Episodic burial and exhumation in North-East Greenland before and after opening of the North-East Atlantic

The geology of North-East Greenland (70–78°N) exposes unique evidence of the basin development between the Devonian collapse of the Caledonian Orogen and the extrusion of volcanics at the Paleocene–Eocene transition during break-up of the North-East Atlantic. Here we pay special attention to unconfo...

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Published in:GEUS Bulletin
Main Authors: Japsen, Peter, Green, Paul F., Bonow, Johan M., Bjerager, Morten, Hopper, John R.
Format: Article in Journal/Newspaper
Language:English
Published: Geological Survey of Denmark and Greenland (GEUS) 2021
Subjects:
Erosion
hiatus
peneplain
uplift
tectonics
Greenland
Jameson Land
East Greenland
Iceland
North East Atlantic
Online Access:https://geusbulletin.org/index.php/geusb/article/view/5299
https://doi.org/10.34194/geusb.v45.5299
id ftjgeusbullet:oai:geusjournals.org:article/5299
record_format openpolar
institution Open Polar
collection GEUS Bulletin (Geological Survey of Denmark and Greenland)
op_collection_id ftjgeusbullet
language English
topic Erosion
hiatus
peneplain
uplift
tectonics
spellingShingle Erosion
hiatus
peneplain
uplift
tectonics
Japsen, Peter
Green, Paul F.
Bonow, Johan M.
Bjerager, Morten
Hopper, John R.
Episodic burial and exhumation in North-East Greenland before and after opening of the North-East Atlantic
topic_facet Erosion
hiatus
peneplain
uplift
tectonics
description The geology of North-East Greenland (70–78°N) exposes unique evidence of the basin development between the Devonian collapse of the Caledonian Orogen and the extrusion of volcanics at the Paleocene–Eocene transition during break-up of the North-East Atlantic. Here we pay special attention to unconformities in the stratigraphic record – do they represent periods of stability and non-deposition or periods of subsidence and accumulation of rocks followed by episodes of uplift and erosion? To answer that and other questions, we used apatite fission-track analysis and vitrinite reflectance data together with stratigraphic landscape analysis and observations from the stratigraphic record to study the thermo-tectonic history of North-East Greenland. Our analysis reveals eight regional stages of post-Caledonian development: (1) Late Carboniferous uplift and erosion led to formation of a sub-Permian peneplain covered by coarse siliciclastic deposits. (2) Middle Triassic exhumation led to removal of a thick cover including a considerable thickness of upper Carboniferous – Middle Triassic rocks and produced thick siliciclastic deposits in the rift system. (3) Denudation at the transition between the Early and Middle Jurassic affected most of the study area outside the Jameson Land Basin and produced a weathered surface above which Middle–Upper Jurassic sediments accumulated. (4) Earliest Cretaceous uplift and erosion along the rifted margin and further inland accompanied the Mesozoic rift climax and produced coarse-grained sedimentary infill of the rift basins. (5) Mid-Cretaceous uplift and erosion initiated removal of Cretaceous post-rift sediments that had accumulated above the Mesozoic rifts and their hinterland, leading to cooling of Mesozoic sediments from maximum palaeotemperatures. (6) End-Eocene uplift was accompanied by faulting and intrusion of magmatic bodies and resulted in extensive mass wasting on the East Greenland shelf. This event initiated the removal of a thick post-rift succession that had accumulated after break-up and produced a peneplain near sea level, the Upper Planation Surface. (7) Late Miocene uplift and erosion, evidenced by massive progradation on the shelf, resulted in the formation of the Lower Planation Surface by incision below the uplifted Upper Planation Surface. (8) Early Pliocene uplift raised the Upper and the Lower Planation Surfaces to their present elevations of about 2 and 1 km above sea level, respectively, and initiated the formation of the present-day landscape through fluvial and glacial erosion. Additional cooling episodes of more local extent, related to igneous activity in the early Eocene and in the early Miocene, primarily affected parts of northern Jameson Land. The three earliest episodes had a profound impact beyond Greenland and accompanied the fragmentation of Pangaea. Younger episodes were controlled by plate-tectonic processes, possibly including dynamic support from the Iceland Plume. Our results emphasise that gaps in the stratigraphic record often reflect episodes of kilometre-scale vertical movements that may result from both lithospheric and sub-lithospheric processes.
format Article in Journal/Newspaper
author Japsen, Peter
Green, Paul F.
