Possible crater-based pingos, paleolakes and periglacial landscapes at the high latitudes of Utopia Planitia, Mars

Closed-system pingos (CSPs) are perennial ice-cored mounds that evolve in relatively deep and continuous permafrost. They occur where thermokarst lakes either have lost or are losing their water by drainage, evaporation or sublimation and form by means of freeze-thaw cycling, permafrost aggradation...

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Published in:Icarus
Main Authors: Soare, R. J., Conway, S. J., Pearce, G. D., Dohm, J. M., Grindrod, P. M.
Format: Article in Journal/Newspaper
Language:unknown
Published: 2013
Subjects:
Conway
Ice
permafrost
Thermokarst
Online Access:https://oro.open.ac.uk/34628/
https://oro.open.ac.uk/34628/1/34628.pdf
https://doi.org/10.1016/j.icarus.2012.08.041
id ftopenunivgb:oai:oro.open.ac.uk:34628
record_format openpolar
spelling ftopenunivgb:oai:oro.open.ac.uk:34628 2023-06-11T04:12:33+02:00 Possible crater-based pingos, paleolakes and periglacial landscapes at the high latitudes of Utopia Planitia, Mars Soare, R. J. Conway, S. J. Pearce, G. D. Dohm, J. M. Grindrod, P. M. 2013-08 application/pdf https://oro.open.ac.uk/34628/ https://oro.open.ac.uk/34628/1/34628.pdf https://doi.org/10.1016/j.icarus.2012.08.041 unknown https://oro.open.ac.uk/34628/1/34628.pdf Soare, R. J.; Conway, S. J. <http://oro.open.ac.uk/view/person/sc9899.html>; Pearce, G. D.; Dohm, J. M. and Grindrod, P. M. (2013). Possible crater-based pingos, paleolakes and periglacial landscapes at the high latitudes of Utopia Planitia, Mars. Icarus, 225(2) pp. 971–981. Journal Item Public PeerReviewed 2013 ftopenunivgb https://doi.org/10.1016/j.icarus.2012.08.041 2023-05-28T05:48:55Z Closed-system pingos (CSPs) are perennial ice-cored mounds that evolve in relatively deep and continuous permafrost. They occur where thermokarst lakes either have lost or are losing their water by drainage, evaporation or sublimation and form by means of freeze-thaw cycling, permafrost aggradation and pore-water migration. The presence of CSPs on Mars, particularly on late-Amazonian Epoch terrain at near-polar latitudes, would indicate: 1. the antecedent occurrence of ponded water at the mound-formation sites; 2. freeze-thaw cycling of this water; and, 3. boundary-conditions of pressure and temperature at or above the triple point of water much more recently and further to the north than has been thought possible. In 2005 we studied two crater-floor landscapes in northern Utopia Planitia and used MOC narrow-angle images to describe mounds within these landscapes that shared a suite of geological characteristics with CSPs on Earth. Here, we show the results of a circum-global search for similar crater-floor landscapes at latitudes > 55°N. The search incorporates all relevant MOC and HiRISE images released since 2005. In addition to the two periglacially suggestive crater-floor landscapes observed by us earlier, we have identified three other crater floors with similar landscapes. Interestingly, each of the five mound-bearing craters occur within a tight latitudinal-band (64-69°N); this could be a marker of periglacial landscape-modification on a regional scale. Just to the north of the crater-based pingo-like mounds Conway et al. (2012) have identified large (km-scale) crater-based perennial ice-domes. They propose that the ice domes develop when regional polar-winds transport and precipitate icy material onto the floor of their host craters. Under a slightly different obliquity-solution ice domes could have accumulated at the lower latitudes where the putative CSPs have been observed. Subsequently, were temperatures to have migrated close to or at 0°C the ice domes could have thawed, forming endogenic ... Article in Journal/Newspaper Ice permafrost Thermokarst The Open University: Open Research Online (ORO) Conway ENVELOPE(-61.422,-61.422,-62.841,-62.841) Icarus 225 2 971 981
institution Open Polar
collection The Open University: Open Research Online (ORO)
op_collection_id ftopenunivgb
language unknown
