Evolution of Atlantic deep-water circulation: from the greenhouse to the icehouse

To better understand how the evolution of Cenozoic deep-water circulation related to changes in global climate and ocean basin configuration, we generated Nd isotope records from Ocean Drilling Program sites in the southeastern Atlantic to track deep water mass composition through time. We used foss...

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Bibliographic Details
Other Authors: Thomas, Deborah J., Malone, Mitchell J., Orsi, Alejandro H., Slowey, Niall
Format: Book
Language:English
Published: Texas A&M University 2005
Subjects:
paleoceanography
Nd isotope geochemistry
Southern Ocean
Pacific
Antarc*
Antarctica
North Atlantic
Online Access:http://hdl.handle.net/1969.1/2609
id fttexasamuniv:oai:repository.tamu.edu:1969.1/2609
record_format openpolar
spelling fttexasamuniv:oai:repository.tamu.edu:1969.1/2609 2023-05-15T14:00:44+02:00 Evolution of Atlantic deep-water circulation: from the greenhouse to the icehouse Thomas, Deborah J. Malone, Mitchell J. Orsi, Alejandro H. Slowey, Niall 2005-11-01T15:47:18Z http://hdl.handle.net/1969.1/2609 en_US eng Texas A&M University http://hdl.handle.net/1969.1/2609 paleoceanography Nd isotope geochemistry Book Thesis 2005 fttexasamuniv 2014-03-30T08:47:59Z To better understand how the evolution of Cenozoic deep-water circulation related to changes in global climate and ocean basin configuration, we generated Nd isotope records from Ocean Drilling Program sites in the southeastern Atlantic to track deep water mass composition through time. We used fossil fish debris from ODP Sites 1262-1264 (Leg 208), spanning present-day water depths of 2500-4750 m, to reconstruct the isotopic signature of deep waters over the past ~53 Ma. The data indicate an initial transition from relatively non-radiogenic values (??Nd=~-10) at 53 Ma to more radiogenic values (~-8.5) at ~32 Ma. From ~32 Ma to 3.85 Ma, the Nd signal becomes more nonradiogenic, ~-12.3 at the top of the record. Comparison of our data with Nd isotopic records derived from a North Atlantic Fe-Mn crust show similar non-radiogenic values (~-10.5) in the 53??32 Ma interval and a trend toward more non-radiogenic values beginning at ~20 Ma. The data likely reflect an overall shift from a Southern Ocean deep water source to the ultimate incursion of deep waters from the North Atlantic. The non-radiogenic values at the base of the record reflect a Southern Ocean source of deep water. The shift toward more radiogenic values indicates an increased contribution of Pacific waters to the Southern Ocean source as the tectonic gateways changed after ~35-33 Ma. The subsequent trend toward more non-radiogenic Nd isotope values is approximately concurrent with the increase of benthic foraminiferal ??18O values, based on comparison with a compilation of global data. Thus, changes in oceanic gateway configuration in addition to overall cooling and the build-up of continental ice on Antarctica may have altered the Nd isotope character of Southern Ocean deep waters during the early Oligocene. Book Antarc* Antarctica North Atlantic Southern Ocean Texas A&M University Digital Repository Southern Ocean Pacific
institution Open Polar
collection Texas A&M University Digital Repository
op_collection_id fttexasamuniv
language English
topic paleoceanography
Nd isotope geochemistry
spellingShingle paleoceanography
Nd isotope geochemistry
Evolution of Atlantic deep-water circulation: from the greenhouse to the icehouse
topic_facet paleoceanography
Nd isotope geochemistry
description To better understand how the evolution of Cenozoic deep-water circulation related to changes in global climate and ocean basin configuration, we generated Nd isotope records from Ocean Drilling Program sites in the southeastern Atlantic to track deep water mass composition through time. We used fossil fish debris from ODP Sites 1262-1264 (Leg 208), spanning present-day water depths of 2500-4750 m, to reconstruct the isotopic signature of deep waters over the past ~53 Ma. The data indicate an initial transition from relatively non-radiogenic values (??Nd=~-10) at 53 Ma to more radiogenic values (~-8.5) at ~32 Ma. From ~32 Ma to 3.85 Ma, the Nd signal becomes more nonradiogenic, ~-12.3 at the top of the record. Comparison of our data with Nd isotopic records derived from a North Atlantic Fe-Mn crust show similar non-radiogenic values (~-10.5) in the 53??32 Ma interval and a trend toward more non-radiogenic values beginning at ~20 Ma. The data likely reflect an overall shift from a Southern Ocean deep water source to the ultimate incursion of deep waters from the North Atlantic. The non-radiogenic values at the base of the record reflect a Southern Ocean source of deep water. The shift toward more radiogenic values indicates an increased contribution of Pacific waters to the Southern Ocean source as the tectonic gateways changed after ~35-33 Ma. The subsequent trend toward more non-radiogenic Nd isotope values is approximately concurrent with the increase of benthic foraminiferal ??18O values, based on comparison with a compilation of global data. Thus, changes in oceanic gateway configuration in addition to overall cooling and the build-up of continental ice on Antarctica may have altered the Nd isotope character of Southern Ocean deep waters during the early Oligocene.
author2 Thomas, Deborah J.
Malone, Mitchell J.
Orsi, Alejandro H.
Slowey, Niall
format Book
title Evolution of Atlantic deep-water circulation: from the greenhouse to the icehouse
title_short Evolution of Atlantic deep-water circulation: from the greenhouse to the icehouse
title_full Evolution of Atlantic deep-water circulation: from the greenhouse to the icehouse
title_fullStr Evolution of Atlantic deep-water circulation: from the greenhouse to the icehouse
title_full_unstemmed Evolution of Atlantic deep-water circulation: from the greenhouse to the icehouse
title_sort evolution of atlantic deep-water circulation: from the greenhouse to the icehouse
publisher Texas A&M University
publishDate 2005
url http://hdl.handle.net/1969.1/2609
geographic Southern Ocean
Pacific
geographic_facet Southern Ocean
Pacific
genre Antarc*
Antarctica
North Atlantic
Southern Ocean
genre_facet Antarc*
Antarctica
North Atlantic
Southern Ocean
op_relation http://hdl.handle.net/1969.1/2609
_version_ 1766270072121196544

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