Browse > Article

Soil quality assessment for cadmium uptake of Artemisia princeps at abandoned metalliferous mines using statistical analysis  

Jo, Hun-Je (Division of Environmental Science & Ecological Engineering, Korea University)
Kim, Dae-Yeon (Division of Environmental Science & Ecological Engineering, Korea University)
Lee, Hyun-Joon (Division of Environmental Science & Ecological Engineering, Korea University)
Oh, Hyun-Ju (Division of Environmental Science & Ecological Engineering, Korea University)
Kang, Sung-Wook (Division of Environmental Science & Ecological Engineering, Korea University)
Kim, Jeong-Gyu (Division of Environmental Science & Ecological Engineering, Korea University)
Jung, Jin-Ho (Division of Environmental Science & Ecological Engineering, Korea University)
Publication Information
Journal of Korean Society of Environmental Engineers / v.32, no.1, 2010 , pp. 47-52 More about this Journal
Abstract
Physical, chemical and biological properties of soils and cadmium(Cd) content of Artemisia princeps var. orientalis collected from 10 metalliferous mines were analysed. Cd contents of unplanted soils and rhizosphere soils were not significantly different(p < 0.05), and mean values were 5.92 and 5.91 mg/kg, respectively. In addition, Cd content of rhizosphere soils were correlated with Cd content of Artemisia princeps (p < 0.05, ${R^2}_{shoot}$ = 0.3120, ${R^2}_{root}$ = 0.4177). Minimum data set(MDS) of soil quality parameters for statistical assessment of Cd uptake was established by principal component analysis, and it was identified as organic matter(OM), dehydrogenase activity(DHA), pH, exchangeable Mg. According to multiple regression analysis using the MDS, coefficients of determination ($R^2$) for Cd uptake of shoot and root of Artemisia princeps were found to be 0.3418 and 0.5121, respectively. This suggests that statistical soil quality assessment using the MDS seems a useful tool to interpret heavy metal uptake of plant.
Keywords
Heavy metal; Minimum data set; Principal component analysis; Soil quality index;
Citations & Related Records
연도 인용수 순위
  • Reference
1 농촌진흥청, 농업환경변동조사사업보고서, (2005).
2 Bram, G., Ken, D. S., and Jozef, D.," A minimum data set for soil quality assessment of wheat and maize cropping in the highlands of Mexico,"Soil and Tillage Research, 87, 163-174(2006).   DOI   ScienceOn
3 Andrews, S. S., Karlen, D. L., and Mitchell, J. P.," A comparison of soil quality indexing methods for vegetable production systems in Northern California,"Agric. Ecosystems Environ., 90, 25-45(2002).   DOI   ScienceOn
4 Tordoff, G. M., Baker, A. J. M., and Willis, A. J., "Current approaches to revegetation and reclamination of metalliferous mine wastes,"Cheomosphere, 41, 219-228(2000).   DOI   ScienceOn
5 Rauser, W. E., and Ackerley, C A., "Localization of cadmium in granules within differentiating and mature root cells,"Can. J. Botany, 65, 643-646(1987).   DOI
6 NIAST, Method of Soil and Plant Analysis, National Institute of Agriculture Science and Technology, Suwon(2000).
7 Doran, J. W., and Parkin, B. T., "Defining and assessing soil quality,"Soil Sci. Soc. Am., 35, 3-21(1994).
8 Larson, W. E., and Pierce, F. J.," The dynamic of soil quality as a measure of sustainable management,"Soil Sci. Soc. Am., 35, 37-51(1994).
9 Liebig, M. A., Varvel, G., and Doran, J., "A simple performance based index for assessing multiple agroecosytem functions," Agronomy Journal, 93, 313-318(2001).   DOI   ScienceOn
10 Kabata-Pendias, A., and Pendias, H., Trace elements in soil and plants. CRC Press Inc., New York, (1984).
11 윤영만, Zn, Cd 처리토양에서 쑥(Artemisia princeps var.orientalis)의 중금속흡수와 생육에 미치는 토성, 토양수분, 토양 pH의영향, 고려대학교석사학위논문, pp. 13-43(1997).
12 이옥민, 카드뮴의 현미로의 이행에 미치는 개량제의 영향, 고려대학교석사학위논문, pp. 18-53(2004).
13 김환기, 이성백", 토양층에서카드뮴흡착에대한유기물의영향," 대한환경공학회지, 20(1), 1-8(1997).
14 Wang, X. P., Shan, X. Q. Zhang, S. Z., and Wen, B.", A model for evaluation of the phytoavailability of trace elements to vegetables under the field conditions,"Cheomosphere, 55, 811-822(2004).   DOI   ScienceOn
15 Paniagua, A., Kammerbauer, J., Avedillo, M., and Andrews, A. M., "Relationship of soil characteristics to vegetation successions on a sequence of degraded and rehabilitated soils in Honduras," Agric. Ecosystems Environ., 72, 215-225(1999).   DOI   ScienceOn
16 정병간, 최정원, 윤을수, 윤정희, 김유학", 우리나라 밭 토양화학적특성,"한국토양비료학회지, 34, 326-332(2001).
17 정병간, 윤정희, 김유학, 김석현", 논토양에서 유효인산 함량과 인산흡수능에 따른 0.01M $CaCl_{2}$ 가용 인산농도 변화,"한국토양비료학회지, 36, 384-390(2003).
18 Kandeler, E., Marschner, P., Tscherko, D., Gahoonia, T. S., and Nielsen, N. E.," Microbial community composition and functional diversity in the rhizosphere of maize."Plant Soil, 238, 301-312(2002).   DOI   ScienceOn
19 USEPA, Acid digestion of sediments, sludge, and soils, Method 3050A, United States Environmental Protection Agency(1992).
20 OECD, Enchytraeidae reproduction test, OECD Guideline 200, Paris, pp. 13(2000).
21 Casida, J., Klein, L. E., and Santoro, D. A., "Soil dehydrogenase activity,"Soil Sci., 98, 371-376(1964).   DOI
22 전효택, 정명채", 함우라늄 흑색세일 분포지역에서의 유해성원소들의 분산에 관한 지구화학적 연구,"한국자원공학회지, 24,245-260(1991).
23 환경부, 토양환경보전법, (2006).
24 임수길, 윤준헌, 이창호", 무궁화 생육에 미치는 토양의 영향(토성과 pH를 중심으로),"자연자원논집, 34, (1994).
25 김정규, 임수길, 이상환, 이창호, 정창윤", 휴페광산지역 오염토양의 phytoremediation을 위한 식물자원 검색,"한국환경농학회지,18, 28-34(1999).
26 농촌진흥청, 농업환경변동조사사업보고서, (2003).