Isotopic constraints on the age and source of ore-forming fluids of the Bou Azzer arsenide ores (Morocco)

Isotopic constraints on the age and source of ore-forming fluids of the Bou Azzer arsenide ores (Morocco)

[Display omitted] •Ores formed during multi-episodic hydrothermal events in Devonian-Carboniferous times.•Ophiolite-related rocks do not exhibit typical mantle isotopic signatures.•Ore fluids scavenged elements from a number of isotopically different crustal sources.•Brannerite inclusions in arsenid...

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Bibliographic Details
Published in:Ore geology reviews Vol. 143; p. 104769
Main Authors: Subías, I., Fanlo, I., Hajjar, Z., Gervilla, F., Billström, K.
Format: Journal Article
Language:English
Published: Elsevier B.V 01-04-2022
Subjects:
Bou Azzer
Co-Ni arsenide ores
Den föränderliga jorden
Hydrothermal arsenides
Rb/Sr
Sm/Nd and S isotopes
The changing Earth
Co-Ni arsenide ores
Pb
Sm/Nd and S isotopes
Rb/Sr
Bou Azzer
Hydrothermal arsenides
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Summary:[Display omitted] •Ores formed during multi-episodic hydrothermal events in Devonian-Carboniferous times.•Ophiolite-related rocks do not exhibit typical mantle isotopic signatures.•Ore fluids scavenged elements from a number of isotopically different crustal sources.•Brannerite inclusions in arsenides controlled their Pb and Nd isotope behavior. The Bou Azzer district in Morocco has a long mining history since the beginning of the XXst century during which it has become the only world producer of Co from primary, hydrothermal Co arsenide ores. Orebodies are structurally controlled, and mainly distributed along fault contacts between Cryogenian ophiolite-related serpentinite bodies and intrusive quartz diorite or, locally, ophiolitic gabbros or Ediacaran volcanic rocks. Ore formation took place through a multi-stage mineralizing process that included an early stage composed by gold, quartz, chlorite, muscovite and calcite, followed by the main arsenide and sulfarsenide stage (subdivided into three substages, IIa: Ni-rich, Co ores, IIb: Co-Fe ores and IIc: Fe-Co ores), and ending with an epithermal stage characterized by the precipitation of sulfides along with quartz and calcite. Field relations and most previous geochronologic dating pointed to a post Pan-African age of ore formation, mainly coincident with the Hercynian orogeny. The isotopic study presented in this paper includes S, Pb, Rb/Sr and Sm/Nd data of a set of ore mineral samples from three deposits (Aghbar, Tamdrost and Aït Ahmane), as well as of regional samples representative of the different lithologies occurring in the Bou Azzer area. The isotope data set was completed with S isotope analyses of arsenide and sulfarsenide minerals from five ore deposits (Filon 7/5, Aghbar, Tamdrost, Ightem and Aït-Ahmane) and of some whole-rock regional samples. Results show that ores formed during multi-episodic hydrothermal events connected with hercynian reactivation of Devonian-Carboniferous faults, supporting previous geochronologic dating. The obtained Pb, Sr, Nd and S isotopic signatures of ore minerals and regional rocks further show that ophiolite-related lithologies became isotopically modified by interaction with crustal material and afterwards acted as the main source of ore-forming elements. Nevertheless, isotopic data do not fully concur with such a simple scenario but are quite consistent with a rather complex interpretation based on multi-source origin of some elements and isotopes scavenged from a number of isotopically different lithologies both from the inferred basement and the volcanic and sedimentary cover.
ISSN:0169-1368
1872-7360
1872-7360
DOI:10.1016/j.oregeorev.2022.104769