Genesis of As-Pb-rich supergene mineralization; the Tazalaght and Agoujgal Cu deposits (Moroccan Anti-Atlas Copperbelt)

Genesis of As-Pb-rich supergene mineralization; the Tazalaght and Agoujgal Cu deposits (Moroccan Anti-Atlas Copperbelt)

In the Moroccan Anti-Atlas, sulfide deposits hosted by Neoproterozoic to Cambrian formations underwent significant weathering, leading to the formation of supergene profiles. In the Tazalaght Cu-As deposit, three mineralogical steps are distinguished: (1) the replacement of hypogene sulfides (chalco...

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Bibliographic Details
Published in:Economic geology and the bulletin of the Society of Economic Geologists Vol. 115; no. 8; pp. 1725 - 1748
Main Authors: Verhaert, Michèle, Madi, Atman, El Basbas, Abdelaziz, Elharkaty, Mohamed, Oummouch, Abdellah, Oumohou, Lahcen, Malfliet, Annelies, Maacha, Lhou, Yans, Johan
Format: Journal Article
Language:English
Published: Economic Geology Publishing Company 01-12-2020
Subjects:
Africa
Agoujgal Deposit
Anti-Atlas
arsenic ores
Atlas Mountains
bornite
Cambrian
chalcopyrite
copper minerals
Economic geology
fluid phase
goethite
hematite
lead ores
massive deposits
massive sulfide deposits
metal ores
mineral assemblages
mineral composition
mineral deposits, genesis
mineralization
Moroccan Atlas Mountains
Morocco
Neoproterozoic
North Africa
oxidation zone
oxides
Paleozoic
Precambrian
Proterozoic
sulfides
supergene processes
Tazalaght Deposit
upper Precambrian
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Summary:In the Moroccan Anti-Atlas, sulfide deposits hosted by Neoproterozoic to Cambrian formations underwent significant weathering, leading to the formation of supergene profiles. In the Tazalaght Cu-As deposit, three mineralogical steps are distinguished: (1) the replacement of hypogene sulfides (chalcopyrite, pyrite, tennantite) by supergene sulfides (bornite, chalcocite) in the large cementation zone; (2) the formation of oxidized minerals (malachite, azurite, olivenite, and chenevixite, mainly) in a more oxidizing and neutral environment; and (3) the precipitation of goethite, hematite, and quartz in the gossan. In the Cu-As-Pb-V deposit of Agoujgal, the mineralogical units are spatially less confined than at Tazalaght. The narrow cementation zone hosts chalcocite, resulting from the weathering of hypogene chalcopyrite, pyrite, tennantite and galena, while the much more extended and diversified oxidized zone is rich in Cu and Pb carbonates, arsenates, sulfates, phosphates, vanadates, and oxides. Goethite, hematite, mottramite, and late calcite occur in the gossan. Both deposits are characterized by As-rich secondary ores that were formed through similar processes, despite some mineralogical and chemical variations highlighting the influence of the host rocks on weathering. The restricted oxidized mineralization at Tazalaght and the Agoujgal cementation zone most likely arise from the contrasting omnipresence of quartzite at Tazalaght that could not enable a fast and effective neutralization of the fluid's acidity, and the large amounts of dolomitic host rocks that could be dissolved at Agoujgal. At both sites, the weathering of tennantite through a boxwork texture records the transition from the cementation zone (chalcocite), the oxidized zone (arsenates), and the gossan, and reflects the fluids evolution with time.
ISSN:0361-0128
1554-0774
DOI:10.5382/econgeo.4779