The integration of physical rock properties, mineralogy and geochemistry for the exploration of large zinc silicate deposits: A case study of the Vazante zinc deposits, Minas Gerais, Brazil

The integration of physical rock properties, mineralogy and geochemistry for the exploration of large zinc silicate deposits: A case study of the Vazante zinc deposits, Minas Gerais, Brazil

The Vazante deposit, which is the world's largest zinc silicate deposit, occurs in brecciated dolomite and comprises mainly willemite with various proportions of hematite, Fe-carbonate, minor franklinite and magnetite. Exploration for this type of deposit is more challenging than zinc sulfide d...

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Bibliographic Details
Published in:Journal of applied geophysics Vol. 136; pp. 400 - 416
Main Authors: McGladrey, Alexandra J., Olivo, Gema Ribeiro, Silva, Adalene Moreira, Oliveira, Gustavo Diniz, Neto, Basilio Botura, Perrouty, Stéphane
Format: Journal Article
Language:English
Published: Elsevier B.V 01-01-2017
Subjects:
Brasília Fold Belt
Density
Gamma-ray spectrometry
Magnetic susceptibility
Non-sulfide zinc deposits
Physical rock properties
Gamma-ray spectrometry
Physical rock properties
Density
Non-sulfide zinc deposits
Brasília Fold Belt
Magnetic susceptibility
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Summary:The Vazante deposit, which is the world's largest zinc silicate deposit, occurs in brecciated dolomite and comprises mainly willemite with various proportions of hematite, Fe-carbonate, minor franklinite and magnetite. Exploration for this type of deposit is more challenging than zinc sulfide deposits, as they do not exhibit similar geophysical anomalies. To improve the application of geophysical surveys to the exploration of hypogene silicate zinc deposits, data from 475 samples were investigated from drill holes representative of the various types of ore and host rocks as well as barren zones of known geophysical anomalies in the Vazante District. Lithogeochemical and mineralogical (optical, SEM and MLA) data were integrated with physical rock properties (density, magnetic susceptibility and KUTh gamma-ray spectrometry) to assist in exploring for this type of deposit. The most distinct physical property of the ore is density, compared with the host rocks due to high proportion of denser minerals (hematite and willemite). However, barren hematite breccias also have high densities. The zinc ore and hematite breccias yielded higher magnetic susceptibilities than the surrounding host rocks, with the highest values associated with greater proportions of franklinite and magnetite. The density and magnetic susceptibility contrasts are a result of hydrothermal fluids interacting with and altering the carbonate host rocks. Zinc ore also yielded elevated U concentrations relative to the various host rocks, yielding higher gamma-ray spectrometric values. The results of this investigation indicate that an integration of magnetic, gravimetric and radiometric surveys would be required to identify zinc silicate ore zones. •Zinc ore and hematite breccias have distinct densities and magnetic susceptibilities.•Uranium enrichment of zinc ore allows for gamma-ray survey integration in exploration.•Gravity methods are the most effective geophysical tool for zinc exploration.•Combining magnetic, gravity and gamma-ray surveys may be needed to identify zinc ore.
ISSN:0926-9851
1879-1859
DOI:10.1016/j.jappgeo.2016.11.013