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Carbonate mineralization in percolated olivine aggregates: Linking effects of crystallographic orientation and fluid flow

  • Steve Peuble EMAIL logo , Muriel Andreani , Marguerite Godard , Philippe Gouze , Fabrice Barou , Bertrand Van de Moortele , David Mainprice and Bruno Reynard
Published/Copyright: April 9, 2015
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American Mineralogist
From the journal American Mineralogist Volume 100 Issue 2-3

Abstract

In situ mineralization of CO2 in ultramafic rock-hosted aquifers is one of the promising solutions for decreasing CO2 concentrations in the atmosphere. Naturally altered ultramafic rocks suggest that carbonation processes are controlled by local heterogeneities in the structure of the rock and fluid transport at the water-rock interfaces. We studied the role of rock crystallographic anisotropy relative to the global fluid flow direction on the mineralization of CO2 by means of electron microscope analyses from the macro- to the micrometer scale (EBSD-FIB). The sample used for the measurements was a hot pressed olivine core percolated by water enriched in CO2 (pCO2 = 10 MPa) at 180 °C. During the percolation experiment, olivine was dissolved and two types of carbonates, dolomite, and magnesite, were precipitated on olivine surfaces. The results showed that the dissolution of olivine is controlled by its crystallographic properties as shown by the development of etch-pits only on the (010)ol planes and with elongated shapes parallel to the [010]ol axes. In contrast, the precipitation of carbonates is governed by hydrodynamic properties. Carbonates are heterogeneously distributed in the percolated rock. They are mainly located along the moderate (for dolomite) and the minor (for magnesite) flow paths, both oriented parallel to the principal fluid flow direction, which allow carbonates to be supplied with divalent cations (e.g., Ca2+, Mg2+, and Fe2+). In these flow paths, carbonate growth is systematically oriented normal to the flow that facilitates the development of chemical gradients with cationic supersaturation conditions for carbonate precipitation near the walls.

In natural systems, the (010)ol planes are parallel to the Moho and the (100)ol planes are vertical; our study suggests that flow of CO2-rich fluids will induce precipitation of carbonates localized along, and preferentially clogging, vertical flow paths while favoring olivine dissolution along horizontal fluid pathways. This dual control of structure and fluid flow on carbonation mechanisms could be an important parameter allowing sustainable CO2 storage in peridotites, while limiting the risks of leakage toward the surface.

Keywords: EBSD-FIB; CO2 mineralization; ultramafic rocks; etch-pits; oriented growth; crystallographic relationships
Received: 2014-1-31
Accepted: 2014-8-4
Published Online: 2015-4-9
Published in Print: 2015-2-1

© 2015 by Walter de Gruyter Berlin/Boston

Articles in the same Issue

  1. Anhydrite: An important sulfur binder limiting the climatic impact of subaerial volcanic eruptions
  2. Tweed, twins, and holes
  3. The chemical behavior of fluids released during deep subduction based on fluid inclusions
  4. In situ observation of the pyroxene-majorite transition in Na2MgSi5O12 using synchrotron radiation and Raman spectroscopy of Na-majorite
  5. Prevalence of growth twins among anhedral plagioclase microlites
  6. Intrinsic conditions of magma genesis at the Lunar Crater Volcanic Field (Nevada), and implications for internal plumbing and magma ascent
  7. A rock fragment related to the magnesian suite in lunar meteorite Allan Hills (ALHA) 81005
  8. Trinitite redux: Mineralogy and petrology
  9. Pauloabibite, trigonal NaNbO3, isostructural with ilmenite, from the Jacupiranga carbonatite, Cajati, São Paulo, Brazil
  10. Kojonenite, a new palladium tin telluride mineral from the Stillwater Layered Igneous Intrusion, Montana, U.S.A.
  11. Cathodoluminescence dependence on feldspar mineral structure and implications for forensic geology
  12. Non-invasive assessment of the formation of tourmaline nodules by X-ray microtomography and computer modeling
  13. Alkali influence on the water speciation and the environment of protons in silicate glasses revealed by 1H MAS NMR spectroscopy
  14. Carbonate mineralization in percolated olivine aggregates: Linking effects of crystallographic orientation and fluid flow
  15. The catalytic effect of bound extracellular polymeric substances excreted by anaerobic microorganisms on Ca-Mg carbonate precipitation: Implications for the “dolomite problem”
  16. Experimental study along the magnesio-hornblende–glaucophane join
  17. Direct observation of Ca-Na ordering and structure polarity in Ca-rich intermediate plagioclase feldspar with incommensurate modulated structure
  18. Stability and adhesion of calcite/montmorillonite assembly
  19. Experimental and modeled chlorine solubilities in aluminosilicate melts at 1 to 7000 bars and 700 to 1250 °C: Applications to magmas of Augustine Volcano, Alaska
  20. Cation order-disorder in Fe-bearing pyrope and grossular garnets: A 27Al and 29Si MAS NMR and 57Fe Mössbauer spectroscopy study
  21. Trace and minor elements in galena: A reconnaissance LA-ICP-MS study
  22. A refined monoclinic structure for a variety of “hydrohematite”
  23. Mössbauer spectroscopic study of natural eosphorite, [(Mn,Fe)AlPO4(OH)2H2O]
  24. P-V-T equation of state of Ca3Cr2Si3O12 uvarovite garnet by using a diamond-anvil cell and in-situ synchrotron X-ray diffraction
  25. Possible new Ca-REE-Bi phosphate minerals from a tungsten-rich calcsilicate skarn, Sierra Nevada Mountains, California
  26. Klebelsbergite, Sb4O4SO4(OH)2: Stability relationships, formation in Nature, and refinement of its structure
  27. Balestraite, KLi2VSi4O10O2, the first member of the mica group with octahedral V5+
  28. Prediction of enthalpies of formation of hydrous sulfates
  29. Complete substitution of Fe2+ by Mg in Fe4O5: The crystal structure of the Mg2Fe2O5 end-member
  30. The effect of H2O on F and Cl solubility and solution mechanisms of in aluminosilicate melts at high pressure and high temperature
  31. The elasticity of MgAl2O4–MnAl2O4 spinels by Brillouin scattering and an empirical approach for bulk modulus prediction
  32. Synthesis of stoichiometric nickel aluminate spinel nanoparticles
  33. New Mineral Names
  34. Book Review
  35. American Mineralogist thanks the year 2014 reviewers
https://doi.org/10.2138/am-2015-4913
Keywords for this article
EBSD-FIB; CO2 mineralization; ultramafic rocks; etch-pits; oriented growth; crystallographic relationships

