기저유출을 고려한 유역의 오염총량산정

  • Published : 2016.11.30

Abstract

Keywords

References

  1. Eckhardt, K. (2005), How to construct recursive digital filters for baseflow separation, Hydrol. Process., 19(2):507-515. https://doi.org/10.1002/hyp.5675
  2. Hallberg, G. R. (1987), Nitrates in ground water in Iowa. In: D'Itri, F.M., Wolfson, L.G. (Eds.), Rural Ground Water Contamination, Lewis, Chelsea Michigan.
  3. Lim, K. J., Engel, B. A., Tang, Z., Choi, J., Kim, K., Muthukrishnan, S. and Tripathy, D. (2005) Automated web GIS based hydrograph analysis tool, WHAT, J. Am. Water Resour. Asso., 41:1407-1406. https://doi.org/10.1111/j.1752-1688.2005.tb03808.x
  4. Linsley, R. K., Kohler, M. A. and Paulhus, J. L. H. (1982), McGraw-Hillcivil engineering series, Hydrology for Engineers, Sources of hydrologic and meteorological data, 656-663.
  5. Lyne, V. D. and Hollick, M. (1979), Stochastic time-variable rainfall-runoff modeling, Proceedings of Hydro. and Water Resour. Symp., Institution of Engineers Australia, Perth, 89-92.
  6. Magette, W. L., T. H., Wood, J. D., Weismiller, R. A., and Lessley, B. V. (1989) Indian town best management pratices demonstration farm: Summary of hydrologic and water quality monitoring 1986-1988. Unpublished Report to the Maryland Department of Agriculture, Agricultural Engimeering Department, University of Maryland, Maryland.
  7. Schilling, K. E. (2002), Chemical transport from paired agricultural and restored prairie watersheds, J. Envion. Qual., 31:1846-1851.
  8. 신용철, 류창원, 최예환, 임경재, 최중대 (2006), 농업소하천 유역의 기저유출에 의한 오염부하특성, 한국물환경학회, 22(2):244-249.
  9. 윤용남 (2007), 수문학(기초와 응용), 청문각, pp. 413-436.
  10. 이재수 (2006), 수문학, 구미서관, pp. 321-329.
  11. 최연호 (2014), 기저유출량 및 기저부하량을 고려한 맞춤형 유역 수질관리 방안 연구, 강원대학교 박사학위.
  12. 최중대, 이찬만, 최예환, 토지이용이 농업소유역의 수질에 미치는 영향, 한국수자원학회논문집, 32(4):501-510 (1999).
  13. 환경부, 수질오염공정시험법(1996).
  14. 한강수계관리위원회, 친환경적 농업관리에 의한 오염부하의 저감효과 분석(2003).