Precise kinetic parameters for thermal resetting of clumped isotope signatures in biogenic and abiogenic calcites

Authors

• Nico Kueter, Swiss Federal Institute of Technology Zurich
• Nathan Looser, Swiss Federal Institute of Technology Zurich
• Jordon D. Hemingway, Swiss Federal Institute of Technology Zurich
• Nils B. Gies, University of Bern
• Gregory D. Price, School of Geography, Earth and Environmental Sciences
• Alberto Perez-Huerta, Department of Geological Sciences
• Stefano M. Bernasconi, Swiss Federal Institute of Technology Zurich

ORCID

• Gregory D. Price: 0000-0002-2461-7465

Abstract

Carbonate clumped isotope (∆₄₇) thermometry is a powerful tool to reconstruct paleotemperatures. However, episodes of heating or cooling can alter original ∆₄₇ values through diffusive C-O bond reordering—i.e., isotopic exchange between neighboring carbonate groups within the mineral lattice—and/or oxygen-isotope exchange between carbonate groups and water (collectively termed “thermal resetting”). Nevertheless, if precise kinetic constraints are available, altered ∆₄₇ values can be utilized to reconstruct thermal histories of sedimentary basins or to restore primary ∆₄₇ values from carbonates which experienced thermal resetting in their geological history. Here, we present new high-resolution heating experiments on optical (abiogenic) and belemnite (biogenic) calcite. By capturing early signals and conducting experiments at lower temperatures than in previous studies, we derive new precise disordered kinetic parameters for both materials [optical calcite: µ _E = 216.47 ± 6.95 kJ mol^-1, σ _E = 14.51 ± 1.22 kJ mol^-1, and v₀ = 28.61 ± 1.12 ln(min)^-1; belemnite calcite: µ _E = 180.15 ± 7.94 kJ mol^-1, σ _E = 22.24 ± 2.62 kJ mol^-1, and v₀ = 27.76 ± 1.43 ln(min)^-1]. Additionally, we present new FTIR data on pristine and heated belemnite calcite that confirms the presence of intracrystalline water and organic matter that is suggested to facilitate its faster thermal resetting. Complementary “snapshot” experiments on a diverse suite of materials reveal a systematic difference in thermal resetting behavior between biogenic and abiogenic calcites, highlighting the importance of structural and compositional characteristics in controlling resetting kinetics. These snapshot experiments can complement petrographic and geochemical methods in assessing the pristine nature of calcite samples and provide guidance for selecting the appropriate kinetic parameters for thermal modeling of different calcites.

DOI Link

10.1016/j.epsl.2026.119955

Publication Date

2026-03-14

Publication Title

Earth and Planetary Science Letters

Volume

682

ISSN

0012-821X

Acceptance Date

2026-02-28

Deposit Date

2026-04-09

Additional Links

https://www.scopus.com/pages/publications/105032665458

Keywords

Belemnite, Calcite, Carbonate clumped isotopes, Thermal resetting, Solid-state reordering

Creative Commons License

This work is licensed under a Creative Commons Attribution 4.0 International License.

Recommended Citation

Kueter, N., Looser, N., Hemingway, J., Gies, N., Price, G., Perez-Huerta, A., & Bernasconi, S. (2026) 'Precise kinetic parameters for thermal resetting of clumped isotope signatures in biogenic and abiogenic calcites', Earth and Planetary Science Letters, 682. Available at: 10.1016/j.epsl.2026.119955