Nineteen chromite crystals from the A, B, E, G, H, J and K chromitite layers of the Peridotite Zone of the Stillwater Complex (Montana, USA) have been studied by means of X-ray single crystal diffraction and microprobe analyses. The results show that samples from the basal A layer are quite different from the others showing very high oxygen positional parameter u (0.2633-0.2635) and Ti- contents (0.059-0.067 apfu). Mg# [(Mg/(Mg+Fe2+)]values are within the range 0.21-0.23 while for the other chromites it is in the range 0.45-0.57. Moreover, according to their structural parameters, samples from the other layers have been distinguished into two groups comprising, respectively, those from B, E, G, and those from H, J, K. It is supposed that high Fe2+ and Ti contents of A layer samples are due to the post-crystallization reaction with interstitial liquid. This fact allowed a very slow cooling rate as evidenced by the high u values. The fractionation of evolved magma from within the intrusion and pulse of a new magma bringing more chromium into the chamber lead to Cr- and Fe3+ -rich compositions and consequently to the increase of the cell edges. The decrease of u values seems to be related to the Cr+Fe3+ and/or Al contents.

The Stillwater Complex chromitites: The response of chromite crystal chemistry to magma injection

LENAZ, DAVIDE;PRINCIVALLE, FRANCESCO
2012-01-01

Abstract

Nineteen chromite crystals from the A, B, E, G, H, J and K chromitite layers of the Peridotite Zone of the Stillwater Complex (Montana, USA) have been studied by means of X-ray single crystal diffraction and microprobe analyses. The results show that samples from the basal A layer are quite different from the others showing very high oxygen positional parameter u (0.2633-0.2635) and Ti- contents (0.059-0.067 apfu). Mg# [(Mg/(Mg+Fe2+)]values are within the range 0.21-0.23 while for the other chromites it is in the range 0.45-0.57. Moreover, according to their structural parameters, samples from the other layers have been distinguished into two groups comprising, respectively, those from B, E, G, and those from H, J, K. It is supposed that high Fe2+ and Ti contents of A layer samples are due to the post-crystallization reaction with interstitial liquid. This fact allowed a very slow cooling rate as evidenced by the high u values. The fractionation of evolved magma from within the intrusion and pulse of a new magma bringing more chromium into the chamber lead to Cr- and Fe3+ -rich compositions and consequently to the increase of the cell edges. The decrease of u values seems to be related to the Cr+Fe3+ and/or Al contents.
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11368/2308234
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