Coupled cryo-hydrogeological modelling of permafrost dynamics near Umiujaq (Nunavik, Canada)

A two-dimensional (2D) cryo-hydrogeological numerical model of groundwater flow, coupled with advective-conductive heat transport with phase change, has been developed to study permafrost dynamics around an ice-rich permafrost mound in the Tasiapik Valley near Umiujaq, Nunavik (Québec), Canada. Perm...

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Published in:Hydrogeology Journal
Main Authors: Therrien, René, Lemieux, Jean-Michel, Dagenais, Sophie, Fortier, Richard, Molson, John W. H. (John William H.)
Format: Other/Unknown Material
Language:English
Published: Springer 2020
Subjects:
Groundwater flow
Permafrost
Climate change
Numerical modelling
Canada
Eau souterraine
Pergélisols
Modèles mathématiques
Flux géothermique
Nunavik
Umiujaq
Active layer thickness
Ice
permafrost
pergélisol
Online Access:https://hdl.handle.net/20.500.11794/38750
https://doi.org/10.1007/s10040-020-02111-3
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spelling ftunivlavalcorp:oai:corpus.ulaval.ca:20.500.11794/38750 2024-09-09T18:55:04+00:00 Coupled cryo-hydrogeological modelling of permafrost dynamics near Umiujaq (Nunavik, Canada) Therrien, René Lemieux, Jean-Michel Dagenais, Sophie Fortier, Richard Molson, John W. H. (John William H.) Québec (Province) -- Umiujaq 2020-04-15T13:46:02Z application/pdf https://hdl.handle.net/20.500.11794/38750 https://doi.org/10.1007/s10040-020-02111-3 eng eng Springer 1431-2174 http://hdl.handle.net/20.500.11794/38750 doi:10.1007/s10040-020-02111-3 http://purl.org/coar/access_right/c_16ec Groundwater flow Permafrost Climate change Numerical modelling Canada Eau souterraine Pergélisols Modèles mathématiques Flux géothermique article de recherche COAR1_1::Texte::Périodique::Revue::Contribution à un journal::Article::Article de recherche 2020 ftunivlavalcorp https://doi.org/20.500.11794/3875010.1007/s10040-020-02111-3 2024-06-17T23:42:35Z A two-dimensional (2D) cryo-hydrogeological numerical model of groundwater flow, coupled with advective-conductive heat transport with phase change, has been developed to study permafrost dynamics around an ice-rich permafrost mound in the Tasiapik Valley near Umiujaq, Nunavik (Québec), Canada. Permafrost is degrading in this valley due to climate warming observed in Nunavik over the last two decades. Ground temperatures measured along thermistor cables in the permafrost mound show that permafrost thaw is occurring both at the permafrost table and base, and that heat fluxes at the permafrost base are up to ten times higher than the expected geothermal heat flux. Based on a vertical cross-section extracted from a 3D geological model of the valley, the numerical model was first calibrated using observed temperatures and heat fluxes. Comparing simulations with and without groundwater flow, advective heat transport due to groundwater flow in the subpermafrost aquifer is shown to play a critical role in permafrost dynamics and can explain the high apparent heat flux at the permafrost base. Advective heat transport leads to warmer subsurface temperatures in the recharge area, while the cooled groundwater arriving in the downgradient discharge zone maintains cooler temperatures than those resulting from thermal conduction alone. Predictive simulations incorporating a regional climate-change scenario suggest the active layer thickness will increase over the coming decades by about 12 cm/year, while the depth to the permafrost base will decrease by about 80 cm/year. Permafrost within the valley is predicted to completely thaw by around 2040. Un modèle numérique cryo-hydrogéologique bidimensionnel (2D) de l’écoulement de l’eau souterraine, couplé avec un transfert de chaleur advectif-convectif à changement de phase, a été développé pour étudier la dynamique du pergélisol autour d’un monticule fortement gelé dans la Vallée de Tasiapik près de Umiujaq, Nunavik, Québec (Canada). Le pergélisol se dégrade dans cette vallée ... Other/Unknown Material Active layer thickness Ice permafrost Umiujaq Nunavik pergélisol Université Laval: CorpusUL Canada Nunavik Umiujaq ENVELOPE(-76.549,-76.549,56.553,56.553) Hydrogeology Journal 28 3 887 904
institution Open Polar
collection Université Laval: CorpusUL
op_collection_id ftunivlavalcorp
language English
topic Groundwater flow
Permafrost
Climate change
Numerical modelling
Canada
Eau souterraine
Pergélisols
Modèles mathématiques
Flux géothermique
spellingShingle Groundwater flow
Permafrost
Climate change
Numerical modelling
Canada
Eau souterraine
Pergélisols
Modèles mathématiques
Flux géothermique
Therrien, René
Lemieux, Jean-Michel
Dagenais, Sophie
Fortier, Richard
Molson, John W. H. (John William H.)
