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http://dx.doi.org/10.5322/JES.2009.18.6.621

Differences of Rare Earth Element Concentrations of Plants in Top Soils of Gapyeong Serpentine Area: Based on the M. sinensis, A. vulgaris and R. crataegitolius  

Song, Suck-Hwan (Department of Civil Engineering, Joongbu University)
Shin, Byung-Cheol (Department of Environmental Landscape Architecture, Joongbu University)
Publication Information
Journal of Environmental Science International / v.18, no.6, 2009 , pp. 621-632 More about this Journal
Abstract
Rare earth contents(REE) were analysed for the plants, M. sinensis. A. vulgaris and R. crataegitolius, from two different soils serpentine area consisting of serpentinite(SP) and non-serpentine area, containing amphibole schist(AS) of Gapyeong area, and were compared with soils and host rocks. The AS were high with the differences of several times in the top soils, and with the differences of several to ten times in the host rocks relative to the SP. In the same area, the SP were high in the soil, but the rocks for the AS. In the plants, the A. vulgaris were high, but low in the R. crataegitolius. Root parts were higher than the upper parts. Differences between the upper and root parts were big in the SP rather than the AS, and were big in the R. crataegitolius, but small in the M. sinensis. Among the parts of the plants, high elements were shown in the R. crataegitolius of the SP, and the A. vulgaris and M. sinensis of the AS. In the correlation coefficients, most of the REE showed positive relationships among the element pairs, especially high positive correlation coefficients in the upper parts of the SP.Differences of the soils and plants(average) were smalle in the M. sinensis and big in the R. crataegitolius. In the upper parts. contents of the A. vulgaris were close to the soils while the R. crataegitolius showed large discrepancies with the soils. In the root parts, contents of the A. vulgaris showed discrepancies with the soils regardless of soil types, but close in the R. crataegitolius of the SP and M. sinensis of the AS.
Keywords
Rare earth element; M. sinensis; A. vulgaris; R. crataegitolius; Serpentinite; Amphibole schist;
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Times Cited By KSCI : 2  (Citation Analysis)
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1 Nanda K. P., Viatcheslave D., Harry M., lIya R, 1995, Phyto- extraction: The use of Plants to Remove Heavy Metalsfrom Soils, Environ. Sci. Technol., 29, 1232-1235   DOI   ScienceOn
2 Yun S. P., Moon H. S., Song Y., 1994, Mineralogy and Genesis of the Pyoungan and Daeheung Talc Deposits in Ultramafic Rocks, the Y oogoo Area, Econ. Environ. Geol., 27, 131-145
3 Song S. H., Choi S. G., Woo J. G., 1997, Genetic implications of ultramafic rocks from the Bibong area in the Kyeonggi gneiss complex, Econ. Environ. Geol., 30, 477-491
4 송석환, 김명희, 민일식, 장인수, 1999, 충남 서부 백동 사문암지역 식물체내 중금속 함량, 한국토양환경학회지, 4, 113-125   과학기술학회마을
5 김명희, 민일식, 송석환, 1997, 사문암지역에서 생육하는 대나물(Gypsophola oldhamian)의 중금속 함량, 한국생태학회지, 20, 385-391   과학기술학회마을
6 Rollinson H. R., 1993, Using Geochemical Data:Evaluation, Presentation, Interpretation. Longman Scientific. Technical., UK, 352pp
7 농촌진흥청, 1988, 토양화학분석법. -토양, 식물체, 토양미생물-, 농업기술연구소, 450pp
8 Hoffinan E. L., 1977, Instrumental Nentron Activation in geo-analysis, J. Geochemical Exploritation, 44, 273-319   DOI   ScienceOn
9 Henderson P., 1984, Rare Earth Element Chemistry, Elsevier, Amsterdam, New York, 510pp
10 Nesbitt H. W., 1979, Mobility and fractionation of rare earth elements during weathering of granodiorite, Nature, 279, 206-210   DOI
11 Hebert R., Serri G., Hekinian R., 1989, Mineral chemistry of ultramafic tectonites and ultramafic to gabbroic cumulates from the major oceanic basins and northem Apennine ophiolites (Italy): A comparison, Chemical Geol., 77, 183-207   DOI   ScienceOn
