The South Patagonian batholith : 150 my of granite magmatism on a plate margin

Herve, F.; Pankhurst, Robert; Fanning, C.M.; Calderon, M.; Yaxley, G.M.. 2007 The South Patagonian batholith : 150 my of granite magmatism on a plate margin. Lithos, 97 (3-4). 373-394. https://doi.org/10.1016/j.lithos.2007.01.007

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Official URL: http://www.sciencedirect.com/science/journal/00244...

Abstract/Summary

A new database of 70 U–Pb zircon ages (mostly determined by SHRIMP) indicates that the South Patagonian batholith resulted from the amalgamation of subduction-related plutons from the Late Jurassic to the Neogene. Construction of the batholith began with a voluminous, previously undetected, Late Jurassic bimodal body mainly composed of leucogranite with some gabbro, emplaced along its present eastern margin within a restricted time span (157 to 145 Ma). This episode is, at least in part, coeval with voluminous rhyolitic ignimbrites of the Tobífera Formation, deposited in the deep Rocas Verdes Basin east of the batholith; this was the last of several southwestward-migrating silicic volcanic episodes in Patagonia that commenced in an Early Jurassic extensional tectonic regime. The quasi-oceanic mafic floor of the basin was also contemporaneous with this Late Jurassic batholithic event, as indicated by mutually cross-cutting field relationships. Changes in subduction parameters then triggered the generation of earliest Cretaceous plutons (Cretaceous 1: 144–137 Ma) west of the Late Jurassic ones, a westward shift that culminated at 136–127 Ma (Cretaceous 2) along the present western margin of the batholith. Most mid- to Late Cretaceous (Cretaceous 3: 126–75 Ma) and Paleogene (67–40 Ma) granitoids are represented by geographically restricted plutons, mainly emplaced between the previously established margins of the batholith, and mostly in the far south; no associated volcanic rocks of similar age are known at present in this area. During the final Neogene stage of plutonism (25–15 Ma) a recurrence of coeval volcanism is recognized within and east of the batholith. Typical εNdt values for the granitoids vary from strongly negative (− 5) in the Late Jurassic, to progressively higher values for Cretaceous 1 (− 4), Cretaceous 2 (− 0.7), Cretaceous 3 (+ 2) and the Paleogene (+ 5), followed by lower and more variable ones in the Neogene (− 1 to + 5). These variations may reflect different modes of pluton emplacement: large crustal magma chambers developed in the early stages (Late Jurassic to Cretaceous 1), leading to widespread emplacement of plutons with a crustal signature, whereas the Cretaceous 2, Cretaceous 3 and Palaeogene parts of the batholith resulted from incremental assembly of small plutons generated at greater depths and with higher εNdt. This does not in itself justify the idea of a reduction in crustal character due to progressive exhaustion of fusible material in the crust through which the magmas passed.

Item Type:	Publication - Article
Digital Object Identifier (DOI):	https://doi.org/10.1016/j.lithos.2007.01.007
Programmes:	BGS Programmes > Seismology and Geomagnetism
ISSN:	0024-4937
Additional Keywords:	Batholiths, Patagonia, Mesozoic, Cenozoic
NORA Subject Terms:	Earth Sciences
Date made live:	16 Dec 2009 16:10 +0 (UTC)
URI:	https://nora.nerc.ac.uk/id/eprint/4208

Item Type:

Publication - Article

Digital Object Identifier (DOI):

https://doi.org/10.1016/j.lithos.2007.01.007

Programmes:

BGS Programmes > Seismology and Geomagnetism

ISSN:

0024-4937

Additional Keywords:

Batholiths, Patagonia, Mesozoic, Cenozoic

NORA Subject Terms:

Earth Sciences