Numerical investigation of rainfall intensity and duration control of rainfall-induced landslide at a specific slope using slope case histories and actual rainfall records

Rainfall is a major triggering factor for landslide hazards in many regions. The relationship between rainfall characteristics and slope stability is of great importance for mitigating landslide risks. Some recent studies showed that there is a threshold curve of rainfall intensity and duration for...

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Published in	Bulletin of engineering geology and the environment Vol. 82; no. 8
Main Authors	LIU, Xin, WANG, Yu, LEUNG, Anthony Kwan
Format	Journal Article
Language	English
Published	Berlin/Heidelberg Springer Berlin Heidelberg 01.08.2023
Subjects	Earth and Environmental Science Earth Sciences Foundations Geoecology/Natural Processes Geoengineering Geotechnical Engineering & Applied Earth Sciences Hydraulics Nature Conservation Original Paper Landslide risk assessment Slope stability Rainfall-induced landslides Rainfall characteristics Landslide prediction
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ISSN	1435-9529 1435-9537
DOI	10.1007/s10064-023-03359-1

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Abstract	Rainfall is a major triggering factor for landslide hazards in many regions. The relationship between rainfall characteristics and slope stability is of great importance for mitigating landslide risks. Some recent studies showed that there is a threshold curve of rainfall intensity and duration for a specific slope and that landslides are expected to occur when the rainfall intensity and duration imposed on the slope exceed the threshold curve. These curves offer a convenient way to predict rainfall-induced landslides at a specific slope and provide insights into the slope’s rainfall intensity-duration control of landslides. However, the development of the abovementioned threshold curves in the previous studies was limited to some special slope conditions, such as infinite slopes with a shallow planar failure mode, and contained assumptions inconsistent with field observations, such as fully saturated soil at slope failure. This study aims to address these limitations and assumptions and numerically investigate the rainfall intensity-duration control of rainfall-induced landslides at a specific slope using real slope case histories and actual rainfall records. A generalized procedure is proposed to develop an explicit relationship between rainfall intensity and duration at a specific slope, which is referred to as critical rainfall pattern curve (CRPC). The slope-specific CRPC from different slope case histories can be reasonably fitted by a power function with an R 2 value of 0.988 – 1.000. The CRPCs are consistent with the actual rainfall records and slope failures observed. CRPC provides a simple but effective tool for slope-specific landslide prediction and risk assessment.
AbstractList	Rainfall is a major triggering factor for landslide hazards in many regions. The relationship between rainfall characteristics and slope stability is of great importance for mitigating landslide risks. Some recent studies showed that there is a threshold curve of rainfall intensity and duration for a specific slope and that landslides are expected to occur when the rainfall intensity and duration imposed on the slope exceed the threshold curve. These curves offer a convenient way to predict rainfall-induced landslides at a specific slope and provide insights into the slope’s rainfall intensity-duration control of landslides. However, the development of the abovementioned threshold curves in the previous studies was limited to some special slope conditions, such as infinite slopes with a shallow planar failure mode, and contained assumptions inconsistent with field observations, such as fully saturated soil at slope failure. This study aims to address these limitations and assumptions and numerically investigate the rainfall intensity-duration control of rainfall-induced landslides at a specific slope using real slope case histories and actual rainfall records. A generalized procedure is proposed to develop an explicit relationship between rainfall intensity and duration at a specific slope, which is referred to as critical rainfall pattern curve (CRPC). The slope-specific CRPC from different slope case histories can be reasonably fitted by a power function with an R 2 value of 0.988 – 1.000. The CRPCs are consistent with the actual rainfall records and slope failures observed. CRPC provides a simple but effective tool for slope-specific landslide prediction and risk assessment.
ArticleNumber	333
Author	WANG, Yu LIU, Xin LEUNG, Anthony Kwan
Author_xml	– sequence: 1 givenname: Xin surname: LIU fullname: LIU, Xin organization: Department of Architecture and Civil Engineering, City University of Hong Kong – sequence: 2 givenname: Yu orcidid: 0000-0003-4635-7059 surname: WANG fullname: WANG, Yu email: yuwang@cityu.edu.hk organization: Department of Architecture and Civil Engineering, City University of Hong Kong – sequence: 3 givenname: Anthony Kwan surname: LEUNG fullname: LEUNG, Anthony Kwan organization: Department of Civil and Environmental Engineering, Hong Kong University of Science and Technology
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Keywords	Landslide risk assessment Slope stability Rainfall-induced landslides Rainfall characteristics Landslide prediction
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Snippet	Rainfall is a major triggering factor for landslide hazards in many regions. The relationship between rainfall characteristics and slope stability is of great...
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SubjectTerms	Earth and Environmental Science Earth Sciences Foundations Geoecology/Natural Processes Geoengineering Geotechnical Engineering & Applied Earth Sciences Hydraulics Nature Conservation Original Paper
Title	Numerical investigation of rainfall intensity and duration control of rainfall-induced landslide at a specific slope using slope case histories and actual rainfall records
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