Trace Element and Sulfur Isotope Signatures of Volcanogenic Massive Sulfide (VMS) Mineralization: A Case Study from the Sunnhordland Area in SW Norway

The Sunnhordland area in SW Norway hosts more than 100 known mineral occurrences, mostly of volcanogenic massive sulfide (VMS) and orogeny Au types. The VMS mineralization is hosted by plutonic, volcanic and sedimentary lithologies of the Lower Ordovician ophiolitic complexes. This study presents ne...

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Bibliographic Details
Published in:Minerals (Basel) 2024-04, Vol.14 (4), p.384
Main Authors: Strmic Palinkas, Sabina, Fjellet, Trond, Stubseid, Håvard Hallås, Liu, Xuan, Spangenberg, Jorge Enrique, Čobić, Andrea, Pedersen, Rolf Birger
Format: Article
Language:English
Subjects:
Antimony
Basalt
Basins
Chalcopyrite
Copper
Enrichment
Environmental aspects
Gabbro
Geology
Hydrothermal systems (Geology)
Islands
Isotopes
Lead
Manganese
Mineralization
Nickel
Ophiolites
Ordovician
Orogeny
Plate tectonics
Pyrite
Pyrrhotite
Sediment
Sediments
Selenium
Sulfides
Sulfur
sulfur isotope (δ34S) systematics
Sulfur isotopes
Sulphides
Sulphur
the Upper Allochthone of the Scandinavian Caledonides
trace element geochemistry
Trace elements
Trace elements in nutrition
Volatiles
Volcanoes
volcanogenic massive sulfide (VMS) deposits
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Summary:The Sunnhordland area in SW Norway hosts more than 100 known mineral occurrences, mostly of volcanogenic massive sulfide (VMS) and orogeny Au types. The VMS mineralization is hosted by plutonic, volcanic and sedimentary lithologies of the Lower Ordovician ophiolitic complexes. This study presents new trace element and δ34S data from VMS deposits hosted by gabbro and basalt of the Lykling Ophiolite Complex and organic-rich sediments of the Langevåg Group. The Alsvågen gabbro-hosted VMS mineralization exhibits a significant Cu content (1.2 to >10 wt.%), with chalcopyrite and cubanite being the main Cu-bearing minerals. The enrichment of pyrite in Co, Se, and Te and the high Se/As and Se/Tl ratios indicate elevated formation temperatures, while the high Se/S ratio indicates a contribution of magmatic volatiles. The δ34S values of the sulfide phases also support a substantial influx of magmatic sulfur. Chalcopyrite from the Alsvågen VMS mineralization shows significant enrichment in Se, Ag, Zn, Cd and In, while pyrrhotite concentrates Ni and Co. The Lindøya basalt-hosted VMS mineralization consists mainly of pyrite and pyrrhotite. Pyrite is enriched in As, Mn, Pb, Sb, V, and Tl. The δ34S values of sulfides and the Se/S ratio in pyrite suggest that sulfur was predominantly sourced from the host basalt. The Litlabø sediment-hosted VMS mineralization is also dominated by pyrite and pyrrhotite. Pyrite is enriched in As, Mn, Pb, Sb, V and Tl. The δ34S values, which range from −19.7 to −15.7 ‰ VCDT, point to the bacterial reduction of marine sulfate as the main source of sulfur. Trace element characteristics of pyrite, especially the Tl, Sb, Se, As, Co and Ni concentrations, together with their mutual ratios, provide a solid basis for distinguishing gabbro-hosted VMS mineralization from basalt- and sediment-hosted types of VMS mineralization in the study area. The distinctive trace element features of pyrite, in conjunction with its sulfur isotope signature, have been identified as a robust tool for the discrimination of gabbro-, basalt- and sediment-hosted VMS mineralization.
ISSN:2075-163X
2075-163X
DOI:10.3390/min14040384