Early and middle Proterozoic evolution of Yukon, Canada

This paper provides a comprehensive synthesis of virtually all units and events of Early and Middle Proterozoic age in the Yukon, spanning ∼1 Ga. Early and Middle Proterozoic time was dominated by a series of extensional-basin-forming events punctuated by orogenesis, magmatism, and hydrothermal acti...

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Published inCanadian journal of earth sciences Vol. 42; no. 6; pp. 1045 - 1071
Main Authors Thorkelson, Derek J, Abbott, J. Grant, Mortensen, James K, Creaser, Robert A, Villeneuve, Michael E, McNicoll, Vicki J, Layer, Paul W
Format Journal Article
LanguageEnglish
Published Ottawa, Canada National Research Council of Canada 01.06.2005
NRC Research Press
Subjects
absolute age
Ar/Ar
breccia
brecciation
Canada
Canadian Cordillera
Canadian Shield
Corn Creek Orogeny
dates
geochemistry
geotraverses
intrusions
Laurentia
Lithoprobe
lithosphere
Mackenzie Mountains Supergroup
magmatism
Mesoproterozoic
metamorphic rocks
mica group
muscovite
nesosilicates
North America
North American Cordillera
orogenic belts
orogeny
orthosilicates
Paleoproterozoic
Precambrian
Proterozoic
Racklan Orogeny
sheet silicates
silicates
Slave Province
SNORCLE
Stratigraphy
Structural geology
supracrustals
tectonics
U/Pb
upper Precambrian
Wernecke Supergroup
Western Canada
Windermere System
Yukon Territory
zircon
zircon group
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Summary:This paper provides a comprehensive synthesis of virtually all units and events of Early and Middle Proterozoic age in the Yukon, spanning ∼1 Ga. Early and Middle Proterozoic time was dominated by a series of extensional-basin-forming events punctuated by orogenesis, magmatism, and hydrothermal activity. Basinal deposits include the Wernecke Supergroup (>1.71 Ga), Pinguicula Group (∼1.38 Ga), and Mackenzie Mountains Supergroup (1.00-0.78 Ga).Igneous rocks include the Bonnet Plume River Intrusions (1.71 Ga), Slab volcanics (≥1.6 Ga), Hart River sills and volcanics (1.38 Ga), and Bear River (Mackenzie) dykes (1.27 Ga). A voluminous hydrothermal event generated the widespread Wernecke breccias at 1.60 Ga. The Racklan orogeny deformed the Wernecke Supergroup prior to emplacement of the Wernecke Breccia. The Corn Creek orogeny deformed Mackenzie Mountains Supergroup and older rocks prior to deposition of the Windermere Supergroup (<0.78 Ga). Long intervals with scanty rock records extended for as much as 300 Ma and appear to represent periods of crustal stability and subaerial conditions. By the time of Windermere rifting (<0.78 Ga), the supracrust of northwestern Laurentia was a mature, largely denuded orogenic belt with a composite sedimentary-metamorphic-igneous character. New isotopic data include Nd depleted mantle model ages for the Wernecke Supergroup (2.28-2.69 Ga) and Wernecke Breccia (2.36-2.96 Ga), a U-Pb zircon age for a Hart River sill 1381.9+5.3-3.7 (Ma), detrital U-Pb zircon ages from the basal Pinguicula Group (1841-3078 Ma), detrital muscovite ages from the Mackenzie Mountains Supergroup (1037-2473 Ma), and muscovite 40Ar/39Ar cooling ages from the Wernecke Supergroup (788±8 and 980±4 Ma).
ISSN:0008-4077
1480-3313
DOI:10.1139/e04-075