Origin and occurrence of Antarctic lacustrine carbonates, with special reference to Lake Fryxell, Taylor Valley

Lake Fryxell is a permanently ice-covered 19 m deep lake located 15m a.s.l. in the lower Taylor Valley, Antarctica (75° 35'S, 163° 35'E). The lake occupies the lowest part of the Fryxell drainage basin and is surrounded by glacial tills with associated lacustrine carbonate and algal materi...

Full description

Bibliographic Details
Main Author: Lawrence, M. J.
Other Authors: Hendy, Chris H., Nelson, Campbell S., Hodder, A.P.W.
Format: Thesis
Language:English
Published: The University of Waikato 2019
Subjects:
Age Lake
Antarctic
Fryxell
Glacial Lake
Lake Fryxell
Marshall Valley
Ross Sea
Taylor Valley
Washburn
Antarc*
Antarctica
Ice Sheet
Sea ice
Online Access:https://hdl.handle.net/10289/12827
id ftunivwaikato:oai:researchcommons.waikato.ac.nz:10289/12827
record_format openpolar
spelling ftunivwaikato:oai:researchcommons.waikato.ac.nz:10289/12827 2023-05-15T14:00:42+02:00 Origin and occurrence of Antarctic lacustrine carbonates, with special reference to Lake Fryxell, Taylor Valley Lawrence, M. J. Hendy, Chris H. Nelson, Campbell S. Hodder, A.P.W. 2019-09-04T23:25:37Z application/pdf https://hdl.handle.net/10289/12827 en eng The University of Waikato https://hdl.handle.net/10289/12827 All items in Research Commons are provided for private study and research purposes and are protected by copyright with all rights reserved unless otherwise indicated. Thesis 2019 ftunivwaikato 2022-03-29T15:15:52Z Lake Fryxell is a permanently ice-covered 19 m deep lake located 15m a.s.l. in the lower Taylor Valley, Antarctica (75° 35'S, 163° 35'E). The lake occupies the lowest part of the Fryxell drainage basin and is surrounded by glacial tills with associated lacustrine carbonate and algal material of about Ross Sea I age. Lake Fryxell is a mesotherrnal, stratified, amictic lake with a euphotic (aerobic) zone above 10 m depth and an anaerobic (anoxic) zone below. The lake waters were derived from glacial meltwater into which upward diffusion of salts deposited in the basin or remnant brines occurred creating a gradient in density, which results in a physically stable lake. The so formed diffusion cell gave an estimated age of about 1000 years. Analysis of both lake water and lake bottom sediment cores show precipitation of CaCO₃ to have occurred both in the past and the present. Current carbonate precipitation is a biologically induced process occurring in the euphotic zone lake waters. over deep waters, precipitated carbonates, in this case calcite, fall from suspension through the water column and form flakes on the lake bed. Where the lake bed is within the euphotic zone stromatolites occur. Dissolution processes predominate in Lake Fryxell bottom waters and account for the discontinuous carbonate record in the uppermost lithologic unit (unit E) of Lake Fryxell sediments. At the time of the Ross Sea I advance a calcareous mud (unit B) was deposited on top of fluvialglacial sediments. The mud, a mixed calcite-aragonite deposit of up to 20 wt% CaCO₃ is C ¹⁴ dated at about 20,000 yrs B.P., was deposited in a deep pro-glacial Lake Washburn. At this time the Ross Sea Ice occupied part of the Fryxell basin damming the lower Taylor Valley and supplying the lake with meltwater. In ~1is ancient lake precipitation occurred in a similar manner to present Lake Fryxell except that aragonite was precipitated. Post-depositional change in the form of the aragonite/calcite transformation caused the observed dual mineralogy. Retreat of the ice sheet caused the deposition of transitional unit C and an evaporite deposit (unit D). Unit D is a varve-like aragonite ~10,000 years old, deposited in a lake of much reduced volume. The iv ice retreat from the drainage basin meant that the lake had an increased ablation surface enabling evaporation to exceed lake inputs resulting in brine concentration and subsequent precipitation of aragonite. Comparison of the Lake Fryxell carbonates with those of the Marshall Valley indicates that the Lake Fryxell depositional model, particularly evaporitic unit D, can adequately explain other Dry Valley carbonate deposits. Thesis Antarc* Antarctic Antarctica Ice Sheet Ross Sea Sea ice The University of Waikato: Research Commons Age Lake ENVELOPE(-97.607,-97.607,56.000,56.000) Antarctic Fryxell ENVELOPE(163.183,163.183,-77.617,-77.617) Glacial Lake ENVELOPE(-129.463,-129.463,58.259,58.259) Lake Fryxell ENVELOPE(163.183,163.183,-77.617,-77.617) Marshall Valley ENVELOPE(164.167,164.167,-78.067,-78.067) Ross Sea Taylor Valley ENVELOPE(163.000,163.000,-77.617,-77.617) Washburn ENVELOPE(-86.133,-86.133,-77.617,-77.617)
institution Open Polar
collection The University of Waikato: Research Commons
