Dileshwari*1, P. Katre1 and Mansingh Banjare2
Department of Soil and Water Engineering, IGKV Raipur 1
Department of Farm Machinery and Power Engineering, IGKV Raipur2
Email: madhukardileshwari@gmail.com
Received-31.01.2017, Revised-15.02.2017
Abstract: In agriculture, the primary production systems face the risk of failure. Therefore, a more in depth analysis is needed by incorporating useful plant and soil properties in for reducing water stress in kharif rice. The approach to determine effective rainfall in watershed could be more focused on the inter-relationship amongst plant, soil and climatic factors, considering the sensitivity of different plants to varying levels of water availability due to water transfer within watershed. Similarly, the assessment of water availability vis-a-vis growth risks could be done more realistically through water balance study. The best recommendation is suggested to reducing hydrological risk.
Keywords: Hydrologic risk, Rainfall, Water balance studies, Effective rainfall
REFERENCES
Adnan and Khan (2012). Effective Rainfall for Irrigated Agriculture Plains of Pakistan, Pakistan J. Meteorology, 6 (11): 63-72.
Bhakar, S.R., Iqbal Mohammed, Devanda, Chhajed and Bansal, K.A. (2008). Probability Analysis of Rainfall at Kota. Indian J. Agril. Research, 42 (3):201-206.
Chakraborty, P.K., Huda, A.K.S., Chatterjee, B.N. and Khan, S.A. (1990). Rainfall and Its Impact on Cropping Pattern in Hooghly District of West Bengal, Indian J. Science 60(2):101-106.
Chand, M., Kumar, D., Singh, D., Roy, N. and Singh D.K. (2011). Analysis of Rainfall for Crop Planning in Jhansi District of Bundelkhand Zone of Uttar Pradesh, Indian J. Soil Cons., 39(1): 20-26.
Chen, F.W., Liu, C.W. and Chang (2013). Studied Improvement of the Agricultural Effective Rainfall for Irrigating Rice using the Optimal Clustering Model of Rainfall Station Network. Paddy Water Environ, DOI 10.1007/s10333-013-0395-x.
Chaudhary, J.L., Tomar, G.S. (1999). Agro-climatic Analysis of Stable Rainfall Periods in undivided Bastar district of Chhattisgarh region of Madhya Pradesh, India, Oryza, 36(1): 66-69.
Das, D.C. (1988). Climatic Crop Growth in Drought Studies for Land Resource Planning, Soil and Water Conservation in India, New Delhi- 32 (1 & 2): 21-37.
Das, D. C. (2009). Reduced Hydrologic Risk to Plant Growth From Carryover Effect Of Rainfall Within a Watershed, J. of Soil and Water Conservation, 8(3): 43-54.
Ghadekar, S.R. and Thakare, K.K. (1991). Some Studies on Rainfall Climatology of the Nagpur Region. Mausam, 42(1): 57-64.
Gowda K.K., Manjunatha, Yadupathyputty, R., Manjunatha B.M. (2011). Rainfall Analysis of Bhadra Command Area (Karnataka). www. Indian J. Com.
Hasssan, G.Z. and Bhutta, M.N. (1996). A Water Balance Model to Estimate Groundwater Recharge in Rechnadoab, Pakistan. Irrigation and drainage system, 10(4):297-317.
Hundal, S.S. and Kaur, P. (2002). Annual and Seasonal Climatic Variability of Different Location of Punjab state. J. Agromet. 4 (2): 113-125.
Jadhav, J.D., Mokashi, D.D., Shewale, M.R. and Patil, J.D. (1999). Rainfall Probability Analysis for Crop Planning in Scarcity Zone of Maharashtra. J. Agromet., 1(1): 59-64.
Jnanendra, R., Subudhi, C.R., Senapati, P.C. and Rath, J. (1999). Rainfall Analysis at Kotagarh Block of Kandhamal District, Orrisa, Environment and Ecology, 17(1):242-244.
Kalaiselvan, P., Ravichandran, V.K. and Balasubramaniam, T.N. (1996). Rainfall Analysis and Suggested Cropping System for Vriddhachalam Taluka of South Arcot. Madras Agriculture Journal, 83(2):94-98.
