Litcius/Paper detail

Simulation of Neighborhood‐Scale Air Quality With Two‐Way Coupled WRF‐CMAQ Over Southern Lake Michigan‐Chicago Region

Anastasia Montgomery, Jordan Schnell, Zachariah Adelman, M. Janssen, Daniel E. Horton

2023Journal of Geophysical Research Atmospheres21 citationsDOIOpen Access PDF

Abstract

Abstract The southern Lake Michigan region of the United States, home to Chicago, Milwaukee, and other densely populated Midwestern cities, frequently experiences high pollutant episodes with unevenly distributed exposure and health burdens. Using the two‐way coupled Weather Research Forecast and Community Multiscale Air Quality Model (WRF‐CMAQ), we investigate criteria pollutants over a southern Lake Michigan domain using 1.3 and 4 km resolution hindcast simulations. We assess WRF‐CMAQ's performance using data from the National Climatic Data Center and Environmental Protection Agency Air Quality System. Our 1.3 km simulation slightly improves on the 4 km simulation's meteorological and chemical performance while also resolving key details in areas of high exposure and impact, that is, urban environments. At 1.3 km, we find that most air quality‐relevant meteorological components of WRF‐CMAQ perform at or above community benchmarks. WRF‐CMAQ's chemical performance also largely meets community standards, with substantial nuance depending on the performance metric and component assessed. For example, hourly simulated NO 2 and O 3 are highly correlated with observations ( r > 0.6) while PM 2.5 is less so ( r = 0.4). Similarly, hourly simulated NO 2 and PM 2.5 have low biases (<10%), whereas O 3 biases are larger (>30%). Simulated spatial pollutant patterns show distinct urban‐rural footprints, with urban NO 2 and PM 2.5 20%–60% higher than rural, and urban O 3 6% lower. We use our 1.3 km simulations to resolve high‐pollution areas within individual urban neighborhoods and characterize seasonal changes in O 3 regimes across tight spatial gradients. Our findings demonstrate both the benefits and limitations of high‐resolution simulations, particularly over urban settings.

Topics & Concepts

CMAQWeather Research and Forecasting ModelAir quality indexEnvironmental scienceMeteorologyPollutantAir pollutionClimatologyAtmospheric sciencesGeographyGeologyChemistryOrganic chemistryAtmospheric chemistry and aerosolsAir Quality and Health ImpactsAtmospheric and Environmental Gas Dynamics