INVESTIGADORES
BERTOTTO Gustavo Walter
artículos
Título:
Xenoliths from Cerro de los Chenques (Patagonia): An example of slab-related metasomatism in the backarc lithospheric mantle
Autor/es:
RIVALENTI GIORGIO; MAZZUCCHELLI MAURIZIO; ZANETTI ALBERTO; VANNUCCI RICCARDO; BOLLINGER CLAIRE; HÉMOND, CHRISTOPHE; BERTOTTO GUSTAVO W.
Revista:
LITHOS
Editorial:
ELSEVIER
Referencias:
Año: 2007 vol. 99 p. 45 - 67
ISSN:
0024-4937
Resumen:
The alkali basalts of the Cerro de los Chenques quaternary backarc volcano (200 km E of the volcanic arc) carry to the surface abundant spinel-facies mantle xenoliths (lherzolites, harzburgites and dunites). The clinopyroxene geochemistry indicates that the pristine mantle was a lherzolite with Depleted Mantle (DM) composition, recording either melting episodes triggered by infiltration of a metasomatic agent or only enrichment of highly incompatible elements in those sectors where percolation occurred under decreasing fluid volume. Metasomatism was operated by a fluid originated in garnet-bearing assemblages that induced olivine and clinopyroxene dissolution, variations in the Sr and Nd isotopic signatures (i.e. pre-metasomatic mantle: 87Sr/86Sr=0.702712 and 143Nd/144Nd= 0.513495; xenoliths recording the highest metasomatism: 87Sr/86Sr=0.704234 and 143Nd/144Nd=0.512870), and increase in LILE and LREE, but not in Nb and Ti. The resulting geochemical characteristics are similar to those observed in arc magmas and are consistent with the signatures of sediments and basalts forming the upper part of the subducted Nazca plate. Evidence for element fractionation operated by infiltration of the host alkali basalts and related reactive porous-flow processes are lacking or weak. The granoblastic texture of the xenoliths, bearing no evidence of deformation, rules out the hypothesis that the Chenques mantle formed in the subarc and was transported 200 km to the east by reverse corner flow. Alternatively, it is suggested that the slab components were released as supercritical fluids beneath Chenques (at ~6 GPa) by phengite breakdown. Fluids flowed through, and reacted with, the hidden garnet-facies mantle and reached the observed spinel-facies level. Reactions in the hidden mantle region led the supercritical fluid to increase (La/Sm)N, Th, U, Nb, Pb and Sr while decreasing its initial (Sm/Yb)N and Ti.