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Speciation and distribution of sulfur in a mollusk shell as revealed by in situ maps using X-ray absorption near-edge structure (XANES) spectroscopy at the S K-edge

  • Yannicke Dauphin EMAIL logo , Jean-Pierre Cuif , Murielle Salomé and Jean Susini
Published/Copyright: March 28, 2015
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American Mineralogist
From the journal American Mineralogist Volume 90 Issue 11-12

Abstract

The microstructure and composition, including chemical speciation of S, of the calcitic and aragonitic shell layers of two mollusc shells were investigated using a combination of thermogravimetric analyses, scanning electron microscopy, electron probe microanalyses, and X-ray absorption near-edge structure spectroscopy. Microprobe analyses show the different chemical contents of the shell layers, whereas in situ XANES maps and spectra show the dominance of organic sulfate over S aminoacids (cysteine, cystine, and methionine). Also, the distribution of S species is different for different structures within the shell. Growth lines are clearly seen in the chemical species maps. These results suggest that studies focussing exclusively on the protein contents of biominerals are not sufficient to understand the role of the organic matrices in the biomineralization and diagenetic processes.

Received: 2004-3-4
Accepted: 2005-5-18
Published Online: 2015-3-28
Published in Print: 2005-11-1

© 2015 by Walter de Gruyter Berlin/Boston

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  1. Electronic article. Getting the inside story: using computed X-ray tomography to study inclusion trails in garnet porphyroblasts
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  7. Speciation and distribution of sulfur in a mollusk shell as revealed by in situ maps using X-ray absorption near-edge structure (XANES) spectroscopy at the S K-edge
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  23. Single-crystal X-ray diffraction of spinels from the San Carlos Volcanic Field, Arizona: Spinel as a geothermometer
  24. Letter. Direct observations of pseudomorphism: compositional and textural evolution at a fluid- solid interface
  25. Letter. Carbon oxides in cordierite channels: Determination of CO2 isotopic species and CO by single crystal IR spectroscopy
  26. Comment on Melluso et al. (2003) Reported data and interpretation of some wollastonite- and melilite-bearing rocks from the Central Apennines of Italy
  27. Reply to stoppa et.al. 2005. Wollastonite- anorthite- gehlenite-, and fassaite-bearing rocks: Igneous petrological oddity or paralavas?
  28. Comment on Melluso et.al. (2003). The Ricetto and Colle Fabbri wollastonite and melilite-bearing rocks of the central Apennines, Italy
  29. Reply to Capitanio 2005. Mineralogic and bulk rock composition of Italian wollastonite- and melilite-bearing paralava and clinker: Further evidence of their pyrometamorphic nature
https://doi.org/10.2138/am.2005.1640

Articles in the same Issue

  1. Electronic article. Getting the inside story: using computed X-ray tomography to study inclusion trails in garnet porphyroblasts
  2. Structure of framboidal pyrite: An electron backscatter diffraction study
  3. The mineralogical microstructure of shells: PART 2.1 The iridescence colors of abalone shells
  4. Electron probe (Ultrachron) microchronometry of metamorphic monazite: Unraveling the timing of polyphase thermotectonism in the easternmost Wyoming Craton (Black Hills, South Dakota)
  5. New mineral occurrences and mineralization processes: Wuda coal-fire gas vents of Inner Mongolia
  6. Synchrotron micro-X-ray fluorescence analysis of natural diamonds: First steps in identification of mineral inclusions in situ
  7. Speciation and distribution of sulfur in a mollusk shell as revealed by in situ maps using X-ray absorption near-edge structure (XANES) spectroscopy at the S K-edge
  8. Experimental study on diamond dissolution in kimberlitic and lamproitic melts at 1300-1420 °C and 1 GPa with controlled oxygen partial pressure
  9. Validation of LA-ICP-MS fluid inclusion analysis with synthetic fluid inclusions
  10. Etch pit coalescence, surface area, and overall mineral dissolution rates
  11. Crystal chemistry of the elbaite-schorl series
  12. Morphology of nanomagnetite crystals: Implications for formation conditions
  13. Fragmentation phenomena in populations of magmatic crystals
  14. Kinetics of Fe2+-Mg order-disorder in P21/c pigeonite
  15. First-principles studies on the elastic constants of a 1:1 layered kaolinite mineral
  16. Quantum mechanical calculations of trans-vacant and cis-vacant polymorphism in dioctahedral 2:1 phyllosilicates
  17. The stability and Raman spectra of ikaite, CaCO3·6H2O, at high pressure and temperature
  18. Model pyroxenes III: Volume of C2/c pyroxenes at mantle P, T, and x
  19. The kinetics and mechanisms of goethite and hematite crystallization under alkaline conditions, and in the presence of phosphate
  20. High-resolution 17O MAS NMR spectroscopy of forsterite (α-Mg2SiO4), wadsleyite (β-Mg2SiO4), and ringwoodite (γ-Mg2SiO4)
  21. Comparative study of equilibrated and unequilibrated eucrites: Subsolidus thermal histories of Haraiya and Pasamonte
  22. Origin and internal evolution of the Li-F-Be-B-P-bearing Pinilla de Fermoselle pegmatite (Central Iberian Zone, Zamora, Spain)
  23. Single-crystal X-ray diffraction of spinels from the San Carlos Volcanic Field, Arizona: Spinel as a geothermometer
  24. Letter. Direct observations of pseudomorphism: compositional and textural evolution at a fluid- solid interface
  25. Letter. Carbon oxides in cordierite channels: Determination of CO2 isotopic species and CO by single crystal IR spectroscopy
  26. Comment on Melluso et al. (2003) Reported data and interpretation of some wollastonite- and melilite-bearing rocks from the Central Apennines of Italy
  27. Reply to stoppa et.al. 2005. Wollastonite- anorthite- gehlenite-, and fassaite-bearing rocks: Igneous petrological oddity or paralavas?
  28. Comment on Melluso et.al. (2003). The Ricetto and Colle Fabbri wollastonite and melilite-bearing rocks of the central Apennines, Italy
  29. Reply to Capitanio 2005. Mineralogic and bulk rock composition of Italian wollastonite- and melilite-bearing paralava and clinker: Further evidence of their pyrometamorphic nature
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