Reconstructing Neogene Climate and Glacial History of Southern McMurdo Sound, Antarctica

Understanding the glacial changes that have occurred in southern McMurdo Sound throughout the Neogene makes an important contribution to reconstructing Antarctic ice volume changes during past periods of climatic warmth, and provides insight into future possible response of the ice sheet. Fossilifer...

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Bibliographic Details
Main Author: Galbraith, Elizabeth (11742068)
Format: Thesis
Language:unknown
Published: 2017
Subjects:
Stratigraphy (incl. Biostratigraphy and Sequence Stratigraphy)
Neogene
Paleoclimate
Antarctica
McMurdo Sound
School: School of Geography
Environment and Earth Sciences
Unit: Antarctic Research Centre
040311 Stratigraphy (incl. Biostratigraphy and Sequence Stratigraphy)
960306 Effects of Climate Change and Variability on Antarctic and Sub-Antarctic Environments (excl. Social Impacts)
Degree Discipline: Geology
Degree Level: Masters
Degree Name: Master of Science
Antarctic
Brown Peninsula
Mount Discovery
Ross Sea
Scallop Hill
Antarc*
Ice Sheet
Ice Shelf
Online Access:https://doi.org/10.26686/wgtn.17065067.v1
id ftsmithonian:oai:figshare.com:article/17065067
record_format openpolar
institution Open Polar
collection Unknown
op_collection_id ftsmithonian
language unknown
topic Stratigraphy (incl. Biostratigraphy and Sequence Stratigraphy)
Neogene
Paleoclimate
Antarctica
McMurdo Sound
School: School of Geography
Environment and Earth Sciences
Unit: Antarctic Research Centre
040311 Stratigraphy (incl. Biostratigraphy and Sequence Stratigraphy)
960306 Effects of Climate Change and Variability on Antarctic and Sub-Antarctic Environments (excl. Social Impacts)
Degree Discipline: Geology
Degree Level: Masters
Degree Name: Master of Science
spellingShingle Stratigraphy (incl. Biostratigraphy and Sequence Stratigraphy)
Neogene
Paleoclimate
Antarctica
McMurdo Sound
School: School of Geography
Environment and Earth Sciences
Unit: Antarctic Research Centre
040311 Stratigraphy (incl. Biostratigraphy and Sequence Stratigraphy)
960306 Effects of Climate Change and Variability on Antarctic and Sub-Antarctic Environments (excl. Social Impacts)
Degree Discipline: Geology
Degree Level: Masters
Degree Name: Master of Science
Galbraith, Elizabeth (11742068)
Reconstructing Neogene Climate and Glacial History of Southern McMurdo Sound, Antarctica
topic_facet Stratigraphy (incl. Biostratigraphy and Sequence Stratigraphy)
Neogene
Paleoclimate
Antarctica
McMurdo Sound
School: School of Geography
Environment and Earth Sciences
Unit: Antarctic Research Centre
040311 Stratigraphy (incl. Biostratigraphy and Sequence Stratigraphy)
960306 Effects of Climate Change and Variability on Antarctic and Sub-Antarctic Environments (excl. Social Impacts)
Degree Discipline: Geology
Degree Level: Masters
Degree Name: Master of Science
description Understanding the glacial changes that have occurred in southern McMurdo Sound throughout the Neogene makes an important contribution to reconstructing Antarctic ice volume changes during past periods of climatic warmth, and provides insight into future possible response of the ice sheet. Fossiliferous glacimarine deposits previously identified throughout McMurdo Sound have provided inferences on past changes in ice volume and the implications for global sea level. This study investigates new stratigraphic sections comprising fossiliferous glacimarine sediments from two locations on the flanks of Mount Discovery and one on Brown Peninsula at ~150m above present day sea-level. The aim of this thesis is to undertake a sedimentological, facies and glacimarine sequence stratigraphic analysis together with a quantitative assessment of the constituent micro and macrofossils in order to determine depositional processes, changes in environment and implications for glacial variability in the southern McMurdo Sound. Up to four distinct sedimentary cycles are evident in the Mt Discovery sections with each cycle consisting of: 1. A basal glacial surface of erosion (GSE) or its correlative conformity (CC) seaward of the grounding line, displaying an abrupt transition from a more distal facies to a more proximal facies. 