U–Pb dating of the Madeira Suite and structural control of the albite-enriched granite at Pitinga (Amazonia, Brazil): Evolution of the A-type magmatism and implications for the genesis of the Madeira Sn–Ta–Nb (REE, cryolite) world-class deposit

•Three successive episodes of A-type magmatism and basin formation occurred.•The albite-enriched granite emplacement occurred in a different tectonic setting.•Three types of structures concentrated the last magmatic-related fluid.•The data and interpretations imply crucial constraints on the petrologic models.•A comprehensive model for the geological evolution of the Pitinga region is proposed.

The Madeira Sn–Nb–Ta deposit corresponds to the albite-enriched facies of Madeira granite (Madeira Suite) that is part of a NE–SW alignment of three granitic bodies. Structural analyses suggest that the albite-enriched granite emplacement and development of related structures occurred in a different tectonic setting than earlier facies of the granitic bodies in the NE–SW alignment and that the structure was dominated by a N-NE-trending shortening related to a left-lateral motion along a NE–SW corridor within a Riedel shear. Three types of structures (flat-lying, near vertical fractures, and geodes/miaroles) concentrated the last magmatic-related fluid in the albite-enriched granite. U–Pb in situ zircon dating of the albite-enriched granite yielded an age of 1822 ± 22 Ma. The other granitic plutons of the Madeira Suite, Água Boa granite (topaz-granite facies), and Europa per-alkaline granite formed at 1825 ± 14 Ma, 1831 ± 11 Ma, and 1839 ± 10 Ma, respectively. The granite bodies of the Madeira Suite occur in an area occupied by a cauldron complex composed of volcanic sequences (Iricoumé Group) and associated A-type granites (Mapuera Suite), and their formation was controlled by the reactivation of the cauldron structures and the pre-existing structures. The gap between the cauldron complex and the Madeira Suite is no greater than 35 Ma. The geological evolution was reanalyzed from the perspective of an entire extensional environment where three successive episodes of A-type magmatism and basin formation (Urupi Formation) occurred. The data and interpretations of this work imply crucial constraints on the petrologic models proposed for the albite-enriched granite and, consequently, on the genesis of the Madeira deposit.