Structural assessment and characterisation of the rock slope failure at Skredkallen, Vannøya. Structural analysis using field and desktop methods
Permanent link
https://hdl.handle.net/10037/15480Date
2019-05-15Type
Master thesisMastergradsoppgave
Author
Trønnes, LeifAbstract
The University of Tromsø has carried out multiple studies by master students on unstable rock
slopes (URS) in Troms County, Northern Norway. This thesis differs from other studies in
Troms as Skredkallen is located in Pre-Cambrian rocks as part of West Troms Basement
Complex (WTBC). The rocks of the WTBC have been subjected to multiple phases of
deformation, and the main structural features from deformation at this field site is from a
Paleoproterozoic thrust sheet, ‘Skipsfjord Nappe’, from Svecofennian deformation.
Skredkallen is an actively deforming URS located on the steep eastern slope of Laukvikfjellet.
Previous failure events have occurred in the URS, resulting in rock avalanche deposits of
varying size below the slope. What is left is multiple detached terraces and a tall column of
rock ‘Kaillen’, which is still actively deforming. The URS has been identified as moving
downslope towards NE by means of satellite InSAR. The location of Skredkallen, as well as a
rock slope failure on a mountain ridge further west, align with a thrust boundary. This suggests
that there might be a regional pattern between the two instabilities and a possibility of a tectonic
boundary forming the rupture surface of the URS. Geophysical data indicates a fault being
present close to Skredkallen, and brittle fault structures have played an important role in the
origin of the URS. The structural mapping showed four main joint sets; J1(034/82±16.9),
J2(205/68±9.0), J3(309/68±10.5) and J4(117/83±15.5). J1 and J4 were the most dominant joint
sets, both near-vertical and dipping towards ESE and SW respectively. The foliation
(292/14±13.8) dipping towards NNE is oblique to the NE facing slope.
The main failure mechanism is planar sliding along a NE-dipping failure surface, probably
contributing to a biplanar compound slide made up by J3 and SF, which together have
developed a step-path geometry effectively working as a listric sliding plane. The rock column
Kaillen is toppling towards E from the intersection between J1 and J4. The failure on
Skredkallen can be considered as a possible DSGSD based on the complexity of geometries
made by the surface morphostructures, and from the inferred brittle fault and fracture
geometries traced in the bedrock. The two proposed scenarios involve a worst case scenario
with a minimum mass of 1.1 Million cubic meters sliding down the steep eastern slope of Laukvikfjellet, and
the collapse of Kaillen (11,193 cubic meters). However there are no settlements immediately below the
slope, and a failure only poses a threat to an uninhabited cabin and hiking trails and is therefore
low risk.
Publisher
UiT Norges arktiske universitetUiT The Arctic University of Norway
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