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Ootes, Luke, Davis, William J., Jackson, Valerie A., van Breemen, Otto (2015) Chronostratigraphy of the Hottah terrane and Great Bear magmatic zone of Wopmay Orogen, Canada, and exploration of a terrane translation model. Canadian Journal of Earth Sciences, 52 (12) 1062-1092 doi:10.1139/cjes-2015-0026

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Reference TypeJournal (article/letter/editorial)
TitleChronostratigraphy of the Hottah terrane and Great Bear magmatic zone of Wopmay Orogen, Canada, and exploration of a terrane translation model
JournalCanadian Journal of Earth Sciences
AuthorsOotes, LukeAuthor
Davis, William J.Author
Jackson, Valerie A.Author
van Breemen, OttoAuthor
Year2015 (December)Volume52
Issue12
PublisherCanadian Science Publishing
DOIdoi:10.1139/cjes-2015-0026Search in ResearchGate
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Mindat Ref. ID485100Long-form Identifiermindat:1:5:485100:8
GUID0
Full ReferenceOotes, Luke, Davis, William J., Jackson, Valerie A., van Breemen, Otto (2015) Chronostratigraphy of the Hottah terrane and Great Bear magmatic zone of Wopmay Orogen, Canada, and exploration of a terrane translation model. Canadian Journal of Earth Sciences, 52 (12) 1062-1092 doi:10.1139/cjes-2015-0026
Plain TextOotes, Luke, Davis, William J., Jackson, Valerie A., van Breemen, Otto (2015) Chronostratigraphy of the Hottah terrane and Great Bear magmatic zone of Wopmay Orogen, Canada, and exploration of a terrane translation model. Canadian Journal of Earth Sciences, 52 (12) 1062-1092 doi:10.1139/cjes-2015-0026
In(2015, December) Canadian Journal of Earth Sciences Vol. 52 (12) Canadian Science Publishing
Abstract/Notes The Paleoproterozoic Hottah terrane is the westernmost exposed bedrock of the Canadian Shield and a critical component for understanding the evolution of the Wopmay Orogen. Thirteen new high-precision U–Pb zircon crystallization ages are presented and support field observations of a volcano-plutonic continuum from Hottah terrane through to the end of the Great Bear magmatism, from >1950 to 1850 Ma. The new crystallization ages, new geochemical data, and newly published detrital zircon U–Pb data are used to challenge hitherto accepted models for the evolution of the Hottah terrane as an exotic arc and microcontinent that arrived over a west-dipping subduction zone and collided with the Slave craton at ca. 1.88 Ga. Although the Hottah terrane does have a tectonic history that is distinct from that of the neighbouring Slave craton, it shares a temporal history with a number of domains to the south and east — domains that were tied to the Slave craton by ca. 1.97 Ga. It is interpreted herein that Hottah terrane began to the south of its current position and evolved in an active margin over an always east-dipping subduction system that began prior to ca. 2.0 Ga and continued to ca. 1.85 Ga, and underwent tectonic switching and migration. The stratigraphy of the ca. 1913–1900 Ma Hottah plutonic complex and Bell Island Bay Group includes a subaerial rifting arc sequence, followed by basinal opening represented by marginal marine quartz arenite and overlying ca. 1893 Ma pillowed basalt flows and lesser rhyodacites. We interpret this stratigraphy to record Hottah terrane rifting off its parental arc crust — in essence the birth of the new Hottah terrane. This model is similar to rapidly rifting arcs in active margins — for example, modern Baja California. These rifts generally occur at the transition between subduction zones (e.g., Cocos–Rivera plates) and transtensional shear zones (e.g., San Andreas fault), and we suggest that extension-driven transtensional shearing, or, more simply, terrane translation, was responsible for the evolution of Bell Island Bay Group stratigraphy and that it transported this newly born Hottah terrane laterally (northward in modern coordinates), arriving adjacent to the Slave craton at ca. 1.88 Ga. Renewed east-dipping subduction led to the Great Bear arc flare-up at ca. 1876 Ma, continuing to ca. 1869 Ma. This was followed by voluminous Great Bear plutonism until ca. 1855 Ma. The model implies that it was the westerly Nahanni terrane and its subducting oceanic crust that collided with this active margin, shutting down the >120 million year old, east-dipping subduction system.

