Block modeling of crustal deformation in Tierra del Fuego from GNSS velocities

• Published in: Tectonophysics Vol. 651-652; pp. 58 - 65
• Main Authors: Mendoza, L., Richter, A., Fritsche, M., Hormaechea, J.L., Perdomo, R., Dietrich, R.
• Format: Journal Article
• Language: English
• Published: Elsevier B.V 31.05.2015
• Subjects: Continental transform boundary; GNSS velocities; Interseismic deformation; Magallanes-Fagnano Fault System; Tierra del Fuego; Interseismic deformation; GNSS velocities; Continental transform boundary; Tierra del Fuego; Magallanes-Fagnano Fault System
• ISSN: 0040-1951; 1879-3266
• DOI: 10.1016/j.tecto.2015.03.013

The Tierra del Fuego (TDF) main island is divided by a major transform boundary between the South America and Scotia tectonic plates. Using a block model, we infer slip rates, locking depths and inclinations of active faults in TDF from inversion of site velocities derived from Global Navigation Satellite System observations. We use interseismic velocities from 48 sites, obtained from field measurements spanning 20years. Euler vectors consistent with a simple seismic cycle are estimated for each block. In addition, we introduce far-field information into the modeling by applying constraints on Euler vectors of major tectonic plates. The difference between model and observed surface deformation near the Magallanes Fagnano Fault System (MFS) is reduced by considering finite dip in the forward model. For this tectonic boundary global plate circuits models predict relative movements between 7 and 9mmyr−1, while our regional model indicates that a strike-slip rate of 5.9±0.2mmyr−1 is accommodated across the MFS. Our results indicate faults dipping 66−4+6° southward, locked to a depth of 11−5+5km, which are consistent with geological models for the MFS. However, normal slip also dominates the fault perpendicular motion throughout the eastern MFS, with a maximum rate along the Fagnano Lake. •A strike slip rate of 5.9mm/year was determined for the MFS in Tierra del Fuego.•The deformation is consistent with finite dipping faults locked to a depth of 11km.•Normal slip also dominates the fault perpendicular motion throughout eastern MFS.