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Survey on Concentration Characteristics of Polycyclic Aromatic Hydrocarbons in Soil in Seoul
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 Title & Authors
Survey on Concentration Characteristics of Polycyclic Aromatic Hydrocarbons in Soil in Seoul
Kim Dong-Hwan; Ok Gon;
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Soil is one of the most fundamental elements as well as with water and air in studies associated with the environment, in addition, it is one of the important environmental mediums that constructs a basis of the bio­logical system and performs various roles of matter circulation. This study was carried out in Seoul, in May 2000 to evaluate variation in the concentration levels and distribution characteristics for PAH compounds in soil. Soil samples were collected from 33 sites covering traffic, factory, incineration and mountain groups and the PAHs were analyzed. The results show a wide dis­tribution range of PAHs concentrations between 14.66 ng/g and 1,219.35 ng/g. The highest concentration levels exist at Sungsu-2 of the factory group (FS-2). Daemo-3 of the Mountain group (MD-3) presents the lowest levels as compared with the other sites. PAH compounds including mutagenic and carcinogenic materials show high concentrations in the traffic and factory groups and a high ratio in the mountain group. Besides, these compounds absorbed with micro particles might be spread out over a wide region associated with particles' movement and diffusion. After principal component analysis of the soil samples, the results indicated that the sources of PAHs in the soil were divided into two groups, pesticides and vehicles.
Principal Component Analysis(PCA);
 Cited by
국내 PAHs 오염 우려지역의 환경 시료 중 PAHs 잔류량 모니터링,임종수;김성수;박동식;주진호;임춘근;허장현;

농약과학회지, 2007. vol.11. 2, pp.95-105
국내 토지이용도별 토양 중 다환방향족탄화수소류(PAHs)의 농도 수준 및 분포 특성,노회정;윤정기;윤대근;유순주;김태승;이재영;

한국지하수토양환경학회지:지하수토양환경, 2014. vol.19. 6, pp.59-71 crossref(new window)
IARC, 1989, IARC Monographs on the Evaluation of Caecinogenic Risks to Humans. Diesel and Gasoline Engine Exhausts and Some Nitroarenes, Monographs, 46, 41-57

松下秀鶴, 1989, 空氣中のがん 變異原物質とそ の暴露許價手法の進歩, 大氣汚染學會誌, 5(6), 418-429

松下秀鶴, 郭 錦堂, 今宮俊一郎, 1989, 束京, バコクおよびチェンマイにおける大氣浮遊粉じん 中の發がん性多環芳香族炭化水素濃度の相互比較, 大氣汚染學會誌., 24(3), 234-243

Lee, M. L., N. Novotny and K. D. Bartle, 1976, Gas chromatography/mass spectromatric and nuclear magnetic resonance determination of polynuclear aromatic hydrocabons in airborne particulate, Anal. Chem., 48, 1566-1572 crossref(new window)

Chander, V., M. L. James and K. F. Sheldon, 1994, Size distributions of Polycyclic Aromatic Hydrocarbons and elemental carbon. 1. Sampling, measurement methods, and source charaterization, Envrion. Sci. Technol., 28, 555-562 crossref(new window)

Crispin, J. H., J. C. Peter, J. D. Brian, B. Vitoria, S. W. Keith, H. J. Peter and C. J. Kevin, 1994, Polycyclic Aromatic Hydrocarbons in U. K urban air, Envrion. Sci. Technol., 28, 2380-2386 crossref(new window)

Bruce, A., J. Benner and E. G. Glen, 1989, Mobile sources of atmospheric polycyclic aromatic hydrocarbons: A roadway tunnel study, Environ. Sci. Technol., 23, 1269-1278 crossref(new window)

Westerholm R., J. Almen, H. Li, U. Rannug and A. Roson, 1992, Exhaust emissions from gasoline fulled light duty vehicles operated in different driving conditions a chemical biological characterization, Atmos. Environ., 26, 76-90

Halsall, C. J, L. A Barrie, P. Fellin, D. C. G. Muir, B. N. Billeck, L. Lickhart, F. Y. Rovinsky, E. Y Kononov and B. Pastukhov, 1997, Spatial and Temporal Variation of Polycyclic Aromatic Hydrocarbons in the Arctic Atmosphere, Environ. Sci. Technol., 31, 3593-3599 crossref(new window)

Wagrowski, D. M. and R. A. Hites, 1997, Polycyclic Aromatic Hydrocarbons Accumulation in Urban, Suburban, and Rural Vegetation, Environ. Sci. Technol., 31, 279-282 crossref(new window)

Keiichi. A, S. Takashi, Y. Masahiro and K. Yasushi, 1992, Polynuclear aromatic hydrocarbon concentration and mutagenic activity in soils sampled at roadsides, J. Japan Soc. Air Pollut., 27(4), 190-197

Blumer. M., W. Blumer and T. Reich, 1977, Polycyclic Aromatic Hydrocarbons in soils of a mountain valley : Correlation with highway traffic and cancer incidence, Environ. Sci. Technol., 28, 1269-1278

Ok, G., D. H. Kim, S. J Kim, Y K. Kim, S. Y Kim and S. B. Ok, 2001, Distribution characteristics of PCDDs/DFs and Polycyclic Aromatic Hydrocarbons in soil at Daegu city, Journal of the Korea Society for Envir. Anal., 4, 23-28

Wey, M. Y, C. Y Chao, J. C. Chen and L. J Yu, 1998, The relationship between the quantity of heavy metal and PAHs in fly ash, air & waste manage. Assoc., 48, 750-756

Wilcke, W., S. Muller, N. Kanchanakool, C. Niamskul and W. Zech, 1999, Polycyclic Aromatic Hydrocarbons in hydrornorphic soils of the tropical metropolis Bangkok, Geoderma, 91, 297-309 crossref(new window)

Jones, K. C. J A. Stratford, K. S. Waterhouse and N. B. Vogt, 1989, Organic contaminants in Welsh soils: Polynuclear aromatic hydrocarbons, Environ. Sci. Technol., 23, 540-550 crossref(new window)

Prahl, F. G., E. Crecellus and R. Carpenter, 1984, Polycyclic aromatic hydrocarbons in Washington (USA) coastal sediments: An evaluation of atmospheric and riverine of introduction, Environ. Sci. Technol., 18, 687-693 crossref(new window)

Jerina, D. M., J M. Sayer and D. R. Thakker, 1980, Carcinogenicity of polycylic aromatic hydrocarbons: The bay-region theory, Reidel Publishing Co., 1-12pp

환경부, 2000, 대기질측정자료(1999.1-2000.5),

Sawicki, E., 1962, Analysis for airborne particulate hydrocarbons: Their relative proportions as affected by different types of pollution. Bethesda, MD: National Cancer Institute Monograph, 9, 201-220

Orben, N., 1996, Traffic contribution of polycyclic aromatic hydrocarbons in the center of a large city, Atmospheric Envionment, 30, 3481-3490 crossref(new window)

환경부, 2000, 최근 6년간 대기.자동차 오염물질 배출량,