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Literature DB >> 27074524

Combining Land-Use Regression and Chemical Transport Modeling in a Spatiotemporal Geostatistical Model for Ozone and PM2.5.

Meng Wang¹, Paul D Sampson², Jianlin Hu³, Michael Kleeman⁴, Joshua P Keller⁵, Casey Olives¹, Adam A Szpiro⁵, Sverre Vedal¹, Joel D Kaufman¹.

Abstract

Assessments of long-term air pollution exposure in population studies have commonly employed land-use regression (LUR) or chemical transport modeling (CTM) techniques. Attempts to incorporate both approaches in one modeling framework are challenging. We present a novel geostatistical modeling framework, incorporating CTM predictions into a spatiotemporal LUR model with spatial smoothing to estimate spatiotemporal variability of ozone (O3) and particulate matter with diameter less than 2.5 μm (PM2.5) from 2000 to 2008 in the Los Angeles Basin. The observations include over 9 years' data from more than 20 routine monitoring sites and specific monitoring data at over 100 locations to provide more comprehensive spatial coverage of air pollutants. Our composite modeling approach outperforms separate CTM and LUR models in terms of root-mean-square error (RMSE) assessed by 10-fold cross-validation in both temporal and spatial dimensions, with larger improvement in the accuracy of predictions for O3 (RMSE [ppb] for CTM, 6.6; LUR, 4.6; composite, 3.6) than for PM2.5 (RMSE [μg/m(3)] CTM: 13.7, LUR: 3.2, composite: 3.1). Our study highlights the opportunity for future exposure assessment to make use of readily available spatiotemporal modeling methods and auxiliary gridded data that takes chemical reaction processes into account to improve the accuracy of predictions in a single spatiotemporal modeling framework.

Entities: Chemical Disease Gene Species

Mesh：

Substances：

Year: 2016 PMID： 27074524 PMCID： PMC5096654 DOI： 10.1021/acs.est.5b06001

Source DB: PubMed Journal: Environ Sci Technol ISSN： 0013-936X Impact factor: 9.028

29 in total

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3. Systematic evaluation of land use regression models for NO₂.

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4. Predicting Intra-Urban Variation in Air Pollution Concentrations with Complex Spatio-Temporal Dependencies.

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5. Development of Long-term Spatiotemporal Models for Ambient Ozone in Six Metropolitan regions of the United States: The MESA Air Study.

Authors: Meng Wang; Joshua P Keller; Sara D Adar; Sun-Young Kim; Timothy V Larson; Casey Olives; Paul D Sampson; Lianne Sheppard; Adam A Szpiro; Sverre Vedal; Joel D Kaufman
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6. Spatiotemporal air pollution exposure assessment for a Canadian population-based lung cancer case-control study.

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Review 8. Long-term air pollution exposure and cardio- respiratory mortality: a review.

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Authors: Ariane Adam-Poupart; Allan Brand; Michel Fournier; Michael Jerrett; Audrey Smargiassi
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3. A System for Developing and Projecting PM_2.5 Spatial Fields to Correspond to Just Meeting National Ambient Air Quality Standards.

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4. Development and Evaluation of Spatio-Temporal Air Pollution Exposure Models and Their Combinations in the Greater London Area, UK.

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6. An Ensemble Learning Approach for Estimating High Spatiotemporal Resolution of Ground-Level Ozone in the Contiguous United States.

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7. Estimating US Background Ozone Using Data Fusion.

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Review 8. Fine-Scale Air Pollution Models for Epidemiologic Research: Insights From Approaches Developed in the Multi-ethnic Study of Atherosclerosis and Air Pollution (MESA Air).

Authors: Kipruto Kirwa; Adam A Szpiro; Lianne Sheppard; Paul D Sampson; Meng Wang; Joshua P Keller; Michael T Young; Sun-Young Kim; Timothy V Larson; Joel D Kaufman
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Review 9. Design of an Air Pollution Monitoring Campaign in Beijing for Application to Cohort Health Studies.

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10. Concentrations of criteria pollutants in the contiguous U.S., 1979 - 2015: Role of prediction model parsimony in integrated empirical geographic regression.

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10 in total