Identification of Ice-rafted Debris in the Weddell Sea to Characterize Glaciation at the Eocene-Oligocene Transition

At the Eocene-Oligocene transition (EOT), approximately 34 million years ago (Ma), the Earth’s climate changed from a warm greenhouse to a cooler climate which resulted in ice-sheet growth and stable continental-scale ice sheets in Antarctica. Hole 696B of the Ocean Drilling Program Leg 113 drilled...

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Bibliographic Details
Main Author: Horowitz, Josie
Format: Text
Language:unknown
Published: Montclair State University Digital Commons 2021
Subjects:
Earth Sciences
Environmental Sciences
Weddell Sea
West Antarctica
Weddell
Antarc*
Antarctica
Ice Sheet
Sea ice
Online Access:https://digitalcommons.montclair.edu/etd/675
https://digitalcommons.montclair.edu/context/etd/article/1676/viewcontent/Horowitz__Josie_Redacted.pdf
id ftmontclairstuni:oai:digitalcommons.montclair.edu:etd-1676
record_format openpolar
spelling ftmontclairstuni:oai:digitalcommons.montclair.edu:etd-1676 2023-07-23T04:13:38+02:00 Identification of Ice-rafted Debris in the Weddell Sea to Characterize Glaciation at the Eocene-Oligocene Transition Horowitz, Josie 2021-01-01T08:00:00Z application/pdf https://digitalcommons.montclair.edu/etd/675 https://digitalcommons.montclair.edu/context/etd/article/1676/viewcontent/Horowitz__Josie_Redacted.pdf unknown Montclair State University Digital Commons https://digitalcommons.montclair.edu/etd/675 https://digitalcommons.montclair.edu/context/etd/article/1676/viewcontent/Horowitz__Josie_Redacted.pdf Theses, Dissertations and Culminating Projects Earth Sciences Environmental Sciences text 2021 ftmontclairstuni 2023-07-03T21:56:14Z At the Eocene-Oligocene transition (EOT), approximately 34 million years ago (Ma), the Earth’s climate changed from a warm greenhouse to a cooler climate which resulted in ice-sheet growth and stable continental-scale ice sheets in Antarctica. Hole 696B of the Ocean Drilling Program Leg 113 drilled in 650 m of water depth on the South Orkney Microcontinent spans the entire EOT. Cores 53R and 54R are dated at lower Oligocene (~33.1 to ~33.5 Ma) and total ~14 meters in thickness from ~549 to ~564 mbsf. Ice-rafted debris (IRD) in sediment cores gives insight into the extent of glaciation in West Antarctica, as well as the evolution of deep-sea cooling during the EOT. Distinguishing between sea-ice rafted debris (SIRD) and iceberg rafted debris (IBRD) provides information about weathering processes and depositional environments. Laser Particle Size Analysis was used to determine the volume percentage of sediment in different size classes, i.e. the grain size distribution of 113 samples. IRD was identified by examining quartz grains ˃150 μm. Samples with large volume percentages of coarse grains were sieved to obtain the sand fraction of grains >150 μm. 5 samples with the greatest yield of grains ˃150 μm were selected for microtexture analysis using the Scanning Electron Microscope (SEM). SEM with Energy Dispersive Spectroscopy (EDS) was used to identify quartz grains. SIRD and IBRD grains were distinguished by examining physical topography and microtextures in Secondary Electron images. Quartz grains were categorized into 7 groups based on roundness, grain relief, amount of silica dissolution, and presence of grain fractures. The 7 types are further grouped by IRD type where IBRD types have little to no silica dissolution, angular/sub-angular grains, with fractures present; SIRD types have silica dissolution, rounded/sub-rounded grains, with little to no fractures present. 185 grains from 5 samples were analyzed using EDS and SEM, 105 of which were quartz grains. Based on the grain type groupings, 35% of the ... Text Antarc* Antarctica Ice Sheet Sea ice Weddell Sea West Antarctica Montclair State University Digital Commons Weddell Sea West Antarctica Weddell
institution Open Polar
collection Montclair State University Digital Commons
