Uranium isotope evidence for an expansion of anoxia in terminal Ediacaran oceans

Anoxic and iron-rich oceanic conditions prevailed throughout most of the Archean and Proterozoic (4000 to c.540 million years ago, Ma), but the oceans are hypothesised to have become progressively oxygen-rich during the Ediacaran–Cambrian transition interval, coincident with the rise of animal life....

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Main Authors:	Tostevin, R, Clarkson, MO, Gangl, S, Shields, GA, Wood, RA, Bowyer, F, Penny, AM, Stirling, CH
Format:	Article in Journal/Newspaper
Language:	English
Published:	ELSEVIER SCIENCE BV 2019
Subjects:	redox uranium Ediacaran oxygen animals White Sea
Online Access:	https://discovery.ucl.ac.uk/id/eprint/10076544/3/Shields%20Tostevin_Uranium_EPSL_Revised2_submitted_notrackchanges.pdf https://discovery.ucl.ac.uk/id/eprint/10076544/

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record_format	openpolar
spelling	ftucl:oai:eprints.ucl.ac.uk.OAI2:10076544 2023-12-24T10:25:32+01:00 Uranium isotope evidence for an expansion of anoxia in terminal Ediacaran oceans Tostevin, R Clarkson, MO Gangl, S Shields, GA Wood, RA Bowyer, F Penny, AM Stirling, CH 2019-01-15 text https://discovery.ucl.ac.uk/id/eprint/10076544/3/Shields%20Tostevin_Uranium_EPSL_Revised2_submitted_notrackchanges.pdf https://discovery.ucl.ac.uk/id/eprint/10076544/ eng eng ELSEVIER SCIENCE BV https://discovery.ucl.ac.uk/id/eprint/10076544/3/Shields%20Tostevin_Uranium_EPSL_Revised2_submitted_notrackchanges.pdf https://discovery.ucl.ac.uk/id/eprint/10076544/ open Earth and Planetary Science Letters , 506 pp. 104-112. (2019) redox uranium Ediacaran oxygen animals Article 2019 ftucl 2023-11-27T13:07:27Z Anoxic and iron-rich oceanic conditions prevailed throughout most of the Archean and Proterozoic (4000 to c.540 million years ago, Ma), but the oceans are hypothesised to have become progressively oxygen-rich during the Ediacaran–Cambrian transition interval, coincident with the rise of animal life. We utilise the uranium isotope ratio of seawater (238U/235U; reformulated as U), an effective tracer of oceanic redox conditions, as a proxy for changes in the global proportion of anoxic seafloor. We present a new U dataset for carbonate rocks from the Lower Nama Group, Namibia, deposited in a shelf ramp succession during the terminal Neoproterozoic (∼550 to ∼547 Ma). These data capture a transition from similar to the modern ocean towards persistently low U (average = −0.81 ± 0.06‰). Such low U are consistent with enhanced U drawdown from the water column under anoxic conditions, and the preferential export of ‘heavy’ 238U to sediments following U(VI)–U(IV) reduction. Placing our results into a steady state ocean box model suggests at least a third of the global seafloor was covered by anoxic bottom waters compared with only 0.3% in today's oxygenated oceans. Comparison with U from older sediments deposited in other basins further supports an expansion of anoxic bottom waters towards the end of the Ediacaran. Our data are consistent with an emerging picture of a dominantly anoxic Ediacaran ocean punctuated by brief ocean oxygenation events. In the Nama Group, the transition towards globally widespread anoxic conditions post-dates the first appearance of both skeletal metazoans and soft-bodied fauna of the Nama Assemblage. This suggests that the global expansion of anoxia did not coincide with the decline of the Ediacaran biota, or drive the biotic turnover between the White Sea and Nama Assemblages. The impact of this global redox change on metazoan ecosystems is unclear, since the expansion of anoxia, if contained mainly within deeper waters, may not have impinged significantly upon continental shelves that host ... Article in Journal/Newspaper White Sea University College London: UCL Discovery White Sea
institution	Open Polar
collection	University College London: UCL Discovery
op_collection_id	ftucl
