Diseases and Management of Crops under Protected Cultivation

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(Diseases and Management of Crops under Protected Cultivation) solarization has been demonstrated (Stapleton and DeVay, 1982). Limitations Solarization involves limitations, difficulties and possible negative effects. It is weather dependent and can only be used in regions where the climate is suitable (hot) and the soil is free of crops for about one month or more at a time of tarping with PE sheets. The soil heating effect may be limited on cloudy days. Wind or air movement across the plastic sheet rapidly dissipates the trapped heat. Strong winds may also lift or tear the sheets. It is too expensive for some crops and ineffective in the control of certain diseases Heat tolerant pathogens might develop after repeated application, though selection for tolerance to lethal agents is not likely to develop with disinfestation methods which are not target specific Another possibility would be an increase in pathogen population due to a harmful effect on its antagonists Future Thrust Economics: The economic profitability of disease control depends on the additional income obtained and the cost of application. The additional income obtained through solarization far exceeds with high-value crops but with other crops situation may not be the same. There are several possibilities for reducing the cost of mulching: (a) Used polyethylene may be as effective as the new, thus reducing the cost to nearly zero (b) Reusing the polyethylene, providing it is durable (c) If required during the growing season, durable sheets may be used for both solarization and mulch (d) The production of thinner polythene sheets (of an adequate strength) will reduce the amount needed per hectare. Development in plastic technology: Developments in this field may provide improved and economical mulching materials with greater heating efficiency and increased durability. This may include 1) Biodegradable plastic that decomposes in the natural environment 2) Further development of polyethylene recycling processes 3) Developing economic, novel plastic or other materials more efficient than polythene in trapping solar energy, thus reducing our dependence on climate and making this available to cooler regions 4) Possibility of plastic material that can be sprayed on the soil, instead of polyethylene mulching, should be explored. At present, biodegradable plastic products available in the market are more expensive than traditional plastics. Their cost needs to be reduced to make them economical. REFERENCES • Abdel Rahim, M. F., Satour, M. M., Mickail, K.Y. and El Eraki, S. A. (1988). Effectiveness of soil solarization in furrow irrigated Egyptian soils. Plant Dis.. 72: 143-146. • Barbercheck, M.E.and von Broembsen, S.L (1986). Effect of soil solarization on plant parasitic nematodes and Phytophthora cinnamomi in South Africa.Plant Dis. 70:945-950. • Broadbent, P, Baker, KF, Franks, N and Holland, J. 1977. Effect of Bacillus spp. on increased growth of seedlings in steamed and in non treated soil. Phytopathology. 67: 1027- 1034. - 41 -
(Diseases and Management of Crops under Protected Cultivation) • Chellemi, D.O.., Olson, S.M. and Mitchell, D. J. (1994). Effect of soil solarization and fumigation on survival of soil borne pathogens of tomato in Northern Florida. Plant Dis. 78: 1167-1172. • Chen, Y., Gamliel, A., Stapleton, J. J. and Aviad, T. (1991). Chemical, physical and microbial changes related to plant growth in disinfested soils. In: Soil Solarization. Katan, J. and De Vay, J. E. (eds.) CRC Press, Inc., Boca Raton, FL. pp. 103-129. • Chet, I, Elad, Y, Kalfon, A, Hadar, Y and Katan, J. 1982. Integrated control of soilborne and bulbborne pathogens in iris. Phytoparasitica. 10:229. • Deadman, M, Al Nasani, H and Al Sa’di, A. 2006. Solarization and Biofumigation reduce Pythium aphanidermatum induced damping off and enhance vegetative growth of green house cucumber in OMAN. Journal of Plant Pathology. 88: 335-337. • Gamliel, A and Stapleton, J. 1993. Effect of chicken compost or ammonium phosphate and solarization on pathogen control, rhizosphere organisms, and lettuce growth. Plant Disease. 77:886-891. • Grinstein, A., Kritzman, G., Hetzroni, A., Gamliel, A. Mor, M. and Katan, J. (1995). The border effect of soil solarization. Crop Protect. 14: 315-320. • Hartz, T, DeVay, J and Elmore, C. 1993. Solarization is an effective soil disinfestations technique for strawberry production. Hort. Sci. 28(2): 104-106. • Horowitz, M. 1980. Weed research in Israel. Weed Sci. 28: 457-460. • Katan, J, G Katan, J, Greenberger, A, Alon, H and Grinstein, A. 1976. Solar heating by polyethylene mulching for the control of diseases caused by soil-borne pathogens. Phytopathology. 66: 683-688. • Katan, J. (1987). Soil solarization. In: Innovative approaches to plant diseases control. Chet, I. (ed.). John Wiley & Sons New York. pp 77-105. • Katan, J., Fishler, G. and Grinstein, A. (1983). Short and long term effects of soil solarization and crop sequence on Fusarium wilt and yield of cotton in Israel. Phytopathology. 73:1215-1219. • Mahrer, Y. 1979. Prediction of soil temperature of a soil mulched with transparent polyethylene. J. Appl. Meteorol. 18:263-267. • Mahrer, Y. and Katan, J. 1981. Spatial soil temperatures regime under transparent polyethylene mulch-numerical and experimental studies. Soil Sci. 131: 82-87. • Pullman, G.S., Devay, J.E., Garber, R.H. and Weinhold, A.R. (1981) Soil solarization on Verticillium wilt of cotton and soil borne population of Verticillium dahliae, Pythium spp., Rhizoctonia solani and Thielaviopsis basicola. Phytopathology. 71:954-959. • Rao, V. K. and Krishnappa, K. (1995). Soil solarization for the control of soil borne pathogen complexes with special reference to M. incognita and F. oxysporum f.sp. ciceri. Indian Phytopath. 48: 300-303. • Raoof, M. A. and Nageshwar Rao, T. G. (1997). Effect of soil solarization on castor wilt. Indian J. Plant Protect. 25: 154-159. • Rubin, B and Benjamin, A. 1981. Solar sterilization as a tool for weed control. Abstr. Weed Sci. Soc. Am. p.133. • Singh, Y. (2008). Effect of soil solarization and biocontrol agents on plant growth and management of anthracnose of sorghum. Internat. J. Agric. Sci. 4: 188-191. • Tjamos, EC. 1984. Control of Pyrenochaeta lycopersici by combined soil solarization and low dose of methyl bromide in Greece. Acta Hortic. (The Hauge). 152: 253. • Verma, R. K. Singh, Y., Soni, K. K. and Jamalluddin (2005). Solarization of forest nursery soil for elimination of root pathogens and weeds. Indian J. Trop. Biodiv. 13: 81-86. • Wagonner, PE, Miller, PM and DeRoo, HC. 1960. Plastic mulching principles and benefits. Conn. Agric. Exp. Stn. Bull. 623, 44 pp. - 42 -
Page 1 and 2: CENTRE OF ADVANCED FACULTY TRAINING
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ANNEXURE-I CENTRE OF ADVANCED FACUL
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9. Dr. (Mrs.) T.K.S. Latha Assistan
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TRAINING ON ANNEXURE-III DISEASES A
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ANNEXURE-IV CENTRE OF ADVANCED FACU
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14:30-17:00 hrs Visit to VRC for pr
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Sunday 23.9.2012 Monday 24.9.2012 1
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