References
- 김경훈, 성기준, 장윤영, 이철효, 2003, 탄화수소계 화합물 오염 토양 정화를 위한 Phytopile 적용효과, 한국폐기물 학회지, 20(8), 793-799.
- 김홍기, 서동철, 정용화, 강창순, 손보균, 이도진, 강종구, 박문수, 허종수, 김봉수, 조주식, 2007, 부식산 사용이 토마토의 생장과 과실품질에 미치는 영향, 한국환경농학회지, 26(4), 313-318.
- 농업기술연구소, 1988, 토양화학분석법, p. 450.
- 농촌진흥청, 2009, 과원토양관리, p. 209-219.
- 박소영, 성기준, 2007, 실내포름알데히드 농도에 미치는 식물의 영향, 한국환경과학회지, 16(2), 197-202.
- 성기준, 2005, Phytoremediation as an innovative technology for multimedia remediation and restoration, 지하수관리기술 워크샵, 강원대학교, p. 44-65.
- 옥영식, 김정규, 양재의, 김휘중, 유경영, 박창진, 정덕영, 2004, 중금속 오염토양의 식물정화 기술과 형질전환 식물의 이용에 관한 연구, 한국토양비료학회지, 37(6), 396-406.
- 환경부, 2002, 토양오염공정시험방법.
- 환경부, 2007, 오염토양 정화방법 가이드라인, p. 228.
- 해양수산부, 2005, 해양환경공정시험방법.
- Aiken, G.R., Mcknight, D.M., and Wershaw, R.L., 1985, Humic Substances in Soil, Sediments, Water, John Wiley & Sons. Inc., p. 457-476.
- Athar, R. and Ahmad, M., 2002, Heavy metal toxicity: Effect on plant growth and metal uptake by wheat, and on free living azotobacter, Water Air and Soil Pollution, 138, 165-180. https://doi.org/10.1023/A:1015594815016
- Bio Ag Technologies International, 1999, Humic acid structure and properties, p. 1-12.
- Chen, Y. and Aviad, T., 1990, Effects of humic substances on plant growth, Soil. Sci. Soc., Madison, Wisconsin, USA, p. 161-186.
- Kumar, D., Shivay, Y.S., 2008, Definitional glossary of agricultural terms, Vol. 1, I K International Publishing House, p. 49-50.
- Gadd, G.M. and Griffiths, A.J., 1978, Microorganisms and heavy metal toxicity, Microbial Ecology, 4, 303-317. https://doi.org/10.1111/j.1574-6968.1978.tb02885.x
- Gatliff, E.G., 1994, Vegetative remediation process offers advantages over traditional pump-and-treat technologies, Remediation, Summer, 343-352.
- Interstate Technology and Regulatory Cooperation Work Group, 2001 Technical/regulatory guideline: Phytotechnology technical and regulatory guidance document. p. 84.
- Johnson, C.M., Stout, P.R., Broyer, T.C., and Carlton, A.B., 1957, Comparative chlorine requirements of different plant species, Plant and Soil, 13(4), 337-353.
- Macek, T., Mackova, M., and Kas, J., 2000, Exploitation of plants for the removal of organics in environmental remediation, Biotechnology advances, 18, 23-34. https://doi.org/10.1016/S0734-9750(99)00034-8
- Miller, R.R., Phytoremediation, 1996, Groundwater Remediation Technologies Analysis Center, PA. USA.
-
Preston, C.M., Dudley, R.L., Fyfe, C.A., and Mathus, S.P., 1984, Effects of variations in contact times and copper contents in a
$^{13}C$ CPMAS NMR study of samples of four organic soils, Geoderma, 33, 245-253. https://doi.org/10.1016/0016-7061(84)90059-4 - Schnoor, J.L., Light, L.A., McCutcheon, S.C., Wolfe, N.L., and Carreira, L.H., 1995, Phytoremediation of organic and nutrient contaminants. Environ. Sci. Technol. 29(7), 318-323. https://doi.org/10.1021/es00007a747
- Schnoor, J.L. 1998, Phytoremediation. Ground-Water Remediation Technology Analysis Center, Pittsburgh, PA.
- Schnoor, J.L., 2002, Phytoremediation of Soil and Groundwater, GWTAC, TE-02-01. p. 45.
- Simonich, S.L. and Hites, R.A., 1995, Organic pollutant accumulation in vegetation, Environ. Sci. Technol., 29(12), 2905-2914 https://doi.org/10.1021/es00012a004
- Sparks, D.L., 1995, Environmental soil chemistry. Academic Press, Inc., San Diego.
- Stevenson, F.J., 1994. Humic chemistry: Genesis, Composition, Reactions. John Wiley and Sons, New York.
- US EPA, 1999a, Phytoremediation resource guide, EPA 542-B-99-003.
- US EPA, 1999b, Phytoremediation Resources Guide, EPA 542-B-99-003.
- US EPA 2000, Introduction of phytoremediation, EPA/600/R-99/107.
- US EPA 2001, Phytoremediation of contaminated soil and ground water at hazardous waste sites, EPA/540/S-01/500.
- Volk, B.G. and Schnitzer, M., 1973, Chemical and spectroscopic methods for assessing subsidence in Florida Histosols, Soil Sci. Soc. Am. Proc., 37, 886-888. https://doi.org/10.2136/sssaj1973.03615995003700060027x
- Watkins, C.H. and Hammerschlag, R.S., 2003, The toxicity of chlorine to a common vascular aquatic plant, Water Research, 18(8), 1037-1043.
- Weis, J.S., Glover, T., and Weis, P., 2004, Interactions of metals affect their distribution in tissues of Phragmites australis, Environ. Poll., 131, 409-415. https://doi.org/10.1016/j.envpol.2004.03.006
- Zelazny, L.W. and Carlisle, V.W., 1974, Physical, chemical, elemental, and oxygen-containing functional group analysis of selected Florida Histosols, SSSA Spec. Publ., 6, p. 63-78.
Cited by
- Effects of humic acid on heavy metal uptake by herbaceous plants in soils simultaneously contaminated by petroleum hydrocarbons vol.68, pp.8, 2013, https://doi.org/10.1007/s12665-012-1920-8
- Effects of humic acid on phytodegradation of petroleum hydrocarbons in soil simultaneously contaminated with heavy metals vol.23, pp.12, 2011, https://doi.org/10.1016/S1001-0742(10)60670-5
- Effects of Soil Remediation Methods on the Biological Properties of Soils vol.18, pp.3, 2013, https://doi.org/10.7857/JSGE.2013.18.3.073