Lithospheric thinning under the Araripe Basin (NE Brazil) from a long-period magnetotelluric survey: Constraints for tectonic inversion

The lithospheric architecture of the western Borborema Province and northern Sao Francisco craton of NE Brazil has been investigated through analysis of long-period magnetotelluric data acquired along a 700 km long survey, using 12 instruments. The survey samples several tectonic terrains in the Province and penetrates into the adjacent Sao Francisco craton after crossing the Araripe Basin, an aborted rift basin filled with Mesozoic sediments that peak at 1000 m above mean sea level. High conductivities are observed at shallow depths under the main Precambrian shear zones that pervade the Province- consistent with tectonic reactivation- and as a small patch embedded within the high resistivities that characterize the Sao Francisco craton. High conductivities (-2511m) are also observed below 120 km depth between the Patos and Pernambuco lineaments- right under the Araripe Basin- flanked by resistive (>12012m) material immediately to the north and south. This deep, highly conductive body is found consistent with the presence of melt and aqueous fluids, and is interpreted as shallow asthenospheric mantle bounded by thicker lithosphere. We propose that extensional stresses in the Mesozoic stretched and thinned the lithosphere under the Araripe Basin, causing passive upwelling of asthenospheric material and lateral flow of the overlying lithosphere, and resulting in thickening of the lithosphere under the flanks and uplift of the Araripe Basin. We also hypothesize that thermal weakening of the lithospheric mantle- perhaps sustained by channeling of asthenospheric flows under the basin- would have caused regional stresses to concentrate in the brittle upper crust and contribute to basin inversion. We thus propose that a combination of localized horizontal stresses and vertical buoyancy from underlying asthenospheric material are ultimately responsible for the actual topography of the Araripe Basin. (C) 2019 International Association for Gondwana Research. Published by Elsevier B.V. All rights reserved.