description Closed-system pingos (CSPs) are perennial ice-cored mounds that evolve in relatively deep and continuous permafrost. They occur where thermokarst lakes either have lost or are losing their water by drainage, evaporation or sublimation and form by means of freeze-thaw cycling, permafrost aggradation and pore-water migration. The presence of CSPs on Mars, particularly on late-Amazonian Epoch terrain at near-polar latitudes, would indicate: 1. the antecedent occurrence of ponded water at the mound-formation sites; 2. freeze-thaw cycling of this water; and, 3. boundary-conditions of pressure and temperature at or above the triple point of water much more recently and further to the north than has been thought possible. In 2005 we studied two crater-floor landscapes in northern Utopia Planitia and used MOC narrow-angle images to describe mounds within these landscapes that shared a suite of geological characteristics with CSPs on Earth. Here, we show the results of a circum-global search for similar crater-floor landscapes at latitudes > 55°N. The search incorporates all relevant MOC and HiRISE images released since 2005. In addition to the two periglacially suggestive crater-floor landscapes observed by us earlier, we have identified three other crater floors with similar landscapes. Interestingly, each of the five mound-bearing craters occur within a tight latitudinal-band (64-69°N); this could be a marker of periglacial landscape-modification on a regional scale. Just to the north of the crater-based pingo-like mounds Conway et al. (2012) have identified large (km-scale) crater-based perennial ice-domes. They propose that the ice domes develop when regional polar-winds transport and precipitate icy material onto the floor of their host craters. Under a slightly different obliquity-solution ice domes could have accumulated at the lower latitudes where the putative CSPs have been observed. Subsequently, were temperatures to have migrated close to or at 0°C the ice domes could have thawed, forming endogenic ...
format Article in Journal/Newspaper
author Soare, R. J.
Conway, S. J.
Pearce, G. D.
Dohm, J. M.
Grindrod, P. M.
spellingShingle Soare, R. J.
Conway, S. J.
Pearce, G. D.
Dohm, J. M.
Grindrod, P. M.
Possible crater-based pingos, paleolakes and periglacial landscapes at the high latitudes of Utopia Planitia, Mars
author_facet Soare, R. J.
Conway, S. J.
Pearce, G. D.
Dohm, J. M.
Grindrod, P. M.
author_sort Soare, R. J.
title Possible crater-based pingos, paleolakes and periglacial landscapes at the high latitudes of Utopia Planitia, Mars
title_short Possible crater-based pingos, paleolakes and periglacial landscapes at the high latitudes of Utopia Planitia, Mars
title_full Possible crater-based pingos, paleolakes and periglacial landscapes at the high latitudes of Utopia Planitia, Mars
title_fullStr Possible crater-based pingos, paleolakes and periglacial landscapes at the high latitudes of Utopia Planitia, Mars
title_full_unstemmed Possible crater-based pingos, paleolakes and periglacial landscapes at the high latitudes of Utopia Planitia, Mars
title_sort possible crater-based pingos, paleolakes and periglacial landscapes at the high latitudes of utopia planitia, mars
publishDate 2013
url https://oro.open.ac.uk/34628/
https://oro.open.ac.uk/34628/1/34628.pdf
https://doi.org/10.1016/j.icarus.2012.08.041
long_lat ENVELOPE(-61.422,-61.422,-62.841,-62.841)
geographic Conway
geographic_facet Conway
genre Ice
permafrost
Thermokarst
genre_facet Ice
permafrost
Thermokarst
op_relation https://oro.open.ac.uk/34628/1/34628.pdf
Soare, R. J.; Conway, S. J. <http://oro.open.ac.uk/view/person/sc9899.html>; Pearce, G. D.; Dohm, J. M. and Grindrod, P. M. (2013). Possible crater-based pingos, paleolakes and periglacial landscapes at the high latitudes of Utopia Planitia, Mars. Icarus, 225(2) pp. 971–981.
op_doi https://doi.org/10.1016/j.icarus.2012.08.041
container_title Icarus
container_volume 225
container_issue 2
container_start_page 971
op_container_end_page 981
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