Abstract
This study encompasses the ore mineralogy, textures and sulphide trace element chemistry of the Palaeoproterozoic Lovisa stratiform Zn-Pb deposit and the stratigraphically underlying Lovisa Fe Formation in the Bergslagen ore province (Sweden). We investigate the relative timing of formation and subsequent modifications of its ores in relation to the c. 1.87–1.80 Ga Svecokarelian orogeny. The Lovisa Zn-Pb deposit consists of several different ore types. The massive sphalerite-galena ore is distinctly deformed, exhibiting a multiple-scale “ball ore” texture with rounded silicate clasts within a deformed, fine-grained sulphide matrix. Underlying the massive ore is a locally folded, sphalerite-rich laminated ore, interpreted to represent a metamorphosed relict primary lamination. Several generations of sphalerite-galena fracture fillings and veins occur adjacent to the main ore zones and they cross-cut early ductile structures and metamorphic features. The trace element signatures of the sphalerite-galena infillings generally mimic those of the two main ore zones, thus supporting an origin by localised remobilisation of the primary sulphide ore and demonstrating limited trace element redistribution during this process. In contrast, discrete sulphosalt-rich fracture fillings cross-cutting earlier galena-chalcopyrite-rich fracture fillings and veinlets in the Lovisa Fe Formation suggest a significant but still relatively localised redistribution of metals. Trace element mapping of sulphides from the Lovisa Zn-Pb deposit reveals that inclusion-free overgrowths on pyrite crystals are locally Co-enriched compared to the cores, which resulted from the redistribution of Co during late metamorphic processes. Combined textural and geochemical evidence suggest that the originally syngenetic exhalative sulphide ore at Lovisa was locally strongly affected by polyphase deformation and remobilisation. This was initiated during the first stage of amphibolite facies grade regional metamorphism and deformation (D1, c. 1.87–1.85 Ga) but is mostly evident from the later stages (D2) and the evolution to retrograde and brittle conditions (c. 1.83–1.80 Ga and later).
Highlights
This study focuses on the Lovisa Zn-Pb deposit, which is one of three base-metal sulphide deposits that are presently mined in Bergslagen (e. g., Stephens and Jansson, 2020)
Twenty samples of variably mineralised parts of the drill cores were subjected to powder X-ray diffraction (XRD) analysis at the Geological Survey of Sweden, in order to provide background and reference in formation to characterise the major mineralogy of the fine-grained ore and host rock assemblages
This structure is conspicuous throughout the ore zone, from stratigraphically above the Main Ore to below the Sphalerite Ore
Summary
The classic Palaeoproterozoic Bergslagen ore province in southcentral Sweden hosts different styles of polymetallic sulphide and oxide deposits that show variable degrees of overprinting by polyphase metamorphism and deformation Only a few studies have combined detailed ore textural and paragenetic studies integrated with in situ sulphide trace element analysis addressing ore and trace element distribution of deposits in the Bergslagen province (Kampmann et al, 2018, Tiu et al, 2021). The Lovisa Zn-Pb deposit is an ideal target to use this scanning technique to study the metamorphism and deformation of sulphide ores because it exhibits three distinct and texturally different ore horizons within a layered to laminated sequence, and it can be studied within a well-defined regional structural frame work. We integrate the results from the XCT-XRF scanning with detailed information of the ore using conventional ore and electron microscopy methods This is, in turn, complemented by in situ trace element mineral-chemistry of the sulphide minerals using laser-ablation inductively coupled mass spectrometry (LA-ICP-MS) analysis and map ping. A comparison with two deformed and metamorphosed sulphide deposits exhibiting similar features is made, i.e., the Zn-Pb deposit in the Cinco Villas Massif, Spain (Pesquera and Velasco, 1993) and the Cu-(Zn) Matchless deposit, Namibia (Klemd et al, 1987; Cook et al, 1994)
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