Basin thermal structure in the Chilean-Pampean flat subduction zone

COLLO GILDA ; EZPELETA MIGUEL ; DÁVILA FEDERICO; MARIO E. GIMÉNEZ; SANTIAGO RUBÉN SOLER; MARTINA, FEDERICO; PILAR AVILA

The making of the Chilean-Argentinean Andes

Springer

Año: 2018; p. 537 - 564

Flat-slab segments are considered refrigerated areas given that the asthenospheric wedge is forced to shift hundreds of kilometers away from the trench, and the flat and coupled subducting plate acts as a thermal insulator. Although lithospheric-scale thermal analysis based on numerical modelling and geophysical observations abound, studies on the thermal history of sedimentary basins are scarce. In this contribution, we present a temperature data compilation from more than 60 oil wells within the Chilean-Pampean flat-slab segment and the transitional zones to normal subduction to the north and south in the south-central Andes. The geothermal gradient data are correlated with basin basal heat flow estimated from 1D modelling, Curie point depths derived from aeromagnetic surveys, and previous crustal and lithospheric thicknesses estimations. Their distribution evidences a quite good consistency and correlation from region to region. Our modelling demonstrates that sedimentation changes are not sufficient to explain the variations illustrated in the geothermal gradient map, and that basal heat flux variations are required to reproduce the reported values. According to our results, the coldestbasins develop over the flat-slab or cratonward regions, whereas the highest temperatures on areas where the slab plunges. This indicates that the flat slab geometry as well as the lithospheric structure affects strongly the thermal state within the upper crust and particularly the sedimentary basins. Further studies will allow improving our database as well as the knowledge about the radiogenic contribution of the lithosphere and the asthenospheric heatinput to the basins basal heat flow.