• Vertical Distribution of Heavy Metal Concentrations in Sediment Cores and Sedimentation Rate Using $^{210}Pb$ Dating Technique in the Juam Reservoir
  • Lee Pyeong-Koo;Youm Seung-Jun;Yeon Gyu Hun;Chi Se-Jung;Kim Ji-Wook;Oh Chang-Whan;Kim Sun-Ok;
  • Geological and Environmental Hazards Divisions, Korea Institute of Geoscience and Minerals;Geological and Environmental Hazards Divisions, Korea Institute of Geoscience and Minerals;Geological and Environmental Hazards Divisions, Korea Institute of Geoscience and Minerals;Geological and Environmental Hazards Divisions, Korea Institute of Geoscience and Minerals;Department Investigation and Planning, Korea Water Resources Corporation;Department of Earth and Environmental Sciences, Chonbuk National University;Geological and Environmental Hazards Divisions, Korea Institute of Geoscience and Minerals;
  • 주암댐 호저 퇴적물에서의 수직적 중금속 분산과 $^{210}Pb$를 이용한 퇴적속도산정
  • 이평구;염승준;연규훈;지세정;김지욱;오창환;김선옥;
  • 한국지질자원연구원 지질환경재해연구부;한국지질자원연구원 지질환경재해연구부;한국지질자원연구원 지질환경재해연구부;한국지질자원연구원 지질환경재해연구부;한국수자원공사 조사기획처;전북대학교 지구환경과학과;한국지질자원연구원 지질환경재해연구부;
References
  • 1. 염승준, 이평구, 강민주, 신성천, 유연희, 2004, 주암댐 집수유역 내 하상퇴적물의 중금속 오염현황과 거동 특성, 자원환경지질, 37, 311-324
  •  
  • 2. 이평구, 염승준, 지세정, 박성원, 손병국, 김정찬, 신성천, 조호영, 권이균, 공기수, 연규훈, 강민주, 신영식, 2004, 인공호수 (주암댐) 내 중금속의 분포와 집적에 관한 전과정평가, 한국지질자원연구원, p.358
  •  
  • 3. 이평구, 염승준, 지세정, 신영식, 오창환, 이요상, 2005, 입도가 주암댐 하천퇴적물의 중금속함량에 미치는 영향과 납동위원소를 이용한 오염원 규명, 자원환경지질 (투고중)
  •  
  • 4. 한국수지원공사, 2001, 주암다목적댐 관리연보, p. 391
  •  
  • 5. Appleby, P.G. and Olfield, F., 1992, Application of $^{210}Pb$ to sedimentation studies, In: Ivanovich, M. and Harmon, R.S. (ed.), Uranium Series Disequilibrium. Applications to Earth, Marine and Environmental Sciences, p. 731-778
  •  
  • 6. Goldberg, E.D., Hodge, V., Koide, M., and Griffin, J., 1978, A pollution history of Chesapeake Bay, Geochim. Cosmochim. Acta, 42, 1413-1425
  •  
  • 7. Hamilton, T., Fowler, S., Miguel, J.C., and La-Rosa, J., 1996, Pb dating of sediment from Central and Northeen Adriatic Sea: the deposition and preservation of sedimentary organic carbon, Conference on Physical and Biogeochemical Process of the Adriatic Sea, Ancona, Italy. April, p. 23-27
  •  
  • 8. Koide, M., Brulant, K.W., and Goldberg, E.D., 1973, $^{228}Th$/$^{232}Th$ and $^{210}Pb$ geochronologies in marine and lake sediments, Geochim. Cosmochim. Acta, 37, 1171-1187
  •  
  • 9. Sayltes, F.L., Livingston, H.D., and Panteleyev, G.P., 1997, The history and sources of particulate $^{137}Cs$ and $^{239+240}Pu$ deposition in sediments of the Ob River Delta, Siberia, Sci. Total Environ., 202, 25-41
  •  
  • 10. Silva-Braganca, M., Julia-Camara, Oliveira-Godoy, and Josearcosde, 1995, Geochronological study of the Guanabara Bay (Rio de Janeiro State, Brazil) using Pb dating technique and the constant rate of supply model, Proceedings of the Symposium on Regional Integration in a Nuclear Energy, 606, p. 221-231
  •  
  • 11. Robinson, J.A., 1978, Geochemical and geophysical applications of radioactive lead, In: Nriagu (ed.), The Biogeochemistry of Lead in the Environment, p. 285-393
  •  
  • 12. Wood, J.M., Horwitz, P., and Cox, H., 1992, Levels of heavy metals in dated sediments from Lindisfame Bay, Derwent Estuary, Tasmania, Sci. Total Environ., 125, 253-262
  •  

This Article

  • 2005; 10(1): 43-57

    Published on Feb 1, 2005

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