Abstract. The depth-dependent anisotropic structure of the lithosphere under the Borborema Province of northeast Brazil has been investigated through harmonic stripping of receiver functions developed at 39 stations in the region. This method retrieves the first (k = 1) and second (k = 2) degree harmonics of a receiver function dataset, which characterize seismic anisotropy beneath a seismic station. Anisotropic fabrics are in turn directly related to the deformation of the lithosphere from past and current tectonic processes. Our results reveal the presence of anisotropy within the crust and the lithospheric mantle throughout the entire Province, with the exception of a few stations in the continental interior that lack evidence for any anisotropic signatures. Most stations in the continental interior report consistent anisotropic orientations in the crust and lithospheric mantle, suggesting a dominant NE-SW pervasive deformation along lithospheric-scale shear zones developed during the Brasiliano-Pan African orogeny. The lack of anisotropy at a few stations along a NE-SW trend in the center on the Province is harder to explain, but might be related to heating of the lithosphere by an asthenospheric channel. Finally, several stations along the Atlantic coast reveal depth-dependent anisotropic orientations roughly (sub)perpendicular to the margin. These results suggest a more recent overprint, probably related to the presence of frozen anisotropy in the lithosphere due to stretching and rifting during the opening of the South Atlantic.