Результаты исследований: Научные публикации в периодических изданиях › статья › Рецензирование
Physicochemical model of formation of gold-bearing magnetite-chlorite-carbonate rocks at the Karabash ultramafic massif (Southern urals, Russia). / Murzin, Valery; Chudnenko, Konstantin; Palyanova, Galina и др.
в: Minerals, Том 8, № 7, 306, 20.07.2018.Результаты исследований: Научные публикации в периодических изданиях › статья › Рецензирование
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TY - JOUR
T1 - Physicochemical model of formation of gold-bearing magnetite-chlorite-carbonate rocks at the Karabash ultramafic massif (Southern urals, Russia)
AU - Murzin, Valery
AU - Chudnenko, Konstantin
AU - Palyanova, Galina
AU - Kissin, Aleksandr
AU - Varlamov, Dmitry
PY - 2018/7/20
Y1 - 2018/7/20
N2 - We present a physicochemical model for the formation of magnetite-chlorite-carbonate rocks with copper gold in the Karabash ultramafic massif in the Southern Urals, Russia. The model was constructed based on the formation geotectonics of the Karabash massif, features of spatial distribution of metasomatically altered rocks in their central part, geochemical characteristics and mineral composition of altered ultramafic rocks, data on the pressure and temperature conditions of formation, and composition of the ore-forming fluids. Magnetite-chlorite-carbonate rocks were formed by the hydrothermal filling of the free space, whereas chloritolites were formed by the metasomatism of the serpentinites. As the source of the petrogenic and ore components, we considered rocks (serpentinites, gabbro, and limestones), deep magmatogenic fluids, probably mixed with metamorphogenic fluids released during dehydration and deserpentinization of rocks in the lower crust, and meteoric waters. The model supports the involvement of sodium chloride-carbon dioxide fluids extracting ore components (Au, Ag, and Cu) from deep-seated rocks and characterized by the ratio of ore elements corresponding to Clarke values in ultramafic rocks. The model calculations show that copper gold can also be deposited during serpentinization of deep-seated olivine-rich rocks and ore fluids raised by the tectonic flow to a higher hypsometric level. The results of our research allow predicting copper gold-rich ore occurrences in ultramafic massifs.
AB - We present a physicochemical model for the formation of magnetite-chlorite-carbonate rocks with copper gold in the Karabash ultramafic massif in the Southern Urals, Russia. The model was constructed based on the formation geotectonics of the Karabash massif, features of spatial distribution of metasomatically altered rocks in their central part, geochemical characteristics and mineral composition of altered ultramafic rocks, data on the pressure and temperature conditions of formation, and composition of the ore-forming fluids. Magnetite-chlorite-carbonate rocks were formed by the hydrothermal filling of the free space, whereas chloritolites were formed by the metasomatism of the serpentinites. As the source of the petrogenic and ore components, we considered rocks (serpentinites, gabbro, and limestones), deep magmatogenic fluids, probably mixed with metamorphogenic fluids released during dehydration and deserpentinization of rocks in the lower crust, and meteoric waters. The model supports the involvement of sodium chloride-carbon dioxide fluids extracting ore components (Au, Ag, and Cu) from deep-seated rocks and characterized by the ratio of ore elements corresponding to Clarke values in ultramafic rocks. The model calculations show that copper gold can also be deposited during serpentinization of deep-seated olivine-rich rocks and ore fluids raised by the tectonic flow to a higher hypsometric level. The results of our research allow predicting copper gold-rich ore occurrences in ultramafic massifs.
KW - Au-Cu mineralization
KW - Chloritolites
KW - Copper gold
KW - Karabash ultramafic massif
KW - Magnetite-chlorite-carbonate rocks
KW - Thermodynamic modeling
KW - thermodynamic modeling
KW - HG SOLID-SOLUTIONS
KW - copper gold
KW - TRANSPORT
KW - chloritolites
KW - DEPOSITS
KW - magnetite-chlorite-carbonate rocks
KW - ASSOCIATION
UR - http://www.scopus.com/inward/record.url?scp=85050687982&partnerID=8YFLogxK
U2 - 10.3390/min8070306
DO - 10.3390/min8070306
M3 - Article
AN - SCOPUS:85050687982
VL - 8
JO - Minerals
JF - Minerals
SN - 2075-163X
IS - 7
M1 - 306
ER -
ID: 15965514