivation of paddy in SRI and semi-dry production technologies respectively were mainly responsible for the low cost of production of paddy in SRI (Rs. 495.22/qtl) and semi-dry (Rs. 532.81/qtl) technologies over transplanted technology (Rs. 574.93/qtl). This clearly indicates that, by less water usage, paddy returns can be boosted by adopting SRI and semi-dry production technologies. Both the system-level and field-level interventions should be addressed to solve the issues/problems of water management. The enabling environment, institutional roles and functions and management instruments are posing favourable picture for executing the water management interventions in the State of Andhra Pradesh in general and in KWD in particular. This facilitates the farming community to harvest good crop per unit of water resource used in the production programme. To achieve better results, the Farmers' Organizations, Water Users Associations, Department of Irrigation etc., will have to aim at improving productivity per unit of water drop used and this must be supported through system-wide enhancement of water delivery systems and decision support tools to assist farmers in optimizing the allocation of limited water among crops, selection of crops based on farming situations, and adoption of appropriate alternative crops in drought years.

Keywords

References

  1. Ana Iglesias and Luis Garrote, 'Adaptation strategies for agricultural water management under climate change in Europe', Agricultural Water Management, 18 March 2015
  2. Annemarieke de Bruin, Rachel Pateman, Jennie Barron, Mariam Balima, Issa Ouedraogo, Evariste Da Dapola, Mathias Fosu, Frank O. Annor, Manuel Magombeyi, Jean-Marie Kileshye Onema, 'Setting up agricultural water management interventions - learning from successful case studies in the Volta and Limpopo river basins', Water resources and rural development, e 9 September 2015.
  3. Davie M. Kadyampakeni, Samson Kazombo-Phiri, Bancy Mati and Isaac R. Fandika, Impacts of Small-Scale Water Management Interventions on Crop Yield, Water Use and Productivity in Two Agro-Ecologies of Malawi, Agricultural Sciences, 2014, 5, 454-465 https://doi.org/10.4236/as.2014.55046
  4. De Fraiture, C., Molden, D. and Wichelns, D. (2010) Investing in Water for Food, Ecosystems, and Livelihoods: An Overview of the Comprehensive Assessment of Water Management in Agriculture. Agricultural Water Management, 97, 495-501. https://doi.org/10.1016/j.agwat.2009.08.015
  5. Fandika, I.R., Kadyampakeni, D. and Zingore, S. (2012) Performance of Bucket Drip Irrigation by Treadle Pump on Tomato and Maize/Bean Production in Malawi. Irrigation Science, 30, 57-68 https://doi.org/10.1007/s00271-010-0260-2
  6. FAO, IFAD, and WFP. 2013. The State of Food Insecurity in the World 2013: The Multiple Dimensions of Food Security. Rome: FAO.
  7. Kaushal K. Garg, Louise Karlberg, Jennie Barron, Suhas P. Wani1 and Johan Rockstrom, Assessing impacts of agricultural water interventions in the Kothapally watershed, Southern India, Hydrological Processes Hydrol. Process. (2011) Published online in Wiley Online Library (wileyonlinelibrary.com) DOI: 10.1002/hyp.8138
  8. Kaushal K. Garg, Suhas P. Wani, Jennie Barron, Louise Karlberg and Johan Rockstrom (2012), Up-scaling potential impacts on water flows from agricultural water interventions: opportunities and trade-offs in the Osman Sagar catchment, Musi sub-basin, India. Hydrological Processes. DOI: 10.1002/hyp.9516
  9. Kumar, M. Dinesh and Jos van Dam (2009) Improving Water Productivity in Agriculture inIndia: Beyond "More Crop per Drop", in Kumar, M. Dinesh and Upali Amarasinghe(Eds) Water Productivity Improvements in Indian Agriculture: Potentials, Constraints and Prospects, Strategic Analysis of National River Linking Project of India Series 4, International Water Management Institute, Colombo.
  10. Rabenandrasana, Justin (1999) Revolution in Rice Intensification in Madagascar, ILEIA Newsletter, Vol. 15 No. 3/4 (Dec.)
  11. Robert G. Evans and E. John Sadler, 'Methods and technologies to improve efficiency of water use', Water Resources Research, July 2008.
  12. Satyanarayana, A. 2005. System of Rice Intensification - An innovative method to produce more with less water and inputs. Paper presented in the session on SRI at 4th Annual IWMI TATA Partners Meet on 'Bracing up for the future', Anand, Institute for Rural Management, 24-26 February.
  13. Shiferaw B and Rao KPC. 2006. Integrated management of watersheds for agricultural diversification and sustainable livelihoods in eastern and central Africa: Lessons and experiences from semi-arid South Asia. Proceedings of the International Workshop held at ICRISAT, Nairobi, 6-7 December, 2004. Patancheru 502324, Andhra Pradesh, India. International Crops Research Institute for the Semi-Arid Tropics. 53-58. ISBN 92-9066-487-8. Order Code CPE158.
  14. Suhas P Wani, Kaushal K Garg, Anil K Singh and Johan Rockstrom (2012). Sustainable management of scarce water resource in tropical rainfed agriculture. Advances in Soil Science. In Soil Water and Agronomic productivity (by Lal and Stewart) Chapter 13, page no 347-408