12 Mittsede S. K., Stoddard E. F., 1989, Ultramafic Rocks of the Appalachian Piedmont. (ed.), Geol. Soc. Amer. Spec. Pub., 231, 103pp
13 Spell T. L., Norrell G. T., 1990, The Ropes Creek assemblage:Petrology, geochemistry and tectronic setting of an ophiolitic thrust sheet in the southem Appalachians, Amer. J. Sci., 290, 811-842   DOI
14 Taylor S. R, McLennan S. M., 1981, The Composition and Evolution of Continental Crust: Rare Earth Element Evidence from Sedimentary Rocks, Phil. Tran. Roy. Soc., A301, 381pp   DOI
15 Homer F. A., Morrison R. S., Brooks R. R, Clemens J., Reeves R. D., 1991, Comparative Studies of Nickel, Cobalt and Copper Uptake by Some Nickel Hyperaccumulators of the Genus Alyssum, Plant and Soil, 138, 195-205   DOI
16 Mevel C., Canat M., Gente P., Marion E., Auzende J. M., Karson J. A., 1991, Emplacement of deep crustal and mantle rocks on the West median valley, Wall of the mark area (MAR), 23$^{\circ}$ N, Tectonophy., 190, 31-53   DOI   ScienceOn
17 Bodinier J. L., 1988, Geochemistry and petrogenesis of the Lanzo peridotite body, western Alps, Tectonophy., 149, 67-88   DOI   ScienceOn
18 Den T. E., 1969, Origin of ultramafic rocks, thcir tectonic setting and history: A contribution to the discussion of the paper, 'The origin of ultramafic and ultrabasic rocks' by P. J. Wyllie. Tectonophy., 7, 457-488   DOI   ScienceOn
19 Rampone E. M., Hofmann A. W., Piccardo G. B., Vanuggi R., Bottazzi P., Ottolini L., 1995, Petrology, mineral and isotope geochemistry of the external Liguride peridotites (Northern Apennines, Italy), J. Petrol., 36, 81-105   DOI   ScienceOn
20 송석환, 송윤섭, 2001, 충남 서부 신곡 지역에 분포하는 초염기성암의 광물 조성 및 지구화학, 자원환경지질, 34, 395-415   과학기술학회마을
21 오창환, 최선규, 송석환, 2002, 백동지역의 변성염기성암과 주변 편마암의 변성진화과정과 지구조적의미, 암석학회지, 11, 103-129   과학기술학회마을
22 우영균, 최석원, 박기화, 1991, 충남 예산지구 활석광산의 성인에 대한 연구, 광산지질, 24, 363-378
23 김옥준, 김서운, 유병화, 박병권, 1974, 한국 지질도(1:50000), 가평 도폭 및 설명서, 한국자원연구소, 26pp
24 Girardeau J., Mercier J. C. C., 1988, Petrology and texture of the ultramafic rocks of the Xigaze ophiolite (Tibet): Constraints for mantle structurc beneath slow-spreading ridges, Tectonophy., 147, 33-58   DOI   ScienceOn
25 Chaney R. L., Malik M., Lee Y. M., Brown S. L., Angle J. S., Baker A. J. M., 1997, Phytoremediation of soil metals, Manuscript for Current opinions in biotechnology, 248pp
26 정기채, 김복진, 한상국, 1993, 아연광산 인접지역 야생식물중의 중금속함량 조사, 한국환경농학회지, 12, 105-111   과학기술학회마을
27 Alina K. P., Henryk P., 1985, Trace Elements in Soils and Plants, CRC Press Inc., Boca Raton, Florida, 315pp
28 송석환, 민일식, 유선균, 이용규, 2006, 금산 인삼과 토양의 희토류 원소 함량 관계, 고려인삼학회지, 30, 31-40   과학기술학회마을   DOI   ScienceOn
29 임수길, 김정규, 김동엽, 1996, 유용식물을 이용한 오염토양 정화기술 개발, 제1회 농업과학 심포지엄 21세기 농업과학 연구의 발전방향, 교육부 농업과학 심사평가위원회, 236-241
30 Moores E. M., Jackson E. D., 1974, Ophiolites and oceanic crust, Nature, 250, 136-138   DOI
31 Wee S. M., Choi S. G., So C. G., 1994, Preliminary study on ultramafic rocks from the Chungnam Province, Korea, Econ. Environ. Geol., 27, 171-180
32 Storozheva M. M., 1954, Teratological Phenomena in Pulsatilla patens under the Conditions of Nickel Ore Field(in Russ.), Trudy Biogeokhim. Lab., 10, 64-75
33 Susuki J., 1952, Ultrabasic rocks and associated ore deposits of Hokkaido Japan, J. Fac. Sci. Hokk. Univ. Ser., 8, 175-210
34 Baker A. J. M., Protocor J., Reeves R. D., 1992, The Vegetation of Ultramafic (Serpentinite) Soils, Intercepts Ltd., Andover, United Kingdom, 234pp
35 Brooks R. R., 1987, Serpentine and its vegetation; A multidisciplinary approach, Dioscorides Press, Portland, Oregon, 454pp
36 Dymek R. F., Brothers S. c., Schiffries C. M., 1988, Petrogenesis of ultramafic metamorphic rocks from 3800 Ma lsua supracrustal belt, western Greenland, J. Petrol., 29, 1353-1397   DOI