Experimental Study of REEs, Ba, and Sr Interphase Partitioning in Fluid–Magmatic Silicate Systems at T = 1250°C and P = 2 kbar

Experimental Study of REEs, Ba, and Sr Interphase Partitioning in Fluid–Magmatic Silicate Systems at T = 1250°C and P = 2 kbar

The results of study of the alkaline silicate melt–hydrous saline (carbonate, sulfate, and fluoride) fluid system, as well as partitioning of ore metals (Ba, Sr, and REEs) between coexisting phases at T = 1250°C and P = 2 kbar are reported. It is shown that aqueous solutions with the compositions st...

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Veröffentlicht in:Doklady earth sciences 2018-02, Vol.478 (2), p.237-240
Hauptverfasser: Suk, N. I., Kotelnikov, A. R., Shapovalov, Yu. B.
Format: Artikel
Sprache:eng
Schlagworte:
Barium
Carbonates
Composition effects
Concentrators
Earth and Environmental Science
Earth Sciences
Fluorides
Geochemistry
Heterogeneity
Magma
Metals
Partitioning
Silicates
Solutions
Strontium
Sulfates
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Zusammenfassung:The results of study of the alkaline silicate melt–hydrous saline (carbonate, sulfate, and fluoride) fluid system, as well as partitioning of ore metals (Ba, Sr, and REEs) between coexisting phases at T = 1250°C and P = 2 kbar are reported. It is shown that aqueous solutions with the compositions studied cannot be effective concentrators and transporters of ore elements such as REEs, Sr, and Ba. The sulfate melt accumulates Sr and Ba in the alkaline silicate melt–hydrous sulfate fluid system, which provides evidence for the efficiency of sulfate ore extraction of Sr and Ba from the melt. The results obtained support the important oregenerating role of dense saline phases formed upon the development of liquid heterogeneity in fluid–magmatic systems.
ISSN:1028-334X
1531-8354
DOI:10.1134/S1028334X18020162