Glacial Loading and Unloading: A Possible Cause of Rock Salt Dissolution in the Western Canada Basin
Each of the five main bedded Devonian rock salts in the Western Canada Basin has been leached in places more-or-less continuously since shortly after deposition. For the most part, salt dissolution has been self-sustaining and relatively slow. At various times however, leaching has been significantl...
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1997
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ftmissouriunivst:oai:scholarsmine.mst.edu:geosci_geo_peteng_facwork-1558 2023-06-11T04:10:47+02:00 Glacial Loading and Unloading: A Possible Cause of Rock Salt Dissolution in the Western Canada Basin Anderson, Neil Lennart Hinds, Ronald C. 1997-03-01T08:00:00Z https://scholarsmine.mst.edu/geosci_geo_peteng_facwork/558 https://doi.org/10.1007/BF03175801 unknown Scholars' Mine https://scholarsmine.mst.edu/geosci_geo_peteng_facwork/558 doi:10.1007/BF03175801 https://doi.org/10.1007/BF03175801 © 1997 Springer Heidelberg, All rights reserved. Geosciences and Geological and Petroleum Engineering Faculty Research & Creative Works Dissolution Drainage Glacial Loading Loading/unloading Rock Salt Subsidence Canada Canada Basin Geology text 1997 ftmissouriunivst https://doi.org/10.1007/BF03175801 2023-05-06T22:31:29Z Each of the five main bedded Devonian rock salts in the Western Canada Basin has been leached in places more-or-less continuously since shortly after deposition. For the most part, salt dissolution has been self-sustaining and relatively slow. At various times however, leaching has been significantly accelerated by large-scale external processes such as regional uplift and erosion (during the pre-Cretaceous hiatus), and regional faulting (during the mid-Late Cretaceous). The most recent phase of accelerated leaching occurred during the Quaternary, probably as a result of glacial loading and unloading. Two principal lines of evidence support the thesis that accelerated rates of salt dissolution occurred during the Quaternary. First, there is an apparent correlation between surface drainage patterns and the active dissolution margins of the Devonian rock salts. A significant percentage of the lakes and rivers in proximity to active salt dissolution margins are situated along the near-zero edge of the respective salt bodies. Second, salt-related subsidence features at the pre-Quatemary subcrop level have been mapped on seismic data in the immediate proximity of active salt dissolution margins. The Quaternary subsidence features associated with the Prairie Formation rock salt for example, parallel the active salt margin and can be up to several kilometers wide. The areal extent of these shallow subsidence features and the high volume of rock salt dissolved at these sites suggest that accelerated rates of leaching occurred during the Quaternary (relative to the average rate of dissolution throughout the Cretaceous). The magnitude of these shallow structural features demonstrates clearly that subsidence associated with Recent salt dissolution can influence surficial drainage patterns to the extent suggested by the distribution of the lakes and rivers in proximity to the salt dissolution margins. The accelerated rates of salt dissolution during the Quaternary are attributed to glacial loading and unloading, and ... Text canada basin Missouri University of Science and Technology (Missouri S&T): Scholars' Mine Canada Carbonates and Evaporites 12 1 43 52 |
institution |
Open Polar |
collection |
Missouri University of Science and Technology (Missouri S&T): Scholars' Mine |
op_collection_id |
ftmissouriunivst |
language |
unknown |
topic |
Dissolution Drainage Glacial Loading Loading/unloading Rock Salt Subsidence Canada Canada Basin Geology |
spellingShingle |
Dissolution Drainage Glacial Loading Loading/unloading Rock Salt Subsidence Canada Canada Basin Geology Anderson, Neil Lennart Hinds, Ronald C. Glacial Loading and Unloading: A Possible Cause of Rock Salt Dissolution in the Western Canada Basin |
topic_facet |
Dissolution Drainage Glacial Loading Loading/unloading Rock Salt Subsidence Canada Canada Basin Geology |
description |
Each of the five main bedded Devonian rock salts in the Western Canada Basin has been leached in places more-or-less continuously since shortly after deposition. For the most part, salt dissolution has been self-sustaining and relatively slow. At various times however, leaching has been significantly accelerated by large-scale external processes such as regional uplift and erosion (during the pre-Cretaceous hiatus), and regional faulting (during the mid-Late Cretaceous). The most recent phase of accelerated leaching occurred during the Quaternary, probably as a result of glacial loading and unloading. Two principal lines of evidence support the thesis that accelerated rates of salt dissolution occurred during the Quaternary. First, there is an apparent correlation between surface drainage patterns and the active dissolution margins of the Devonian rock salts. A significant percentage of the lakes and rivers in proximity to active salt dissolution margins are situated along the near-zero edge of the respective salt bodies. Second, salt-related subsidence features at the pre-Quatemary subcrop level have been mapped on seismic data in the immediate proximity of active salt dissolution margins. The Quaternary subsidence features associated with the Prairie Formation rock salt for example, parallel the active salt margin and can be up to several kilometers wide. The areal extent of these shallow subsidence features and the high volume of rock salt dissolved at these sites suggest that accelerated rates of leaching occurred during the Quaternary (relative to the average rate of dissolution throughout the Cretaceous). The magnitude of these shallow structural features demonstrates clearly that subsidence associated with Recent salt dissolution can influence surficial drainage patterns to the extent suggested by the distribution of the lakes and rivers in proximity to the salt dissolution margins. The accelerated rates of salt dissolution during the Quaternary are attributed to glacial loading and unloading, and ... |
format |
Text |
author |
Anderson, Neil Lennart Hinds, Ronald C. |
author_facet |
Anderson, Neil Lennart Hinds, Ronald C. |
author_sort |
Anderson, Neil Lennart |
title |
Glacial Loading and Unloading: A Possible Cause of Rock Salt Dissolution in the Western Canada Basin |
title_short |
Glacial Loading and Unloading: A Possible Cause of Rock Salt Dissolution in the Western Canada Basin |
title_full |
Glacial Loading and Unloading: A Possible Cause of Rock Salt Dissolution in the Western Canada Basin |
title_fullStr |
Glacial Loading and Unloading: A Possible Cause of Rock Salt Dissolution in the Western Canada Basin |
title_full_unstemmed |
Glacial Loading and Unloading: A Possible Cause of Rock Salt Dissolution in the Western Canada Basin |
title_sort |
glacial loading and unloading: a possible cause of rock salt dissolution in the western canada basin |
publisher |
Scholars' Mine |
publishDate |
1997 |
url |
https://scholarsmine.mst.edu/geosci_geo_peteng_facwork/558 https://doi.org/10.1007/BF03175801 |
geographic |
Canada |
geographic_facet |
Canada |
genre |
canada basin |
genre_facet |
canada basin |
op_source |
Geosciences and Geological and Petroleum Engineering Faculty Research & Creative Works |
op_relation |
https://scholarsmine.mst.edu/geosci_geo_peteng_facwork/558 doi:10.1007/BF03175801 https://doi.org/10.1007/BF03175801 |
op_rights |
© 1997 Springer Heidelberg, All rights reserved. |
op_doi |
https://doi.org/10.1007/BF03175801 |
container_title |
Carbonates and Evaporites |
container_volume |
12 |
container_issue |
1 |
container_start_page |
43 |
op_container_end_page |
52 |
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1768385412422696960 |