Some Phase Equilibrium Constraints on the Origin of Proterozoic (Massif) Anorthosites and Related Rocks

doi:10.1093/petroj/40.2.339

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Journal of Petrology | Volume 40 | Number 2 | Pages 339-362 | 1999
© Oxford University Press 1999

Some Phase Equilibrium Constraints on the Origin of Proterozoic (Massif) Anorthosites and Related Rocks

John Longhi¹^,*, Jacqueline Vander Auwera², Miranda S. Fram³ and Jean-Clair Duchesne²

¹ Lamont–Doherty Earth Observatory Rt. 9W, Palisades, Ny 10964, USA
² L.A. Géologie, Pétrologie, Géochimie, Université De Liège 4000 Liège, Belgium
³ Department of Geology, University of California Davis, Ca 95616, USA

Received May 20, 1997; Revised typescript accepted June 26, 1998

Abstract

Experimental data in the range of 1 bar to 13 kbar enable usto map the liquidus equilibria relevant to Proterozoic (massif)anorthosites and related mafic rocks. Massif anorthosites arewidely believed to have formed by accumulation of plagioclaseinto high-Al basaltic liquids. Mantle-derived basaltic liquids,fractionating at pressures sufficiently high (10–13 kbar)to crystallize the highly aluminous orthopyroxene megacryststypically observed in anorthosite massifs, reach plagioclasesaturation at low normative silica contents. Peritectic-likeequilibria (e.g. liq + opx $->$ plag + cpx + sp) and a thermal divideon the plagioclase + pyroxene liquidus surface ensure that mantle–derivedliquids become nepheline normative with further crystallizationand crustal assimilation at depth. Such liquids cannot producethe full range of troctolitic–noritic to troctolitic–gabbroicmineral assemblages observed in anorthosite massifs withoutextensive low–pressure granite assimilation. Conversely,the array of plausible anorthosite parental liquids not onlylies along the trace of the plagioclase + two-pyroxene cotecticfrom 10 to 13 kbar, but also straddles the thermal divide onthe plagioclase + pyroxene liquidus surface. This conditionrequires mafic source regions, such as lower continental crustor foundered mafic plutons, for liquids parental to massif anorthositesand associated mafic intrusions.

KEY WORDS: anorthosite; lower crust; megacryst; thermal divide; troctolite

^* Corresponding author.

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