Stratigraphy, mud buildups, and carbonate platform development of the Upper Ordovician to Lower Devonian sequence, Ellesmere, Hans, and Devon Islands, Arctic Canada.

The Upper Ordovician to Lower Devonian platform in the Canadian Arctic twice evolved from a ramp to a rimmed shelf profile. Platform backstepping occurred in the fastigatus, acuminatus, cyphus?, sakmaricus (in North Greenland only) and linearis graptolite zones. Two major phases of pinnacle reef dev...

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Bibliographic Details
Main Author: de Freitas, Tim A.
Format: Thesis
Language:unknown
Published: University of Ottawa (Canada) 1991
Subjects:
Geology
Allen Bay
Arctic
Baumann Fiord
Canada
Canyon River
Cape Phillips
Cape Storm
Darling Peninsula
Ellesmere Island
Goose Fiord
Greenland
Pinnacle
Red Canyon River
Trold Fiord
North Greenland
Online Access:http://hdl.handle.net/10393/7937
https://doi.org/10.20381/ruor-15571
id ftunivottawa:oai:ruor.uottawa.ca:10393/7937
record_format openpolar
institution Open Polar
collection uO Research (University of Ottawa - uOttawa)
op_collection_id ftunivottawa
language unknown
topic Geology
spellingShingle Geology
de Freitas, Tim A.
Stratigraphy, mud buildups, and carbonate platform development of the Upper Ordovician to Lower Devonian sequence, Ellesmere, Hans, and Devon Islands, Arctic Canada.
topic_facet Geology
description The Upper Ordovician to Lower Devonian platform in the Canadian Arctic twice evolved from a ramp to a rimmed shelf profile. Platform backstepping occurred in the fastigatus, acuminatus, cyphus?, sakmaricus (in North Greenland only) and linearis graptolite zones. Two major phases of pinnacle reef development followed platform backstepping, the first beginning in the lower Llandovery (cyphus Zone) and the second in the Ludlow (linearis Zone). Pinnacles of the first phase are uncommon, occur in the vicinity of Baumann Fiord, and show a vertical succession of lime mudstone, poorly exposed microbial carbonate, and coralgal biolithite, representing upward shallowing. The last named lithofacies is newly interpreted as representing a high-energy, wave-stressed environment that excluded stromatoporoid growth but favoured a sparse skeletal metazoan fauna, thickly encrusted by microbes. Paleo-surface area of these structures was apparently important for the accumulation of extensive ooids, which are associated with the upper parts of some pinnacle reefs. Three large mud buildups on central Ellesmere Island were established on the shelf margin subsequent to Upper Ordovician (fastigatus Zone) platform drowning. These structures show a vertical lithofacies succession: bioturbated lime mudstone is overlain by microbial carbonate then by mudstone-rich stromatoporoid floatstone and bindstone. The succession records overall upward shallowing. The olive green shale unit, well exposed in the vicinity of Trold Fiord, is an areally extensive and mappable middle Ludlow unit of the Cape Phillips Formation that postdates diachronous, middle Ludlow platform backstepping in the vicinity of Baumann Fiord. After backstepping, condensed sequences occurred over paleotopographic highs and expanded sections over lows, and a subsequent second major phase of platform rimming occurred. Stratigraphy known in the southern Arctic Islands is generally applicable to northeastern Ellesmere Island, but local lithological variations occur. The upper part of the Allen Bay Formation at Darling Peninsula, in particular, is unusually thick, and subtidal, perhaps resulting from greater subsidence, related to lithospheric flexure and deep marine clastic sedimentation that drowned the contiguous platform on North Greenland. Other formations recognized in this area include the Cape Storm, Douro, and Goose Fiord formations, although these, too, show minor lithological differences from type sequences. A thick grey siltstone unit in the vicinity of Bay and Vesle fiords is suggested to be a distal facies of the Red Canyon River Formation. This sequence is a progradational clastic wedge that likely represents the first, largest phase of the tripartite Caledonian Inglefield Uplift which profoundly affected carbonate deposition in the areas of southern and central Ellesmere Island during the late Silurian and early Devonian time. The base of this unit is diachronous and likely late Silurian in age. (Abstract shortened by UMI.)
