Characteristics of classified aerosol types in South Korea during the MAPS-Seoul campaign

Seoyoung Lee; Jaemin Hong; Yeseul Cho; Myungje Choi; Jhoon Kim; Sang Seo Park; Joon Young Ahn; Sang Kyun Kim; Kyung Jung Moon; Thomas F. Eck; Brent N. Holben; Ja Ho Koo

doi:10.4209/aaqr.2017.11.0474

Characteristics of classified aerosol types in South Korea during the MAPS-Seoul campaign

Seoyoung Lee, Jaemin Hong, Yeseul Cho, Myungje Choi, Jhoon Kim, Sang Seo Park, Joon Young Ahn, Sang Kyun Kim, Kyung Jung Moon, Thomas F. Eck, Brent N. Holben, Ja Ho Koo

Research output: Contribution to journal › Article › peer-review

14 Citations (Scopus)

Abstract

During the Megacity Air Pollution Studies-Seoul (MAPS-Seoul) campaign from May to June 2015, aerosol optical properties in Korea were obtained based on the AERONET sunphotometer measurement at five sites (Anmyon, Gangneung_WNU, Gosan_SNU, Hankuk_UFS, and Yonsei_University). Using this dataset, we examine regional aerosol types by applying a number of known aerosol classification methods. We thoroughly utilize five different methods to categorize the regional aerosol types and evaluate the results from each method by inter-comparison. The differences and similarities among the results are also discussed, contingent upon the usage of AERONET inversion products, such as the single scattering albedo. Despite several small differences, all five methods suggest the same general features in terms of the regionally dominant aerosol type: Fine-mode aerosols with highly absorbing radiative properties dominate at Hankuk_UFS and Yonsei_University; non-absorbing fine-mode particles form a large portion of the aerosol at Gosan_SNU; and coarse-mode particles cause some effects at Anmyon. The analysis of 3-day back-trajectories is also performed to determine the relationship between classified types at each site and the regional transport pattern. In particular, the spatiotemporally short-scale transport appears to have a large influence on the local aerosol properties. As a result, we find that the domestic emission in Korea significantly contributes to the high dominance of radiation-absorbing aerosols in the Seoul metropolitan area and the air-mass transport from China largely affects the western coastal sites, such as Anmyon and Gosan_SNU.

Original language	English
Pages (from-to)	2195-2206
Number of pages	12
Journal	Aerosol and Air Quality Research
Volume	18
Issue number	9
DOIs	https://doi.org/10.4209/aaqr.2017.11.0474
Publication status	Published - 2018 Sept

Bibliographical note

Funding Information:
This subject was funded by Korea Ministry of Environment (MOE) as the Public Technology Program based on Environmental Policy (2017000160001). This research was also supported by the National Strategic Project-Fine Particle of the National Research Foundation of Korea (NRF) funded by the Ministry of Science and ICT (MSIT), the Ministry of Environment (ME), and the Ministry of Health and Welfare (MOHW) (NRF-2017M3D8A1092021). The authors gratefully acknowledge the NOAA Air Resources Laboratory (ARL) for the provision of the HYSPLIT transport and dispersion model and READY website (http://www.ready.noaa.gov) used in this publication. We also thank the AERONET principal investigators (Drs. Chulkyu Lee, Kyu-Tae Lee, Sang-Woo Kim, Young Sung Ghim, and Jhoon Kim) and their staff for establishing and maintaining the Anmyon, Gangneung_WNU, Gosan_SNU, Hankuk_UFS and Yonsei_University sites used in this study.

Publisher Copyright:
© Taiwan Association for Aerosol Research.

All Science Journal Classification (ASJC) codes

Environmental Chemistry
Pollution

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10.4209/aaqr.2017.11.0474

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@article{b612e8162b664b9babd19ecd1f3d2863,

title = "Characteristics of classified aerosol types in South Korea during the MAPS-Seoul campaign",

abstract = "During the Megacity Air Pollution Studies-Seoul (MAPS-Seoul) campaign from May to June 2015, aerosol optical properties in Korea were obtained based on the AERONET sunphotometer measurement at five sites (Anmyon, Gangneung_WNU, Gosan_SNU, Hankuk_UFS, and Yonsei_University). Using this dataset, we examine regional aerosol types by applying a number of known aerosol classification methods. We thoroughly utilize five different methods to categorize the regional aerosol types and evaluate the results from each method by inter-comparison. The differences and similarities among the results are also discussed, contingent upon the usage of AERONET inversion products, such as the single scattering albedo. Despite several small differences, all five methods suggest the same general features in terms of the regionally dominant aerosol type: Fine-mode aerosols with highly absorbing radiative properties dominate at Hankuk_UFS and Yonsei_University; non-absorbing fine-mode particles form a large portion of the aerosol at Gosan_SNU; and coarse-mode particles cause some effects at Anmyon. The analysis of 3-day back-trajectories is also performed to determine the relationship between classified types at each site and the regional transport pattern. In particular, the spatiotemporally short-scale transport appears to have a large influence on the local aerosol properties. As a result, we find that the domestic emission in Korea significantly contributes to the high dominance of radiation-absorbing aerosols in the Seoul metropolitan area and the air-mass transport from China largely affects the western coastal sites, such as Anmyon and Gosan_SNU.",

author = "Seoyoung Lee and Jaemin Hong and Yeseul Cho and Myungje Choi and Jhoon Kim and Park, {Sang Seo} and Ahn, {Joon Young} and Kim, {Sang Kyun} and Moon, {Kyung Jung} and Eck, {Thomas F.} and Holben, {Brent N.} and Koo, {Ja Ho}",