Bonow, Johan M.
Bjerager, Morten
Hopper, John R.
author_facet Japsen, Peter
Green, Paul F.
Bonow, Johan M.
Bjerager, Morten
Hopper, John R.
author_sort Japsen, Peter
title Episodic burial and exhumation in North-East Greenland before and after opening of the North-East Atlantic
title_short Episodic burial and exhumation in North-East Greenland before and after opening of the North-East Atlantic
title_full Episodic burial and exhumation in North-East Greenland before and after opening of the North-East Atlantic
title_fullStr Episodic burial and exhumation in North-East Greenland before and after opening of the North-East Atlantic
title_full_unstemmed Episodic burial and exhumation in North-East Greenland before and after opening of the North-East Atlantic
title_sort episodic burial and exhumation in north-east greenland before and after opening of the north-east atlantic
publisher Geological Survey of Denmark and Greenland (GEUS)
publishDate 2021
url https://geusbulletin.org/index.php/geusb/article/view/5299
https://doi.org/10.34194/geusb.v45.5299
long_lat ENVELOPE(-23.500,-23.500,71.167,71.167)
geographic Greenland
Jameson Land
geographic_facet Greenland
Jameson Land
genre East Greenland
Greenland
Iceland
North East Atlantic
genre_facet East Greenland
Greenland
Iceland
North East Atlantic
op_source GEUS Bulletin; Vol. 45 No. 2 (2021): Denudation history and landscape development in East Greenland: Part Two
2597-2154
2597-2162
10.34194/geusb.v452
op_relation https://geusbulletin.org/index.php/geusb/article/view/5299/14208
https://geusbulletin.org/index.php/geusb/article/view/5299/14209
https://geusbulletin.org/index.php/geusb/article/view/5299/14215
https://geusbulletin.org/index.php/geusb/article/view/5299/14212
https://geusbulletin.org/index.php/geusb/article/view/5299/14213
https://geusbulletin.org/index.php/geusb/article/view/5299
doi:10.34194/geusb.v45.5299
op_rights Copyright (c) 2021 Peter Japsen, Paul F. Green, Johan M. Bonow, Morten Bjerager, John R. Hopper
https://creativecommons.org/licenses/by/4.0
op_rightsnorm CC-BY
op_doi https://doi.org/10.34194/geusb.v45.5299
https://doi.org/10.34194/geusb.v452
container_title GEUS Bulletin
container_volume 45
container_issue 2
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spelling ftjgeusbullet:oai:geusjournals.org:article/5299 2023-05-15T16:03:38+02:00 Episodic burial and exhumation in North-East Greenland before and after opening of the North-East Atlantic Japsen, Peter Green, Paul F. Bonow, Johan M. Bjerager, Morten Hopper, John R. 2021-10-08 application/pdf text/html text/xml application/epub+zip https://geusbulletin.org/index.php/geusb/article/view/5299 https://doi.org/10.34194/geusb.v45.5299 eng eng Geological Survey of Denmark and Greenland (GEUS) https://geusbulletin.org/index.php/geusb/article/view/5299/14208 https://geusbulletin.org/index.php/geusb/article/view/5299/14209 https://geusbulletin.org/index.php/geusb/article/view/5299/14215 https://geusbulletin.org/index.php/geusb/article/view/5299/14212 https://geusbulletin.org/index.php/geusb/article/view/5299/14213 https://geusbulletin.org/index.php/geusb/article/view/5299 doi:10.34194/geusb.v45.5299 Copyright (c) 2021 Peter Japsen, Paul F. Green, Johan M. Bonow, Morten Bjerager, John R. Hopper https://creativecommons.org/licenses/by/4.0 CC-BY GEUS Bulletin; Vol. 45 No. 2 (2021): Denudation history and landscape development in East Greenland: Part Two 2597-2154 2597-2162 10.34194/geusb.v452 Erosion hiatus peneplain uplift tectonics info:eu-repo/semantics/article info:eu-repo/semantics/publishedVersion Peer-reviewed single-volume work. Submissions strictly by arrangement with the editorial office. 