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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
1

Formation de l’orocline de la Patagonie et évolution Paléogéographique du système Patagonie-Péninsule Antarctique / Formation of the Patagonian Orocline and paleogeographic evolution of the Patagonian –Antarctic Peninsula System

Poblete Gómez, Fernando Andrés 29 September 2015 (has links)
A l’échelle continentale, la Cordillère des Andes présente d’importantes courbures. Une des plus importantes est la Courbure de la Patagonie, où le cours de l’orogène et de ses principales provinces tectoniques pivotent de près de 90°, passant d’une orientation N-S à 50°C à une orientation E-O en Terre de Feu. Malgré son importance, l’origine de la Courbure de la Patagonie et son implication dans les reconstructions paléogéographiques demeurent sujet à controverse: est-elle le résultat d’un plissement oroclinal, ou bien une caractéristique héritée? C’est dans ce contexte que j’ai réalisé une étude paléomagnétique et de susceptibilité d'anisotropie magnétique dans la région des Andes Australes. Les résultats obtenus suggèrent que la partie intérieure de cette courbure soit une caractéristique secondaire liée à l’évolution de la Péninsule Antarctique. / At the continental scale, the Andes presents significant curvatures. One of the largest is the curvature of Patagonia, where the orogen and its main tectonic provinces are rotated about 90 ° from an NS direction at 50 ° to an EO orientation in Tierra del Fuego. Despite its importance, the origin of the curvature of Patagonia and its involvement in paleogeographic reconstructions remain controversial: is the result of an oroclinal bending, or an inherited characteristic? It is in this context that I made a paleomagnetic and magnetic susceptibility anisotropy in the Austral Andes region. The results suggest that the inner part of the bend is a secondary feature linked to the evolution of the Antarctic Peninsula.In this thesis, I will present the results of a paleomagnetic and anisotropy of magnetic susceptibility (AMS) study of 146 sites sampled between 50 ° S and 55.5 ° S (85 sites in marine sedimentary rocks of the Cretaceous-Miocene of the Magallanes fold and thrust belt; 20 sites in sedimentary and volcanic rocks south of Cordillera Darwin, 41 sites in intrusive rocks of the Cretaceous-Eocene batholith. The AMS results in the sediments show that the magnetic fabric is controlled by tectonic processes, partially or completely obliterating the sedimentary fabric. In general, there is a good correlation between the orientation of the magnetic lineation and that of the fold axes except at Peninsula Brunswick. The wide variation in the orientation of magnetic fabrics within the batholith suggests an emplacement of intrusive without tectonic constraint. Paleomagnetic results obtained in Navarino Island and Hardy Peninsula, south of the Beagle Channel, show a post-tectonic remagnetization recording a counterclockwise rotation of more than 90 ° as that recorded by the intrusive rocks older than ~ 90Ma. The Upper Cretaceous to Eocene intrusive rocks record counterclockwise rotations of lower magnitude (45 ° -30 °). In contrast, the Magallanes fold and thrust belt mainly developed between the Eocene and Oligocene records little or no rotation. Spatial and temporal variations of tectonic rotations determined in this study support a model of deformation of the Austral Andes in two steps. The first step corresponds to the rotation of a volcanic arc by closing a marginal basin (the Rocas Verdes basin) and formation of Cordillera Darwin. During the propagation of deformation in the foreland, the curvature acquired by the Pacific border of the Austral Andes is accentuated by about 30 °. The tectonic reconstructions using the most recent Global Plate Tectonic model show the essential role of the convergence between the Antarctic Peninsula and South America in the formation of Patagonian orocline during the Late Cretaceous to the Eocene.

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