Permafrost at the Ice Base of Recent Pleistocene Glaciations–Inferences from Borehole Temperature Profiles

Abstract Paleo-temperature reconstruction from precise depth (>2.0 km) well temperature logs can offer information on whether the bed of an ice sheet was frozen. Inversion or upward extrapolation of the >2-km-deep geothermal profile is the only method by which temperature evolution at...

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Published in:Bulletin of Geography. Physical Geography Series
Main Author: Majorowicz, Jacek
Format: Article in Journal/Newspaper
Language:unknown
Published: Walter de Gruyter GmbH 2012
Subjects:
Yukon
Greenland
Rusty Glacier
Fennoscandian
glacier
Ice
Ice Sheet
permafrost
Online Access:http://dx.doi.org/10.2478/v10250-012-0001-x
https://www.degruyter.com/view/j/bgeo.2012.5.issue-1/v10250-012-0001-x/v10250-012-0001-x.pdf
id crdegruytopen:10.2478/v10250-012-0001-x
record_format openpolar
spelling crdegruytopen:10.2478/v10250-012-0001-x 2023-05-15T16:13:07+02:00 Permafrost at the Ice Base of Recent Pleistocene Glaciations–Inferences from Borehole Temperature Profiles Majorowicz, Jacek 2012 http://dx.doi.org/10.2478/v10250-012-0001-x https://www.degruyter.com/view/j/bgeo.2012.5.issue-1/v10250-012-0001-x/v10250-012-0001-x.pdf unknown Walter de Gruyter GmbH Bulletin of Geography. Physical Geography Series volume 5, issue 1 ISSN 2080-7686 journal-article 2012 crdegruytopen https://doi.org/10.2478/v10250-012-0001-x 2017-08-15T20:49:10Z Abstract Paleo-temperature reconstruction from precise depth (>2.0 km) well temperature logs can offer information on whether the bed of an ice sheet was frozen. Inversion or upward extrapolation of the >2-km-deep geothermal profile is the only method by which temperature evolution at the base of long-disappeared ice sheets such as the Laurentide and Fennoscandian in the northern part of the Northern Hemisphere in North America and Europe can be inferred. It is obvious from the results from well temperature profiles that there were spatial variations in temperature at the base of the ice sheets during glaciations. This comes as no surprise, since modern-day measurements of temperature profiles through the ice of existing glaciers show a similarly large variability. Present bedrock temperatures measured beneath the central part of the Yukon Rusty glacier are near 0°C to -2°C while Greenland ice sheet base temperatures are -8 and -13°C. In case of very low paleo-temperatures derived from the interpretation of temperature profiles in the areas presently outside the current extent of glacial ice it can be shown that low temperature conditions under glacial ice could facilitate the existence of moderate (some 100-200 m) to thick (0.5 km-1 km) permafrost conditions. It is speculated here that, in many cases, paleo-glacial cold base ice could have existed right on top of paleo-permafrost in sediments just below. Such ice-bonded permafrost may have been frozen to glacial ice above, forming pillars which fixed glacial ice to permafrost below, thus limiting ice movement in such places and resulting in the -extended persistence of permafrost. Article in Journal/Newspaper Fennoscandian glacier Greenland Ice Ice Sheet permafrost Yukon Sciendo (de Gruyter - via CrossRef) Yukon Greenland Rusty Glacier ENVELOPE(-140.304,-140.304,61.199,61.199) Bulletin of Geography. Physical Geography Series 5 1 7 28
institution Open Polar
collection Sciendo (de Gruyter - via CrossRef)
op_collection_id crdegruytopen
language unknown
description Abstract Paleo-temperature reconstruction from precise depth (>2.0 km) well temperature logs can offer information on whether the bed of an ice sheet was frozen. Inversion or upward extrapolation of the >2-km-deep geothermal profile is the only method by which temperature evolution at the base of long-disappeared ice sheets such as the Laurentide and Fennoscandian in the northern part of the Northern Hemisphere in North America and Europe can be inferred. It is obvious from the results from well temperature profiles that there were spatial variations in temperature at the base of the ice sheets during glaciations. This comes as no surprise, since modern-day measurements of temperature profiles through the ice of existing glaciers show a similarly large variability. Present bedrock temperatures measured beneath the central part of the Yukon Rusty glacier are near 0°C to -2°C while Greenland ice sheet base temperatures are -8 and -13°C. In case of very low paleo-temperatures derived from the interpretation of temperature profiles in the areas presently outside the current extent of glacial ice it can be shown that low temperature conditions under glacial ice could facilitate the existence of moderate (some 100-200 m) to thick (0.5 km-1 km) permafrost conditions. It is speculated here that, in many cases, paleo-glacial cold base ice could have existed right on top of paleo-permafrost in sediments just below. Such ice-bonded permafrost may have been frozen to glacial ice above, forming pillars which fixed glacial ice to permafrost below, thus limiting ice movement in such places and resulting in the -extended persistence of permafrost.
format Article in Journal/Newspaper
author Majorowicz, Jacek
spellingShingle Majorowicz, Jacek
Permafrost at the Ice Base of Recent Pleistocene Glaciations–Inferences from Borehole Temperature Profiles
author_facet Majorowicz, Jacek
author_sort Majorowicz, Jacek
title Permafrost at the Ice Base of Recent Pleistocene Glaciations–Inferences from Borehole Temperature Profiles
title_short Permafrost at the Ice Base of Recent Pleistocene Glaciations–Inferences from Borehole Temperature Profiles
title_full Permafrost at the Ice Base of Recent Pleistocene Glaciations–Inferences from Borehole Temperature Profiles
title_fullStr Permafrost at the Ice Base of Recent Pleistocene Glaciations–Inferences from Borehole Temperature Profiles
title_full_unstemmed Permafrost at the Ice Base of Recent Pleistocene Glaciations–Inferences from Borehole Temperature Profiles
title_sort permafrost at the ice base of recent pleistocene glaciations–inferences from borehole temperature profiles
publisher Walter de Gruyter GmbH
publishDate 2012
url http://dx.doi.org/10.2478/v10250-012-0001-x
https://www.degruyter.com/view/j/bgeo.2012.5.issue-1/v10250-012-0001-x/v10250-012-0001-x.pdf
long_lat ENVELOPE(-140.304,-140.304,61.199,61.199)
geographic Yukon
Greenland
Rusty Glacier
geographic_facet Yukon
Greenland
Rusty Glacier
genre Fennoscandian
glacier
Greenland
Ice
Ice Sheet
permafrost
Yukon
genre_facet Fennoscandian
glacier
Greenland
Ice
Ice Sheet
permafrost
Yukon
op_source Bulletin of Geography. Physical Geography Series
volume 5, issue 1
ISSN 2080-7686
op_doi https://doi.org/10.2478/v10250-012-0001-x
container_title Bulletin of Geography. Physical Geography Series
container_volume 5
container_issue 1
container_start_page 7
op_container_end_page 28
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