Paleoenvironmental Interpretations of the Lower Taylor Group, Olympus Range area, southern Victoria Land, Antarctica

The Devonian Taylor Group, in the Olympus Range area, southern Victoria Land (SVL), Antarctica, is separated from the basement by a regional nonconformity (Kukri Erosion Surface). A second localized unconformity within the Taylor Group called the Heimdall Erosion Surface separates the New Mountain S...

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Bibliographic Details
Main Author: Gilmer, Greer Jessie
Format: Article in Journal/Newspaper
Language:unknown
Published: University of Canterbury. Geological Sciences 2008
Subjects:
Beacon Supergroup
Taylor Group
sedimentary
dry valleys
provenance
sandstone
paeloenvironment
Victoria Land
Olympus
Jagged
The Altar
Granite Harbour
New Mountain
Bull Pass
Asgard Range
Olympus Range
Altar Mountain
Sponsors Peak
Vashka
Vashka Crag
Antarc*
Antarctica
Online Access:https://dx.doi.org/10.26021/5843
https://ir.canterbury.ac.nz/handle/10092/1985
id ftdatacite:10.26021/5843
record_format openpolar
institution Open Polar
collection DataCite Metadata Store (German National Library of Science and Technology)
op_collection_id ftdatacite
language unknown
topic Beacon Supergroup
Taylor Group
sedimentary
dry valleys
provenance
sandstone
paeloenvironment
spellingShingle Beacon Supergroup
Taylor Group
sedimentary
dry valleys
provenance
sandstone
paeloenvironment
Gilmer, Greer Jessie
Paleoenvironmental Interpretations of the Lower Taylor Group, Olympus Range area, southern Victoria Land, Antarctica
topic_facet Beacon Supergroup
Taylor Group
sedimentary
dry valleys
provenance
sandstone
paeloenvironment
description The Devonian Taylor Group, in the Olympus Range area, southern Victoria Land (SVL), Antarctica, is separated from the basement by a regional nonconformity (Kukri Erosion Surface). A second localized unconformity within the Taylor Group called the Heimdall Erosion Surface separates the New Mountain Sandstone and older units from the younger Altar Mountain Formation. The depositional environment of the New Mountain Sandstone has long been under contention. The New Mountain Sandstone Formation is a predominantly quartzose cross-bedded sandstone. Its newly defined Mt Jason Member is a coarse arkosic small scale cross-bedded pebbly sandstone that grades up section into the rest of the quartzose New Mountain Sandstone with large scale cross beds. The New Mountain Sandstone has been divided into five lithofacies including the Basal Conglomerate Lithofacies, Pebbly Sandstone Lithofacies, Granule Cross-bedded Lithofacies, Pinstripe Cross-bedded Lithofacies and Cross-bedded Sandstone Lithofacies. Deposition was in a shoreface environment with minor coastal aeolian deposition. The environment changed from upper shoreface to lower shoreface up section, forming transgressive to highstand systems tracts. The Heimdall Erosion Surface truncates the Cross-bedded Sandstone Lithofacies and the Pinstripe Cross-bedded Lithofacies and was formed due to relative sea level fall leading to exposure and erosion of underlying sedimentary and basement rocks. It forms a type 1 sequence boundary. The New Mountain Sandstone was partially or totally lithified before erosion as shown by the jagged morphology of the eroded cross beds on the surface. It is not known when cementation of the NMS took place or how much of the formation has been eroded. The Heimdall Erosion Surface and Kukri Erosion Surface converge locally due to erosion on the Heimdall Erosion Surface and relief on the Kukri Erosion Surface. The Heimdall Erosion Surface became a shore platform and the site of deposition as relative sea level rose. The Altar Mountain Formation with its Odin Member is a cross-bedded, massive and bedded feldspathic and quartzose sandstone that fines up section and is deposited on the erosion surface. The Altar Mountain Formation is divided into four lithofacies including the Conglomerate Lithofacies, Trough Cross-bedded Lithofacies, Cross-bedded Bioturbated Lithofacies and Bedded Fine Lithofacies. Deposition was in a shoreface environment, changing up section to an inner shelf environment with minor estuarine/tidal influence near the top of the section forming transgressive to highstand to regressive system tracts. The sedimentary rocks are derived mainly from the Granite Harbour Intrusives and Koettlitz Group, which underlie the sandstones, but were exposed elsewhere in SVL. The sandstone clasts within the Conglomerate Lithofacies could be derived from underlying older Taylor Group rocks or exotic sources from outside the field area. Correlation with data from adjacent areas suggests deposition of the New Mountain Sandstone occurred in a shallow sea that existed from the Olympus Range, southwards into the Asgard Range and included Vashka Crag. The area around Sponsors Peak and to the north was exposed and supplying feldspathic and quartzose sediment and pebbles into the depositional basin. As relative sea level fell due to either tectonic uplift or eustatic processes a large area of southern Victoria Land was exposed including the Olympus and Asgard Ranges and Bull Pass-St Johns Range area. This lead to erosion of the New Mountain Formation and basement rocks. Deposition of the New Mountain Sandstone continued further south shown by the gradational contact between it and the overlying Altar Mountain Formation. Relative sea level rise led to deposition of the Altar Mountain Formation. Shallow seas once more dominated the southern Victoria Land with deltas in the east (in the Bull Pass-St Johns Range area) feeding feldspathic sediment into the depositional basin (Odin Member). Further sea level rise drowned the delta region and a shallow marine to inner shelf environment led to deposition of the rest of the Altar Mountain Formation.
