Pioneering data on detection, identification and quantification of key carbonate minerals using spectral tomography

Publication date

2025-12

Authors

Kularatne, Kanchana
Beaudoin, Nicolas E.
Sénéchal, Pascale
Moonen, Peter
Youssef, Souhail
Nader, F.ORCID 0000-0002-4379-0175ISNI 0000000499295207

Editors

Advisors

Supervisors

Document Type

Article
Open Access logo

License

cc_by

Abstract

In this study, we present, for the first time, the spectral computed tomography (sp-CT) signatures of key carbonate rock-forming minerals namely, calcite, magnesian calcite, dolomite, and magnesite. Although the raw spectra of these phases may not be readily distinguishable, we demonstrate that they appear in clusters on a multi-energy histogram derived from laboratory sp-CT. These clusters show a strong correlation with the MgCO3 mol.% of the carbonate phases. In addition to discriminating among these carbonate phases, we demonstrate the capability of time-resolved sp-CT to monitor mineral replacement reactions in carbonates. As an example, we analyze a series of time-lapse sp-CT images of a carbonate sample undergoing hydrothermal dolomitization in the laboratory. The results reveal a progressive transformation of pure calcite into an Mg-rich carbonate, with the sp-CT data indicating a final composition of approximately 32 mol.% MgCO3. This estimate, while lower than the 46–50 mol.% MgCO3 determined through complementary chemical analysis, provides a valuable first-order approximation. This contribution introduces a novel methodology for visualizing, monitoring, and quantifying such chemical reactions in multi-phase carbonate systems, in 2D, 3D and even 4D, offering advantages over destructive techniques such as 3D FIB-tomography. Our findings pave the way to further exploration of carbonate diagenesis and open up new perspectives for the application of spectral tomography in Earth sciences.

Keywords

Carbonates, Dolomitization, Fluid-rock interactions, Mineralogy, Sedimentology, Spectral tomography, Time-lapse imaging, Oceanography, Geophysics, Geology, Economic Geology, Stratigraphy

Citation

Kularatne, K, Beaudoin, N E, Sénéchal, P, Moonen, P, Youssef, S & Nader, F H 2025, 'Pioneering data on detection, identification and quantification of key carbonate minerals using spectral tomography', Marine and Petroleum Geology, vol. 182, 107536. https://doi.org/10.1016/j.marpetgeo.2025.107536