[KSCI] Korea Science Citation Index Service

http://dx.doi.org/10.5572/ajae.2016.10.3.146

Seasonal Variations in Mercury Deposition over the Yellow Sea, July 2007 through April 2008

Ghim, Young Sung (Department of Environmental Science, Hankuk University of Foreign Studies)
Oh, Hyun Sun (Department of Environmental Science, Hankuk University of Foreign Studies)
Kim, Jin Young (Green City Technology Institute, Korea Institute of Science and Technology)
Woo, Jung-Hun (College of Global Integrated Studies, Konkuk University)
Chang, Young-Soo (Environmental Science Division, Argonne National Laboratory)

Publication Information

Asian Journal of Atmospheric Environment / v.10, no.3, 2016 , pp. 146-155 More about this Journal

Abstract

Spatial and temporal variations of mercury, including dry and wet deposition fluxes, were assessed over Northeast Asia, targeting the Yellow Sea, using meteorology and chemistry models. Four modeling periods, each representative of one of the four seasons, were selected. Modeling results captured general patterns and behaviors, and fell within similar ranges with respect to observations. However, temporal variations of mercury were not closely matched, possibly owing to the effects of localized emissions. Modeling results indicated that dry deposition is correlated with wind speed, while wet deposition is correlated with precipitation amount. Overall, the wet deposition flux of $66ng/m^2-day$ was about twice as large as the dry deposition flux of $32ng/m^2-day$ , when averaged over the four modeling periods. Dry deposition occurred predominantly in the form of reactive gaseous mercury (RGM). In contrast, RGM accounted for only about two-thirds of wet deposition, while particulate mercury accounted for the remainder.

Keywords

CMAQ-Hg/WRF; Wet deposition; Dry deposition; Precipitation amount; Wind speed;

Citations & Related Records

Times Cited By KSCI : 2 (Citation Analysis)

Reference
Cited By KSCI

1	Ghim, Y.S., Jin, H.C. (2005) Measurement of nitrogen and sulfur deposition to Lake Paldang. Journal of Korean Society for Atmospheric Environment 21, 39-48. (in Korean with English abstract)
2	Ghim, Y.S., Kim, J.Y. (2002) Dry deposition of reactive nitrogen and sulfur compounds in the greater Seoul area. Korean Journal of Chemical Engineering 19, 52-60. DOI
3	Bullock Jr., O.R., Brehme, K.A. (2002) Atmospheric mercury simulation using the CMAQ model: formulation description and analysis of wet deposition results. Atmospheric Environment 36, 2135-2146. DOI
4	Bullock Jr., O.R., Brehme, K.A. (2006) Atmospheric mercury simulation with CMAQ version 4.5.1. 5th Annual CMAS Conference, Chapel Hill, NC, October 16-18.
5	Jiang, G.-B., Shi, J.-B., Feng, X.-B. (2006) Mercury pollution in China: An overview of the past and current sources of the toxic metal. Environmental Science & Technology 40, 3673-3678.
6	Kim, J.Y., Ghim, Y.S., Lee, S.B., Moon, K.-C., Shim, S.-G., Bae, G.N., Yoon, S.-C. (2010) Atmospheric deposition of nitrogen and sulfur in the Yellow Sea region: Significance of long-range transport in East Asia. Water, Air, & Soil Pollution 205, 259-272. DOI
7	KME (Korean Ministry of Environment) (2008) Environment White Paper.
8	Lin, C.-J., Pongprueksa, P., Lindberg, S.E., Pehkonen, S.O., Byun, D., Jang, C. (2006) Scientific uncertainties in atmospheric mercury models I: Model science evaluation. Atmospheric Environment 40, 2911-2928. DOI
9	Nguyen, D.L., Kim, J.Y., Shim, S.-G., Zhang, X.-S. (2011) Ground and shipboard measurements of atmospheric gaseous elemental mercury over the Yellow Sea region during 2007-2008. Atmospheric Environment 45, 253-260. DOI
10	Pacyna, E.G., Pacyna, J.M., Steenhuisen, F., Wilson, S. (2006) Global anthropogenic mercury emission inventory for 2000. Atmospheric Environment 40, 4048-4063. DOI
11	Pan, L., Chai, T., Carmichael, G.R., Tang, Y., Streets, D., Woo, J.-H., Friedli, H.R., Radke, L.F. (2007) Top-down estimate of mercury emissions in China using fourdimensional variational data assimilation. Atmospheric Environment 41, 2804-2819. DOI
12	Pan, L., Carmichael, G.R., Adhikary, B., Tang, Y., Streets, D., Woo, J.-H., Friedli, H.R., Radke, L.F. (2008) A regional analysis of the fate and transport of mercury in East Asia and an assessment of major uncertainties. Atmospheric Environment 42, 1144-1159. DOI
13	Pirrone, N., Cinnirella, S., Feng, X., Finkelman, R.B., Friedli, H.R., Leaner, J., Mason, R., Mukherjee, A.B., Stracher, G.B., Streets, D.G., Telmer, K. (2010) Global mercury emissions to the atmosphere from anthropogenic and natural sources. Atmospheric Chemistry and Physics 10, 5951-5964. DOI
14	Stein, E.D., Cohen, Y., Winer, A.M. (1996) Environmental distribution and transformation of mercury compounds. Critical Reviews in Environmental Science and Technology 26, 1-43. DOI
15	Streets, D.G., Bond, T.C., Carmichael, G.R., Fernandes, S.D., Fu, Q., He, D., Klimont, Z., Nelson, S.M., Tsai, N.Y., Wang, M.Q., Woo, J.-H., Yarber, K.F. (2003) An inventory of gaseous and primary aerosol emissions in Asia in the year 2000. Journal of Geophysical Research: Atmospheres 108(D21), 8809, doi:10.1029/2002JD003093. DOI
16	Streets, D.G., Hao, J., Wu, Y., Jiang, J., Chan, M., Tian, H., Feng, X. (2005) Anthropogenic mercury emissions in China. Atmospheric Environment 39, 7789-7806. DOI
17	Wu, Y., Wang, S., Streets, D.G., Hao, J., Chan, M., Jiang, J. (2006) Trends in anthropogenic mercury emissions in China from 1995 to 2003. Environmental Science & Technology 40, 5312-5318. DOI
18	UNECE (United Nations Economic Commissions for Europe) (1998) The 1998 Aarhus Protocol on Heavy Metals. http://www.unece.org/env/lrtap/hm_h1.htm(accessed January 2002).
19	UNEP (United Nations Environment Programme) (2002) Global Mercury Assessment. UNEP Chemicals, Geneva, Switzerland.
20	UNEP (2013) Minamata Convention on Mercury. http://www.mercuryconvention.org (accessed August 2015).
21	Zhang, Q., Streets, D.G., Carmichael, G.R., He, K.B., Huo, H., Kannari, A., Klimont, Z., Park, I.S., Reddy, S., Fu, J.S., Chen, D., Duan, L., Lei, Y., Wang, L.T., Yao, Z.L. (2009) Asian emissions in 2006 for the NASA INTEXB mission. Atmospheric Chemistry and Physics 9, 5131-5153. DOI