Subduction initiation without magmatism; the case of the missing Alpine magmatic arc

Models of orogens identify subduction of oceanic crust as the key mechanism leading to continental collision. Such models, based inter alia on thermobarometric and geochronological evidence preserved in high-pressure metamorphic rocks and subduction-related magmatism, have been used to explain the c...

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Bibliographic Details
Published in:Geology (Boulder) 2018-12, Vol.46 (12), p.1059-1062
Main Authors: McCarthy, Anders, Chelle-Michou, Cyril, Müntener, Othmar, Arculus, Richard, Blundy, Jon
Format: Article
Language:English
Subjects:
Accretion
Alpine Orogeny
Alps
Basins
Cenozoic
Continental dynamics
Cretaceous
crust
Deposition
Europe
Geochronology
Geology
Geophysics
igneous and metamorphic rocks
igneous rocks
Lithosphere
Magma
magmatism
mantle
mantle wedges
Metamorphic rocks
Metamorphism
Metamorphism (geology)
Ocean basins
Ocean models
Oceanic crust
Oceans
orogenic belts
orogeny
Passive margins
Petrology
plate convergence
plate tectonics
Pressure
sedimentary rocks
slabs
solid Earth (tectonophysics)
Subduction
tectonics
Volcanoes
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Summary:Models of orogens identify subduction of oceanic crust as the key mechanism leading to continental collision. Such models, based inter alia on thermobarometric and geochronological evidence preserved in high-pressure metamorphic rocks and subduction-related magmatism, have been used to explain the convergence of Europe and Adria in the Cretaceous-Cenozoic and the subsequent Alpine orogen. Here, we review the metamorphic, igneous, and sedimentary record of the past 300 Ma of the Alpine orogen to show that there is no evidence of igneous activity during subduction initiation and prograde high-pressure metamorphism, leading to an ∼50 Ma hiatus in magmatism, or "arc gap." The closure of rift basins forming the Piemont-Liguria ocean did not follow a classical Wadati-Benioff-type subduction. Instead, subduction initiation at passive margins allowed for the accretion of the hydrated portion of the subducting plate within an orogenic wedge as subduction of dry subcontinental lithosphere inhibited magmatism during subduction initiation and ocean closure.
ISSN:0091-7613
1943-2682
DOI:10.1130/G45366.1