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광주지역 토양오염우려지역의 PAHs 농도 특성 연구 = Characteristics of PAHs concentration in soil contamination concerned area of Gwangju / 윤상훈 ; 이우진 ; 임민화 ; 정연재 ; 박미애 ; 전홍대 ; 박병훈 ; 서광엽 ; 배석진 ; 박정훈 1

ABSTRACT 1

1. 서론 1

2. 재료 및 방법 2

2.1. 조사지점 및 시료채취 2

2.2. PAHs 분석방법 3

2.3. 통계분석 3

3. 결과 및 고찰 3

3.1. 광주지역 토양 중 PAHs 농도 분포 3

3.2. 광주지역 토양 중 PAHs 오염기원 평가 6

3.3. PAHs 항목간 상관성 8

4. 결론 9

References 10

초록보기

The concentration levels and distribution characteristics of 16 polycyclic aromatic hydrocarbons (PAHs) were investigatedand evaluated for total 100 soil samples as a part of the survey on soil contamination in Gwangju. The results (median andrange) of T-PAHs (sum of 16 PAH concentrations), C-PAHs (sum of carcinogenic PAH concentrations) and T-TEQs (sumof 16 TEQ concentrations) were 20.8 (7.6~1158.1), 2.2 (N.D~509.6), and 0.3 (N.D~424.6) g/kg, respectively. There wasa positive correlation between C-PAHs/T-PAHs and T-TEQs/T-PAHs except one point where the concentration ofbenzo(a)pyrene was high. The ratios of the C-PAHs/T-PAHs were 31.7% for low molecular weight-PAHs and 68.3% forhigh molecular weight-PAHs, suggesting that PAHs generation mainly arose from combustion sources. The ratio ofisomers of individual PAHs, Phe/Ant, Flu/Pyr, Ant/(Ant+Phe), Flu/(Flu+Pyr), and BaA/(BaA+Chr), also confirmed thepredominance of PAHs from combustion activities. Statistical tracing of the source of PAHs through principal componentanalysis indicated that the main sources of combustion were automobile fuel and coal. The overall results of this studysuggested HMW-PAHs, T-PAHs, C-PAHs and T-TEQs should be separately evaluated to better assess the toxicity andenvironmental behavior of individual PAHs.

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기사명 저자명 페이지 원문 목차
물리탐사에 기초한 대수층 특성화 및 적용 사례 분석 = Aquifer characterization based on geophysical methods and application analysis on past cases 정주연, 김빛나래, 송서영, 정인석, 송성호, 남명진 p. 1-23

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관정연계이용 기술 적용을 위한 상습가뭄지역 지하수 수요-공급량 평가 = Estimation on an amount of the groundwater demand and supply for applying the well-network system (WNS) to a frequent-drought area 이병선, 정찬덕, 이규상, 하규철, 이종화, 송성호 p. 24-35

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국내 지하수 통합관리 선진화 전략 = The strategy for the advancement of groundwater management in Korea 강성구, 김지욱, 최용준, 박민영, 박현진, 이진관 p. 36-40

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기능성 바이오차 생산을 위한 이산화탄소의 영향 평가 = Evaluation of the effects of carbon dioxide on the production of engineered biochar 이상윤, 이태우, 권일한 p. 41-49

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광주지역 토양오염우려지역의 PAHs 농도 특성 연구 = Characteristics of PAHs concentration in soil contamination concerned area of Gwangju 윤상훈, 이우진, 임민화, 정연재, 박미애, 전홍대, 박병훈, 서광엽, 배석진, 박정훈 p. 50-60

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농업지역 지하수의 수리지화학 및 미생물 군집 구조 분석 = Hydrogeochemistry and microbial community structure of groundwater in an agricultural area 김동훈, 오용화, 이봉주, 이정윤 p. 61-75

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칼슘 및 칼륨 용액을 이용한 원자력발전소 주변 스트론튬과 세슘 오염토양 세척기술 연구 = Soil washing technology for Sr and Cs-contaminated soil near nuclear power plants using calcium and potassium based solutions 송호재, 남경필 p. 76-86

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질소 및 산소 안정동위원소 활용 수계 질산성 질소 오염원 판별을 위한 기술 절차 제안 = Technical procedure for identifying the source of nitrate in water using nitrogen and oxygen stable isotope ratios 김기범, 정재식, 이승학 p. 87-98

