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Toprak Solarizasyonu ve Bitki Paraziti Nematodlarla Mücadelede Kullanımı

Year 2022, Volume: 48 Issue: 2, 53 - 62, 01.10.2022
https://doi.org/10.35238/sufefd.1089961

Abstract

Tarımsal üretimi sınırlandıran toprak kökenli birçok hastalık etmeni ve zararlı bulunmaktadır. Bitki paraziti nematodlar, gerek bitkilerde beslenmeleri ile yaptıkları direk zararlar gerekse diğer hastalık etmenleriyle oluşturdukları kompleks ilişkileri nedeniyle tarımsal üretim yapılan alanlarda önemli kayıplara neden olabilmektedir. Bu zararlılarla mücadelede birçok yöntem kullanılmakta olup bunlardan en sık başvurulan kimyasal mücadeledir. Özellikle son yıllarda çevre bilinci konusunda artan farkındalık nedeniyle birçok kimyasalın kullanımı yasaklanmıştır. Buna karşın nematodlarla mücadelede kullanılan kimyasalların hem etkinliğini arttırmak hem de kullanım miktarlarını azaltabilmek için solarizasyon kullanılmaktadır. Dolayısıyla toprak solarizasyonu hem çevre ve insan sağlığı hem de etkili ve sürdürülebilir bir mücadele açısından önemli bir yöntemdir. Bu derlemede toprak solarizasyonu ve bitki paraziti nematodlara karşı kullanımı hakkında bilgi verilmiştir.