format Thesis
author de Freitas, Tim A.
author_facet de Freitas, Tim A.
author_sort de Freitas, Tim A.
title Stratigraphy, mud buildups, and carbonate platform development of the Upper Ordovician to Lower Devonian sequence, Ellesmere, Hans, and Devon Islands, Arctic Canada.
title_short Stratigraphy, mud buildups, and carbonate platform development of the Upper Ordovician to Lower Devonian sequence, Ellesmere, Hans, and Devon Islands, Arctic Canada.
title_full Stratigraphy, mud buildups, and carbonate platform development of the Upper Ordovician to Lower Devonian sequence, Ellesmere, Hans, and Devon Islands, Arctic Canada.
title_fullStr Stratigraphy, mud buildups, and carbonate platform development of the Upper Ordovician to Lower Devonian sequence, Ellesmere, Hans, and Devon Islands, Arctic Canada.
title_full_unstemmed Stratigraphy, mud buildups, and carbonate platform development of the Upper Ordovician to Lower Devonian sequence, Ellesmere, Hans, and Devon Islands, Arctic Canada.
title_sort stratigraphy, mud buildups, and carbonate platform development of the upper ordovician to lower devonian sequence, ellesmere, hans, and devon islands, arctic canada.
publisher University of Ottawa (Canada)
publishDate 1991
url http://hdl.handle.net/10393/7937
https://doi.org/10.20381/ruor-15571
long_lat ENVELOPE(-36.533,-36.533,-54.183,-54.183)
ENVELOPE(-85.583,-85.583,77.668,77.668)
ENVELOPE(-84.052,-84.052,65.185,65.185)
ENVELOPE(-62.600,-62.600,-84.750,-84.750)
ENVELOPE(-87.583,-87.583,76.352,76.352)
ENVELOPE(-71.845,-71.845,79.785,79.785)
ENVELOPE(-88.583,-88.583,76.602,76.602)
ENVELOPE(-54.900,-54.900,-61.067,-61.067)
ENVELOPE(-79.864,-79.864,79.652,79.652)
ENVELOPE(-85.282,-85.282,78.252,78.252)
geographic Allen Bay
Arctic
Baumann Fiord
Canada
Canyon River
Cape Phillips
Cape Storm
Darling Peninsula
Ellesmere Island
Goose Fiord
Greenland
Pinnacle
Red Canyon River
Trold Fiord
geographic_facet Allen Bay
Arctic
Baumann Fiord
Canada
Canyon River
Cape Phillips
Cape Storm
Darling Peninsula
Ellesmere Island
Goose Fiord
Greenland
Pinnacle
Red Canyon River
Trold Fiord
genre Arctic
Baumann Fiord
Ellesmere Island
Greenland
North Greenland
genre_facet Arctic
Baumann Fiord
Ellesmere Island
Greenland
North Greenland
op_relation Source: Dissertation Abstracts International, Volume: 53-03, Section: B, page: 1254.
