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Evaluation of Heavy Metal Contents in the Floras Derived from Granite and Coal Bearing Shale Areas in Keumsan  

Song Suck-hwan (Dept. of the Environmental Engineering, Joongbu Univ.)
Kang Young-Rib (Dept. of the Cosmetic Science and Technology, Joongbu Univ.)
Kim Il-Chool (Dept. of the Cosmetic Science and Technology, Joongbu Univ.)
Publication Information
Korean Journal of Plant Resources / v.18, no.2, 2005 , pp. 251-259 More about this Journal
Abstract
Three different floras(M. sinsinsis, A. vulgaris, Robinia pseudo-acacia) were collected from the granite(GR) and coal bearing shale area(CB) and analysed for their heavy metal elements with the representative soils. Regardless of the flora species, the CB were high in average contents. Among the correlation relationships, the CB were more distinctive than the GR, and the A. vulgaris showed higher correlations than the M. sinsinsis. In the same soils, the A. vutgaris showed high contents than the M. sinsinsis and Robinia pseudo-acacia, and the M. sinsinsis were high relative to the Robinia pseudo-acacia. In the comparisons of the flora, root parts were high in most of the elements except for Zn. In the soils, the CB were high in most of elements while As and Mo showed different contents between the GR and CB. In the comparison between soil and flora, soils of the GR were high in the V and Sc contents and low in Zn and Cu, while those of the CR were high in the Cr, V and Sc contents, and low in the Zn contents, Comparing with the soil contents, the M, sinsinsis in the GR were similar to Co and V contents while, in the CB, the M. sinsinsis were similar to the Ni, Cr, Co, Zn, Mo contents, and the Robinia pseudo-acacia were similar to the Ni, Zn, Cu contents. Overall results suggested that the M. sinsinsis and A. vulgaris should be eligible for the bioremediation of the soils polluted by heavy metal such as the CB.
Keywords
Keumsan; granite; coal bearing shale; flora; heavy metal elements;
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1 김규식. 1980. 토양 중 중금속의 생물학적 제거방법시험. 농업기술 연구소보 pp.37-50
2 송석환, 김명희, 민일식, 장인수. 1990. 충남 서부 백동사문암 지역 식물체의 중금속 함량. 한국토양환경학회지 4(2): 113-125
3 Ebbs, S.D., M.N. Lasat, D.J. Brady, J. Cornish, R. Gorden and L.V. Kochian. 1997. Phytoextraction of Cadmium and Zinc from a contaminated soil. J. Environ. Qual. 26 : 1424-1430   DOI   ScienceOn
4 Baker, A.J.M. and R.R. Brooks. 1989. Terrestical higher plants which hyperaccumulate metallic element-A review of their distribution, ecology and phytochemistry. Biorecovery 1 : 81-126
5 김옥준. 1968. 충주, 문경간의 옥천계 층서와 구조. 광산 지질학회지 1 : 35-46
6 손치무. 1970. 옥천층군의 지질시대에 대한 토론. 광산지질학회지 3 : 3-4
7 이진수, 전효택, 김경웅. 1996. 충주 지역 흑색계일 분포지역에서의 잠재적 독성원소들의 분산과 부화. 자원환경지질학회지 29(3) : 495-508
8 Hoffaman, E.L. 1997. Instrumental neutron activation in geoanalysis. J. Geochem. Explor. 44 : 297-319   DOI   ScienceOn
9 김명희, 민일식, 송석환. 1999. 울산시의 사문암 및 유문암 지역 표토와 식물체의 중금속 함량 비교. 한국 환경 생태학회지 13(2) : 176-183
10 민일식, 송석환, 김명희. 1999. 경상북도 안동 사문암 지역의 모암, 토양 및 식물체의 중금속 함량. 한국 환경 생태학회지 13(3) : 288-294
11 Salmons, W., U. Forstner and P. Mader. 1995. Heavy metals : Problems and solutions. Springer-Verlag, Berlin
12 홍승호, 최위찬. 1978. 금산도폭. 자원개발 연구소
13 Nanda Kumar, P.B.A., D. Viatcheslav, M. Harry and R. Ilya. 1995. Phytoextraction : The use of plants to remove heavy metals from soils. Environ. Sci. Technol. 29 : 1232-1235   DOI   ScienceOn
14 전효택, 정명채. 1991. 함 우라늄 흑색셰일에서의 유독성 원소들의 분산에 대한 지구화학적 연구. 광산지질학회지 24(3) : 245-360