Invisible Gold Paragenesis and Geochemistry in Pyrite from Orogenic and Sediment-Hosted Gold Deposits

Large, Ross R.; Масленников, В. В.

doi:10.3390/min10040339

Cited by 58 publications

(38 citation statements)

References 49 publications

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“…The gold content of the pyrite (0.01-1.54 wt%) and hematite (0.07 wt%) ranges from 0.01 to 1.54 wt% (Table 3). These properties are similar to the general characteristics of invisible gold from Carlin-type gold deposits ( [31,32] and references therein). The second type of gold is distributed within pyrite and hematite (after pyrite).…”

Section: Occurrence Of Gold In Yemi Brecciasupporting

confidence: 79%

“…In the Yemi breccia, invisible gold was discovered (Figure 7). This phenomenon is reported in hydrothermal Carlin-type gold deposits [31][32][33][34]53,54]. In particular, gold within pyrite and hematite (after pyrite) and isolated gold particles ( Figure 7) have been reported in the Shuiyindong deposit [33,34], which is a Carlin-type hydrothermal gold deposit.…”

Section: Discussionsupporting

confidence: 55%

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Genesis of Carbonate Breccia Containing Invisible Gold in Taebaeksan Basin, South Korea

Park

Lee

2020

Minerals

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The Yemi breccia developed and is distributed within the Paleozoic carbonate rock (Maggol Formation) in the central part of the Taebaeksan Basin, South Korea. Explanation for the genesis of the Yemi breccia has been controversial. We investigated the petrological and mineralogical properties of the breccia and the matrix materials at 60 outcrops. The Yemi breccia is divided into crackle, mosaic, and chaotic breccias based on morphology. In addition, these are divided into blackish, reddish, grayish, and white to pinkish matrix breccias according to the materials of the matrix. Quartz, calcite, pyrite, hematite (after pyrite), and minor epidote, chlorite, and opaque materials mainly comprise the matrix materials. The pyrite grains from the Yemi breccia can be divided into two types based on the mineral texture: diagenetic and hydrothermal. We analyzed the chemistry of pyrite and hematite (after pyrite) from the Yemi breccia with an electron probe X-ray microanalyzer (EPMA). Invisible gold was detected within the pyrite grains by EPMA and disseminated micron-sized isolated gold particles were discovered by backscattered electron (BSE) images. The texture of Au-bearing pyrite and gold particles in the Yemi breccia is especially well matched with pyrite and gold from the Shuiyindong Carlin-type hydrothermal gold deposits, China. Therefore, we suggest an important role of hydrothermal fluid in karstification within the Paleozoic carbonate rock.

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Section: Occurrence Of Gold In Yemi Brecciasupporting

confidence: 79%

Section: Discussionsupporting

confidence: 55%

Genesis of Carbonate Breccia Containing Invisible Gold in Taebaeksan Basin, South Korea

Park

Lee

2020

Minerals

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“…Numerous studies show the presence of gold of three varieties: invisible in pyrite or arsenopyrite, native gold and gold tellurides. With the advent in recent decades of the highly sensitive inductively coupled plasma mass spectrometry (LA-ICP-MS) method and, especially, the local version of this method with laser ablation of the substance directly from the sample, it became possible to determine gold and other trace elements in pyrite [45][46][47][48][49].…”

Section: Discussionmentioning

confidence: 99%

Types of Tellurium Mineralization of Gold Deposits of the Aldan Shield (Southern Yakutia, Russia)

2021

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The published and original data on the tellurium mineralization of gold ore deposits of the Aldan Shield are systematized and generalized. The gold content is related to hydrothermal-metasomatic processes caused by Mesozoic igneous activity of the region. The formation of tellurides occurred at the very late stages of the generation of gold mineralization of all existing types of metasomatic formations. 29 tellurium minerals, including 16 tellurides, 5 sulfotellurides and 8 tellurates have been identified. Tellurium minerals of two systems predominate: Au-Bi-Te and Au-Ag-Te. Gold is not only in an invisible state in sulfides and in the form of native gold of different fineness, but also is part of a variety of compounds: montbrayite, calaverite, sylvanite, krennerite and petzite. In the gold deposits of the Aldan Shield, three mineral types are distinguished: Au-Ag-Te, Au-Bi-Te, and also a mixed one, which combines the mineralization of both systems. The decrease in the fineness of native gold is consistent with the sequence and temperatures of the formation of Te minerals and associated mineral paragenesis from the epithermal–mesothermal Au-Bi-Te to epithermal Au-Ag-Te. The conducted studies allowed us to determine a wide variety of mineral species and significantly expand the area of distribution of Au-Te mineralization that indicates its large-scale regional occurrence in the Aldan Shield.

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“…In our review paper [1], we attempted to determine the timing and chemical association of Au relative to the growth of pyrite aggregates from successive orogenic fluid events through a combination of textural studies of pyrite, with LA-ICPMS mapping and spot analyses of eleven orogenic deposits. A spectrum of invisible gold relationships in pyrite has been observed, which suggests that relative to orogenic pyrite growth, gold introduction in some deposits is early at the start of pyrite growth; in other deposits, it is late toward the end of pyrite growth, and in a third case, it may be introduced at the intermediate stage of orogenic pyrite growth.…”

mentioning

confidence: 99%

“…The idea that pyrite varieties are a very useful record of geochemical, geological and ore-forming processes is certainly not new. However, the capabilities of the present-day LA-ICP-MS method in terms of high sensitivity and using mapping of trace elements continues to provide new insights into how these ore-forming processes take place, and in what order, during formation of gold [1], massive sulfide [2,3] and other deposits. This method yields plentiful trace element data on pyrite varieties in oil shales, which could be useful to develop inorganic-organic models of oil formation and predict the metal potential of adjacent pyrite mineralization [4].…”

mentioning

confidence: 99%

Editorial for Special Issue “Pyrite Varieties and LA-ICP-MS Geochemistry in Ore Genesis and Exploration”

Масленников

Large

2021

Minerals

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Invisible Gold Paragenesis and Geochemistry in Pyrite from Orogenic and Sediment-Hosted Gold Deposits

Cited by 58 publications

References 49 publications

Genesis of Carbonate Breccia Containing Invisible Gold in Taebaeksan Basin, South Korea

Genesis of Carbonate Breccia Containing Invisible Gold in Taebaeksan Basin, South Korea

Types of Tellurium Mineralization of Gold Deposits of the Aldan Shield (Southern Yakutia, Russia)

Editorial for Special Issue “Pyrite Varieties and LA-ICP-MS Geochemistry in Ore Genesis and Exploration”

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