The Teton – Wind River domain: a 2.68–2.67 Ga active margin in the western Wyoming Province

@article{Frost2006TheT,
  title={The Teton – Wind River domain: a 2.68–2.67 Ga active margin in the western Wyoming Province},
  author={B. Ronald Frost and Carol D. Frost and Mara Cornia and Kevin R. Chamberlain and Robert T. Kirkwood},
  journal={Canadian Journal of Earth Sciences},
  year={2006},
  volume={43},
  pages={1489-1510}
}
The Archean rocks in western Wyoming, including the Teton Range, the northern Wind River Range, and the western Owl Creek Mountains, preserve a record of a 2.68–2.67 Ga orogenic belt that has many of the hallmarks of modern plate tectonics. A 2683 Ma tholeiitic dike swarm is undeformed and unmetamorphosed in the western Owl Creek Mountains. In the Wind River Range, these dikes have been deformed and metamorphosed during thrusting along the west- to southwest-directed Mount Helen structural belt… 
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31 Citations

Neoarchean tectonic history of the Teton Range: Record of accretion against the present-day western margin of the Wyoming Province

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Tectonic histories of the Paleo- to Mesoarchean Sacawee block and Neoarchean Oregon Trail structural belt of the south-central Wyoming Province

The Sacawee block is a narrow belt of Paleo- to Mesoarchean crust that extends for ~70 km across the northern Granite Mountains. It is composed of the ~3.3 Ga Sacawee orthogneiss, additional

Archean geochronological framework of the Bighorn Mountains, Wyoming

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Archean crustal growth by lateral accretion of juvenile supracrustal belts in the south-central Wyoming Province

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2.7 Ga high-pressure granulites of the Teton Range: Record of Neoarchean continent collision and exhumation

Continent-continent collisional orogens are the hallmark of modern plate tectonics. The scarcity of well-preserved high-pressure granulite facies terranes minimally obscured by later tectonic events

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The Belt Supergroup is exposed in western Montana where most of the unit is allochthonous due to Sevier thrusting. However, east of the Helena salient several autochthonous sections of Newland

Rapid high‐T decompression recorded by Archean granulites in the northern Wyoming Province: Insights from petrological modelling

This study places new constraints on the pressure–temperature (P–T) path and duration of high‐temperature (HT) metamorphism recorded by Archean granulite facies metasedimentary rocks from the

DEEP CRUSTAL STRUCTURE AND MODEL OF NEORCHAEAN EVOLUTION OF THE NORTH AMERICAN CRATON

The structure of the Archaean crust of the North America has been studied based on the synthesis of geolo‐ gical and geophysical data, including seismic sections along LITHOPROBE Geotransects,

A pulse of cryptic granulite-facies metamorphism in the Archean Wyoming Craton revealed by Sm–Nd garnet and U–Pb monazite geochronology

Significance of Leucogranitic Gneiss in the Archean Teton Range

In previous years of this project, we have developed the hypothesis that the high-pressure granulites exposed in the Moose Basin area of the Teton Range represent evidence of a 2. 7 billion yearold

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