Articles in the same Issue

  1. Anhydrite: An important sulfur binder limiting the climatic impact of subaerial volcanic eruptions
  2. Tweed, twins, and holes
  3. The chemical behavior of fluids released during deep subduction based on fluid inclusions
  4. In situ observation of the pyroxene-majorite transition in Na2MgSi5O12 using synchrotron radiation and Raman spectroscopy of Na-majorite
  5. Prevalence of growth twins among anhedral plagioclase microlites
  6. Intrinsic conditions of magma genesis at the Lunar Crater Volcanic Field (Nevada), and implications for internal plumbing and magma ascent
  7. A rock fragment related to the magnesian suite in lunar meteorite Allan Hills (ALHA) 81005
  8. Trinitite redux: Mineralogy and petrology
  9. Pauloabibite, trigonal NaNbO3, isostructural with ilmenite, from the Jacupiranga carbonatite, Cajati, São Paulo, Brazil
  10. Kojonenite, a new palladium tin telluride mineral from the Stillwater Layered Igneous Intrusion, Montana, U.S.A.
  11. Cathodoluminescence dependence on feldspar mineral structure and implications for forensic geology
  12. Non-invasive assessment of the formation of tourmaline nodules by X-ray microtomography and computer modeling
  13. Alkali influence on the water speciation and the environment of protons in silicate glasses revealed by 1H MAS NMR spectroscopy
  14. Carbonate mineralization in percolated olivine aggregates: Linking effects of crystallographic orientation and fluid flow
  15. The catalytic effect of bound extracellular polymeric substances excreted by anaerobic microorganisms on Ca-Mg carbonate precipitation: Implications for the “dolomite problem”
  16. Experimental study along the magnesio-hornblende–glaucophane join
  17. Direct observation of Ca-Na ordering and structure polarity in Ca-rich intermediate plagioclase feldspar with incommensurate modulated structure
  18. Stability and adhesion of calcite/montmorillonite assembly
  19. Experimental and modeled chlorine solubilities in aluminosilicate melts at 1 to 7000 bars and 700 to 1250 °C: Applications to magmas of Augustine Volcano, Alaska
  20. Cation order-disorder in Fe-bearing pyrope and grossular garnets: A 27Al and 29Si MAS NMR and 57Fe Mössbauer spectroscopy study
  21. Trace and minor elements in galena: A reconnaissance LA-ICP-MS study
  22. A refined monoclinic structure for a variety of “hydrohematite”
  23. Mössbauer spectroscopic study of natural eosphorite, [(Mn,Fe)AlPO4(OH)2H2O]
  24. P-V-T equation of state of Ca3Cr2Si3O12 uvarovite garnet by using a diamond-anvil cell and in-situ synchrotron X-ray diffraction
  25. Possible new Ca-REE-Bi phosphate minerals from a tungsten-rich calcsilicate skarn, Sierra Nevada Mountains, California
  26. Klebelsbergite, Sb4O4SO4(OH)2: Stability relationships, formation in Nature, and refinement of its structure
  27. Balestraite, KLi2VSi4O10O2, the first member of the mica group with octahedral V5+
  28. Prediction of enthalpies of formation of hydrous sulfates
  29. Complete substitution of Fe2+ by Mg in Fe4O5: The crystal structure of the Mg2Fe2O5 end-member
  30. The effect of H2O on F and Cl solubility and solution mechanisms of in aluminosilicate melts at high pressure and high temperature
  31. The elasticity of MgAl2O4–MnAl2O4 spinels by Brillouin scattering and an empirical approach for bulk modulus prediction
  32. Synthesis of stoichiometric nickel aluminate spinel nanoparticles
  33. New Mineral Names
  34. Book Review
  35. American Mineralogist thanks the year 2014 reviewers
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