Formation Stages and Conditions of Carbonate–Silicate Veins and Their Wall-Rock Aureoles in the Early Proterozoic Complexes of the Belomorian Mobile Belt, Northern Karelia

Formation Stages and Conditions of Carbonate–Silicate Veins and Their Wall-Rock Aureoles in the Early Proterozoic Complexes of the Belomorian Mobile Belt, Northern Karelia

Archean gneisses cropping out on islands in the White Sea and its coast in northern Karelia host widespread bodies of Early Proterozoic metamorphosed gabbroids. Carbonate–silicate veins hosted in these metabasite bodies and constrained to their contacts with the gneisses contain Fe–Cu sulfides, whos...

Full description

Saved in:
Bibliographic Details
Published in:Petrology Vol. 31; no. 5; pp. 538 - 557
Main Authors: Volkov, I. S., Kozlovskii, V. M.
Format: Journal Article
Language:English
Published: Moscow Pleiades Publishing 01-10-2023
Springer Nature B.V
Subjects:
Amphibolites
Biotite
Calcite
Carbonates
Chlorite
Copper
Dolomite
Dolostone
Earth and Environmental Science
Earth Sciences
Fluids
Gangue
Geochemistry
High temperature
Mineralogy
Plagioclase
Precambrian
Quartz
Rock
Rocks
Silicates
Sulfides
Sulphides
Temperature
Thermometers
Veins (geology)
amphibolite aureoles
dolomite–ankerite
metabasites
carbonate–silicate veins
chlorite
calcite
Belomorian mobile belt
Online Access:Get full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:Archean gneisses cropping out on islands in the White Sea and its coast in northern Karelia host widespread bodies of Early Proterozoic metamorphosed gabbroids. Carbonate–silicate veins hosted in these metabasite bodies and constrained to their contacts with the gneisses contain Fe–Cu sulfides, whose concentrations occasionally reach economic levels. The dominant gangue minerals are plagioclase, quartz, carbonates, and chlorite. The formation stages of the veins correspond to the transition from the early quartz–plagioclase to late quartz–carbonate associations with chlorite and sulfides. The early (high-temperature) stage is discernible in the wall-rock amphibolite aureoles, which were formed at temperature of about 550–650°C (estimates by the TWQ method). This stage corresponds to the quartz–plagioclase association in the marginal zones of the veins. The transition to the late stage and the formation of veined quartz–carbonate (±biotite) associations occurred at temperatures of 540°C and lower, judging by the calcite–dolomite associations. The further development of the quartz–chlorite–carbonate and sulfide associations in the veins and wall-rock amphibolites corresponded to a temperature decrease to 350°C and below, as evaluated with the application of chlorite thermometers. The veins and wall-rock amphibolitization may have been induced by metamorphic fluids during the latest retrograde metamorphic stage in the Early Proterozoic.
ISSN:0869-5911
1556-2085
DOI:10.1134/S0869591123050077