2. A sharp-based massive diamictite displaying physical intermixing of subjacent lithologies, intra formational clasts, soft sediment deformation features, clast rotation features, and a lack of bioturbation, interpreted as subglacial, or in very close proximity to a marine grounding line. In some cases stratified diamictites overly correlative conformities displaying clast alignment, graded beds, and weak decimeter scale parallel bedding in the matrix, interpreted as grounding-line proximal sediment gravity flows or rain-out from ice melt. 3. In some cases, the diamictite passes gradationally-upwards or is sharply overlain by a conglomerate representing appearance of glacimarine fluvio-deltaic deposition or debris flows as the glacier grounding line begins to retreat. 4. Conglomerates are overlain, often sharply, by hemipelagic laminated or massive mudstone and represent the most ice distal and marine part of the sequence at the interglacial minima. 5. A proglacial facies succession is sometimes preserved below the GSE or correlative conformity marking the top of the sequence and usually consists of a transition from mudstone facies into grounding zone proximal conglomerates during re-advance of the grounding line. Lithofacies analysis supported by sediment grainsize, the results of a foraminiferal census and macrofaunal identifications conducted on each facies imply deposition on the continental shelf in depths of up to 400 m, during oscillations in the proximity of a marine grounding line. Radiocarbon dating of constituent macrofauna (barnacle plates) reported only background ¹⁴C implying an age of deposition older than the Last Glacial Maximum. The present day elevation of the site and a model developed here using glacio-iostatic loading and unloading implies that the Mt Discovery sites have been above sea-level for approximately the last ~2.7Ma. Given their inferred association with Scallop Hill Formation and faunal similarity to sequences in the nearby ANDRILL drill cores, a Pliocene age is considered most likely. This finding is consistent with previous investigations that indicate a dynamic, sub-polar marine-terminating ice sheet margin in Southern McMurdo Sound during the Pliocene, with periods of open ice shelf free conditions potentially associated with more frequent regional collapse and retreat events of a marine-based ice sheet in the Ross Sea embayment.
format Thesis
author Galbraith, Elizabeth (11742068)
author_facet Galbraith, Elizabeth (11742068)
author_sort Galbraith, Elizabeth (11742068)
title Reconstructing Neogene Climate and Glacial History of Southern McMurdo Sound, Antarctica
title_short Reconstructing Neogene Climate and Glacial History of Southern McMurdo Sound, Antarctica
title_full Reconstructing Neogene Climate and Glacial History of Southern McMurdo Sound, Antarctica
title_fullStr Reconstructing Neogene Climate and Glacial History of Southern McMurdo Sound, Antarctica
title_full_unstemmed Reconstructing Neogene Climate and Glacial History of Southern McMurdo Sound, Antarctica
title_sort reconstructing neogene climate and glacial history of southern mcmurdo sound, antarctica
publishDate 2017
url https://doi.org/10.26686/wgtn.17065067.v1
long_lat ENVELOPE(165.417,165.417,-78.100,-78.100)
ENVELOPE(-59.716,-59.716,-62.483,-62.483)
ENVELOPE(166.733,166.733,-78.350,-78.350)
geographic Antarctic
Brown Peninsula
McMurdo Sound
Mount Discovery
Ross Sea
Scallop Hill
geographic_facet Antarctic
Brown Peninsula
McMurdo Sound
Mount Discovery
Ross Sea
Scallop Hill
genre Antarc*
Antarctic
Antarctica
Ice Sheet
Ice Shelf
McMurdo Sound
Ross Sea
genre_facet Antarc*
Antarctic
Antarctica
Ice Sheet
Ice Shelf
McMurdo Sound
Ross Sea
op_relation https://figshare.com/articles/thesis/Reconstructing_Neogene_Climate_and_Glacial_History_of_Southern_McMurdo_Sound_Antarctica/17065067
doi:10.26686/wgtn.17065067.v1
op_rights Author Retains Copyright
op_doi https://doi.org/10.26686/wgtn.17065067.v1
_version_ 1766274437037948928
