Irreversible Reactions in High-Grade Metapelitic Rocks

doi:10.1093/petrology/17.4.559

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Journal of Petrology | Volume 17 | Number 4 | Pages 559-588 | 1976
© Oxford University Press 1976

research-article

Irreversible Reactions in High-Grade Metapelitic Rocks

TIMOTHY P. LOOMIS^*

Department of Geology, University of California 405 Hilgard Avenue, Los Angeles, California 90024

Received October 8, 1974; Revised December 22, 1975; ABSTRACT

At least two discontinuous reactions and additional divariant(continuous) compositional shifts were overstepped in peliticrocks of the inner aureole around the Ronda peridotite massif,southern Spain, probably as a result of upward drag and rapiddecrease of P_t during high-grade metamorphism. The resultingreactions were garnet or biotite+A1-silicate ${uparrow}$ cor-dierite+hercynite±excesscomponent phases present throughout reaction (quartz, K-feld-spar,ilmenite, plagioclase). Both reactant and product phases arepreserved. The extent of reaction, estimated from the amountof cordierite and hercynite produced by reaction, can vary markedlywithin a single thin section. Coexisting phases were analysedin twelve domains representing varying degrees of reaction inone thin section. A domain, the unit of comparison, was takenas the smallest volume that contained the major reacting phases.Compositions of products in a thin section vary little fromdomain to domain and probably can be considered a function onlyof the intensive variables (P, T, µH₂o); product phasesappear to approach equilibrium as determined by partitioningof major elements. However, reactant compositions are a functionof extent of reaction and are not generally in equilibrium withthe products. Thus, the reactions are irreversible.

The original assemblage before reaction (quartz-K-feldspar-sillimaniteand kyanite-garnet-biotite) is preserved within unzoned coresof garnet grains. As the extent of reaction increases, Mg/Feof biotite in the matrix migrates from the initial value towarda more Fe-rich composition.

The analytical data are used to reject the local equilibriumor domain equilibrium model of reaction on the scale of a domain.Product compositions do not vary as expected in this model asa function of extent of reaction, variable reactant composition,or distance from non-equilibrium reactants. The reactant grainsmust be chemically isolated from the equilibrium matrix productsand fluid in partial equilibrium; this model is distinguishedas the 'dissolution model'. Diffusion gradients still can bepresent in this model and are responsible for the distributionof product phases; however, the reaction rate is not diffusion-controlled.Reaction rate can be limited by interface reactions or by diffusionwithin crystals.

Two models of reaction are examined assuming that reaction rateis controlled by reactant dissolution. The first model of irreversiblereaction examined, assuming the reacting composition to be thatfor which the decrease of free energy of reaction is greatest,does not satisfactorily explain the data. A second, descriptivemodel is proposed in which the overall irreversible reactionis divided into component reactions and the rate of these reactionsis assumed to be a monotonic function of free energy changeor growth rate of product phases. The model can be shown qualitativelyto explain observed garnet zoning and changing biotite compositionduring reaction.

Because reactant phases and compositions of the primary assemblageare preserved along with the equilibrium product phases in thesesamples, more information is available from these ‘disequilibrium’rocks than from samples that have completely equilibrated. Thevariability of extent of reaction in these samples emphasizesthat contact of phases in a sample is not evidence of mutualcompatibility.

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