Parameters for the formation of orogenic gold deposits

Gaboury, Damien

doi:10.1080/25726838.2019.1583310

Cited by 97 publications

(32 citation statements)

References 98 publications

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“…Отличает Оленинское месторождение от месторождений орогенического типа и состав рудообразующих флюидов. Согласно современным представлениям, в формировании орогенических месторождений золота определяющую роль играют растворы / флюиды метаморфогенного происхождения, эти флюиды характеризуются водно-углекислотным составом, близнейтральными значениями pH, низкой соленостью (Phillips, Powell, 2010;Gaboury, 2019;Zhu et al, 2011). Флюиды с указанными особенностями состава могут переносить золото в виде комплексов с HS -, такими как Au(HS) 0 и Au (HS)2 -, но они бедны цветными металлами и серебром.…”

Section: о генетическом типе оленинского месторожденияunclassified

“…Флюиды с указанными особенностями состава могут переносить золото в виде комплексов с HS -, такими как Au(HS) 0 и Au (HS)2 -, но они бедны цветными металлами и серебром. Поэтому под воздействием метаморфогенных флюидов формируются орогенические собственно золоторудные месторождения с низким содержанием минералов цветных металлов, типичная геохимическая ассоциация элементов в таких месторождениях включает Au, As, S, Sb, Te, W ± Ag, B, Bi, Co, Cu (Gaboury, 2019). Как показано выше в разделе 5.1, флюиды Оленинского месторождения характеризуются высокой и средней соленостью (до значений более 400 г/т) и высоким содержанием цветных металлов и серебра.…”

Section: о генетическом типе оленинского месторожденияunclassified

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Mineralogy and genesis of the Oleninskoe gold deposit (Kola Peninsula).

Kalinin¹,

Savchenko²,

Prokofiev³

2021

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Data on geology of the Oleninskoe deposit, and results of mineralogical and geochemical investigations of ores and altered rocks are presented. Mineralization is connected with granite porphyry sills, an end member of gabbrodiorite-diorite-granodiorite complex of minor intrusions. The main alteration processes are diopsidization and biotitization, formation of quartz-muscovite-albite, quartz-aresenopyrite-tourmaline, and quartz metasomatic rocks. More than 50 ore minerals (sulfides, sulfosalts, tellurides, and native metals) were identified in the ore, including 20 minerals of silver and gold. Mineral associations in the ore and sequence of mineral formation are defined. Five generations of gold-silver alloys are identified, its composition covers spectrum from native silver to high-grade gold. Mineralized fluids in the deposit are of high salinity (sodium and calcium chlorides), and rich in As, Sb, Pb, Cu, Zn, and Ag. The Oleninskoe deposit is classified as an epithermal metamorphosed gold deposit.The book is of interest for specialists in economic geology, mineralogy and geochemistry of ore deposits.

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Section: о генетическом типе оленинского месторожденияunclassified

Mineralogy and genesis of the Oleninskoe gold deposit (Kola Peninsula).

Kalinin¹,

Savchenko²,

Prokofiev³

2021

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“…The mineral systems approach [48][49][50][51][52][53][54] can be employed to better understand hydrothermal alteration subsystem that is related to orogenic gold mineralization in the study area. Under dehydration and devolatilization metamorphic conditions, the presence of iron-rich mineral assemblage (pyrite, chalcopyrite, covellite, chalcocite, molybdenite, galena) and metapelitic minerals (chlorite, sericite, quartz, epidote, albite and calcite) present in phyllites and greenschists in the study area promoted the formation of metamorphic fluids and gold ligand (HS − ) [15,30,38,44,45,47,[55][56][57][58]. Due to melt/magma mixing, crystal segregation, adsorption, phase immiscibility and sulfur globulization during granitoid emplacement, the mixing of the oxidized magmatic fluids with the metamorphic fluids and gold ligands (HS − ) resulted to an increment in oxygen fugacity, thereby promoting the precipitation of orogenic gold minerals [15,30,40,47,52,53].…”

Section: Formation Mechanisms Of Hydrothermal Alteration Subsystemmentioning

confidence: 99%

“…Under dehydration and devolatilization metamorphic conditions, the presence of iron-rich mineral assemblage (pyrite, chalcopyrite, covellite, chalcocite, molybdenite, galena) and metapelitic minerals (chlorite, sericite, quartz, epidote, albite and calcite) present in phyllites and greenschists in the study area promoted the formation of metamorphic fluids and gold ligand (HS − ) [15,30,38,44,45,47,[55][56][57][58]. Due to melt/magma mixing, crystal segregation, adsorption, phase immiscibility and sulfur globulization during granitoid emplacement, the mixing of the oxidized magmatic fluids with the metamorphic fluids and gold ligands (HS − ) resulted to an increment in oxygen fugacity, thereby promoting the precipitation of orogenic gold minerals [15,30,40,47,52,53]. Geologic structures such as faults, shear zones, fractures, and lithological contacts (where rheological contrast is significant) constitute migration pathways for the deepseated hydrothermal fluids comprising of gold thiosulfate complex [Au(S 2 O 3 ) 2 ] 3− to precipitate and localize gold minerals at higher crustal [30,53].…”

