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dc.contributor.authorSopeña Vázquez, F.-
dc.contributor.authorVillaverde Capellán, J.-
dc.contributor.authorMaqueda Porras, Celia-
dc.contributor.authorMorillo González, Esmeralda-
dc.identifierdoi: 10.1016/j.jhazmat.2011.08.039-
dc.identifierissn: 0304-3894-
dc.identifiere-issn: 1873-3336)-
dc.identifier.citationJournal of Hazardous Materials 195: 298-305 (2011)-
dc.description.abstractEthylcellulose-microencapsulated formulations (ECFs) of norflurazon have been shown to reduce leaching, maintaining a threshold concentration in the topsoil than the commercial formulation (CF). Since photodegradation contributes to field dissipation of norflurazon, the objective of the present work was to study if such formulations can also protect from its photodescomposition. For this purpose, aqueous solutions of CF and ECFs, containing the most important soil components (goethite, humic and fulvic acids and montmorillonite) were tested. To get a more realistic approach, studies in soil were also performed. The results were well explained by a simple first order model. DT50 value was 3h for CF under irradiation, which was considerably lower than those corresponding to the systems where ECF was used (35h for ECF; 260h for ECF-goethite; 53h for ECF-humic acids; 33h for ECF-montmorillonite; and 28h for ECF-fulvic acids). ECF protected against photodegradation in both aqueous solution and soil due to the gradual release of the herbicide, which reduced the herbicide available to be photodegraded. These lab-scale findings proved that ECF could reduce the herbicide dosage, minimizing its photolysis, which would be especially advantageous during the first hours after foliar and soil application.-
dc.titlePhotostabilization of the herbicide norflurazon microencapsulated with ethylcellulose in the soil-water system-
dc.description.versionPeer Reviewed-
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