Home Impactite from Henbury, Australia
Article
Licensed
Unlicensed Requires Authentication

Impactite from Henbury, Australia

  • Yang Ding EMAIL logo and David R. Veblen
Published/Copyright: March 28, 2015
Become an author with De Gruyter Brill
Author Information
American Mineralogist
From the journal American Mineralogist Volume 89 Issue 7

Abstract

Impactite was formed in several small, closely spaced craters by the impact of iron meteorites on sandstone at Henbury, central Australia. Through application of energy dispersive X-ray spectroscopy, convergent-beam electron diffraction, and selected-area electron diffraction, chemical compositions and space groups were determined for multiple crystalline phases in the impactite. Based on this chemical and structural information, sub-micrometer fayalite (approximately 40% of the total volume of crystalline phases), magnetite (25%), α-quartz (20%), hercynite (10%), diamond (3%), and a Nisulfide phase (2%) were identified, in addition to abundant glass.

Compared with the pre-shock rock, the Henbury impactite was subjected to dramatic phase transformation and chemical redistribution and fractionation processes during the impact event. The newly formed dendritic crystalline phases such as fayalite, magnetite, and hercynite, as well as the surrounding glass, may represent metastable eutectic crystallization that occurred between approximately 1600 °C (liquidus temperature of hercynite) and 850 °C (75% of the liquidus temperature of fayalite) on a time scale of seconds. Generally, the composition of glass surrounding magnetite, fayalite, and hercynite is close to SiO2, plus small amounts of Fe (about 10%), but the glass around magnetite can also be considerably more enriched in Fe. The distribution of magnetite and fayalite is probably related to the Fe3+/Fe2+ ratio in the original melt as altered by the local oxygen fugacity, and the formation of hercynite is governed by both the Fe3+/Fe2+ ratio and the distribution of Al in the sample. Alpha quartz probably formed from Fe-depleted silica in the autoannealing period, at low pressure and relatively low temperatures. Diamond crystals in the impactite are euhedral and may have formed through chemical vapor deposition (CVD) at very high temperatures. Nickel sulfide probably crystallized directly from sulfide vapor or quenched sulfide melts, under supercooled and reduced conditions. The impactite is chemically very heterogeneous, presumably due to the limited diffusion time available for mixing of Fe and silica during the rapid cooling history. Iron, Ni, and Mg tend to concentrate in fayalite, magnetite, and hercynite, whereas K and Si are enriched in glass. Hercynite contains more Al, and other crystalline phases less Al, than the glass. In general, the Henbury impactite reflects a chaotic mixture of equilibrium, metastable, and non-equilibrium domains produced at high temperatures in a very short time, and most crystallization appears to have occurred in the post-shock period.

Received: 2003-10-26
Accepted: 2004-3-11
Published Online: 2015-3-28
Published in Print: 2004-7-1

© 2015 by Walter de Gruyter Berlin/Boston

Articles in the same Issue

  1. Hydroxyl in omphacites and omphacitic clinopyroxenes of upper mantle to lower crustal origin beneath the Siberian platform
  2. Structural variations induced by difference of the inert pair effect in the stibnite-bismuthinite solid solution series (Sb,Bi)2S3
  3. Hydrogen solubility and speciation in natural, gem-quality chromian diopside
  4. Ultrastructure, aggregation-state, and crystal growth of biogenic nanocrystalline sphalerite and wurtzite
  5. Impactite from Henbury, Australia
  6. Neutron and synchrotron X-ray diffraction study of the structures and dehydration behaviors of ramsdellite and “groutellite”
  7. Hydrothermal synthesis and crystal chemistry of the new strontium uranyl selenites, Sr[(UO2)3(SeO3)2O2]⋅4H2O and Sr[UO2(SeO3)2]
  8. Study of cation order-disorder in MgAl2O4spinel by in situ neutron diffraction up to 1600 K and 3.2 GPa
  9. Magnetic granulometry from equilibrium magnetization measurements: Mineral magnetometry of superparamagnetic particles and application to synthetic ferrihydrites
  10. Hydroxide in kyanite: A quantitative determination of the absolute amount and calibration of the IR spectrum
  11. Analysis of uranyl-bearing phases by EXAFS spectroscopy: Interferences, multiple scattering, accuracy of structural parameters, and spectral differences
  12. X-ray diffraction evidence for a monoclinic form of stibnite, Sb2S3, below 290 K
  13. Sulfur species at chalcopyrite (CuFeS2) fracture surfaces
  14. Dehydration and rehydration process in boggsite: An in situ X-ray single-crystal study
  15. Empressite, AgTe, from the Empress-Josephine mine, Colorado, U.S.A.: Composition, physical properties, and determination of the crystal structure
  16. Correlation of pH-dependent surface interaction forces to amino acid adsorption: Implications for the origin of life
  17. A near-infrared spectroscopic study of hydroxyl in natural chondrodite
  18. High-pressure elasticity of a natural magnetite crystal
  19. Isotopic and chemical alteration of zircon by metamorphic fluids: U-Pb age depth-profiling of zircon crystals from Barrowʼs garnet zone, northeast Scotland
  20. A novel approach to determine high-pressure high-temperature fluid and melt compositions using diamond-trap experiments
  21. Lindbergite, a new Mn oxalate dihydrate from Boca Rica mine, Galiléia, Minas Gerais, Brazil, and other occurrences
  22. Pyrophyllite dehydroxylation process by First Principles calculations
  23. Plagioclase from planetary basalts: Chemical signatures that reflect planetary volatile budgets, oxygen fugacity, and styles of igneous differentiation
  24. The structure of the manganese oxide on the sheath of the bacterium Leptothrix discophora: An XAFS study
  25. An X-ray Rietveld study of piemontite on the join Ca2Al3Si3O12(OH)–Ca2Mn33+Si3O12(OH) formed by hydrothermal synthesis
  26. Raman spectroscopy of basic copper(II) and some complex copper(II) sulfate minerals: Implications for hydrogen bonding
  27. Incorporation of sodium into the chlorite structure: the crystal structure of glagolevite, Na(Mg,Al)6[Si3AlO10](OH,O)8
  28. Cation disorder in dolomite, CaMg(CO3)2, and its influence on the aragonite + magnesite ↔ dolomite reaction boundary
https://doi.org/10.2138/am-2004-0705

