- Watershed Classification Using Statistical Analysis of water Quality Data from Muju area
- 무주지역 수질특성자료의 통계학적 분석에 의한 소유역 구분
- 한원식;우남칠;이기철;이광식;
- 연세대학교 지구시스템과학과;연세대학교 지구시스템과학과;농업기반공사 농어촌연구원;한국기초과학지원연구원;
References
- 1. 이대성, 남기상, '한국 지질도(1:50,000), 장기리 도폭 및 설명서', 한국지질조사소, 33p(1969)
- 2. 한국전력공사 (KEPCO), 1991, 무주양수 1,2호 설계 기술용역 지질조사보고서(미발간)
- 3. 농어촌 지역 지하수 자원의 오염 예측도 작성 기법에 관한 연구, 농림부(2000)
- 4. 박정웅, 이용일, '백악기 무주분지의 층서 재정립', 지질학회지, 33권, p65-77(1997)
- 5. 박정웅, 이용일, '적상산에 분포하는 백악기 무주 분지 역암(길왕리층)의 기원지', 지질학회지, 36권 4호, p355-370 (2000)
- 6. Nakagawa Y., Iwatsubo G., 'Water chemistry in a number of mountain streams of east Asia', Journal of Hydrology, p118-130(2000)
- 7. Hmdry M. J. and Franklin W., The Chemical Evolution of Ground Water in the Milk River Aquifer, Canada, Groundwater, vol.28, no.2, p253-261 (1990)
-
- 8. 윤정아, 김규한, 남한 탄산수의 지구화학적 특성과 안정동위원소 조성, 지하수환경 7권 3호, P119-124(2000)
- 9. Eduardo J. and amado Guzman-Guzman, Multivariate Analysis in Hydrochemistry: An Example of the Use of Factor and Correspondence, Groundwater vol.27, No1, p27-34(1989)
-
- 10. Robert W., Stephen L., Babara M., and Manilig C., Analysis of Temporal Variability in Hydrogeochemical Data Used for Multivariate Analysis, Groundwater vol.31, No.2, p221-229(1993)
-
- 11. Carlon C., Critto A., Marcomini A., Nathanail P., Risk based characterization of contaminated industrial site using multivariate and geostatistical tools, Environmental pollution, 111 p.417-427(2001)
-
- 12. Facchinleei A., Sacchi E., Mallen L., Multivariate statical and GIS-based approach to identify heavy metal sources in soils, Environmental pollution, 114, p313-324(2000)
-
- 13. C. H. Jeong, Effect of land use and urbanization on hydrochemistry and contamination of groundwater from Taejon area, korea, Journal of Hydrology 253, p194-210(2001)
-
- 14. Appelo C. A. J., and Postma, D, Geochemistry, Groundwater and Pollution, A.A.Balkema, p263-265(1994)
- 15. Hem J., Study and Interpretation of the Chemical Characteristics of Natural Water. Third edition, U.S Geological survey water-supply paper 2254(1992)
- 16. Bernard T. and NIan, Relating Nitrogen Sources and Aquifer Susceptibility to Nitrate in Shallow Groundwaters of the United States, Groundwater, Vol.39 No.2, p.290-299(2001)
-
- 17. BERNARD T. NOLAN, KERIE J. Hitt, and Barbara C. R, Probability of Nitrate Contamination of Recently Recharged Groundwaters in the Conterminous United States, J.S. Environ. Sci. Technol., Vol.36 No.10, p.2138-2145(2002)
-
- 18. Anthony J. T. and Frank D. V, Prediction the Probability of Elevated Nitrate Concentrations in the Puget Sound Basin: Implications for Aquifer Susceptibility and Vulnerability, Groundwater, Vol.35, No.6, p.1029-1039(1997)
-
- 19. Gromly J. R. and Spalding R. F., Sources and Concentration of Nitrate-Nitrogen in Groundwater of the Centeral Platte Region, Nebraska, Groundwater, Vol.17, No.3, p291-301(1979)
-
- 20. Aravena R., Evans M. L., and Cherry J. A., Stable isotopes of Oxygen and Nitrogen in Source Identification of Nitrate from Septic System, Groundwater, Vol.31, No.2, p.180-186(1993)
-
- 21. Mueller D. K. and Helsel D. R., Nutrients in the Nation's Waters-Too Much of a Good Thing?, U.S. Geological Circular 1136(1996)
This Article