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Visualizing trace element distribution in quartz using cathodoluminescence, electron microprobe, and laser ablation-inductively coupled plasma-mass spectrometry

  • Brian Rusk EMAIL logo , Alan Koenig and Heather Lowers
Published/Copyright: April 2, 2015
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American Mineralogist
From the journal American Mineralogist Volume 96 Issue 5-6

Abstract

Cathodoluminescent (CL) textures in quartz reveal successive histories of the physical and chemical fluctuations that accompany crystal growth. Such CL textures reflect trace element concentration variations that can be mapped by electron microprobe or laser ablation-inductively coupled plasmamass spectrometry (LA-ICP-MS). Trace element maps in hydrothermal quartz from four different ore deposit types (Carlin-type Au, epithermal Ag, porphyry-Cu, and MVT Pb-Zn) reveal correlations among trace elements and between trace element concentrations and CL textures. The distributions of trace elements reflect variations in the physical and chemical conditions of quartz precipitation. These maps show that Al is the most abundant trace element in hydrothermal quartz. In crystals grown at temperatures below 300 °C, Al concentrations may vary by up to two orders of magnitude between adjacent growth zones, with no evidence for diffusion. The monovalent cations Li, Na, and K, where detectable, always correlate with Al, with Li being the most abundant of the three. In most samples, Al is more abundant than the combined total of the monovalent cations; however, in the MVT sample, molar Al/Li ratios are -0.8. Antimony is present in concentrations up to -120 ppm in epithermal quartz (-200-300 °C), but is not detectable in MVT, Carlin, or porphyry-Cu quartz. Concentrations of Sb do not correlate consistently with those of other trace elements or with CL textures. Titanium is only abundant enough to be mapped in quartz from porphyry-type ore deposits that precipitate at temperatures above -400 °C. In such quartz, Ti concentration correlates positively with CL intensity, suggesting a causative relationship. In contrast, in quartz from other deposit types, there is no consistent correlation between concentrations of any trace element and CL intensity fluctuations.

Keywords: Quartz; trace elements; cathodoluminescence; LA-ICP-MS; electron microprobe
Received: 2010-9-24
Accepted: 2010-12-20
Published Online: 2015-4-2
Published in Print: 2011-5-1

© 2015 by Walter de Gruyter Berlin/Boston

Articles in the same Issue

  1. Comparative in situ X-ray diffraction study of San Carlos olivine: Influence of water on the 410 km seismic velocity jump in Earth’s mantle
  2. Visualizing trace element distribution in quartz using cathodoluminescence, electron microprobe, and laser ablation-inductively coupled plasma-mass spectrometry
  3. Krotite, CaAl2O4, a new refractory mineral from the NWA 1934 meteorite
  4. Translation interface modulation in NC-pyrrhotites: Direct imaging by TEM and a model toward understanding partially disordered structural states
  5. Crystal chemistry of Ti-rich fluorophlogopite from Presidente Olegario, Alto Paranaíba igneous province, Brazil
  6. First-principles study of diffusion and viscosity of anorthite (CaAl2Si2O8) liquid at high pressure
  7. Aluminous and alkali-deficient tourmaline from the Singhbhum Shear Zone, East Indian shield: Insight for polyphase boron infiltration during regional metamorphism
  8. Effect of lactate, glycine, and citrate on the kinetics of montmorillonite dissolution
  9. Acid neutralization by dissolution of alkaline paper mill wastes and implications for treatment of sulfide-mine drainage
  10. Fast ion conduction character and ionic phase-transition in silver sulfosalts: The case of fettelite [Ag6As2S7][Ag10HgAs2S8]
  11. Structure of walstromite, BaCa2Si3O9, and its relationship to CaSiO3-walstromite and wollastonite-II
  12. Cathodoluminescence properties and trace element signature of hydrothermal quartz: A fingerprint of growth dynamics
  13. Formation conditions for triple-chain silicates
  14. In situ determination of the spinel–post-spinel transition in Fe3O4 at high pressure and temperature by synchrotron X-ray diffraction
  15. PVT equation of state of epsilon iron and its densities at inner core conditions
  16. Pressure-induced structural phase transition of the iron end-member of ringwoodite (g-Fe2SiO4) investigated by X-ray diffraction and Mössbauer spectroscopy
  17. Non-bridging oxygen and high-coordinated aluminum in metaluminous and peraluminous calcium and potassium aluminosilicate glasses: High-resolution 17O and 27Al MAS NMR results
  18. The crystal structure of δ-Al(OH)3: Neutron diffraction measurements and ab initio calculations
  19. Electrical properties of natural and synthetic nano-crystalline MgTiO3 geikielite at mantle pressure and temperature conditions
  20. Density measurement of liquid FeS at high pressures using synchrotron X-ray absorption
  21. Cranswickite MgSO4·4H2O, a new mineral from Calingasta, Argentina
  22. Ambrinoite, (K,NH4)2(As,Sb)8S13·H2O, a new mineral from Upper Susa Valley, Piedmont, Italy: The first natural (K,NH4)-hydrated sulfosalt
  23. Single-crystal Raman spectroscopy of natural schafarzikite FeSb2O4 from Pernek, Slovak Republic
  24. Nomenclature of the tourmaline-supergroup minerals
  25. Quantitative Raman spectroscopy: Challenges, shortfalls, and solutions—Application to calcium silicate glasses
  26. Icosahedrite, Al63Cu24Fe13, the first natural quasicrystal
  27. Sulfides from martian and lunar basalts: Comparative chemistry for Ni, Co, Cu, and Se
https://doi.org/10.2138/am.2011.3701
Keywords for this article
Quartz; trace elements; cathodoluminescence; LA-ICP-MS; electron microprobe

