Source of metals and age constraints for epigenetic gold deposits in the Skellefte and Pohjanmaa districts, central part of the Fennoscandian Shield

Sundblad, Krister; Weihed, Pär; Billström, Kjell; Markkula, Heikki; Mäkelä, Mikko

doi:10.1007/bf00204041

Cited by 10 publications

(5 citation statements)

References 38 publications

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“…The age of this intrusive-hosted deposit is constrained to c. 1886 Ma (U-Pb dating of the related porphyritic intrusive; Weihed and Sch6berg 1991). This adds further support to the importance of early plutonic processes and linked gold mineralization (compare Sundblad et al 1993) and the hypothesis that surface-derived waters were important for the concentration of gold.…”

Section: Fluid Evolution and Gold Depositionsupporting

confidence: 70%

Fluid inclusions, stable isotopes and gold deposition at Bj�rkdal, northern Sweden

Broman

Billström

Gustavsson³

et al. 1994

Mineral. Deposita

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The Bj6rkdal gold deposit is located in the eastern part of the Early Proterozoic Skellefte district in northern Sweden. The ore zone is hosted by a granitoid which intrudes a 1.9 Ga old supracrustal sequence and consists of a network of quartz veins between two shear zones. The ore mineralogy, alteration assemblages, ore fluid characteristics and general setting of the Bj6rkdal deposit reveal many similarities with mesothermal Archean systems. Three types of fluids are represented by fluid inclusions observed in quartz, scheelite and calcite. The first type consists of a CO2-rich fluid which is syngenetic with the formation of the quartz veins. These inclusions occur in quartz and scheelite. Isotopic equilibrium temperatures derived from quartz-scheelite pairs reflect depositional temperatures around 375 ~ Molar volumes of the carbonic fluid inclusions, ranging down to 55 cm3/mole, indicate a maximum lithostatic trapping pressure of 1.8 kbar. These fluids were generated at depth in conjunction with early orogenic magma-forming processes. The gold was introduced to the vein system by the carbonic fluid but the gold was deposited after reactions between this fluid and the wall-rock, producing a slightly alkaline, more CH4-rich aqueous type 2 fluid. Fluid inclusions of this chemically modified fluid indicate that the precipitation of the gold, together with pyrrhotite, pyrite and chalcopyrite, occurred under heterogenous conditions at a temperature of 220~ and a hydrostatic pressure of 0.5 kbar. The gold deposition occurred from fluids with a &180 signature of around + 89oo and &D values close to zero per mil. Any metamorphic influence on the stable isotopic signatures is regarded as minimal. The isotope data suggest rather that a surfacederived fluid component had access to the vein system during this process. At a post-vein forming stage (metamorphic stage ?) a secondary episode of gold mobilization occurred as suggested by the aqueous type 3 inclusions trapped in cross-cutting microfractures in quartz and randomly in calcite, and with homogenization temperatures between 145-220~ and a salinity up to 11 eq. wt. % NaC1.

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Section: Fluid Evolution and Gold Depositionsupporting

confidence: 70%

Fluid inclusions, stable isotopes and gold deposition at Bj�rkdal, northern Sweden

Broman

Billström

Gustavsson³

et al. 1994

Mineral. Deposita

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“…Groves et al [65] suggested that the presence of W-Sn deposits in the magmatic province and a continental tectonic setting well inboard of convergent plate boundaries as diagnostic for intrusion-related type of deposits. There are no W-Sn deposits in the Åkerberg area, although such mineralizations occur in the so called -Au line‖ west of the Skellefte district where some potential intrusion-related deposits occur [14,24]. However, Åkerberg is tentatively situated in a back-arc region [34] which appears to be consistent with a typical tectonic setting for the intrusion-related group of deposits.…”

Section: Classifying the åKerberg Gold Deposit: An Intrusion-related mentioning

confidence: 68%

Geology and Age Constraints on the Origin of the Intrusion-Related, Sheeted Vein-Type Åkerberg Gold Deposit, Skellefte District, Sweden

et al. 2012

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Abstract:The Early Proterozoic (~1.9 Ga) Skellefte mining district in northern Sweden hosts abundant base metal deposits, but there are also gold-only deposits. The Åkerberg gold ore is unusual given the noted lack of alteration, a scarcity of sulfides and gold associated with thin (mm-cm wide) parallel quartz veins hosted in a gabbro. The gold content is positively correlated with the density of quartz veins, but gold often occurs between veins and also in parts of the gabbro where there is no veining. The gabbro is intruded by a granodiorite and associated pegmatite bodies, and U-Pb dating of zircon and baddeleyite suggest that these lithologies developed close in time at around 1.88 Ga ago. There are no primary inclusions in quartz veins, but different types of secondary aqueous inclusions occur. The Åkerberg ore is interpreted as a sheeted vein complex, with veins constrained to tensional cracks induced when a granodioritic magma intruded the competent, sheet-like gabbro intrusion. It is suggested that unmixing of the felsic magma also produced pegmatite bodies and a gel-like melt which invaded fractures in the gabbro OPEN ACCESSMinerals 2012, 2 386 and deposited silica. In a comparison, the Åkerberg ore shares many characteristics with the intrusion-related style of gold mineralizations.

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“…2. Additional data are from Vaasjoki and Vivallo (1990) and Sundblad et al (1993). The bulk of the lead is fixed in galena and sulphosalts and unless otherwise stated, the following discussion refers to such data.…”

Section: Resultsmentioning

confidence: 99%

“…This highlights the need to characterize the individual source components that have contributed to the a The analyses have been performed at Helsinki (G-numbers), at Geospec, Canada (Sk-numbers) and at LIG, Stockholm (LIG-numbers). Helsinki data have been published by Vaasjoki and Vivallo (1990) and Vindelgransele data by Sundblad et al (1993) b Unless otherwise stated the mineral analyzed is galena; sp, sphalerite; py, pyrite; su, sulphosalt c Model ages and #-values (present-day 23aU/2~ have been calculated according to Stacey and Kramers (1975) analyzed lead mixtures and to derive a model for the lead isotopic evolution that is consistent with the local geology.…”

Section: Resultsmentioning

confidence: 99%

Synvolcanic mixing of ore lead and the development of lead isotopic provinces in the Skellefte district, Sweden

Billström

Vivallo

1994

Mineral. Deposita

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Source of metals and age constraints for epigenetic gold deposits in the Skellefte and Pohjanmaa districts, central part of the Fennoscandian Shield

Cited by 10 publications

References 38 publications

Fluid inclusions, stable isotopes and gold deposition at Bj�rkdal, northern Sweden

Fluid inclusions, stable isotopes and gold deposition at Bj�rkdal, northern Sweden

Geology and Age Constraints on the Origin of the Intrusion-Related, Sheeted Vein-Type Åkerberg Gold Deposit, Skellefte District, Sweden

Synvolcanic mixing of ore lead and the development of lead isotopic provinces in the Skellefte district, Sweden

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