op_collection_id ftunivwaikato
language English
description Lake Fryxell is a permanently ice-covered 19 m deep lake located 15m a.s.l. in the lower Taylor Valley, Antarctica (75° 35'S, 163° 35'E). The lake occupies the lowest part of the Fryxell drainage basin and is surrounded by glacial tills with associated lacustrine carbonate and algal material of about Ross Sea I age. Lake Fryxell is a mesotherrnal, stratified, amictic lake with a euphotic (aerobic) zone above 10 m depth and an anaerobic (anoxic) zone below. The lake waters were derived from glacial meltwater into which upward diffusion of salts deposited in the basin or remnant brines occurred creating a gradient in density, which results in a physically stable lake. The so formed diffusion cell gave an estimated age of about 1000 years. Analysis of both lake water and lake bottom sediment cores show precipitation of CaCO₃ to have occurred both in the past and the present. Current carbonate precipitation is a biologically induced process occurring in the euphotic zone lake waters. over deep waters, precipitated carbonates, in this case calcite, fall from suspension through the water column and form flakes on the lake bed. Where the lake bed is within the euphotic zone stromatolites occur. Dissolution processes predominate in Lake Fryxell bottom waters and account for the discontinuous carbonate record in the uppermost lithologic unit (unit E) of Lake Fryxell sediments. At the time of the Ross Sea I advance a calcareous mud (unit B) was deposited on top of fluvialglacial sediments. The mud, a mixed calcite-aragonite deposit of up to 20 wt% CaCO₃ is C ¹⁴ dated at about 20,000 yrs B.P., was deposited in a deep pro-glacial Lake Washburn. At this time the Ross Sea Ice occupied part of the Fryxell basin damming the lower Taylor Valley and supplying the lake with meltwater. In ~1is ancient lake precipitation occurred in a similar manner to present Lake Fryxell except that aragonite was precipitated. Post-depositional change in the form of the aragonite/calcite transformation caused the observed dual mineralogy. Retreat of the ice sheet caused the deposition of transitional unit C and an evaporite deposit (unit D). Unit D is a varve-like aragonite ~10,000 years old, deposited in a lake of much reduced volume. The iv ice retreat from the drainage basin meant that the lake had an increased ablation surface enabling evaporation to exceed lake inputs resulting in brine concentration and subsequent precipitation of aragonite. Comparison of the Lake Fryxell carbonates with those of the Marshall Valley indicates that the Lake Fryxell depositional model, particularly evaporitic unit D, can adequately explain other Dry Valley carbonate deposits.
author2 Hendy, Chris H.
Nelson, Campbell S.
Hodder, A.P.W.
format Thesis
author Lawrence, M. J.
spellingShingle Lawrence, M. J.
Origin and occurrence of Antarctic lacustrine carbonates, with special reference to Lake Fryxell, Taylor Valley
author_facet Lawrence, M. J.
author_sort Lawrence, M. J.
title Origin and occurrence of Antarctic lacustrine carbonates, with special reference to Lake Fryxell, Taylor Valley
title_short Origin and occurrence of Antarctic lacustrine carbonates, with special reference to Lake Fryxell, Taylor Valley
title_full Origin and occurrence of Antarctic lacustrine carbonates, with special reference to Lake Fryxell, Taylor Valley
title_fullStr Origin and occurrence of Antarctic lacustrine carbonates, with special reference to Lake Fryxell, Taylor Valley
title_full_unstemmed Origin and occurrence of Antarctic lacustrine carbonates, with special reference to Lake Fryxell, Taylor Valley
title_sort origin and occurrence of antarctic lacustrine carbonates, with special reference to lake fryxell, taylor valley
publisher The University of Waikato
publishDate 2019
url https://hdl.handle.net/10289/12827
long_lat ENVELOPE(-97.607,-97.607,56.000,56.000)
ENVELOPE(163.183,163.183,-77.617,-77.617)
ENVELOPE(-129.463,-129.463,58.259,58.259)
ENVELOPE(163.183,163.183,-77.617,-77.617)
ENVELOPE(164.167,164.167,-78.067,-78.067)
ENVELOPE(163.000,163.000,-77.617,-77.617)
ENVELOPE(-86.133,-86.133,-77.617,-77.617)
geographic Age Lake
Antarctic
Fryxell
Glacial Lake
Lake Fryxell
Marshall Valley
Ross Sea
Taylor Valley
Washburn
geographic_facet Age Lake
Antarctic
Fryxell
Glacial Lake
Lake Fryxell
Marshall Valley
Ross Sea
Taylor Valley
Washburn
genre Antarc*
Antarctic
Antarctica
Ice Sheet
Ross Sea
Sea ice
genre_facet Antarc*
Antarctic
Antarctica
Ice Sheet
Ross Sea
Sea ice
op_relation https://hdl.handle.net/10289/12827
op_rights All items in Research Commons are provided for private study and research purposes and are protected by copyright with all rights reserved unless otherwise indicated.
_version_ 1766270017884651520

Similar Items