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Sustainability is one of the main guiding principles for our modern societies. Water and sustainable development are closely linked since the provision of water is sufficient quantities and of high quality have important impacts on our environment, society and industry as well as the well-being of next generation. Nowadays, there are several emerging problems and risk that affects the sustainable management of water resources. Pollution diffusion pose major threat. Water resources and demand for water remain unbalanced at various levels. Groundwater abstraction and over exploitation have serious environmental impacts. Reservoirs for water storage, flood control, recreation and energy production remain controversial.

Introduction Though the potential benefits generated by the drip irrigation method are apparent, the adoption of drip irrigation is yet to be widely promoted across different regions and states in India. Several factors such as huge initial investment, small size of holding, lack of technical support, nature of cropping pattern, access to water and socio-economic conditions of farmers etc. (Namara et al, 2005, Suresh Kumar, 2012) are constraining adoption of drip irrigation. In some cases, even after the adoption of drip irrigation, the farmers, particularly, the small farmers have often discontinued use of drip irrigation for several reasons such as due to lack of maintenance, irrelevant cultural background, and unreliable water supply (Kulecho and Weatherhead, 2005).

Background and Technology Intervention Owing to the subsequent monsoon failures and unavailability of water for irrigation, Tamil Nadu farmers have switched over to drip irrigation which is not only saving huge quantity of water for them, but also preventing irrigation run off and providing deep water percolation. In Tamil Nadu, usage of drip irrigation is prevalent among vegetable and fruit growers and organic farmers. To relieve the plants from stress or strain of water logging and water scarcity, Tamil Nadu Horticulture Development Agency has played a key role by rightly intervening the farmers through drip irrigation technology and thereby improving water use efficiency.

Background and Technology Intervention The primary resource affected by the climate change is water. In arid and semi-arid regions of India, any shortfall in water supply due to climate change will enhance competition for water use for a wide range of economic, social and environmental applications. The population growth with the improved living conditions also increases the demand for food production and thereby increasing the demand of water in multiple folds in the river basins (UNESCO-WWAP, 2009). The major portion of water available in the Indian River basins are used for cultivating rice and thus poses major challenges to water management, especially during unfavourable climatic conditions.

Background and Technology Intervention To increase the water use efficiency coupling piped network and micro irrigation, Department of Agricultural Engineering along with the Tamil Nadu Government introduced a project on “Water conveyance works of modernization of on-farm irrigation network in 5(R) and 7(R) sluices Parambikulam Aliyar Project (PAP)” covering a total area of 109.86 acres in both the sluices. Significance of this project is to improve the water use efficiency in canal command areas where the farmers were unable to cultivate annual / long term crop due to alternate supply of water in each zone. PAP command area has 4 zones and each zone receives water once in 135 days in a 2 year span through open channel leading farmers to adopt flood irrigation.

Background and Technology intervention Instead of open channel irrigation, intervention of PVC pipeline system using gravitational hydraulic pressure can convey efficient water without the use of power. This will reduce conveyance loss and improve timely and equitable distribution of water to all farmers. As large number of open wells with pump sets are available, uninterrupted power supply is not available for on time irrigation during summer seasons. During such times, savings from tank water will be more helpful allowing the farmer to manage groundwater greatly.

Background and Technology Intervention Andhra Pradesh is India’s fourth largest state in terms of area and fifth in terms of population. Its capital Hyderabad is one of the largest and fastest growing cities in Southern India occupying 650 square kilometers along the bank of Musi River. History says that, the fifth sultan, Muhammad Quli Qutab Shah established Hyderabad on the banks of Musi River in 1591 to avoid the acute water shortages experienced at Golconda during his rule. Today, due to rapid urbanization and increased economic activities, the river has become a receptacle of untreated domestic and industrial waste dumping out of Hyderabad. It is estimated that nearly 350 MLD (Million Liters a Day) of polluted water and sewage originating from the twin cities of Hyderabad and Secunderabad flow into the river. Though this river water which is at the downstream of the city remains highly polluted and considered a major disaster in Hyderabad, it is a significant resource for semi-arid and peri-urban population where the cultivation of fodder grass, paddy and vegetables have contributed largely to the household food security.

