Longevity of dams from landslides with sub-channel rupture surfaces, Peace River region, Canada

Abstract Background We examined seven landslide dams and their changes over time in the Peace River region of Canada. These landslides had subchannel rupture surfaces in glacial and glaciolacustrine sediments. We assessed the stability of the dams using 6 separate, morphometric-based stability indic...

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Bibliographic Details
Published in:Geoenvironmental Disasters
Main Authors: Brendan Miller, Anja Dufresne, Marten Geertsema, Nigel Atkinson, Heidi Evensen, David Cruden
Format: Article in Journal/Newspaper
Language:English
Published: SpringerOpen 2018
Subjects:
Landslide
Dam
Stability
Peace River
Quaternary
Sediment
envir
geo
Canada
Online Access:https://doi.org/10.1186/s40677-017-0090-0
https://doaj.org/article/56d72f53c95646ffac0bec0d7c9f1aeb
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Summary:Abstract Background We examined seven landslide dams and their changes over time in the Peace River region of Canada. These landslides had subchannel rupture surfaces in glacial and glaciolacustrine sediments. We assessed the stability of the dams using 6 separate, morphometric-based stability indices (with a total of 10 stability thresholds). Results The landslides caused the streambeds to be elevated from 4 to 30 m forming the dams. The landslide lakes diminished in size over one to several years through stream incision into the dams and sediment infilling. The longest-lived dam persisted for up to 20 years. For two dams, incision into the dams lowered the lake levels by about half of the total depth, while the remainder of the water in the basins was displaced by sediment infilling. After the lakes drain, the sediment accumulations behind the dams can persist for decades. The stability analyses overpredicted unstable conditions which is inconsistent with the observed longterm persistence of the dams. Conclusions The landslide dams in our study were relatively stable. Their lakes persisted for up to 2 decades and diminished over time through a combination of slow incision and basin infilling. The stability indices we assessed overpredicted unstable conditions and thus would require modification for these particular types of dams in this regional setting.

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