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Patil, Mangal
- Water Excess/Deficit Studies at Different Seasons (Bahars) of Pomegranate (Punica granatum L.) Cultivation
Abstract Views :288 |
PDF Views:0
Authors
Arun Bhagat
1,
Mangal Patil
2
Affiliations
1 Department of Irrigation and Drainage Engineering, Mahatma Phule Krishi Vidyapeeth, Rahuri, Ahmednagar (M.S.), IN
2 Department of Soil Water Engineering, College of Technology and Engineering, Maharana Pratap University of Agriculture and Technology, Udaipur (Rahjasthan), IN
1 Department of Irrigation and Drainage Engineering, Mahatma Phule Krishi Vidyapeeth, Rahuri, Ahmednagar (M.S.), IN
2 Department of Soil Water Engineering, College of Technology and Engineering, Maharana Pratap University of Agriculture and Technology, Udaipur (Rahjasthan), IN
Source
International Journal of Agricultural Engineering, Vol 7, No 2 (2014), Pagination: 323-327Abstract
The task of monitoring and controlling the field water balance is valuable for efficient management of water and soil which is required for the assessment of long term needs for supplemental irrigation, drainage and water utilization, establishment of certain soil-moisture-plant relationships and determination of optimum crop management practices.The study was carried out to estimate water surplus and deficit for 14 stations of Solapur district of Maharashtra for the period (1977-2007). The result reveals that the percentage maximum water deficit weeks was observed in Malsiras fallowed by Akluj and that of maximum surplus weeks was observed in Solapur followed by South Solapur for every pomegranate bahar for mature (5th years) pomegranate trees.Keywords
Water Excess, Water Deficit, Water Balance, Bahars.References
- Allen, R.K., Pereira, L.S., Raes, D. and Smith, M. (1998). Crop evapotranspiration. Guideline for computing crop water requirements. FAO Irrigation and Drainage Paper No. 56.United Nations Food and Agricultural Organization, ROME, ITALY.
- Aseri, G.K., Jain, N., Panwar, J., Rao, A.V. and Meghwal, P.R. (2008). Biofertilizers improve plant growth, fruit yield, nutrition, metabolism and rhizosphere enzyme activities of pomegranate (Punica granatum L.) in Indian thar desert. Scientia Hort., 117: 130-135.
- Cellier, F. and Conejero, G. (1998). Molecular and physiological responses to water deficit in drought-tolerant and drought-sensitive lines of sunflower. J. Plant Physioly, 116(1) : 319-332.
- Eissa Fawzia, M., Faith, M.A. and El-Shall, S.A. (2007). The role of humic acid and ischolar_mainstock in enhancing salt tolerance of "Le- Conte" pear seedlings. J. Agric.Sci. Mansoura Univ., 32: 3651-3666.
- Farooq, M., Wahid, A., Kobayashi, N., Fujita, D. and Basra, S.M.A. (2009). Plant drought stress: effects, mechanisms and management. Agron. Sustain. Dev., 29: 185-212.
- Holland, D., Hatib, K. and Yaakov, I. Bar (2009). Pomegranate: botany, horticulture and breeding. Hort. Rev., 35: 127-191.
- Ismail, A.F., Hussien, S.M., Shall, S.A. El and Fathi, M.A. (2007). Effect of irrigation and humic acid on Le-conte pear. J. Agric. Sci., Mansoura Univ., 32: 7589-7603.
- Kothari, A.K., Jat, M.L. and Balyan, J.K. (2007). Water balance based crop planning for Bhilwara district of Rajasthan. Indian J. Soil Conservation, 35: 178-183.
- Meshram, D.T. (2010). Stochastic modeling of evapotranspiration of pomegranate (Punica granatum L.), Ph.D. Thesis, CTAE, Maharana Pratap University of Agriculture and Technology, Udaipur, RAJASTHAN (INDIA).
- NRCP (2009). Annual Report 2008-2009. National Research Centre on Pomegranate, Solapur, Maharashtra, India, pp. 1-1.
- Salam, M.A. and Mazrooe, S.A. (2006). Evapotranspiration estimates and water balance of Kuwait. J. Agrometeorol., 8 : 243-247.
- Singh, R.K., Murthy, N.S. and Arya, M.P. (2004). Water balance components and effect of soil moisture on yield of wheat in mid Himalayan region of Uttaranchal. J. Agrometeorol., 6: 234-237.
- Tan, K.H. (2003). Humic matter in soil and environment, principles and controversies. Marcel Dekker, Inc., Madison, NEW YORK, U.S.A.
- Thornthwaite, C.W. (1948). An approach towards a rational classification of climate. Geographical Rev., 38 : 55-94.
- Thornthwaite, C.W. and Mather, J.R. (1955). The water balance climate. 8(1). Dreseal Inst. of Tech., New Jersey. USA: 104.
- Vera Potop (2011). Assessment of water deficit and or surplus during growing period of vegetable crops in Polari. Meso-climate microclimate and landscape structures and anthropogenic environments. Rock Mill, 2 : 4.2.
