Sand veins and wedges in cold aeolian environments
Sedimentary structures formed by the progressive primary infilling of thermal contraction cracks with sand are termed primary sand veins and sand wedges. In addition to simple vein- or wedge-shapes irregularities can be caused by sand veins branching from their sides and toes. Primary sand wedges fo...
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2000
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| Online Access: | https://figshare.com/articles/journal_contribution/Sand_veins_and_wedges_in_cold_aeolian_environments/23318795 |
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ftunivsussexfig:oai:figshare.com:article/23318795 2023-06-18T03:42:39+02:00 Sand veins and wedges in cold aeolian environments Julian Murton Peter Worsley Jan Gozdzik 2000-05-01T00:00:00Z https://figshare.com/articles/journal_contribution/Sand_veins_and_wedges_in_cold_aeolian_environments/23318795 unknown 10779/uos.23318795.v1 https://figshare.com/articles/journal_contribution/Sand_veins_and_wedges_in_cold_aeolian_environments/23318795 Copyright not evaluated Uncategorised value Text Journal contribution 2000 ftunivsussexfig 2023-06-07T23:32:27Z Sedimentary structures formed by the progressive primary infilling of thermal contraction cracks with sand are termed primary sand veins and sand wedges. In addition to simple vein- or wedge-shapes irregularities can be caused by sand veins branching from their sides and toes. Primary sand wedges form widely in sandy polar deserts, locally in sandy areas of tundra and probably in seasonally frozen ground. There are no unique criteria for distinguishing primary sand veins and wedges from sand veins and wedges of other origins. Identification of the former depends on the occurrence of distinctive features not always present and on evaluation of their lithofacies and palaeoenvironmental contexts. Care and caution are advocated in the use of ancient/relict primary sand veins and wedges as quantitative palaeoenvironmental indicators because modern active wedge distribution is poorly known and hence inferred thermal climatic threshold values are questionable. It is suggested that ancient/relict primary sand wedges exceeding 2 m in depth and with well-developed vertical lamination probably indicate the former occurrence of continuous permafrost, whereas sand veins and narrow sand wedges (frost cracks) are potentially ambiguous as they may form not only in the active layer above and within continuous permafrost but also in seasonally frozen ground in non-permafrost areas. Article in Journal/Newspaper permafrost Tundra wedge* University of Sussex: Figshare |
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Open Polar |
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University of Sussex: Figshare |
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ftunivsussexfig |
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unknown |
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Uncategorised value Julian Murton Peter Worsley Jan Gozdzik Sand veins and wedges in cold aeolian environments |
| topic_facet |
Uncategorised value |
| description |
Sedimentary structures formed by the progressive primary infilling of thermal contraction cracks with sand are termed primary sand veins and sand wedges. In addition to simple vein- or wedge-shapes irregularities can be caused by sand veins branching from their sides and toes. Primary sand wedges form widely in sandy polar deserts, locally in sandy areas of tundra and probably in seasonally frozen ground. There are no unique criteria for distinguishing primary sand veins and wedges from sand veins and wedges of other origins. Identification of the former depends on the occurrence of distinctive features not always present and on evaluation of their lithofacies and palaeoenvironmental contexts. Care and caution are advocated in the use of ancient/relict primary sand veins and wedges as quantitative palaeoenvironmental indicators because modern active wedge distribution is poorly known and hence inferred thermal climatic threshold values are questionable. It is suggested that ancient/relict primary sand wedges exceeding 2 m in depth and with well-developed vertical lamination probably indicate the former occurrence of continuous permafrost, whereas sand veins and narrow sand wedges (frost cracks) are potentially ambiguous as they may form not only in the active layer above and within continuous permafrost but also in seasonally frozen ground in non-permafrost areas. |
| format |
Article in Journal/Newspaper |
| author |
Julian Murton Peter Worsley Jan Gozdzik |
| author_facet |
Julian Murton Peter Worsley Jan Gozdzik |
| author_sort |
Julian Murton |
| title |
Sand veins and wedges in cold aeolian environments |
| title_short |
Sand veins and wedges in cold aeolian environments |
| title_full |
Sand veins and wedges in cold aeolian environments |
| title_fullStr |
Sand veins and wedges in cold aeolian environments |
| title_full_unstemmed |
Sand veins and wedges in cold aeolian environments |
| title_sort |
sand veins and wedges in cold aeolian environments |
| publishDate |
2000 |
| url |
https://figshare.com/articles/journal_contribution/Sand_veins_and_wedges_in_cold_aeolian_environments/23318795 |
| genre |
permafrost Tundra wedge* |
| genre_facet |
permafrost Tundra wedge* |
| op_relation |
10779/uos.23318795.v1 https://figshare.com/articles/journal_contribution/Sand_veins_and_wedges_in_cold_aeolian_environments/23318795 |
| op_rights |
Copyright not evaluated |
| _version_ |
1769008653036158976 |