5 research outputs found
Micro-irrigation in India
Presented at the 2002 USCID/EWRI conference, Energy, climate, environment and water - issues and opportunities for irrigation and drainage on July 9-12 in San Luis Obispo, California.Includes bibliographical references.On-farm production, income and water use efficiency for horticultural and other agronomical crops in terms of the benefit cost ratio micro-irrigation systems were calculated, and it is observed that B.C. ratio of drip irrigation was greater than conventional methods of irrigation. The water use efficiency was also higher than for conventional methods of irrigation. The monetary gains from micro-irrigation systems were larger than for conventional methods of irrigation for all crops. Information on water use efficiency, productivity and advantages of micro-irrigation compared to conventional irrigation methods is compiled and presented
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Not AvailableConservation agriculture (CA) is a key climate resilient and resource saving technology for higher productivity while reversing soil degradation in rainfed regions. In India, CA in the rice -wheat system of the Indo-Gangetic Plains (IGP) of south Asia has been extensively studied. However, relatively less attention was given to develop strategies to overcome the constraints in the adoption of CA in rainfed regions. Therefore, studies were initiated in rainfed regions under different cropping systems and soil types to standardize the best management practices and to address various constraints related to adoption of CA. Based on the results of experiments conducted in various agro ecosystems it has been found that the effect of CA on crop productivity and soil properties in different experiments are variable, depending on the management factors and duration of the study. Adoption of CA resulted in improvement in crop yield to the extent of 9-36.7% under different cropping systems, increase in net monetary returns by 1487% and rain water productivity by 4-25%. The water infiltration rate was increased by 53.2 -56.8 %, soil organic carbon content increased by 5-45.1% under different cropping systems at different soil depths. The available soil moisture content increased by 1.8-46.8% and the available soil nitrogen, phosphorus and potassium increased by 2.7-41.6,0.6-64.8 and 6.1-26.2%, respectively. The energy input under CA decreased by 0.9-57.6%, energy saving increased by 0.9- 34.88% and the energy use efficiency increased by 9.47-66.8%. The runoff and soil loss also decreased by 17.6-37.9% and 44.756.5%, respectively under CA as compared to conventional tillage (CT). Furthermore, we have observed that CA integrated with complementary practices like in situ moisture conservation (through permanent conservation furrow or permanent raised bed and furrow) in maize/horse gram-pigeonpea, maizepigeonpea system, weed and nutrient management practices in maize-pigeonpea, pearl millet-pigeonpea and cotton-pigeonpea improved the crop productivity and soil health in rainfed agro-ecosystems. Increase in crop residue retention either through manipulation of harvest height to 30-60 cm in cereals and live mulch with dhaincha in pigeonpea-castor system, improve soil health, resilience to climate change, productivity and profitability. These technologies have feasibility of adoption by the farmers.Not Availabl