Book of Extended summaries ISDA
Book of Extended summaries ISDA Book of Extended summaries ISDA
International Conference on Reimagining Rainfed Agro-ecosystems: Challenges & Opportunities during 22-24, December 2022 at ICAR-CRIDA, Hyderabad impounding water on the surface of the soil to increase the opportunity time for infiltration. In present study, it was observed that adoption of water harvesting technologies during deficient rainfall conditions benefitted by getting additional yield improvement of > 100% compared to farmers’ practice. References Singh, D. V., Vyas, A. K., Gupta, G. K., Ramteke, R. and Khan, I.R. 2011. Tractor drawn broad bed furrow seed drill machine to overcome moisture stress for soybean in Vertisols. Indian J. Agric. Sci. 81: 941-944. Srinivasa Rao Ch., Ravindra Chary G., Mishra, P K, Nagarjuna Kumar, R., Maruthi Sankar, G R, Venkateswarlu, B. and Sikka, A. K. 2013. Real time contingency Planning: Initial experiences from AICRPDA. AICRPDA, CRIDA, Hyderabad. Chary, R. G., Prasad, J. V. N. S., Osman, M., Ramana, D. B. V., Nagasree, K., Rejani, R., Subbarao, A. V. M., Srinivas, I., Rama Rao, C. A., Prabhakar, M., Bhaskar, S., Singh, A. K. & Alagusundaram, K. (Editors). (2019). Technology Demonstrations: Enabling communities to cope with climate variability and to enhance adaptive capacity and resilience. National Innovations in Climate Resilient Agriculture (NICRA) Project, ICAR-Central Research Institute for Dryland Agriculture, Hyderabad, Research Highlights, p121. Impact of water harvesting measures on yield improvement and ground water increase Intervention Crop % yield improvement Check dams Percolation tank Bore well recharge technology Farm pond Jalkunds Blackgram, sesamum, pearlnmillet, wheat Rice, maize, pigeonpea, sorghum Soybean, pigeonpea, cotton Tomato, soybean, cotton, groundnut, greengram Rice, maize, cabbage, cauliflower, tomato, capsicum, broccoli % ground water increase 56-112 25-30 20-32 15-24 25-29 36 21-80 100 60-250 - Compartmental bunding Sorghum 94 - Trench cum bunding Groundnut, pigeonpea, maize, mango Upto 56 - Ridges and furrow Cowpea and Radish 17-32 - Land level and bunding Chickpea 18 - Conservation furrow Soybean 35 - Resilience through land and water management interventions, water management and governance 93 | Page
International Conference on Reimagining Rainfed Agro-ecosystems: Challenges & Opportunities during 22-24, December 2022 at ICAR-CRIDA, Hyderabad Opening furrow after 30 DAS Mulching with sugarcane trash Cotton 61 - Maize 45 - Contour bunding Chickpea 17 - Broad bed furrow Pigeonpea 25 - Broad bed furrow Soybean 58 - T1-34P-1358 Performance Evaluation of Standard Performance Indicators of Telugu Ganga Project in Andhra Pradesh Ch. Murali Krishna * , M.V. Ramana, B. Ramana Murthy, N.V. Sarala and H.V. Hema Kumar Agricultural Research Station, Acharya NG Ranga Agricultural University, Anantapur, Andhra Pradesh, Sri Venkateswara Agricultural College, Tirupati, Agricultural Research Station, Perumallapalli, Tirupati, Andhra Pradesh. * muraliagengg@gmail.com Among different agricultural problems, water scarcity has been a growing global problem that is challenging sustainable development placing a few constraints on the production of enough food to meet the increasing food requirements. The population in India which is over a 1.2 billion at present is projected to significantly increase to 1.4 billion by 2025. The National Water Policy envisaged that food grain production should increase to 350 million tons by 2025. Telugu Ganga Project (TGP) irrigation system is one of the major irrigation projects in south India. The irrigation system consists of an anicut on Krishna river starting at Srisailam, Kurnool district in Andhra Pradesh. The four commands were located in Chittoor, Nellore, Kurnool and Kadapa districts in Andhra Pradesh state (Narasimha et al., 2017). A study was conducted to assess the performance of four commands of Telugu Ganga Project in Andhra Pradesh using standard performance indicators viz., Equity, Uniformity, Irrigation intensity, Overall consumed ratio/efficiency, Adequacy, Yield (kg/ha), Yield (kg/m 3 ), Yield (kg/m 3 ) of Eto and Crop yield ratio. The values of performance indicators were derived for each command during 2013 to 2019. 94 | Page Resilience through land and water management interventions, water management and governance
- Page 47 and 48: International Conference on Reimagi
- Page 49 and 50: International Conference on Reimagi
- Page 51 and 52: International Conference on Reimagi
- Page 53 and 54: International Conference on Reimagi
- Page 55 and 56: International Conference on Reimagi
- Page 57 and 58: International Conference on Reimagi
- Page 59 and 60: International Conference on Reimagi
- Page 61 and 62: International Conference on Reimagi
- Page 63 and 64: International Conference on Reimagi
