[KSCI] Korea Science Citation Index Service

http://dx.doi.org/10.5572/KOSAE.2017.33.2.124

Physico-chemical Characteristics of Submicron Aerosol at West Inflow Regions in the Korean Peninsula III. Physical-Chemical Behavior and Long-range Transport of PM₁

Park, Taehyun (Department of Environmental Science, Hankuk University of Foreign Studies)
Ahn, Junyoung (Air Quality Research Division, National Institute of Environmental Research)
Choi, Jinsoo (Air Quality Research Division, National Institute of Environmental Research)
Lim, Yongjae (Air Quality Forecasting Division, National Institute of Environmental Research)
Park, Jinsoo (Air Quality Research Division, National Institute of Environmental Research)
Kim, Jeongho (APM Engineering Co., Ltd.)
Oh, Jun (Air Quality Research Division, National Institute of Environmental Research)
Lee, Yonghwan (Department of Environmental Science, Hankuk University of Foreign Studies)
Hong, Youdeog (Air Quality Research Division, National Institute of Environmental Research)
Hong, Jihyung (Air Quality Research Division, National Institute of Environmental Research)
Choi, Yongjoo (Department of Environmental Science, Hankuk University of Foreign Studies)
Lee, Taehyoung (Department of Environmental Science, Hankuk University of Foreign Studies)

Publication Information

Journal of Korean Society for Atmospheric Environment / v.33, no.2, 2017 , pp. 124-138 More about this Journal

Abstract

Physico-chemical measurement of non-refractory submicron particles( $NR-PM_1$ ) was conducted in Baengnyeong Island, Korea using Aerodyne High Resolution Time of Flight Aerosol Mass Spectrometer (HR-ToF-AMS) from 2012 to 2014. Organics and ammoniated sulfate were dominant species in $NR-PM_1$ . The organics was found to have similar fractions(approximate 40%) of $NR-PM_1$ during the summer and winter, while the sulfate fractions of $NR-PM_1$ were calculated to be approximately 47% and 31% for the summer and winter, respectively, suggesting the possibility that particles provide non-acidic surfaces for condensation of nitric acid in the winter. The nitrate fractions of approximate 4% and 20% of $NR-PM_1$ were observed in August (summer) and November (winter), respectively, resulting that the relatively low concentration of sulfate in $NR-PM_1$ provided a non-acidic surface for nitric acid condensation and formation of particulate ammoniated nitrate is favored thermodynamically in winter. The new particle formation (NPF) event and particle growth rate were analyzed for each month in 2014 using Scanning Mobility Particle Sizer(SMPS). The Percent of NPF events was the highest in winter, but NPF event was not observed during summer due to relatively high temperature and frequent rainfall. The average particle growth rate was 3.5 nm/h and the highest particle growth rate was 5.5 nm/h in May. We observed the long-range transport of the anthropogenic sulfate from the East Asia during the intensive monitoring period of November between Qingdao and Baengnyeong Island in 2013. The relatively high concentrations of m/z 60 measured in HR-ToF-AMS was observed in May and June at Baengnyeong Island, suggesting the possibility of the influence of biomass burning from the East Asia to the Korean Peninsula.

Keywords

HR-ToF-AMS; $NR-PM_1$ ; Biomass burning; Aerosol;

Citations & Related Records

Times Cited By KSCI : 2 (Citation Analysis)