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References

  • Ahmad, Y., Hameed, A., Aslam, M., 1996, Effect of soil solarization on corn stalk rot, Plant and Soil, 179, 17-24.
  • Al-Hazmi, A. S., Dawabah, A. A. M., Al-Nadhari, S. N., Al-Yahya, F. A. 2017, Comparative efficacy of different approaches to managing Meloidogyne incognita on green bean, Saudi Journal of Biological Sciences, 24, 149–154.
  • Baker, K. F. and Cook, R. J., 1974, Biological control of plant pathogens. W.H. Freeman & Co. Ltd., San Francisco, California, pp 433.
  • Barbercheck, M. E. and Von Broembsen, S. L., 1986, Effects of soil solarization on plant-parasitic nematodes and Phytophthora cinnamomi in South Africa, Plant Disease, 70, 945-950.
  • Benlioğlu, S., Boz, Ö., Yıldız, A., Kaşkavalcı, G. and Benlioğlu, K., 2005, Alternative soil solarization treatments for the control of soil-borne disease and weeds of strawberry in the western Anatolia of Turkey, Journal of Phytopathology, 153, 423-430.
  • Candido, V., D’Addabbo, T., Basile, M., Castronuovo, D. and Miccolis, V., 2008, Greenhouse soil solarization: Effect on weeds, nematodes and yield of tomato and melon. Agronomy for Sustainable Development, 28, 221-230.
  • Chellemi, D. O., Olson, S. M., Scott, J. W., Mitchell, D. J., and McSorley, R., 1993, Reduction of phytoparasitic nematodes on tomato by soil solarization and genotype, Journal of Nematology, 25(4S), 800-805.
  • Chen, Y. and Katan, J., 1980, Effect of solar heating of soils by transparent polyethylene mulching on their chemical properties, Soil Science, 130(5), 271-277.
  • Chen, Y., Gamliel, A., Stapelton, J. J., and Aviad, T., 1991, Chemical, physical and microbial changes related to plant growth in disinfested soils, Katan, J., and DeVay, J. E. (Eds.). CRC Press, Boca Raton, Florida, pp 103-129.
  • Chen, Y., Katan, J., Gamliel, A., Aviad, T., and Schnitzer, M., 2000, Involvement of soluble organic matter in increased plant growth in solarized soils, Biology and Fertility of Soils, 32, 28-34.
  • Conn, K. L. and Lazarovits, G., 1999, Impact of animal manures on verticillium wilt, potato scab, and soil microbial populations, Canadian Journal of Plant Pathology, 21, 81-92.
  • Çatalkaya, M. and Devran, Z., 2019, Integrated management of Mi-1 virulent Meloidogyne incognita (Kofoid & White, 1919) Chitwood, 1949 (Tylenchida: Meloidogynidae) in greenhouse tomatoes, Turkish Journal of Entomology, 43(2), 157-169.
  • D’Addabbo, T., Miccolis, V., Basile, M., and Candido, V., 2010. Soil solarization and sustainable agriculture, In: Lichtfouse, E., (Eds.), Sociology, organic farming, climate change and soil science, sustainable agriculture reviews 3, Springer Science+Business Media B.V., London, pp. 217-274.
  • Decreamer, W. and Hunt, D. J., 2013, Structure and classification, In: Perry, R. N. and Moens, M., (Eds), Plant Nematology, 2nd edition. CAB International: Boston, MA, USA pp. 3-37.
  • DeVay, J. E., and Katan, J., 1991, Mechanisms of pathogen control in solarized soils, In: DeVay, J. E. and Katan, J., (Eds), Soil solarization, CRC Press, Boca Raton, Florida, pp. 87-101.
  • Di Vito, M., Greco, N., and Saxena, M. C., 1991, Effectiveness of soil solarization for control of Heterodera ciceri and Pratylenchus thornei on chickpea in Syria, Nematologia Mediterranea, 19(1), 109-111.
  • Elekçioğlu, İ. H., Gözel, U., Uygun, N., and Erkılıç, A., 1995, Toprak solarizasyonunun nematodlar üzerindeki etkilerinin araştırılması, Türkiye Entomoloji Dergisi, 19(3), 185-192.
  • Elmore, C. L., 1991, Cost of soil solarization, In: DeVay, J. E., Stapleton, J. J. and Elmore, C. L. (Eds), Soil solarization, Proceedings of the 1st International Conference Soil Solarization, Aman, Jordan, FAO plant production and protection paper, 19-25 February 1990, 109, 351-360.
  • Evans, K., 1991, Lethal temperatures for eggs of Globodera rostochiensis, determined by staining with New Blue R, Nematologica, 37, 225-229.
  • Gamliel, A., and Katan, J., 1991, Involvement of fluorescent pseudomonads and other microorganisms in increased growth response of plants in solarized soils, Phytopathology, 81, 494–502.
  • Gamliel, A., Austerweil, M., and Kritzman, G., 2000, Non-chemical approach to soilborne pest management- organic amendments, Crop Protection, 19, 847-853.
  • Gelsomino, A., Badalucco, L., Landi, L., and Cacco, G., 2006, Soil carbon, nitrogen and phosphorus dynamics as affected by solarization alone or combined with organic amendment, Plant and Soil, 279(1-2), 307-325.
  • Giannakou, I. O., Anastasiadis, I. A., Gowen, S. R., and Prophetou-Athanasiadou, D. A., 2007, Effects of a non-chemical nematicide combined with soil solarization for the control of root-knot nematodes, Crop Protection, 26(11), 1644-1654.
  • Giblin-Davis, R. M., and Verkade, S. D., 1988, Solarization for nematode disinfestation of small volumes of soil, Journal of Nematology, 2, 41-45.
  • Göçmen, H. ve Elekçioğlu, İ. H., 1996, Antalya’da toprak solarizasyonunun seralarda Meloidogyne Goeldi, 1887 (Tylenchida, Meloidogynidae) türleri üzerindeki etkilerinin araştırılması, Türkiye Entomoloji Dergisi, 20(1), 81-86.
  • Greco, N., Brandonisio, A., and Elia, F., 1985, Control of Ditylenchus dipsaci, Heterodera carotae and Meloidogyne javanica by solarization, Nematologia Mediterranea, 13, 191-197.
  • Greco, N., D’Addabbo, T., Sasanelli, N., Senhorst, J. W., Stea, V., and Brandonisio, A., 1998, Effect of temperature and exposure times on the mortality of the carrot cyst nematode Heterodera carotae, International Journal of Pest Management, 44, 99-107.
