계곡형 토석류가 발생한 급경사 신기 계곡의 특성|RISS 상세보기

다국어 초록 (Multilingual Abstract)

In mountain gully, channelized debris flow is an important phenomenon in the process of topographical change. Social infrastructure as roads may be damaged by channelized debris flows, but there has been little information about their occurrence and movement to prepare for the risk of the debris flow. Most of the channelized debris flows occur during heavy rains in mountainous valleys that are difficult to access, so there are not many field data.
In this study, the topographical characteristics of the catchment, the rainfall and runoff related to the debris flow, the sedimentary pattern and the cross-sectional change of the channel bed, and the underflow velocity of the gravel bed have been investigated and analyzed in the Singi gully where the channelized debris flows occurred. In the catchment, there was almost no sediment runoff because the vegetation combine with the debris landforms and covered the surface. Therefore, the obvious cause of the channelized debris flows is the collapse of the slope and bed of the gully. Even if the gravel, cobbles, and boulders of the channel bed were lost by debris flow, the thalweg change due to debris flow may not be significant because they are supplied from the gully side slope normally. After the gabion structures were installed, the debris flow increased the thalweg change, bed erosion and side slope of the gully. Various sedimentary structures in the gully were classified according to the factors supporting the sedimentation. The hypsometric curve of the gully reflects the debris landforms and vegetation characteristics of the watershed and the sediment runoff due to debris flow, etc. The relationship between the flow velocity and the hydraulic gradient was non-linear under the condition that the porous medium with gully bed gravels is saturated with water. These results may be used as basic data for channelized debris flow research.

번역하기

참고문헌 (Reference)

1 이성호, "한반도 서남부 암설사면지형의 분포가능성 예측 및 검증" 한국지형학회 27 (27): 1-17, 2020

2 김형수, "평안누층군의 재조명: 송림 조산운동의 변성작용과 변형작용" 대한자원환경지질학회 52 (52): 367-379, 2019

3 양재준, "영동지역 자갈하상하천의 하상물질 형상 특성" 한국지형학회 21 (21): 33-49, 2014

4 Gregoretti, C., "The initiation of debris flow at high slopes: experimental results" 38 (38): 83-88, 2000

5 Sneed, E. D., "Pebbles in the lower Colorado river, Texas: a study in particle morphogenesis" 66 (66): 114-150, 1958

6 Coe, J. A., "Initiation conditions for debris flows generated by runoff at Chalk Cliffs, central Colorado" 96 : 270-297, 2008

7 Strahler, A. N., "Hypsometric (area-altitude)analysis of erosional topography" 63 : 1117-1142, 1952

8 장동호, "GIS 기반 우도비를 이용한 호남지역 암괴류와 애추지형의 분포 특성 분석" 한국지형학회 25 (25): 1-14, 2018

9 Kim, J. I., "Fundamentals of geomorphology" Seoul National University Press 2019

10 Gregoretti, C., "Experimental evidence from the triggering of debris flow along a granular slope, Physics and Chemistry of the Earth Part B" 25 (25): 387-390, 2000