Study of aerosol optical properties at Kunming in southwest China and long-range transport of biomass burning aerosols from North Burma

Abstract

Seasonal variation of aerosol optical properties and dominant aerosol types at Kunming (KM), an urban site in southwest China, is characterized. Substantial influences of the hygroscopic growth and long-range transport of biomass burning (BB) aerosols on aerosol optical properties at KM are revealed. These results are derived from a detailed analysis of (a) aerosol optical properties (e.g. aerosol optical depth (AOD), columnar water vapor (CWV), single scattering albedo (SSA) and size distribution) retrieved from sunphotometer measurements during March 2012–August 2013, (b) satellite AOD and active fire products, (c) the attenuated backscatter profiles from the space-born lidar, and (d) the back-trajectories. The mean AOD440nm and extinction Angstrom exponent (EAE440−870) at KM are 0.42±0.32 and 1.25±0.35, respectively. Seasonally, high AOD440nm (0.51±0.34), low EAE440−870 (1.06±0.34) and high CWV (4.25±0.97cm) during the wet season (May – October) contrast with their counterparts 0.17±0.11, 1.40±0.31 and 1.91±0.37cm during the major dry season (November–February) and 0.53±0.29, 1.39±0.19, and 2.66±0.44cm in the late dry season (March–April). These contrasts between wet and major dry season, together with the finding that the fine mode radius increases significantly with AOD during the wet season, suggest the importance of the aerosol hygroscopic growth in regulating the seasonal variation of aerosol properties. BB and Urban/Industrial (UI) aerosols are two major aerosol types. Back trajectory analysis shows that airflows on clean days during the major dry season are often from west of KM where the AOD is low. In contrast, air masses on polluted days are from west (in late dry season) and east (in wet season) of KM where the AOD is often large. BB air mass is found mostly originated from North Burma where BB aerosols are lifted upward to 5km and then subsequently transported to southwest China via prevailing westerly winds.