Migmatized gneisses of the Chupa paragneiss Formation in the Belomorian Mobile Belt (BMB) of the Fennoscandian Shield have been studied, and the conditions of partial melting during high-grade metamorphism of the rocks were determined. The melting temperatures and pressures, the amount and composition of the melt formed during the anatexis of gneisses in a closed system, were assessed through direct thermodynamic computer modeling of mineral formation and the construction of pseudosections in pressure-temperature coordinates. The mineral formation calculations are based on the principle of Gibbs energy minimization and were performed using the PERPLE_X software package. The bulk compositions of the migmatized rocks from the Chupa Formation, previously classified and grouped based on their major components, were used for the calculations. It is shown that water-saturated partial melting of compositionally diverse gneisses produces granitic or granodiorite-tonalitic melts within a temperature range of 680-730 °C at moderate to moderately high pressures. The study reveals that the key factor controlling the appearance of kyanite in the investigated rocks is a high Al₂O₃/CaO ratio (at least 5:1) in the protolith, combined with a total alkali content (Na₂O + K₂O) exceeding CaO. According the Chemical Index of Alteration (CIA), the protoliths of the gneisses contained detrital material of varying sedimentary maturity. The source rocks were likely weakly to moderately weathered. U-Pb ID-TIMS dating of monazite from two samples of garnet-kyanite-biotite migmatite (whole-rock analysis) indicates Paleoproterozoic migmatization of the Chupa gneisses at 1854 ± 5 Ma. This phase of Paleoproterozoic endogenic activity is widely recorded in the BMB and may be associated with the formation of the Lapland-Kola or Svecofennian orogens, located to the northeast and southwest of the belt, respectively.

The petrogenesis and evolution of metamorphic rocks of the volcano-plutonic units of the Kaskama block of the Inari Terrane in northwestern Russia were studied. A petrographic and mineral study and modeling of igneous and metamorphic mineral formation were performed. PT-conditions of rocks, along with previously known data, including geochronological ones, do not allow us to correlate the studied units with rocks of the Belomorian complex, as previously thought. Modeling of igneous and metamorphic mineral shows good convergence with the fields of stability of mineral parageneses and quantitive ratio of minerals with those observed in the real samples. The early mineral parageneses of the magmatic stage corresponds to the crystallization of rock-forming and accessory minerals from the komatiite melt, and mineral parageneses of progressive and regressive metamorphism stages are superimposed on them. Relic igneous minerals (olivine, clinopyroxene, orthopyroxene, magnetite-spinel) in metaperidotites make it possible to estimate their liquidus temperatures in the range of 1,480-950 °С. The progressive stage of metamorphism is characterized by the development of mineral parageneses: garnet + amphibole + plagioclase + quartz ± biotite, amphibole + plagioclase + quartz. The late low-temperature regressive stage of metamorphism is characterized by the development of epidote-, zoisite-, actinolite-containing associations and a number of other low-temperature minerals. Peak parameters of progressive metamorphism are estimated as Т = 600-700 °С, Р = 5-9 kbar and for the regressive stage as Т = 400-500 °С, Р = 3-5 kbar. The identified thermodynamic conditions for the Kaskama block should be considered when determining whether the studied volcano-plutonic and metasedimentary units belong to the Paleoproterozoic terranes of the Kola-Norwegian Region of the Fennoscandian Shield.