Intraplate orogenesis in response to Gondwana assembly

Kwangsian Orogeny, South China

Ya Jun Xu, Peter A. Cawood, Yuan Sheng Du

Research output: Contribution to journalArticleResearchpeer-review

Abstract

In intraplate orogens tectonothermal activity occurs at a site removed from a plate margin and is considered to result from localization of far-field plateboundary stresses through a combination of pre-existing structural features and modification of lithospheric properties through fluid alteration, enhanced heat flow and potential thermal blanketing effects. The mid-Paleozoic Kwangsian Orogeny (460-400 Ma) in the South China Craton is geodynamically associated with the far-field response to convergence along the northern margin of east Gondwana. Deformation is focused adjacent to the site of both early Neoproterozoic suturing of the Yangtze and Cathaysia blocks and mid-Neoproterozoic rifting within the craton. Furthermore, this region is one of high crustal heat flow and of widespread fluid release and localized crustal melting during orogenesis. In the late Neoproterozoic-Cambrian, the South China Craton constituted part of the lithosphere of greater India and was separated from Australia by the Kuunga Ocean. The closure of the Kuunga Ocean during Cambrian-Ordovician time, resulting in final assembly of Gondwana, permitted the stresses sourced from the Terra Australis accretionary orogen in East Gondwana to propagate inboard across the supercontinent. These stresses localized along the site of the Neoproterozoic Nanhua Rift Basin of South China resulting in basin inversion and development of the intraplate Kwangsian Orogeny.

Original languageEnglish
Pages (from-to)329-362
Number of pages34
JournalAmerican Journal of Science
Volume316
Issue number4
DOIs
Publication statusPublished - 1 Apr 2016
Externally publishedYes

Keywords

  • Assembly of Gondwana
  • Intraplate
  • Kuungan Orogeny
  • Kwangsian Orogeny
  • South China

Cite this

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title = "Intraplate orogenesis in response to Gondwana assembly: Kwangsian Orogeny, South China",
abstract = "In intraplate orogens tectonothermal activity occurs at a site removed from a plate margin and is considered to result from localization of far-field plateboundary stresses through a combination of pre-existing structural features and modification of lithospheric properties through fluid alteration, enhanced heat flow and potential thermal blanketing effects. The mid-Paleozoic Kwangsian Orogeny (460-400 Ma) in the South China Craton is geodynamically associated with the far-field response to convergence along the northern margin of east Gondwana. Deformation is focused adjacent to the site of both early Neoproterozoic suturing of the Yangtze and Cathaysia blocks and mid-Neoproterozoic rifting within the craton. Furthermore, this region is one of high crustal heat flow and of widespread fluid release and localized crustal melting during orogenesis. In the late Neoproterozoic-Cambrian, the South China Craton constituted part of the lithosphere of greater India and was separated from Australia by the Kuunga Ocean. The closure of the Kuunga Ocean during Cambrian-Ordovician time, resulting in final assembly of Gondwana, permitted the stresses sourced from the Terra Australis accretionary orogen in East Gondwana to propagate inboard across the supercontinent. These stresses localized along the site of the Neoproterozoic Nanhua Rift Basin of South China resulting in basin inversion and development of the intraplate Kwangsian Orogeny.",
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Intraplate orogenesis in response to Gondwana assembly : Kwangsian Orogeny, South China. / Xu, Ya Jun; Cawood, Peter A.; Du, Yuan Sheng.

In: American Journal of Science, Vol. 316, No. 4, 01.04.2016, p. 329-362.

Research output: Contribution to journalArticleResearchpeer-review

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AU - Xu, Ya Jun

AU - Cawood, Peter A.

AU - Du, Yuan Sheng

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