format Article in Journal/Newspaper
author Gilmer, Greer Jessie
author_facet Gilmer, Greer Jessie
author_sort Gilmer, Greer Jessie
title Paleoenvironmental Interpretations of the Lower Taylor Group, Olympus Range area, southern Victoria Land, Antarctica
title_short Paleoenvironmental Interpretations of the Lower Taylor Group, Olympus Range area, southern Victoria Land, Antarctica
title_full Paleoenvironmental Interpretations of the Lower Taylor Group, Olympus Range area, southern Victoria Land, Antarctica
title_fullStr Paleoenvironmental Interpretations of the Lower Taylor Group, Olympus Range area, southern Victoria Land, Antarctica
title_full_unstemmed Paleoenvironmental Interpretations of the Lower Taylor Group, Olympus Range area, southern Victoria Land, Antarctica
title_sort paleoenvironmental interpretations of the lower taylor group, olympus range area, southern victoria land, antarctica
publisher University of Canterbury. Geological Sciences
publishDate 2008
url https://dx.doi.org/10.26021/5843
https://ir.canterbury.ac.nz/handle/10092/1985
long_lat ENVELOPE(156.767,156.767,-80.217,-80.217)
ENVELOPE(-65.683,-65.683,-65.967,-65.967)
ENVELOPE(11.367,11.367,-71.650,-71.650)
ENVELOPE(162.733,162.733,-76.883,-76.883)
ENVELOPE(161.117,161.117,-77.867,-77.867)
ENVELOPE(161.700,161.700,-77.467,-77.467)
ENVELOPE(161.500,161.500,-77.617,-77.617)
ENVELOPE(162.000,162.000,-77.467,-77.467)
ENVELOPE(160.850,160.850,-77.900,-77.900)
ENVELOPE(161.400,161.400,-77.300,-77.300)
ENVELOPE(161.183,161.183,-77.350,-77.350)
ENVELOPE(161.050,161.050,-77.317,-77.317)
geographic Victoria Land
Olympus
Jagged
The Altar
Granite Harbour
New Mountain
Bull Pass
Asgard Range
Olympus Range
Altar Mountain
Sponsors Peak
Vashka
Vashka Crag
geographic_facet Victoria Land
Olympus
Jagged
The Altar
Granite Harbour
New Mountain
Bull Pass
Asgard Range
Olympus Range
Altar Mountain
Sponsors Peak
Vashka
Vashka Crag
genre Antarc*
Antarctica
Victoria Land
genre_facet Antarc*
Antarctica
Victoria Land
op_rights Copyright Greer Jessie Gilmer
https://canterbury.libguides.com/rights/theses
op_doi https://doi.org/10.26021/5843
_version_ 1766260977614979072
spelling ftdatacite:10.26021/5843 2023-05-15T13:54:50+02:00 Paleoenvironmental Interpretations of the Lower Taylor Group, Olympus Range area, southern Victoria Land, Antarctica Gilmer, Greer Jessie 2008 https://dx.doi.org/10.26021/5843 https://ir.canterbury.ac.nz/handle/10092/1985 unknown University of Canterbury. Geological Sciences Copyright Greer Jessie Gilmer https://canterbury.libguides.com/rights/theses Beacon Supergroup Taylor Group sedimentary dry valleys provenance sandstone paeloenvironment CreativeWork article 2008 ftdatacite https://doi.org/10.26021/5843 2021-11-05T12:55:41Z The Devonian Taylor Group, in the Olympus Range area, southern Victoria Land (SVL), Antarctica, is separated from the basement by a regional nonconformity (Kukri Erosion Surface). A second localized unconformity within the Taylor Group called the Heimdall Erosion Surface separates the New Mountain Sandstone and older units from the younger Altar Mountain Formation. The depositional environment of the New Mountain Sandstone has long been under contention. The New Mountain Sandstone Formation is a predominantly quartzose cross-bedded sandstone. Its newly defined Mt Jason Member is a coarse arkosic small scale cross-bedded pebbly sandstone that grades up section into the rest of the quartzose New Mountain Sandstone with large scale cross beds. The New Mountain Sandstone has been divided into five lithofacies including the Basal Conglomerate Lithofacies, Pebbly Sandstone Lithofacies, Granule Cross-bedded Lithofacies, Pinstripe Cross-bedded Lithofacies and Cross-bedded Sandstone Lithofacies. Deposition was in a shoreface environment with minor coastal aeolian deposition. The environment changed from upper shoreface to lower