This decommissioned ERA site remains active temporarily to support our final migration steps to https://ualberta.scholaris.ca, ERA's new home. All new collections and items, including Spring 2025 theses, are at that site. For assistance, please contact erahelp@ualberta.ca.
Search
Skip to Search Results- 2Graduate and Postdoctoral Studies (GPS), Faculty of
- 2Graduate and Postdoctoral Studies (GPS), Faculty of/Theses and Dissertations
- 1Geotechnical and Geoenvironmental Engineering Program
- 1Geotechnical and Geoenvironmental Engineering Program/Other Research Publications (Geotechnical & Geoenvironmental Engineering)
- 1Earth and Atmospheric Sciences, Department of
- 1Earth and Atmospheric Sciences, Department of/Research Materials (Earth and Atmospheric Sciences)
-
2017-08-21
The Ripley Landslide is one of the smallest among the 12 landslides at the Ashcroft-Thompson River Valley, located approximately 10 km south of Ashcroft, B.C. Since it was first identified in 1951, it has been studied by numerous researchers to understand the kinematics controlling its behaviour....
-
Assessing The Benefits Of Cost-Effective Monitoring Technology On Unstable Slopes Sensitive To Weather
DownloadFall 2021
Across Canada, the presence of ground hazards, such as rock falls, rock slides, or earth slides, next to transportation corridors, is a potential risk to transport system users, the infrastructure, and traffic operations. Monitoring instrumentation systems tracking unstable slopes are a key...
-
Enhanced Methodologies for Improved Ground Kinematics Interpretation in the Context of Landslide Early-Warning Systems
DownloadSpring 2024
Landslides are widespread geohazards in Canada that cause loss of millions of dollars annually directly and indirectly. Such geohazards are prevalent in Canada’s landforms which compromise the safe operation of infrastructures and public safety. Not only stabilizing an area with this scale is...
-
Recent intensification (2004-2020) of permafrost mass-wasting in the central Mackenzie Valley foothills is a legacy of past forest fire disturbances
Recent intensification (2004-2020) of permafrost mass-wasting in the central Mackenzie Valley foothills is a legacy of past forest fire disturbances
Download2022-01-01
Supplemental shapefiles of mapped thaw slumps and deep-seated permafrost failures associated with "Recent intensification (2004-2020) of permafrost mass-wasting in the central Mackenzie Valley foothills is a legacy of past forest fire disturbances"