Nickel-(Bi,Ag) sulphide mineralization from NYF Vepice
pegmatite, Milevsko pluton, southern Bohemia (Czech Republic) -
a reflection of the parental granite chemistry

SEJKORA, Jiří, Jiří LITOCHLEB, Milan NOVÁK, Jaroslav CÍCHA and Zdeněk DOLNÍČEK. Nickel-(Bi,Ag) sulphide mineralization from NYF Vepice pegmatite, Milevsko pluton, southern Bohemia (Czech Republic) - a reflection of the parental granite chemistry. Journal of Geosciences. Praha: Czech Geological Survey, 2020, vol. 65, No 3, p. 187-199. ISSN 1802-6222. Available from: https://dx.doi.org/10.3190/jgeosci.310.

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TY  - JOUR
ID  - 1705379
AU  - Sejkora, Jiří - Litochleb, Jiří - Novák, Milan - Cícha, Jaroslav - Dolníček, Zdeněk
PY  - 2020
TI  - Nickel-(Bi,Ag) sulphide mineralization from NYF Vepice pegmatite, Milevsko pluton, southern Bohemia (Czech Republic) - a reflection of the parental granite chemistry
JF  - Journal of Geosciences
VL  - 65
IS  - 3
SP  - 187-199
EP  - 187-199
PB  - Czech Geological Survey
SN  - 18026222
KW  - argentopentlandite
KW  - parkerite
KW  - pentlandite
KW  - EPMA data
KW  - NIF pegmatite
KW  - Czech Republic
UR  - http://dx.doi.org/10.3190/jgeosci.310
L2  - http://dx.doi.org/10.3190/jgeosci.310
N2  - Unusual high- to low-T sulphide mineralization with Ni-(Bi, Ag) phases was examined at the NYF intragranitic pegmatite No. III from Vepice near Kovainv enclosed in the Milevsko Pluton, Moldanubian Zone, Southern Bohemia. Zoned pegmatite dike, up to 30 cm thick, has transitional contact with host durbachite and its internal structure includes transitional unit, border granitic unit, graphic unit, blocky unit (Kfs+Qz), quart, core and small miarolitic pocket. Sulphide mineralization locally associated with calcite and fluorite is represented by common pyrite with minor galena, accessory chalcopyrite, sphalerite, marcasite, native Bi and Ni-(Bi, Ag) minerals - argentopentlandite, parkerite and pentlandite. It is developed in small miarolitic pockets and on pegmatite fractures cutting all pegmatite units. Irregular anhedral grains and aggregates of argentopentlandite, <200 mu m in size, associated with chalcopyrite, have empirical formula Ag-0.97 (Fe4.88Ni3.10Cu0.04Co0.01)(Sigma 8.03) (S7.96As0.03)(Sigma 7.99). Zoned irregular aggregates of parkerite, 20-30 mu m in size, are typically associated with pentlandite, or overgrow galena and yield empirical formula (Ni3.02Fe0.02Co0.01)(Sigma 3.06)(Bi(1.73)Sb(0.05)AS(0.04))(Sigma 1.92)S-2.02. Pentlandite is present in two morphological forms: rare lenticular to isometric anhedral grains, -200 pm in size, and numerous small tabular crystals, <= 20 mu m in length, in subparallel arrangement rimming aggregates of other sulphides. Empirical formula is (Ni4.57Fe4.14Co0.25)(Sigma 8.96)(S8.01As0.02)(Sigma 8.03). Evaluation of relative chronology of the sulphide minerals is complicated mainly due to complex textural relations. Pyrite + marcasite are likely pseudomorphs after pyrrhotite as the earliest phase whereas pentlandite and native Bi are among the latest. Early sulphides (pyrrhotite, chalcopyrite, sphalerite, argentopentlandite) crystallized at T < similar to 550-400 degrees C, whereas pyrite, marcasite, galena, parkerite, and native Bi at T <240 degrees C. Cooling of the system below T similar to 200 degrees C appeared soon after transformation of pyrrhotite to pyrite+marcasite aggregates. Sulphides manifest that concentrations of Ni in residual pegmatite melt and exsolved fluids were high enough to facilitate saturation of Ni-sulphides. Very high Ni/Co ratio in sulphides reflects a much lower concentration of cobalt in durbachite. The examined Ni-(Bi, Ag) sulphides manifest that high concentrations of highly compatible Ni in parental granite may be reflected in accessory minerals from its pegmatite.
ER  -

Basic information
Original name	Nickel-(Bi,Ag) sulphide mineralization from NYF Vepice pegmatite, Milevsko pluton, southern Bohemia (Czech Republic) - a reflection of the parental granite chemistry
Authors	SEJKORA, Jiří (guarantor), Jiří LITOCHLEB, Milan NOVÁK (203 Czech Republic, belonging to the institution), Jaroslav CÍCHA and Zdeněk DOLNÍČEK.
Edition	Journal of Geosciences, Praha, Czech Geological Survey, 2020, 1802-6222.