spelling ftsmithonian:oai:figshare.com:article/17065067 2023-05-15T14:03:39+02:00 Reconstructing Neogene Climate and Glacial History of Southern McMurdo Sound, Antarctica Galbraith, Elizabeth (11742068) 2017-01-01T00:00:00Z https://doi.org/10.26686/wgtn.17065067.v1 unknown https://figshare.com/articles/thesis/Reconstructing_Neogene_Climate_and_Glacial_History_of_Southern_McMurdo_Sound_Antarctica/17065067 doi:10.26686/wgtn.17065067.v1 Author Retains Copyright Stratigraphy (incl. Biostratigraphy and Sequence Stratigraphy) Neogene Paleoclimate Antarctica McMurdo Sound School: School of Geography Environment and Earth Sciences Unit: Antarctic Research Centre 040311 Stratigraphy (incl. Biostratigraphy and Sequence Stratigraphy) 960306 Effects of Climate Change and Variability on Antarctic and Sub-Antarctic Environments (excl. Social Impacts) Degree Discipline: Geology Degree Level: Masters Degree Name: Master of Science Text Thesis 2017 ftsmithonian https://doi.org/10.26686/wgtn.17065067.v1 2021-12-19T21:00:13Z Understanding the glacial changes that have occurred in southern McMurdo Sound throughout the Neogene makes an important contribution to reconstructing Antarctic ice volume changes during past periods of climatic warmth, and provides insight into future possible response of the ice sheet. Fossiliferous glacimarine deposits previously identified throughout McMurdo Sound have provided inferences on past changes in ice volume and the implications for global sea level. This study investigates new stratigraphic sections comprising fossiliferous glacimarine sediments from two locations on the flanks of Mount Discovery and one on Brown Peninsula at ~150m above present day sea-level. The aim of this thesis is to undertake a sedimentological, facies and glacimarine sequence stratigraphic analysis together with a quantitative assessment of the constituent micro and macrofossils in order to determine depositional processes, changes in environment and implications for glacial variability in the southern McMurdo Sound. Up to four distinct sedimentary cycles are evident in the Mt Discovery sections with each cycle consisting of: 1. A basal glacial surface of erosion (GSE) or its correlative conformity (CC) seaward of the grounding line, displaying an abrupt transition from a more distal facies to a more proximal facies. 2. A sharp-based massive diamictite displaying physical intermixing of subjacent lithologies, intra formational clasts, soft sediment deformation features, clast rotation features, and a lack of bioturbation, interpreted as subglacial, or in very close proximity to a marine grounding line. In some cases stratified diamictites overly correlative conformities displaying clast alignment, graded beds, and weak decimeter scale parallel bedding in the matrix, interpreted as grounding-line proximal sediment gravity flows or rain-out from ice melt. 3. In some cases, the diamictite passes gradationally-upwards or is sharply overlain by a conglomerate representing appearance of glacimarine fluvio-deltaic deposition or debris flows as the glacier grounding line begins to retreat. 4. Conglomerates are overlain, often sharply, by hemipelagic laminated or massive mudstone and represent the most ice distal and marine part of the sequence at the interglacial minima. 5. A proglacial facies succession is sometimes preserved below the GSE or correlative conformity marking the top of the sequence and usually consists of a transition from mudstone facies into grounding zone proximal conglomerates during re-advance of the grounding line. Lithofacies analysis supported by sediment grainsize, the results of a foraminiferal census and macrofaunal identifications conducted on each facies imply deposition on the continental shelf in depths of up to 400 m, during oscillations in the proximity of a marine grounding line. Radiocarbon dating of constituent macrofauna (barnacle plates) reported only background ¹⁴C implying an age of deposition older than the Last Glacial Maximum. The present day elevation of the site and a model developed here using glacio-iostatic loading and unloading implies that the Mt Discovery sites have been above sea-level for approximately the last ~2.7Ma. Given their inferred association with Scallop Hill Formation and faunal similarity to sequences in the nearby ANDRILL drill cores, a Pliocene age is considered most likely. This finding is consistent with previous investigations that indicate a dynamic, sub-polar marine-terminating ice sheet margin in Southern McMurdo Sound during the Pliocene, with periods of open ice shelf free conditions potentially associated with more frequent regional collapse and retreat events of a marine-based ice sheet in the Ross Sea embayment. Thesis Antarc* Antarctic Antarctica Ice Sheet Ice Shelf McMurdo Sound Ross Sea Unknown Antarctic Brown Peninsula ENVELOPE(165.417,165.417,-78.100,-78.100) McMurdo Sound Mount Discovery ENVELOPE(-59.716,-59.716,-62.483,-62.483) Ross Sea Scallop Hill ENVELOPE(166.733,166.733,-78.350,-78.350)

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