Structural analysis of Turtle Mountain: Origin and influence of fractures in the development of rock slope failures

Details

Serval ID
serval:BIB_E2F786BBEDF4
Type
A part of a book
Collection
Publications
Institution
Title
Structural analysis of Turtle Mountain: Origin and influence of fractures in the development of rock slope failures
Title of the book
Slope tectonics
Author(s)
Pedrazzini A., Jaboyedoff M., Froese C.R., Langenberg W., Moreno F.
Publisher
Geological Society
ISBN
1862393249
Publication state
Published
Issued date
2011
Editor
Jaboyedoff M.
Volume
351
Series
Special Publication
Pages
163-184
Edition
Special Publication
Language
english
Notes
Pedrazzini2011a
Abstract
Large slope failures in fractured rocks are often controlled by the
combination of pre-existing tectonic fracturing and brittle failure
propagation in the intact rock mass during the pre-failure phase.
This study focuses on the influence of fold-related fractures and
of post-folding fractures on slope instabilities with emphasis on
Turtle Mountain, located in SW Alberta (Canada). The structural features
of Turtle Mountain, especially to the south of the 1903 Frank Slide,
were investigated using a high-resolution digital elevation model
combined with a detailed field survey. These investigations allowed
the identification of six main discontinuity sets influencing the
slope instability and surface morphology. According to the different
deformation phases affecting the area, the potential origin of the
detected fractures was assessed. Three discontinuity sets are correlated
with the folding phase and the others with post-folding movements.
In order to characterize the rock mass quality in the different portions
of the Turtle Mountain anticline, the geological strength index (GSI)
has been estimated. The GSI results show a decrease in rock mass
quality approaching the fold hinge area due to higher fracture persistence
and higher weathering. These observations allow us to propose a model
for the potential failure mechanisms related to fold structures.
Create date
25/11/2013 16:26
Last modification date
20/08/2019 16:06
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