Late Cretaceous and Cenozoic paleoceanography from north-east Atlantic ferromanganese crust microstratigraphy
Late Cretaceous and Cenozoic paleoceanography from north-east Atlantic ferromanganese crust microstratigraphy
Oceanic hydrogenetic ferromanganese (Fe-Mn) crusts precipitate directly from ambient seawater over millions of years. Their very slow growth rates and physio-chemical properties mean that they adsorb numerous elements from seawater. As such, they provide condensed records of seawater evolution through time that can be used for paleoceanographic reconstruction. Here, we present the results of a high-resolution, stratigraphic, textural and geochemical investigation of a core sample, obtained from a Fe-Mn crust pavement, located on the summit of Tropic Seamount in the tropical north-east Atlantic Ocean. A number of observations and interpretations are proposed, within the context of a well-constrained age model, spanning the last 75 ± 2 Myr. This core has textural stratigraphic coherence with Pacific Fe-Mn crusts formed since the Late Cretaceous, highlighting that global oceanic and climatic phenomena exert first-order controls on Fe-Mn crust development. All major hiatuses observed in the Fe-Mn crusts are contemporaneous with erosion events occurring throughout the Atlantic Ocean. High-resolution geochemical data indicate that there is variability in the composition of Fe-Mn crusts at the cm to μm scale. The dominant factors controlling this include major oceanographic events, mineral textures and micro-topography.
Atlantic, FeMn crust, Geochemistry, Paleoceanography, Phosphatisation
Josso, Pierre
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Rushton, Jeremy
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Lusty, Paul
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Matthews, Adam
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Chenery, Simon
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Holwell, David
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Kemp, Simon J.
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Murton, Bramley
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1 April 2020
Josso, Pierre
bd8b52e2-feaa-4f09-b0ad-12a7d1bfe188
Rushton, Jeremy
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Lusty, Paul
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Matthews, Adam
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Chenery, Simon
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Holwell, David
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Kemp, Simon J.
c01a5a7d-e2cc-450d-b069-fcd858b4be56
Murton, Bramley
9076d07f-a3c1-4f90-a5d5-99b27fe2cb12
Josso, Pierre, Rushton, Jeremy, Lusty, Paul, Matthews, Adam, Chenery, Simon, Holwell, David, Kemp, Simon J. and Murton, Bramley
(2020)
Late Cretaceous and Cenozoic paleoceanography from north-east Atlantic ferromanganese crust microstratigraphy.
Marine Geology, 422, [106122].
(doi:10.1016/j.margeo.2020.106122).
Abstract
Oceanic hydrogenetic ferromanganese (Fe-Mn) crusts precipitate directly from ambient seawater over millions of years. Their very slow growth rates and physio-chemical properties mean that they adsorb numerous elements from seawater. As such, they provide condensed records of seawater evolution through time that can be used for paleoceanographic reconstruction. Here, we present the results of a high-resolution, stratigraphic, textural and geochemical investigation of a core sample, obtained from a Fe-Mn crust pavement, located on the summit of Tropic Seamount in the tropical north-east Atlantic Ocean. A number of observations and interpretations are proposed, within the context of a well-constrained age model, spanning the last 75 ± 2 Myr. This core has textural stratigraphic coherence with Pacific Fe-Mn crusts formed since the Late Cretaceous, highlighting that global oceanic and climatic phenomena exert first-order controls on Fe-Mn crust development. All major hiatuses observed in the Fe-Mn crusts are contemporaneous with erosion events occurring throughout the Atlantic Ocean. High-resolution geochemical data indicate that there is variability in the composition of Fe-Mn crusts at the cm to μm scale. The dominant factors controlling this include major oceanographic events, mineral textures and micro-topography.
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Accepted/In Press date: 17 December 2019
Published date: 1 April 2020
Additional Information:
Funding Information:
PJ, PL, SC, JR, SJK publish with the permission of the Executive Director, British Geological Survey (UKRI). This research was supported by Natural Environmental Research Council ( NERC ) grants NE/M011186/1 (awarded to B. Murton) and NE/M011151/1 (awarded to P. Lusty), which fund the MarineE-Tech project. A.M. acknowledges the generous support of the Warwickshire Geological Conservation Group (WGCG) as a recipient of the Holloway Award in 2017. The authors are grateful to the editor and anonymous reviewers for their helpful and constructive comments on the improvement of this manuscript. We thank Cheryl Haidon for her efforts and help in the processing of XRCT data at the University of Leicester. The authors gratefully thank the team involved in the RRS James Cook JC142 expedition to Tropic Seamount in 2016.
Publisher Copyright:
© 2020 British Geological Survey, a component body of UKRI 'BGS © UKRI 2020'
Keywords:
Atlantic, FeMn crust, Geochemistry, Paleoceanography, Phosphatisation
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Local EPrints ID: 438059
URI: http://eprints.soton.ac.uk/id/eprint/438059
ISSN: 0025-3227
PURE UUID: 8b06d776-ef2c-4a59-abac-58817c313387
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Date deposited: 27 Feb 2020 17:30
Last modified: 16 Mar 2024 06:33
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Author:
Pierre Josso
Author:
Jeremy Rushton
Author:
Paul Lusty
Author:
Adam Matthews
Author:
Simon Chenery
Author:
David Holwell
Author:
Simon J. Kemp
Author:
Bramley Murton
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