Journal of Petrology, Volume 40, Issue 10: October 1999.

Nature and Composition of the Lower Continental Crust in Central Spain and the Granulite-Granite Linkage: Inferences from Granulitic Xenoliths

C. VILLASECA¹, H. DOWNES², C. PIN³ AND L. BARBERO⁴

¹DEPARTAMENTO DE PETROLOGA Y GEOQUMICA, FACULTAD DE CIENCIAS GEOLÓGICAS, UNIVERSIDAD COMPLUTENSE, 28040 MADRID, SPAIN
²DEPARTMENT OF GEOLOGY, BIRKBECK COLLEGE, MALET STREET, LONDON WC1E 7HX, UK
³CNRS UMR 6524, DÉPARTEMENT DES SCIENCES DE LA TERRE, UNIVERSITÉ BLAISE PASCAL, 5 RUE KESSLER,F-63038 CLERMONT-FERRAND, FRANCE
⁴DEPARTAMENTO DE GEOLOGA, FACULTAD DE CIENCIAS DEL MAR, UNIVERSIDAD DE CÁDIZ, 11510 PUERTO REAL (CÁDIZ), SPAIN

Xenolith-bearing alkaline ultrabasic dykes were intruded into the Hercynian basement of the Spanish Central System in early Mesozoic times. The suite of lower-crustal xenoliths in the dykes can be divided into three groups: felsic peraluminous granulites, metapelitic granulites and charnockitic granulites. The felsic granulites form ~95% of the total volume of the xenoliths, whereas the charnockitic and metapelitic granulites are much less abundant (~0·01 and ~5%, respectively). Thermobarometric calculations based on mineral paragenesis indicate equilibration conditions around 850-950°C, 7-11 kbar; thus the xenoliths represent lower continental crustal material. Superimposed on this high-T high-P assemblage is a high-T low-P paragenesis represented mainly by kelyphitic coronas, reflecting re-equilibration during transport in the alkaline magma. Felsic metaigneous and metapelitic xenoliths exhibit clearly restitic mineral assemblages, with up to 50% garnet and 37% sillimanite. Major and trace element modelling supports the idea that the late-Hercynian peraluminous granites of central Spain represent liquids in equilibrium with restitic material of similar composition to the studied lower-crustal xenoliths. ⁸⁷Sr/⁸⁶Sr and [epsilon]_Nd of the felsic xenoliths, calculated at an average Hercynian age of 300 Ma, are in the range 0·706-0·712, and -1·4 to -8·2, respectively. These values match the isotopic composition of the outcropping late Hercynian granites. The Sr isotopic composition of the xenoliths is lower than that of the outcropping mid-crustal lithologies (orthogneisses, pelites). A major contribution from the lower crust to the source of Hercynian granites greatly reduces the necessity of invoking a large mantle contribution in models of granite petrogenesis. The felsic nature of the lower continental crust in central Spain contrasts with the more mafic lower-crustal composition estimated in other European Hercynian areas, suggesting a non-underplated crust in this region of the Hercynian orogenic belt.

Keywords: felsic lower continental crust;granulite xenoliths;Sr-Nd isotopes; Hercynian Iberian Belt

Pages 1465-1496