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Paleoredox changes across the Paleocene-Eocene thermal maximum, Walvis Ridge (ODP Sites 1262, 1263, and 1266): Evidence from Mn and U enrichment factors

Paleoredox changes across the Paleocene-Eocene thermal maximum, Walvis Ridge (ODP Sites 1262, 1263, and 1266): Evidence from Mn and U enrichment factors
Paleoredox changes across the Paleocene-Eocene thermal maximum, Walvis Ridge (ODP Sites 1262, 1263, and 1266): Evidence from Mn and U enrichment factors
An understanding of sediment redox conditions across the Paleocene?Eocene thermal maximum (PETM) (?55 Ma) is essential for evaluating changes in processes that control deep?sea oxygenation, as well as identifying the mechanisms responsible for driving the benthic foraminifera extinction. Sites cored on the flanks of Walvis Ridge (Ocean Drilling Program Leg 208, Sites 1262, 1266, and 1263) allow us to examine changes in bottom and pore water redox conditions across a ?2 km depth transect of deep?sea sediments of PETM age recovered from the South Atlantic. Here we present measurements of the concentrations of redox?sensitive trace metals manganese (Mn) and uranium (U) in bulk sediment as proxies for redox chemistry at the sediment?water interface and below. All three Walvis Ridge sites exhibit bulk Mn enrichment factors (EF) ranging between 4 and 12 prior to the warming, values at crustal averages (Mn EF = 1) during the warming interval, and a return to pre?event values during the recovery period. U enrichment factors across the PETM remains at crustal averages (U EF = 1) at Site 1262 (deep) and Site 1266 (intermediate depth). U enrichment factors at Site 1263 (shallow) peaked at 5 immediately prior to the PETM and dropped to values near crustal averages during and after the event. All sites were lower in dissolved oxygen content during the PETM. Before and after the PETM, the deep and intermediate sites were oxygenated, while the shallow site was suboxic. Our geochemical results indicate that oxygen concentrations did indeed drop during the PETM but not sufficiently to cause massive extinction of benthic foraminifera.
0883-8305
PA4202
Chun, Cecily O.J.
12758b6c-db54-4eb9-9bc1-32da464a688b
Delaney, Margaret L.
05ab5f22-e8f9-4823-840f-71e78bd34f1f
Zachos, James C.
c262d59f-aadc-4e09-b844-098db9a0e3c5
Chun, Cecily O.J.
12758b6c-db54-4eb9-9bc1-32da464a688b
Delaney, Margaret L.
05ab5f22-e8f9-4823-840f-71e78bd34f1f
Zachos, James C.
c262d59f-aadc-4e09-b844-098db9a0e3c5

Chun, Cecily O.J., Delaney, Margaret L. and Zachos, James C. (2010) Paleoredox changes across the Paleocene-Eocene thermal maximum, Walvis Ridge (ODP Sites 1262, 1263, and 1266): Evidence from Mn and U enrichment factors. Paleoceanography, 25 (4), PA4202. (doi:10.1029/2009PA001861).

Record type: Article

Abstract

An understanding of sediment redox conditions across the Paleocene?Eocene thermal maximum (PETM) (?55 Ma) is essential for evaluating changes in processes that control deep?sea oxygenation, as well as identifying the mechanisms responsible for driving the benthic foraminifera extinction. Sites cored on the flanks of Walvis Ridge (Ocean Drilling Program Leg 208, Sites 1262, 1266, and 1263) allow us to examine changes in bottom and pore water redox conditions across a ?2 km depth transect of deep?sea sediments of PETM age recovered from the South Atlantic. Here we present measurements of the concentrations of redox?sensitive trace metals manganese (Mn) and uranium (U) in bulk sediment as proxies for redox chemistry at the sediment?water interface and below. All three Walvis Ridge sites exhibit bulk Mn enrichment factors (EF) ranging between 4 and 12 prior to the warming, values at crustal averages (Mn EF = 1) during the warming interval, and a return to pre?event values during the recovery period. U enrichment factors across the PETM remains at crustal averages (U EF = 1) at Site 1262 (deep) and Site 1266 (intermediate depth). U enrichment factors at Site 1263 (shallow) peaked at 5 immediately prior to the PETM and dropped to values near crustal averages during and after the event. All sites were lower in dissolved oxygen content during the PETM. Before and after the PETM, the deep and intermediate sites were oxygenated, while the shallow site was suboxic. Our geochemical results indicate that oxygen concentrations did indeed drop during the PETM but not sufficiently to cause massive extinction of benthic foraminifera.

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Published date: 2010
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Local EPrints ID: 178191
URI: http://eprints.soton.ac.uk/id/eprint/178191
DOI: doi:10.1029/2009PA001861
ISSN: 0883-8305
PURE UUID: c44fa642-53b1-4397-bc64-5fb2ba855440

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Date deposited: 23 Mar 2011 11:45
Last modified: 14 Mar 2024 02:45

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Author: Cecily O.J. Chun
Author: Margaret L. Delaney
Author: James C. Zachos

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