Magmatic flare-up causes crustal thickening at the transition from subduction to continental collision

Carlos E. Ganade; Pierre Lanari; Daniela Rubatto; Joerg Hermann; Roberto F. Weinberg; Miguel A.S. Basei; Lucas R. Tesser; Renaud Caby; Yao Agbossoumondé; Caroline M. Ribeiro

doi:10.1038/s43247-021-00103-z

Magmatic flare-up causes crustal thickening at the transition from subduction to continental collision

Carlos E. Ganade, Pierre Lanari, Daniela Rubatto, Joerg Hermann, Roberto F. Weinberg, Miguel A.S. Basei, Lucas R. Tesser, Renaud Caby, Yao Agbossoumondé, Caroline M. Ribeiro

School of Earth Atmosphere and Environment

Research output: Contribution to journal › Article › Research › peer-review

29 Citations (Scopus)

Abstract

Above subduction zones, magma production rate and crustal generation can increase by an order of magnitude during narrow time intervals known as magmatic flare-ups. However, the consequences of these events in the deep arc environment remain poorly understood. Here we use petrological and in-situ zircon dating techniques to investigate the root of a continental arc within the collisional West Gondwana Orogen that is now exposed in the Kabyé Massif, Togo. We show that gabbros intruded 670 million years ago at 20–25 km depth were transformed to eclogites by 620 million years ago at 65–70 km depth. This was coeval with extensive magmatism at 20–40 km depth, indicative of a flare-up event which peaked just prior to the subduction of the continental margin. We propose that increased H₂O flux from subduction of serpentinized mantle in the hyper-extended margin of the approaching continent was responsible for the increased magma productivity and crustal thickening.

Original language	English
Article number	41
Number of pages	10
Journal	Communications Earth and Environment
Volume	2
Issue number	1
DOIs	https://doi.org/10.1038/s43247-021-00103-z
Publication status	Published - 2021

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title = "Magmatic flare-up causes crustal thickening at the transition from subduction to continental collision",

abstract = "Above subduction zones, magma production rate and crustal generation can increase by an order of magnitude during narrow time intervals known as magmatic flare-ups. However, the consequences of these events in the deep arc environment remain poorly understood. Here we use petrological and in-situ zircon dating techniques to investigate the root of a continental arc within the collisional West Gondwana Orogen that is now exposed in the Kaby{\'e} Massif, Togo. We show that gabbros intruded 670 million years ago at 20–25 km depth were transformed to eclogites by 620 million years ago at 65–70 km depth. This was coeval with extensive magmatism at 20–40 km depth, indicative of a flare-up event which peaked just prior to the subduction of the continental margin. We propose that increased H2O flux from subduction of serpentinized mantle in the hyper-extended margin of the approaching continent was responsible for the increased magma productivity and crustal thickening.",

author = "Ganade, {Carlos E.} and Pierre Lanari and Daniela Rubatto and Joerg Hermann and Weinberg, {Roberto F.} and Basei, {Miguel A.S.} and Tesser, {Lucas R.} and Renaud Caby and Yao Agbossoumond{\'e} and Ribeiro, {Caroline M.}",

note = "Funding Information: This research was supported by the Serrapilheira Institute (grant # Serra—1709-21887), Swiss National Science Foundation project N IZESO_l94628 and by the Geological Survey of Brazil. C.E.G. acknowledges the CAPES Higher Education Improvement Coordination 88881.363575/2019-01 for supporting the author{\textquoteright}s research visit at the University of Bern. C.E.G and C.M.R thank Julio Cezar Mendes for the help in the EPMA data of sample DKE-380. Publisher Copyright: {\textcopyright} 2021, The Author(s).",

year = "2021",

doi = "10.1038/s43247-021-00103-z",

language = "English",

volume = "2",

journal = "Communications Earth and Environment",

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AU - Ganade, Carlos E.

AU - Lanari, Pierre

AU - Rubatto, Daniela

AU - Hermann, Joerg

AU - Weinberg, Roberto F.

AU - Basei, Miguel A.S.

AU - Tesser, Lucas R.

AU - Caby, Renaud

AU - Agbossoumondé, Yao

AU - Ribeiro, Caroline M.

N1 - Funding Information: This research was supported by the Serrapilheira Institute (grant # Serra—1709-21887), Swiss National Science Foundation project N IZESO_l94628 and by the Geological Survey of Brazil. C.E.G. acknowledges the CAPES Higher Education Improvement Coordination 88881.363575/2019-01 for supporting the author’s research visit at the University of Bern. C.E.G and C.M.R thank Julio Cezar Mendes for the help in the EPMA data of sample DKE-380. Publisher Copyright: © 2021, The Author(s).

PY - 2021

Y1 - 2021

N2 - Above subduction zones, magma production rate and crustal generation can increase by an order of magnitude during narrow time intervals known as magmatic flare-ups. However, the consequences of these events in the deep arc environment remain poorly understood. Here we use petrological and in-situ zircon dating techniques to investigate the root of a continental arc within the collisional West Gondwana Orogen that is now exposed in the Kabyé Massif, Togo. We show that gabbros intruded 670 million years ago at 20–25 km depth were transformed to eclogites by 620 million years ago at 65–70 km depth. This was coeval with extensive magmatism at 20–40 km depth, indicative of a flare-up event which peaked just prior to the subduction of the continental margin. We propose that increased H2O flux from subduction of serpentinized mantle in the hyper-extended margin of the approaching continent was responsible for the increased magma productivity and crustal thickening.

AB - Above subduction zones, magma production rate and crustal generation can increase by an order of magnitude during narrow time intervals known as magmatic flare-ups. However, the consequences of these events in the deep arc environment remain poorly understood. Here we use petrological and in-situ zircon dating techniques to investigate the root of a continental arc within the collisional West Gondwana Orogen that is now exposed in the Kabyé Massif, Togo. We show that gabbros intruded 670 million years ago at 20–25 km depth were transformed to eclogites by 620 million years ago at 65–70 km depth. This was coeval with extensive magmatism at 20–40 km depth, indicative of a flare-up event which peaked just prior to the subduction of the continental margin. We propose that increased H2O flux from subduction of serpentinized mantle in the hyper-extended margin of the approaching continent was responsible for the increased magma productivity and crustal thickening.

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Magmatic flare-up causes crustal thickening at the transition from subduction to continental collision

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