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An FTIR study of hydrogen in anorthoclase and associated melt inclusions

  • Sheila J. Seaman EMAIL logo , M. Darby Dyar , Nebojsa Marinkovic and Nelia W. Dunbar
Published/Copyright: March 31, 2015
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American Mineralogist
From the journal American Mineralogist Volume 91 Issue 1

Abstract

High-resolution Fourier transform infrared (FTIR) spectroscopy has been used to document the presence of hydrogen, to estimate its concentration, and to document its oxygen speciation in anorthoclase crystals and associated melt inclusions from Mount Erebus, Antarctica. Synchrotron-generated infrared radiation, 100 to 1000 times brighter than globar-generated infrared radiation, permits rapid collection of maps that depict relative intensities of a chosen FTIR band across the mapped area. Spectra and/or compositional maps showing variations in water concentration were collected from anorthoclase megacrysts and melt inclusions in the megacrysts. Studies of anorthoclase megacrysts involved collection of spectra from three mutually perpendicular sections cut from the crystals. FTIR spectra of anorthoclase crystals are characterized by a broad absorption band at approximately 3200 cm-1 in the mid-IR range. The universal mass absorption coeficient for mid-IR range feldspar spectra, established by Johnson and Rossman (2003), was used for quantitative estimates of water concentrations in the feldspar crystals based on integrated area under the 3200 cm-1 band. Water concentration in the anorthoclase sample was approximately 126 ppm, with an overall error of approximately ±30%. FTIR spectra of melt inclusions are characterized by a broad asymmetric absorption band at ~3550 cm-1 that was used to calculate total water concentration. The absence of a band at 1630 cm-1 suggests that water in the melt inclusions occurs as OH. rather than as molecular H2O. Absorption coeficients established by Mandeville et al. (2002) for H species in glass were used to calculate water concentrations in the melt inclusions. Melt inclusions in the Mt. Erebus anorthoclase have water concentrations ranging from 0.12 to 0.39 wt%, with an overall error of approximately ±15%. The ratio of water in anorthoclase crystals to water in the melt from which the crystals formed, based on this study, and at these low melt water concentrations, is approximately 1:10. However, water concentration varies significantly from one melt inclusion to another, possibly suggesting initial melt water heterogeneity. Maps of water concentration show that variations in water concentration within melt inclusions are associated with fractures that cut the melt inclusions and in some cases do not extend out into surrounding crystals or into crystal inclusions. Thin (~50 μm thick) zones of elevated water concentrations on the boundaries of the crystals in contact with melt inclusions suggest that water has diffused into the crystals from the melt inclusions.

Keywords : Water; FTIR spectroscopy; anorthoclase; Mt. Erebus
Received: 2004-7-12
Accepted: 2005-4-20
Published Online: 2015-3-31
Published in Print: 2006-1-1

© 2015 by Walter de Gruyter Berlin/Boston

Articles in the same Issue

  1. Dana Lecture. Rates of Fe, Mg, Mn, and Ca diffusion in garnet
  2. An FTIR study of hydrogen in anorthoclase and associated melt inclusions
  3. First occurrence of iodine in natural sulfosalts: The case of mutnovskite, Pb2AsS3(I,Cl,Br), a new mineral from the Mutnovsky volcano, Kamchatka Peninsula, Russian Federation
  4. The real topological conÞ guration of the extra-framework content in alkali-poor beryl: A multi-methodological study
  5. A low-temperature heat-capacity study of synthetic anhydrous Mg-cordierite (Mg2Al4Si5O18)
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  7. Oxy-amphibole equilibria in Ti-bearing calcic amphiboles: Experimental investigation and petrologic implications for mantle-derived amphiboles
  8. Fe2+/Fe3+ charge ordering in contact layers of lamellar magnetism: Bond valence arguments
  9. Calcic amphibole growth and compositions in calc-alkaline magmas: Evidence from the Motru Dike Swarm (Southern Carpathians, Romania)
  10. Anomalously high Fe contents in rehomogenized olivine-hosted melt inclusions from oxidized magmas
  11. The rate of ferrihydrite transformation to goethite via the Fe(II) pathway
  12. Phase transitions and volumetric properties of cryolite, Na3AlF6: Differential thermal analysis to 100 MPa
  13. The crystal structure of dissakisite-(La) and structural variations after annealing of radiation damage
  14. Effects of metal protection coils on thermocouple EMF in multi-anvil high-pressure experiments
  15. First-principles study of the OH-stretching modes of gibbsite
  16. In situ X-ray diffraction study of phase transitions of FeTiO3 at high pressures and temperatures using a large-volume press and synchrotron radiation
  17. High-pressure proton disorder in brucite
  18. Microhardness, toughness, and modulus of Mohs scale minerals
  19. Effects of pH, temperature, and aqueous organic material on the dissolution kinetics of meta-autunite minerals, (Na, Ca)2-1[(UO2)(PO4)]2⋅3H2O
  20. InterstratiÞ ed kaolinite-smectite: Nature of the layers and mechanism of smectite kaolinization
  21. The kinetics of the α → β transition in synthetic nickel monosulÞ de
  22. An electron microprobe analysis, secondary ion mass spectrometry, and single-crystal X-ray diffraction study of phlogopites from Mt. Vulture, Potenza, Italy: Consideration of cation partitioning
  23. Unique W-rich alloy of Os and Ir and associated Fe-rich alloy of Os, Ru, and Ir from California
  24. Schreyerite, V2Ti3O9: New occurrence and crystal structure
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https://doi.org/10.2138/am.2006.1765
Keywords for this article
Water; FTIR spectroscopy; anorthoclase; Mt. Erebus