Articles in the same Issue

  1. Hydroxyl in omphacites and omphacitic clinopyroxenes of upper mantle to lower crustal origin beneath the Siberian platform
  2. Structural variations induced by difference of the inert pair effect in the stibnite-bismuthinite solid solution series (Sb,Bi)2S3
  3. Hydrogen solubility and speciation in natural, gem-quality chromian diopside
  4. Ultrastructure, aggregation-state, and crystal growth of biogenic nanocrystalline sphalerite and wurtzite
  5. Impactite from Henbury, Australia
  6. Neutron and synchrotron X-ray diffraction study of the structures and dehydration behaviors of ramsdellite and “groutellite”
  7. Hydrothermal synthesis and crystal chemistry of the new strontium uranyl selenites, Sr[(UO2)3(SeO3)2O2]⋅4H2O and Sr[UO2(SeO3)2]
  8. Study of cation order-disorder in MgAl2O4spinel by in situ neutron diffraction up to 1600 K and 3.2 GPa
  9. Magnetic granulometry from equilibrium magnetization measurements: Mineral magnetometry of superparamagnetic particles and application to synthetic ferrihydrites
  10. Hydroxide in kyanite: A quantitative determination of the absolute amount and calibration of the IR spectrum
  11. Analysis of uranyl-bearing phases by EXAFS spectroscopy: Interferences, multiple scattering, accuracy of structural parameters, and spectral differences
  12. X-ray diffraction evidence for a monoclinic form of stibnite, Sb2S3, below 290 K
  13. Sulfur species at chalcopyrite (CuFeS2) fracture surfaces
  14. Dehydration and rehydration process in boggsite: An in situ X-ray single-crystal study
  15. Empressite, AgTe, from the Empress-Josephine mine, Colorado, U.S.A.: Composition, physical properties, and determination of the crystal structure
  16. Correlation of pH-dependent surface interaction forces to amino acid adsorption: Implications for the origin of life
  17. A near-infrared spectroscopic study of hydroxyl in natural chondrodite
  18. High-pressure elasticity of a natural magnetite crystal
  19. Isotopic and chemical alteration of zircon by metamorphic fluids: U-Pb age depth-profiling of zircon crystals from Barrowʼs garnet zone, northeast Scotland
  20. A novel approach to determine high-pressure high-temperature fluid and melt compositions using diamond-trap experiments
  21. Lindbergite, a new Mn oxalate dihydrate from Boca Rica mine, Galiléia, Minas Gerais, Brazil, and other occurrences
  22. Pyrophyllite dehydroxylation process by First Principles calculations
  23. Plagioclase from planetary basalts: Chemical signatures that reflect planetary volatile budgets, oxygen fugacity, and styles of igneous differentiation
  24. The structure of the manganese oxide on the sheath of the bacterium Leptothrix discophora: An XAFS study
  25. An X-ray Rietveld study of piemontite on the join Ca2Al3Si3O12(OH)–Ca2Mn33+Si3O12(OH) formed by hydrothermal synthesis
  26. Raman spectroscopy of basic copper(II) and some complex copper(II) sulfate minerals: Implications for hydrogen bonding
  27. Incorporation of sodium into the chlorite structure: the crystal structure of glagolevite, Na(Mg,Al)6[Si3AlO10](OH,O)8
  28. Cation disorder in dolomite, CaMg(CO3)2, and its influence on the aragonite + magnesite ↔ dolomite reaction boundary
Sign up now to receive a 20% welcome discount
Institutional Access
How does access work?
Have an idea on how to improve our website?
Please write us.
© 2025 De Gruyter Brill
Downloaded on 18.9.2025 from https://www.degruyterbrill.com/document/doi/10.2138/am-2004-0705/html
Scroll to top button