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Observed Evidence That Subsidence Process Stabilizes the Boundary Layer and Increases the Ground Concentration of Secondary Pollutants

Yu Shi, Qingcun Zeng, Lei Liu, Juntao Huo, Zhe Zhang, Weichen Ding, Fei Hu

2022Journal of Geophysical Research Atmospheres15 citationsDOI

Abstract

Abstract Subsidence in atmospheric boundary layer (ABL) appears to be rare and short‐lived, so it is very difficult to observe. In this paper, field experimental data from a large tethered balloon (1,900 m 3 ) synchronously measuring meteorological parameters and air pollutants, a ground‐based aerosol lidar, a Doppler wind lidar, and some other ground observations were used to analyze the formation mechanism of subsidence and its influences on the variation of meteorological parameters and pollutant concentrations of the ABL. Results show that the occurrence of subsidence was closely correlated with the cold advection accompanied by cold front. Pollutants were horizontally transported to the observation site driven by southwest low‐level jet. Under the influence of subsidence behind the cold front and turbulent kinetic energy transported toward the surface, the vertical downward transport of pollutants aloft lasted for nearly 5 hr. The observation data of the tethered balloon suspending at 500 m show that the concentrations of PM 2.5, NO 3 − , SO 4 2− , and NH 4 + increased simultaneously. O 3 concentration in the lower atmosphere also increased. Subsidence had significant effects on the secondary inorganic aerosol concentrations but the concentration of organic aerosols was not affected. Subsidence led to a stronger inversion layer, further suppressing the vertical dispersion of pollutants. Both the stronger subsidence‐induced inversion layer and the downward transport of pollutants have led to an increase in the ground PM 2.5 concentration. Our findings demonstrate the close connection between subsidence and air pollution process and may provide the scientific reference for air quality potential forecast.

Topics & Concepts

PollutantSubsidenceAtmospheric sciencesAerosolEnvironmental scienceBoundary layerPlanetary boundary layerAdvectionLidarInversion (geology)GeologyTurbulenceMeteorologyChemistryStructural basinGeomorphologyRemote sensingMechanicsOrganic chemistryThermodynamicsPhysicsAtmospheric aerosols and cloudsAtmospheric chemistry and aerosolsWind and Air Flow Studies