Barium isotope (re-)equilibration in the barite-fluid system and its implications for marine barite archives

Kirsten van Zuilen*, Anna L. Harrison, Jessica A. Stammeier, Thomas F. Nagler, Vasileios Mavromatis

*Corresponding author for this work

Research output: Contribution to JournalArticleAcademicpeer-review

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Abstract

Variations in the Ba isotopic composition of seawater are largely driven by the extent of barite precipitation in the marine photic zone and replenishment of Ba by upwelling and/or continental inputs. Pelagic barites offer a robust tool for tracing sources and sinks of Ba in the (paleo)ocean as they record these isotopic variations. Knowledge of the Ba isotope fractionation between barite and ambient waters is therefore imperative. Here, the Ba isotope fractionation between barite and Ba2+ (aq) under equilibrium conditions has been estimated by the three-isotope method with a 135Ba-enriched reactive fluid. The estimated Ba isotope fractionation was Δ137/134BaBarite-Ba2+ = −0.07 ± 0.08‰. Textural observations of barite crystals recovered up to 756 days of reaction reveal smoothing of solid surfaces but also typical dissolution features such as development of pits and cracks. Thus, dissolution/re-precipitation is likely the mechanism controlling the observed isotope exchange that is facilitated by the further development of porosity in the crystals. Additionally, the isotope exchange in the experimental runs fits a second-order law yielding a surface normalized isotope exchange rate of ∼2.8 × 10−10 mol/m2/s. This exchange rate could theoretically result in complete isotope exchange between pelagic barite with a typical edge size of 1 μm and ambient seawater or pore fluid within years, altering the barite's Ba isotopic composition during settling towards the seafloor and/or after deposition in marine sediments. Although there is considerable uncertainty in extrapolating experimental results to natural conditions and longer time scales, the rapid rates of exchange observed experimentally over short timescales suggest that isotope exchange in pelagic barite should be considered during interpretation of the Ba isotope composition as a paleoarchive.

Original languageEnglish
Article number118280
Pages (from-to)1-11
Number of pages11
JournalEarth and Planetary Science Letters
Volume618
Early online date28 Jun 2023
DOIs
Publication statusPublished - 15 Sept 2023

Bibliographical note

Funding Information:
The assistance of Judith Jernej with IC analyses is highly acknowledged. The Raimond Castaing MicroCharacterization centre, particularly Arnaud Proietti, are thanked for their facilitation of SEM analyses. We are thankful to J. Middleton and an anonymous reviewer for their constructive comments on this manuscript. This work has been financially supported by the French national program INSU/LEFE .

Publisher Copyright:
© 2023 Elsevier B.V.

Keywords

  • Ba isotopes
  • barite
  • equilibrium fractionation
  • re-equilibration rates

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