Chauvet, A. and Barbanson, L. and Gaouzi, A. and Badra, L. and Touray, J.C. and Oukarou, S. (2002) Example of a structurally controlled copper deposit from the Hercynian western High Atlas (Morocco): The high Seksaoua mining district. Geological Society Special Publication, 204. pp. 247-271.

Full text not available from this repository.
Official URL:


The mineralized district of the High Seksaoua (Western High Atlas, Morocco) is characterized by a lithological succession marked by an alternation of schists and limestones attributed to the Cambrian and affected by at least five deformational events. The copper mineralization herein analysed is systematically localized close to a dolomite/black schist level in which a top-to-the-NNW décollement-type tectonics (Dd) has been identified. We demonstrate that the economic mineralization is a syn-tectonic stockwork formed in response of this top-to-the-NNW shearing event (Dd). This tectonic event can be reasonably correlated with the late Hercynian tectonics responsible, in the same area, for the Tichka granite emplacement at c. 291 ± 5 Ma, also under the control of a NW-SE shortening direction. Indeed, the Tichka granite represents a good candidate to explain the origin of the mineralized fluid. Such an hypothesis is confirmed by the Permo-Triassic age (c. 270 Ma) given by 40Ar/39Ar dating realized on white micas related to the stockwork formation (this study). This important result questions the syn-genetic interpretation accepted until now for this mineralization and allows us to propose a new model of formation for this kind of deposit that could contribute to exploration programmes.

Item Type: Article
Uncontrolled Keywords: copper; Hercynian orogeny; mineralization; ore deposit; ore-forming fluid; Permian; structural control; tectonic setting; Triassic, Morocco, Mica
Subjects: Earth and Planetary Sciences
Divisions: SCIENTIFIC PRODUCTION > Earth and Planetary Sciences
Depositing User: Administrateur Eprints Administrateur Eprints
Last Modified: 31 Jan 2020 15:46

Actions (login required)

View Item View Item