  • Greco, N., Brandonisio, A., and Dangelico, A., 2000, Control of the potato cyst nematode, Globodera rostochiensis, with soil solarization and nematicides, Nematologia Mediterranea, 28, 93-99.
  • Grünzweig, J. M., Katan, J., Ben-Tal, Y., and Rabinowitch, H. D., 1999, The role of mineral nutrients in the increased growth response of tomato plants in solarized soil, Plant and Soil, 206, 21-27.
  • Hadar, E., Sofer, S., Brosh, S., Mordechai, M., Cohn, E., and Katan, Y., 1983, Control of clover cyst nematode on carnation, Hadasseh, 63, 1698-1700.
  • Hasing, J. E., 2002, Agroeconomic effect of soil solarization on fall-planted lettuce, Master's Thesis, Louisiana State University and Agricultural and Mechanical College, 70 p., https://digitalcommons.lsu.edu/gradschool_theses/2362
  • Hasson, A. M., Hassaballah, T., Hussain, R., and Abbass, L., 1987, Effect of solar sterilization on nitrification in soil. Journal of Plant Nutrition, Journal of Plant Nutrition, 10, 1805-1809.
  • Heald, C. M. and Robinson, A. F. 1987, Effect of soil solarization on Rotylenchulus reniformis in the lower Rio Grande Valley of Texas, Journal of Nematology, 19, 93–103.
  • Hussey, R. S., 1985, Host parasite relationship and associated physiological changes, In: Sasser, J. N. and Carter, C. C. (Eds). An advanced treatise on Meloidogyne, Vol. I. biology and control. North Carolina State University Graphics, Raleigh, North Carolina, pp 143-153.
  • Ioannou, N., 2000, Soil solarization as a substitute for methyl bromide fumigation in greenhouse tomato production in Cyprus, Phytoparasitica, 28, 248–256.
  • Jones, J. T., Haegeman, A., Danchın, E. G. J., Gaur, H. S., Helder, J., Jones, M. G. K., Kıkuchı, T., Manzanılla-López, R., Palomares-Rıus, J. E., Wesemael, W. M. L., and Perry, R. N., 2013, Top 10 plant parasitic nematodes in molecular plant pathology, Molecular Plant Pathology, 14(9), 946-961.
  • Kapoor, R. T., 2013, Soil Solarization: Eco-friendly technology for farmers in agriculture for pest management, 2nd International Conference on Advances in Biological and Pharmaceutical Sciences, ICABPS 2013, Hong Kong, 17-18.
  • Karssen, G., Decreamer, W., and Moens, M. 2013, Root-knot nematodes, In: Perry, R. N. and Moens, M., (Eds), Plant Nematology, 2nd edition, CAB International: Boston, MA, USA pp. 73-108.
  • Kaşkavalcı, G., 2007, Effects of soil solarization and organic amendment treatments for controlling Meloidogyne incognita in tomato cultivars in Western Anatolia, Turkish Journal of Agriculture and Forestry, 31, 159-167.
  • Katan, J., Greenberger, A., Alon, H., and Grinstein, A., 1976, Solar heating by polyethylene mulching for the control of disease caused by soil-borne pathogens, Phytopathology, 66, 683-688.
  • Katan, J., 1981, Solar heating (solarization) of soil for control soilborne pests, Annual review of phytopathology, 19, 211-236.
  • Katan, J., 1987, Soil solarization. In: Chet, I. (Eds), Innovative approaches to plant disease control, Newyork: John Wiley & Sons, pp. 77-105.
  • Katan, J., 2014, Three decades of soil solarization: achievements and limitations, Acta horticulturae, 1015, 69-78.
  • Koçar, G., Okur, B., ve Şafak, S., 2006, Toprak solarizasyonunda kullanılan değişik örtü malzemelerinin toprak sıcaklığı ile bazı fiziksel ve kimyasal özellikleri üzerine olan etkileri, Ege Üniversitesi Ziraat Fakültesi Dergisi, 43(2), 109-120.
  • Kumar, A., Azad, C. S., Kumar, R., Kumar, R., and Imran, M., 2017, Soil solarization: An eco-friendly and effective disease management approach for soil borne disease, Journal of Pharmacognosy and Phytochemistry, SP1, 513-515.
  • Kurt, S., and Emir, B., 2004, Effect of soil solarization, chicken litter and viscera on populations of soilborne fungal pathogen and pepper growth, Plant Pathology, J3, 118-124.
  • Lamberti, F., D’addabbo, T., Greco, P., Carella, A., and De Cosmis, P., 2000, Management of root-knot nematodes by combination of soil solarization and fenamiphos in southern Italy. Nematologia Mediterranea, 28, 31-45.
  • LaMondia, J. A., and Brodie, B. B., 1984, Control of Globodera rostochiensis by solar heat, Plant Disease, 68, 474-476.
  • Linford, M. B., and Oliveria, J. M., 1940. Rotylenchulus reniformis nov. gen., n.sp., a nematode parasite of roots. Proceedings of the Helminthological Society of Washington, 7, 35-42.
  • Marahatta, S. P., Wang, K. H., Sıpes, B. S., and Hooks, C. R. R., 2012, Effects of integration of sunn hemp and soil solarization on plant-parasitic and free-living nematodes, Journal of Nematology, 44(1), 72-79.
  • McGovern, R. J., McSorley, R., and Bell, M. L., 2002, Reduction of landscape pathogens in Florida by soil solarization, Plant Disease, 86, 1388-1395.
  • McSorley, R., Ozores-Hampton, M., Stansly, P. A., and Conner, J. M., 1999, Nematode management, soil fertility, and yield in organic vegetable production, Nematropica, 29, 205-13.
  • Nico, A. I., Jiménez-Díaz, R. M., and Castillo, P., 2003, Solarization of soil in piles for the control of Meloidogyne incognita in olive nurseries in southern Spain, Plant Pathology, 52, 770–778.
  • Oštrec, L., and Grubišič, D., 2003, Effects of soil solarization on nematodes in Crotia, Journal of Pesticide Sciences, 76, 139-144.
  • Özarslandan, A., Dinçer, D., and Bozbuğa, R., 2019, Effect of combination of solarization and soil fumigation on root-knot nematodes (Meloidogyne spp.) (Nematoda: Meloidogynidae) in greenhouses, KSU Journal of Agriculture and Nature, 22(1), 45-51.
  • Palese, A. M., Giovannini, G., Lucchese, S., and Dumontet, S., 2004, Effect of fire on soil C, N, and microbial biomass, Agronomie, 24, 47-53.