language	English
topic	redox uranium Ediacaran oxygen animals
spellingShingle	redox uranium Ediacaran oxygen animals Tostevin, R Clarkson, MO Gangl, S Shields, GA Wood, RA Bowyer, F Penny, AM Stirling, CH Uranium isotope evidence for an expansion of anoxia in terminal Ediacaran oceans
topic_facet	redox uranium Ediacaran oxygen animals
description	Anoxic and iron-rich oceanic conditions prevailed throughout most of the Archean and Proterozoic (4000 to c.540 million years ago, Ma), but the oceans are hypothesised to have become progressively oxygen-rich during the Ediacaran–Cambrian transition interval, coincident with the rise of animal life. We utilise the uranium isotope ratio of seawater (238U/235U; reformulated as U), an effective tracer of oceanic redox conditions, as a proxy for changes in the global proportion of anoxic seafloor. We present a new U dataset for carbonate rocks from the Lower Nama Group, Namibia, deposited in a shelf ramp succession during the terminal Neoproterozoic (∼550 to ∼547 Ma). These data capture a transition from similar to the modern ocean towards persistently low U (average = −0.81 ± 0.06‰). Such low U are consistent with enhanced U drawdown from the water column under anoxic conditions, and the preferential export of ‘heavy’ 238U to sediments following U(VI)–U(IV) reduction. Placing our results into a steady state ocean box model suggests at least a third of the global seafloor was covered by anoxic bottom waters compared with only 0.3% in today's oxygenated oceans. Comparison with U from older sediments deposited in other basins further supports an expansion of anoxic bottom waters towards the end of the Ediacaran. Our data are consistent with an emerging picture of a dominantly anoxic Ediacaran ocean punctuated by brief ocean oxygenation events. In the Nama Group, the transition towards globally widespread anoxic conditions post-dates the first appearance of both skeletal metazoans and soft-bodied fauna of the Nama Assemblage. This suggests that the global expansion of anoxia did not coincide with the decline of the Ediacaran biota, or drive the biotic turnover between the White Sea and Nama Assemblages. The impact of this global redox change on metazoan ecosystems is unclear, since the expansion of anoxia, if contained mainly within deeper waters, may not have impinged significantly upon continental shelves that host ...
format	Article in Journal/Newspaper
author	Tostevin, R Clarkson, MO Gangl, S Shields, GA Wood, RA Bowyer, F Penny, AM Stirling, CH
author_facet	Tostevin, R Clarkson, MO Gangl, S Shields, GA Wood, RA Bowyer, F Penny, AM Stirling, CH
author_sort	Tostevin, R
title	Uranium isotope evidence for an expansion of anoxia in terminal Ediacaran oceans
title_short	Uranium isotope evidence for an expansion of anoxia in terminal Ediacaran oceans
title_full	Uranium isotope evidence for an expansion of anoxia in terminal Ediacaran oceans
title_fullStr	Uranium isotope evidence for an expansion of anoxia in terminal Ediacaran oceans
title_full_unstemmed	Uranium isotope evidence for an expansion of anoxia in terminal Ediacaran oceans
title_sort	uranium isotope evidence for an expansion of anoxia in terminal ediacaran oceans
publisher	ELSEVIER SCIENCE BV
publishDate	2019
url	https://discovery.ucl.ac.uk/id/eprint/10076544/3/Shields%20Tostevin_Uranium_EPSL_Revised2_submitted_notrackchanges.pdf https://discovery.ucl.ac.uk/id/eprint/10076544/
geographic	White Sea
geographic_facet	White Sea
genre	White Sea
genre_facet	White Sea
op_source	Earth and Planetary Science Letters , 506 pp. 104-112. (2019)
op_relation	https://discovery.ucl.ac.uk/id/eprint/10076544/3/Shields%20Tostevin_Uranium_EPSL_Revised2_submitted_notrackchanges.pdf https://discovery.ucl.ac.uk/id/eprint/10076544/
op_rights	open
_version_	1786201440455229440

Uranium isotope evidence for an expansion of anoxia in terminal Ediacaran oceans

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