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RESEARCH PRODUCT
Superoxide-driven autocatalytic dark production of hydroxyl radicals in the presence of complexes of natural dissolved organic matter and iron.
Luca CarenaYihua XiaoYihua XiaoAnssi V. VähätaloMarja-terttu Näsisubject
Environmental EngineeringRadicalIron0208 environmental biotechnologyFresh Water02 engineering and technology010501 environmental sciencesPhotochemistry01 natural sciencesAutocatalysischemistry.chemical_compoundSuperoxidesDissolved organic carbonmedicineWaste Management and Disposal0105 earth and related environmental sciencesWater Science and TechnologyCivil and Structural EngineeringChemistrySuperoxideHydroxyl RadicalEcological ModelingPollutionFluorescence020801 environmental engineeringFerricAbsorption (chemistry)medicine.drugPotassium superoxidedescription
Abstract We introduced superoxide as potassium superoxide (KO2) to artificial lake water containing dissolved organic matter (DOM) without or with introduced ferric iron complexes (DOM-Fe(III)), and monitored the production rate of hydroxyl radicals as well as changes in the absorption and fluorescence properties of DOM. The introduction of KO2 decreased the absorption by DOM but increased the spectral slope coefficient of DOM more with complexed ferric Fe than without it. The introduction of KO2 increased the fluorescence of humic-like components in DOM without introduced ferric Fe but resulted in the loss of fluorescence in DOM with introduced ferric Fe. A single introduction of 13 μmol L−1 KO2 produced 10 μmol L−1 and 104 μmol L−1 hydroxyl radicals during a week-long experiment without and with the introduced DOM-Fe(III) complexes, respectively. The production rate of hydroxyl radicals decreased exponentially with time but levelled off and continued several days in DOM with introduced ferric Fe. These findings suggest that in the presence of DOM-Fe complexes, superoxide can trigger an autocatalytic Fenton reaction that produces hydroxyl radicals and breaks down DOM.
year | journal | country | edition | language |
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2019-11-22 | Water research |