Pre-Cenomanian vs. Cenozoic folding in the High Atlas revealed by palaeomagnetic data

Palaeomagnetic data, and specifically remagnetizations, are used to constrain the geometric reconstruction at 100 Ma of three anticlines cored by gabbroic intrusions and Triassic shales in the Central High Atlas, Morocco. Previous palaeomagnetic results have revealed that the Mesozoic sediments of t...

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Veröffentlicht in:	Terra nova (Oxford, England) England), 2016-04, Vol.28 (2), p.110-119
Hauptverfasser:	Torres-López, Sara, Casas, Antonio M., Villalaín, Juan José, El Ouardi, Hamidou, Moussaid, Bennacer
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Schlagworte:	Geophysics Magma Seismology
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creator	Torres-López, Sara Casas, Antonio M. Villalaín, Juan José El Ouardi, Hamidou Moussaid, Bennacer
description	Palaeomagnetic data, and specifically remagnetizations, are used to constrain the geometric reconstruction at 100 Ma of three anticlines cored by gabbroic intrusions and Triassic shales in the Central High Atlas, Morocco. Previous palaeomagnetic results have revealed that the Mesozoic sediments of this region acquired a pervasive remagnetization at the end of the Early Cretaceous. The restoration of palaeomagnetic vectors to the remagnetization stage (100 Ma) allows us to determine the dip of the beds during this period and, thereby, to reconstruct structures during that time and determine the relative contributions of Mesozoic magmatic/diapiric uplift vs. Cenozoic compression to the present‐day dip. Our results indicate that three major anticlines in the Central High Atlas (Tasraft, Tassent and Tissila) were initiated to different degrees before the Late Cretaceous and were reactivated during Cenozoic compression to acquire their present‐day geometry. We also discuss the origin of these structures.
doi_str_mv	10.1111/ter.12197
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title	Pre-Cenomanian vs. Cenozoic folding in the High Atlas revealed by palaeomagnetic data
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