Cr-Saturation Arrays in Concentrate Garnet Compositions from Kimberlite and their Use in Mantle Barometry

doi:10.1093/petrology/egi096

Journal of Petrology Advance Access published online on January 4, 2006
Journal of Petrology, doi:10.1093/petrology/egi096

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© The Author 2005. Published by Oxford University Press. All rights reserved. For Permissions, please e-mail: journals.permissions@oxfordjournals.org
Received December 6, 2004
Accepted November 30, 2005

Article

Cr-Saturation Arrays in Concentrate Garnet Compositions from Kimberlite and their Use in Mantle Barometry

HERMAN GRÜTTER ¹ ^*, DEWETIA LATTI ², and ANDREW MENZIES ³

¹ DE BEERS CONSOLIDATED MINES LTD., P.O. BOX 82232, SOUTHDALE, 2135 SOUTH AFRICA
² DE BEERS CONSOLIDATED MINES LTD., P.O. BOX 82232, SOUTHDALE, 2135 SOUTH AFRICA; Present address: Rio Tinto Research and Technology Development, 1 Research Avenue, Bundoora 3083, Australia
³ MINERAL SERVICES SOUTH AFRICA, P.O. BOX 38668, PINELANDS, 7430 SOUTH AFRICA

^* To whom correspondence should be addressed.
HERMAN GRÜTTER, E-mail: herman.grutter{at}bhpbilliton.com

Abstract

The spinel-garnet transition in Cr/Al-enriched peridotitic bulkcompositions is known from experimental investigations to occurat 20-70 kbar, within the pressure range sampled by kimberlites.We show that the Cr₂O₃-CaO compositions of concentrate garnetsfrom kimberlite have maximum Cr/Ca arrays characterized by Cr₂O₃/CaO $~$ 0·96-0·81, and interpret the arrays as primary evidenceof chromite-garnet coexistence in Cr-rich harzburgitic or lherzoliticbulk compositions derived from depth within the lithosphere.Under Cr-saturated conditions on a known geotherm, each Cr/Caarray implicitly delineates an isobar inside a garnet Cr₂O₃-CaOdiagram. This simplification invites a graphical approach tocalibrate an empirical Cr/Ca-in-pyrope barometer. Carbonaceouschromite-garnet harzburgite xenoliths from the Roberts Victorkimberlite tightly bracket a graphite-diamond constraint (GDC)located at Cr₂O₃ = 0·94CaO + 5·0 (wt %), representinga pivotal calibration corresponding to 43 kbar on a 38 mW/m²conductive geotherm. Additional calibration points are establishedat 14, 17·4 and 59·1 kbar by judiciously projectinggarnet compositions from simple-system experiments onto thesame geotherm. The garnet Cr/Ca barometer is then simply formulatedas follows (in wt %):

if Cr₂O₃ $≥$ 0·94CaO + 5, then P₃₈ (kbar)= 26·9 + 3·22Cr₂O₃ - 3·03CaO, or

if Cr₂O₃ <0·94CaO + 5, then P₃₈ (kbar) = 9·2 + 36[(Cr₂O₃ + 1·6)/(CaO+ 7·02)].

A small correction to P₃₈ values, applicablefor 35-48 mW/m² conductive geotherms, is derived empiricallyby requiring conventional thermobarometry results and garnetconcentrate compositions to be consistent with the presenceof diamonds in the Kyle Lake kimberlite and their absence inthe Zero kimberlite. We discuss application of the P₃₈ barometerto estimate (1) real pressures in the special case where chromite-garnetcoexistence is known, (2) minimum pressures in the general casewhere Cr saturation is unknown, and (3) the maximum depth ofdepleted lithospheres, particularly those underlying Archaeancratons. A comparison with the P_Cr barometer of Ryan et al.(1996, Journal of Geophysical Research 101, 5611-5625) showsagreement with P₃₈ at 55 ± 2 kbar, and 6-12% higher P_Crvalues at lower P₃₈. Because the P_Cr formulation systematicallyoverestimates the 43 kbar value of the GDC by 2-6 kbar, we concludethat the empirical Cr/Ca-in-garnet barometer is preferred forall situations where conductive geotherms intersect the graphite-diamondequilibrium.

Keywords: Cr-pyrope; chromite; P₃₈ barometer; mantle petrology; lithosphere thickness.

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