September 2022
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98 Reads
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3 Citations
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September 2022
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98 Reads
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3 Citations
January 2022
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1,486 Reads
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3 Citations
Vibrating-wire piezometers provide a number of advantages over the traditional hydraulic piezometer design. There are currently many methods and configurations for installing vibrating-wire piezometers, the most common being: single piezometers in sand packs (SP), multilevel piezometers in sand packs (MLSP), and fully grouted multilevel piezometers using either bentonite (FGB) or cement−bentonite grout (FGCB). This study assesses the performance of these four different installation methods at a field site possessing complex stratigraphy, including glacial and marine sediments. To accomplish this objective, pore pressure data recorded between December 2017 and July 2019 were analyzed. Data indicate that SP, MLSP, and FGB piezometers performed most reliably, because piezometers installed at the same depth with these methods recorded similar pressure variations that were coherent with the hydrogeological setting. Of the two fully grouted installations using cement−bentonite grout, one installation failed completely due to a hydraulic short circuit, likely caused by preferential flow occurring along the wires of the embedded instruments. The lack of a standard method for mixing cement−bentonite grout at the time of construction likely contributed to the failure of the FGCB installations, as the grout mixture used in this study was likely too viscous to provide a suitable seal.
November 2020
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549 Reads
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6 Citations
The thick sequences of marine clayey deposits that blanket the St. Lawrence Lowlands in south-eastern Canada are highly susceptible to landslides. With 89% of the population of the province of Quebec living in this region, improving our understanding of the mechanisms causing landslides in these sediments is a matter of public security. To accomplish this goal, instruments were deployed at a field site in Sainte-Anne-de-la-Pérade, Quebec, Canada to monitor atmospheric, soil, and groundwater conditions. Field and laboratory measurements of soil geotechnical and hydraulic properties were also performed. Results indicate that the groundwater and pore pressure dynamics at the site cannot be explained using simplified site conceptual models. Further analysis indicates that groundwater dynamics and pore pressures in the massive clay deposits on site are determined by (i) the highly heterogeneous nature of the local geological materials, (ii) the contrasting hydraulic and geotechnical properties of these materials, (iii) the presence of two unconfined aquifers at the site, one surficial and one at depth, and (iv) the presence of the Sainte-Anne River. These results were used to create a new conceptual model that illustrates the complex groundwater flow system present on site and shows the importance of including hydrogeologic context in slope stability analysis.
January 2018
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18 Reads
... (last access: 26 January 2023) and are archived at https://doi.org/10.5281/zenodo.7574457 (Coulon et al., 2023) (version 1.0.0, MIT license). ...
September 2022
... Therefore, it is unlikely that the variations of the hydraulic heads observed are due to preferential paths associated with more permeable layers ( Fig. 5b; Young et al. 2023). In addition, previous research has shown that these observations are not related to problems with piezometer construction (Young et al. 2022a(Young et al. , 2022b. ...
January 2022
... The lower layer is a till veneer deposited below the ice-sheet during its advance. This till layer consists mainly of sand and gravel, and is between 100 and 1000 times more permeable than the overlying clay (Lefebvre 1986;Germain et al. 2021). The upper layer is either composed of (1) alluvial sands deposited during emergence from the sea and the formation of the modern drainage network, or (2) highly-weathered and extensively-fractured clay formed as a result of repeated cycles of saturation, desiccation and seasonal freeze-thaw, as well as mechanical unloading due to vertical and lateral erosion. ...
November 2020