Provenance and Characterization of Pliocene Southern Ocean Sediment in Weddell Sea, Antarctica: Implications for Paleoclimatic Change:

Old URL: https://wesscholar.wesleyan.edu/etd_mas_theses/98 In Copyright – Non-Commercial Use Permitted (InC-NC) With the advent of rapid anthropogenic global climate change and sea level rise, the stability of high latitude ice sheets is being increasingly scrutinized. An historical perspective of t...

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Bibliographic Details
Other Authors: Gross, Jason Lewis (Jason Lewis Gross) (author), (Suzanne O'Connell) (Thesis advisor), () (Committee member), (Degree grantor)
Format: Thesis
Language:English
Subjects:
Antarctica
paleoclimate
ice rafted debris
ice rafted detritus
IRD
Southern Ocean
opal
XRF
provenance
ice
> -
Antarctic
East Antarctica
Pollard
The Antarctic
Weddell
Weddell Sea
Antarc*
Ice Sheet
Online Access:https://doi.org/10.14418/wes01.2.93
https://digitalcollections.wesleyan.edu/islandora/object/ir%3A2437/datastream/TN/view/Provenance%20and%20Characterization%20of%20Pliocene%20Southern%20Ocean%20Sediment%20in%20Weddell%20Sea,%20Antarctica%3A%20Implications%20for%20Paleoclimatic%20Change.jpg
https://digitalcollections.wesleyan.edu/object/ir-2437
id ftwesleyanu:oai:digitalcollections.wesleyan.edu:ir_2437
record_format openpolar
spelling ftwesleyanu:oai:digitalcollections.wesleyan.edu:ir_2437 2023-05-15T13:59:40+02:00 Provenance and Characterization of Pliocene Southern Ocean Sediment in Weddell Sea, Antarctica: Implications for Paleoclimatic Change: Gross, Jason Lewis (Jason Lewis Gross) (author) (Suzanne O'Connell) (Thesis advisor) () (Committee member) (Degree grantor) 118 pages electronic application/pdf https://doi.org/10.14418/wes01.2.93 https://digitalcollections.wesleyan.edu/islandora/object/ir%3A2437/datastream/TN/view/Provenance%20and%20Characterization%20of%20Pliocene%20Southern%20Ocean%20Sediment%20in%20Weddell%20Sea,%20Antarctica%3A%20Implications%20for%20Paleoclimatic%20Change.jpg https://digitalcollections.wesleyan.edu/object/ir-2437 eng eng In Copyright – Non-Commercial Use Permitted (InC-NC) Antarctica paleoclimate ice rafted debris ice rafted detritus IRD Southern Ocean opal XRF provenance ice --- Text theses Dissertation/Thesis ftwesleyanu https://doi.org/10.14418/wes01.2.93 2022-02-04T20:42:51Z Old URL: https://wesscholar.wesleyan.edu/etd_mas_theses/98 In Copyright – Non-Commercial Use Permitted (InC-NC) With the advent of rapid anthropogenic global climate change and sea level rise, the stability of high latitude ice sheets is being increasingly scrutinized. An historical perspective of their stability is possible through analysis of marine sediment cores, which provide a record of glacial dynamics. More information about the Pliocene, when atmospheric CO 2 were as high as today, can be used to better understand the consequences of changes in climate. This study focuses on the Antarctic continental slope by analyzing deep-sea cores of Early Pliocene age, taken from the margin of the East Antarctica Ice Sheet (EAIS) at ODP Site 693. The study area is adjacent to a region that modeling simulations suggest experienced stable periods of warmth compared to the rest of the continent (Pollard et al., 2015). The coarse grain fraction of ODP Site 693 sediment samples was interpreted as material deposited by ice-rafting (IRD). The weight percent of IRD was compared to XRF-derived elemental concentrations (oxide weight percent), biogenic silica abundance, and changes in mineralogy to illuminate paleoenvironmental conditions. Few peaks in IRD were correlated with increases in Ca, Fe and Ti. Biosilica abundance displayed a positive association with K/Ti ratios. 40 Ar/ 39 Ar radiometric dating revealed the majority of hornblendes and biotite grains to be of Pan-African age (650-480 Ma), which does not reflect nearby Archaean geology, and contrasts age populations from core samples from nearby sites. This fact combined with unchanging heavy mineral assemblages downcore suggests a singular source during Core 8R, and stable behavior for the EAIS. Thesis Antarc* Antarctic Antarctica East Antarctica Ice Sheet Southern Ocean Weddell Sea Wesleyan University: WesScholar Antarctic East Antarctica Pollard ENVELOPE(64.617,64.617,-70.467,-70.467) Southern Ocean The Antarctic Weddell Weddell Sea
institution Open Polar
