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http://dx.doi.org/10.3741/JKWRA.2008.41.9.919

Interaction between Groundwater and Surface Water in Urban Area  

Bae, Sang-Keun (Dept. of Civil Engineering, Keimyung Univ.)
Lee, Seung-Hyun (Dept. of Civil Engineering, Keimyung Univ.)
Publication Information
Journal of Korea Water Resources Association / v.41, no.9, 2008 , pp. 919-927 More about this Journal
Abstract
Flow exchanges between stream and groundwater are assessed on urban streams in Daegu, Korea. Two rivers and 25 streams with the total length of 240 km run through the study area. The interaction between surface water and groundwater was estimated using Darcy's method. The study was conducted by dividing the basin into 16 smaller watersheds, and for comparison purposes. Groundwater level, surface water level, hydraulic conductivity, thickness of aquifer, and the distance between the well and the nearest stream were used for quantifying the interaction. To investigations the groundwater interaction in the watersheds, the amount of effluent seepage from groundwater to the stream, the amount of influent seepage from the stream to groundwater, and the amount of annual interaction between surface water and groundwater were computed. The total amount of effluent seepage from the groundwater to stream in the basin was approximately $72{\times}10^6m^3/year$. The total amount of influent seepage from the stream to groundwater was approximately $35{\times}10^6m^3/year$. It appeared that the total amount of annual interaction between surface water and groundwater was approximately $108{\times}10^6m^3/year$ and the total groundwater flow balance was approximately $37{\times}10^6m^3/year$. The annual amount of interaction between the surface water and groundwater was the largest in the Goryung Bridge Basin($29{\times}10^6m^3/year$) and the least in the Dalchang Dam Basin($0.2{\times}10^6m^3/year$). The results show that flow exchanges between stream and groundwater are very active and that there are significant difference among the smaller watersheds. Finally, the results indicate that it is necessary to further investigate to more precisely understand the interaction characteristics between surface water and groundwater in urban areas.
Keywords
groundwater; surface water; interaction; seepage; urban area;
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  • Reference
1 Schilling, K.E., Li, Z., and Zhang, Y. (2006). "Groundwater-surface water interaction in the riparian zone of an incised channel, Walnut Creek, Iowa." Journal of Hydrology, Vol., 327, pp. 140-150   DOI   ScienceOn
2 Thomas, A. and Tellam, J. (2006). "Modeling of recharge and pollutant fluxes to urban groundwaters." Science of The Total Environment, Vol. 360, pp. 158-179   DOI   ScienceOn
3 Winter, T.C. (1999). "Relation of streams, lakes and wetlands to groundwater flow systems." Hydrogeology Journal, Vol. 7, pp. 28-45   DOI
4 건설교통부, 한국수자원공사 (2004). 대구지하수기초조사 보고서
5 건설교통부, 한국수자원공사 (2006). 지하수 조사연보
6 기상청 (2006). 강우량관측자료 http://www.kma.go.kr
7 김수원, 배상근 (1996). "도시화에 의한 지하수 환경의 변화." 상하수도학회지, 상하수도학회, 제10권, 제1호, pp. 69-77
8 김윤종, 원종석, 이석민 (2000). "GIS를 이용한 서울시 지하수 오염분석 연구." The Journal of GIS Association of Korea, 제8권, 제2호, pp. 317-328   과학기술학회마을
9 대구광역시 (2004). 대구광역시 통계연보
10 대구광역시 (2007). 대구광역시 통계자료실 http://www.daegu. go.kr
11 어수미, 오수경, 박성배 (1989). "서울지역 지하수의 오염도와 성분별 상관성 검토." 한국환경위생학회지, 한국환경위생학회, 제15권, 제1호, pp. 51-62
12 윤용남 (2007). 수문학, 청문각
13 건설교통부 (2004). 전국하천일람
14 최무웅 (1991). "도시환경과 지하수", 지하수. Vol.1, pp. 52-57
15 Corbett, D.R., Burnett, W.C., and Chanton, J.P. (2000). "Submarine groundwater discharge, an unseen yet potentially important coastal phenomenon." SGEB-54
16 Edmunds, W.M, Carrillo-Rivera, J.J., and Cardona, A. (2002). "Geochemical evolution of groundwater beneath Mexico City." Journal of Hydrology, Vol. 258, pp. 1-24   DOI   ScienceOn
17 Foster, S.S.D. and Chilton, P.J. (2004). "Downstream of downtown: urban wastewater as groundwater recharge." Hydrogeology Journal, Vol. 12, pp. 115-120   DOI
18 Navarro, A. and Carbonell, M. (2007). "Evaluation of groundwater contamination beneath an urban enviroment: The Besos river basin(Barcelona, Spain)." Journal of Environmental Management, Vol. 85, No. 2, pp. 259-269   DOI   ScienceOn
19 Nield, S.P., Townley, L.R., and Barr, A.D. (1994). "A framework for quantitative analysis of surface water-groundwater interaction: flow geometry in a vertical section." Water Resources Research, Vol. 30. pp. 2461-2474   DOI   ScienceOn
20 Sophocleous, M. (2002). "Interactions between groundwater and surface water: the state of the science." Hydrogeology Journal, Vol. 10. pp. 52-67   DOI   ScienceOn
21 Szilagyi, J., Parlange, M.B., and Balint, G. (2006). "Assessing stream-aquifer interactions through inverse modeling of flow routing." Journal of Hydrology, Vol. 327, pp. 208-218   DOI   ScienceOn
22 Toth, J. (1963). "A theoretical analysis of flow in small drainage basins." Proceedings of Hydrology Symposium, No. 3, Groundwater, pp. 75-96
23 Younger, P.L., Mackay, R.J., and Connoton, B.J. (1993). "Streambed sediment as a barrier to groundwater pollution: insights from fieldwork and modelling in the River Tames basin." Journal of the Institution of Water and Environmental Management, Vol. 7, pp. 577-585   DOI
24 Woessner, W.W. (2000). "Stream and fluvial plain ground water interactions: rescaling hydrologic thought." Ground Water, Vol. 38, pp. 423-429   DOI   ScienceOn
25 김형석, 박경선 (1998). "서울 일부지역 지하수 중 중금속함량에 관한 연구." 한국환경 분석학회지, 한국환경 분석학회, 제1권, 제2호, pp. 159-163
26 홍성훈, 한수영, 박남식 (2003). "해안지역의 지하수 개발가능량 평가", 대한토목학회논문집, 대한토목학회, 제23권, 제3B호, pp. 201-207
27 Ellis, P.A., Mackay, R., and Rivett, M.O. (2007). "Quantifying urban river-aquifer fluid exchange processes: A multi-scale problem." Journal of Contaminant Hydrology, Vol. 91, pp. 58-80   DOI   ScienceOn