3D deformation in strike-slip systems: Analogue modelling and numerical restoration Deformación 3D en sistemas de rumbo: Modelación analógica y restauración numérica
Keywords: model, uplift, rotation, modeling, chile, fault, numerical, thrust, transpression, analog, rock, basement, transtension, reverse, strike-slip, three-dimensional
Abstract
Regional and local strike-slip systems in Chile are complex and pose interesting questions, such as the interaction between strike-slip and reverse faults, how they evolve, and the relationship between shortening, rotation and uplift. Within this context, we developed a new analytical method based on analogue and numerical modelling applied to 3D, pure and transtensional-transpressional strike-slip systems. Analogue modelling results indicate that in restraining stepovers of strike-slip fault systems, where antiformal pop-up structures are usually formed, pre-existent basement structures with a high angle to the main strike-slip fault will generate a higher rotation of blocks. However, when these structures are oriented at a high angle with respect to the main stress convergence vector, the rotation will be less and therefore a higher tendency to uplift will be produced. These results were applied to NW- and SE-striking basement faults oblique to N-S mega-thrust faults in central Chile (32°-35°S), for which we propose a simultaneous development based on the analogue model results. Moreover, we propose that strike-slip movement occurred on thrust faults in central Chile. Furthermore, we performed a numerical restoration of an analogue experiment which modeled a pure strike-slip system, and concluded that the restoration is very sensitive to shortening data as well as to rotational data. These results are extremely important for future numerical and regional analysis of strike-slip systems.
Más información
Título de la Revista: | ANDEAN GEOLOGY |
Volumen: | 39 |
Número: | 2 |
Editorial: | SERVICIO NACIONAL GEOLOGIA MINERVA |
Fecha de publicación: | 2012 |
Página de inicio: | 295 |
Página final: | 316 |
URL: | http://www.scopus.com/inward/record.url?eid=2-s2.0-84864100866&partnerID=q2rCbXpz |