collection Wesleyan University: WesScholar
op_collection_id ftwesleyanu
language English
topic Antarctica
paleoclimate
ice rafted debris
ice rafted detritus
IRD
Southern Ocean
opal
XRF
provenance
ice
---
spellingShingle Antarctica
paleoclimate
ice rafted debris
ice rafted detritus
IRD
Southern Ocean
opal
XRF
provenance
ice
---
Provenance and Characterization of Pliocene Southern Ocean Sediment in Weddell Sea, Antarctica: Implications for Paleoclimatic Change:
topic_facet Antarctica
paleoclimate
ice rafted debris
ice rafted detritus
IRD
Southern Ocean
opal
XRF
provenance
ice
---
description Old URL: https://wesscholar.wesleyan.edu/etd_mas_theses/98 In Copyright – Non-Commercial Use Permitted (InC-NC) With the advent of rapid anthropogenic global climate change and sea level rise, the stability of high latitude ice sheets is being increasingly scrutinized. An historical perspective of their stability is possible through analysis of marine sediment cores, which provide a record of glacial dynamics. More information about the Pliocene, when atmospheric CO 2 were as high as today, can be used to better understand the consequences of changes in climate. This study focuses on the Antarctic continental slope by analyzing deep-sea cores of Early Pliocene age, taken from the margin of the East Antarctica Ice Sheet (EAIS) at ODP Site 693. The study area is adjacent to a region that modeling simulations suggest experienced stable periods of warmth compared to the rest of the continent (Pollard et al., 2015). The coarse grain fraction of ODP Site 693 sediment samples was interpreted as material deposited by ice-rafting (IRD). The weight percent of IRD was compared to XRF-derived elemental concentrations (oxide weight percent), biogenic silica abundance, and changes in mineralogy to illuminate paleoenvironmental conditions. Few peaks in IRD were correlated with increases in Ca, Fe and Ti. Biosilica abundance displayed a positive association with K/Ti ratios. 40 Ar/ 39 Ar radiometric dating revealed the majority of hornblendes and biotite grains to be of Pan-African age (650-480 Ma), which does not reflect nearby Archaean geology, and contrasts age populations from core samples from nearby sites. This fact combined with unchanging heavy mineral assemblages downcore suggests a singular source during Core 8R, and stable behavior for the EAIS.
author2 Gross, Jason Lewis (Jason Lewis Gross) (author)
(Suzanne O'Connell) (Thesis advisor)
() (Committee member)
(Degree grantor)
format Thesis
title Provenance and Characterization of Pliocene Southern Ocean Sediment in Weddell Sea, Antarctica: Implications for Paleoclimatic Change:
title_short Provenance and Characterization of Pliocene Southern Ocean Sediment in Weddell Sea, Antarctica: Implications for Paleoclimatic Change:
title_full Provenance and Characterization of Pliocene Southern Ocean Sediment in Weddell Sea, Antarctica: Implications for Paleoclimatic Change:
title_fullStr Provenance and Characterization of Pliocene Southern Ocean Sediment in Weddell Sea, Antarctica: Implications for Paleoclimatic Change:
title_full_unstemmed Provenance and Characterization of Pliocene Southern Ocean Sediment in Weddell Sea, Antarctica: Implications for Paleoclimatic Change:
title_sort provenance and characterization of pliocene southern ocean sediment in weddell sea, antarctica: implications for paleoclimatic change:
url https://doi.org/10.14418/wes01.2.93
https://digitalcollections.wesleyan.edu/islandora/object/ir%3A2437/datastream/TN/view/Provenance%20and%20Characterization%20of%20Pliocene%20Southern%20Ocean%20Sediment%20in%20Weddell%20Sea,%20Antarctica%3A%20Implications%20for%20Paleoclimatic%20Change.jpg
https://digitalcollections.wesleyan.edu/object/ir-2437
long_lat ENVELOPE(64.617,64.617,-70.467,-70.467)
geographic Antarctic
East Antarctica
Pollard
Southern Ocean
The Antarctic
Weddell
Weddell Sea
geographic_facet Antarctic
East Antarctica
Pollard
Southern Ocean
The Antarctic
Weddell
Weddell Sea
genre Antarc*
Antarctic
Antarctica
East Antarctica
Ice Sheet
Southern Ocean
Weddell Sea
genre_facet Antarc*
Antarctic
Antarctica
East Antarctica
Ice Sheet
Southern Ocean
Weddell Sea
op_rights In Copyright – Non-Commercial Use Permitted (InC-NC)
op_doi https://doi.org/10.14418/wes01.2.93
_version_ 1766268338117279744

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