  • Pokharel, R., 2011, Soil solarization, an alternative to soil fumigants. Colorado State University, Western Colorado Research Center, Crop series, Soils, Fact sheet no, 0.505.
  • Porter, I. J. and Merriman, P. R., 1983, Effect of solarization of soil on nematode and fungal pathogens at two sites in Victoria, Soil Biology and Biochemistry, 15, 39–44.
  • Raison, R. J. and McGarity, J. W., 1979, Changes in carbon and nitrogen fractions of graminaceous straws after burning, Plant and Soil, 51, 311-318.
  • Rodriguez-Kabana, R., 1986, Organic and inorganic nitrogen amendments to soil as nematode suppressants, Journal of Nematology, 18, 129-135.
  • Rubin, B., Cohen, O., and Gamliel, A., 2007, Soil solarization: An environmentally-friendly alternative, Technical Workshop on non-chemical alternatives to replace methyl bromide as a soil fumigant, Budapest, Hungary, 71-78.
  • Safdar, M. E., Safdar, M., Ali, A., Farooq, N., Sarwar, G., Hassan, I., Nadeem, M. A., and Abbas, T., 2021, Soil solarization improves soil fertility in addition to weed management in sesame under subtropical conditions of Pakistan, Advances in Weed Science, 39, e020219464.
  • Sasanelli, N., Konrat, A., Migunova, V., Toderas, I., Iurcu-Straistaru, E., Rusu, S., Bivol, A., Andoni, C., and Veronico, P., 2021, Review on control methods against plant parasitic nematodes applied in southern member states (C Zone) of the European Union, Agriculture, 11, 602.
  • Sauerborn, J., Saxena, M. C., and Masri, H., 1990, Control of faba bean nematodes by soil solarization in Syria, Arab Journal of Plant Protection, 8(1), 38-40.
  • Scopa, A. and Dumontet, S., 2007, Soil solarization: Effects on soil microbiological parameters, Journal of Plant Nutrition, 30, 537-547.
  • Sharma, M. and Sharma, S. K., 2002, Effect of soil solarization on soil microflora with special reference to Dematophora necatrix in apple nurseries, Indian Phytopathology, 55(2), 158-162.
  • Singh, Y., Ojha, R. K., and Chawla, S., 2012, Soil solarization: An ecofriendly disease management strategy, In: Singh, V. K., Singh, Y., and Singh, A. (Eds), Eco-friendly innovative approaches in plant disease management, IBD Publishers & Distributors, India, pp. 55-70.
  • Stapleton, J. J. and DeVay, J. E., 1986, Soil so larization: A non-chemical approach for management of plant pathogens and pests, Crop Protection, 5, 190–198.
  • Stapleton, J. J. and DeVay, J. E., 1995, Soil solarization: A natural mechanism of integrated pest management, In: Reuveni, R. (Eds), Novel Approaches to Integrated Pest Management, Lewis Publishers, Boca Raton, pp. 309-322.
  • Stapleton, J. J., 1997, Soil Solarization: An alternative soil disinfestation strategy comes of age, UC Plant Protection Quarterly, 7, 1-5.
  • Stapleton, J. J., 2000, Soil solarization in various agricultural production systems, Crop Protection, 19, 837-841.
  • Stapleton, J. J., Marshall, M. N., VanderGheynst, J. S., 2006, Response of phytoparasitic nematodes and microbial soil community structure to high-temperature tent solarization for disinfesting container nursery soil, California Conference on Biological Control V (CCBC V), Riverside, California, USA, 25 - 27 July, pp. 184-187.
  • Stapleton, J. J., Wilen, C. A., Molinar, M. H., 2019, UC IPM notes: Soil solarization for gardens and landscapes, UC ANR Publication, 74145, Oakland, CA.
  • Söğüt, M. A. and Elekçioğlu, İ. H., 2007, Methyl bromide alternatives for controlling Meloidogyne incognita in pepper cultivars in the Eastern Mediterranean Region of Turkey, Turkish Journal of Agriculture and Forestry, 31, 31-40.
  • Subedi, P., Gattoni, K., Liu, W., Lawrence, K. S., Park, S. W., 2020, Current utility of plant growth-promoting rhizobacteria as biological control agents towards plant-parasitic nematodes, Plants, 9(9), 1167.
  • Viaene, N., Coyne, D. L., and Davies, K. G. 2013, Biological and cultural management, In: Perry, R.N. and Moens, M., (Eds), Plant Nematology, CAB International, Wallingford, Oxfordshire, pp. 384–404.
  • Wang, K. H. and McSorley, R., 2008, Exposure time to lethal temperature for Meloidogyne incognita suppression and its implication for soil solarization, Journal of Nematology, 40, 7–12.
  • Yan, Q., Duan, Z., Mao, J., Li, X., and Dong, F., 2012, Effect of root-zone temperature and N, P, and K, supplies on nutrient uptake of cucumber (Cucumis sativus L.) seedlings in hyroponics, Soil Science and Plant Nutrition, 58(6), 707-717.
  • Yücel, S., Elekçioglu, İ. H., Can, C., Sögüt, M. A., and Özarslandan, A., 2007 Alternative treatments to Methyl Bromide in the Eastern Mediterranean Region of Turkey, Turkish Journal of Agriculture and Forestry, 31(1), 47-53.
  • Yücel, S., Özarslandan, A., ve Can, C., 2015, Örtü Altı sebze ve çilek yetiştiriciliğinde toprak dezenfeksiyonu uygulamaları, Harran Tarım ve Gıda Bilimleri Dergisi, 19(3), 144-150.
  • Yücel, S. ve Günaçtı, H., 2019, Toprak solarizasyonu ve fumigant uygulamalarının domates ve çilek seralarında fungal kök hastalıklarına etkisi, Toprak Su Dergisi, 8(2), 107-113.
  • Zaid, A. M., Esmael, W., Bashie, F., and Gajeam, M., 2014, Control of plant parasitic nematodes and soil borne fungal pathogens by soil solarization in northern region of Libya, International Journal of Sciences: Basic and Applied Research, 16(1), 303-310.
  • Zayed, M. S., Hassanein, M. K. K., Esa, N. H., and Abdallah, M. M. F., 2013, Productivity of pepper crop (Capsicum annuum L.) as affected by organic fertilizer, soil, and endomycorrhizae, Annals of Agricultural Sciences, 58(2), 131-137.

