Reconstruction of Mesozoic paleostress associated with the tectono-sedimentary evolution of the basins bordering the Aouli inlier (Upper Moulouya, Morocco)

During the Mesozoic, the basins bordering the Aouli inlier (BBAI) experienced a geodynamic evolution marked by five successive stages: (i) during the Upper Triassic-Middle Liassic (Middle Carixian?), several sedimentary basins occurred with detrital, volcanic, and carbonate filling. Sedimentation an...

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Bibliographic Details
Published in:Arabian journal of geosciences 2021-04, Vol.14 (8), Article 706
Main Authors: Yaagoub, Driss, Hinaje, Saïd, El Ouaragli, Bilal, El Fartati, Mohamed, Gharmane, Youssef, Amrani, Samir, Ouhssaine, Ayoub, Elabouyi, Mustapha
Format: Article
Language:English
Subjects:
Basins
Carbonates
Cretaceous
Earth and Environmental Science
Earth science
Earth Sciences
Ecological succession
Evolution
Fault lines
Faults
Geological faults
Jurassic
Mesozoic
Original Paper
Platforms (geology)
Rifting
Sedimentary basins
Sedimentary facies
Strike-slip faults
Subsidence
Tectonics
Thickness
Triassic
Volcanic activity
Volcanism
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Summary:During the Mesozoic, the basins bordering the Aouli inlier (BBAI) experienced a geodynamic evolution marked by five successive stages: (i) during the Upper Triassic-Middle Liassic (Middle Carixian?), several sedimentary basins occurred with detrital, volcanic, and carbonate filling. Sedimentation and volcanism are controlled by NE-SW to E-W normal faults developed under a NW-SE to NNW-SSE extensional tectonic regime related to the Atlas rifting stage; (ii) during the Middle Liassic (Upper Carixian?-Domerian)-Toarcian, a pure extensive tectonic regime with NE-SW trending σ3 axis is responsible for the appearance NW-SE synsedimentary normal faults. Lateral variations of facies and thicknesses of layers and basin subsidence are controlled by these faults; (iii) during the Aalenian-Bajocian, the tectonic regime is extensive with NNW-SSE σ3 axis responsible for southward deepening of the sedimentary basins bounded by ENE-WSW normal faults. Sedimentary series are represented by bioclastic limestones and a thick succession of marls; (iv) during the Infracenomanian, the tectonic regime becomes transpressive with a sub-horizontal NNW-SSE trending σ1 axis. This is responsible for the development of ENE-WSW reverse faults, NE-SW and NW-SE strike-slip faults, the folding of Jurassic series, and the deposit of ante-Cenomanian continental succession unconformably overlying the underlying series; (v) during the Cenomano-Turonian, the setting up of carbonate platform marks a marine transgression on the entire Upper Moulouya domain. This is related to an extensive tectonic regime with sub-horizontal NW-SE σ3 axis, responsible for the development of NE-SW trending normal faults that control marine transgression and the subsidence of Cretaceous basins.
ISSN:1866-7511
1866-7538
DOI:10.1007/s12517-021-07065-8