Journal ArticleDOI
Episodic arc-ophiolite emplacement and the growth of continental margins: Late accretion in the Northern Irish sector of the Grampian-Taconic orogeny
Steven P. Hollis,Stephen Roberts,Mark R. Cooper,Garth Earls,Richard Herrington,Daniel J. Condon,Mark E. Cooper,Sandy M. Archibald,Stephen J. Piercey +8 more
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In this paper, three distinct phases of arc-ophiolite accretion have been recognized and correlated within the Tyrone Volcanic Group of Northern Ireland have allowed all three episodes to now be correlated into the British and Irish Caledonides.Abstract:
In order to understand the progressive growth of continental margins and the evolution of continental crust, we must first understand the formation of allochthonous ophiolitic and island-arc terranes within ancient orogens and the nature of their accretion. During the early Paleozoic closure of the Iapetus Ocean, diverse sets of arc terranes, oceanic tracts, and ribbon-shaped microcontinental blocks were accreted to the passive continental margin of Laurentia during the Grampian-Taconic orogeny. In the northern Appalachians in central Newfoundland, Canada, three distinct phases of arc-ophiolite accretion have been recognized. New field mapping, high-resolution airborne geophysics, whole-rock and Nd-isotope geochemistry, and U-Pb zircon geochronology within the Tyrone Volcanic Group of Northern Ireland have allowed all three episodes to now be correlated into the British and Irish Caledonides. The Tyrone Volcanic Group (ca. 475–469 Ma) is characterized by mafic to intermediate lavas, tuffs, rhyolite, banded chert, ferruginous jasperoid, and argillaceous sedimentary rocks cut by numerous high-level intrusive rocks. Geochemical signatures are consistent with formation within an evolving peri-Laurentian island-arc/backarc, which underwent several episodes of intra-arc rifting prior to its accretion at ca. 470 Ma to an outboard peri-Laurentian microcontinental block. Outriding microcontinental blocks played a fundamental role within the orogen, explaining the range of ages for Iapetan ophiolites and the timing of their accretion, as well as discrepancies between the timing of ophiolite emplacement and the termination of the Laurentian Cambrian–Ordovician shelf sequences. Accretion of the Tyrone arc and its associated suprasubduction-zone ophiolite represents the third stage of arc-ophiolite emplacement to the Laurentian margin during the Grampian-Taconic orogeny in the British and Irish Caledonides.read more
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Four billion years of ophiolites reveal secular trends in oceanic crust formation
TL;DR: In this article, the authors combine a geological, geochemical and tectonic dataset from 118 ophiolite complexes of the major global Phanerozoic orogenic belts with similar datasets of Ophiolites from 111 Precambrian greenstone belts to construct an overview of oceanic crust generation over 4 billion years.
Journal ArticleDOI
The Laurentian Caledonides of Scotland and Ireland
David Chew,Rob Strachan +1 more
TL;DR: In this article, the authors reviewed all the tectonic events associated with the development and closure of the Iapetus Ocean and reviewed the temporal evolution of the Caledonian Orogeny.
Journal ArticleDOI
Timing and heat sources for the Barrovian metamorphism, Scotland
Daniel R. Viete,Daniel R. Viete,Grahame J.H. Oliver,Grahame J.H. Oliver,Geoff Fraser,Marnie Forster,Gordon S. Lister +6 more
TL;DR: In this paper, the age of peak metamorphism of Barrovian migmatites was calculated using the SHRIMP U/Pb zircon ages of 472.2 ± 5.9 Ma and 471.2± 5.8 Ma, respectively.
Journal ArticleDOI
The Zhaheba ophiolite complex in Eastern Junggar (NW China): Long lived supra-subduction zone ocean crust formation and its implications for the tectonic evolution in southern Altaids
Jun Luo,Wenjiao Xiao,Wenjiao Xiao,John Wakabayashi,Chunming Han,Ji'en Zhang,Bo Wan,Songjian Ao,Zhiyong Zhang,Zhonghua Tian,Dongfang Song,Yichao Chen +11 more
TL;DR: The Zhaheba ophiolite complex as discussed by the authors consists of ultramafic rocks, gabbro, diorite, basalt and basalt intruded by diabase dikes and porphyry.
Abstract: Tectonic architecture of an arc-arc collision zone, Newfoundland Appalachians
TL;DR: The GAC Newfoundland Section, 2007 Spring Technical Meeting Atlantic Geology, 2007, Volume 43, Number 1 Copyright © 2015 Atlantic geology as discussed by the authors 1.1.1 1.
References
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Journal ArticleDOI
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Ti-V plots and the petrogenesis of modern and ophiolitic lavas
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