Soil Solarization and Its Use in Management of Plant Parasitic Nematodes

Year 2022, Volume: 48 Issue: 2, 53 - 62, 01.10.2022
https://doi.org/10.35238/sufefd.1089961

Abstract

There are many soil-borne diseases and pests that limit agricultural production. Plant parasitic nematodes can cause significant losses in agricultural production areas due to their direct damage by feeding on plants and their complex relationships with other diseases. While there are many different techniques to manage these pests, the most common one is chemical control. Many chemicals have been banned due to increasing awareness of environmental concerns especially in recent years. However, solarization is used both increase the effectiveness and reduce the amount of the chemicals used in the management against nematodes. Therefore, soil solarization is an important method that can facilitate an effective and sustainable management both in terms of environment and human health. In this review, information is given about soil solarization and its importance in the management of plant parasitic nematodes.

Project Number

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References

  • Ahmad, Y., Hameed, A., Aslam, M., 1996, Effect of soil solarization on corn stalk rot, Plant and Soil, 179, 17-24.
  • Al-Hazmi, A. S., Dawabah, A. A. M., Al-Nadhari, S. N., Al-Yahya, F. A. 2017, Comparative efficacy of different approaches to managing Meloidogyne incognita on green bean, Saudi Journal of Biological Sciences, 24, 149–154.
  • Baker, K. F. and Cook, R. J., 1974, Biological control of plant pathogens. W.H. Freeman & Co. Ltd., San Francisco, California, pp 433.
  • Barbercheck, M. E. and Von Broembsen, S. L., 1986, Effects of soil solarization on plant-parasitic nematodes and Phytophthora cinnamomi in South Africa, Plant Disease, 70, 945-950.
  • Benlioğlu, S., Boz, Ö., Yıldız, A., Kaşkavalcı, G. and Benlioğlu, K., 2005, Alternative soil solarization treatments for the control of soil-borne disease and weeds of strawberry in the western Anatolia of Turkey, Journal of Phytopathology, 153, 423-430.
  • Candido, V., D’Addabbo, T., Basile, M., Castronuovo, D. and Miccolis, V., 2008, Greenhouse soil solarization: Effect on weeds, nematodes and yield of tomato and melon. Agronomy for Sustainable Development, 28, 221-230.
  • Chellemi, D. O., Olson, S. M., Scott, J. W., Mitchell, D. J., and McSorley, R., 1993, Reduction of phytoparasitic nematodes on tomato by soil solarization and genotype, Journal of Nematology, 25(4S), 800-805.
  • Chen, Y. and Katan, J., 1980, Effect of solar heating of soils by transparent polyethylene mulching on their chemical properties, Soil Science, 130(5), 271-277.
  • Chen, Y., Gamliel, A., Stapelton, J. J., and Aviad, T., 1991, Chemical, physical and microbial changes related to plant growth in disinfested soils, Katan, J., and DeVay, J. E. (Eds.). CRC Press, Boca Raton, Florida, pp 103-129.
  • Chen, Y., Katan, J., Gamliel, A., Aviad, T., and Schnitzer, M., 2000, Involvement of soluble organic matter in increased plant growth in solarized soils, Biology and Fertility of Soils, 32, 28-34.
  • Conn, K. L. and Lazarovits, G., 1999, Impact of animal manures on verticillium wilt, potato scab, and soil microbial populations, Canadian Journal of Plant Pathology, 21, 81-92.
  • Çatalkaya, M. and Devran, Z., 2019, Integrated management of Mi-1 virulent Meloidogyne incognita (Kofoid & White, 1919) Chitwood, 1949 (Tylenchida: Meloidogynidae) in greenhouse tomatoes, Turkish Journal of Entomology, 43(2), 157-169.
  • D’Addabbo, T., Miccolis, V., Basile, M., and Candido, V., 2010. Soil solarization and sustainable agriculture, In: Lichtfouse, E., (Eds.), Sociology, organic farming, climate change and soil science, sustainable agriculture reviews 3, Springer Science+Business Media B.V., London, pp. 217-274.
  • Decreamer, W. and Hunt, D. J., 2013, Structure and classification, In: Perry, R. N. and Moens, M., (Eds), Plant Nematology, 2nd edition. CAB International: Boston, MA, USA pp. 3-37.
  • DeVay, J. E., and Katan, J., 1991, Mechanisms of pathogen control in solarized soils, In: DeVay, J. E. and Katan, J., (Eds), Soil solarization, CRC Press, Boca Raton, Florida, pp. 87-101.
  • Di Vito, M., Greco, N., and Saxena, M. C., 1991, Effectiveness of soil solarization for control of Heterodera ciceri and Pratylenchus thornei on chickpea in Syria, Nematologia Mediterranea, 19(1), 109-111.
  • Elekçioğlu, İ. H., Gözel, U., Uygun, N., and Erkılıç, A., 1995, Toprak solarizasyonunun nematodlar üzerindeki etkilerinin araştırılması, Türkiye Entomoloji Dergisi, 19(3), 185-192.
  • Elmore, C. L., 1991, Cost of soil solarization, In: DeVay, J. E., Stapleton, J. J. and Elmore, C. L. (Eds), Soil solarization, Proceedings of the 1st International Conference Soil Solarization, Aman, Jordan, FAO plant production and protection paper, 19-25 February 1990, 109, 351-360.
  • Evans, K., 1991, Lethal temperatures for eggs of Globodera rostochiensis, determined by staining with New Blue R, Nematologica, 37, 225-229.
  • Gamliel, A., and Katan, J., 1991, Involvement of fluorescent pseudomonads and other microorganisms in increased growth response of plants in solarized soils, Phytopathology, 81, 494–502.
  • Gamliel, A., Austerweil, M., and Kritzman, G., 2000, Non-chemical approach to soilborne pest management- organic amendments, Crop Protection, 19, 847-853.
  • Gelsomino, A., Badalucco, L., Landi, L., and Cacco, G., 2006, Soil carbon, nitrogen and phosphorus dynamics as affected by solarization alone or combined with organic amendment, Plant and Soil, 279(1-2), 307-325.
  • Giannakou, I. O., Anastasiadis, I. A., Gowen, S. R., and Prophetou-Athanasiadou, D. A., 2007, Effects of a non-chemical nematicide combined with soil solarization for the control of root-knot nematodes, Crop Protection, 26(11), 1644-1654.
  • Giblin-Davis, R. M., and Verkade, S. D., 1988, Solarization for nematode disinfestation of small volumes of soil, Journal of Nematology, 2, 41-45.
