Health & Environmental Research Online (HERO)


Print Feedback Export to File
4439732 
Journal Article 
Air pollutant exposure field modeling using air quality model-data fusion methods and comparison with satellite AOD-derived fields: application over North Carolina, USA 
Huang, R; Zhai, X; Ivey, CE; Friberg, MD; Hu, X; Liu, Y; Di, Q; Schwartz, J; Mulholland, JA; Russell, AG 
2018 
Yes 
Air Quality, Atmosphere and Health
ISSN: 1873-9318
EISSN: 1873-9326 
11 
11-22 
English 
WOS:000422939300003 
In order to generate air-pollutant exposure fields for health studies, a data fusion (DF) approach is developed that combines observations from ambient monitors and simulated data from the Community Multiscale Air Quality (CMAQ) model. These resulting fields capture the spatiotemporal information provided by the air quality model, as well as the finer temporal scale variations from the pollutant observations and decrease model biases. Here, the approach is applied to develop daily concentration fields for PM2.5 total mass, five major particulate species (OC, EC, SO42-, NO3-, and NH4 (+)), and three gaseous pollutants (CO, NOx , and NO2) from 2006 to 2008 over North Carolina (USA). Several data withholding methods are then conducted to evaluate the data fusion method, and the results suggest that typical approaches may overestimate the ability of spatiotemporal estimation methods to capture pollutant concentrations in areas with limited or no monitors. The results show improvements in capturing spatial and temporal variability compared with CMAQ results. Evaluation tests for PM2.5 led to an R-2 of 0.95 (no withholding) and 0.82 when using 10% random data withholding. If spatially based data withholding is used, the R-2 is 0.73. Comparisons of DF-developed PM2.5 total mass concentration with the spatiotemporal fields derived from two other methods (both use satellite aerosol optical depth (AOD) data) find that, in this case, the data fusion fields have slightly less overall error, with an RMSE of 1.28 compared with 3.06 mu g/m(3) (two-stage statistical model) and 2.74 (neural network-based hybrid model). Applying the Integrated Mobile Source Indicator (IMSI) method shows that the data fusion fields can be used to estimate mobile source impacts. Overall, the growing availability of chemically detailed air quality model fields and the accuracy of the DF field, suggest that this approach is better able to provide spatiotemporal pollutant fields for gaseous and speciated particulate pollutants for health and planning studies. 
Ambient air pollution; Spatiotemporal pollutant fields; Data fusion; CMAQ 
• ISA-PM (2019)
     1st Draft
          Chapter 3
     In Scope
          Exposure
     Final ISA
          Chapter 3
• LitSearch-NOx (2024)
     Forward Citation Search
          Exposure
               Results
                    Error Sources
                         WoS
                    Confounding
                         WoS
     Keyword Search
          Exposure
               PIA
                    WoS
               Error Sources
                    WoS