9780315680975
http://hdl.handle.net/10393/7937
http://dx.doi.org/10.20381/ruor-15571
op_doi https://doi.org/10.20381/ruor-15571
_version_ 1766333077587492864
spelling ftunivottawa:oai:ruor.uottawa.ca:10393/7937 2023-05-15T15:01:01+02:00 Stratigraphy, mud buildups, and carbonate platform development of the Upper Ordovician to Lower Devonian sequence, Ellesmere, Hans, and Devon Islands, Arctic Canada. de Freitas, Tim A. 1991 467 p. application/pdf http://hdl.handle.net/10393/7937 https://doi.org/10.20381/ruor-15571 unknown University of Ottawa (Canada) Source: Dissertation Abstracts International, Volume: 53-03, Section: B, page: 1254. 9780315680975 http://hdl.handle.net/10393/7937 http://dx.doi.org/10.20381/ruor-15571 Geology Thesis 1991 ftunivottawa https://doi.org/10.20381/ruor-15571 2021-01-04T17:04:59Z The Upper Ordovician to Lower Devonian platform in the Canadian Arctic twice evolved from a ramp to a rimmed shelf profile. Platform backstepping occurred in the fastigatus, acuminatus, cyphus?, sakmaricus (in North Greenland only) and linearis graptolite zones. Two major phases of pinnacle reef development followed platform backstepping, the first beginning in the lower Llandovery (cyphus Zone) and the second in the Ludlow (linearis Zone). Pinnacles of the first phase are uncommon, occur in the vicinity of Baumann Fiord, and show a vertical succession of lime mudstone, poorly exposed microbial carbonate, and coralgal biolithite, representing upward shallowing. The last named lithofacies is newly interpreted as representing a high-energy, wave-stressed environment that excluded stromatoporoid growth but favoured a sparse skeletal metazoan fauna, thickly encrusted by microbes. Paleo-surface area of these structures was apparently important for the accumulation of extensive ooids, which are associated with the upper parts of some pinnacle reefs. Three large mud buildups on central Ellesmere Island were established on the shelf margin subsequent to Upper Ordovician (fastigatus Zone) platform drowning. These structures show a vertical lithofacies succession: bioturbated lime mudstone is overlain by microbial carbonate then by mudstone-rich stromatoporoid floatstone and bindstone. The succession records overall upward shallowing. The olive green shale unit, well exposed in the vicinity of Trold Fiord, is an areally extensive and mappable middle Ludlow unit of the Cape Phillips Formation that postdates diachronous, middle Ludlow platform backstepping in the vicinity of Baumann Fiord. After backstepping, condensed sequences occurred over paleotopographic highs and expanded sections over lows, and a subsequent second major phase of platform rimming occurred. Stratigraphy known in the southern Arctic Islands is generally applicable to northeastern Ellesmere Island, but local lithological variations occur. The upper part of the Allen Bay Formation at Darling Peninsula, in particular, is unusually thick, and subtidal, perhaps resulting from greater subsidence, related to lithospheric flexure and deep marine clastic sedimentation that drowned the contiguous platform on North Greenland. Other formations recognized in this area include the Cape Storm, Douro, and Goose Fiord formations, although these, too, show minor lithological differences from type sequences. A thick grey siltstone unit in the vicinity of Bay and Vesle fiords is suggested to be a distal facies of the Red Canyon River Formation. This sequence is a progradational clastic wedge that likely represents the first, largest phase of the tripartite Caledonian Inglefield Uplift which profoundly affected carbonate deposition in the areas of southern and central Ellesmere Island during the late Silurian and early Devonian time. The base of this unit is diachronous and likely late Silurian in age. (Abstract shortened by UMI.) Thesis Arctic Baumann Fiord Ellesmere Island Greenland North Greenland uO Research (University of Ottawa - uOttawa) Allen Bay ENVELOPE(-36.533,-36.533,-54.183,-54.183) Arctic Baumann Fiord ENVELOPE(-85.583,-85.583,77.668,77.668) Canada Canyon River ENVELOPE(-84.052,-84.052,65.185,65.185) Cape Phillips ENVELOPE(-62.600,-62.600,-84.750,-84.750) Cape Storm ENVELOPE(-87.583,-87.583,76.352,76.352) Darling Peninsula ENVELOPE(-71.845,-71.845,79.785,79.785) Ellesmere Island Goose Fiord ENVELOPE(-88.583,-88.583,76.602,76.602) Greenland Pinnacle ENVELOPE(-54.900,-54.900,-61.067,-61.067) Red Canyon River ENVELOPE(-79.864,-79.864,79.652,79.652) Trold Fiord ENVELOPE(-85.282,-85.282,78.252,78.252)

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