Kothari, A.K., Virendra Kumar, Jain, .P.M., Purohit, R.C. (2007). Dynamic Crop Planning for Enhancing the Crop Productivity under Rainfed conditions. Journal of Agricultural Engineering, 44(3): 55-62.
Kumambala and Ervine (2010). Water Balance Model of Lake Malawi and its Sensitivity to Climate Change.The Open Hydrology Journal, 4: 152-162.
Mishra, G.N., Shukla, V.D. and Prasad, K. (1996). Rainfall Analysis for Planning Upland Rice (Oryzasativa) Crop in Bihar Plateau, Indian J. Agrill. Science. 66(7):392-396.
Mishra, S.K., Kansal, A.K. and Aggarwal, N. (2012). Assessment of Design Runoff Curve Number for a Watershed. Water Practice & Technology, 7(4): 50-55.
Naeini, E.M.B., Azimi V. and Shahraki, M.A. (2013). Evaluation of Neural Network Base Models in Estimation of Effective Rainfall. Interl. J. Civil & Environl. Research, 1(1):1-18.
Rahangdale, Tushar (2005). Hydrological Evaluation of Soil Conservation Structures in Arang Watershed. Unpublished M.Tech. Thesis Faculty of Agricultural Engg., I.G.K.V., Raipur: 65pp.
Rahman, M.M., Islam, M.O. and Hasanuzzaman, M. (2008). Study of Effective Rainfall for Irrigated Agriculture in South-Eastern Part of Bangladesh. World Journal Agricultural Sciences, 4 (4): 453-457.
Ranade, D.H., Tomar, A.S., Singh, J. (2003). Water Balance Study of Water Harvesting Tank Located in Vertislos of Malwa Region. Indian Journal of Dry Land Agricultural Research and Development, 18(1): 100-102.
Singh, P.K., Lal, S.D. and Sankar, M. Ravi (2005). Rainfall Analysis for Crop Planning in Sabour of Bhagalpur District, Bihar. Indian Journal of Dryland Agriculture Research & Development 20(2):145-150.
Singh, R.K., Prasad, V.H. and Bhatt, C.M. (2004). Remote Sensing and GIS Approach for Assessment of the Water Balance of Watershed. Hydrological Science of Journal, 49(1): 131-141.
Singh, M.J. and Kaur, P. (2007). Crop System Based on Rainfall Analysis in Middle Himachal area. Indian Journal of Agriculture Research. 22(2): 115-125.
Singh, P.K., Bhargava, A.K., Vasu, M.V., Prasad A. and Jayapalan, M. (2010). Water Balance Studies for the Crop Planning in Ranchi, Jharkhand. Mausam, 61 (2):233-238.
Subramaniam, A.R. and Srimannarayana, T. (1991). Climate Studies of Madhya Pradesh. Trans Inst. Indian Geographers, 13(1):73-81.
Subramaniam, S.K. (1994). How Far the Rainfall Deficiency in June July is made up During Second-Half of the South West Monsoon period: A Sub-Divisional Analysis. Vayumandal. 24 (3-4): 72-76.
Thakur, V.S. (2004). Development of Soil and Water Conservation Plan for a Small Agricultural Watershed. Unpublished M. Tech. Thesis Faculty of Agricultural Engg., I.G.K.V., Raipur: 63 pp.
Tsai, S., Chen, S. and Wang, H. (2005). Study on the Practical Model of Planned Effective Rainfall for Paddy Fields in Taiwan. Journal of Marine Science and Technology. 13(2), pp. 73-82.
Upendra S., Agrawal, K.K., Gupta, V.K. and Shankar, U. (1993). Commencement of Rainy Season and Rainfall Analysis for Jabalpur Region. JNKVV Research Journal, 27(1):118-121.
Wang (2012). Evaluating Interannual Water Storage Changes at Watersheds in Illinois based on Long-Term Soil Moisture and Groundwater Level Data. Water Resources Research. 48:1-12.