Section: Formation Mechanisms Of Hydrothermal Alteration Subsystemmentioning

confidence: 99%

“…Even though geologic structures are critical to orogenic gold mineralization in the Kushaka schist belt and in other orogens in the world, it is not all geologic structures that exist in a geologically permissive field that are mineralized [15]. The manifestation of hydrothermal alteration haloes in a genetically endowed setting like the study area is an indication that auriferous mineralizing fluid has traversed through the geologic structures and deposited gold minerals [11,16].…”

Section: Introductionmentioning

confidence: 99%

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Structural and hydrothermal alteration mapping related to orogenic gold mineralization in part of Kushaka schist belt, North-central Nigeria, using airborne magnetic and gamma-ray spectrometry data

Sanusi

Amigun

2020

SN Appl. Sci.

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This paper presents an interpretation of airborne magnetic and gamma-ray spectrometry data over a part of the Kushaka schist belt of Nigeria with a view to assess the sub-surface structural framework and hydrothermal alteration haloes that are related to orogenic gold mineralization in the study area. The geophysical analyses performed to improve the quality of the aeromagnetic data for better understanding of the subsurface geology were reduction to the equator, upward continuation, total horizontal derivative, analytical signal, source edge detection, tilt-angle derivative of total horizontal derivative. The analyses performed on the airborne gamma-ray spectrometry data were made on K/eTh, F parameter and deviation of ideal K values (Kd). Deep-seated, brittle-ductile shear/fracture zones with characteristic depth of 428.0-607.6 m and area extent of 15.5 km by 6.5 km that were delineated in the area coincide with beehive of artisanal miners exploiting gold deposits. In this study, subsurface geologic structures, specifically dykes/faults, that trend in the ENE-WSW direction constitute a first-order control on orogenic gold mineralization in the study area. The hydrothermally altered zones mapped in the area indicated they are structurally controlled and closely associated with orogenic gold mineralization. Apart from geologic structural evidences that are controlling orogenic gold mineralization, this study has indicated that hydrothermal alteration mapping is equally important for a promising orogenic gold mineralization mapping.

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Petrogenetic and geochemical characteristics of some auriferous granitoids in the Kumasi Basin, Ghana: Implications for geodynamic settings and controls of orogenic gold mineralization in the Edikan Gold Mine

Sunkari,

Oppong,

Agbenyezi

2024

Deep Underground Science and Engineering

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The Edikan Mine, which consists of Fobinso and Esuajah gold deposits, lies within the Asankrangwa Gold Belt of the Birimian Supergroup in the Kumasi Basin. The metasedimentary rocks in the Basins and the faulted metavolcanic rocks in the Belts that make up the Birimian Supergroup were intruded by granitoids during the Eburnean Orogeny. This research aims to classify granitoids in the Edikan Mine and ascertain the petrogenetic and geochemical characteristics of some auriferous granitoids in the wider Kumasi Basin, Ghana, to understand the implications for geodynamic settings. A multi‐methods approach involving field studies, petrographic studies, and whole‐rock geochemical analysis was used to achieve the goal of the study. Petrographic studies revealed a relatively high abundance of plagioclase and a low percentage of K‐feldspars (anorthoclase and orthoclase) in the Fobinso samples, suggesting that the samples are granodioritic in nature, while the Esuajah samples showed relatively low plagioclase abundance and a high percentage in K‐feldspars, indicating that they are granitic. The granitoids from the study areas are co‐magmatic. The granitoids in Esuajah and Fobinso are generally enriched in large ion lithophile elements and light rare earth elements than high field strength elements, middle rare earth elements, and heavy rare earth elements, indicating mixing with crustal sources during the evolution of the granitoids. The granitoids were tectonically formed in a syn‐collisional+VAG setting, which implies that they were formed in the subduction zone setting. Fobinso granodiorites showed S‐type signatures with evidence of extensive crustal contamination, while the Esuajah granites showed I‐type signatures with little or no crustal contamination and are peraluminous. Gold mineralization in the study area is structurally and lithologically controlled with shear zones, faulting, and veining as the principal structures controlling the mineralization. The late‐stage vein, V3, in the Edikan Mine is characterized by a low vein angle and is mineralized.

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Parameters for the formation of orogenic gold deposits

Cited by 97 publications

References 98 publications

Mineralogy and genesis of the Oleninskoe gold deposit (Kola Peninsula).

Mineralogy and genesis of the Oleninskoe gold deposit (Kola Peninsula).

Structural and hydrothermal alteration mapping related to orogenic gold mineralization in part of Kushaka schist belt, North-central Nigeria, using airborne magnetic and gamma-ray spectrometry data

Petrogenetic and geochemical characteristics of some auriferous granitoids in the Kumasi Basin, Ghana: Implications for geodynamic settings and controls of orogenic gold mineralization in the Edikan Gold Mine

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