shoreface up section, forming transgressive to highstand systems tracts. The Heimdall Erosion Surface truncates the Cross-bedded Sandstone Lithofacies and the Pinstripe Cross-bedded Lithofacies and was formed due to relative sea level fall leading to exposure and erosion of underlying sedimentary and basement rocks. It forms a type 1 sequence boundary. The New Mountain Sandstone was partially or totally lithified before erosion as shown by the jagged morphology of the eroded cross beds on the surface. It is not known when cementation of the NMS took place or how much of the formation has been eroded. The Heimdall Erosion Surface and Kukri Erosion Surface converge locally due to erosion on the Heimdall Erosion Surface and relief on the Kukri Erosion Surface. The Heimdall Erosion Surface became a shore platform and the site of deposition as relative sea level rose. The Altar Mountain Formation with its Odin Member is a cross-bedded, massive and bedded feldspathic and quartzose sandstone that fines up section and is deposited on the erosion surface. The Altar Mountain Formation is divided into four lithofacies including the Conglomerate Lithofacies, Trough Cross-bedded Lithofacies, Cross-bedded Bioturbated Lithofacies and Bedded Fine Lithofacies. Deposition was in a shoreface environment, changing up section to an inner shelf environment with minor estuarine/tidal influence near the top of the section forming transgressive to highstand to regressive system tracts. The sedimentary rocks are derived mainly from the Granite Harbour Intrusives and Koettlitz Group, which underlie the sandstones, but were exposed elsewhere in SVL. The sandstone clasts within the Conglomerate Lithofacies could be derived from underlying older Taylor Group rocks or exotic sources from outside the field area. Correlation with data from adjacent areas suggests deposition of the New Mountain Sandstone occurred in a shallow sea that existed from the Olympus Range, southwards into the Asgard Range and included Vashka Crag. The area around Sponsors Peak and to the north was exposed and supplying feldspathic and quartzose sediment and pebbles into the depositional basin. As relative sea level fell due to either tectonic uplift or eustatic processes a large area of southern Victoria Land was exposed including the Olympus and Asgard Ranges and Bull Pass-St Johns Range area. This lead to erosion of the New Mountain Formation and basement rocks. Deposition of the New Mountain Sandstone continued further south shown by the gradational contact between it and the overlying Altar Mountain Formation. Relative sea level rise led to deposition of the Altar Mountain Formation. Shallow seas once more dominated the southern Victoria Land with deltas in the east (in the Bull Pass-St Johns Range area) feeding feldspathic sediment into the depositional basin (Odin Member). Further sea level rise drowned the delta region and a shallow marine to inner shelf environment led to deposition of the rest of the Altar Mountain Formation. Article in Journal/Newspaper Antarc* Antarctica Victoria Land DataCite Metadata Store (German National Library of Science and Technology) Victoria Land Olympus ENVELOPE(156.767,156.767,-80.217,-80.217) Jagged ENVELOPE(-65.683,-65.683,-65.967,-65.967) The Altar ENVELOPE(11.367,11.367,-71.650,-71.650) Granite Harbour ENVELOPE(162.733,162.733,-76.883,-76.883) New Mountain ENVELOPE(161.117,161.117,-77.867,-77.867) Bull Pass ENVELOPE(161.700,161.700,-77.467,-77.467) Asgard Range ENVELOPE(161.500,161.500,-77.617,-77.617) Olympus Range ENVELOPE(162.000,162.000,-77.467,-77.467) Altar Mountain ENVELOPE(160.850,160.850,-77.900,-77.900) Sponsors Peak ENVELOPE(161.400,161.400,-77.300,-77.300) Vashka ENVELOPE(161.183,161.183,-77.350,-77.350) Vashka Crag ENVELOPE(161.050,161.050,-77.317,-77.317)

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