National Instrumentation Center for Environmental Management, Seoul National University;National Instrumentation Center for Environmental Management, Seoul National University;National Institute for Environmental Research;National Institute for Environmental Research;National Institute for Environmental Research;National Instrumentation Center for Environmental Management, Seoul National University;
토양 중금속 함량 측정에 대한 토양오염공정시험기준과 국제표준간의 적합성 평가
신건환;이군택;이원석;김지인;김보경;박현정;
서울대학교 농생명과학공동기기원;서울대학교 농생명과학공동기기원;국립환경과학원;국립환경과학원;국립환경과학원;서울대학교 농생명과학공동기기원;
3. 박동준, 강인선, 2009, WTO/TBT 협정에 따른 기술규제 동향과 대응방안 :기술표준에 의한 생산성 제고 관점, 생산성논집, 23(4), 379-399.
4. 법제처, 2012, 환경분야시험검사 등에 관한 법률(법률 제11266호).
5. 환경부, 2009, 토양오염공정시험기준(환경부고시 제 2009-255호).
6. KS I ISO 11464, 2007, 토양의 질-물리 화학적 분석을 위한 시료의 전처리, 한국산업표준(KS).
7. KS I ISO 11465, 2005, 토양의 질-질량을 기준으로 한 건조물과 수분 함량의 측정(중량법), 한국산업표준(KS).
8. KS I ISO 11466, 2008, 토양의 질-왕수 가용성 미량원소의 추출, 한국산업표준(KS).
9. KS I ISO 11047, 2009, 토양의 질-왕수 추출에 의한 토양의 카드뮴, 크롬, 코발트, 구리, 납, 망간, 니켈 및 아연 측정방법-불꽃 및 전열 원자흡광광도법, 한국산업표준(KS).
10. KS I ISO 16772, 2005, 토양의 질-저온 증기 원자 흡광 광도법이나 저온 증기 원자 형광 광도법을 이용한 토양의 왕수 추출액 중 수은 측정, 한국산업표준(KS).
11. KS I ISO 20280, 2008, 토양의 질-전열 EH는 수소화물 생성-원자흡광광도법을 이용한 왕수 추출액중의 비소, 안티몬, 셀레늄의 측정, 한국산업표준(KS).
12. ISO 11464, 1994, Soil Quality-Pretreatment of samples for physico-chemical analysis, International Organization for Standardization.
13. ISO 11466, 1995, Soil Quality-Extraction of trace elements soluble in aqua regia, International Organization for Standardization.
14. ISO 15192, 2010, Soil quality-Determination of chromium(VI) in solid material by alkaline digestion and ion chromatography with spectrophotometric detection. International Organization for Standardization.
15. Kim, R.Y., 2009, Chromium(VI) analysis chromium(VI) contaminations of soils from Notth Rhine-Westphalia(Germany) and model experiments for chromium(VI) reduction and chromium( III) oxidation in soils, Bonner Bodenkundl. Abh. 48.
16. Myohanen, T., Mantylahti, V., Koivunen, K., and Matilainen, R., 2002, Simultaneous determination of As, Cd, Cr and Pb in aqua regia digests of soils and sediments using electrothermal atomic absorption spectrometry and fast furnace programs, Spectrochimica Acta Part B 57, 1681-1688.
17. Nelson, D.W. and Sommer, L.E., 1996, Total carbon, organic carbon, and organic matter in Method of soil analysis-Part 2, Madison, 961 p.
18. Pettine, M. and Capri, S., 2005, Removal of humic matter interference in the determination of Cr(VI) in soil extracts by diphenylcarbazide method, Analytica Chimica Acta, 540, 239-246.
19. Torok, P. and Zemberyova, M., 2011, A study of the direct determination of Cd, Cu, Pb and Zn in cerified reference materials of soils by solid sampling electrothermal atomic absorption spectrometry, Spectrochimica Acta Part B 66, 93-97.
20. U.S. EPA, 1992, SW 846 method 7196A: Chromium hexavalent( colorimetric) in test method for evaluating solid wastes physical/chemical method.
21. U.S. EPA, 1996, SW 846 method 3060A: Alkaline digestion for hexavalent chromium.
22. U.S. EPA, 1996, SW 846 method 7199: Determination of hexavalent chromium in drinking water, groundwater and industrial wastewater effluents by ion chromatography.
23. Yaman, M., Dilgin Y., and Gucer, S., 2000, Speciation of lead in soils and relation with its concentration in fruits, Analytica Chimica Acta, 410, 119-125.