Iron Isotopes Reveal a Benthic Iron Shuttle in the Palaeoproterozoic Zaonega Formation: Basinal Restriction, Euxinia, and the Effect on Global Palaeoredox Proxies

Iron Isotopes Reveal a Benthic Iron Shuttle in the Palaeoproterozoic Zaonega Formation: Basinal Restriction, Euxinia, and the Effect on Global Palaeoredox Proxies

The Zaonega Formation in northwest Russia (~2.0 billion years old) is amongst the most complete successions that record the middle of the Palaeoproterozoic era. As such, geochemical data from the formation have played a central role in framing the debate over redox dynamics in the aftermath of the G...

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Main Authors: Kaarel Mänd, Stefan V. Lalonde, Kärt Paiste, Marie Thoby, Kaarel Lumiste, Leslie J. Robbins, Timmu Kreitsmann, Alexander E. Romashkin, Kalle Kirsimäe, Aivo Lepland, Kurt O. Konhauser
Format: Article
Language:English
Published: MDPI AG 2021-03-01
Series:Minerals
Subjects:
isotope geochemistry
redox stratification
benthic Fe shuttle
dissimilatory iron reduction
Online Access:https://www.mdpi.com/2075-163X/11/4/368
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spelling doaj-b8ce86e53e474467b24d08cbf128c6142021-03-31T23:04:02ZengMDPI AGMinerals2075-163X2021-03-011136836810.3390/min11040368Iron Isotopes Reveal a Benthic Iron Shuttle in the Palaeoproterozoic Zaonega Formation: Basinal Restriction, Euxinia, and the Effect on Global Palaeoredox ProxiesKaarel Mänd0Stefan V. Lalonde1Kärt Paiste2Marie Thoby3Kaarel Lumiste4Leslie J. Robbins5Timmu Kreitsmann6Alexander E. Romashkin7Kalle Kirsimäe8Aivo Lepland9Kurt O. Konhauser10Department of Geology, University of Tartu, 50411 Tartu, EstoniaCNRS-UMR 6538 Laboratoire Géosciences Océan, European Institute for Marine Studies, Technopôle Brest-Iroise, 29280 Plouzané, FranceDepartment of Geology, University of Tartu, 50411 Tartu, EstoniaCNRS-UMR 6538 Laboratoire Géosciences Océan, European Institute for Marine Studies, Technopôle Brest-Iroise, 29280 Plouzané, FranceDepartment of Geology, University of Tartu, 50411 Tartu, EstoniaDepartment of Geology, University of Regina, Regina, SK S4S 0A2, CanadaDepartment of Physics and Earth Sciences, Jacobs University Bremen, 28759 Bremen, GermanyInstitute of Geology, Karelian Research Centre, Russian Academy of Sciences, 185610 Petrozavodsk, RussiaDepartment of Geology, University of Tartu, 50411 Tartu, EstoniaDepartment of Geology, University of Tartu, 50411 Tartu, EstoniaDepartment of Earth & Atmospheric Sciences, University of Alberta, Edmonton, AB T6G 2E3, CanadaThe Zaonega Formation in northwest Russia (~2.0 billion years old) is amongst the most complete successions that record the middle of the Palaeoproterozoic era. As such, geochemical data from the formation have played a central role in framing the debate over redox dynamics in the aftermath of the Great Oxidation Event (GOE). However, uncertainty over local redox conditions and the degree of hydrographic restriction in the formation has led to contradictory interpretations regarding global oxygen (O<sub>2</sub>) fugacity. Here, we provide new iron (Fe) isotope data together with major and trace element concentrations to constrain the local physiochemical conditions. The Zaonega Formation sediments show authigenic Fe accumulation (Fe/Al ≫ 1 wt.%/wt.%) and <i>δ</i><sup>56</sup>Fe ranging from −0.58‰ to +0.60‰. Many of the data fall on a negative Fe/Al versus <i>δ</i><sup>56</sup>Fe trend, diagnostic of a benthic Fe shuttle, which implies that Zaonega Formation rocks formed in a redox-stratified and semi-restricted basin. However, basin restriction did not coincide with diminished trace metal enrichment, likely due to episodes of deep-water exchange with metal-rich oxygenated seawater, as evidenced by simultaneous authigenic Fe(III) precipitation. If so, the Onega Basin maintained a connection that allowed its sediments to record signals of global ocean chemistry despite significant basinal effects.https://www.mdpi.com/2075-163X/11/4/368isotope geochemistryredox stratificationbenthic Fe shuttledissimilatory iron reduction
