Kinematics of Structures and Basin Evolution in the Central High Atlas.Constraints from AMS and Paleomagnetic Data

  1. Antonio M. Casas-Sainz
  2. Juan J. Villalaín
  3. Teresa Román-Berdiel
  4. Pablo Calvín
  5. Marcos Marcén
  6. Esther Izquierdo
  7. Pablo Santolaria
  8. Andrés Pocoví
  9. Tania Mochales
  10. Belén Oliva-Urcia
  11. Hmidou El-Ouardi
  12. Bennacer Moussaid
Buch:
Tectonic evolution of the Moroccan High Atlas :: a paleomagnetic perspective : magnetic techniques (anisotropy of magnetic susceptibility and paleomagnetism) applied to the understanding of the evolution of an intra-plate mountain chain
  1. Casas Sainz, Antonio M. (coord.)
  2. Calvín Ballester, Pablo (coord.)
  3. Román Berdiel, María Teresa (coord.)
  4. Villalaín, J. J (coord.)

Verlag: Cham, Switzerland : Springer, cop. 2023

ISBN: 9783031166921

Datum der Publikation: 2023

Seiten: 487-646

Art: Buch-Kapitel

DOI: 10.1007/978-3-031-16693-8_6 DIALNET GOOGLE SCHOLAR

Ziele für nachhaltige Entwicklung

Zusammenfassung

From the application of the magnetic techniques (Anisotropy of Magnetic Susceptibility and paleomagnetism) it can be seen that to determine the age (and origin) of structures in the Moroccan Central High Atlas is not straightforward from geometrical features only and that similar structures can have different origins, or that the two limbs of a particular structure can have developed at different times. A classification of structures is proposed showing all these possibilities. As a general rule, many structures were initiated before compression and, with local exceptions associated with salt structures, paleo-dips were shallow at the remagnetization stage. This has allowed the restoration of structures and the characterization of the overall geometry of the atlasic basin as a narrow, steer’s head strongly subsiding basin whose geometry strongly conditioned its tectonic inversion during the Cenozoic compressional stage. As a synthesis, the Central High Atlas constitutes a good example of intra-plate chain in which different models of basin formation (continental rifting, salt tectonics, transtension) and inversion (thrust tectonics, transpression, buttressing and internal deformation…) can be tested and visualized.