1. Identification and Chemical Characteristics of Distinctive Chinese Outflow Plumes Associated with Enhanced Submicron Aerosols at the Gosan Climate Observatory
- Author
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Sang Woo Kim, Meehye Lee, Eunha Kang, Jihyun Han, Lim-Seok Chang, Xiaona Shang, and Örjan Gustafsson
- Subjects
Pollution ,geography ,geography.geographical_feature_category ,Haze ,010504 meteorology & atmospheric sciences ,media_common.quotation_subject ,Dry lake ,010501 environmental sciences ,Atmospheric sciences ,01 natural sciences ,Plume ,Observatory ,Climatology ,Environmental Chemistry ,Mass concentration (chemistry) ,Outflow ,Chemical composition ,Geology ,0105 earth and related environmental sciences ,media_common - Abstract
From October till November in 2010 and during March of 2011, when Chinese outflow events were frequently encountered, the chemical composition of submicron particles (PM1.0) was determined hourly using a particle-into-liquid sampler at the Gosan Climate Observatory. Three distinctive pollution plume types were identified: haze aerosols impacted by biomass combustion, nanoparticle bursts associated with outflow from Beijing, and saline soil particles from salt deposits. The highest PM1.0 concentration was observed in a fall haze event, under near-stagnant high-pressure synoptic conditions that were characterized by the lowest visibility ( 104 cm–3 with highly elevated SO2 levels, even during the night. When air masses move rapidly from northeastern China to Gosan under strong wind conditions, the Ca2+ concentration, along with that of Cl– and Na+, is enhanced in PM1.0, which is attributed to the influence of saline transport from dry lakes. The results of this study reveal compositional details and information on both number and mass concentration for different PM1.0 plumes from anthropogenic and natural sources, all of which are associated with different kinds of Chinese outflow events.
- Published
- 2018
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