Evolution of mafic rock-types of the Kolvitsa Complex, Kola Peninsula (Russia) : Implications for the metamorphic evolution of the Kolvitsa Belt and characterisation of related fluid-rock interactions

Within the Lapland-Kola Orogen, situated in the north-eastern Baltic Shield, the Kolvitsa-Umba Belt forms part of a major suture zone. Remnants of this important Svecofennian collision zone separating the Late Archaean Belomorian terrane from crustal plates of the Central Kola terrane are exposed al...

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Bibliographic Details
Main Author: Ecke, Nicol Susann
Other Authors: Raith, Michael M., Braun, Ingo
Format: Doctoral or Postdoctoral Thesis
Language:English
Published: Universitäts- und Landesbibliothek Bonn 2005
Subjects:
Kola Peninsula
Kolvitsa-Umba Belt
mafic granulites
pressure-temperature estimates
fluid-rock interaction
fluid flow
element transfer
Palaeoproterozoic
ddc:550
Kolvitsa
White Sea
kola peninsula
Lapland
Online Access:https://hdl.handle.net/20.500.11811/2137
Description
Summary:Within the Lapland-Kola Orogen, situated in the north-eastern Baltic Shield, the Kolvitsa-Umba Belt forms part of a major suture zone. Remnants of this important Svecofennian collision zone separating the Late Archaean Belomorian terrane from crustal plates of the Central Kola terrane are exposed along the north-eastern coast of the White Sea. The first part of this study details the mineral chemistry, petrology and textural relationships of mafic granulites and zones of amphibolitisation from the magmatic Kolvitsa Complex in order to provide an insight into their metamorphic evolution. At the south-eastern boundary of the Kolvitsa Complex, P-T estimates of the high-grade granulite-facies shear deformation c. 1.91 Ga ago, yielded 900 to 1050 o C, at pressures of 12 to 15 kbar. In the central part of the Kolvitsa Massif temperatures did not exceed 800 o C, while prevailing pressures were rather high (10 to 12.5 kbar). The retrograde P-T trajectory documents tectonic exhumation and was deduced from decompressional reaction textures in sheared metagabbros and from mineral assemblages in zones of amphibolitisation. The latter characterise the temperature conditions that prevailed during fluid infiltration and retrogression (680-750 o C) c. 1896 to 1898 Ma ago (U-Pb titanite ages). Deduced integrated cooling and exhumation rates vary from 10 to 20 o C/Ma and from 0.7 to 2 mm/a, respectively and are consistent with what is known from modern orogenic belts. The second part of the thesis focuses on the systematics of fluid-rock interaction and the mechanisms of fluid flow systems at middle to deep crustal levels. Retrograde zones of amphibolitisation are direct evidence of fluid infiltration and provide important clues to the understanding of processes in deep-crustal metamorphic flow systems, such as textural re-equilibration, re-crystallisation, element and mass transfer and help to identify the driving forces of fluid flux. Infiltration of hydrous fluids caused dramatic changes in mineralogy of the mafic host ...

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