Assessment of bias-adjusted PM2.5 air quality forecasts over the continental United States during 2007

D. Kang, R. Mathur, S. Trivikrama Rao
2010 Geoscientific Model Development  
To develop fine particulate matter (PM 2.5 ) air quality forecasts for the US, a National Air Quality Forecast Capability (NAQFC) system, which linked NOAA's North American Mesoscale (NAM) meteorological model with EPA's Community Multiscale Air Quality (CMAQ) model, was deployed in the developmental mode over the continental United States during 2007. This study investigates the operational use of a bias-adjustment technique called the Kalman Filter Predictor approach for improving the
more » ... proving the accuracy of the PM 2.5 forecasts at monitoring locations. The Kalman Filter Predictor bias-adjustment technique is a recursive algorithm designed to optimally estimate bias-adjustment terms using the information extracted from previous measurements and forecasts. The bias-adjustment technique is found to improve PM 2.5 forecasts (i.e. reduced errors and increased correlation coefficients) for the entire year at almost all locations. The NAQFC tends to overestimate PM 2.5 during the cool season and underestimate during the warm season in the eastern part of the continental US domain, but the opposite is true for the Pacific Coast. In the Rocky Mountain region, the NAQFC system overestimates PM 2.5 for the whole year. The biasadjusted forecasts can quickly (after 2-3 days' lag) adjust to reflect the transition from one regime to the other. The modest computational requirements and systematic improvements in forecast outputs across all seasons suggest that this technique can be easily adapted to perform bias adjustment for real-time PM 2.5 air quality forecasts.
doi:10.5194/gmd-3-309-2010 fatcat:kitymopnebdaziuyl7p3feqepi