collection DOAJ
language English
format Article
sources DOAJ
author Kaarel Mänd
Stefan V. Lalonde
Kärt Paiste
Marie Thoby
Kaarel Lumiste
Leslie J. Robbins
Timmu Kreitsmann
Alexander E. Romashkin
Kalle Kirsimäe
Aivo Lepland
Kurt O. Konhauser
spellingShingle Kaarel Mänd
Stefan V. Lalonde
Kärt Paiste
Marie Thoby
Kaarel Lumiste
Leslie J. Robbins
Timmu Kreitsmann
Alexander E. Romashkin
Kalle Kirsimäe
Aivo Lepland
Kurt O. Konhauser
Iron Isotopes Reveal a Benthic Iron Shuttle in the Palaeoproterozoic Zaonega Formation: Basinal Restriction, Euxinia, and the Effect on Global Palaeoredox Proxies
Minerals
isotope geochemistry
redox stratification
benthic Fe shuttle
dissimilatory iron reduction
author_facet Kaarel Mänd
Stefan V. Lalonde
Kärt Paiste
Marie Thoby
Kaarel Lumiste
Leslie J. Robbins
Timmu Kreitsmann
Alexander E. Romashkin
Kalle Kirsimäe
Aivo Lepland
Kurt O. Konhauser
author_sort Kaarel Mänd
title Iron Isotopes Reveal a Benthic Iron Shuttle in the Palaeoproterozoic Zaonega Formation: Basinal Restriction, Euxinia, and the Effect on Global Palaeoredox Proxies
title_short Iron Isotopes Reveal a Benthic Iron Shuttle in the Palaeoproterozoic Zaonega Formation: Basinal Restriction, Euxinia, and the Effect on Global Palaeoredox Proxies
title_full Iron Isotopes Reveal a Benthic Iron Shuttle in the Palaeoproterozoic Zaonega Formation: Basinal Restriction, Euxinia, and the Effect on Global Palaeoredox Proxies
title_fullStr Iron Isotopes Reveal a Benthic Iron Shuttle in the Palaeoproterozoic Zaonega Formation: Basinal Restriction, Euxinia, and the Effect on Global Palaeoredox Proxies
title_full_unstemmed Iron Isotopes Reveal a Benthic Iron Shuttle in the Palaeoproterozoic Zaonega Formation: Basinal Restriction, Euxinia, and the Effect on Global Palaeoredox Proxies
title_sort iron isotopes reveal a benthic iron shuttle in the palaeoproterozoic zaonega formation: basinal restriction, euxinia, and the effect on global palaeoredox proxies
publisher MDPI AG
series Minerals
issn 2075-163X
publishDate 2021-03-01
description The Zaonega Formation in northwest Russia (~2.0 billion years old) is amongst the most complete successions that record the middle of the Palaeoproterozoic era. As such, geochemical data from the formation have played a central role in framing the debate over redox dynamics in the aftermath of the Great Oxidation Event (GOE). However, uncertainty over local redox conditions and the degree of hydrographic restriction in the formation has led to contradictory interpretations regarding global oxygen (O<sub>2</sub>) fugacity. Here, we provide new iron (Fe) isotope data together with major and trace element concentrations to constrain the local physiochemical conditions. The Zaonega Formation sediments show authigenic Fe accumulation (Fe/Al ≫ 1 wt.%/wt.%) and <i>δ</i><sup>56</sup>Fe ranging from −0.58‰ to +0.60‰. Many of the data fall on a negative Fe/Al versus <i>δ</i><sup>56</sup>Fe trend, diagnostic of a benthic Fe shuttle, which implies that Zaonega Formation rocks formed in a redox-stratified and semi-restricted basin. However, basin restriction did not coincide with diminished trace metal enrichment, likely due to episodes of deep-water exchange with metal-rich oxygenated seawater, as evidenced by simultaneous authigenic Fe(III) precipitation. If so, the Onega Basin maintained a connection that allowed its sediments to record signals of global ocean chemistry despite significant basinal effects.
topic isotope geochemistry
redox stratification
benthic Fe shuttle
dissimilatory iron reduction
url https://www.mdpi.com/2075-163X/11/4/368
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