U-Pb zircon ages and Sm-Nd isotopic data from the Cobequid Highlands, Nova Scotia, Canada: New contributions to understanding the Neoproterozoic geologic history of Avalonia
Author:
White Chris E.1, Barr Sandra M.2, Crowley James L.3, van Rooyen Deanne4, MacHattie* Trevor G.1
Affiliation:
1. Geoscience and Mines Branch, Nova Scotia Department of Natural Resources and Renewables, Halifax, Nova Scotia B3J 2T9, Canada 2. Department of Earth and Environmental Science, Acadia University, Wolfville, Nova Scotia B4P 2R6, Canada 3. Department of Geosciences, Boise State University, Boise, Idaho 83725-1535, USA 4. Department of Mathematics, Physics, and Geology, Cape Breton University, Sydney, Nova Scotia B1P 6L2, Canada
Abstract
ABSTRACT
Forty-three new U-Pb zircon ages from metasedimentary and igneous rock units throughout the Cobequid Highlands of northern mainland Nova Scotia, Canada, provide new insights into the Neoproterozoic evolution of this long-enigmatic part of Avalonia in the northern Appalachian orogen. Contrasts in ages and rock types resulted in the identification of fault-bounded Neoproterozoic assemblages of units forming the Bass River, Jeffers, and Mount Ephraim blocks. In the Bass River block, quartzite, metawacke, and minor calc-silicate rocks and marble (Gamble Brook Formation) with a maximum depositional age of 945 ± 12 Ma are associated with subaqueous mafic volcanic rocks, siltstone, and ironstone (Folly River Formation) and intruded by 615–600 Ma calc-alkalic subduction-related dioritic to granitic rocks of the Bass River plutonic suite. The contrasting Jeffers block forms most of the Cobequid Highlands and consists mainly of intermediate to felsic volcanic, epiclastic, and minor plutonic rocks. The western and eastern areas of that block yielded ages mainly ca. 607–592 Ma for both volcanic and plutonic rocks, whereas the central area has ages of ca. 630–625 Ma from both volcanic and plutonic rocks and inheritance in overlying Devonian conglomerate. The Mount Ephraim block forms the eastern part of the highlands and includes possible ca. 800 Ma quartzofeldspathic, semipelitic and pelitic gneiss and schist of the Mount Thom Formation, ca. 752 Ma volcanic arc rocks of the Dalhousie Mountain Formation and related 752–730 Ma gabbroic/dioritic to granitic plutons of the Mount Ephraim plutonic suite and Six Mile Brook pluton, as well as ca. 631 Ma granitoid rocks of the Gunshot Brook pluton. The pre–750 Ma high-grade regional metamorphism and deformation and 752–730 Ma subduction-related magmatism recorded in the Mount Ephraim block were previously unrecognized in Avalonia. Evidence from zircon inheritance and Sm-Nd isotopic data in igneous units suggests linkages among these now-separate areas, and comparison with other parts of Avalonia in the northern Appalachian orogen suggests similarity to southeastern New England.
Publisher
Geological Society of America
Reference60 articles.
1. Field relations, petrology, and tectonic setting of the Ordovician West Barneys River plutonic suite, southern Antigonish Highlands, Nova Scotia, Canada;Archibald;Canadian Journal of Earth Sciences,2013 2. Significance of U-Pb detrital zircon ages from peri-Gondwanan terranes, New Brunswick and Nova Scotia, Canada;Barr;Precambrian Research,2003 3. Beresford, V., 2014, Field Relationships, Petrology, and Tectonic Setting of Neoproterozoic Plutonic Rocks in the Southern Cobequid Highlands, Nova Scotia [M.Sc. thesis]: Wolfville, Nova Scotia, Canada, Acadia University, 312 p. 4. U-Pb geochronology of late Proterozoic rocks of the eastern Cobequid Highlands, Avalon composite terrane, Nova Scotia;Doig;Canadian Journal of Earth Sciences,1991 5. Donohoe, H.V., 1975, The Cobequid Mountains project, in Mineral Resources Division Report on Activities, 1974: Nova Scotia Department of Mines Report 75–1, p. 39–40.
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