EGU23-2104, updated on 22 Feb 2023
https://doi.org/10.5194/egusphere-egu23-2104
EGU General Assembly 2023
© Author(s) 2023. This work is distributed under
the Creative Commons Attribution 4.0 License.

Cenozoic inversion of the Lower Jurassic Beni Bassia Basin in the Eastern High Atlas (Morocco): effect of the right lateral transpression along the South Atlas Fault Zone (SAFZ)

Ismail Es-sabbar1, Khalid Amrouch1,2, Abderrahmane Soulaimani3, and Hamza Skikra1
Ismail Es-sabbar et al.
  • 1Mohammed 6 Polytechnic University , Geology and Sustainable Mining Institute, Benguerir, Morocco (ismail.es-sabbar@um6p.ma)
  • 2School of Physics, Chemistry and Earth Sciences, The University of Adelaide, Adelaide, Australia
  • 3Dynamique de la Lithosphère et Genèse des Ressources Minérales et Energétiques, Université Cadi Ayyad, Marrakech, Morocco

The intracontinental High Atlas Mountains are the result of multiple tectonic events, from Late Permian-Early Mesozoic Pangea breakup to Cenozoic Africa-Eurasia convergence. Prior to the Cenozoic inversion event, the South Atlas Fault Zone (SAFZ), which surrounded the High Atlas from the south, witnessed for the growth of multiple basins during the Liassic rifting in the eastern segment of the belt. The present work aims to shed light on the development of the Beni Bassia Liassic basin through two faults components of the SAFZ, the E-W J. Amalou faulted anticline (ridge) and Garn Talou fault from the South. Preliminary investigations based on the combination of field data and satellite images reveal significant results regarding the evolution of the basin. In the Beni Bassia Basin, the Ouchbis-Pleinsbachian Formation is an alternating layer of conglomerate limestones and marls, containing olistoliths over 10 meters in length, resulting from the destruction of the underlying platform of the Idikel-Sinemurian Formation. This huge breccia developed at the foot of steep faults on the southern margin of the basin, during the acceleration of the Liassic rifting. During the Cenozoic deformation and uplift of the Eastern High Atlas, bedding directions of Jurassic formations denote progressive changes from E-W in the northwestern to approximately NW-SE to N-S in the southeastern part of the basin. Similarly, the dip direction changes from dipping towards the south to dipping southwest to westward, indicating a dextral movement due to NNW-SSE regional shortening driven by the plates convergence. Other smaller-scale structures confirm dextral transpression kinematics at several places east of the High Atlas, including easterly detachments recorded in Lower Jurassic carbonates. Further investigations are planned to quantify the stress, strain and mechanisms involved in the configuration of the Liassic basin and the subsequent Cenozoic transpression.

Keywords: Eastern High Atlas, South Atlas Fault Zone, Beni Bassia Basin, Jurassic, Inversion, Transpression.

How to cite: Es-sabbar, I., Amrouch, K., Soulaimani, A., and Skikra, H.: Cenozoic inversion of the Lower Jurassic Beni Bassia Basin in the Eastern High Atlas (Morocco): effect of the right lateral transpression along the South Atlas Fault Zone (SAFZ), EGU General Assembly 2023, Vienna, Austria, 24–28 Apr 2023, EGU23-2104, https://doi.org/10.5194/egusphere-egu23-2104, 2023.