See Also

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Davis, William J., Ootes, Luke, Newton, Lucy, Jackson, Valerie, Stern, Richard A. (2015) Characterization of the Paleoproterozoic Hottah terrane, Wopmay Orogen using multi-isotopic (U-Pb, Hf and O) detrital zircon analyses: An evaluation of linkages to northwest Laurentian Paleoproterozoic domains. Precambrian Research, 269. 296-310 doi:10.1016/j.precamres.2015.08.012
Ootes, Luke, Jackson, Valerie A., Davis, William J., Bennett, Venessa, Smar, Leanne, Cousens, Brian L. (2017) Parentage of Archean basement within a Paleoproterozoic orogen and implications for on-craton diamond preservation: Slave craton and Wopmay orogen, northwest Canada. Canadian Journal of Earth Sciences, 54 (2) 203-232 doi:10.1139/cjes-2016-0059
Jackson, V.A., van Breemen, O., Ootes, L., Bleeker, W., Bennett, V., Davis, W.J., Ketchum, J.W.F., Smar, L. (2013) U–Pb zircon ages and field relationships of Archean basement and Proterozoic intrusions, south-central Wopmay Orogen, NWT: implications for tectonic assignments. Canadian Journal of Earth Sciences, 50 (10) 979-1006 doi:10.1139/cjes-2013-0046
Ootes, Luke; Snyder, David; Davis, William J.; Acosta-Góngora, Pedro; Corriveau, Louise; Mumin, A.Hamid; Gleeson, Sarah A.; Samson, Iain M.; Montreuil, Jean-François; Potter, Eric; et al. (2017) A Paleoproterozoic Andean-type iron oxide copper-gold environment, the Great Bear magmatic zone, Northwest Canada. Ore Geology Reviews, 81. doi:10.1016/j.oregeorev.2016.09.024
McEachern, Sally J., Breemen, Otto van (1993) Age of deformation within the Central Metasedimentary Belt boundary thrust zone, southwest Grenville Orogen: constraints on the collision of the Mid-Proterozoic Elzevir terrane. Canadian Journal of Earth Sciences, 30 (6) 1155-1165 doi:10.1139/e93-098
Hayward, Nathan, Corriveau, Louise (2014) Fault reconstructions using aeromagnetic data in the Great Bear magmatic zone, Northwest Territories, Canada. Canadian Journal of Earth Sciences, 51 (10) 927-942 doi:10.1139/cjes-2014-0035
Hildebrand, Robert S., Hoffman, Paul F., Bowring, Samuel A. (1987) Tectono-magmatic evolution of the 1.9-Ga great bear magmatic zone, Wopmay orogen, northwestern Canada. Journal of Volcanology and Geothermal Research, 32 (1) 99-118 doi:10.1016/0377-0273(87)90039-4
Gandhi, S S, Breemen, O van (2005) SHRIMP U–Pb geochronology of detrital zircons from the Treasure Lake Group — new evidence for Paleoproterozoic collisional tectonics in the southern Hottah terrane, northwestern Canadian Shield. Canadian Journal of Earth Sciences, 42 (5) 833-845 doi:10.1139/e05-021
Ootes, Luke, Goff, Steve, Jackson, Valerie A., Gleeson, Sarah A., Creaser, Robert A., Samson, Iain M., Evensen, Norman, Corriveau, Louise, Mumin, A. Hamid (2010) Timing and thermochemical constraints on multi-element mineralisation at the Nori/RA Cu–Mo–U prospect, Great Bear magmatic zone, Northwest Territories, Canada. Mineralium Deposita, 45 (6) 549-566 doi:10.1007/s00126-010-0291-x
Gandhi, S S, Mortensen, J K, Prasad, N, Breemen, O van (2001) Magmatic evolution of the southern Great Bear continental arc, northwestern Canadian Shield: geochronological constraints. Canadian Journal of Earth Sciences, 38 (5) 767-785 doi:10.1139/e00-094
Van Wychen, Wesley, Copland, Luke, Burgess, David O., Gray, Laurence, Schaffer, Nicole (2015) Glacier velocities and dynamic discharge from the ice masses of Baffin Island and Bylot Island, Nunavut, Canada. Canadian Journal of Earth Sciences, 52 (11) 980-989 doi:10.1139/cjes-2015-0087
 
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