Abstract
The structural styles and origin of the southern Atlas Front of Tunisia have long been controversial, and a detailed geophysical analysis was performed in order to aid in deciphering the Precambrian basement structural geometry. Wavelength filtering produced a residual gravity anomaly map which indicated gravity maxima over the Sidi Mansour and Chott El-Fejej basins with the maxima being caused by basement uplifts. Upward continuation, 3D-Euler deconvolution and 2.5D gravity forward modeling indicated that the depths of Mesozoic units ranged up 3 to 4 km with the thickest Mesozoic sediments being in the Metlaoui-Gafsa and Chott El-Jerid basins. 2.5D gravity modeling constrained by seismic reflection profiles and well data indicated that the tectonic configuration of the Precambrian basement is dominated by grabens, half-grabens and horsts with the Sidi Mansour and El-Fejej basins being located on horsts. Gravity modeling shows the thinning of the basement from south to north and from east to west. Earthquake focal mechanisms and hypocenters suggest that the deepest faults are located in the basement, beneath the Metlaoui and Sidi Mansour basins. Additionally, a number of hypocenters occur within the Mesozoic sediments. These hypocenters, together with the faults imaged by the seismic reflection profiles, indicate that the structures in the northern part of the study area have been controlled by a mixture of thin- and thick-skinned tectonics. The reactivation of the basement faults including the east-trending faults formed during the Alpine orogeny by the current compressive stress regime has led to the inversion of the horst and graben structures.
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Acknowledgements
We would like to thank ETAP (Entreprise Tunisienne des Activitées Pétrolières) for providing access to the used data (seismic profiles, gravity data and petroleum well data). We would like to thank the anonymous reviewers who improved this work by their constructive comments, and also a special thanks to the editor of the AGGE journal.
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NF and MG provided and discussed the initial idea for this study, NF wrote the original version of the manuscript and prepared figures and tables, MG wrote the original draft of the structural interpretation and seismic section, KM was a major contributor in writing the final version of the manuscript and supervising the gravity interpretation and modeling. All authors revised and approved the final version.
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Frifita, N., Gharbi, M. & Mickus, K. A renewed view of basement structural geometry beneath the Southern Atlas Front in Tunisia inferred from gravity, seismic reflection and earthquake data. Acta Geod Geophys 57, 265–291 (2022). https://doi.org/10.1007/s40328-022-00377-5
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DOI: https://doi.org/10.1007/s40328-022-00377-5