INVESTIGADORES
ALASINO pablo Horacio
congresos y reuniones científicas
Título:
CONSTRUCCIÓN DEL MARGEN PROTO-PACÍFICO DEL SUDOESTE DE GONDWANA EN EL ORDOVÍCICO. EVIDENCIAS DE LA CRONOLOGÍA U-Pb Y LOS ISÓTOPOS DE Hf Y O EN CIRCÓN
Autor/es:
RAPELA, C.W.,; PANKHURST R.; CASQUET, C; FANNING, C.M.; DAHLQUIST, J. A.; GALINDO, C; VERDECCHIA, S.; BALDO, E.; MURRA, J.; ALASINO P.H.; RAMACCIOTI, C.
Reunión:
Congreso; XX Congreso Geológico Argentino; 2017
Resumen:
New U-Pb ages and Hf and O isotope determinations in zircon havebeen obtained from a 500 km transect in the Sierras Pampeanas and two different areas of NE Patagonia that allows us (a) to raise strict isotopic and geochemical constraints on the origin of the Famatinian (Ordovician) magmas and(b) to develop a geodynamic scenario for the construction of the SW Gondwana margin. In the Sierras Pampeanas, the Famatinian orogen has been subdivided into four domains: Western (WFD), Central (CFD), Eastern (EFD) andForeland (FFD). Early Ordovician magmatism dominates the transect from 485 Ma to 468 Ma, with major flare-ups at 480 ± 3 Ma and 470 ± 2 M. The distribution of ages suggest expansion of the main arc towards the west, as rocksof the older pulse has not been reported in the western sector of the CFD and the WFD: large crustal sections are entirely composed by rocks of the younger pulse. Famatinian basic rocks mostly show the same evolved whole-rock Sr and Nd isotopic signature and zircon ɛHft values as the intermediate and acid rocks of the same metaluminous sequence. Thus a complete Proterozoic litho -spheric section including the subcontinental mantle has been proposed as the primary magma source. Hybridization of these magmas with high 87Sr/86 initial ratio and high δ18O? (zircon) melts of Ediacaran and Early Paleozoicmetasediments can account for most of the Famatinian magmas in the Sierras Pampeanas and Patagonia.