Articles in the same Issue

  1. Comparative in situ X-ray diffraction study of San Carlos olivine: Influence of water on the 410 km seismic velocity jump in Earth’s mantle
  2. Visualizing trace element distribution in quartz using cathodoluminescence, electron microprobe, and laser ablation-inductively coupled plasma-mass spectrometry
  3. Krotite, CaAl2O4, a new refractory mineral from the NWA 1934 meteorite
  4. Translation interface modulation in NC-pyrrhotites: Direct imaging by TEM and a model toward understanding partially disordered structural states
  5. Crystal chemistry of Ti-rich fluorophlogopite from Presidente Olegario, Alto Paranaíba igneous province, Brazil
  6. First-principles study of diffusion and viscosity of anorthite (CaAl2Si2O8) liquid at high pressure
  7. Aluminous and alkali-deficient tourmaline from the Singhbhum Shear Zone, East Indian shield: Insight for polyphase boron infiltration during regional metamorphism
  8. Effect of lactate, glycine, and citrate on the kinetics of montmorillonite dissolution
  9. Acid neutralization by dissolution of alkaline paper mill wastes and implications for treatment of sulfide-mine drainage
  10. Fast ion conduction character and ionic phase-transition in silver sulfosalts: The case of fettelite [Ag6As2S7][Ag10HgAs2S8]
  11. Structure of walstromite, BaCa2Si3O9, and its relationship to CaSiO3-walstromite and wollastonite-II
  12. Cathodoluminescence properties and trace element signature of hydrothermal quartz: A fingerprint of growth dynamics
  13. Formation conditions for triple-chain silicates
  14. In situ determination of the spinel–post-spinel transition in Fe3O4 at high pressure and temperature by synchrotron X-ray diffraction
  15. PVT equation of state of epsilon iron and its densities at inner core conditions
  16. Pressure-induced structural phase transition of the iron end-member of ringwoodite (g-Fe2SiO4) investigated by X-ray diffraction and Mössbauer spectroscopy
  17. Non-bridging oxygen and high-coordinated aluminum in metaluminous and peraluminous calcium and potassium aluminosilicate glasses: High-resolution 17O and 27Al MAS NMR results
  18. The crystal structure of δ-Al(OH)3: Neutron diffraction measurements and ab initio calculations
  19. Electrical properties of natural and synthetic nano-crystalline MgTiO3 geikielite at mantle pressure and temperature conditions
  20. Density measurement of liquid FeS at high pressures using synchrotron X-ray absorption
  21. Cranswickite MgSO4·4H2O, a new mineral from Calingasta, Argentina
  22. Ambrinoite, (K,NH4)2(As,Sb)8S13·H2O, a new mineral from Upper Susa Valley, Piedmont, Italy: The first natural (K,NH4)-hydrated sulfosalt
  23. Single-crystal Raman spectroscopy of natural schafarzikite FeSb2O4 from Pernek, Slovak Republic
  24. Nomenclature of the tourmaline-supergroup minerals
  25. Quantitative Raman spectroscopy: Challenges, shortfalls, and solutions—Application to calcium silicate glasses
  26. Icosahedrite, Al63Cu24Fe13, the first natural quasicrystal
  27. Sulfides from martian and lunar basalts: Comparative chemistry for Ni, Co, Cu, and Se
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