The stable U-Mo-Fe isotope records of Middle Jurassic hydrogenetic ferromanganese deposits

Publikation: Beitrag in FachzeitschriftArtikelForschungPeer-Review

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  • Bundesanstalt für Geowissenschaften und Rohstoffe (BGR)
  • Tongji University
  • State Key Laboratory of Marine Geology
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OriginalspracheEnglisch
Aufsatznummer122795
FachzeitschriftChemical Geology
Jahrgang684
Frühes Online-Datum11 Apr. 2025
PublikationsstatusElektronisch veröffentlicht (E-Pub) - 11 Apr. 2025

Abstract

Ferromanganese (Fe-Mn) nodules are marine chemical sediments that represent unique archives for the reconstruction of ambient seawater conditions. This record is limited from modern to Cenozoic times due to the instability of Fe-Mn oxides during burial and subduction of the oceanic crust and overlying sediments. However, almost uncharacterized Fe-Mn nodules exist in Jurassic sedimentary strata throughout the ancient Tethyan region approximately 100 Ma older than the oldest yet-investigated Cenozoic nodules. Their reliability as geochemical archives for the reconstruction of ancient seawater is, however, poorly understood. In this study, Fe-Mn nodules from the Pyhrntal area (Austria) are geochemically and mineralogically characterized and subdivided into four types with variable amounts of carbonates (calcite, rhodochrosite), todorokite, and hematite as major phases. Shale-normalized rare earth element and yttrium systematics of all types indicate a hydrogenetic origin with characteristic positive Ce anomalies and negative Y anomalies. In-situ Fe isotope measurements of the Fe-Mn nodules display a δ 56/54Fe range between −0.32 and −0.02 ‰ for the Jurassic Tethyan Ocean, similar to values from modern Atlantic nodules. Stable Mo (δ 98/95Mo = −0.97 to −0.56 ‰) and U (δ 238/235U = −0.75 to −0.47 ‰) isotope compositions resemble those of modern and Cenozoic Fe-Mn nodules, suggesting that Middle Jurassic oceans were similarly well‑oxygenated as modern oceans. Our results demonstrate the reliability of fossil Fe-Mn nodules in the Pyhrntal as geochemical archives for the composition of paleo-seawater, encouraging the investigation of other ancient Fe-Mn deposits which may significantly improve and complement the picture of the redox evolution of Phanerozoic oceans.

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The stable U-Mo-Fe isotope records of Middle Jurassic hydrogenetic ferromanganese deposits. / Klamt, Viona; Kraemer, Dennis; Fernandez, Oscar et al.
in: Chemical Geology, Jahrgang 684, 122795, 30.06.2025.

Publikation: Beitrag in FachzeitschriftArtikelForschungPeer-Review

Klamt, V., Kraemer, D., Fernandez, O., Horn, I., Hohl, S. V., Weyer, S., & Viehmann, S. (2025). The stable U-Mo-Fe isotope records of Middle Jurassic hydrogenetic ferromanganese deposits. Chemical Geology, 684, Artikel 122795. Vorabveröffentlichung online. https://doi.org/10.1016/j.chemgeo.2025.122795
Klamt V, Kraemer D, Fernandez O, Horn I, Hohl SV, Weyer S et al. The stable U-Mo-Fe isotope records of Middle Jurassic hydrogenetic ferromanganese deposits. Chemical Geology. 2025 Jun 30;684:122795. Epub 2025 Apr 11. doi: 10.1016/j.chemgeo.2025.122795
Klamt, Viona ; Kraemer, Dennis ; Fernandez, Oscar et al. / The stable U-Mo-Fe isotope records of Middle Jurassic hydrogenetic ferromanganese deposits. in: Chemical Geology. 2025 ; Jahrgang 684.
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@article{8ebdc5f250b04c94859faac1cc496a8c,
title = "The stable U-Mo-Fe isotope records of Middle Jurassic hydrogenetic ferromanganese deposits",
abstract = "Ferromanganese (Fe-Mn) nodules are marine chemical sediments that represent unique archives for the reconstruction of ambient seawater conditions. This record is limited from modern to Cenozoic times due to the instability of Fe-Mn oxides during burial and subduction of the oceanic crust and overlying sediments. However, almost uncharacterized Fe-Mn nodules exist in Jurassic sedimentary strata throughout the ancient Tethyan region approximately 100 Ma older than the oldest yet-investigated Cenozoic nodules. Their reliability as geochemical archives for the reconstruction of ancient seawater is, however, poorly understood. In this study, Fe-Mn nodules from the Pyhrntal area (Austria) are geochemically and mineralogically characterized and subdivided into four types with variable amounts of carbonates (calcite, rhodochrosite), todorokite, and hematite as major phases. Shale-normalized rare earth element and yttrium systematics of all types indicate a hydrogenetic origin with characteristic positive Ce anomalies and negative Y anomalies. In-situ Fe isotope measurements of the Fe-Mn nodules display a δ 56/54Fe range between −0.32 and −0.02 ‰ for the Jurassic Tethyan Ocean, similar to values from modern Atlantic nodules. Stable Mo (δ 98/95Mo = −0.97 to −0.56 ‰) and U (δ 238/235U = −0.75 to −0.47 ‰) isotope compositions resemble those of modern and Cenozoic Fe-Mn nodules, suggesting that Middle Jurassic oceans were similarly well‑oxygenated as modern oceans. Our results demonstrate the reliability of fossil Fe-Mn nodules in the Pyhrntal as geochemical archives for the composition of paleo-seawater, encouraging the investigation of other ancient Fe-Mn deposits which may significantly improve and complement the picture of the redox evolution of Phanerozoic oceans.",
keywords = "Fe-Mn nodules, Rare earth elements, Redox evolution, Seawater, Tethys, U-Mo-Fe isotopes",
author = "Viona Klamt and Dennis Kraemer and Oscar Fernandez and Ingo Horn and Hohl, {Simon V.} and Stefan Weyer and Sebastian Viehmann",
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doi = "10.1016/j.chemgeo.2025.122795",
language = "English",
volume = "684",
journal = "Chemical Geology",
issn = "0009-2541",
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TY - JOUR

