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Monazite ages from carbonatites and high-grade assemblages along the Kambam Fault (Southern Granulite Terrane, South India)

  • Elizabeth J. Catlos EMAIL logo , Chandra S. Dubey and Poovalingam Sivasubramanian
Published/Copyright: April 1, 2015
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American Mineralogist
From the journal American Mineralogist Volume 93 Issue 8-9

Abstract

Monazite ages from carbonatites and high-grade assemblages exposed along a significant lineament within the Southern Granulite Terrane of India termed the Kambam fault were obtained in thin section (in situ) using an ion microprobe. X-ray maps for Ce and Th were acquired in larger monazites to decipher the significance of the ages of individual spots within grains. The Kambam carbonatite contains large (millimeter-sized) apatite rimmed by ~10 μm thick bands of monazite. Monazite commonly appears as a lower-Th, late-stage mineral in carbonatites, and bands surrounding apatite are interpreted as products of metasomatism, rather than exsolution. The age of a Kambam carbonatite monazite band is 715 ± 42 Ma (Th-Pb, ± 1σ), but monazite filling cracks within the apatite is ~300 m.y. younger (405 ± 5 Ma). The younger monazite grains are in contact with quartz, a mineral thought to be an indicator of subsolidus alteration in carbonatites. The age of the monazite rim is similar to ages of several carbonatites located 50-400 km further north, and chemical analyses show that this sample displays chemical trends similar to the other complexes (e.g., Y/Ho, Ce/Pb, REE, and HFSE patterns). The mid-Neoproterozoic event is recorded in garnet-bearing assemblages ~20 km west of the Kambam fault (733 ± 15 Ma) and garnet-bearing enclaves within Southern Granulite Terrane charnockites (701 ± 26 Ma; 786 ± 84 Ma). The results show that monazite can crystallize during metasomatism and be useful in deciphering fluid processes occurring at deeper crustal levels. The Kambam fault, which records over 300 million years of monazite growth, should be considered a major boundary in reconstructions of Gondwana.

Keywords : Carbonatite; geochronology; ion microprobe; monazite; Southern Granulite Terrane
Received: 2007-6-11
Accepted: 2008-3-4
Published Online: 2015-4-1
Published in Print: 2008-8-1

© 2015 by Walter de Gruyter Berlin/Boston

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https://doi.org/10.2138/am.2008.2712
Keywords for this article
Carbonatite; geochronology; ion microprobe; monazite; Southern Granulite Terrane

Articles in the same Issue

  1. Hydrothermal synthesis of hematite spherules and jarosite: Implications for diagenesis and hematite spherule formation in sulfate outcrops at Meridiani Planum, Mars
  2. Concentric slow cooling of a low-P–high-T terrane: Evidence from 1600–1300 Ma mica dates in the 1780–1700 Ma Black Hills Orogen, South Dakota, U.S.A.
  3. Monazite ages from carbonatites and high-grade assemblages along the Kambam Fault (Southern Granulite Terrane, South India)
  4. Forward modeling of the effects of mixed volatile reaction, volume diffusion, and formation of submicroscopic exsolution lamellae on calcite-dolomite thermometry
  5. A low-temperature phase diagram for ilmenite-rich compositions in the system Fe2O3-FeTiO3
  6. Dehydrogenation of kaersutitic amphibole under electron beam excitation recorded by changes in Fe3+/ΣFe: An EMP and SIMS study
  7. Protonation in germanium equivalents of ringwoodite, anhydrous phase B, and superhydrous phase B
  8. Andreyivanovite: A second new phosphide from the Kaidun meteorite
  9. The crystal chemistry of whitlockite and merrillite and the dehydrogenation of whitlockite to merrillite
  10. Single-crystal elastic properties of (Mg0.987,Fe0.013)O to 9 GPa
  11. Stoichiometry of synthetic ulvöspinel single crystals
  12. Thermal behavior and structural transformation in the chabazite-type zeolite willhendersonite, KCaAl3Si3O12·5H2O
  13. The kinetics and mechanisms of schwertmannite transformation to goethite and hematite under alkaline conditions
  14. Crystal chemistry of the mixed-layer sequence talc–talc-smectite–smectite from submarine hydrothermal vents
  15. Crystal chemical and structural characterization of fibrous tremolite from Susa Valley, Italy, with comments on potential harmful effects on human health
  16. Thermodynamic properties of CaTh(PO4)2 synthetic cheralite
  17. A computational study of order-disorder phenomena in Mg2TiO4 spinel (qandilite)
  18. Mineralogical characterization of silica sinters from the El Tatio geothermal field, Chile
  19. Influence of multi-electron excitation on EXAFS spectroscopy of trivalent rare-earth ions and elucidation of change in hydration number through the series
  20. Pressure-induced over-hydration and water ordering in gismondine: A synchrotron powder diffraction study
  21. 57Fe Mössbauer study of the oxidation state of iron in stilpnomelane from granite pegmatites in Poland
  22. Constraints on structural models of ferrihydrite as a nanocrystalline material
  23. Pb+ irradiation of synthetic zircon (ZrSiO4): Infrared spectroscopic investigation
  24. Equation of state and crystal structure of a new germanate post-titanite phase
  25. Synthetic hypersilicic Cl-bearing mica in the phlogopite-celadonite join: A multimethodical characterization of the missing link between di- and tri-octahedral micas at high pressures
  26. The effect of crystal-melt partitioning on the budgets of Cu, Au, and Ag
  27. Thermodynamics of dehydration in analcime: Absorption calorimetry and equilibrium observations
  28. Accommodation of the carbonate ion in fluorapatite synthesized at high pressure
  29. Unusual Al-Si ordering in calcic scapolite, Me79.6, with increasing temperature
  30. Letter. Identification of randomly interstratified illite/smectite with basal peak widths
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