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Inactivation of Fusarium oxysporum Conidia in Soil with Gaseous Ozone–Preliminary Studies

dc.creatorMuñoz Romero J.H.
dc.creatorSepúlveda Cadavid C.A.
dc.creatorCortés N.
dc.creatorLópez Correa J.E.
dc.creatorCorrea Estrada J.D.
dc.date2020
dc.date.accessioned2020-04-29T14:53:43Z
dc.date.available2020-04-29T14:53:43Z
dc.identifier.issn1919512
dc.identifier.urihttp://hdl.handle.net/11407/5704
dc.descriptionIn this study, the efficiency of gaseous ozone (O3) injected in the soil as an oxidizing agent for the inactivation of F. oxysporum was evaluated under laboratory conditions. The results show the treatment reached an inactivation efficiency of 76% after an applied dose of 0.40 g O3 kg ?1 soil. This shows that the injection of O3 can be a viable alternative to control pathogenic organisms in the soils. Nevertheless, it is clear that more studies on determining the effects of this treatment on soil quality are needed. © 2019, © 2019 International Ozone Association.
dc.language.isoeng
dc.publisherTaylor and Francis Inc.
dc.relation.isversionofhttps://www.scopus.com/inward/record.uri?eid=2-s2.0-85065186512&doi=10.1080%2f01919512.2019.1608810&partnerID=40&md5=e9c558b4bd1d30d1bc4e86d384dba872
dc.sourceOzone: Science and Engineering
dc.subjectCrop wilt
dc.subjectFusarium oxysporum
dc.subjectGaseous ozone
dc.subjectInactivation of spores
dc.subjectSoil injection
dc.subjectEfficiency
dc.subjectFungi
dc.subjectOzone
dc.subjectFusarium oxysporums
dc.subjectGaseous ozone
dc.subjectInactivation efficiency
dc.subjectInactivation of spores
dc.subjectLaboratory conditions
dc.subjectOxidizing agents
dc.subjectPathogenic organisms
dc.subjectSoil quality
dc.subjectSoils
dc.titleInactivation of Fusarium oxysporum Conidia in Soil with Gaseous Ozone–Preliminary Studies
dc.typeArticleeng
dc.rights.accessrightsinfo:eu-repo/semantics/restrictedAccess
dc.publisher.programIngeniería Ambiental
dc.identifier.doi10.1080/01919512.2019.1608810
dc.relation.citationvolume42
dc.relation.citationissue1
dc.relation.citationstartpage36
dc.relation.citationendpage42
dc.publisher.facultyFacultad de Ingenierías
dc.affiliationMuñoz Romero, J.H., Semillero de Investigación en Ciencias Ambientales SICA, Facultad de Arquitectura e Ingeniería, Institución Universitaria Colegio Mayor de Antioquia, Medellín, 050034, Colombia; Sepúlveda Cadavid, C.A., Semillero de Investigación en Ciencias Ambientales SICA, Facultad de Arquitectura e Ingeniería, Institución Universitaria Colegio Mayor de Antioquia, Medellín, 050034, Colombia; Cortés, N., Facultad de Ciencias Naturales y Matemáticas, Universidad de Ibagué, Ibagué, 730001, Colombia; López Correa, J.E., Facultad de Ingenierías, Universidad de Medellín, Medellín, 050026, Colombia; Correa Estrada, J.D., Semillero de Investigación en Ciencias Ambientales SICA, Facultad de Arquitectura e Ingeniería, Institución Universitaria Colegio Mayor de Antioquia, Medellín, 050034, Colombia
dc.relation.referencesOrtega, B.A., Rodrigues, E., de Lacerda, L., de Souza, W., de Almeida, M., Tracing Interactions among Column Height, Exposure Time and Gas Concentration to Dimension Peanut Antifungal Ozonation. (2016) LWT - Food Science and Technology, 65 (January), pp. 668-675
dc.relation.references(1962), https://doi.org/10.2134/agronj1962.00021962005400050028x, Hydrometer Method Improved for Making Particle Size Analysis of Soils. Agronomy Journal (AJ) 54 (5): 464 65
dc.relation.referencesCamacho, A., Giles, M., Ortegón, A., Palao, M., Serrano, B., Velázquez, O., Cuenta En Placa De Bacterias (2009) Ciudad de México, , http://depa.fquim.unam.mx/amyd/archivero/TecnicBasicas-Cuenta-en-placa_6527.pdf
dc.relation.references(2009), https://unep.ch/ozone/Exemption_Information/Critical_use_nominations_for_methyl_bromide/MeBr_Submissions/EC Management Strategy for Methyl Bromide.pdf, EUROPEAN COMMUNITY MANAGEMENT STRATEGY FOR THE PHASE-OUT OF THE CRITICAL USES OF METHYL BROMIDE
dc.relation.referencesGil, R., Guillermo, J., Ramelli, E.G., Morales Osorio, J.G., Economic Impact of the Avocado (Cv. Hass) Wilt Disease Complex in Antioquia, Colombia, Crops under Different Technological Management Levels (2017) Crop Protection, 101 (November), pp. 103-115
dc.relation.referencesIgura, N., Fujii, M., Shimoda, M., Hayakawa, I., Research Note: Inactivation Efficiency of Ozonated Water for Fusarium Oxysporum Conidia under Hydroponic Greenhouse Conditions (2004) Ozone: Science & Engineering, 26 (5), pp. 517-521