T1 - The stable U-Mo-Fe isotope records of Middle Jurassic hydrogenetic ferromanganese deposits

AU - Klamt, Viona

AU - Kraemer, Dennis

AU - Fernandez, Oscar

AU - Horn, Ingo

AU - Hohl, Simon V.

AU - Weyer, Stefan

AU - Viehmann, Sebastian

PY - 2025/4/11

Y1 - 2025/4/11

N2 - Ferromanganese (Fe-Mn) nodules are marine chemical sediments that represent unique archives for the reconstruction of ambient seawater conditions. This record is limited from modern to Cenozoic times due to the instability of Fe-Mn oxides during burial and subduction of the oceanic crust and overlying sediments. However, almost uncharacterized Fe-Mn nodules exist in Jurassic sedimentary strata throughout the ancient Tethyan region approximately 100 Ma older than the oldest yet-investigated Cenozoic nodules. Their reliability as geochemical archives for the reconstruction of ancient seawater is, however, poorly understood. In this study, Fe-Mn nodules from the Pyhrntal area (Austria) are geochemically and mineralogically characterized and subdivided into four types with variable amounts of carbonates (calcite, rhodochrosite), todorokite, and hematite as major phases. Shale-normalized rare earth element and yttrium systematics of all types indicate a hydrogenetic origin with characteristic positive Ce anomalies and negative Y anomalies. In-situ Fe isotope measurements of the Fe-Mn nodules display a δ 56/54Fe range between −0.32 and −0.02 ‰ for the Jurassic Tethyan Ocean, similar to values from modern Atlantic nodules. Stable Mo (δ 98/95Mo = −0.97 to −0.56 ‰) and U (δ 238/235U = −0.75 to −0.47 ‰) isotope compositions resemble those of modern and Cenozoic Fe-Mn nodules, suggesting that Middle Jurassic oceans were similarly well‑oxygenated as modern oceans. Our results demonstrate the reliability of fossil Fe-Mn nodules in the Pyhrntal as geochemical archives for the composition of paleo-seawater, encouraging the investigation of other ancient Fe-Mn deposits which may significantly improve and complement the picture of the redox evolution of Phanerozoic oceans.

AB - Ferromanganese (Fe-Mn) nodules are marine chemical sediments that represent unique archives for the reconstruction of ambient seawater conditions. This record is limited from modern to Cenozoic times due to the instability of Fe-Mn oxides during burial and subduction of the oceanic crust and overlying sediments. However, almost uncharacterized Fe-Mn nodules exist in Jurassic sedimentary strata throughout the ancient Tethyan region approximately 100 Ma older than the oldest yet-investigated Cenozoic nodules. Their reliability as geochemical archives for the reconstruction of ancient seawater is, however, poorly understood. In this study, Fe-Mn nodules from the Pyhrntal area (Austria) are geochemically and mineralogically characterized and subdivided into four types with variable amounts of carbonates (calcite, rhodochrosite), todorokite, and hematite as major phases. Shale-normalized rare earth element and yttrium systematics of all types indicate a hydrogenetic origin with characteristic positive Ce anomalies and negative Y anomalies. In-situ Fe isotope measurements of the Fe-Mn nodules display a δ 56/54Fe range between −0.32 and −0.02 ‰ for the Jurassic Tethyan Ocean, similar to values from modern Atlantic nodules. Stable Mo (δ 98/95Mo = −0.97 to −0.56 ‰) and U (δ 238/235U = −0.75 to −0.47 ‰) isotope compositions resemble those of modern and Cenozoic Fe-Mn nodules, suggesting that Middle Jurassic oceans were similarly well‑oxygenated as modern oceans. Our results demonstrate the reliability of fossil Fe-Mn nodules in the Pyhrntal as geochemical archives for the composition of paleo-seawater, encouraging the investigation of other ancient Fe-Mn deposits which may significantly improve and complement the picture of the redox evolution of Phanerozoic oceans.

KW - Fe-Mn nodules

KW - Rare earth elements

KW - Redox evolution

KW - Seawater

KW - Tethys

KW - U-Mo-Fe isotopes

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U2 - 10.1016/j.chemgeo.2025.122795

DO - 10.1016/j.chemgeo.2025.122795

M3 - Article

VL - 684

JO - Chemical Geology

JF - Chemical Geology

SN - 0009-2541

M1 - 122795

ER -

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