Reference
Cited By KSCI

1	Alfarra, M.R., H. Coe, J.D. Allan, K.N. Bower, H. Boudries, M.R. Canagaratna, J.L. Jimenez, J.T. Jayne, A. Garforth, S.M. Li, and D.R. Worsnop (2004) Characterization of Urban and Rural Organic Aerosols In the Lower Fraser Valley Using Two Aerodyne Particulate Mass Spectrometers, Atmospheric Environment, 38, 5745-5758. DOI
2	Canagaratna, M., J. Jayne, J.L. Jimenez, J. Allan, M. Alfarra, Q. Zhang, T. Onasch, F. Drewnick, H. Coe, and A.M. Middlebrook (2007) Chemical and microphysical characterization of ambient aerosols with the aerodyne aerosol mass spectrometer, Mass Spectrometry Reviews, 26, 185-222. DOI
3	Chen, Y., Y.F. Cheng, S. Nordmann, W. Birmili, H.A.C. Denier van der Gon, N. Ma, R. Wolke, B. Wehner, J. Sun, G. Spindler, Q. Mu, U. Pöschl, H. Su, and A. Wiedensohler (2016) Evaluation of the size segregation of elemental carbon (EC) emission in Europe: influence on the simulation of EC longrange transportation, Atmospheric Chemistry and Physics, 16, 1823-1835. DOI
4	Choi, J., J. Kim, T. Lee, Y. Choi, T. Park, J. Oh, J. Park, J. Ahn, H. Jeon, Y. Koo, S. Kim, Y. Hong, and J. Hong (2016a) A Study on Chemical Characteristics of Aerosol Composition at West Inflow Regions in the Korean Peninsula I. Characteristics of PM Concentration and Chemical Components. Journal of Korean Society for Atmospheric Environment, 32(5), 469-484. (in Korean with English abstract) DOI
5	Choi, J., J. Kim, T. Lee, Y. Choi, T. Park, J. Ahn, J. Park, H. Kim, Y. Koo, S. Kim, Y. Hong, and J. Hong (2016b) A Study on Chemical Characteristics of Aerosol Composition at West Inflow Regions in the Korean Peninsula, II. Characteristics of Inorganic Aerosol Acidity and Organic Aerosol Oxidation, Journal of Korean Society for Atmospheric Environment, 32(5), 485-500. (in Korean with English abstract) DOI
6	Cubison, M.J., A.M. Ortega, P.L. Hayes, D.K. Farmer, D. Day, M.J. Lechner, W.H. Brune, E. Apel, G.S. Diskin, J.A. Fisher, H.E. Fuelberg, A. Hecobian, D.J. Knapp, T. Mikoviny, D. Riemer, G.W. Sachse, W. Sessions, R.J. Weber, A.J. Weinheimer, A. Wisthaler, and J.L. Jimenez (2011) Effects of aging on organic aerosol from open biomass burning smoke in aircraft and laboratory studies, Atmospheric Chemistry and Physics, 11, 12049-12064. DOI
7	DeCarlo, P.F., J.R. Kimmel, A. Trimborn, M.J. Northway, J.T. Jayne, A.C. Aiken, M. Gonin, K. Fuhrer, T. Horvath, and K.S. Docherty (2006) Field-deployable, high-resolution, time-of-flight aerosol mass spectrometer, Analytical Chemistry, 78, 8281-8289. DOI
8	Drewnick, F., S.S. Hings, J. Curtius, G. Eerdekens, and J. Williams (2006) Measurement of fine particulate and gas-phase species during the New Year's fireworks 2005 in Mainz, Germany, Atmospheric Environment, 40, 4316-4327. DOI
9	Drewnick, F., S.S. Hings, P. DeCarlo, J.T. Jayne, M. Gonin, K. Fuhrer, S. Weimer, J.L. Jimenez, K.L. Demerjian, and S. Borrmann (2005) A new time-of-flight aerosol mass spectrometer (TOF-AMS) Instrument description and first field deployment, Aerosol Science and Technology, 39, 637-658. DOI
10	Guo, H., D.W. Wang, K. Cheung, Z.H. Ling, C.K. Chan, and X.H. Yao (2012) Observation of aerosol size distribution and new particle formation at a mountain site in subtropical Hong Kong, Atmospheric Chemistry and Physics, 12, 9923-9939. DOI
