Statistical approach to earthquake-induced landslide susceptibility

Chyi Tyi Lee; Chien Cheng Huang; Jiin Fa Lee; Kuo Liang Pan; Ming Lang Lin; Jia Jyun Dong

doi:10.1016/j.enggeo.2008.03.004

Statistical approach to earthquake-induced landslide susceptibility

Chyi Tyi Lee, Chien Cheng Huang, Jiin Fa Lee, Kuo Liang Pan, Ming Lang Lin, Jia Jyun Dong

研究成果: 雜誌貢獻 › 期刊論文 › 同行評審

182 引文斯高帕斯（Scopus）

摘要

Susceptibility analysis for predicting earthquake-induced landslides has most frequently been done using deterministic methods; multivariate statistical methods have not previously been applied. In this study, however, we introduce a statistical methodology that uses the intensity of earthquake shaking as a landslide triggering factor. This methodology is applied in a study of shallow earthquake-induced landslides in central western Taiwan. The results show that we can accurately interpret landslide distribution in the study area and predict the occurrence of landslides in neighboring regions. This susceptibility model is capable of predicting shallow landslides induced during an earthquake scenario with similar range of ground shaking, without requiring the use of geotechnical, groundwater or failure depth data.

原文	???core.languages.en_GB???
頁（從 - 到）	43-58
頁數	16
期刊	Engineering Geology
卷	100
發行號	1-2
DOIs	https://doi.org/10.1016/j.enggeo.2008.03.004
出版狀態	已出版 - 27 6月 2008

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10.1016/j.enggeo.2008.03.004

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title = "Statistical approach to earthquake-induced landslide susceptibility",

abstract = "Susceptibility analysis for predicting earthquake-induced landslides has most frequently been done using deterministic methods; multivariate statistical methods have not previously been applied. In this study, however, we introduce a statistical methodology that uses the intensity of earthquake shaking as a landslide triggering factor. This methodology is applied in a study of shallow earthquake-induced landslides in central western Taiwan. The results show that we can accurately interpret landslide distribution in the study area and predict the occurrence of landslides in neighboring regions. This susceptibility model is capable of predicting shallow landslides induced during an earthquake scenario with similar range of ground shaking, without requiring the use of geotechnical, groundwater or failure depth data.",

keywords = "Chi-Chi earthquake, Earthquake-induced landslides, Event-based, Landslide hazard, Landslide inventory, Landslide susceptibility, Landslides",

author = "Lee, {Chyi Tyi} and Huang, {Chien Cheng} and Lee, {Jiin Fa} and Pan, {Kuo Liang} and Lin, {Ming Lang} and Dong, {Jia Jyun}",

note = "Funding Information: This research was supported by the Central Geological Survey (CGS), Ministry of Economic Affairs, Taiwan, under the Landslide Research Project. The authors are deeply appreciative to Director C.C. Lin of the CGS for his concern for this project and for his helpful hints. The authors would also like to express their appreciation to the several reviewers of this project for their enthusiastic advice and valuable suggestions. Special thanks are due to Dr. D.K. Keefer of the U.S. Geological Survey, Menlo Park, for his helpful discussion and critical reading of this manuscript. Dr. Roberto Romeo, an anonymous reviewer and Editor Giovanni Crosta provided constructive comments.",

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AU - Lee, Chyi Tyi

AU - Huang, Chien Cheng

AU - Lee, Jiin Fa

AU - Pan, Kuo Liang

AU - Lin, Ming Lang

AU - Dong, Jia Jyun

N1 - Funding Information: This research was supported by the Central Geological Survey (CGS), Ministry of Economic Affairs, Taiwan, under the Landslide Research Project. The authors are deeply appreciative to Director C.C. Lin of the CGS for his concern for this project and for his helpful hints. The authors would also like to express their appreciation to the several reviewers of this project for their enthusiastic advice and valuable suggestions. Special thanks are due to Dr. D.K. Keefer of the U.S. Geological Survey, Menlo Park, for his helpful discussion and critical reading of this manuscript. Dr. Roberto Romeo, an anonymous reviewer and Editor Giovanni Crosta provided constructive comments.

PY - 2008/6/27

Y1 - 2008/6/27

N2 - Susceptibility analysis for predicting earthquake-induced landslides has most frequently been done using deterministic methods; multivariate statistical methods have not previously been applied. In this study, however, we introduce a statistical methodology that uses the intensity of earthquake shaking as a landslide triggering factor. This methodology is applied in a study of shallow earthquake-induced landslides in central western Taiwan. The results show that we can accurately interpret landslide distribution in the study area and predict the occurrence of landslides in neighboring regions. This susceptibility model is capable of predicting shallow landslides induced during an earthquake scenario with similar range of ground shaking, without requiring the use of geotechnical, groundwater or failure depth data.

AB - Susceptibility analysis for predicting earthquake-induced landslides has most frequently been done using deterministic methods; multivariate statistical methods have not previously been applied. In this study, however, we introduce a statistical methodology that uses the intensity of earthquake shaking as a landslide triggering factor. This methodology is applied in a study of shallow earthquake-induced landslides in central western Taiwan. The results show that we can accurately interpret landslide distribution in the study area and predict the occurrence of landslides in neighboring regions. This susceptibility model is capable of predicting shallow landslides induced during an earthquake scenario with similar range of ground shaking, without requiring the use of geotechnical, groundwater or failure depth data.

KW - Chi-Chi earthquake

KW - Earthquake-induced landslides

KW - Event-based

KW - Landslide hazard

KW - Landslide inventory

KW - Landslide susceptibility

KW - Landslides

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EP - 58

JO - Engineering Geology

JF - Engineering Geology

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Statistical approach to earthquake-induced landslide susceptibility

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