Abstract
Hydrothermal ore deposits at Aïn El Araâr-Oued Belif location are classified as epithermal deposits type. The ore bodies are hosted by upper Turonian (8–9 M.y) volcanic rhyodacitic complex. Polymetallic sulfide orebodies are mainly concentrated within intra-magmatic faults. Petrographic, XRD, and TEM–STEM investigations revealed that ore minerals are essentially, arsenopyrite, pyrite, chalcopyrite, pyrrhotite, hematite, goethite and magnetite with Au, Ag and Pt trace metals. Gangue minerals are mainly adularia, quartz, sericite, alunite, tridymite, chlorite, phlogopite and smectite. Epithermal alteration is well zoned with four successive characteristic zones: (1) zone of quartz–adularia–sericite and rare alunite; (2) zone of kaolinite and plagioclase albitization; (3) intermediate zone of illite–sericite; (4) sapropelic alteration type zone of chlorite–smectite and rare illite. This can be interpreted as a telescoping of two different acidity epithermal phases; low sulfidation (adularia–sericite) and high sulfidation (quartz–alunite), separated in time or due to a gradual increase of fluids acidity and oxicity within the same mineralization phase. Brecciated macroscopic facies with fragments hosting quartz–adularia–sericite minerals (low-sulfidation phase) without alunite, support the last hypothesis. Geodynamic context and mineral alteration patterns are closely similar to those of Maria Josefa gold mine at SE of Spain which exhibit a volcanic-hosted epithermal ore deposit in a similar vein system, within rhyolitic ignimbrites, altered to an argillic assemblage (illite–sericite abundant and subordinate kaolinite) that grades outwards into propylitic alteration (Sanger-von Oepen et al. (1990)). Mineralogical and lithologic study undertaken in the volcanic host rock at Aïn El Araâr-Oued Belif reveals a typical epithermal low-sulfidation and high-sulfidation ore deposits with dominance of low-sulfidation. Host rocks in these systems range from silicic to intermediate for adularia–sericite type (low sulfidation) to rhyodacite for quartz–alunite type (high sulfidation).
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Acknowledgements
We would like to thank Laboratoire de Physique des Matériaux Lamellaires et Nanomatériaux Hybrides (PMLNMH) for permitting unlimited access to perform the XRD analyses and to TEM laboratory. We are also grateful to Dr. Jalila Karoui for the remarkable help with the petrographic observations and to Pr. Hassen Abdallah “Institut Nationale de Recherche Scientifique et Technique” of Borj Cedria, Tunisia for allowing photoshoots under petrographic microscope. The authors are indebted to Prof. V. Gardien and other anonymous reviewer for the comment and enhancing the quality of the manuscript.
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Aissa, W.B., Aissa, L.B., Amara, A.B.H. et al. Ore deposits and epithermal evidences associated with intra-magmatic faults at Aïn El Araâr-Oued Belif ring structure (NW of Tunisia). Int J Earth Sci (Geol Rundsch) 106, 2653–2665 (2017). https://doi.org/10.1007/s00531-017-1451-3
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DOI: https://doi.org/10.1007/s00531-017-1451-3