Coupled cryo-hydrogeological modelling of permafrost dynamics near Umiujaq (Nunavik, Canada)
topic_facet Groundwater flow
Permafrost
Climate change
Numerical modelling
Canada
Eau souterraine
Pergélisols
Modèles mathématiques
Flux géothermique
description A two-dimensional (2D) cryo-hydrogeological numerical model of groundwater flow, coupled with advective-conductive heat transport with phase change, has been developed to study permafrost dynamics around an ice-rich permafrost mound in the Tasiapik Valley near Umiujaq, Nunavik (Québec), Canada. Permafrost is degrading in this valley due to climate warming observed in Nunavik over the last two decades. Ground temperatures measured along thermistor cables in the permafrost mound show that permafrost thaw is occurring both at the permafrost table and base, and that heat fluxes at the permafrost base are up to ten times higher than the expected geothermal heat flux. Based on a vertical cross-section extracted from a 3D geological model of the valley, the numerical model was first calibrated using observed temperatures and heat fluxes. Comparing simulations with and without groundwater flow, advective heat transport due to groundwater flow in the subpermafrost aquifer is shown to play a critical role in permafrost dynamics and can explain the high apparent heat flux at the permafrost base. Advective heat transport leads to warmer subsurface temperatures in the recharge area, while the cooled groundwater arriving in the downgradient discharge zone maintains cooler temperatures than those resulting from thermal conduction alone. Predictive simulations incorporating a regional climate-change scenario suggest the active layer thickness will increase over the coming decades by about 12 cm/year, while the depth to the permafrost base will decrease by about 80 cm/year. Permafrost within the valley is predicted to completely thaw by around 2040. Un modèle numérique cryo-hydrogéologique bidimensionnel (2D) de l’écoulement de l’eau souterraine, couplé avec un transfert de chaleur advectif-convectif à changement de phase, a été développé pour étudier la dynamique du pergélisol autour d’un monticule fortement gelé dans la Vallée de Tasiapik près de Umiujaq, Nunavik, Québec (Canada). Le pergélisol se dégrade dans cette vallée ...
format Other/Unknown Material
author Therrien, René
Lemieux, Jean-Michel
Dagenais, Sophie
Fortier, Richard
Molson, John W. H. (John William H.)
author_facet Therrien, René
Lemieux, Jean-Michel
Dagenais, Sophie
Fortier, Richard
Molson, John W. H. (John William H.)
author_sort Therrien, René
title Coupled cryo-hydrogeological modelling of permafrost dynamics near Umiujaq (Nunavik, Canada)
title_short Coupled cryo-hydrogeological modelling of permafrost dynamics near Umiujaq (Nunavik, Canada)
title_full Coupled cryo-hydrogeological modelling of permafrost dynamics near Umiujaq (Nunavik, Canada)
title_fullStr Coupled cryo-hydrogeological modelling of permafrost dynamics near Umiujaq (Nunavik, Canada)
title_full_unstemmed Coupled cryo-hydrogeological modelling of permafrost dynamics near Umiujaq (Nunavik, Canada)
title_sort coupled cryo-hydrogeological modelling of permafrost dynamics near umiujaq (nunavik, canada)
publisher Springer
publishDate 2020
url https://hdl.handle.net/20.500.11794/38750
https://doi.org/10.1007/s10040-020-02111-3
op_coverage Québec (Province) -- Umiujaq
long_lat ENVELOPE(-76.549,-76.549,56.553,56.553)
geographic Canada
Nunavik
Umiujaq
geographic_facet Canada
Nunavik
Umiujaq
genre Active layer thickness
Ice
permafrost
Umiujaq
Nunavik
pergélisol
genre_facet Active layer thickness
Ice
permafrost
Umiujaq
Nunavik
pergélisol
op_relation 1431-2174
http://hdl.handle.net/20.500.11794/38750
doi:10.1007/s10040-020-02111-3
op_rights http://purl.org/coar/access_right/c_16ec
op_doi https://doi.org/20.500.11794/3875010.1007/s10040-020-02111-3
container_title Hydrogeology Journal
container_volume 28
container_issue 3
container_start_page 887
op_container_end_page 904
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