11	He, L.Y., Y. Lin, X.F. Huang, S. Guo, L. Xue, Q. Su, M. Hu, S.J. Luan, and Y.H. Zhang (2010) Characterization of high-resolution aerosol mass spectra of primary organic aerosol emissions from Chinese cooking and biomass burning, Atmospheric Chemistry and Physics, 10, 11535-11543. DOI
12	Iwamoto, Y., K. Kinouchi, K. Watanabe, N. Yamazaki and A. Matsuki (2016) Simultaneous Measurement of CCN Activity and Chemical Composition of Fine-Mode Aerosols at Noto Peninsula, Japan, in Autumn 2012, Aerosol and Air Quality Research, 16, 2107-2118. DOI
13	He, Z., Y. Kim, K. Ogunjobi, and C. Hong (2003) Characteristics of $PM_{2.5}$ species and long-range transport of air masses at Taean background station, South Korea, Atmospheric Environment, 37, 219-230. DOI
14	Hennigan, C.J., M.A. Miracolo, G.J. Engelhart, A.A. May, A.A. Presto, T. Lee, A.P. Sullivan, G.R. McMeeking, H. Coe, C.E. Wold, W.M. Hao, J.B. Gilman, W.C. Kuster, J. de Gouw, B.A. Schichtel, J.L. Collett Jr, S.M. Kreidenweis, and A.L. Robinson (2011) Chemical and physical transformations of organic aerosol from the photo-oxidation of open biomass burning emissions in an environmental chamber, Atmospheric Chemistry and Physics, 11, 7669-7686. DOI
15	Huffman, J.A., J.T. Jayne, F. Drewnick, A.C. Aiken, T. Onasch, D.R. Worsnop, and J.L. Jimenez (2005) Design, Modeling, Optimization, and Experimental Tests of a Particle Beam Width Probe for the Aerodyne Aerosol Mass Spectrometer. Aerosol Science and Technology, 39(12), 1143-1163. DOI
16	Jayne, J.T., D.C. Leard, X. Zhang, P. Davidovits, K.A. Smith, C.E. Kolb, and D.R. Worsnop (2000) Development of an Aerosol Mass Spectrometer for Size and Composition Analysis of Submicron Particles, Aerosol Science and Technology, 33, 49-70. DOI
17	Jeong, C.H., G.J. Evans, M.L. McGuire, R.Y.W. Chang, J.P.D. Abbatt, K. Zeromskiene, M. Mozurkewich, S.M. Li, and W.R. Leaitch (2010) Particle formation and growth at five rural and urban sites, Atmospheric Chemistry and Physics, 10, 7979-7995. DOI
18	Khoder, M.I. (2002) Atmospheric conversion of sulfur dioxide to particulate sulfate and nitrogen dioxide to particulate nitrate and gaseous nitric acid in an urban area, Chemosphere, 49, 675-684. DOI
19	Jimenez, J.L., J.T. Jayne, Q. Shi, C.E. Kolb, D.R. Worsnop, I. Yourshaw, J.H. Seinfeld, R.C. Flagan, X. Zhang, and K.A. Smith (2003) Ambient aerosol sampling using the aerodyne aerosol mass spectrometer. Journal of Geophysical Research: Atmospheres (1984-2012), 108, D7, 8425. DOI
20	Khan, M.F., Y. Shirasuna, K. Hirano, and S. Masunaga (2010) Characterization of $PM_{2.5}$ , $PM_{2.5-10}$ and PM>10 in ambient air, Yokohama, Japan, Atmospheric Research, 96, 159-172. DOI
21	Li, Y.J., B.P. Lee, L. Su, J.C.H. Fung, and C.K. Chan (2015) Seasonal characteristics of fine particulate matter (PM) based on high-resolution time-of-flight aerosol mass spectrometric (HR-ToF-AMS) measurements at the HKUST Supersite in Hong Kong, Atmospheric Chemistry and Physics, 15, 37-53. DOI
22	Lee, J.Y., Y.P. Kim, and C.-H. Kang (2011) Characteristics of the ambient particulate PAHs at Seoul, a mega city of Northeast Asia in comparison with the characteristics of a background site, Atmospheric Research, 99(1), 50-56. DOI