  • Göçmen, H. ve Elekçioğlu, İ. H., 1996, Antalya’da toprak solarizasyonunun seralarda Meloidogyne Goeldi, 1887 (Tylenchida, Meloidogynidae) türleri üzerindeki etkilerinin araştırılması, Türkiye Entomoloji Dergisi, 20(1), 81-86.
  • Greco, N., Brandonisio, A., and Elia, F., 1985, Control of Ditylenchus dipsaci, Heterodera carotae and Meloidogyne javanica by solarization, Nematologia Mediterranea, 13, 191-197.
  • Greco, N., D’Addabbo, T., Sasanelli, N., Senhorst, J. W., Stea, V., and Brandonisio, A., 1998, Effect of temperature and exposure times on the mortality of the carrot cyst nematode Heterodera carotae, International Journal of Pest Management, 44, 99-107.
  • Greco, N., Brandonisio, A., and Dangelico, A., 2000, Control of the potato cyst nematode, Globodera rostochiensis, with soil solarization and nematicides, Nematologia Mediterranea, 28, 93-99.
  • Grünzweig, J. M., Katan, J., Ben-Tal, Y., and Rabinowitch, H. D., 1999, The role of mineral nutrients in the increased growth response of tomato plants in solarized soil, Plant and Soil, 206, 21-27.
  • Hadar, E., Sofer, S., Brosh, S., Mordechai, M., Cohn, E., and Katan, Y., 1983, Control of clover cyst nematode on carnation, Hadasseh, 63, 1698-1700.
  • Hasing, J. E., 2002, Agroeconomic effect of soil solarization on fall-planted lettuce, Master's Thesis, Louisiana State University and Agricultural and Mechanical College, 70 p., https://digitalcommons.lsu.edu/gradschool_theses/2362
  • Hasson, A. M., Hassaballah, T., Hussain, R., and Abbass, L., 1987, Effect of solar sterilization on nitrification in soil. Journal of Plant Nutrition, Journal of Plant Nutrition, 10, 1805-1809.
  • Heald, C. M. and Robinson, A. F. 1987, Effect of soil solarization on Rotylenchulus reniformis in the lower Rio Grande Valley of Texas, Journal of Nematology, 19, 93–103.
  • Hussey, R. S., 1985, Host parasite relationship and associated physiological changes, In: Sasser, J. N. and Carter, C. C. (Eds). An advanced treatise on Meloidogyne, Vol. I. biology and control. North Carolina State University Graphics, Raleigh, North Carolina, pp 143-153.
  • Ioannou, N., 2000, Soil solarization as a substitute for methyl bromide fumigation in greenhouse tomato production in Cyprus, Phytoparasitica, 28, 248–256.
  • Jones, J. T., Haegeman, A., Danchın, E. G. J., Gaur, H. S., Helder, J., Jones, M. G. K., Kıkuchı, T., Manzanılla-López, R., Palomares-Rıus, J. E., Wesemael, W. M. L., and Perry, R. N., 2013, Top 10 plant parasitic nematodes in molecular plant pathology, Molecular Plant Pathology, 14(9), 946-961.
  • Kapoor, R. T., 2013, Soil Solarization: Eco-friendly technology for farmers in agriculture for pest management, 2nd International Conference on Advances in Biological and Pharmaceutical Sciences, ICABPS 2013, Hong Kong, 17-18.
  • Karssen, G., Decreamer, W., and Moens, M. 2013, Root-knot nematodes, In: Perry, R. N. and Moens, M., (Eds), Plant Nematology, 2nd edition, CAB International: Boston, MA, USA pp. 73-108.
  • Kaşkavalcı, G., 2007, Effects of soil solarization and organic amendment treatments for controlling Meloidogyne incognita in tomato cultivars in Western Anatolia, Turkish Journal of Agriculture and Forestry, 31, 159-167.
  • Katan, J., Greenberger, A., Alon, H., and Grinstein, A., 1976, Solar heating by polyethylene mulching for the control of disease caused by soil-borne pathogens, Phytopathology, 66, 683-688.
  • Katan, J., 1981, Solar heating (solarization) of soil for control soilborne pests, Annual review of phytopathology, 19, 211-236.
  • Katan, J., 1987, Soil solarization. In: Chet, I. (Eds), Innovative approaches to plant disease control, Newyork: John Wiley & Sons, pp. 77-105.
  • Katan, J., 2014, Three decades of soil solarization: achievements and limitations, Acta horticulturae, 1015, 69-78.
  • Koçar, G., Okur, B., ve Şafak, S., 2006, Toprak solarizasyonunda kullanılan değişik örtü malzemelerinin toprak sıcaklığı ile bazı fiziksel ve kimyasal özellikleri üzerine olan etkileri, Ege Üniversitesi Ziraat Fakültesi Dergisi, 43(2), 109-120.
  • Kumar, A., Azad, C. S., Kumar, R., Kumar, R., and Imran, M., 2017, Soil solarization: An eco-friendly and effective disease management approach for soil borne disease, Journal of Pharmacognosy and Phytochemistry, SP1, 513-515.
  • Kurt, S., and Emir, B., 2004, Effect of soil solarization, chicken litter and viscera on populations of soilborne fungal pathogen and pepper growth, Plant Pathology, J3, 118-124.
  • Lamberti, F., D’addabbo, T., Greco, P., Carella, A., and De Cosmis, P., 2000, Management of root-knot nematodes by combination of soil solarization and fenamiphos in southern Italy. Nematologia Mediterranea, 28, 31-45.
  • LaMondia, J. A., and Brodie, B. B., 1984, Control of Globodera rostochiensis by solar heat, Plant Disease, 68, 474-476.
  • Linford, M. B., and Oliveria, J. M., 1940. Rotylenchulus reniformis nov. gen., n.sp., a nematode parasite of roots. Proceedings of the Helminthological Society of Washington, 7, 35-42.
  • Marahatta, S. P., Wang, K. H., Sıpes, B. S., and Hooks, C. R. R., 2012, Effects of integration of sunn hemp and soil solarization on plant-parasitic and free-living nematodes, Journal of Nematology, 44(1), 72-79.
  • McGovern, R. J., McSorley, R., and Bell, M. L., 2002, Reduction of landscape pathogens in Florida by soil solarization, Plant Disease, 86, 1388-1395.
  • McSorley, R., Ozores-Hampton, M., Stansly, P. A., and Conner, J. M., 1999, Nematode management, soil fertility, and yield in organic vegetable production, Nematropica, 29, 205-13.
  • Nico, A. I., Jiménez-Díaz, R. M., and Castillo, P., 2003, Solarization of soil in piles for the control of Meloidogyne incognita in olive nurseries in southern Spain, Plant Pathology, 52, 770–778.
  • Oštrec, L., and Grubišič, D., 2003, Effects of soil solarization on nematodes in Crotia, Journal of Pesticide Sciences, 76, 139-144.
