文章基本信息

标题：Predicting Chronic Fine and Coarse Particulate Exposures Using Spatiotemporal Models for the Northeastern and Midwestern United States
作者：Jeff D. Yanosky ; Christopher J. Paciorek ; Helen H. Suh 等
期刊名称：Environmental Health Perspectives
印刷版ISSN：0091-6765
电子版ISSN：1552-9924
出版年度：2009
卷号：117
期号：4
页码：522-529
DOI：10.1289/ehp.11692
语种：English
出版社：OCR Subscription Services Inc
摘要：Background Chronic epidemiologic studies of particulate matter (PM) are limited by the lack of monitoring data, relying instead on citywide ambient concentrations to estimate exposures. This method ignores within-city spatial gradients and restricts studies to areas with nearby monitoring data. This lack of data is particularly restrictive for fine particles (PM with aerodynamic diameter < 2.5 μm; PM_2.5) and coarse particles (PM with aerodynamic diameter 2.5–10 μm; PM_10–2.5), for which monitoring is limited before 1999. To address these limitations, we developed spatiotemporal models to predict monthly outdoor PM_2.5 and PM_10–2.5 concentrations for the northeastern and midwestern United States. Methods For PM_2.5, we developed models for two periods: 1988–1998 and 1999–2002. Both models included smooth spatial and regression terms of geographic information system-based and meteorologic predictors. To compensate for sparse monitoring data, the pre-1999 model also included predicted PM₁₀ (PM with aerodynamic diameter < 10 μm) and extinction coefficients (km⁻¹). PM_10–2.5 levels were estimated as the difference in monthly predicted PM₁₀ and PM_2.5, with predicted PM₁₀ from our previously developed PM₁₀ model. Results Predictive performance for PM_2.5 was strong (cross-validation R ² = 0.77 and 0.69 for post-1999 and pre-1999 PM_2.5 models, respectively) with high precision (2.2 and 2.7 μg/m³, respectively). Models performed well irrespective of population density and season. Predictive performance for PM_10–2.5 was weaker (cross-validation R ² = 0.39) with lower precision (5.5 μg/m³). PM_10–2.5 levels exhibited greater local spatial variability than PM₁₀ or PM_2.5, suggesting that PM_2.5 measurements at ambient monitoring sites are more representative for surrounding populations than for PM₁₀ and especially PM_10–2.5. Conclusions We provide semiempirical models to predict spatially and temporally resolved long-term average outdoor concentrations of PM_2.5 and PM_10–2.5 for estimating exposures of populations living in the northeastern and midwestern United States.
关键词：air pollution; extinction coefficient; fine particulate matter; geographic information system; generalized additive mixed models; geostatistics; spatial smoothing; spatiotemporal modeling; visual range