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Recalibration of the GASP geobarometer in light of recent garnet and plagioclase activity models and versions of the garnet-biotite geothermometer

  • M.J. Holdaway EMAIL logo
Published/Copyright: March 26, 2015
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American Mineralogist
From the journal American Mineralogist Volume 86 Issue 10

Abstract

The garnet-Al silicate-plagioclase (GASP) geobarometer has been recalibrated using four recent garnet activity models, four analogous garnet-biotite temperature models, and two recent plagioclase activity models. A typical sillimanite-bearing sample that formed at about 5.25 kbar, 575 °C shows a possible P range of ~0.7 kbar due to T error, ~1 kbar due to range of garnet activity model, ~0.9 kbar due to range of plagioclase activity model, and ~5.4 kbar due to range of experimental end-member reversals extended by one sigma.

Calibrations were further constrained with the kyanite-sillimanite (K-S) phase boundary such that the best fit of 76 pelitic schist samples from 11 localities provides an individual end-member calibration for each of the eight possible combinations of garnet and plagioclase activity models with the appropriate geothermometer. Samples with low grossular or anorthite component were rejected. The end-member calibrations are constrained to pass through the the best-determined portion of the GASP experimental reversals at 1230 °C, 26.6 kbar. These individual end-member calibrations provide self-consistent models that tend to compensate for error in the garnet and plagioclase activity expressions. The models were also tested on a set of 59 samples from the Alps.

The recommended calibration is the average garnet activity model and average garnet-biotite T model of Holdaway (2000), the Fuhrman and Lindsley (1988) plagioclase activity model, and HGrs = -6628521, SGrs = 258.76 to combine with the remaining phases in the Berman database to produce the optimum end-member GASP curve. These thermodynamic data are for the GASP geobarometer only. Error is about ±0.8 kbar absolute and about ±0.6 kbar relative. Geological error is the largest component of error in many of these samples. Care should be taken to be sure that analyzed plagioclase and biotite are near analyzed garnet, that the peak-T portions of garnet and plagioclase are selected, that the peak-T Al silicate is determined, and that the T calculated is the most accurate possible. These calibrations represent an improvement over previous published GASP calibrations. These eight models are available for distribution as three programs (T, P, P-T intersection) for the DOS-based personal computer.

Received: 2000-8-25
Accepted: 2001-5-29
Published Online: 2015-3-26
Published in Print: 2001-10-1

© 2015 by Walter de Gruyter Berlin/Boston

Articles in the same Issue

  1. Recalibration of the GASP geobarometer in light of recent garnet and plagioclase activity models and versions of the garnet-biotite geothermometer
  2. Compositional zoning and element partitioning in nickeloan tourmaline from a metamorphosed karstbauxite from Samos, Greece
  3. Occurrence of apatite associated with magnetite in an ophiolite complex (Othrys), Greece
  4. Overpressures induced by coesite-quartz transition in zircon
  5. Geochemical modeling of bacterially induced mineralization of schwertmannite and jarosite in sulfuric acid spring water
  6. H2O-D2O exchange in lawsonite
  7. Composition and temperature dependence of cation ordering in Ni-Mg olivine solid solutions: a time-of-flight neutron powder diffraction and EXAFS study
  8. Thermal conductivity of spinels and olivines from vibrational spectroscopy: Ambient conditions
  9. Elasticity of six polycrystalline silicate garnets at pressure up to 3.0 GPa
  10. The crystal chemistry of birefringent natural uvarovites: Part I. Optical investigations and UV-VIS-IR absorption spectroscopy
  11. The crystal chemistry of birefringent natural uvarovites: Part II. Single-crystal X-ray structures
  12. Ferroanthophyllite in Rockport grunerite: A transmission electron microscopy study
  13. Crystal structure of a new (21)-clinopyribole synthesized at high temperature and pressure
  14. The Mg(Fe)SiO3 orthoenstatite-clinoenstatite transitions at high pressures and temperatures determined by Raman-spectroscopy on quenched samples
  15. Raman spectroscopic studies of phase E to 19 GPa
  16. The crystal structures of the low-temperature phases of leonite-type compounds, K2Me(SO4)2·4H2O (Me2+ = Mg, Mn, Fe)
  17. Carraraite and zaccagnaite, two new minerals from the Carrara marble quarries: their chemical compositions, physical properties, and structural features
  18. Pristine surface growth features on 100 Ma garnet phenocrysts: Interference imaging results
  19. Oxygen triclusters in crystalline CaAl4O7 (grossite) and in calcium aluminosilicate glasses: 17O NMR
  20. Low-temperature heat capacity of pentlandite
  21. Calcium segregation at antiphase boundaries in pigeonite
https://doi.org/10.2138/am-2001-1001

Articles in the same Issue

  1. Recalibration of the GASP geobarometer in light of recent garnet and plagioclase activity models and versions of the garnet-biotite geothermometer
  2. Compositional zoning and element partitioning in nickeloan tourmaline from a metamorphosed karstbauxite from Samos, Greece
  3. Occurrence of apatite associated with magnetite in an ophiolite complex (Othrys), Greece
  4. Overpressures induced by coesite-quartz transition in zircon
  5. Geochemical modeling of bacterially induced mineralization of schwertmannite and jarosite in sulfuric acid spring water
  6. H2O-D2O exchange in lawsonite
  7. Composition and temperature dependence of cation ordering in Ni-Mg olivine solid solutions: a time-of-flight neutron powder diffraction and EXAFS study
  8. Thermal conductivity of spinels and olivines from vibrational spectroscopy: Ambient conditions
  9. Elasticity of six polycrystalline silicate garnets at pressure up to 3.0 GPa
  10. The crystal chemistry of birefringent natural uvarovites: Part I. Optical investigations and UV-VIS-IR absorption spectroscopy
  11. The crystal chemistry of birefringent natural uvarovites: Part II. Single-crystal X-ray structures
  12. Ferroanthophyllite in Rockport grunerite: A transmission electron microscopy study
  13. Crystal structure of a new (21)-clinopyribole synthesized at high temperature and pressure
  14. The Mg(Fe)SiO3 orthoenstatite-clinoenstatite transitions at high pressures and temperatures determined by Raman-spectroscopy on quenched samples
  15. Raman spectroscopic studies of phase E to 19 GPa
  16. The crystal structures of the low-temperature phases of leonite-type compounds, K2Me(SO4)2·4H2O (Me2+ = Mg, Mn, Fe)
  17. Carraraite and zaccagnaite, two new minerals from the Carrara marble quarries: their chemical compositions, physical properties, and structural features
  18. Pristine surface growth features on 100 Ma garnet phenocrysts: Interference imaging results
  19. Oxygen triclusters in crystalline CaAl4O7 (grossite) and in calcium aluminosilicate glasses: 17O NMR
  20. Low-temperature heat capacity of pentlandite
  21. Calcium segregation at antiphase boundaries in pigeonite
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