  • Özarslandan, A., Dinçer, D., and Bozbuğa, R., 2019, Effect of combination of solarization and soil fumigation on root-knot nematodes (Meloidogyne spp.) (Nematoda: Meloidogynidae) in greenhouses, KSU Journal of Agriculture and Nature, 22(1), 45-51.
  • Palese, A. M., Giovannini, G., Lucchese, S., and Dumontet, S., 2004, Effect of fire on soil C, N, and microbial biomass, Agronomie, 24, 47-53.
  • Pokharel, R., 2011, Soil solarization, an alternative to soil fumigants. Colorado State University, Western Colorado Research Center, Crop series, Soils, Fact sheet no, 0.505.
  • Porter, I. J. and Merriman, P. R., 1983, Effect of solarization of soil on nematode and fungal pathogens at two sites in Victoria, Soil Biology and Biochemistry, 15, 39–44.
  • Raison, R. J. and McGarity, J. W., 1979, Changes in carbon and nitrogen fractions of graminaceous straws after burning, Plant and Soil, 51, 311-318.
  • Rodriguez-Kabana, R., 1986, Organic and inorganic nitrogen amendments to soil as nematode suppressants, Journal of Nematology, 18, 129-135.
  • Rubin, B., Cohen, O., and Gamliel, A., 2007, Soil solarization: An environmentally-friendly alternative, Technical Workshop on non-chemical alternatives to replace methyl bromide as a soil fumigant, Budapest, Hungary, 71-78.
  • Safdar, M. E., Safdar, M., Ali, A., Farooq, N., Sarwar, G., Hassan, I., Nadeem, M. A., and Abbas, T., 2021, Soil solarization improves soil fertility in addition to weed management in sesame under subtropical conditions of Pakistan, Advances in Weed Science, 39, e020219464.
  • Sasanelli, N., Konrat, A., Migunova, V., Toderas, I., Iurcu-Straistaru, E., Rusu, S., Bivol, A., Andoni, C., and Veronico, P., 2021, Review on control methods against plant parasitic nematodes applied in southern member states (C Zone) of the European Union, Agriculture, 11, 602.
  • Sauerborn, J., Saxena, M. C., and Masri, H., 1990, Control of faba bean nematodes by soil solarization in Syria, Arab Journal of Plant Protection, 8(1), 38-40.
  • Scopa, A. and Dumontet, S., 2007, Soil solarization: Effects on soil microbiological parameters, Journal of Plant Nutrition, 30, 537-547.
  • Sharma, M. and Sharma, S. K., 2002, Effect of soil solarization on soil microflora with special reference to Dematophora necatrix in apple nurseries, Indian Phytopathology, 55(2), 158-162.
  • Singh, Y., Ojha, R. K., and Chawla, S., 2012, Soil solarization: An ecofriendly disease management strategy, In: Singh, V. K., Singh, Y., and Singh, A. (Eds), Eco-friendly innovative approaches in plant disease management, IBD Publishers & Distributors, India, pp. 55-70.
  • Stapleton, J. J. and DeVay, J. E., 1986, Soil so larization: A non-chemical approach for management of plant pathogens and pests, Crop Protection, 5, 190–198.
  • Stapleton, J. J. and DeVay, J. E., 1995, Soil solarization: A natural mechanism of integrated pest management, In: Reuveni, R. (Eds), Novel Approaches to Integrated Pest Management, Lewis Publishers, Boca Raton, pp. 309-322.
  • Stapleton, J. J., 1997, Soil Solarization: An alternative soil disinfestation strategy comes of age, UC Plant Protection Quarterly, 7, 1-5.
  • Stapleton, J. J., 2000, Soil solarization in various agricultural production systems, Crop Protection, 19, 837-841.
  • Stapleton, J. J., Marshall, M. N., VanderGheynst, J. S., 2006, Response of phytoparasitic nematodes and microbial soil community structure to high-temperature tent solarization for disinfesting container nursery soil, California Conference on Biological Control V (CCBC V), Riverside, California, USA, 25 - 27 July, pp. 184-187.
  • Stapleton, J. J., Wilen, C. A., Molinar, M. H., 2019, UC IPM notes: Soil solarization for gardens and landscapes, UC ANR Publication, 74145, Oakland, CA.
  • Söğüt, M. A. and Elekçioğlu, İ. H., 2007, Methyl bromide alternatives for controlling Meloidogyne incognita in pepper cultivars in the Eastern Mediterranean Region of Turkey, Turkish Journal of Agriculture and Forestry, 31, 31-40.
  • Subedi, P., Gattoni, K., Liu, W., Lawrence, K. S., Park, S. W., 2020, Current utility of plant growth-promoting rhizobacteria as biological control agents towards plant-parasitic nematodes, Plants, 9(9), 1167.
  • Viaene, N., Coyne, D. L., and Davies, K. G. 2013, Biological and cultural management, In: Perry, R.N. and Moens, M., (Eds), Plant Nematology, CAB International, Wallingford, Oxfordshire, pp. 384–404.
  • Wang, K. H. and McSorley, R., 2008, Exposure time to lethal temperature for Meloidogyne incognita suppression and its implication for soil solarization, Journal of Nematology, 40, 7–12.
  • Yan, Q., Duan, Z., Mao, J., Li, X., and Dong, F., 2012, Effect of root-zone temperature and N, P, and K, supplies on nutrient uptake of cucumber (Cucumis sativus L.) seedlings in hyroponics, Soil Science and Plant Nutrition, 58(6), 707-717.
  • Yücel, S., Elekçioglu, İ. H., Can, C., Sögüt, M. A., and Özarslandan, A., 2007 Alternative treatments to Methyl Bromide in the Eastern Mediterranean Region of Turkey, Turkish Journal of Agriculture and Forestry, 31(1), 47-53.
  • Yücel, S., Özarslandan, A., ve Can, C., 2015, Örtü Altı sebze ve çilek yetiştiriciliğinde toprak dezenfeksiyonu uygulamaları, Harran Tarım ve Gıda Bilimleri Dergisi, 19(3), 144-150.
  • Yücel, S. ve Günaçtı, H., 2019, Toprak solarizasyonu ve fumigant uygulamalarının domates ve çilek seralarında fungal kök hastalıklarına etkisi, Toprak Su Dergisi, 8(2), 107-113.
  • Zaid, A. M., Esmael, W., Bashie, F., and Gajeam, M., 2014, Control of plant parasitic nematodes and soil borne fungal pathogens by soil solarization in northern region of Libya, International Journal of Sciences: Basic and Applied Research, 16(1), 303-310.
  • Zayed, M. S., Hassanein, M. K. K., Esa, N. H., and Abdallah, M. M. F., 2013, Productivity of pepper crop (Capsicum annuum L.) as affected by organic fertilizer, soil, and endomycorrhizae, Annals of Agricultural Sciences, 58(2), 131-137.
There are 83 citations in total.

