Philip Schütte scite author profile

In this study we experimentally assess whether the bulk composition of the Kiruna-type iron-fluorine Vergenoeg deposit, South Africa (17 wt.% SiO 2 and 55 wt.% FeO tot) could correspond to an immiscible Fe-rich melt paired with its host rhyolite. Synthetic powder of the host rhyolite was mixed with mafic end-members (ore rocks) in variable proportions. Experimental conditions were 1-2 kbar and 1010°C, with a range of H 2 O and F contents in the starting compositions. Pairs of distinct immiscible liquids occur in experiments saturated with fluorite, under relatively dry conditions, and at oxygen fugacity conditions corresponding to FMQÀ1.4 to FMQ+1.8 (FMQ = fayalite-magnetite-quartz solid buffer). The Si-rich immiscible liquids contain 60.9-73.0 wt.% SiO 2 , 9.1-12.5 wt.% FeO tot , 2.4-4.2 wt.% F, and are enriched in Na 2 O, K 2 O and Al 2 O 3. The paired Fe-rich immiscible melts have 41.0-49.5 wt.% SiO 2 , 20.6-36.1 wt.% FeO tot and 4.5-6.0 wt.% F, and are enriched in MgO, CaO and TiO 2. Immiscibility does not develop in experiments performed under water-rich (aH 2 O > 0.2; a = activity) and/or oxidized (>FMQ+1.8) conditions. In all experiments, solid phases are magnetite, ±fayalite, fluorite and tridymite. Our results indicate that the rocks from the Vergenoeg pipe crystallized in a magma chamber hosting two immiscible silicate melts. Crystallization of the pipe from the Fe-rich melt explains its extreme enrichment in Ca, F and Fe compared to the host rhyolitic rocks. However, its low bulk silica content compared to experimental Fe-rich melts indicates that the pipe formed by remobilization of a mafic crystal mush dominated by magnetite and fayalite. Segregation of evolved residual liquids as well as the conjugate immiscible Si-rich melt produced the host rhyolite. The huge amount of fluorine in Vergenoeg ores ($12 wt.% F) can hardly be explained by simple crystallization of fluorite from the Fe-rich silicate melt (up to 6 wt.% F at fluorite saturation). Instead, we confirm a previous hypothesis that the fluorite enrichment is, in part, due to the migration of hydrothermal fluids.

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Tantalum-(niobium-tin) mineralisation in pegmatites and rare-metal granites of Africa

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Graupner

Oberthür

et al. 2017

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Tantalum supply from artisanal and small-scale mining: A mineral economic evaluation of coltan production and trade dynamics in Africa's Great Lakes region

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Näher

2020

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Philip Schütte

Geodynamic controls on Tertiary arc magmatism in Ecuador: Constraints from U–Pb zircon geochronology of Oligocene–Miocene intrusions and regional age distribution trends

Experimental study of liquid immiscibility in the Kiruna-type Vergenoeg iron–fluorine deposit, South Africa

Tantalum-(niobium-tin) mineralisation in pegmatites and rare-metal granites of Africa

Tantalum supply from artisanal and small-scale mining: A mineral economic evaluation of coltan production and trade dynamics in Africa's Great Lakes region

Conflict minerals (3TG): Mining production, applications and recycling

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