Carboniferous North Atlantic palaeogeography: stratigraphic evidence for rifting, not megashear or subduction

Abstract Three theories have been proposed for the origin of Carboniferous basins in Britain: megashear; tension from Rheic Ocean subduction; tension from rifting of the North Atlantic. The first two hypotheses are rejected because they do not explain the Carboniferous volcanism, Stephanian dyke swa...

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Published in:Geological Magazine
Main Author: Haszeldine, R. S.
Format: Article in Journal/Newspaper
Language:English
Published: Cambridge University Press (CUP) 1984
Subjects:
East Greenland
Greenland
North Atlantic
Norwegian Sea
Svalbard
Online Access:http://dx.doi.org/10.1017/s0016756800029988
https://www.cambridge.org/core/services/aop-cambridge-core/content/view/S0016756800029988
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spelling crcambridgeupr:10.1017/s0016756800029988 2024-09-15T18:04:21+00:00 Carboniferous North Atlantic palaeogeography: stratigraphic evidence for rifting, not megashear or subduction Haszeldine, R. S. 1984 http://dx.doi.org/10.1017/s0016756800029988 https://www.cambridge.org/core/services/aop-cambridge-core/content/view/S0016756800029988 en eng Cambridge University Press (CUP) https://www.cambridge.org/core/terms Geological Magazine volume 121, issue 5, page 443-463 ISSN 0016-7568 1469-5081 journal-article 1984 crcambridgeupr https://doi.org/10.1017/s0016756800029988 2024-07-31T04:03:58Z Abstract Three theories have been proposed for the origin of Carboniferous basins in Britain: megashear; tension from Rheic Ocean subduction; tension from rifting of the North Atlantic. The first two hypotheses are rejected because they do not explain the Carboniferous volcanism, Stephanian dyke swarm, Boreal marine transgressions during the late Carboniferous and Permian, Carboniferous sedimentary basin histories, basin types or basin orientations. Carboniferous volcanics were rift-related due to crustal thinning, which also resulted in the formation of sedimentary basins in the British Isles and a marine transgression of Tethyan faunas. Newly formed Carboniferous fracture lines and basin orientations showed that tension varied between east–west and northwest–southeast. Crustal fracturing in the latest Dinantian, possibly due to collision of microcontinents in the closing Rheic and Phoibic oceans with North America, led to the synchronous initiation of rift basins in East Greenland, elevation of source areas for the Millstone Grit of the British Isles, and formation of transform fault zones near Svalbard and North Spain. The narrow, rapidly subsiding, quickly changing ‘fosse’ basins which formed in these transcurrent fault zones contrast with the coeval stable, slower subsiding rift-parallel ‘saucer’ basins of the British Isles. Variations of subsidence rates in all these basins allow interpretations of crustal stress history. Brittle fracturing in the Westphalian C formed the first oceanic crust, but free oceanic spreading from Spain to southwest of the Faeroes only occurred after Stephanian dyke intrusion and crustal thinning at the Faeroes. The Norwegian Sea underwent continental crustal thinning. Ocean spreading and crustal thinning ceased in latest Stephanian times. Boreal marine transgressions advanced down the newly thinned Norwegian Sea, firstly along its northern part and then reaching the North Sea basins and Germany in the Rotliegendes and Zechstein. Synsedimetary ore deposits formed during early ... Article in Journal/Newspaper East Greenland Greenland North Atlantic Norwegian Sea Svalbard Cambridge University Press Geological Magazine 121 5 443 463
institution Open Polar
collection Cambridge University Press
op_collection_id crcambridgeupr
language English
description Abstract Three theories have been proposed for the origin of Carboniferous basins in Britain: megashear; tension from Rheic Ocean subduction; tension from rifting of the North Atlantic. The first two hypotheses are rejected because they do not explain the Carboniferous volcanism, Stephanian dyke swarm, Boreal marine transgressions during the late Carboniferous and Permian, Carboniferous sedimentary basin histories, basin types or basin orientations. Carboniferous volcanics were rift-related due to crustal thinning, which also resulted in the formation of sedimentary basins in the British Isles and a marine transgression of Tethyan faunas. Newly formed Carboniferous fracture lines and basin orientations showed that tension varied between east–west and northwest–southeast. Crustal fracturing in the latest Dinantian, possibly due to collision of microcontinents in the closing Rheic and Phoibic oceans with North America, led to the synchronous initiation of rift basins in East Greenland, elevation of source areas for the Millstone Grit of the British Isles, and formation of transform fault zones near Svalbard and North Spain. The narrow, rapidly subsiding, quickly changing ‘fosse’ basins which formed in these transcurrent fault zones contrast with the coeval stable, slower subsiding rift-parallel ‘saucer’ basins of the British Isles. Variations of subsidence rates in all these basins allow interpretations of crustal stress history. Brittle fracturing in the Westphalian C formed the first oceanic crust, but free oceanic spreading from Spain to southwest of the Faeroes only occurred after Stephanian dyke intrusion and crustal thinning at the Faeroes. The Norwegian Sea underwent continental crustal thinning. Ocean spreading and crustal thinning ceased in latest Stephanian times. Boreal marine transgressions advanced down the newly thinned Norwegian Sea, firstly along its northern part and then reaching the North Sea basins and Germany in the Rotliegendes and Zechstein. Synsedimetary ore deposits formed during early ...
format Article in Journal/Newspaper
author Haszeldine, R. S.
spellingShingle Haszeldine, R. S.
Carboniferous North Atlantic palaeogeography: stratigraphic evidence for rifting, not megashear or subduction
author_facet Haszeldine, R. S.
author_sort Haszeldine, R. S.
title Carboniferous North Atlantic palaeogeography: stratigraphic evidence for rifting, not megashear or subduction
title_short Carboniferous North Atlantic palaeogeography: stratigraphic evidence for rifting, not megashear or subduction
title_full Carboniferous North Atlantic palaeogeography: stratigraphic evidence for rifting, not megashear or subduction
title_fullStr Carboniferous North Atlantic palaeogeography: stratigraphic evidence for rifting, not megashear or subduction
title_full_unstemmed Carboniferous North Atlantic palaeogeography: stratigraphic evidence for rifting, not megashear or subduction
title_sort carboniferous north atlantic palaeogeography: stratigraphic evidence for rifting, not megashear or subduction
publisher Cambridge University Press (CUP)
publishDate 1984
url http://dx.doi.org/10.1017/s0016756800029988
https://www.cambridge.org/core/services/aop-cambridge-core/content/view/S0016756800029988
genre East Greenland
Greenland
North Atlantic
Norwegian Sea
Svalbard
genre_facet East Greenland
Greenland
North Atlantic
Norwegian Sea
Svalbard
op_source Geological Magazine
volume 121, issue 5, page 443-463
ISSN 0016-7568 1469-5081
op_rights https://www.cambridge.org/core/terms
op_doi https://doi.org/10.1017/s0016756800029988
container_title Geological Magazine
container_volume 121
container_issue 5
container_start_page 443
op_container_end_page 463
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