- Page 65 and 66: International Conference on Reimagi
- Page 67 and 68: International Conference on Reimagi
- Page 69 and 70: International Conference on Reimagi
- Page 71 and 72: International Conference on Reimagi
- Page 73 and 74: International Conference on Reimagi
- Page 75 and 76: International Conference on Reimagi
- Page 77 and 78: International Conference on Reimagi
- Page 79 and 80: International Conference on Reimagi
- Page 81 and 82: International Conference on Reimagi
- Page 83 and 84: International Conference on Reimagi
- Page 85 and 86: International Conference on Reimagi
- Page 87 and 88: International Conference on Reimagi
- Page 89 and 90: International Conference on Reimagi
- Page 91 and 92: International Conference on Reimagi
- Page 93 and 94: International Conference on Reimagi
- Page 95 and 96: International Conference on Reimagi
- Page 97: International Conference on Reimagi
- Page 101 and 102: International Conference on Reimagi
- Page 103 and 104: International Conference on Reimagi
- Page 105 and 106: International Conference on Reimagi
- Page 107 and 108: International Conference on Reimagi
- Page 109 and 110: International Conference on Reimagi
- Page 111 and 112: International Conference on Reimagi
- Page 113 and 114: International Conference on Reimagi
- Page 115 and 116: International Conference on Reimagi
- Page 117 and 118: International Conference on Reimagi
- Page 119 and 120: International Conference on Reimagi
- Page 121 and 122: International Conference on Reimagi
- Page 123 and 124: International Conference on Reimagi
- Page 125 and 126: International Conference on Reimagi
- Page 127 and 128: International Conference on Reimagi
- Page 129 and 130: International Conference on Reimagi
- Page 131 and 132: International Conference on Reimagi
- Page 133 and 134: International Conference on Reimagi
- Page 135 and 136: International Conference on Reimagi
- Page 137 and 138: International Conference on Reimagi
- Page 139 and 140: International Conference on Reimagi
- Page 141 and 142: International Conference on Reimagi
- Page 143 and 144: International Conference on Reimagi
- Page 145 and 146: Theme- 2 Ecosystem based approaches
- Page 147 and 148: International Conference on Reimagi
International Conference on Reimagining Rainfed Agro-ecosystems: Challenges &<br />
Opportunities during 22-24, December 2022 at ICAR-CRIDA, Hyderabad<br />
impounding water on the surface <strong>of</strong> the soil to increase the opportunity time for infiltration. In<br />
present study, it was observed that adoption <strong>of</strong> water harvesting technologies during deficient<br />
rainfall conditions benefitted by getting additional yield improvement <strong>of</strong> > 100% compared to<br />
farmers’ practice.<br />
References<br />
Singh, D. V., Vyas, A. K., Gupta, G. K., Ramteke, R. and Khan, I.R. 2011. Tractor drawn broad<br />
bed furrow seed drill machine to overcome moisture stress for soybean in Vertisols.<br />
Indian J. Agric. Sci. 81: 941-944.<br />
Srinivasa Rao Ch., Ravindra Chary G., Mishra, P K, Nagarjuna Kumar, R., Maruthi Sankar, G<br />
R, Venkateswarlu, B. and Sikka, A. K. 2013. Real time contingency Planning: Initial<br />
experiences from AICRPDA. AICRPDA, CRIDA, Hyderabad.<br />
Chary, R. G., Prasad, J. V. N. S., Osman, M., Ramana, D. B. V., Nagasree, K., Rejani, R.,<br />
Subbarao, A. V. M., Srinivas, I., Rama Rao, C. A., Prabhakar, M., Bhaskar, S., Singh, A.<br />
K. & Alagusundaram, K. (Editors). (2019). Technology Demonstrations: Enabling<br />
communities to cope with climate variability and to enhance adaptive capacity and<br />
resilience. National Innovations in Climate Resilient Agriculture (NICRA) Project,<br />
ICAR-Central Research Institute for Dryland Agriculture, Hyderabad, Research<br />
Highlights, p121.<br />
Impact <strong>of</strong> water harvesting measures on yield improvement and ground water increase<br />
Intervention Crop % yield<br />
improvement<br />
Check dams<br />
Percolation tank<br />
Bore well recharge<br />
technology<br />
Farm pond<br />
Jalkunds<br />
Blackgram, sesamum,<br />
pearlnmillet, wheat<br />
Rice, maize, pigeonpea,<br />
sorghum<br />
Soybean, pigeonpea,<br />
cotton<br />
Tomato, soybean, cotton,<br />
groundnut, greengram<br />
Rice, maize, cabbage,<br />
cauliflower, tomato,<br />
capsicum, broccoli<br />
% ground water<br />
increase<br />
56-112 25-30<br />
20-32 15-24<br />
25-29 36<br />
21-80 100<br />
60-250 -<br />
Compartmental bunding Sorghum 94 -<br />
Trench cum bunding<br />
Groundnut, pigeonpea,<br />
maize, mango<br />
Upto 56 -<br />
Ridges and furrow Cowpea and Radish 17-32 -<br />
Land level and bunding Chickpea 18 -<br />
Conservation furrow Soybean 35 -<br />
Resilience through land and water management interventions, water management and governance<br />
93 | Page