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Vol 242
Pages:
139
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RUS ENG
Geology

Composition and probable ore igneous rocks source of columbite from alluvial deposits of Mayoko district (Republic of the Congo)

Authors:
Idylle Plachini LOUFOUANDI MATONDO1
Mikhail A. IVANOV2
About authors
  • 1 — Postgraduate Student Saint Petersburg Mining University
  • 2 — д-р геол.-минерал. наук Professor Saint Petersburg Mining University ▪ Elibrary ▪ Scopus
Date submitted:
2019-10-17
Date accepted:
2020-01-24
Date published:
2020-04-26

Abstract

The article presents the results of optical, electron microscopic and electron microprobe studies of columbite group minerals, collected during heavy mineral concentrate sampling of alluvial deposits in the Mayoko region (Republic of the Congo). The aim of the study is revealing tantalum niobates ore body in this region. We found that these minerals in loose deposits are represented by two grain-size groups: less than 1.6 mm (fine fraction) and 1.6-15 mm (coarse fraction). The grains of both fractions belong mainly to columbite-(Fe), less often to columbite-(Mn), tantalite-(Mn) and tantalite-(Fe), contain impurities of Sc, Ti, and W. The crystals have micro-scaled zoning (zones varies slightly in the Ta/Nb ratio values) and contains a lot of mineral inclusions and veins represented by zircon, pyrochlore supergroup minerals and others. Columbite-(Fe) and columbite-(Mn) are characterized by an increased content of Ta 2 O 5 up to the transition to tantalite-(Fe) and tantalite-(Mn). This allows us to exclude the formation of subalkaline rare-metal granites, their metasomatites (albitites and greisenes) and carbonatites, from the list of possible columbite ore rocks source in the Mayoko district. Thus, beryl type and complex spodumene subtype rare-element pegmatites of the mixed petrogenetic family LCT-NYF (according to P.Černý) should be considered as a probable root source. The results of the research should be taken into account when developing the methodology for prospecting in this area.

Keywords:
columbite group minerals columbite-(Fe) – ferrocolumbite columbite-(Mn) – manganocolumbite tantalite-(Mn) – manganotantalite and tantalite-(Fe) – ferrotantalite alluvial placers rare metal pegmatites Mayoko area Republic of the Congo
10.31897/pmi.2020.2.139
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References

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1. Ekaterina Levashova, Vladimir Popov, Dmitry Levashov, Natalia Rumyantseva. Distribution of trace elements controlled by sector and growth zonings in zircon from a miaskite pegmatite of the Vishnegorsky massif, the Southern Urals. Journal of Mining Institute. 2022, Online first, DOI: 10.31897/PMI.2022.29 [crossref]
2. N. V. Alymova, N. V. Vladykin. XIII General Meeting of the Russian Mineralogical Society and the Fedorov Session. Springer Proceedings in Earth and Environmental Sciences. 2023, 140, DOI: 10.1007/978-3-031-23390-6_19 [crossref]
3. George Brink, Martin S. Brook. Engineering properties of tropical transported soils: case study from the Republic of the Congo. Quarterly Journal of Engineering Geology and Hydrogeology. 2023, 56, DOI: 10.1144/qjegh2021-134 [crossref]
4. Viktor I. Alekseev, Ivan V. Alekseev. The Presence of Wodginite in Lithium–Fluorine Granites as an Indicator of Tantalum and Tin Mineralization: A Study of Abu Dabbab and Nuweibi Massifs (Egypt). Minerals. 2023, 13, 1447, DOI: 10.3390/min13111447 [crossref]
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Composition and probable ore igneous rocks source of columbite from alluvial deposits of Mayoko district (Republic of the Congo)

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