INVESTIGATION OF DEEP-WATER CIRCULATION MODES IN THE EARLY CENOZOIC USING NEODYMIUM ISOTOPES FROM FOSSIL FISH DEBRIS

The ocean’s deep-water circulation plays a large role in heat transport across the globe. Circulation in the modern begins where cold, dense surface waters of the North Atlantic and Southern oceans sink to form Atlantic Bottom water. However, this mode did not operate in the geologic past. A growing...

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Bibliographic Details
Main Author: Jones, Landon 1989-
Other Authors: Thomas, Deborah J
Format: Thesis
Language:unknown
Published: 2013
Subjects:
Fish Teeth
Neodymium
Thermohaline
Southern Ocean
Pacific
Hess
North Atlantic
Online Access:https://hdl.handle.net/1969.1/ETD-TAMU-2011-05-9573
https://hdl.handle.net/1969.1/148762
id fttexasamuniv:oai:oaktrust.library.tamu.edu:1969.1/148762
record_format openpolar
spelling fttexasamuniv:oai:oaktrust.library.tamu.edu:1969.1/148762 2023-07-16T03:59:52+02:00 INVESTIGATION OF DEEP-WATER CIRCULATION MODES IN THE EARLY CENOZOIC USING NEODYMIUM ISOTOPES FROM FOSSIL FISH DEBRIS Jones, Landon 1989- Thomas, Deborah J 2013-06-04T16:10:48Z application/pdf https://hdl.handle.net/1969.1/ETD-TAMU-2011-05-9573 https://hdl.handle.net/1969.1/148762 unknown https://hdl.handle.net/1969.1/ETD-TAMU-2011-05-9573 https://hdl.handle.net/1969.1/148762 Fish Teeth Neodymium Thermohaline Thesis text 2013 fttexasamuniv 2023-06-27T22:35:38Z The ocean’s deep-water circulation plays a large role in heat transport across the globe. Circulation in the modern begins where cold, dense surface waters of the North Atlantic and Southern oceans sink to form Atlantic Bottom water. However, this mode did not operate in the geologic past. A growing body of Nd isotope data from fossil fish debris is being used to reconstruct the ancient mode of deep-water circulation throughout the early Cenozoic greenhouse interval. Recent data from previous Ocean Drilling Program (ODP) sites suggest that a bipolar mode of meridional overturning circulation may have existed in the Pacific during the early Cenozoic, beginning ~65 million years ago and lasting until ~40 million years ago. Here I present new data from Deep Sea Drilling Project (DSDP) Site 464, Northern Hess Rise, to enhance the reconstruction of deep water mass composition as well as determine if a reductive cleaning step (“clean”) method is necessary during sample preparation. Site 464 εNd(t) values range from -.30 to less radiogenic values of -4.42 from ~56.0 to 32.3 million years ago, showing a shift from a North Pacific deep-water influence to a Southern Ocean influence. The comparison of “clean” versus “unclean” analyses indicates that both record the same seawater composition. Thesis North Atlantic Southern Ocean Texas A&M University Digital Repository Southern Ocean Pacific Hess ENVELOPE(-65.133,-65.133,-67.200,-67.200)
institution Open Polar
collection Texas A&M University Digital Repository
op_collection_id fttexasamuniv
language unknown
topic Fish Teeth
Neodymium
Thermohaline
spellingShingle Fish Teeth
Neodymium
Thermohaline
Jones, Landon 1989-
INVESTIGATION OF DEEP-WATER CIRCULATION MODES IN THE EARLY CENOZOIC USING NEODYMIUM ISOTOPES FROM FOSSIL FISH DEBRIS
topic_facet Fish Teeth
Neodymium
Thermohaline
description The ocean’s deep-water circulation plays a large role in heat transport across the globe. Circulation in the modern begins where cold, dense surface waters of the North Atlantic and Southern oceans sink to form Atlantic Bottom water. However, this mode did not operate in the geologic past. A growing body of Nd isotope data from fossil fish debris is being used to reconstruct the ancient mode of deep-water circulation throughout the early Cenozoic greenhouse interval. Recent data from previous Ocean Drilling Program (ODP) sites suggest that a bipolar mode of meridional overturning circulation may have existed in the Pacific during the early Cenozoic, beginning ~65 million years ago and lasting until ~40 million years ago. Here I present new data from Deep Sea Drilling Project (DSDP) Site 464, Northern Hess Rise, to enhance the reconstruction of deep water mass composition as well as determine if a reductive cleaning step (“clean”) method is necessary during sample preparation. Site 464 εNd(t) values range from -.30 to less radiogenic values of -4.42 from ~56.0 to 32.3 million years ago, showing a shift from a North Pacific deep-water influence to a Southern Ocean influence. The comparison of “clean” versus “unclean” analyses indicates that both record the same seawater composition.
author2 Thomas, Deborah J
format Thesis
author Jones, Landon 1989-
author_facet Jones, Landon 1989-
author_sort Jones, Landon 1989-
title INVESTIGATION OF DEEP-WATER CIRCULATION MODES IN THE EARLY CENOZOIC USING NEODYMIUM ISOTOPES FROM FOSSIL FISH DEBRIS
title_short INVESTIGATION OF DEEP-WATER CIRCULATION MODES IN THE EARLY CENOZOIC USING NEODYMIUM ISOTOPES FROM FOSSIL FISH DEBRIS
title_full INVESTIGATION OF DEEP-WATER CIRCULATION MODES IN THE EARLY CENOZOIC USING NEODYMIUM ISOTOPES FROM FOSSIL FISH DEBRIS
title_fullStr INVESTIGATION OF DEEP-WATER CIRCULATION MODES IN THE EARLY CENOZOIC USING NEODYMIUM ISOTOPES FROM FOSSIL FISH DEBRIS
title_full_unstemmed INVESTIGATION OF DEEP-WATER CIRCULATION MODES IN THE EARLY CENOZOIC USING NEODYMIUM ISOTOPES FROM FOSSIL FISH DEBRIS
title_sort investigation of deep-water circulation modes in the early cenozoic using neodymium isotopes from fossil fish debris
publishDate 2013
url https://hdl.handle.net/1969.1/ETD-TAMU-2011-05-9573
https://hdl.handle.net/1969.1/148762
long_lat ENVELOPE(-65.133,-65.133,-67.200,-67.200)
geographic Southern Ocean
Pacific
Hess
geographic_facet Southern Ocean
Pacific
Hess
genre North Atlantic
Southern Ocean
genre_facet North Atlantic
Southern Ocean
op_relation https://hdl.handle.net/1969.1/ETD-TAMU-2011-05-9573
https://hdl.handle.net/1969.1/148762
_version_ 1771548202770628608

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