Facies Control on Diagenesis in Frozen Sediments: The Sirius Group, Table Mountain and Mount Feather, Dry Valleys, Antarctica

A petrographic study of the Sirius Group from two locations in the Antarctic Dry Valleys shows distinct differences in both the detrital and diagenetic components of the sediments. The predominantly glaciofluvial depositional environment at Table Mtn. produced a sediment with less matrix and better...

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Main Authors: Dickinson, W, Bleakley, Nerida Lynn, School of Environmental and Rural Science
Format: Article in Journal/Newspaper
Language:English
Published: Universita degli Studi di Siena, Museo Nazionale dell'Antartide Felice Ippolito 2005
Subjects:
Sedimentology
Antarctic
The Antarctic
Sirius
Table Mountain
Mount Feather
Antarc*
Antarctica
Online Access:https://hdl.handle.net/1959.11/1625
id ftunivnewengland:oai:rune.une.edu.au:1959.11/1625
record_format openpolar
spelling ftunivnewengland:oai:rune.une.edu.au:1959.11/1625 2023-08-27T04:04:49+02:00 Facies Control on Diagenesis in Frozen Sediments: The Sirius Group, Table Mountain and Mount Feather, Dry Valleys, Antarctica Dickinson, W Bleakley, Nerida Lynn School of Environmental and Rural Science 2005 https://hdl.handle.net/1959.11/1625 en eng Universita degli Studi di Siena, Museo Nazionale dell'Antartide Felice Ippolito https://hdl.handle.net/1959.11/1625 une:1684 http://www.mna.it/italiano/Editoria/TAP/TA_abstracts/dickinson12_1.html Sedimentology Journal Article 2005 ftunivnewengland 2023-08-10T19:51:48Z A petrographic study of the Sirius Group from two locations in the Antarctic Dry Valleys shows distinct differences in both the detrital and diagenetic components of the sediments. The predominantly glaciofluvial depositional environment at Table Mtn. produced a sediment with less matrix and better sorting than did the subglacial depositional environment at Mt. Feather. This set the stage for different diagenetic events to occur because burial histories at both locations are similar. Diagenesis in Sirius Group sediments consists of major modification to primary porosity, dissolution of mostly feldspar framework grains, and precipitation of authigenic chabazite and calcite. Dissolution porosity and authigenic cement dominate at Table Mtn., whereas the development of primary porosity and matrix fabric dominate at Mt. Feather. A working model suggests that at Mt. Feather the pores and matrix fabric developed under wet, periglacial conditions through repeated cycles of freezing and thawing or wetting and drying. This is inferred to have occurred when the diamictite was soft and moist during a period when the climate was warmer than present and when water was more abundant. At Table Mtn. dissolution porosity and precipitation of the authigenic cements, calcite and chabazite, occurred under permanently frozen conditions. This is possible because ionic migration may occur in frozen sediments along interfacial films of brine. These highly saline and alkaline films provide the chemical conditions under which calcite and chabazite can precipitate in dry, subzero conditions. Article in Journal/Newspaper Antarc* Antarctic Antarctica Research UNE - University of New England at Armidale, NSW Australia Antarctic The Antarctic Sirius ENVELOPE(163.250,163.250,-84.133,-84.133) Table Mountain ENVELOPE(69.031,69.031,-48.668,-48.668) Mount Feather ENVELOPE(160.350,160.350,-77.950,-77.950)
institution Open Polar
collection Research UNE - University of New England at Armidale, NSW Australia
op_collection_id ftunivnewengland
language English
topic Sedimentology
spellingShingle Sedimentology
Dickinson, W
Bleakley, Nerida Lynn
School of Environmental and Rural Science
Facies Control on Diagenesis in Frozen Sediments: The Sirius Group, Table Mountain and Mount Feather, Dry Valleys, Antarctica
topic_facet Sedimentology
description A petrographic study of the Sirius Group from two locations in the Antarctic Dry Valleys shows distinct differences in both the detrital and diagenetic components of the sediments. The predominantly glaciofluvial depositional environment at Table Mtn. produced a sediment with less matrix and better sorting than did the subglacial depositional environment at Mt. Feather. This set the stage for different diagenetic events to occur because burial histories at both locations are similar. Diagenesis in Sirius Group sediments consists of major modification to primary porosity, dissolution of mostly feldspar framework grains, and precipitation of authigenic chabazite and calcite. Dissolution porosity and authigenic cement dominate at Table Mtn., whereas the development of primary porosity and matrix fabric dominate at Mt. Feather. A working model suggests that at Mt. Feather the pores and matrix fabric developed under wet, periglacial conditions through repeated cycles of freezing and thawing or wetting and drying. This is inferred to have occurred when the diamictite was soft and moist during a period when the climate was warmer than present and when water was more abundant. At Table Mtn. dissolution porosity and precipitation of the authigenic cements, calcite and chabazite, occurred under permanently frozen conditions. This is possible because ionic migration may occur in frozen sediments along interfacial films of brine. These highly saline and alkaline films provide the chemical conditions under which calcite and chabazite can precipitate in dry, subzero conditions.
format Article in Journal/Newspaper
author Dickinson, W
Bleakley, Nerida Lynn
School of Environmental and Rural Science
author_facet Dickinson, W
Bleakley, Nerida Lynn
School of Environmental and Rural Science
author_sort Dickinson, W
title Facies Control on Diagenesis in Frozen Sediments: The Sirius Group, Table Mountain and Mount Feather, Dry Valleys, Antarctica
title_short Facies Control on Diagenesis in Frozen Sediments: The Sirius Group, Table Mountain and Mount Feather, Dry Valleys, Antarctica
title_full Facies Control on Diagenesis in Frozen Sediments: The Sirius Group, Table Mountain and Mount Feather, Dry Valleys, Antarctica
title_fullStr Facies Control on Diagenesis in Frozen Sediments: The Sirius Group, Table Mountain and Mount Feather, Dry Valleys, Antarctica
title_full_unstemmed Facies Control on Diagenesis in Frozen Sediments: The Sirius Group, Table Mountain and Mount Feather, Dry Valleys, Antarctica
title_sort facies control on diagenesis in frozen sediments: the sirius group, table mountain and mount feather, dry valleys, antarctica
publisher Universita degli Studi di Siena, Museo Nazionale dell'Antartide Felice Ippolito
publishDate 2005
url https://hdl.handle.net/1959.11/1625
long_lat ENVELOPE(163.250,163.250,-84.133,-84.133)
ENVELOPE(69.031,69.031,-48.668,-48.668)
ENVELOPE(160.350,160.350,-77.950,-77.950)
geographic Antarctic
The Antarctic
Sirius
Table Mountain
Mount Feather
geographic_facet Antarctic
The Antarctic
Sirius
Table Mountain
Mount Feather
genre Antarc*
Antarctic
Antarctica
genre_facet Antarc*
Antarctic
Antarctica
op_source http://www.mna.it/italiano/Editoria/TAP/TA_abstracts/dickinson12_1.html
op_relation https://hdl.handle.net/1959.11/1625
une:1684
_version_ 1775353767463485440

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