Abstract
Electron microprobe backscatter imaging (BSI) and wavelength-dispersive spectrometric analysis (WDS) of late Pleistocene dolomite cements from southeastern Barbados indicate variability in dolomite stoichiometry occurs on a micron scale. Replacement dolomitization and formation of dolomite cements occurred in a dilute mixing zone between normal marine and meteoric phreatic waters during the initial stages of a sea-level fall, following the oxygen isotope stage 7.3 glacio-eustatic highstand. The sea-level fall resulted in a progressive change to more meteoric conditions through time. BSI documents replacement dolomitization, dolomite cementation, alternating dolomite and low-Mg calcite (LMC) cementation, and finally LMC cementation. Dolomite cements show continuous, micron-scale, growth-perpendicular zonations in BSI response (similar to cathodoluminescent banding), indicating variation in dolomite stoichiometry. WDS measurements indicate average dolomite matrix compositions of 41 mol% MgCO3 and stoichiometrically zoned dolomite cements average 42 mol% MgCO3. Dolomite cement zonation likely represents variations in dolomite saturation state as a function of variable mixing proportions. In all samples studied, the latest "generation" of dolomite shows marked increases in MgCO3 content. Latest dolomites are essentially stoichiometric, averaging 49.5 mol% MgCO3. These stoichiometric dolomites are commonly directly followed by blocky LMC meteoric phreatic cement (1-4 mol% MgCO3), indicating they represent precipitation from the most dilute, near-meteoric waters of the mixing zone.
Original language | English |
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Pages (from-to) | 129-136 |
Number of pages | 8 |
Journal | Sedimentary Geology |
Volume | 71 |
Issue number | 3-4 |
DOIs | |
State | Published - May 1991 |
Externally published | Yes |
Bibliographical note
Funding Information:Acknowledgement is made to the Donors of The Petroleum Research Fund, administered by the American Chemical Society for partial support of this research. Additional support was provided by NSF Grant EAR-8720376. We thank Ron Stoessell for use of Barbados water chemistry data. Contribution Number 649 of the Geoscience Program at The University of Texas at Dallas.
ASJC Scopus subject areas
- Geology
- Stratigraphy