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Maskelynite-hosted apatite in the Chassigny meteorite: Insights into late-stage magmatic volatile evolution in martian magmas

  • Francis M. McCubbin EMAIL logo and Hanna Nekvasil
Published/Copyright: April 1, 2015
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American Mineralogist
From the journal American Mineralogist Volume 93 Issue 4

Abstract

Apatite-hosting maskelynite and alkali maskelynite within regions interstitial to cumulus olivine differ compositionally from that found within melt inclusions in the Chassigny martian meteorite. Feldspar glass compositions within the interstitial regions evolve along a high-temperature crystallization path. Within the melt inclusions, feldspar glass shows evolution to low temperatures, extending into the subsolidus regime. Coupled with these differences in maskelynite compositions are differences in volatile abundance in apatite included within the maskelynite. Apatite found within the large olivine-hosted polyphase melt inclusions is uniformly fluorapatite, whereas that interstitial to cumulus olivine is chlor-fluorapatite.

We propose that the differences in maskelynite and apatite compositions within the melt inclusion and interstitial regions arose primarily from different crystallization conditions. Melt-inclusion maskelynite and apatite are consistent with nearly closed-system buildup of magmatic volatiles during crystallization within the melt inclusions, exsolution of a Cl-bearing fluid phase, and retention of this fluid phase within the melt inclusions into the hydrothermal regime. For the interstitial regions, however, the higher solidus temperatures of the interstitial melts, the early crystallization of feldspar with significant ternary component, and the Cl-rich nature of the apatite, all suggest open-system fluid migration through the cumulus pile, ingress of Cl-rich, H2O-poor brine from a hotter, less evolved portion of the magma plumbing system, and interaction of this Cl-rich fluid with melt prior to the crystallization of feldspar. Such processes of fluid migration through a cumulus pile have been suggested on Earth in layered intrusions, and apatite is the primary recorder of this process.

Keywords: Magmatic volatiles; chlorine; water; fluorine; Chassigny; Mars; SNC meteorite; apatite
Received: 2007-1-9
Accepted: 2007-9-30
Published Online: 2015-4-1
Published in Print: 2008-4-1

© 2015 by Walter de Gruyter Berlin/Boston

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https://doi.org/10.2138/am.2008.2558
Keywords for this article
Magmatic volatiles; chlorine; water; fluorine; Chassigny; Mars; SNC meteorite; apatite

Articles in the same Issue

  1. Compositional variability and crystal structural features of guanacoite
  2. Interferometric study of pyrite surface reactivity in acidic conditions
  3. White mica domain formation: A model for paragonite, margarite, and muscovite formation during prograde metamorphism
  4. High-pressure phase transitions in MgSiO3 orthoenstatite studied by atomistic computer simulation
  5. Time-resolved synchrotron powder X-ray diffraction study of magnetite formation by the Fe(III)-reducing bacterium Geobacter sulfurreducens
  6. Low-temperature calorimetric and magnetic data for natural end-members of the axinite group
  7. Temperature derivatives of elastic wave velocities in plagioclase (An51±1) above and below the order-disorder transition temperature
  8. Disordered silica with tridymite-like structure in the Twiggs clay
  9. Crystal structures of synthetic melanotekite (Pb2Fe2Si2O9), kentrolite (Pb2Mn2Si2O9), and the aluminum analogue (Pb2Al2Si2O9)
  10. Structure and reactivity of synthetic Co-substituted goethites
  11. The crystal chemistry of Fe-bearing sphalerites: An infrared spectroscopic study
  12. Effects of hydration on the structure and compressibility of wadsleyite, β-(Mg2SiO4)
  13. Metastability of sillimanite relative to corundum and quartz in the kyanite stability field: Competition between stable and metastable reactions
  14. Diffusion, discontinuous precipitation, metamorphism, and metasomatism: The complex history of South African upper-mantle symplectites
  15. Thermal behavior of a Ti-rich phlogopite from Mt. Vulture (Potenza, Italy): An in situ X-ray single-crystal diffraction study
  16. The high-pressure behavior of an Al- and Fe-rich natural orthopyroxene
  17. High-pressure phase relation of MnSiO3 up to 85 GPa: Existence of MnSiO3 perovskite
  18. Linking Mössbauer and structural parameters in elbaite-schorl-dravite tourmalines
  19. Synchrotron powder X-ray diffraction study of the structure and dehydration behavior of palygorskite
  20. Maskelynite-hosted apatite in the Chassigny meteorite: Insights into late-stage magmatic volatile evolution in martian magmas
  21. Eskolaite associated with diamond from the Udachnaya kimberlite pipe, Yakutia, Russia
  22. Lakebogaite, CaNaFe23+H(UO2)2(PO4)4(OH)2(H2O)8, a new uranyl phosphate with a unique crystal structure from Victoria, Australia
  23. Letter. Crystal structure and Raman spectrum of hydroxyl-bästnasite-(Ce), CeCO3(OH)
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