23	Lee, T., A.P. Sullivan, L. Mack, J.L. Jimenez, S.M. Kreidenweis, T.B. Onasch, D.R. Worsnop, W. Malm, C.E. Wold, W.M. Hao, and J.L. Collett (2010) Chemical Smoke Marker Emissions During Flaming and Smoldering Phases of Laboratory Open Burning of Wildland Fuels, Aerosol Science and Technology 44, i-v.
24	Lee, T., J. Choi, G. Lee, J. Ahn, J. Park, S.A. Atwood, M. Schurman, Y. Choi, Y. Chung, and J.L. Collett Jr (2015) Characterization of aerosol composition, concentrations, and sources at Baengnyeong Island, Korea using an aerosol mass spectrometer, Atmospheric Environment, 120, 297-306. DOI
25	Oh, H.-R., C.-H. Ho, J. Kim, D. Chen, S. Lee, Y.-S. Choi, L.-S. Chang, and C.-K. Song (2015) Long-range transport of air pollutants originating in China: A possible major cause of multi-day high- $PM_{10}$ episodes during cold season in Seoul, Korea, Atmospheric Environment, 109, 23-30. DOI
26	Matthew, B.M., A.M. Middlebrook, and T.B. Onasch (2008) Collection Efficiencies in an Aerodyne Aerosol Mass Spectrometer as a Function of Particle Phase for Laboratory Generated Aerosols, Aerosol Science and Technology, 42, 884-898. DOI
27	Middlebrook, A.M., R. Bahreini, J.L. Jimenez, and M.R. Canagaratna (2012) Ecaluation of Composirion-Dependent Collection Efficiencies for the Aerodyne Aerosol Mass Spectrometer using Field Data, Aerosol Sicence and Technology, 46, 258-271. DOI
28	Mugica, V., E. Ortiz, L. Molina, A. De Vizcaya-Ruiz, A. Nebot, R. Quintana, J. Aguilar, and E. Alcantara (2009) PM composition and source reconciliation in Mexico City, Atmospheric Environment, 43, 5068-5074. DOI
29	Oravisjarvi, K., K. Timonen, T. Wiikinkoski, A. Ruuskanen, K. Heinanen, and J. Ruuskanen (2003) Source contributions to $PM_{2.5}$ particles in the urban air of a town situated close to a steel works. Atmospheric Environment, 37, 1013-1022. DOI
30	Park, S.-U. and Y.-H. Lee (2002) Spatial distribution of wet deposition of nitrogen in South Korea. Atmospheric Environment, 36, 619-628. DOI
31	Richter, A., J.P. Burrows, H. Nusz, C. Granier, and U. Niemeier (2005) Increase in tropospheric nitrogen dioxide over China observed from space. Nature, 437, 129-132. DOI
32	Zhang, J.K., Y. Sun, Z.R. Liu, D.S. Ji, B. Hu, Q. Liu and Y.S. Wang (2014) Characterization of submicron aerosols during a month of serious pollution in Beijing, 2013. Atmospheric Chemistry and Physics, 14, 2887-2903. DOI
33	Rose, D., S.S. Gunthe, H. Su, R.M. Garland, H. Yang, M. Berghof, Y.F. Cheng, B. Wehner, P. Achtert, A. Nowak, A. Wiedensohler, N. Takegawa, Y. Kondo, M. Hu, Y. Zhang, M.O. Andreae, and U. Poschl (2011) Cloud condensation nuclei in polluted air and biomass burning smoke near the mega-city Guangzhou, China-Part 2: Size-resolved aerosol chemical composition, diurnal cycles, and externally mixed weakly CCN-active soot particles. Atmospheric Chemistry and Physics, 11, 2817-2836. DOI
34	Streets, D.G., N.Y. Tsai, H. Akimoto, and K. Oka (2001) Trends in emissions of acidifying species in Asia, 1985-1997. Water, air, and soil Pollution, 130, 187-192.
35	Sun, Y.L., Z.F. Wang, P.Q. Fu, T. Yang, Q. Jiang, H.B. Dong, J. Li and J.J. Jia (2013) Aerosol composition, sources and processes during wintertime in Beijing, China. Atmospheric Chemistry and Physics, 13, 4577-4592. DOI
36	Wilkening, K.E., L.A. Barrie, and M. Engle (2000) Trans-Pacific air pollution. Science, 290, 65-67. DOI