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Timescales of spherulite crystallization in obsidian inferred from water concentration profiles

  • Jonathan M. Castro EMAIL logo , Pierre Beck , Hugh Tuffen , Alexander R.L. Nichols , Donald B. Dingwell and Michael C. Martin
Published/Copyright: April 1, 2015
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American Mineralogist
From the journal American Mineralogist Volume 93 Issue 11-12

Abstract

We determined the kinetics of spherulite growth in obsidians from Krafla volcano, Iceland. We measured water concentration profiles around spherulites in obsidian by synchrotron Fourier transform infrared spectroscopy. The distribution of OH- groups surrounding spherulites decreases exponentially away from the spherulite-glass border, reflecting expulsion of water during crystallization of an anhydrous paragenesis (plagioclase + SiO2 + clinopyroxene + magnetite). This pattern is controlled by a balance between the growth rate of the spherulites and the diffusivity of hydrous solute in the rhyolitic melt.

We modeled advective and diffusive transport of the water away from the growing spherulites by numerically solving the diffusion equation with a moving boundary. Numerical models fit the natural data best when a small amount of post-growth diffusion is incorporated in the model. Comparisons between models and data constrain the average spherulite growth rates for different temperatures and highlight size-dependent growth among a small population of spherulites.

Keywords : Spherulite; diffusion; obsidian; crystallization
Received: 2007-12-23
Accepted: 2008-7-1
Published Online: 2015-4-1
Published in Print: 2008-11-1

© 2015 by Walter de Gruyter Berlin/Boston

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https://doi.org/10.2138/am.2008.2904
Keywords for this article
Spherulite; diffusion; obsidian; crystallization

Articles in the same Issue

  1. Review Paper. Mineral evolution
  2. Amorphous materials: Properties, structure, and durability: Structure of Mg- and Mg/Ca aluminosilicate glasses: 27Al NMR and Raman spectroscopy investigations
  3. Amorphous materials: Properties, structure, and durability: Constrained interactions, rigidity, adaptative networks, and their role for the description of silicates
  4. Amorphous materials: Properties, structure, and durability: Quantification of the kinetics of iron oxidation in silicate melts using Raman spectroscopy and assessment of the role of oxygen diffusion
  5. Amorphous materials: Properties, structure, and durability: Solubility and solution mechanisms of NOH volatiles in silicate melts at high pressure and temperature—amine groups and hydrogen fugacity
  6. High- and ultrahigh-pressure metamorphism: Past results and future prospects
  7. Crystal structure of a synthetic tin-selenium representative of the cylindrite structure type
  8. Nano to macroscale biomineral architecture of red coral (Corallium rubrum)
  9. Timescales of spherulite crystallization in obsidian inferred from water concentration profiles
  10. Compression of single-crystal magnesium oxide to 118 GPa and a ruby pressure gauge for helium pressure media
  11. In situ high-pressure single-crystal X-ray study of aegirine, NaFe3+Si2O6, and the role of M1 size in clinopyroxene compressibility
  12. Oxygen fugacity, temperature reproducibility, and H2O contents of nominally anhydrous piston-cylinder experiments using graphite capsules
  13. Coesite inclusions in garnet from eclogitic rocks in western Tianshan, northwest China: Convincing proof of UHP metamorphism
  14. Crystal chemistry of macfallite: Relationships to sursassite and pumpellyite
  15. Bacterially enhanced dissolution of meta-autunite
  16. Common gem opal: An investigation of micro- to nano-structure
  17. Structural transition of post-spinel phases CaMn2O4, CaFe2O4, and CaTi2O4 under high pressures up to 80 GPa
  18. Pressure-temperature stability studies of FeOOH using X-ray diffraction
  19. The parental melt of lherzolitic shergottite ALH 77005: A study of rehomogenized melt inclusions
  20. Ferric iron content in (Mg,Fe)SiO3 perovskite and post-perovskite at deep lower mantle conditions
  21. Lakargiite CaZrO3: A new mineral of the perovskite group from the North Caucasus, Kabardino-Balkaria, Russia
  22. Xocolatlite, Ca2Mn4+2 Te2O12·H2O, a new tellurate related to kuranakhite: Description and measurement of Te oxidation state by XANES spectroscopy
  23. Pyroxmangite: A high-pressure single-crystal study
  24. Letter. Continuous time-resolved X-ray diffraction of the biocatalyzed reduction of Mn oxide
  25. Letter. Igneous Ca-rich pyroxene in comet 81P/Wild 2
  26. Letter. A unique glimpse into asteroidal melting processes in the early solar system from the Graves Nunatak 06128/06129 achondrites
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