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Behaviour of Subsurface Water Flow on the 'U-shaped Gol' Head Hollow of Hillslope  

Cho, Kyong-Min (Dept. of Geography, Konkuk Univ.)
Yang, Hea-Kun (Dept. of Geography, Konkuk Univ.)
Astunao, Marui (AIST)
Park, Jong-Kwan (Dept. of Geography, Konkuk Univ.)
Publication Information
Journal of the Korean Geographical Society / v.41, no.6, 2006 , pp. 670-681 More about this Journal
Abstract
The purpose of this study is to clarify the behavior of subsurface water flow during rainfall on the hillslope in the Dongguneung experimental basin. As a result of the study, the following conclusions were obtained. Under the total rainfall of 20mm, there were no groundwater level changes. However, it was found that total rainfall amount and rainfall intensity were important factors to change groundwater level in hilly slope. Also the rainfall duration and preexisted rainfall amount were important factors to change it on the head hollow. To analyze the modification of 'U-shaped Gol' landform, the pattern of return flow and through flow have to check during storm events. The microgeomorphic change of head hollow is based on the pattern of subsurface water flow.
Keywords
subsurface water; return flow; through flow; micro-landform change; U-shaped Gol' landform;
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  • Reference
1 박종관.양해근, 2004, 'U자형 골' 곡두사면의 토양수분 분포와 유출특성,' 대한지리학회지, 39(1), 45-55
2 양해근.박종관, 2004, '화강암 지대 완사면에 발달된 'U자형 골' 지형의 수문지형학적 의의-전라북도 고창군 지역을 사례로-,' 한국지형학회지, 11(3), 63-74
3 조경민, 2006, 구릉지 사면에서 지중수 거동이 지형변화에 미치는 영향, 건국대학교 대학원 석사학위 청구논문
4 Horton, R. E., 1940, An approach toward a physical interpretation of infiltration capacity, Soil Science Society of America, Proceedings, 4, 399-417
5 Okunishi, K., 1994, Concept and methodology of hydrogeomorphology, Transactions, 15(A), 5-18
6 Onda, Y. and N. Itakura, 1997, An experimental study on the burrowing activity of river crabs on subsurface water movement and piping erosion, Geomorphology, 20, 279-288   DOI   ScienceOn
7 丸井敦尙, 1991, '帶狀に堆積した斜面における降雨浸透プロセスと地中水の貯留機能,' 地理評論, 64(3), 145-166
8 Anderson, M.G. and T.P. Burt, 1991, Process Studies in Hillslope Hydrology, John Wiley and Sons
9 恩田裕一.奧西一夫.飯田智之.辻村眞貴, 1996, 水文地形學-山地の水循環と地形變化の相互作用-, 古今書院(東京)
10 Maui, A., 1986, Subsurface water storage and runoff processes in a layered hillslope, University of Tsukuba, Unpublished doctorate thesis thesis
11 이선.신상철, 2002, '전통 사적공간의 경관관리를 위한 생태환경 분석,' 한국환경생물학회, 20(4), 366-377
12 Kirkby, M.J.(ed.), 1978, Hillslope Hydrology, John Wiley and Sons
13 宮崎毅, 2000, 環境地水學, 東京大學出版會
14 Bano, M., G. Marguis, B. Niviere, J.C. Maurin and M. Cushing, 2000, Investigating alluvial and tectonic features with ground-penetration radar and analyzing diffractions pattern, Journal of Applied Geophysics, 43, 33-41   DOI   ScienceOn
15 寺嶋智巳, 2002, '0次谷谷頭凹地におけるパイプ流に影響された水および土砂の流出,' 地形, 23, 511-535
16 민경현.고성하.박태영, 1974, '산림기상에 관한 연구,' 임업연구, 21, 231-242
17 Jones, J.A., J.M. Richardson and H.J. Jacob, 1997, Factors controlling the distribution of piping in Britain: a reconnaissance, Geomorphology, 20, 289-306   DOI   ScienceOn
18 한국동력자원연구소, 1984, 전국사면 불안정 지역분포도(서울편)