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Volume 2 Issue 4
Yuan, C.-S., Sau, C.-C., & Chen, M.-C. (2004). Influence of asian dusts on the physicochemical properties of atmospheric aerosols in taiwan district — using the penghu islands as an example. China Particuology, 2(4), 144-152. https://doi.org/10.1016/S1672-2515(07)60045-1
Influence of asian dusts on the physicochemical properties of atmospheric aerosols in taiwan district — using the penghu islands as an example
Chung-Shin Yuan *, Cheng-Chung Sau, Ming-Chung Chen
Institute of Environmental Engineering, Sun Yat-sen University, Kaohsiung 804, China
10.1016/S1672-2515(07)60045-1
Volume 2, Issue 4,
August 2004,
Pages 144-152
Received 12 July 2004, Accepted 19 July 2004, Available online 27 November 2007.
E-mail:
ycsngi@mail.nsysu.edu.tw
Highlights
Abstract
Using the Penghu Islands as an example, this study investigates the influence of Asian dusts on the physicochemical properties of atmospheric aerosols in Taiwan District in the year of 2002. An aerosol-sampling site was established at Xiaumen, the Penghu Islands, to collect sea level atmospheric aerosols for further analysis of their physicochemical properties. This study revealed that, during the sampling campaign, three Asian dust storms were transported from North China and Mongolia to the Penghu Islands. The mass concentrations of atmospheric aerosols, particularly PM2.5∼10, were generally 2∼3 times higher than the regular level. An increase of coarse particle mode in the size distribution of atmospheric aerosols further validated the invasion of Asian dusts. Moreover, the comparison of water-soluble ionic species, carbonaceous content, and metallic content of atmospheric aerosols indicated that Asian dusts could significantly influence the chemical properties of atmospheric aerosols in Taiwan District. A significant increase of Cl−, Br−, Na+, K+, SO42−, Mg2+ and Ca2+ concentration on coarse particle mode was observed. It suggested that not just natural soil dusts and oceanic spray, but also anthropogenic pollutants could accompany Asian dusts. Source apportionment of atmospheric aerosols indicated that the concentration (percentage) of aerosol particles contributed from soil dusts increased significantly from 20.98 μg·m−3 (29.2%) to 60.37 μg·m−3 (47.7%), and then decreased to the regular level of 22.44 μg·m−3 (28.2%).
Graphical abstract
Keywords
Asian dusts; aerosols; mass concentration; physicochemical properties
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