Mediterranean basin exposed to ongoing processes of erosion and deformation. Neotectonics is the study of the geological processes involved in the deformation of the Earth’s crust. The topography of the terrain is greatly impacted by these neotectonic events, which has a considerable impact on the drainage pattern and general geomorphology of the region. In this work, the active tectonics were evaluated using the Shuttle Radar Topography Mission (SRTM) Digital Elevation Model (DEM) and several Geomorphic Indices in the Ain Zerga region of Northeast Algeria. Asymmetry factor, basin form, the ratio of valley floor width to valley height, the sinuosity of mountain fronts, hypsometric integral, hypsometric curve, and transverse topographic symmetry factor were some of the indices used. These findings emphasize the tremendous tectonic activity that exists in the study area. In comparison to sub-watershed N°2, sub-watersheds N°1, N°3, and N°4 had stronger tectonic activity, according to the examination of these geomorphic indicators. The Relative Tectonic Activity Index (Iat) distribution pattern, which concurred with other pieces of information such as stream deflection and lineament analysis, corroborated these conclusions. We were able to learn a lot about the different levels of tectonic activity in the sub-watersheds by using traditional geomorphic indices. The tectonic activity-exhibiting basins consistently displayed connections with structural disturbances, basin geometry, and field research. Geomorphic indices and morphometric characteristics were used to identify tectonically active zones in a portion of the Mellegue transboundary basin, which shows a considerable influence of neotectonic activity in a portion of the Neogene basin.
The aim of this contribution is the interpretation of intracratonic chains in African plates, but it is important to verify some parameters such us the oblique convergence between Africa and Europa plates. Particularly in southern central of atlassic Tunisian belts, the slickenside examination of directional preexisting faults of N120 direction shows the coexistence of thrusting and strike-slip faults striation. In the limits of these faults principally in some tectonics lens we distinguish abnormal contacts with Triassic facies. The kinematic evolution of Gafsa basin resumed in the geometry of strike-slip faults connected in the thrusting system, this movement resulted from the oblique convergence on Ben Younes, Bou Ramli and Attig chains during compressive phases. This deformation style requires a shortening axis oblique to the NW-SE accidents (N120). The strain partitioning model verify the geometry of faults and equivalent evolution of folds and confirms the Triassic decollement level but without integrated of basement structures in the deformation. It permeated a passive transport of deformation observed in cover structure.
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