2021 ftjgeusbullet https://doi.org/10.34194/geusb.v45.5299 https://doi.org/10.34194/geusb.v452 2022-05-11T22:49:25Z The geology of North-East Greenland (70–78°N) exposes unique evidence of the basin development between the Devonian collapse of the Caledonian Orogen and the extrusion of volcanics at the Paleocene–Eocene transition during break-up of the North-East Atlantic. Here we pay special attention to unconformities in the stratigraphic record – do they represent periods of stability and non-deposition or periods of subsidence and accumulation of rocks followed by episodes of uplift and erosion? To answer that and other questions, we used apatite fission-track analysis and vitrinite reflectance data together with stratigraphic landscape analysis and observations from the stratigraphic record to study the thermo-tectonic history of North-East Greenland. Our analysis reveals eight regional stages of post-Caledonian development: (1) Late Carboniferous uplift and erosion led to formation of a sub-Permian peneplain covered by coarse siliciclastic deposits. (2) Middle Triassic exhumation led to removal of a thick cover including a considerable thickness of upper Carboniferous – Middle Triassic rocks and produced thick siliciclastic deposits in the rift system. (3) Denudation at the transition between the Early and Middle Jurassic affected most of the study area outside the Jameson Land Basin and produced a weathered surface above which Middle–Upper Jurassic sediments accumulated. (4) Earliest Cretaceous uplift and erosion along the rifted margin and further inland accompanied the Mesozoic rift climax and produced coarse-grained sedimentary infill of the rift basins. (5) Mid-Cretaceous uplift and erosion initiated removal of Cretaceous post-rift sediments that had accumulated above the Mesozoic rifts and their hinterland, leading to cooling of Mesozoic sediments from maximum palaeotemperatures. (6) End-Eocene uplift was accompanied by faulting and intrusion of magmatic bodies and resulted in extensive mass wasting on the East Greenland shelf. This event initiated the removal of a thick post-rift succession that had accumulated after break-up and produced a peneplain near sea level, the Upper Planation Surface. (7) Late Miocene uplift and erosion, evidenced by massive progradation on the shelf, resulted in the formation of the Lower Planation Surface by incision below the uplifted Upper Planation Surface. (8) Early Pliocene uplift raised the Upper and the Lower Planation Surfaces to their present elevations of about 2 and 1 km above sea level, respectively, and initiated the formation of the present-day landscape through fluvial and glacial erosion. Additional cooling episodes of more local extent, related to igneous activity in the early Eocene and in the early Miocene, primarily affected parts of northern Jameson Land. The three earliest episodes had a profound impact beyond Greenland and accompanied the fragmentation of Pangaea. Younger episodes were controlled by plate-tectonic processes, possibly including dynamic support from the Iceland Plume. Our results emphasise that gaps in the stratigraphic record often reflect episodes of kilometre-scale vertical movements that may result from both lithospheric and sub-lithospheric processes. Article in Journal/Newspaper East Greenland Greenland Iceland North East Atlantic GEUS Bulletin (Geological Survey of Denmark and Greenland) Greenland Jameson Land ENVELOPE(-23.500,-23.500,71.167,71.167) GEUS Bulletin 45 2

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