Geophysical and geochemical nature of relaminated arc-derived lower crust underneath oceanic domain in southern Mongolia

Geophysical and geochemical nature of relaminated arc-derived lower crust underneath oceanic domain in southern Mongolia

The Central Asian Orogenic Belt (CAOB) in southern Mongolia consists of E‐W trending Neoproterozoic cratons and Silurian‐Devonian oceanic tectonic zones. Previous study revealed that the Early Paleozoic accretionary wedge and the oceanic tectonic zone are underlain by a layer giving a homogeneous gr...

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Veröffentlicht in:Tectonics (Washington, D.C.) D.C.), 2015-05, Vol.34 (5), p.1030-1053
Hauptverfasser: Guy, Alexandra, Schulmann, Karel, Janoušek, Vojtěch, Štípská, Pavla, Armstrong, Robin, Belousova, Elena, Dolgopolova, Alla, Seltmann, Reimar, Lexa, Ondrej, Jiang, Yingde, Hanžl, Pavel
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Sprache:eng
Schlagworte:
Cambrian
Carboniferous
Central Asian Orogenic Belt
Continental crust
Cratons
Devonian
Earth Sciences
forward modelling
Geochemistry
Geophysics
lower crust composition
Marine
Oceanic crust
Oceanography
Paleozoic
Permian
petrological modelling
Plate tectonics
relamination
Rocks
Sciences of the Universe
Seismology
Silurian
Tectonics
whole-rock geochemistry
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container_end_page 1053
container_issue 5
container_start_page 1030
container_title Tectonics (Washington, D.C.)
container_volume 34
creator Guy, Alexandra
Schulmann, Karel
Janoušek, Vojtěch
Štípská, Pavla
Armstrong, Robin
Belousova, Elena
Dolgopolova, Alla
Seltmann, Reimar
Lexa, Ondrej
Jiang, Yingde
Hanžl, Pavel
description The Central Asian Orogenic Belt (CAOB) in southern Mongolia consists of E‐W trending Neoproterozoic cratons and Silurian‐Devonian oceanic tectonic zones. Previous study revealed that the Early Paleozoic accretionary wedge and the oceanic tectonic zone are underlain by a layer giving a homogeneous gravity signal. Forward gravity modelling suggests that this layer is not formed of high‐density material typical of lower oceanic crust but is composed of low‐ to intermediate‐density rocks resembling continental crust. The nature of this lower crust is constrained by the whole‐rock geochemistry and zircon Hf isotopic signature of abundant Late Carboniferous high‐K calc‐alkaline and Early Permian A‐type granitoids intruding the two Early Paleozoic domains. It is possible to explain the genesis of these granitoids by anatexis of juvenile, metaigneous (tonalitic‐gabbroic) rocks of Late Cambrian age, the source of which is presumed to lie in the “Khantaishir” arc (520–495 Ma) further north. In order to test this hypothesis, the likely modal composition and density of Khantaishir arc‐like protoliths are thermodynamically modelled at granulite‐ and higher amphibolite‐facies conditions. It is shown that the current average density of the lower crust inferred by gravity modelling (2730 ± 20 kg/m3) matches best metamorphosed leucotonalite to diorite. Based on these results, it is now proposed that Mongolian CAOB has an architecture in which the accretionary wedge and oceanic upper crust is underlain by allochthonous lower crust that originated in a Cambrian arc. A tectonic model explaining relamination of allochthonous felsic to intermediate lower crust beneath mafic upper crust is proposed. Key Points Gravity modelling suggests a homogeneous felsic lower crust Granite geochemistry shows a juvenile felsic gneiss/granulite lower crust Oceanic upper crust is underlain by allochtonous, arc-derived material
doi_str_mv 10.1002/2015TC003845
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Previous study revealed that the Early Paleozoic accretionary wedge and the oceanic tectonic zone are underlain by a layer giving a homogeneous gravity signal. Forward gravity modelling suggests that this layer is not formed of high‐density material typical of lower oceanic crust but is composed of low‐ to intermediate‐density rocks resembling continental crust. The nature of this lower crust is constrained by the whole‐rock geochemistry and zircon Hf isotopic signature of abundant Late Carboniferous high‐K calc‐alkaline and Early Permian A‐type granitoids intruding the two Early Paleozoic domains. It is possible to explain the genesis of these granitoids by anatexis of juvenile, metaigneous (tonalitic‐gabbroic) rocks of Late Cambrian age, the source of which is presumed to lie in the “Khantaishir” arc (520–495 Ma) further north. In order to test this hypothesis, the likely modal composition and density of Khantaishir arc‐like protoliths are thermodynamically modelled at granulite‐ and higher amphibolite‐facies conditions. It is shown that the current average density of the lower crust inferred by gravity modelling (2730 ± 20 kg/m3) matches best metamorphosed leucotonalite to diorite. Based on these results, it is now proposed that Mongolian CAOB has an architecture in which the accretionary wedge and oceanic upper crust is underlain by allochthonous lower crust that originated in a Cambrian arc. A tectonic model explaining relamination of allochthonous felsic to intermediate lower crust beneath mafic upper crust is proposed. Key Points Gravity modelling suggests a homogeneous felsic lower crust Granite geochemistry shows a juvenile felsic gneiss/granulite lower crust Oceanic upper crust is underlain by allochtonous, arc-derived material</abstract><cop>Washington</cop><pub>Blackwell Publishing Ltd</pub><doi>10.1002/2015TC003845</doi><tpages>24</tpages><orcidid>https://orcid.org/0000-0003-4616-9154</orcidid><oa>free_for_read</oa></addata></record>
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source Wiley Online Library Journals Frontfile Complete; Elektronische Zeitschriftenbibliothek - Frei zugängliche E-Journals; Wiley Free Content; Wiley-Blackwell AGU Digital Library
subjects Cambrian
Carboniferous
Central Asian Orogenic Belt
Continental crust
Cratons
Devonian
Earth Sciences
forward modelling
Geochemistry
Geophysics
lower crust composition
Marine
Oceanic crust
Oceanography
Paleozoic
Permian
petrological modelling
Plate tectonics
relamination
Rocks
Sciences of the Universe
Seismology
Silurian
Tectonics
whole-rock geochemistry
title Geophysical and geochemical nature of relaminated arc-derived lower crust underneath oceanic domain in southern Mongolia
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