note = "Funding Information: This subject was funded by Korea Ministry of Environment (MOE) as the Public Technology Program based on Environmental Policy (2017000160001). This research was also supported by the National Strategic Project-Fine Particle of the National Research Foundation of Korea (NRF) funded by the Ministry of Science and ICT (MSIT), the Ministry of Environment (ME), and the Ministry of Health and Welfare (MOHW) (NRF-2017M3D8A1092021). The authors gratefully acknowledge the NOAA Air Resources Laboratory (ARL) for the provision of the HYSPLIT transport and dispersion model and READY website (http://www.ready.noaa.gov) used in this publication. We also thank the AERONET principal investigators (Drs. Chulkyu Lee, Kyu-Tae Lee, Sang-Woo Kim, Young Sung Ghim, and Jhoon Kim) and their staff for establishing and maintaining the Anmyon, Gangneung_WNU, Gosan_SNU, Hankuk_UFS and Yonsei_University sites used in this study. Publisher Copyright: {\textcopyright} Taiwan Association for Aerosol Research.",

year = "2018",

month = sep,

doi = "10.4209/aaqr.2017.11.0474",

language = "English",

volume = "18",

pages = "2195--2206",

journal = "Aerosol and Air Quality Research",

issn = "1680-8584",

publisher = "AAGR Aerosol and Air Quality Research",

number = "9",

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T1 - Characteristics of classified aerosol types in South Korea during the MAPS-Seoul campaign

AU - Lee, Seoyoung

AU - Hong, Jaemin

AU - Cho, Yeseul

AU - Choi, Myungje

AU - Kim, Jhoon

AU - Park, Sang Seo

AU - Ahn, Joon Young

AU - Kim, Sang Kyun

AU - Moon, Kyung Jung

AU - Eck, Thomas F.

AU - Holben, Brent N.

AU - Koo, Ja Ho

N1 - Funding Information: This subject was funded by Korea Ministry of Environment (MOE) as the Public Technology Program based on Environmental Policy (2017000160001). This research was also supported by the National Strategic Project-Fine Particle of the National Research Foundation of Korea (NRF) funded by the Ministry of Science and ICT (MSIT), the Ministry of Environment (ME), and the Ministry of Health and Welfare (MOHW) (NRF-2017M3D8A1092021). The authors gratefully acknowledge the NOAA Air Resources Laboratory (ARL) for the provision of the HYSPLIT transport and dispersion model and READY website (http://www.ready.noaa.gov) used in this publication. We also thank the AERONET principal investigators (Drs. Chulkyu Lee, Kyu-Tae Lee, Sang-Woo Kim, Young Sung Ghim, and Jhoon Kim) and their staff for establishing and maintaining the Anmyon, Gangneung_WNU, Gosan_SNU, Hankuk_UFS and Yonsei_University sites used in this study. Publisher Copyright: © Taiwan Association for Aerosol Research.

PY - 2018/9

Y1 - 2018/9

N2 - During the Megacity Air Pollution Studies-Seoul (MAPS-Seoul) campaign from May to June 2015, aerosol optical properties in Korea were obtained based on the AERONET sunphotometer measurement at five sites (Anmyon, Gangneung_WNU, Gosan_SNU, Hankuk_UFS, and Yonsei_University). Using this dataset, we examine regional aerosol types by applying a number of known aerosol classification methods. We thoroughly utilize five different methods to categorize the regional aerosol types and evaluate the results from each method by inter-comparison. The differences and similarities among the results are also discussed, contingent upon the usage of AERONET inversion products, such as the single scattering albedo. Despite several small differences, all five methods suggest the same general features in terms of the regionally dominant aerosol type: Fine-mode aerosols with highly absorbing radiative properties dominate at Hankuk_UFS and Yonsei_University; non-absorbing fine-mode particles form a large portion of the aerosol at Gosan_SNU; and coarse-mode particles cause some effects at Anmyon. The analysis of 3-day back-trajectories is also performed to determine the relationship between classified types at each site and the regional transport pattern. In particular, the spatiotemporally short-scale transport appears to have a large influence on the local aerosol properties. As a result, we find that the domestic emission in Korea significantly contributes to the high dominance of radiation-absorbing aerosols in the Seoul metropolitan area and the air-mass transport from China largely affects the western coastal sites, such as Anmyon and Gosan_SNU.

AB - During the Megacity Air Pollution Studies-Seoul (MAPS-Seoul) campaign from May to June 2015, aerosol optical properties in Korea were obtained based on the AERONET sunphotometer measurement at five sites (Anmyon, Gangneung_WNU, Gosan_SNU, Hankuk_UFS, and Yonsei_University). Using this dataset, we examine regional aerosol types by applying a number of known aerosol classification methods. We thoroughly utilize five different methods to categorize the regional aerosol types and evaluate the results from each method by inter-comparison. The differences and similarities among the results are also discussed, contingent upon the usage of AERONET inversion products, such as the single scattering albedo. Despite several small differences, all five methods suggest the same general features in terms of the regionally dominant aerosol type: Fine-mode aerosols with highly absorbing radiative properties dominate at Hankuk_UFS and Yonsei_University; non-absorbing fine-mode particles form a large portion of the aerosol at Gosan_SNU; and coarse-mode particles cause some effects at Anmyon. The analysis of 3-day back-trajectories is also performed to determine the relationship between classified types at each site and the regional transport pattern. In particular, the spatiotemporally short-scale transport appears to have a large influence on the local aerosol properties. As a result, we find that the domestic emission in Korea significantly contributes to the high dominance of radiation-absorbing aerosols in the Seoul metropolitan area and the air-mass transport from China largely affects the western coastal sites, such as Anmyon and Gosan_SNU.

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Characteristics of classified aerosol types in South Korea during the MAPS-Seoul campaign

Abstract

Bibliographical note

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