Rapid post-earthquake modelling of coseismic landslide magnitude
and distribution for emergency response decision support

Robinson, Tom; Rosser, Nick; Densmore, Alexander L.; Williams, Jack G.; Kincey, Mark; Benjamin, Jessica; Bell, Heather

doi:10.5194/nhess-2017-83

Cited by 10 publications

(19 citation statements)

References 29 publications

(37 reference statements)

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“…Even though landslide susceptibility assessment using different statistical analyses has become a common approach, the use of seismic indicators in these analyses to estimate EQIL hazard is still rare (Budimir et al, 2014;Carro et al, 2003;Gallen et al, 2016;Lee, 2014;Marzorati et al, 2002;Nowicki et al, 2014;Robinson et al, 2017). The generation of EQIL hazard maps for new or scenario events is complicated as each earthquake has specific characteristics, and existing EQIL inventories only reflect the characteristics of a single earthquake.…”

Section: Introductionmentioning

confidence: 99%

Presentation and Analysis of a Worldwide Database of Earthquake‐Induced Landslide Inventories

et al. 2017

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Earthquake‐induced landslide (EQIL) inventories are essential tools to extend our knowledge of the relationship between earthquakes and the landslides they can trigger. Regrettably, such inventories are difficult to generate and therefore scarce, and the available ones differ in terms of their quality and level of completeness. Moreover, access to existing EQIL inventories is currently difficult because there is no centralized database. To address these issues, we compiled EQIL inventories from around the globe based on an extensive literature study. The database contains information on 363 landslide‐triggering earthquakes and includes 66 digital landslide inventories. To make these data openly available, we created a repository to host the digital inventories that we have permission to redistribute through the U.S. Geological Survey ScienceBase platform. It can grow over time as more authors contribute their inventories. We analyze the distribution of EQIL events by time period and location, more specifically breaking down the distribution by continent, country, and mountain region. Additionally, we analyze frequency distributions of EQIL characteristics, such as the approximate area affected by landslides, total number of landslides, maximum distance from fault rupture zone, and distance from epicenter when the fault plane location is unknown. For the available digital EQIL inventories, we examine the underlying characteristics of landslide size, topographic slope, roughness, local relief, distance to streams, peak ground acceleration, peak ground velocity, and Modified Mercalli Intensity. Also, we present an evaluation system to help users assess the suitability of the available inventories for different types of EQIL studies and model development.

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Section: Introductionmentioning

confidence: 99%

Presentation and Analysis of a Worldwide Database of Earthquake‐Induced Landslide Inventories

et al. 2017

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“…Following the Gorkha earthquake, a new discussion began regarding inventory maps as an input layer of modeling studies. Robinson et al (2017) argued that the proposed models suffer from inadequate training data that are not representative of the site of prediction. They suggest using only a part of landslides mapped in first few hours or days immediately after an earthquake as the training set.…”

Section: Phase-4: After the 2015 Gorkha Earthquakementioning

confidence: 99%

“…Creating an EQIL inventory is a time-consuming process (e.g., Wasowski et al, 2011) despite advances in mapping techniques. For example, the EQIL inventory for the 2008 Wenchuan earthquake required more than one year of image interpretation work (Xu et al, 2014b) and the one for the 2015 Gorkha, Nepal earthquake required about one month to create despite being part of one of the fastest global rapid hazard response campaigns ever undertaken (Kargel et al, 2016;Robinson et al, 2017). Thus, the time required to create an EQIL inventory is too long to be useful for search and rescue operations (Robinson et al, 2017).…”

Section: Introduction 1 1backgroundmentioning

confidence: 99%

“…For example, the EQIL inventory for the 2008 Wenchuan earthquake required more than one year of image interpretation work (Xu et al, 2014b) and the one for the 2015 Gorkha, Nepal earthquake required about one month to create despite being part of one of the fastest global rapid hazard response campaigns ever undertaken (Kargel et al, 2016;Robinson et al, 2017). Thus, the time required to create an EQIL inventory is too long to be useful for search and rescue operations (Robinson et al, 2017). Given these time constraints on producing an EQIL inventory, an alternative approach that predicts EQIL distributions in near real-time is needed to provide critical information regarding potential blockages of roads, streams and rivers, and other critical lifelines.…”

Section: Introduction 1 1backgroundmentioning

confidence: 99%

“…EQIL inventories are the primary data source to extend our knowledge of the relationship between earthquakes and the landslides they can trigger (e.g., Tanyaş et al, 2017). Using an EQIL inventory, we can assess the distribution of landslides and better evaluate the total earthquake impacts considering this secondary seismic hazard (e.g., Robinson et al, 2017).…”

Section: Introductionmentioning

confidence: 99%

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Coseismic landslides triggered by the 8th August 2017 Ms 7.0 Jiuzhaigou earthquake (Sichuan, China): factors controlling their spatial distribution and implications for the seismogenic blind fault identification

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Rapid post-earthquake modelling of coseismic landslide magnitude and distribution for emergency response decision support

Cited by 10 publications

References 29 publications

Presentation and Analysis of a Worldwide Database of Earthquake‐Induced Landslide Inventories

Presentation and Analysis of a Worldwide Database of Earthquake‐Induced Landslide Inventories

Rapid assessment of earthquake-induced landslides

Coseismic landslides triggered by the 8th August 2017 Ms 7.0 Jiuzhaigou earthquake (Sichuan, China): factors controlling their spatial distribution and implications for the seismogenic blind fault identification

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