US EPA

3477257 

Journal Article 

Aerosol vertical distribution over east China from RIEMS-Chem simulation in comparison with CALIPSO measurements 

Li, J; Han, Z 

2016 

1 

Atmospheric Environment
ISSN: 1352-2310
EISSN: 1873-2844 

143 

177-189 

10.1016/j.atmosenv.2016.08.045 

WOS:000383932400016 

The horizontal and vertical distributions of aerosol extinction coefficient (AEC) and mass concentration over east China in October 2010 were investigated by using an online-coupled regional climate model and CALIPSO (Cloud-Aerosol Lidar and Infrared Pathfinder Satellite Observations) data. Model performance was evaluated comprehensively against ground observations of meteorological variables and PM10 concentrations and CALIPSO retrieved AEC profiles, which demonstrated a good ability of the model in simulating spatial distribution and evolution of aerosol concentration and optical properties. Severe pollution episodes were found over wide areas of east China during the study period, with the maximum mean PM-to concentration exceeding 200 mu g m(-3) in the Chongqing district and a part of the lower reaches of the Yellow River on 8-10 October. Both CALIPSO retrievals and model simulations revealed high AEC values (>= 1 km(-1)) often occurred within 2 km above ground over most areas of east China. AEC vertical profile in or in the vicinity of China major cities along CALIPSO orbit track exhibited two typical features: one was AEC reached its maximum (similar to 4 km(-1)) near the surface (<200 in) and decreased rapidly to < 0.1 km(-1) at altitudes above 1 kip, another one was AEC peaked at higher altitudes of about 0.5-1 km with a maximum up to 3 km(-1). AEC vertical profile was strongly dependent on vertical distribution of both aerosol concentration, composition and relative humidity. The vertical cross sections over typical regions of east China exhibited a decreasing AEC in magnitude from the continent to the China seas. Over the continent, AEC was either maximum near the surface or peaked at higher altitudes (0.5-1.0 km) due to increases of relative humidity or aerosol concentration in those regions, whereas over the seas of China, AEC profile was characterized by peak values at an altitude around 1 km, mainly due to an elevated relative humidity there, which favored rapid aerosol hygroscopic growth and consequently AEC increase. (C) 2016 Elsevier Ltd. All rights reserved. 

Online-coupled regional model; CALIPSO; Aerosol extinction coefficient; Aerosol mass concentration; Vertical distribution; East China