- Yield Response of Cucumber (Cucumis sativus L.) to Different Fertigation Levels
Abstract Views :216 |
PDF Views:1
Authors
Mangal Patil
1,
S. B. Gadge
2
Affiliations
1 Department of Irrigation and Water Management Engineering, College of Technology and Engineering, Maharana Pratap University of Agriculture and Technology, Udaipur (Rajasthan), IN
2 Department of Irrigation and Drainage Engineering, Dr. A.S. College of Agricultural Engineering, Mahatma Phule Krishi Vidyapeeth, Rahuri, Ahmednagar (M.S.), IN
1 Department of Irrigation and Water Management Engineering, College of Technology and Engineering, Maharana Pratap University of Agriculture and Technology, Udaipur (Rajasthan), IN
2 Department of Irrigation and Drainage Engineering, Dr. A.S. College of Agricultural Engineering, Mahatma Phule Krishi Vidyapeeth, Rahuri, Ahmednagar (M.S.), IN
Source
International Journal of Agricultural Engineering, Vol 9, No 2 (2016), Pagination: 145-149Abstract
A field experiment was conducted at the Instructional Farm of Department of Irrigation and Drainage Engineering, Mahatma Phule Krishi Vidyapeeth, Rahuri, to study effect of different fertigation levels on cucumber (var. Gypsy) production under shade net house with 35, 50 and 75 per cent shading with open field trial. Amongst growth attributes, days to 50 per cent flowering, average diameter of the fruit, average length of fruit, average weight of fruit, length of vine were recorded and were significantly influenced by fertigation. Application of 125 per cent NPK through drip irrigation recorded maximum yield of 21.87 t ha-1 also showed maximum net income followed by application of 125 per cent N through drip irrigation and soil application P and K as basal dose of a 21.61 t ha-1. The maximum FUE was observed with 100 per cent NPK through drip irrigation system (68.73 kg/kg).Keywords
Fertigation, Cucumber, Biometric Parameters.- Economics of Cucumber (Cucumis sativus L.) Grown under Shade Net House with Different Fertigation Levels
Abstract Views :243 |
PDF Views:0
Authors
Affiliations
1 Department of Irrigation and Water Management, College of Technology and Engineering, Maharana Pratap University of Agriculture and Technology, Udaipur (Rajasthan), IN
2 Department of Irrigation and Drainage Engineering, A.S. College of Agricultural Engineeirng, Mahatma Phule Krishi Vidyapeeth, Rahuri, Ahmednagar (M.S.), IN
1 Department of Irrigation and Water Management, College of Technology and Engineering, Maharana Pratap University of Agriculture and Technology, Udaipur (Rajasthan), IN
2 Department of Irrigation and Drainage Engineering, A.S. College of Agricultural Engineeirng, Mahatma Phule Krishi Vidyapeeth, Rahuri, Ahmednagar (M.S.), IN
Source
International Journal of Agricultural Engineering, Vol 10, No 1 (2017), Pagination: 1-9Abstract
The field experiment was conducted at the Instructional Farm of Department of Irrigation and Drainage Engineering, Mahatma Phule Krishi Vidyapeeth, Rahuri during the period from January 2012 to May 2012. The cost economics of cucumber (var. Gypsy) production per m2 under shade net house with 35, 50 and 75 per cent shading with open field trial and different fertigation levels were worked out. While working out the cost economics, cost of production, gross monetary returns, net income were considered to work out the benefit cost ratio. The study showed that, the maximum cost of production was recorded under the shade net with 75 per cent shading with application of NPK ratio as per the growth stage of cucumber with 125 per cent NPK of Rs. 74.34/m2, the maximum gross monetary returns and net returns were recorded under shade net with 75 per cent and application of 125 per cent NPK through drip of Rs. 125.2/- and Rs. 51.28/m2, respectively with benefit - cost ratio of 1.69.Keywords
Cost Economics, Fertigation, Shade Net House, Benefit – Cost Ratio.References
- Agarwal, K.N. and Satapathy, K K. (2003). Potential of using low cost polyhouse in NEH region. Proceedings of All India on Seminar Potential and Prospects for Protective Cultivation organized by the Institute of Engineers, Ahmednagar, December 12-13, pp. 47 – 53.
- Agasimani, A.D., Harish, D.K., Imamsaheb, S.J., Patil, V.S., Kamati, C. and Preveenkumar, D.A. (2011). Anthurium Varieties Performance and Economics under Greenhouse. Res. J. Agric. Sci., 2(2) : 226-229.
- Braulio, I.A., Rezende, A.B., Filho., C., Barros, A.P., Porto, Diego, R.Q. and Martins, M.I. (2010). Economic analysis of cucumber and lettuce intercropping under greenhouse in the winter-spring. Ann. Brazilian Academy Sci., 83(2) : 705-717.
- Gajanana, T.M., Singh, K.P., Subrahamnyam, K.V. and Mandhari, S.C. (2003). Economic analysis of gerbera cultivation under protected cultivation. Indian J. Hort., 60 : 104-107.
- Naik, H.B., Chauhan, N., Patil, A.A., Patil, V.S. and Patil, B.C. (2006). Comparative performance of gerbera (Gerbera jamesonii Bolus ex Hooker F.) cultivars under naturally ventilated polyhouse. J. Orna. Hort., 9(3): 204-207.
- Pattanshetti, C.N. (2009). Evaluation of gerbera cultivars under protected conditions. Thesis, University of Agricultural Sciences, Dharwad, Karnataka, India.
- Singh, R., Asrey, R. and Nangare, D.D. (2003). Studies on the performance of tomato and Capsicum under medium cost greenhouse. Proc. of All India Seminar on Potential and Prospects for Protective Cultivation, Organized by the Institute of Engineers, Ahmednagar, Maharashtra, India.
- Stachowiak, M. (2009). Costs of integrated plant protection of greenhouse cultivation of tomato and cucumber. Prog. Plant Protec., 49(4) : 1656-1663.