Details

Primary Language Turkish
Subjects Agricultural Engineering
Journal Section Review Articles
Authors

İbrahim Mıstanoğlu 0000-0002-8635-0321

Gülsüm Uysal 0000-0003-1722-2518

Zübeyir Devran 0000-0001-7150-284X

Project Number -
Publication Date October 1, 2022
Submission Date March 18, 2022
Published in Issue Year 2022 Volume: 48 Issue: 2

Cite

APA Mıstanoğlu, İ., Uysal, G., & Devran, Z. (2022). Toprak Solarizasyonu ve Bitki Paraziti Nematodlarla Mücadelede Kullanımı. Selçuk Üniversitesi Fen Fakültesi Fen Dergisi, 48(2), 53-62. https://doi.org/10.35238/sufefd.1089961
AMA Mıstanoğlu İ, Uysal G, Devran Z. Toprak Solarizasyonu ve Bitki Paraziti Nematodlarla Mücadelede Kullanımı. sufefd. October 2022;48(2):53-62. doi:10.35238/sufefd.1089961
Chicago Mıstanoğlu, İbrahim, Gülsüm Uysal, and Zübeyir Devran. “Toprak Solarizasyonu Ve Bitki Paraziti Nematodlarla Mücadelede Kullanımı”. Selçuk Üniversitesi Fen Fakültesi Fen Dergisi 48, no. 2 (October 2022): 53-62. https://doi.org/10.35238/sufefd.1089961.
EndNote Mıstanoğlu İ, Uysal G, Devran Z (October 1, 2022) Toprak Solarizasyonu ve Bitki Paraziti Nematodlarla Mücadelede Kullanımı. Selçuk Üniversitesi Fen Fakültesi Fen Dergisi 48 2 53–62.
IEEE İ. Mıstanoğlu, G. Uysal, and Z. Devran, “Toprak Solarizasyonu ve Bitki Paraziti Nematodlarla Mücadelede Kullanımı”, sufefd, vol. 48, no. 2, pp. 53–62, 2022, doi: 10.35238/sufefd.1089961.
ISNAD Mıstanoğlu, İbrahim et al. “Toprak Solarizasyonu Ve Bitki Paraziti Nematodlarla Mücadelede Kullanımı”. Selçuk Üniversitesi Fen Fakültesi Fen Dergisi 48/2 (October 2022), 53-62. https://doi.org/10.35238/sufefd.1089961.
JAMA Mıstanoğlu İ, Uysal G, Devran Z. Toprak Solarizasyonu ve Bitki Paraziti Nematodlarla Mücadelede Kullanımı. sufefd. 2022;48:53–62.
MLA Mıstanoğlu, İbrahim et al. “Toprak Solarizasyonu Ve Bitki Paraziti Nematodlarla Mücadelede Kullanımı”. Selçuk Üniversitesi Fen Fakültesi Fen Dergisi, vol. 48, no. 2, 2022, pp. 53-62, doi:10.35238/sufefd.1089961.
Vancouver Mıstanoğlu İ, Uysal G, Devran Z. Toprak Solarizasyonu ve Bitki Paraziti Nematodlarla Mücadelede Kullanımı. sufefd. 2022;48(2):53-62.

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Selcuk University Journal of Science Faculty accepts articles in Turkish and English with original results in basic sciences and other applied sciences. The journal may also include compilations containing current innovations.

It was first published in 1981 as "S.Ü. Fen-Edebiyat Fakültesi Dergisi" and was published under this name until 1984 (Number 1-4).
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