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Sensitivity of PM10 oxidative potential to aerosol chemical composition at a Mediterranean urban site: ascorbic acid versus dithiothreitol measurements

Álvaro Clemente, Juan Gil-Moltó, Eduardo Yubero, N. Juárez, Jean‐François Nicolas, J. Crespo, Nuria Galindo

2023Air Quality Atmosphere & Health25 citationsDOIOpen Access PDF

Abstract

Abstract The oxidative potential (OP) of PM 10 daily samples collected at a traffic site in southeastern Spain during summer and winter was assessed by two acellular assays: the ascorbic acid (AA) and dithiothreitol (DTT) methods. Although PM 10 levels were similar during both periods, OP values (expressed in nmol min −1 m −3 ) showed a defined seasonal trend. The AA activity was higher in summer than in winter, whereas the DTT reactivity exhibited an opposite seasonal pattern. Both assays were sensitive to different PM 10 components, as shown by the results of the linear correlation analysis. Moreover, the relationship between OP values and PM 10 chemical species was not the same during summer and winter, indicating that particle toxicity is associated with different sources during the warm and cold seasons. When OP values were expressed on a mass basis (nmol min −1 µg −1 ), lower correlation coefficients with PM 10 chemical species were generally obtained compared to volume-normalized activities. These outcomes suggest that only some specific components have a significant intrinsic oxidative potential.

Topics & Concepts

DithiothreitolAscorbic acidChemistryAerosolEnvironmental chemistryMediterranean climateOxidative phosphorylationAnimal scienceBiochemistryFood scienceBiologyEcologyOrganic chemistryEnzymeAir Quality and Health ImpactsAir Quality Monitoring and ForecastingAtmospheric chemistry and aerosols
Sensitivity of PM10 oxidative potential to aerosol chemical composition at a Mediterranean urban site: ascorbic acid versus dithiothreitol measurements | Litcius