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참고문헌 (30건) : 자료제공( 네이버학술정보 )

참고문헌 목록에 대한 테이블로 번호, 참고문헌, 국회도서관 소장유무로 구성되어 있습니다.
번호 참고문헌 국회도서관 소장유무
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2 Choi, Y.J., Yoo, E.H., and Kim, M.H., 2012, Characteristics of polycyclic aromatic hydrocarbons (PAHs) distribution in Busan soils, Annu. Rep. of Busan Met. City Ins. Of Health and Envi-ron., 22(1), 216-234. 미소장
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11 Lee, D.W., 2001, Contamination levels of polycyclic aromatic hydrocarbons(PAHs) in soils at Ulsan City, MS Thesis, Gradu-ate School of Industry, Pukyong national University, p.45. 미소장
12 Lee, W.S., Park, S.Y., Kim, P.J., Jeon, S.B., An, K.H., and Choi, Y.S., 2010, Pollution of polycyclic aromatic hydrocarbons (PAHs) in seawater and marine sediments from anmyundo coastal area after oil spill, J. Environ. Sci., 19(12), 1421-1430. 미소장
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15 MOE (Ministry of Environment), 2017, Instruction of soil pol-lutant investigation. 미소장
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17 Nam, J.J., Song, B.H., Eom, K.C., Lee, S.H., and Smith, A., 2003, Distribution of polycyclic aromatic hydrocarbons in agri-cultural soils in South Korea, Chemosphere, 50(10), 1281-1289. 미소장
18 NIER (National Institute of Environment Research), 2007, Establishment of the soil quality standards for organic pollut-ant(II). 미소장
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20 Noh, H.J., Yoon, J.K., Yun, D.G., Yu, S.J., Kim, T.S., and Lee, J.Y., 2014, The Influence of land use on the concentration levels and distribution characteristics of polycyclic aromatic hydrocar-bons (PAHs) in Korea, J. Soil Groundw. Environ., 19(6), 59-71. 미소장
21 Park, S.H., Lee, W.B., Kim, S.U., and Kim, J.O., 2016, Charac-terization and emission sources of PAHs for industrial complex soils in Jeollanamdo, J. Soil Groundw. Environ., 21(3), 49-57. 미소장
22 Peterson, C.H., Rice, S.D., Short, J.W., Esler, D., Bodkin, J.L., Ballachey, B.E., and Irons, D.B., 2003, Long-term ecosystem response to the Exxon Valdezoil spill, Science, 302(5653), 2082-2086. 미소장
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24 Saunders, C.R., Ramesh, A., and Shockley, D.C., 2002, Modu-lation of neurotoxic behavior in F-344 rats by temporal disposi-tion of Benzo(a)pyrene, Toxicology Letters, 129(1-2), 33-45. 미소장
25 Sofowote, U.M., McCarry, B.E., and Marvin, C.H., 2008, Source apportionment of PAH in Hamilton Harbour suspended sediments: comparison of two factor analysis methods, Environ. Sci. Technol., 42(16), 6007-6014. 미소장
26 Nielsen, T., 1996, Traffic contribution of polycyclic aromatic hydrocarbons in the center of a large city, Atmos. Environ., 30(20), 3481-3490. 미소장
27 White, P.A., 2002, The genotoxicity of priority polycyclic aro-matic hydrocarbons in complex mixture, Mutation Research, 515(1-2), 85-98. 미소장
28 WHO (World Health Organization), 1998, EHC 202: Polycy-clic aromatic hydrocarbons, selected non-hydrocyclic. 미소장
29 Yunker, M.B., Macdonald, R.W., Vingarzan, R., Mitchell, R.J., Goyette, D., and Sylvestre, S., 2002, PAHs in the Fraser River Basin: a critical appraisal of PAH ratios as indicators of PAH source and composition, Org. Geochem., 33(4), 489-515. 미소장
30 Zhang, Y., Guo, C.S., Xu, J., Tian, Y.Z., Shi, G.L., and Feng, Y.C., 2012, Potential source contributions and risk assessment of PAHs in sediments form Taihu Lake, China: comparison of three receptor models, Water Res., 46(9), 3065-3073 미소장

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