Eocene adakitic volcanism in southern British Columbia: Remelting of arc basalt above a slab window

The Princeton Group is an assemblage of terrestrial volcanic and clastic sedimentary rocks in south-central British Columbia, and is part of the Challis-Kamloops belt that stretches from central British Columbia to the northwestern United States. The volcanic rocks were largely deposited as cinder cones and composite volcanoes, and are composed of basaltic andesite (olivine+clinopyroxene), andesite and dacite (hornblende + plagioclase+clinopyroxene), and rhyolite (biotite +quartz+ K-feldspar), with calc-alkaline affinity. New 40Ar/39Ar dates on homblende and groundmass separates, and whole rock indicate that magmatism took place during the Early to Middle Eocene, from 53-47 Ma. New neodymium isotopic measurements, in conjunction with previously published results, indicate that the Princeton Group has an epsilon Nd-50 = 1.2-6.4 and therefore represents primarily juvenile additions to the continental crust. The major and trace element abundances of Princeton Group rocks resemble those of many modem continental arcs. The compositions are notable, however, because they have an adakitic signature that extends throughout their entire compositional range, including high-Mg# basaltic andesite. Trace element modelling indicates that this signature was not derived from anatexis of normal oceanic crust, but from an arc-like source enriched in large-ion lithophile elements. This source may have been basaltic dykes that were emplaced into the lithospheric mantle during Mesozoic arc magmatism and subsequently partially melted during an event of lithospheric heating in the Eocene. The heating may have been caused by upwelling asthenosphere related to a slab window or slab tear. (C) 2007 Elsevier BY All rights reserved. The Princeton Group is an assemblage of terrestrial volcanic and clastic sedimentary rocks in south-central British Columbia, and is part of the Challis-Kamloops belt that stretches from central British Columbia to the northwestern United States. The volcanic rocks were largely deposited as cinder cones and composite volcanoes, and are composed of basaltic andesite (olivine+clinopyroxene), andesite and dacite (hornblende + plagioclase+clinopyroxene), and rhyolite (biotite +quartz+ K-feldspar), with calc-alkaline affinity. New 40Ar/39Ar dates on homblende and groundmass separates, and whole rock indicate that magmatism took place during the Early to Middle Eocene, from 53-47 Ma. New neodymium isotopic measurements, in conjunction with previously published results, indicate that the Princeton Group has an epsilon Nd-50 = 1.2-6.4 and therefore represents primarily juvenile additions to the continental crust. The major and trace element abundances of Princeton Group rocks resemble those of many modem continental arcs. The compositions are notable, however, because they have an adakitic signature that extends throughout their entire compositional range, including high-Mg# basaltic andesite. Trace element modelling indicates that this signature was not derived from anatexis of normal oceanic crust, but from an arc-like source enriched in large-ion lithophile elements. This source may have been basaltic dykes that were emplaced into the lithospheric mantle during Mesozoic arc magmatism and subsequently partially melted during an event of lithospheric heating in the Eocene. The heating may have been caused by upwelling asthenosphere related to a slab window or slab tear. (C) 2007 Elsevier BY All rights reserved.