Orejana García, DavidVillaseca González, CarlosBillstrom, KjellPaterson, Bruce A.2023-06-202023-06-2020080010-7999DOI 10.1007/s00410-008-0297-xhttps://hdl.handle.net/20.500.14352/49620The original publication is available at www.springerlink.comBasic to ultrabasic alkaline lamprophyres and diabases intruded within the Spanish Central System (SCS) during Upper Permian. Their high LREE, LILE and HFSE contents, together with positive Nb–Ta anomalies, link their origin with the infiltration of sublithospheric K-rich fluids. These alkaline dykes may be classified in two distinct groups according to the Sr–Nd isotope ratios: (1) a depleted PREMA-like asthenospheric component, and (2) a BSE-like lithospheric component. A slight enrichment in radiogenic 207Pb and 208Pb allows the contribution of a recycled crustal or lithospheric component in the mantle sources. The intrusion of this alkaline magmatism is likely to have occurred due to adiabatic decompression and mantle upwelling in the context of the widespread rifting developed from Carboniferous to Permian in western Europe. The clear differences in the geochemical affinity of Lower Permian basic magmas from north-western and south-western Europe might be interpreted in terms of a more extensive separation of both regions during that period, until they were assembled during Upper Permian.engjournal articlehttp://www.springer.com/geology/journal/410open access552.3(234.1)LamprophyresAlkaline magmatismAsthenospheric mantlePermian riftingWestern EuropePetrología