Teleseismic tomography of the southern Puna plateau in Argentina and adjacent regions

BIANCHI, M.; HEIT, B.; JAKOVLEV, A.; YUAN, X.; KAY, S.M.; SANDVOL, E.; ALONSO, R.N.; COIRA, B.; KIND, R.

TECTONOPHYSICS

ELSEVIER SCIENCE BV

Lugar: Amsterdam; Año: 2013 vol. 586 p. 65 - 83

0040-1951

An array of 74 seismological stations was deployed in the Argentine Puna and adjacent regions fora period of two years. The aim is to investigate the seismic structure in the crust and upper mantlein order to address fundamental questions regarding the processes that form, modify and destroycontinental lithosphere and control lithospheric dynamics in this part of the Central Andes. Thisportion of the Central Andes is an ideal locale to address these questions given that there isgeologic evidence that there has been recent lower crustal and mantle lithospheric delamination.We performed a teleseismic P wave tomography study using seismic events at both teleseismicand regional distances. The tomographic images show the presence of a number of positive andnegative anomalies in this region. The most prominent of these anomalies corresponds to a lowvelocity body, located in the crust, in the center of the array (approximately at 27°S, 67°W)between the Cerro Peinado volcano, the Cerro Blanco caldera and the Farallon Negro in the east.This anomaly (southern Puna Magmatic Body) is flanked by high velocities on the west and theeast respectively. On the west, this high velocity block might be related to the subducted Nazcaplate. On the east, it coincides with the position of the Hombre Muerto basin in the crust and couldbe indicating an area of lithopheric delamination where we detected a high velocity block at 100 km depth on the eastern border of the Puna plateau. This block might be related to a delaminationevent in an area with a thick crust of Paleozoic metamorphic rocks from the Eastern Cordillera. We observed lower velocities in the Puna lithosphere that could be indicative of magma chambersderived from the ascent of fluids and melts from the top of the subducted plate probably induced by delamination. Beneath the oceanic Nazca plate, a low-velocity zone can be observed at depthsgreater than 200 km. The origin of this low velocity anomaly remains unclear but it could be causedby portions of asthenospheric material in the uppermost mantle. The position of this low velocityzone is in agreement with previous observations in the same area that have suggested thepresence of a hot asthenospheric mantle upwelling induced by slab flattening.