Eastern Dharwar Craton, India: Continental lithosphere growth by accretion of diverse plume and arc terranes

Abstract Greenstone belts of the eastern Dharwar Craton, India are reinterpreted as composite tecto- nostratigraphic terranes of accreted plume-derived and convergent margin-derived magmatic sequences based on new high-precision elemental data. The former are dominated by a komatiite plus Mg-tholeii...

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Published inDi xue qian yuan. Vol. 3; no. 3; pp. 225 - 240
Main Authors Manikyamba, C., Kerrich, Robert
Format Journal Article
LanguageEnglish
Published Elsevier B.V 01.05.2012
National Geophysical Research Institute,Council of Scientific and Industrial Research,Hyderabad 500007,India%Department of Geological Sciences,University of Saskatchewan,Saskatoon,Saskatchewan S7N 5E2,Canada
Subjects
Continental lithosphere growth
Eastern Dharwar Craton
Geodynamics
Marine
Neoarchean mantle
Subduction-accretion
Zoned plume
印度
地体
地块
增生
大陆岩石圈
拉斑玄武岩
洋壳俯冲
碱性玄武岩
ISW, India
Subduction-accretion
Continental lithosphere growth
Eastern Dharwar Craton
Geodynamics
Neoarchean mantle
Zoned plume
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Summary:Abstract Greenstone belts of the eastern Dharwar Craton, India are reinterpreted as composite tecto- nostratigraphic terranes of accreted plume-derived and convergent margin-derived magmatic sequences based on new high-precision elemental data. The former are dominated by a komatiite plus Mg-tholeiitic basalt volcanic association, with deep water siliciclastic and banded iron formation (BIF) sedimentary rocks. Plumes melted at 〈90 km under thin rifted continental lithosphere to preserve intrao- ceanic and continental margin aspects. Associated alkaline basalts record subduction-recycling of Me- soarchean oceanic crust, incubated in the asthenosphere, and erupted coevally with Mg basalts from a heterogeneous mantle plume. Together, komatiites-Mg basalts-alkaline basalts plot along the Phanero- zoic mantle array in Th/Yb versus Nb/Yb coordinate space, representing zoned plumes, establishing that these reservoirs were present in the Neoarchean mantle. Convergent margin magmatic associations are dominated by tholeiitic to calc-alkaline basalts compo- sitionally similar to recent intraoceanic arcs. As well, boninitic flows sourced in extremely depleted mantle are present, and the association of arc basalts with Mg-andesites-Nb enriched basalts-adakites documented from Cenozoic arcs characterized by subduction of young (〈20 Ma), hot, oceanic litho- sphere. Consequently, Cenozoic style "hot" subduction was operating in the Neoarchean. These diverse volcanic associations were assembled to give composite terranes in a subduction-accretion orogen at -2.7 Ga, coevally with a global accretionary orogen at -2.7 Ga, and associated orogenic gold mineralization.
Bibliography:Continental lithospheregrowth;Zoned plume;Subduction-accretion;Neoarchean mantle;Geodynamics;Eastern Dharwar Craton
Abstract Greenstone belts of the eastern Dharwar Craton, India are reinterpreted as composite tecto- nostratigraphic terranes of accreted plume-derived and convergent margin-derived magmatic sequences based on new high-precision elemental data. The former are dominated by a komatiite plus Mg-tholeiitic basalt volcanic association, with deep water siliciclastic and banded iron formation (BIF) sedimentary rocks. Plumes melted at 〈90 km under thin rifted continental lithosphere to preserve intrao- ceanic and continental margin aspects. Associated alkaline basalts record subduction-recycling of Me- soarchean oceanic crust, incubated in the asthenosphere, and erupted coevally with Mg basalts from a heterogeneous mantle plume. Together, komatiites-Mg basalts-alkaline basalts plot along the Phanero- zoic mantle array in Th/Yb versus Nb/Yb coordinate space, representing zoned plumes, establishing that these reservoirs were present in the Neoarchean mantle. Convergent margin magmatic associations are dominated by tholeiitic to calc-alkaline basalts compo- sitionally similar to recent intraoceanic arcs. As well, boninitic flows sourced in extremely depleted mantle are present, and the association of arc basalts with Mg-andesites-Nb enriched basalts-adakites documented from Cenozoic arcs characterized by subduction of young (〈20 Ma), hot, oceanic litho- sphere. Consequently, Cenozoic style "hot" subduction was operating in the Neoarchean. These diverse volcanic associations were assembled to give composite terranes in a subduction-accretion orogen at -2.7 Ga, coevally with a global accretionary orogen at -2.7 Ga, and associated orogenic gold mineralization.
C. Manikyamba a,,, Robert Kerrich b aNational Geophysical Research Institute, Council of Scientific and Industrial Research, Hyderabad 500 007, India b Department of Geological Sciences, University of Saskatchewan, Saskatoon, Saskatchewan S7N 5E2, Canada
11-5920/P
ObjectType-Article-1
SourceType-Scholarly Journals-1
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ISSN:1674-9871
DOI:10.1016/j.gsf.2011.11.009