Sulfur isotopes from the Paleoproterozoic Francevillian Basin record multigenerational pyrite formation, not depositional conditions

Kärt Paiste; David A. Fike; Karen Bakakas Mayika; Mathieu Moussavou; Aivo Lepland; Anthony R. Prave; Tomohiko Sato; Yuichiro Ueno; Yusuke Sawaki; Jocelyn A. Richardson; Robert S. Wood; Clive Jones; Samuel M. Webb; Kalle Kirsimäe

doi:10.1038/s43247-024-01498-1

Communications Earth & Environment (Jun 2024)

Sulfur isotopes from the Paleoproterozoic Francevillian Basin record multigenerational pyrite formation, not depositional conditions

Kärt Paiste,
David A. Fike,
Karen Bakakas Mayika,
Mathieu Moussavou,
Aivo Lepland,
Anthony R. Prave,
Tomohiko Sato,
Yuichiro Ueno,
Yusuke Sawaki,
Jocelyn A. Richardson,
Robert S. Wood,
Clive Jones,
Samuel M. Webb,
Kalle Kirsimäe

Affiliations

Kärt Paiste: Department of Geology, University of Tartu
David A. Fike: Department of Earth, Environmental, & Planetary Sciences, Washington University in St Louis
Karen Bakakas Mayika: Universite des Sciences et Techniques de Masuku
Mathieu Moussavou: Universite des Sciences et Techniques de Masuku
Aivo Lepland: Department of Geology, University of Tartu
Anthony R. Prave: St Andrews University, KY169AL St Andrews
Tomohiko Sato: Okayama University of Science
Yuichiro Ueno: Department of Earth and Planetary Sciences, Tokyo Insitute of Technology
Yusuke Sawaki: Department of Earth Science and Astronomy, University of Tokyo
Jocelyn A. Richardson: Stanford Synchrotron Radiation Lightsource, SLAC National Accelerator Laboratory
Robert S. Wood: Pacific Northwest National Laboratory, 902 Battelle Blvd.
Clive Jones: Department of Earth, Environmental, & Planetary Sciences, Washington University in St Louis
Samuel M. Webb: Stanford Synchrotron Radiation Lightsource, SLAC National Accelerator Laboratory
Kalle Kirsimäe: Department of Geology, University of Tartu

DOI: https://doi.org/10.1038/s43247-024-01498-1
Journal volume & issue: Vol. 5, no. 1
pp. 1 – 14

Abstract

Read online

Abstract Bulk-rock sulfur isotope data from pyrite in the ~2.1 billion-year sedimentary rocks of the Francevillian Basin, Gabon, have underpinned ideas about initial oxygenation of Earth’s surface environments and eukaryote evolution. Here, we show, using micro-scale analytical methods, that the bulk sulfur isotope record represents progressive diagenetic modification. Our findings indicate no significant change in microbial sulfur cycling processes and seawater sulfate composition throughout that initial phase of atmosphere-ocean oxygenation of Paleoproterozoic time. This offers an alternative view of Earth system evolution during the transition from an anoxic to an oxic state and highlights the need for a judicious reappraisal of conceptual models using sulfur isotope data as primary depositional signals linked to global-scale biogeochemical processes.

Published in Communications Earth & Environment

ISSN: 2662-4435 (Online)
Publisher: Nature Portfolio
Country of publisher: United Kingdom
LCC subjects: Science: Geology; Geography. Anthropology. Recreation: Environmental sciences
Website: https://www.nature.com/commsenv/

About the journal