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Supergene remobilization of Au in Au-bearing regolith related to orogenic deposits: A case study from Kazakhstan. / Kalinin, Yuri A.; Palyanova, Galina A.; Naumov, Evgeny A. et al.

In: Ore Geology Reviews, Vol. 109, 01.06.2019, p. 358-369.

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Kalinin YA, Palyanova GA, Naumov EA, Kovalev KR, Pirajno F. Supergene remobilization of Au in Au-bearing regolith related to orogenic deposits: A case study from Kazakhstan. Ore Geology Reviews. 2019 Jun 1;109:358-369. doi: 10.1016/j.oregeorev.2019.04.019

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Kalinin, Yuri A. ; Palyanova, Galina A. ; Naumov, Evgeny A. et al. / Supergene remobilization of Au in Au-bearing regolith related to orogenic deposits: A case study from Kazakhstan. In: Ore Geology Reviews. 2019 ; Vol. 109. pp. 358-369.

BibTeX

@article{c7d866dadabb466991d677feb4de2bb0,
title = "Supergene remobilization of Au in Au-bearing regolith related to orogenic deposits: A case study from Kazakhstan",
abstract = "Our study of the primary and supergene gold from the Suzdal and Raigorodok deposits in Kazakhstan confirms that during the formation of the regolith in both deposits, invisible and fine gold is released from the host sulfide minerals during their oxidation and destruction; and transported in the form of soluble thiosulfate complexes by near-surface solutions. Upon contact with a geochemical barrier, gold can be deposited as crystalline aggregates. In the deposition of this gold the role of geochemical barriers, such as variations of redox, pH and sorption are very important. Evidence of the past processes of dissolution, redistribution and aggregation of gold in the regolith in these deposits is provided by the following features: 1)The presence of dissolution and growth structures on the surface of newly formed gold; 2)The size of the gold grains increases and newly formed gold microcrystals appear on the surface of the grains; 3)Changes in the composition of native gold (e.g. decrease of silver content); 4)The accumulation of gold in subhorizontal localized layers within the regolith; 5)Gold association with supergene minerals (limonite, jarosite, goethite, Mn-hydroxides, opal, gypsum, calcite, clay minerals, etc.). This detailed study of the specific compositional and structural features of supergene gold and the physicochemical conditions of regolith environment allowed the recognition of the releasing, dissolution, transfer and aggregation processes of gold in the regolith.",
keywords = "Gold deposits, Kazakhstan, Mineral exploration, Regolith, Supergene gold, Weathering",
author = "Kalinin, {Yuri A.} and Palyanova, {Galina A.} and Naumov, {Evgeny A.} and Kovalev, {Konstantin R.} and Franco Pirajno",
note = "Publisher Copyright: {\textcopyright} 2019 Elsevier B.V.",
year = "2019",
month = jun,
day = "1",
doi = "10.1016/j.oregeorev.2019.04.019",
language = "English",
volume = "109",
pages = "358--369",
journal = "Ore Geology Reviews",
issn = "0169-1368",
publisher = "Elsevier",

}

RIS

TY - JOUR

T1 - Supergene remobilization of Au in Au-bearing regolith related to orogenic deposits: A case study from Kazakhstan

AU - Kalinin, Yuri A.

AU - Palyanova, Galina A.

AU - Naumov, Evgeny A.

AU - Kovalev, Konstantin R.

AU - Pirajno, Franco

N1 - Publisher Copyright: © 2019 Elsevier B.V.

PY - 2019/6/1

Y1 - 2019/6/1

N2 - Our study of the primary and supergene gold from the Suzdal and Raigorodok deposits in Kazakhstan confirms that during the formation of the regolith in both deposits, invisible and fine gold is released from the host sulfide minerals during their oxidation and destruction; and transported in the form of soluble thiosulfate complexes by near-surface solutions. Upon contact with a geochemical barrier, gold can be deposited as crystalline aggregates. In the deposition of this gold the role of geochemical barriers, such as variations of redox, pH and sorption are very important. Evidence of the past processes of dissolution, redistribution and aggregation of gold in the regolith in these deposits is provided by the following features: 1)The presence of dissolution and growth structures on the surface of newly formed gold; 2)The size of the gold grains increases and newly formed gold microcrystals appear on the surface of the grains; 3)Changes in the composition of native gold (e.g. decrease of silver content); 4)The accumulation of gold in subhorizontal localized layers within the regolith; 5)Gold association with supergene minerals (limonite, jarosite, goethite, Mn-hydroxides, opal, gypsum, calcite, clay minerals, etc.). This detailed study of the specific compositional and structural features of supergene gold and the physicochemical conditions of regolith environment allowed the recognition of the releasing, dissolution, transfer and aggregation processes of gold in the regolith.

AB - Our study of the primary and supergene gold from the Suzdal and Raigorodok deposits in Kazakhstan confirms that during the formation of the regolith in both deposits, invisible and fine gold is released from the host sulfide minerals during their oxidation and destruction; and transported in the form of soluble thiosulfate complexes by near-surface solutions. Upon contact with a geochemical barrier, gold can be deposited as crystalline aggregates. In the deposition of this gold the role of geochemical barriers, such as variations of redox, pH and sorption are very important. Evidence of the past processes of dissolution, redistribution and aggregation of gold in the regolith in these deposits is provided by the following features: 1)The presence of dissolution and growth structures on the surface of newly formed gold; 2)The size of the gold grains increases and newly formed gold microcrystals appear on the surface of the grains; 3)Changes in the composition of native gold (e.g. decrease of silver content); 4)The accumulation of gold in subhorizontal localized layers within the regolith; 5)Gold association with supergene minerals (limonite, jarosite, goethite, Mn-hydroxides, opal, gypsum, calcite, clay minerals, etc.). This detailed study of the specific compositional and structural features of supergene gold and the physicochemical conditions of regolith environment allowed the recognition of the releasing, dissolution, transfer and aggregation processes of gold in the regolith.

KW - Gold deposits

KW - Kazakhstan

KW - Mineral exploration

KW - Regolith

KW - Supergene gold

KW - Weathering

UR - http://www.scopus.com/inward/record.url?scp=85065136981&partnerID=8YFLogxK

U2 - 10.1016/j.oregeorev.2019.04.019

DO - 10.1016/j.oregeorev.2019.04.019

M3 - Article

AN - SCOPUS:85065136981

VL - 109

SP - 358

EP - 369

JO - Ore Geology Reviews

JF - Ore Geology Reviews

SN - 0169-1368

ER -

ID: 20050813