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초록
Recently, climate change has gradually accelerated the occurrence of landslides. Among the various effects caused by landslides,debris flow is recognized as particularly threatening because of its high speed and propagating distance. In this study, the impacts of various factors were analyzed using quantification theory(I) for the prediction of debris flow hazard soil volume in Seoraksan National Park, Korea. According to the range using the stepwise regression analysis, the order of impact factors was as follows: vertical slope (0.9676), cross slope (0.6876), altitude (0.2356), slope gradient (0.1590), and aspect (0.1364). The extent of the normalized score using the five-factor categories was 0 to 2.1864, with the median score being 1.0932. The prediction criteria for debris flow occurrence based on the normalized score were divided into four grades: class I, >1.6399; class II, 1.0932–1.6398; class III, 0.5466–1.0931; and class IV, <0.5465. Predictions of debris flow occurrence appeared to be relatively accurate (86.3%) for classes I and II. Therefore, the prediction criteria for debris flow will be useful for judging the dangerousness of slopes.
키워드
- 제목
- 설악산 국립공원 지역 토석류 발생가능성 평가 기법의 개발
- 제목 (타언어)
- Development of a Prediction Technique for Debris Flow Susceptibility in the Seoraksan National Park, Korea
- 저자
- 이성재; 김길원; 정원옥; 강원석; 이은재
- 발행일
- 2021-03
- 저널명
- 한국산림과학회지
- 권
- 110
- 호
- 1
- 페이지
- 64 ~ 71