文章基本信息

标题：Spatial Variation and Land Use Regression Modeling of the Oxidative Potential of Fine Particles
作者：Aileen Yang ; Meng Wang ; Marloes Eeftens 等
期刊名称：Environmental Health Perspectives
印刷版ISSN：0091-6765
电子版ISSN：1552-9924
出版年度：2015
卷号：123
期号：11
页码：1187-1192
DOI：10.1289/ehp.1408916
语种：English
出版社：OCR Subscription Services Inc
摘要：Background Oxidative potential (OP) has been suggested to be a more health-relevant metric than particulate matter (PM) mass. Land use regression (LUR) models can estimate long-term exposure to air pollution in epidemiological studies, but few have been developed for OP. Objectives We aimed to characterize the spatial contrasts of two OP methods and to develop and evaluate LUR models to assess long-term exposure to the OP of PM_2.5. Methods Three 2-week PM_2.5 samples were collected at 10 regional background, 12 urban background, and 18 street sites spread over the Netherlands/Belgium in 1 year and analyzed for OP using electron spin resonance (OP^ESR) and dithiothreitol (OP^DTT). LUR models were developed using temporally adjusted annual averages and a range of land-use and traffic-related GIS variables. Results Street/urban background site ratio was 1.2 for OP^DTT and 1.4 for OP^ESR, whereas regional/urban background ratio was 0.8 for both. OP^ESR correlated moderately with OP^DTT ( R ² = 0.35). The LUR models included estimated regional background OP, local traffic, and large-scale urbanity with explained variance ( R ²) of 0.60 for OP^DTT and 0.67 for OP^ESR. OP^DTT and OP^ESR model predictions were moderately correlated ( R ² = 0.44). OP model predictions were moderately to highly correlated with predictions from a previously published PM_2.5 model ( R ² = 0.37–0.52), and highly correlated with predictions from previously published models of traffic components ( R ² > 0.50). Conclusion LUR models explained a large fraction of the spatial variation of the two OP metrics. The moderate correlations among the predictions of OP^DTT, OP^ESR, and PM_2.5 models offer the potential to investigate which metric is the strongest predictor of health effects. Citation Yang A, Wang M, Eeftens M, Beelen R, Dons E, Leseman DL, Brunekreef B, Cassee FR, Janssen NA, Hoek G. 2015. Spatial variation and land use regression modeling of the oxidative potential of fine particles. Environ Health Perspect 123:1187–1192; http://dx.doi.org/10.1289/ehp.1408916