INVESTIGADORES
BAEZ Walter Ariel
congresos y reuniones científicas
Título:
Field study and three-dimensional reconstruction of thrusts and strike-slip faults in the Central Andes: implications for deep-seated geothermal circulation and ore deposits exploration
Autor/es:
GIANLUCA NORINI; GIANLUCA GROPPELLI; GIORDANO GUIDO; BAEZ WALTER; BECCHIO RAÚL; VIRAMONTE JOSE G.; M. ARNOSIO
Reunión:
Congreso; EGU General Assembly 2014; 2014
Institución organizadora:
EGU
Resumen:
The Puna plateau (NW Argentina), located in the back-arc of the Central Andes, is a plateau characterized byboth orogen-parallel and orogen-oblique deformation styles, extensive magmatic and geothermal activity, andthe broad occurrence of igneous and hydrothermal ore-forming minerals. In this area, like in other convergentmargins, the behaviour of the magma-tectonics interplay can affect the circulation of hydrothermal fluids, so thatthe full comprehension of the tectonic control on the magmas and fluids paths in the continental crust is crucial toplan the geothermal and ore exploration.In this study, we present a structural analysis of the back-arc portion of the orogen-oblique Calama-Olacapato-ElToro fault system and the surrounding orogen-parallel thrust faults in the central-eastern Puna Plateau, comprisingthe Cerro Tuzgle-Tocomar geothermal volcanic area, with high geothermal potential, and silicic calderas anddomes associated with epithermal ore deposits. We also focused on the tectonic and volcanotectonic structures ofthe Chimpa and Tuzgle stratovolcanoes, two of the most important polygenetic volcanic centres of the plateau.Morphostructural analysis and field mapping reveal the geometry, kinematics and dynamics of the tectonicstructures of the studied area. These data and the available stratigraphic and geophysical data have been integratedwith the software MOVE and PETREL in a three-dimensional reconstruction of the main fault planes, showingtheir attitude and intersections at depth.As a result of our study, we show that despite different geometry and kinematics of the Calama-Olacapato-ElToro fault system and the thrust faults, they formed and evolved under the same progressive evolving dynamicstate, forming a single tectonic system and accommodating crustal shortening of a thickened crust. In thisframe, the crust underwent simultaneous deformation along both the low-angle thrust faults and the verticaltranscurrent strike-slip faults, with the latter developed as transfer zones among the main thrusts. Both reverseand transcurrent displacements resulted from the interplay between the compressive regime of the plateau, withhorizontal maximum principal stress, and the vertical thickening of the upper crust.The study suggests that the tectonic control on the magma and fluid circulation in the crust is mainly relatedto the geometry of the fault planes and the orientation of the stress field, with an important role played by theorogen-parallel thrust faults and horizontal maximum principal stress in determining the secondary permeability,the arrangement at depth of potential cap rocks and reservoir units, the structure and location of monogenetic andpolygenetic volcanoes and the geometry of mineral veins.