Granulite facies metamorphism and metasomatism in the gabbro-anorthosites of the Kolvitsa massif,Kola Peninsula

The investigation of the Kolvitsa gabbro-anorthosite massif showed that its melanocratic layers conformable with metamorphic banding are mafic differentiates transformed into eclogite-like rocks during prograde metamorphism. During the peak and retrograde stage of the Svecofennian metamorphism in the White Sea region at t = 910–750°C and P = 14-7 kbar, the infiltration of Fe-, CO₂-, Si-, and Na-bearing fluids with X_{H2 O} < 0.4X_{H_2 O} < 0.4 resulted in metasomatic alterations of the melanocratic gabbro-anorthosite interlayers, dissolution of a number of elements, and their reprecipitation with the formation of cross-cutting zoned metasomatic veins with abundant magnetite and ilmenite. The high content of hematite in the ilmenite suggests that the veins were formed at an increase in oxygen fugacity from logf_O2 = - 14.5log f_{O_2 } = - 14.5 to logf_O2 = - 11log f_{O_2 } = - 11, which caused the Fe²⁺ → Fe³⁺ transition and iron precipitation. The increase in at the conditions corresponding to the metamorphic peak was probably related to the neutralization of solutions during their infiltration through the gabbro-anorthosites. The reprecipitation of components and the formation of cross-cutting veins occurred owing to interaction between the melanocratic layers in the gabbro-anorthosites and a fluid phase and, contrary to previous models, did not involve the fluid transport of components from the zones of charnockite formation and granitization located far away from the sites of reprecipitation. This is demonstrated by the similarity of mineral compositions and major component contents in the melanocratic gabbro-anorthosite layers and cross-cutting metasomatic veins and regular distribution of trace elements.