Other information
Original language	English
Type of outcome	Article in a journal
Field of Study	10504 Mineralogy
Country of publisher	Czech Republic
Confidentiality degree	is not subject to a state or trade secret
WWW	URL
Impact factor	Impact factor: 1.525
RIV identification code	RIV/00216224:14310/20:00117253
Organization unit	Faculty of Science
Doi	http://dx.doi.org/10.3190/jgeosci.310
UT WoS	000580587700005
Keywords in English	argentopentlandite; parkerite; pentlandite; EPMA data; NIF pegmatite; Czech Republic
Tags	rivok
Tags	International impact, Reviewed
Changed by	Changed by: Mgr. Marie Šípková, DiS., učo 437722. Changed: 7/12/2020 14:28.

Abstract

Unusual high- to low-T sulphide mineralization with Ni-(Bi, Ag) phases was examined at the NYF intragranitic pegmatite No. III from Vepice near Kovainv enclosed in the Milevsko Pluton, Moldanubian Zone, Southern Bohemia. Zoned pegmatite dike, up to 30 cm thick, has transitional contact with host durbachite and its internal structure includes transitional unit, border granitic unit, graphic unit, blocky unit (Kfs+Qz), quart, core and small miarolitic pocket. Sulphide mineralization locally associated with calcite and fluorite is represented by common pyrite with minor galena, accessory chalcopyrite, sphalerite, marcasite, native Bi and Ni-(Bi, Ag) minerals - argentopentlandite, parkerite and pentlandite. It is developed in small miarolitic pockets and on pegmatite fractures cutting all pegmatite units. Irregular anhedral grains and aggregates of argentopentlandite, <200 mu m in size, associated with chalcopyrite, have empirical formula Ag-0.97 (Fe4.88Ni3.10Cu0.04Co0.01)(Sigma 8.03) (S7.96As0.03)(Sigma 7.99). Zoned irregular aggregates of parkerite, 20-30 mu m in size, are typically associated with pentlandite, or overgrow galena and yield empirical formula (Ni3.02Fe0.02Co0.01)(Sigma 3.06)(Bi(1.73)Sb(0.05)AS(0.04))(Sigma 1.92)S-2.02. Pentlandite is present in two morphological forms: rare lenticular to isometric anhedral grains, -200 pm in size, and numerous small tabular crystals, <= 20 mu m in length, in subparallel arrangement rimming aggregates of other sulphides. Empirical formula is (Ni4.57Fe4.14Co0.25)(Sigma 8.96)(S8.01As0.02)(Sigma 8.03). Evaluation of relative chronology of the sulphide minerals is complicated mainly due to complex textural relations. Pyrite + marcasite are likely pseudomorphs after pyrrhotite as the earliest phase whereas pentlandite and native Bi are among the latest. Early sulphides (pyrrhotite, chalcopyrite, sphalerite, argentopentlandite) crystallized at T < similar to 550-400 degrees C, whereas pyrite, marcasite, galena, parkerite, and native Bi at T <240 degrees C. Cooling of the system below T similar to 200 degrees C appeared soon after transformation of pyrrhotite to pyrite+marcasite aggregates. Sulphides manifest that concentrations of Ni in residual pegmatite melt and exsolved fluids were high enough to facilitate saturation of Ni-sulphides. Very high Ni/Co ratio in sulphides reflects a much lower concentration of cobalt in durbachite. The examined Ni-(Bi, Ag) sulphides manifest that high concentrations of highly compatible Ni in parental granite may be reflected in accessory minerals from its pegmatite.

Links
MUNI/A/1479/2019, interní kód MU	Name: Geologické procesy Českého masivu a Západních Karpat (Acronym: Geoproc)
MUNI/A/1479/2019, interní kód MU	Investor: Masaryk University, Category A

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Nickel-(Bi,Ag) sulphide mineralization from NYF Vepice pegmatite, Milevsko pluton, southern Bohemia ...

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