Rockfall hazard and risk assessments along roads at a regional scale: example in Swiss Alps

Rockfall hazard and risk assessments along roads at a regional scale: example in Swiss Alps

Unlike fragmental rockfall runout assessments, there are only few robust methods to quantify rock-mass-failure susceptibilities at regional scale. A detailed slope angle analysis of recent Digital Elevation Models (DEM) can be used to detect potential rockfall source areas, thanks to the Slope Angle...

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Main Authors: C. Michoud, M.-H. Derron, P. Horton, M. Jaboyedoff, F.-J. Baillifard, A. Loye, P. Nicolet, A. Pedrazzini, A. Queyrel
Format: Article
Language:English
Published: Copernicus Publications 2012-03-01
Series:Natural Hazards and Earth System Sciences
Online Access:http://www.nat-hazards-earth-syst-sci.net/12/615/2012/nhess-12-615-2012.pdf
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spelling doaj-50f7a9a2a782482b9443e05d640142c12020-11-24T22:27:14ZengCopernicus PublicationsNatural Hazards and Earth System Sciences1561-86331684-99812012-03-0112361562910.5194/nhess-12-615-2012Rockfall hazard and risk assessments along roads at a regional scale: example in Swiss AlpsC. MichoudM.-H. DerronP. HortonM. JaboyedoffF.-J. BaillifardA. LoyeP. NicoletA. PedrazziniA. QueyrelUnlike fragmental rockfall runout assessments, there are only few robust methods to quantify rock-mass-failure susceptibilities at regional scale. A detailed slope angle analysis of recent Digital Elevation Models (DEM) can be used to detect potential rockfall source areas, thanks to the Slope Angle Distribution procedure. However, this method does not provide any information on block-release frequencies inside identified areas. The present paper adds to the Slope Angle Distribution of cliffs unit its normalized cumulative distribution function. This improvement is assimilated to a quantitative weighting of slope angles, introducing rock-mass-failure susceptibilities inside rockfall source areas previously detected. Then rockfall runout assessment is performed using the GIS- and process-based software Flow-R, providing relative frequencies for runout. Thus, taking into consideration both susceptibility results, this approach can be used to establish, after calibration, hazard and risk maps at regional scale. As an example, a risk analysis of vehicle traffic exposed to rockfalls is performed along the main roads of the Swiss alpine valley of Bagnes.http://www.nat-hazards-earth-syst-sci.net/12/615/2012/nhess-12-615-2012.pdf
collection DOAJ
language English
format Article
sources DOAJ
author C. Michoud
M.-H. Derron
P. Horton
M. Jaboyedoff
F.-J. Baillifard
A. Loye
P. Nicolet
A. Pedrazzini
A. Queyrel
spellingShingle C. Michoud
M.-H. Derron
P. Horton
M. Jaboyedoff
F.-J. Baillifard
A. Loye
P. Nicolet
A. Pedrazzini
A. Queyrel
Rockfall hazard and risk assessments along roads at a regional scale: example in Swiss Alps
Natural Hazards and Earth System Sciences
author_facet C. Michoud
M.-H. Derron
P. Horton
M. Jaboyedoff
F.-J. Baillifard
A. Loye
P. Nicolet
A. Pedrazzini
A. Queyrel
author_sort C. Michoud
title Rockfall hazard and risk assessments along roads at a regional scale: example in Swiss Alps
title_short Rockfall hazard and risk assessments along roads at a regional scale: example in Swiss Alps
title_full Rockfall hazard and risk assessments along roads at a regional scale: example in Swiss Alps
title_fullStr Rockfall hazard and risk assessments along roads at a regional scale: example in Swiss Alps
title_full_unstemmed Rockfall hazard and risk assessments along roads at a regional scale: example in Swiss Alps
title_sort rockfall hazard and risk assessments along roads at a regional scale: example in swiss alps
publisher Copernicus Publications
series Natural Hazards and Earth System Sciences
issn 1561-8633
1684-9981
publishDate 2012-03-01
description Unlike fragmental rockfall runout assessments, there are only few robust methods to quantify rock-mass-failure susceptibilities at regional scale. A detailed slope angle analysis of recent Digital Elevation Models (DEM) can be used to detect potential rockfall source areas, thanks to the Slope Angle Distribution procedure. However, this method does not provide any information on block-release frequencies inside identified areas. The present paper adds to the Slope Angle Distribution of cliffs unit its normalized cumulative distribution function. This improvement is assimilated to a quantitative weighting of slope angles, introducing rock-mass-failure susceptibilities inside rockfall source areas previously detected. Then rockfall runout assessment is performed using the GIS- and process-based software Flow-R, providing relative frequencies for runout. Thus, taking into consideration both susceptibility results, this approach can be used to establish, after calibration, hazard and risk maps at regional scale. As an example, a risk analysis of vehicle traffic exposed to rockfalls is performed along the main roads of the Swiss alpine valley of Bagnes.
url http://www.nat-hazards-earth-syst-sci.net/12/615/2012/nhess-12-615-2012.pdf
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