Articles in the same Issue

  1. Dana Lecture. Rates of Fe, Mg, Mn, and Ca diffusion in garnet
  2. An FTIR study of hydrogen in anorthoclase and associated melt inclusions
  3. First occurrence of iodine in natural sulfosalts: The case of mutnovskite, Pb2AsS3(I,Cl,Br), a new mineral from the Mutnovsky volcano, Kamchatka Peninsula, Russian Federation
  4. The real topological conÞ guration of the extra-framework content in alkali-poor beryl: A multi-methodological study
  5. A low-temperature heat-capacity study of synthetic anhydrous Mg-cordierite (Mg2Al4Si5O18)
  6. Dissolution kinetics of pyrochlore ceramics for the disposition of plutonium
  7. Oxy-amphibole equilibria in Ti-bearing calcic amphiboles: Experimental investigation and petrologic implications for mantle-derived amphiboles
  8. Fe2+/Fe3+ charge ordering in contact layers of lamellar magnetism: Bond valence arguments
  9. Calcic amphibole growth and compositions in calc-alkaline magmas: Evidence from the Motru Dike Swarm (Southern Carpathians, Romania)
  10. Anomalously high Fe contents in rehomogenized olivine-hosted melt inclusions from oxidized magmas
  11. The rate of ferrihydrite transformation to goethite via the Fe(II) pathway
  12. Phase transitions and volumetric properties of cryolite, Na3AlF6: Differential thermal analysis to 100 MPa
  13. The crystal structure of dissakisite-(La) and structural variations after annealing of radiation damage
  14. Effects of metal protection coils on thermocouple EMF in multi-anvil high-pressure experiments
  15. First-principles study of the OH-stretching modes of gibbsite
  16. In situ X-ray diffraction study of phase transitions of FeTiO3 at high pressures and temperatures using a large-volume press and synchrotron radiation
  17. High-pressure proton disorder in brucite
  18. Microhardness, toughness, and modulus of Mohs scale minerals
  19. Effects of pH, temperature, and aqueous organic material on the dissolution kinetics of meta-autunite minerals, (Na, Ca)2-1[(UO2)(PO4)]2⋅3H2O
  20. InterstratiÞ ed kaolinite-smectite: Nature of the layers and mechanism of smectite kaolinization
  21. The kinetics of the α → β transition in synthetic nickel monosulÞ de
  22. An electron microprobe analysis, secondary ion mass spectrometry, and single-crystal X-ray diffraction study of phlogopites from Mt. Vulture, Potenza, Italy: Consideration of cation partitioning
  23. Unique W-rich alloy of Os and Ir and associated Fe-rich alloy of Os, Ru, and Ir from California
  24. Schreyerite, V2Ti3O9: New occurrence and crystal structure
  25. A cold-sealing capsule design for synthesis of fluid inclusions and other hydrothermal experiments in a piston-cylinder apparatus
  26. Complete solid-solution between Na3Al2(PO4)3 and Mg3Al2(SiO4)3 garnets at high pressure
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