dc.relation.references(2007), Estudio General de Suelos y Zonificación de Tierras?: Departamento de Antioquia. Bogotá
dc.relation.referencesIsikber, A.A., Athanassiou, C.G., The Use Of Ozone Gas For The Control Of Insects And Micro-Organisms In Stored Products (2015) Journal of Stored Products Research, 64 (October), pp. 139-145
dc.relation.referencesJaramillo, D.F., (2014) El Suelo: Origen, Propiedades, Espacialidad, , Medellín, Universidad Nacional de Colombia
dc.relation.referencesKobayashi, F., Ikeura, H., Ohsato, S., Goto, T., Tamaki, M., Disinfection Using Ozone Microbubbles to Inactivate Fusarium Oxysporum F. Sp. Melonis and Pectobacterium Carotovorum Subsp. Carotovorum (2011) Crop Protection, 30 (11), pp. 1514-1518
dc.relation.referencesKottapalli, B., Wolf-Hall, C.E., Schwarz, P., Evaluation of Gaseous Ozone and Hydrogen Peroxide Treatments for Reducing Fusarium Survival in Malting Barley (2005) Journal of Food Protection, 68 (6), pp. 1236-1240
dc.relation.referencesLeeuwen, J.V., Proposed OS&E Requirement: Measuring Ozone Dosage (2015) Ozone: Science and Engineering, 37 (2), pp. 191-192
dc.relation.references(2017), Soil Ozonation for Nematode Disinfestation as an Alternative to Methyl Bromide and Nematicides. The Scientific Pages of Environmental Studies 1 (1): 11 19
dc.relation.referencesOsman, K.T., (2014) Soil Degradation, Conservation and Remediation, , 9789400775
dc.relation.referencesParikh, L., Kodati, S., Eskelson, M.J., Adesemoye, A.O., Identification and Pathogenicity of Fusarium Spp. In Row Crops in Nebraska. Crop Protection 108 (June): 120 127. 10.1016/J (2018) Cropro., 2018 (2), p. 019
dc.relation.referencesPaul, E.A., (2007) Soil Microbiology, Ecology, and Biochemistry, , Burlington, MA, Academic Press
dc.relation.referencesPiccirillo, V.J., Piccirillo, A.L., Methyl Bromide (2010) Hayes Handbook of Pesticide Toxicology, pp. 2267-2279. , Elsevier, and
dc.relation.referencesVidal, R., (2003) Procesos De Potabilización Del Agua E Influencia Del Tratamiento De Ozonización, , Ediciones Díaz de Santos. S. A. Madrid: Ediciones Díaz de Santos S.A
dc.relation.referencesShimizu, K., Matsuda, Y., Nonomura, T., Ikeda, H., Tamura, N., Kusakari, S., Kimbara, J., Toyoda, H., Dual Protection Of Hydroponic Tomatoes From Rhizosphere Pathogens Ralstonia Solanacearum And Fusarium Oxysporum f.Sp. Radicis-Lycopersici And Airborne Conidia Of Oidium Neolycopersici With An Ozone-Generative Electrostatic Spore Precipitator. (2007) Plant Pathology, 56 (6), pp. 987-997
dc.relation.referencesShtangeeva, I., Niemelä, M., Perämäki, P., Ryumin, A., Timofeev, S., Chukov, S., Kasatkina, G., Phytoextration of Bromine from Contaminated Soil. Journal of Geochemical Exploration 174 (March): 21 28. 10.1016/J (2017) Gexplo., 2016 (3), p. 012
dc.relation.referencesTakayama, M., Ebihara, K., Stryczewska, H., Ikegami, T., Gyoutoku, Y., Kubo, K., Tachibana, M., Ozone Generation by Dielectric Barrier Discharge for Soil Sterilization. (2006) Thin Solid Films, 506-507 (May), pp. 396-399
dc.relation.references(2015), https://dx.doi.org/10.21704/ac.v76i1.780, METHODOLOGIES TO DETERMINE THE WATER HOLDING CAPACITY AND DENSITY. Anales Científicos 76 (1): 186 92
dc.relation.referencesThornton, B.F., Horst, A., Carrizo, D., Holmstrand, H., Methyl Chloride and Methyl Bromide Emissions from Baking: An Unrecognized Anthropogenic Source (2016) Science of the Total Environment, 551-552 (May), pp. 327-333
dc.relation.referencesTorlak, E., Efficacy of Ozone against Alicyclobacillus Acidoterrestris Spores in Apple Juice. International Journal of Food Microbiology 172 (February): 1 4. 10.1016/J (2014) Ijfoodmicro., 2013 (11), p. 035
dc.relation.referencesTorlak, E., Sert, D., Ulca, P., Efficacy of Gaseous Ozone against Salmonella and Microbial Population on Dried Oregano. International Journal of Food Microbiology 165 (3): 276 80. 10.1016/J (2013) Ijfoodmicro., 2013 (5), p. 030
dc.relation.referencesWeiland, J.E., Littke, W.R., Browning, J.E., Edmonds, R.L., Anne, D., Beck, B.R., Miller, T.W., Efficacy of Reduced Rate Fumigant Alternatives and Methyl Bromide against Soilborne Pathogens and Weeds in Western Forest Nurseries (2016) Crop Protection, 85 (July), pp. 57-64
dc.relation.referencesXu, J.M., Gan, J., Papiernik, S.K., Becker, J.O., Yates, S.R., Incorporation of Fumigants into Soil Organic Matter (2003) Environmental Science & Technology, 37 (7), pp. 1288-1291
dc.type.versioninfo:eu-repo/semantics/publishedVersion
dc.type.driverinfo:eu-repo/semantics/article


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