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Wilson, Reginald A (2003) Geochemistry and petrogenesis of Ordovician arc-related mafic volcanic rocks in the Popelogan Inlier, northern New Brunswick. Canadian Journal of Earth Sciences, 40 (9) 1171-1189 doi:10.1139/e03-034

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Reference TypeJournal (article/letter/editorial)
TitleGeochemistry and petrogenesis of Ordovician arc-related mafic volcanic rocks in the Popelogan Inlier, northern New Brunswick
JournalCanadian Journal of Earth Sciences
AuthorsWilson, Reginald AAuthor
Year2003 (September 1)Volume40
Issue9
PublisherCanadian Science Publishing
DOIdoi:10.1139/e03-034Search in ResearchGate
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Mindat Ref. ID483846Long-form Identifiermindat:1:5:483846:7
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Full ReferenceWilson, Reginald A (2003) Geochemistry and petrogenesis of Ordovician arc-related mafic volcanic rocks in the Popelogan Inlier, northern New Brunswick. Canadian Journal of Earth Sciences, 40 (9) 1171-1189 doi:10.1139/e03-034
Plain TextWilson, Reginald A (2003) Geochemistry and petrogenesis of Ordovician arc-related mafic volcanic rocks in the Popelogan Inlier, northern New Brunswick. Canadian Journal of Earth Sciences, 40 (9) 1171-1189 doi:10.1139/e03-034
In(2003, September) Canadian Journal of Earth Sciences Vol. 40 (9) Canadian Science Publishing
Abstract/Notes The Popelogan Inlier consists mainly of mafic volcanic rocks (lapilli tuffs and massive to amygdaloidal, plagioclase-phyric flows) of the Middle Ordovician Goulette Brook Formation. Pyroclastic rocks include high-MgOCrNi picritic tuffs (type I) containing, in some cases, >20% MgO, and related high-MgO andesitic tuff (type II). High-MgO rocks were generated by 3040% partial melting of an enriched mantle source; type II is descended from type I mainly by fractionation of olivine. Mafic flows comprise basaltic andesites (type III) with low trace-element abundances and strongly fractionated, trace-element-enriched andesites (type IV). Types III and IV represent ~20 and ~10% partial melts, respectively, of a mantle source similar to that of the pyroclastic rocks, based on similar ratios of high field strength elements (HFSE). Unlike types I and II, petrogenesis of mafic flows involved fractionation of plagioclase and possibly amphibole. Volcanic arc signatures include negative Nb and Ti anomalies in all basalt types, along with low abundances of HFSE. Trace-element abundances are inconsistent with prior depletion in the back arc and require involvement of a mantle plume or subcontinental lithosphere. The highly magnesian composition of the picrites demands high melting temperatures and rapid transit through the crust, both of which suggest extension of the arc-bearing plate. Compositionally similar rocks in the South Pacific are associated with unusual tectono-magmatic settings involving ridge subduction, which may have established the necessary extensional environment. It is proposed that subduction of a plume-influenced ridge segment could explain the chemistry of the Goulette Brook volcanic rocks.

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Landing, Ed, Westrop, Stephen R, Kim, Dong Hee (2003) First Middle Ordovician biota from southern New Brunswick: stratigraphic and tectonic implications for the evolution of the Avalon continent. Canadian Journal of Earth Sciences, 40 (5) 715-730 doi:10.1139/e03-009
West Jr., David P, Beal, Heather M, Grover, Timothy W (2003) Silurian deformation and metamorphism of Ordovician arc rocks of the Casco Bay Group, south-central Maine. Canadian Journal of Earth Sciences, 40 (6) 887-905 doi:10.1139/e03-021
Dostal, J., Wilson, R. A., Keppie, J. D. (1989) Geochemistry of Siluro-Devonian Tobique volcanic belt in northern and central New Brunswick (Canada): tectonic implications. Canadian Journal of Earth Sciences, 26 (6) 1282-1296 doi:10.1139/e89-108
Wilson, Reginald A, Burden, Elliott T, Bertrand, Rudolf, Asselin, Esther, McCracken, Alexander D (2004) Stratigraphy and tectono-sedimentary evolution of the Late Ordovician to Middle Devonian Gaspé Belt in northern New Brunswick: evidence from the Restigouche area. Canadian Journal of Earth Sciences, 41 (5) 527-551 doi:10.1139/e04-011
Helmstaedt, Herwart (1978) Geochemistry of volcanic rocks from the Tetagouche Group, Bathurst, New Brunswick, Canada: Discussion. Canadian Journal of Earth Sciences, 15 (10) 1680-1681 doi:10.1139/e78-175
Wilson, R. A., van Staal, C. R., Kamo, S. (2008) Lower Silurian subduction-related volcanic rocks in the Chaleurs Group, northern New Brunswick, CanadaGeological Survey of Canada, Contribution No. 2008-0166.Contribution to Natural Resources Canada’s Targeted Geoscience Initiative 3 (2005–2010). Canadian Journal of Earth Sciences, 45 (9) 981-998 doi:10.1139/e08-051
Winchester, J. A., Staal, C. R. van, Langton, J. P. (1992) The Ordovician volcanics of the Elmtree–Belledune inlier and their relationship to volcanics of the northern Miramichi Highlands, New Brunswick. Canadian Journal of Earth Sciences, 29 (7) 1430-1447 doi:10.1139/e92-115
Sandeman, H A, Cousens, B L, Hemmingway, C J (2003) Continental tholeiitic mafic rocks of the Paleoproterozoic Hurwitz Group, Central Hearne sub-domain, Nunavut: insight into the evolution of the Hearne sub-continental lithosphere. Canadian Journal of Earth Sciences, 40 (9) 1219-1237 doi:10.1139/e03-035
Simard, Renée-Luce, Dostal, Jaroslav, Roots, Charlie F (2003) Development of late Paleozoic volcanic arcs in the Canadian Cordillera: an example from the Klinkit Group, northern British Columbia and southern Yukon. Canadian Journal of Earth Sciences, 40 (7) 907-924 doi:10.1139/e03-025
Whitehead, R. E. S., Goodfellow, W. D. (1978) Geochemistry of volcanic rocks from the Tetagouche Group, Bathurst, New Brunswick, Canada. Canadian Journal of Earth Sciences, 15 (2) 207-219 doi:10.1139/e78-021
Fyffe, L. R., Barr, S. M. (1986) Petrochemistry and tectonic significance of Carboniferous volcanic rocks in New Brunswick. Canadian Journal of Earth Sciences, 23 (9) 1243-1256 doi:10.1139/e86-121
 
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