Multimodal method for coseismic landslide hazard assessment

Regional-scale coseismic landslide hazard assessments have traditionally been based on infinite-slope analyses, considering only a single mode of failure. Inventories and landslide reconnaissance work have shown a diverse range of coseismic landslide modes with significantly different consequences o...

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Published in:Engineering geology Vol. 212; pp. 146 - 160
Main Authors: Grant, Alex, Wartman, Joseph, Abou-Jaoude, Grace
Format: Journal Article
Language:English
Published: Elsevier B.V 30.09.2016
Subjects:
Coseismic
earthquakes
engineering
Hazard
hazard characterization
inventories
landscapes
Landslide
landslides
Lebanon
Modes of failure
soil
topography
Lebanon
Coseismic
Modes of failure
Landslide
Hazard
ISSN:0013-7952, 1872-6917
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Abstract Regional-scale coseismic landslide hazard assessments have traditionally been based on infinite-slope analyses, considering only a single mode of failure. Inventories and landslide reconnaissance work have shown a diverse range of coseismic landslide modes with significantly different consequences of failure. This paper presents a multimodal approach for regional-scale coseismic landslide hazard assessment. Through a two-step procedure, the multimodal method explicitly accounts for four general landslide types commonly observed during earthquakes: rock-slope failures, disrupted soil slides, coherent rotational slides, and lateral spreads. First, the susceptibility to each landslide mode is evaluated based on topography. Second, coseismic landslide hazards are assessed using mode-specific geotechnical models. A trial multimodal landslide assessment is presented for the seismically active country of Lebanon. Results show that the computed coseismic landslide hazard closely matches field-verified slope activity across different regions of the country exhibiting a range of failure modes. These results qualitatively demonstrate the efficacy of the procedure and suggest that multimodal coseismic landslide hazard analysis is especially well-suited for regions with varying terrain and where landslide inventories are not available. •Coseismic landsliding hazard assessed as composite of discrete modes of failure•Method applicable over regional scales without requiring landslide inventory•Model was verified in the field for 30 sites in Lebanon.•Predicted modes of landsliding and activity closely matched reality.
AbstractList Regional-scale coseismic landslide hazard assessments have traditionally been based on infinite-slope analyses, considering only a single mode of failure. Inventories and landslide reconnaissance work have shown a diverse range of coseismic landslide modes with significantly different consequences of failure. This paper presents a multimodal approach for regional-scale coseismic landslide hazard assessment. Through a two-step procedure, the multimodal method explicitly accounts for four general landslide types commonly observed during earthquakes: rock-slope failures, disrupted soil slides, coherent rotational slides, and lateral spreads. First, the susceptibility to each landslide mode is evaluated based on topography. Second, coseismic landslide hazards are assessed using mode-specific geotechnical models. A trial multimodal landslide assessment is presented for the seismically active country of Lebanon. Results show that the computed coseismic landslide hazard closely matches field-verified slope activity across different regions of the country exhibiting a range of failure modes. These results qualitatively demonstrate the efficacy of the procedure and suggest that multimodal coseismic landslide hazard analysis is especially well-suited for regions with varying terrain and where landslide inventories are not available.
Regional-scale coseismic landslide hazard assessments have traditionally been based on infinite-slope analyses, considering only a single mode of failure. Inventories and landslide reconnaissance work have shown a diverse range of coseismic landslide modes with significantly different consequences of failure. This paper presents a multimodal approach for regional-scale coseismic landslide hazard assessment. Through a two-step procedure, the multimodal method explicitly accounts for four general landslide types commonly observed during earthquakes: rock-slope failures, disrupted soil slides, coherent rotational slides, and lateral spreads. First, the susceptibility to each landslide mode is evaluated based on topography. Second, coseismic landslide hazards are assessed using mode-specific geotechnical models. A trial multimodal landslide assessment is presented for the seismically active country of Lebanon. Results show that the computed coseismic landslide hazard closely matches field-verified slope activity across different regions of the country exhibiting a range of failure modes. These results qualitatively demonstrate the efficacy of the procedure and suggest that multimodal coseismic landslide hazard analysis is especially well-suited for regions with varying terrain and where landslide inventories are not available. •Coseismic landsliding hazard assessed as composite of discrete modes of failure•Method applicable over regional scales without requiring landslide inventory•Model was verified in the field for 30 sites in Lebanon.•Predicted modes of landsliding and activity closely matched reality.
Author Wartman, Joseph
Grant, Alex
Abou-Jaoude, Grace
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  organization: Lebanese American University, Byblos, Lebanon
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Keywords Coseismic
Modes of failure
Landslide
Hazard
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Snippet Regional-scale coseismic landslide hazard assessments have traditionally been based on infinite-slope analyses, considering only a single mode of failure....
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SubjectTerms Coseismic
earthquakes
engineering
Hazard
hazard characterization
inventories
landscapes
Landslide
landslides
Lebanon
Modes of failure
soil
topography
Title Multimodal method for coseismic landslide hazard assessment
URI https://dx.doi.org/10.1016/j.enggeo.2016.08.005
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