Geology, petrology and alteration geochemistry of the Palaeoproterozoic intrusive hosted Älgträsk Au deposit, Northern Sweden

Bejgarn, Therese; Årebäck, Hans; Weihed, Pär; Nylander, Juhani

doi:10.1144/sp350.7

Cited by 8 publications

(20 citation statements)

References 42 publications

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“…A good candidate for the source of gold may be the granodiorite itself. This rock which occasionally shows a porphyritic texture is, petrologically and age-wise, similar to gold-related porphyries elsewhere in the Skellefte district, as exemplified by those at Älgträ sk [11], Vinliden and Storklinten [8], and a genetic connection between porphyry magmatism and gold formation seems likely.…”

Section: Conclusion: a Genetic Model For The åKerberg Gold Depositmentioning

confidence: 90%

“…Gold mineralization in the overall Skellefte district are of different types and occur in different geological environments [11,16,[35][36][37][38]. Generally, many gold-only mineralization can be described as structurally controlled orogenic gold deposits.…”

Section: The Ore and Occurrence Of Gold At åKerbergmentioning

confidence: 99%

“…In contrast, other gold deposits in the Skellefte district region, such as, e.g., Grundfors [16], may exemplify an orogenic type of gold deposit, which is widely held to result from crustal-scale flow in connection with metamorphic dehydration [20]. (1) SOD = Skellefte ore district; (2) qz=quartz; (3) py=pyrite; (4) po=pyrrothite; (5) cpy=chalcopoyrite; (6) apy=arsenopyrite; (7) sp=sphalerite; (8) sch=scheelite; (9) tour=tourmaline; (10) cc=calcite; (11) loell=loellingite; (12) amp =amphibole.…”

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

confidence: 99%

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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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Section: Conclusion: a Genetic Model For The åKerberg Gold Depositmentioning

confidence: 90%

Section: The Ore and Occurrence Of Gold At åKerbergmentioning

confidence: 99%

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

confidence: 99%

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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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“…1), situated close to the contact between the JIC and the volcanosedimentary succession of the SD. The Palaeoproterozoic Tallberg porphyry Cu ±Au ±Mo deposit comprises disseminated and quartz vein stockwork sulphides associated with propylitic, chloritic and phyllic alteration hosted by a GI intrusion of tonalitic composition (Bejgarn et al, 2011;Weihed, 1992b). It is associated with a younger intrusive at depth (Fig.…”

Section: Southern Jicmentioning

confidence: 99%

Palaeoproterozoic porphyry Cu–Au, intrusion-hosted Au and ultramafic Cu–Ni deposits in the Fennoscandian Shield: Temporal constraints using U–Pb geochronology

Bejgarn

Weihed

Årebäck

et al. 2013

Lithos

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“…The petrology and alteration geochemistry of Palaeoproterozoic intrusions that host Au deposits in Sweden is the main theme of the contribution by Bejgarn et al (2011) who studied a structurallycontrolled mineralization that occurs within zones of proximal phyllic/silicic and distal propylitic alteration. It comprises mainly pyrite, chalcopyrite, sphalerite with accessory Te-minerals, gold alloys, and locally abundant arsenopyrite.…”

Section: Intrusion-related Gold Systemsmentioning

confidence: 99%

Granite-related ore deposits: an introduction

Sial

Bettencourt

Campos³

et al. 2011

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A symposium on Mineralization Associated with Granitic Magmatism was held within the framework of the 33rd IGC in Oslo, Norway, in August 2008. While our initial idea was to bring together field, experimental, and theoretical studies in order to review and summarize the current ideas and recent progress on granite-related mineralization systems, we were caught by surprise realizing that participants were inclined to focus more on ore deposits related to granitic magmatism. This spontaneous shift from granites, the major intended focus of the symposium, to mineralization associated with them, spawned the idea for a special issue on this theme and ultimately to the nine papers assembled here, chosen from about 60 scientific contributions at the symposium. Around twenty oral presentations were given and forty posters were presented at the meeting; the 60 papers were grouped according to the current main granite-related ore systems, as follows; granite-pegmatite, skarn and greisen-veins, porphyry, orogenic gold, intrusion-related, epithermal and porphyry-related gold and base metal, iron oxide-copper-gold (IOCG), and special case studies.Importance of granite-related mineralization systems: diversity of mineralization styles and related mineral deposits Granite-related mineral deposits are diverse and complex and include different associations of elements such as Sn, W, U, Th, Mo, Nb, Ta, Be, Sc, Li, Y, Zr, Sb, F, Bi, As, Hg, Fe, Cu, Au, Pb, Zn, Ag, Ga, and other metals. Among these, deposits of rare earth elements (REEs) and other precious and semi-precious metals are vital to current technologies upon which society depends. Graniterelated ore systems have been one of the major targets of the mineral exploration industry and have probably received more intensive research study over the last decades than any other type of ore deposits.Many different authors have attempted to summarize metallogenetic models for granite-related mineral deposits. However, due to the diversity of classes of ore-deposits, styles of mineralization and processes involved in their formation, major reviews focus only on individual classes highlighting the current status of investigation. Only very few papers focus on experiments and modelling processes leading to metal enrichment, although significant physical and chemical studies have been conducted by

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Geology, petrology and alteration geochemistry of the Palaeoproterozoic intrusive hosted Älgträsk Au deposit, Northern Sweden

Cited by 8 publications

References 42 publications

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

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

Palaeoproterozoic porphyry Cu–Au, intrusion-hosted Au and ultramafic Cu–Ni deposits in the Fennoscandian Shield: Temporal constraints using U–Pb geochronology

Granite-related ore deposits: an introduction

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