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Gehlenite
General
CategorySorosilicates
Formula
(repeating unit)
Ca2Al[AlSiO7]
IMA symbolGh[1]
Strunz classification9.BB.10
Crystal systemTetragonal
Crystal classScalenohedral (42m)
H-M symbol: (4 2m)
Space groupP421m
Identification
Colouryellow-brown, green-grey, colourless
CleavageDistinct/good
Mohs scale hardness5–6
Lustrevitreous, greasy
Streakwhite, grey-white
Birefringenceδ = 0.010

Gehlenite, (Ca2Al[AlSiO7]), is a sorosilicate, Al-rich endmember of the melilite complete solid solution series with akermanite.[2][3] The type locality is in the Monzoni Mountains, Fassa Valley in Trentino in Italy,[3] and is named after Adolf Ferdinand Gehlen (1775–1815) by A.J. Fuchs in 1815.[4]

Geological occurrence

Gehlenite is found in carbonaceous chondrites from which it condensed as a refractory mineral in the hotter stages (FU Ori) of the presolar nebula,[5] and was subsequently consumed in processes which created enstatite and other more abundant minerals making it a remnant mineral from the early solar nebula (along with corundum and spinel). Its occurrence in the early condensation phase of the solar nebula was predicted by Harry Lord in the 1950s, but studies of carbonaceous chondrites did not support this claim until the Allende meteorite was discovered in 1969.[6] It is also found in diorite intruded carbonate rocks,[7] and to a far lesser extent in uncompahgrites,[8] melilitites,[8] alnoites,[9] lamprophyres and possibly kimberlite pipes.[10]

Gehlenite has also been found on the comet 81P/Wild.[11]

Crystallography, composition and physical properties

Gehlenite is one of five, isostructural tetragonal crystal system minerals in the melilite group. The tetrahedral linkage within the structure is similar to that of an aluminosilicate framework structure[12] and was once considered a feldspathoid-like mineral[13] due to silica undersaturation.

Gehlenite has a Mohs hardness of 5–6, a vitreous to greasy lustre, distinct to good cleavage and is yellow brown, greenish grey or colourless. Its streak is white or grey-white.[3] It is uniaxial (−), has an anomalous nonzero 2V angle and has a characteristic 'ultrablue' birefringence.[12]

References

  1. ^ Warr, L.N. (2021). "IMA–CNMNC approved mineral symbols". Mineralogical Magazine. 85 (3): 291–320. Bibcode:2021MinM...85..291W. doi:10.1180/mgm.2021.43. S2CID 235729616.
  2. ^ Deer et al., 1993
  3. ^ a b c Gehlenite: Gehlenite mineral information and data
  4. ^ Dana et al. 1997
  5. ^ Grossman L (1972) Condensation in the primitive solar nebula, Geochemica et Cosmochemica Acta, 36, 597–619
  6. ^ Exploring the Planets lecture by Archibald Reid. The University of Houston
  7. ^ Carmichael ISE, Turner FJ, Verhoogen J (1974) Igneous Petrology, 37
  8. ^ a b Le Maitre RW (2002), Igneous Rocks, 11, 153
  9. ^ Nixon PH (1987) Mantle Xenoliths, 102–103, 336, 450–451
  10. ^ Skinner EMW, Mahotkin IL, Grutter HS (1999) Melilite in Kimberlites, Proceedings of the International Kimberlite Conference, 7, 788–794
  11. ^ Mindat page for Comet Wild 2 (Comet 81P)
  12. ^ a b Louisnathan S (1969), Refinement of the crystal structure of gehlenite, Canadian Mineralogist, 10, 822–837
  13. ^ Best MG (2003), Igneous and Metamorphic Petrology (2nd Ed), 398, 693, 702–703