Mineralogy, petrography, geochemistry and genesis of the Paleoproterozoic Birimian manganese-formation of Nsuta/Ghana |
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Authors: | A Mücke K Dzigbodi-Adjimah A Annor |
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Institution: | Mineralogisch-Petrologisches Institut, Georg-August-Universit?t, Goldschmidtstrasse 1, D-37077 G?ttingen, Germany, DE Institute of Mining and Mineral Engineering, University of Science and Technology, Kumasi, Ghana, GH Department of Geology, P. O. Box 58, University of Ghana, Legon, Accra, Ghana, GH
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Abstract: | The manganese deposit of Nsuta, in the Ashanti Belt of Southern Ghana, is sandwiched between Birimian metasedimentary rocks.
The metasedimentary rocks contain interbedded carbonate-rich layers, which exhibit a characteristic banded appearance near
the contact with the orebody. The orebody is a carbonate-type manganese-formation and in terms of origin is considered here
as a Mn-analogue of the volcanogenic-exhalative Algoma type iron-formation. The protolith of the orebody (chemical sediment
including Fe-bearing rhodochrosite and alabandite) is envisioned to have been formed in a marine basin with relatively high
CO2 activity and Eh-pH conditions were extremely low (Eh 1 to −0.6 Volt and pH 8 to 11) during Birimian times (2170–2180 Ma).
These conditions occurred immediately below the shelf break in a shallow-marine environment. Subsequent submarine weathering
(halmyrolysis) followed later by metamorphism of Eburnian age (2100 Ma) led to the formation of Mg-Ca-Fe-bearing rhodochrosite,
the dominant mineral in the orebody. Other minerals of the orebody are: sulfides (e.g. two generations of alabandite sphalerite,
pyrite, millerite, niccolite, gersdorffite, and molybdenite), oxides and hydroxides (vanadium-bearing jacobsite, galaxite;
brucite, Mn2+-todorokite), Mn-silicates and an unknown boron mineral. Pyrochroite, possibly preceded by manganosite, occurs as a retrograde
mineral. This mineral assemblage forms the protore of the Nsuta deposit. Opaque Mn4+-todorokite replacing Mn2+-todorokite, manganite, manganomelane, pyrolusite and nsutite which formed at the expense of rhodochrosite, are of supergene
origin and represent the economic part of the deposit. The orebody is interleaved between the associated pelitic-psammitic
metasedimentary rocks suggesting that its protoliths was deposited over a time interval during the sedimentation of the latter.
Both units underwent subsequent processes (submarine weathering and metamorphism) together. The compositional differences
between the orebody with high Mn and CO2 and low Si and Al contents relative to the metasedimentary rocks are explained by a model involving the continuous sedimentation
of continent-derived materials (protolith of the metasedimentary rocks). During this time a pulsatory phase of submarine volcanism
and consequent precipitation of materials of essentially volcanogenic-exhalative origin occurred (protolith of the orebody).
From the exhalations, the carbonate minerals in both the manganese-rich sediments and the metasedimentary host-rocks (in the
latter in the form of layers and disseminations leading to relatively high concentrations of Mn, Ca and CO2) were precipitated.
Received: 18 April 1997 / Accepted: 16 July 1998 |
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