Imaging the lithospheric structure and plumbing system below the Mayotte volcanic zone

Date

2022

Authors

Dofal, A
Michon, L.
Fontaine, Fabrice R.
Rindraharisaona, Elisa
Barruol, Guilhem
Tkalcic, Hrvoje

Journal Title

Journal ISSN

Volume Title

Publisher

Académie des sciences

Abstract

Teleseismic receiver-functions and Rayleigh-wave dispersion curves are jointly inverted for quantifying S-wave velocity profiles beneath the active volcanic zone off Mayotte. We show that the lithosphere in the east-northeast quadrant is composed of four main layers, interpreted as the volcanic edifice, the crust with underplating, the lithospheric mantle, and the asthenosphere, the latter two presenting a main low-velocity zone. The depths of the old (10–11 km) and new Moho (28–31 km) coincide with the two magma reservoirs evidenced by recent seismological and petrological methods. We propose that the main magma reservoir composed of mush with an increasing amount of liquid extends down to 54 km depth. This magma storage develops from a rheological contrast between the ductile lower and brittle upper lithospheric mantle and accounts for most of the volcanic eruptionrelated seismicity. Finally, the abnormally small thickness of the lithospheric mantle (33 km) is likely a result of a thermal thinning since the onset of Cenozoic magmatism.

Description

Keywords

Mayotte, Comoros archipelago, Magmatic plumbing system, Lithosphere, Receiver function, Joint inversion, Rheological controls

Citation

Source

Academie des Sciences Comptes Rendus: Geoscience

Type

Journal article

Book Title

Entity type

Access Statement

Open Access

License Rights

Creative Commons Attribution 4.0 International License

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