Por favor, use este identificador para citar o enlazar este ítem: http://repositorio.ufc.br/handle/riufc/68655
Tipo: Artigo de Periódico
Título : Radiometric, magnetic, and gravity study of the Quixadá batholith, central Ceará domain (NE Brazil): evidence for Pan-African/Brasiliano extension-controlled emplacement
Autor : Castro, David Lopes de
Castelo Branco, Raimundo Mariano Gomes
Martins, Guttenberg
Castro, Neivaldo Araújo de
Palabras clave : Geophysics;Granite;Deformation;Geofísica;Granito;Defomação
Fecha de publicación : 2002
Editorial : Journal of South American Earth Sciences
Citación : CASTRO, David Lopes de; CASTELO BRANCO, Raimundo Mariano Gomes; MARTINS, Guttenberg; CASTRO, Neivaldo Araújo de. Radiometric, magnetic, and gravity study of the Quixadá batholith, central Ceará domain (NE Brazil): evidence for Pan-African/Brasiliano extension-controlled emplacement. Journal of South American Earth Sciences, Argentina, n. 5, p.543–551, 2002
Abstract: A geophysical survey was conducted in the central Ceara ́ domain of the Borborema Province (NE Brazil). The aim of this investigation was to find geophysical evidence for the emplacement of the Quixada ́ batholith, which is a granitic body probably situated in the local extensional site in the oblique collisional regime of the Pan-African/Brasiliano collage. Remote sensing and airborne geophysical data provided information on the regional deformation that affected the intrusion and surrounding country rocks. In addition, a gravity study was used to determine the three-dimensional geometry and constrain the emplacement model of the Quixada ́ granite at depth. The trajectories of structural and magnetic lineaments suggest that the regional deformation is strongly influenced by dextral transcurrent movements of the major shear zones. The batholith, which shows an unusual positive gravity anomaly and a low U counts, displays a subhorizontal floor with several gently dipping areas, which are interpreted as magma feeder channels. The 2300 m thick root zones are roughly aligned with NE– SW-trending shear zones. Finally, the internal architecture of the pluton suggests that the Quixada ́ batholith was emplaced in a dilational shear zone tip area at the north end of Quixeramobim shear zone.
URI : http://www.repositorio.ufc.br/handle/riufc/68655
ISSN : 0895-9811
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