Molybdenum Isotope Fingerprinting of Microbial Sulfate Reduction in Seep Carbonate Rocks

Zice Jia; Yu Hu; Germain Bayon; Jörn Peckmann; Xudong Wang; Shanggui Gong; Jie Li; Harry H. Roberts; Duofu Chen; Dong Feng

doi:10.1029/2023GC011379

Geochemistry, Geophysics, Geosystems (Mar 2024)

Molybdenum Isotope Fingerprinting of Microbial Sulfate Reduction in Seep Carbonate Rocks

Zice Jia,
Yu Hu,
Germain Bayon,
Jörn Peckmann,
Xudong Wang,
Shanggui Gong,
Jie Li,
Harry H. Roberts,
Duofu Chen,
Dong Feng

Affiliations

Zice Jia: College of Oceanography and Ecological Science Shanghai Ocean University Shanghai China
Yu Hu: College of Oceanography and Ecological Science Shanghai Ocean University Shanghai China
Germain Bayon: University Brest CNRS Ifremer Geo‐Ocean Plouzané France
Jörn Peckmann: Center for Earth System Research and Sustainability Institute for Geology Universität Hamburg Hamburg Germany
Xudong Wang: College of Oceanography and Ecological Science Shanghai Ocean University Shanghai China
Shanggui Gong: College of Oceanography and Ecological Science Shanghai Ocean University Shanghai China
Jie Li: State Key Laboratory of Isotope Geochemistry Guangzhou Institute of Geochemistry Chinese Academy of Sciences Guangzhou China
Harry H. Roberts: College of the Coastal and Environment Coastal Studies Institute Louisiana State University Baton Rouge LA USA
Duofu Chen: College of Oceanography and Ecological Science Shanghai Ocean University Shanghai China
Dong Feng: College of Oceanography and Ecological Science Shanghai Ocean University Shanghai China

DOI: https://doi.org/10.1029/2023GC011379
Journal volume & issue: Vol. 25, no. 3
pp. n/a – n/a

Abstract

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Abstract Understanding the interaction between molybdenum (Mo) and organic matter during microbial sulfate reduction is critical for the use of Mo to reconstruct marine redox conditions throughout Earth's history. However, little is known about Mo isotope fractionation and how it relates to organic matter remineralization during microbial sulfate reduction. Here, we report Mo abundances and isotopic (δ98Mo) compositions for bulk‐rock, non‐lithogenic and sequentially extracted fractions, including carbonate (carb), pyrite, and organic matter (OM), of seep carbonate rocks. Our data indicate that the difference between δ98Mocarb and δ98MoOM (Δ98Mocarb‐OM) displays significant variability in the studied samples, ranging between 0.72 and 1.01‰. Remarkably, the obtained Δ98Mocarb‐OM values indicate correlative trends with stable carbon isotope ratios and bulk abundances of (a) total organic carbon, (b) Mo, and (c) pyrite in seep carbonates, which we interpret as reflecting sustained adsorption of isotopically light Mo onto organic matter during enhanced sulfate reduction. On this basis, we put forward the concept that Δ98Mocarb‐OM of authigenic carbonate rocks can be used as a measure of the intensity of sulfate reduction and for reconstructing past interactions between Mo and organic matter in marine sediments.

Published in Geochemistry, Geophysics, Geosystems

ISSN: 1525-2027 (Online)
Publisher: Wiley
Country of publisher: United States
LCC subjects: Science: Physics: Geophysics. Cosmic physics; Science: Geology
Website: https://agupubs.onlinelibrary.wiley.com/journal/15252027

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