Are Wilson cycles preserved in Archean cratons; a comparison of the North China and Slave Cratons

A review and comparison of the tectonic history of the North China and Slave cratons reveal that the two cratons have many similarities and some significant differences. The similarities rest in the conclusion that both cratons have a history of a Wilson Cycle, having experienced rifting of an old c...

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Published inCanadian journal of earth sciences Vol. 51; no. 3; pp. 297 - 311
Main Authors Kusky, Timothy M, Li Xiaoyong, Li Xiaoyong, Wang Zhensheng, Wang Zhensheng, Fu Jianmin, Fu Jianmin, Ze Luo, Ze Luo, Zhu Peimin, Zhu Peimin
Format Journal Article
LanguageEnglish
Published National Research Council of Canada 01.03.2014
NRC Research Press
Subjects
Archean
Asia
Canada
Canadian Shield
China
Cratons
Far East
Geodynamics
Geological research
Geophysics
lithosphere
North America
North China Platform
Northwest Territories
orogeny
passive margins
plate collision
plate tectonics
Precambrian
Properties
rifting
Slave Province
solid Earth (tectonophysics)
subduction
supercontinents
Western Canada
Wilson cycle
China
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Summary:A review and comparison of the tectonic history of the North China and Slave cratons reveal that the two cratons have many similarities and some significant differences. The similarities rest in the conclusion that both cratons have a history of a Wilson Cycle, having experienced rifting of an old continent in the late Archean, development of a rift to passive margin sequence, collision of this passive margin with arcs within 100-200 Ma of the formation of the passive margin, reversal of subduction polarity, then eventual climactic collision with another arc terrane, microcontinental fragment, or continent. This cycle demonstrates the operation of Paleozoic-style plate tectonics in the late Archean. The main differences lie in the later tectonic evolution. The Slave's post-cratonization history is dominated by subduction dipping away from the interior of the craton, and later incorporation into the interior of a larger continent, whereas the North China Craton has had a long history of subduction beneath the craton, including presently being located above the flat-lying Pacific slab resting in the mantle transition zone, placing it in a broad back-arc setting, with multiple mantle hydration events and collisions along its borders. The hydration enhances melting in the overlying mantle, and leads to melts migrating upwards to thermochemically erode the lithospheric root. This major difference may explain why the relatively small Slave craton preserves its thick Archean lithospheric root, whereas the eastern North China Craton has lost it.
ISSN:0008-4077
1480-3313
DOI:10.1139/cjes-2013-0163