Background and Technology Intervention Tanks are one of the oldest structures in India that has been serving as an important water harvesting device since time immemorial. The total number of irrigation tanks in India is estimated to be around 2, 08,000 of which, three states in South India viz., Andhra Pradesh, Tamil Nadu and Karnataka accounts for nearly 1, 27,000 tanks irrigating 1.8 million hectares of land (Gandhiraj, 2009, Siva Subramanian, 2006, Sakthivadivel et al. 2004, Vaidhyanathan, 2001). In Tamil Nadu for instance, there are more than 39,000 tanks at present many of which were constructed during 18th and 19th centuries by kings, zamindars and Britishers (Jagadeesan, M 2011; Palanisami and Easter 2000: 9). Similarly in Telangana region of Andhra Pradesh, tank irrigation developed extensively since ancient times. The district of Warangal and Karim Nagar have several old irrigation tank structures.

Background and Technology Intervention Managed Aquifer Recharge (MAR) describes planned storage and treatment of water in aquifers which can provide cheapest form of new safe water supply for towns and small communities (British Geological Survey, 2006). It is a part of a groundwater manager’s tool which is useful for replenishing and re-pressurising depleted aquifers, controlling saline intrusion or land subsidence as well as improving water quality through filtration and chemical and biological processes. MAR can enhance volumes of groundwater abstracted through different package of measures and restore groundwater balance. It also plays a vital role in smoothing out supply and demand fluctuations, stabilizing over-exploited groundwater levels, reducing evaporation losses and runoff, maintaining environmental flows in streams and rivers, improving water quality and augmenting the reuse of waste and storm water. In recent times, MAR uptake has been very limited.

About 60 per cent of total arable land (142 million ha) in India is rain-fed, characterized by low productivity, low income, low employment with high incidence of poverty and a bulk of fragile and marginal land. Watershed development program is, therefore, considered as an effective tool for addressing many of these problems and recognized as a potential engine for agricultural growth and development in fragile and marginal rain-fed areas. The Government of India has accorded high priority to the holistic and sustainable development of rain-fed areas through the integrated watershed development program since the 7th Five Year Plan (1985-90) and since then a number of watershed programs have been specifically launched in the rain-fed areas with the sole objective to improve the livelihood of poor rural households in a sustainable manner.

About the Lower Bhavani Project The Lower Bhavani Project (LBP) is located in Tamil Nadu in Bhavani River, irrigates 83980 ha in two seasons in a year. The canal water supply is provided for one wet crop from August to December (41885 ha) and one dry crop from January to April (41885 ha). The cultivated area under LBP in Erode and Coimbatore districts are irrigated lands with canals and groundwater, and rainfed crop lands (with supplemental groundwater irrigation).

Background Analysing changes in the cropping patterns is an important prerequisite for optimization and evaluation of water use efficiency and water resource management. Cropping pattern changes in India could not only be seen as resulting from the pursuit for higher economic returns, but also as a feedback response to limited water resources. Although a systematic framework is still needed for future cropping pattern planning in the country by taking food security, continued agricultural expansion and other constraints into consideration, the existing cropping pattern may provide an insight with which alternative cropping patter may be proposed for a right intervention in enhancing water productivity and food security.

Introduction Technical innovation is a process by which new or improved technologies are developed and brought to widespread use (Ambuj Sagar, 2013). Technical innovations are interlinked by research, development, demonstration and deployment which involves a range of organizations and personals with institutional arrangements underpinning the growth and advancement of different kinds of technologies. In the area of water productivity, technical innovations has helped expand water supplies through improved exploration and recovery techniques, increased water use efficiency, improved water availability and reduced environmental impact of water and its usage.

Amarasinghe, U., Shah, T and McCornick P. 2009. Meeting India’s Future Water Needs: Policy options. pp 796-808. Retrieved from http://publications.iwmi.org/PDF/H041893.pdf Andhra Pradesh Water Reforms. Minor Irrigation – Livelihood and Sustainability. Article retrieved from http://www.apwaterreforms.in/minorirrigation.html Bhushan, L., J. K. Ladha., R. K. Gupta., S. Singh., A. Tirol-Padre, Y. S. Saharawat., M. Gathala, and H. Pathak. 2007. “Saving of water and labor in a rice–wheat system with no-tillage and direct seeding technologies.” Agronomy Journal 99 (5): 1288-1296. doi:10.2134/ agronj2006.0227 Brussels, Belgium. (2009). Integrated Water Resource Management in Theory and Practice. STRIVER Conference Book. Retrieved from http://kvina.niva.no/striver/Portals/0/ documents/striver_conference_book_updated.pdf Buechler, S. and Gayathri Devi. 2004. Household Food Security and Wastewater – dependent Livelihood Activities along the Musi River in Andhra Pradesh, India. International Water Management Institute (IWMI) publications