op_collection_id ftmontclairstuni
language unknown
topic Earth Sciences
Environmental Sciences
spellingShingle Earth Sciences
Environmental Sciences
Horowitz, Josie
Identification of Ice-rafted Debris in the Weddell Sea to Characterize Glaciation at the Eocene-Oligocene Transition
topic_facet Earth Sciences
Environmental Sciences
description At the Eocene-Oligocene transition (EOT), approximately 34 million years ago (Ma), the Earth’s climate changed from a warm greenhouse to a cooler climate which resulted in ice-sheet growth and stable continental-scale ice sheets in Antarctica. Hole 696B of the Ocean Drilling Program Leg 113 drilled in 650 m of water depth on the South Orkney Microcontinent spans the entire EOT. Cores 53R and 54R are dated at lower Oligocene (~33.1 to ~33.5 Ma) and total ~14 meters in thickness from ~549 to ~564 mbsf. Ice-rafted debris (IRD) in sediment cores gives insight into the extent of glaciation in West Antarctica, as well as the evolution of deep-sea cooling during the EOT. Distinguishing between sea-ice rafted debris (SIRD) and iceberg rafted debris (IBRD) provides information about weathering processes and depositional environments. Laser Particle Size Analysis was used to determine the volume percentage of sediment in different size classes, i.e. the grain size distribution of 113 samples. IRD was identified by examining quartz grains ˃150 μm. Samples with large volume percentages of coarse grains were sieved to obtain the sand fraction of grains >150 μm. 5 samples with the greatest yield of grains ˃150 μm were selected for microtexture analysis using the Scanning Electron Microscope (SEM). SEM with Energy Dispersive Spectroscopy (EDS) was used to identify quartz grains. SIRD and IBRD grains were distinguished by examining physical topography and microtextures in Secondary Electron images. Quartz grains were categorized into 7 groups based on roundness, grain relief, amount of silica dissolution, and presence of grain fractures. The 7 types are further grouped by IRD type where IBRD types have little to no silica dissolution, angular/sub-angular grains, with fractures present; SIRD types have silica dissolution, rounded/sub-rounded grains, with little to no fractures present. 185 grains from 5 samples were analyzed using EDS and SEM, 105 of which were quartz grains. Based on the grain type groupings, 35% of the ...
format Text
author Horowitz, Josie
author_facet Horowitz, Josie
author_sort Horowitz, Josie
title Identification of Ice-rafted Debris in the Weddell Sea to Characterize Glaciation at the Eocene-Oligocene Transition
title_short Identification of Ice-rafted Debris in the Weddell Sea to Characterize Glaciation at the Eocene-Oligocene Transition
title_full Identification of Ice-rafted Debris in the Weddell Sea to Characterize Glaciation at the Eocene-Oligocene Transition
title_fullStr Identification of Ice-rafted Debris in the Weddell Sea to Characterize Glaciation at the Eocene-Oligocene Transition
title_full_unstemmed Identification of Ice-rafted Debris in the Weddell Sea to Characterize Glaciation at the Eocene-Oligocene Transition
title_sort identification of ice-rafted debris in the weddell sea to characterize glaciation at the eocene-oligocene transition
publisher Montclair State University Digital Commons
publishDate 2021
url https://digitalcommons.montclair.edu/etd/675
https://digitalcommons.montclair.edu/context/etd/article/1676/viewcontent/Horowitz__Josie_Redacted.pdf
geographic Weddell Sea
West Antarctica
Weddell
geographic_facet Weddell Sea
West Antarctica
Weddell
genre Antarc*
Antarctica
Ice Sheet
Sea ice
Weddell Sea
West Antarctica
genre_facet Antarc*
Antarctica
Ice Sheet
Sea ice
Weddell Sea
West Antarctica
op_source Theses, Dissertations and Culminating Projects
op_relation https://digitalcommons.montclair.edu/etd/675
https://digitalcommons.montclair.edu/context/etd/article/1676/viewcontent/Horowitz__Josie_Redacted.pdf
_version_ 1772180905931046912

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