Dehydration of subducting slow-spread oceanic lithosphere in the Lesser Antilles
Dehydration of subducting slow-spread oceanic lithosphere in the Lesser Antilles
Subducting slabs carry water into the mantle and are a major gateway in the global geochemical water cycle. Fluid transport and release can be constrained with seismological data. Here we use joint active-source/local-earthquake seismic tomography to derive unprecedented constraints on multi-stage fluid release from subducting slow-spread oceanic lithosphere. We image the low P-wave velocity crustal layer on the slab top and show that it disappears beneath 60–100 km depth, marking the depth of dehydration metamorphism and eclogitization. Clustering of seismicity at 120–160 km depth suggests that the slab’s mantle dehydrates beneath the volcanic arc, and may be the main source of fluids triggering arc magma generation. Lateral variations in seismic properties on the slab surface suggest that serpentinized peridotite exhumed in tectonized slow-spread crust near fracture zones may increase water transport to sub-arc depths. This results in heterogeneous water release and directly impacts earthquakes generation and mantle wedge dynamics.
Paulatto, Michele
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Laigle, Mireille
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Galve, Audrey
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Charvis, Philippe
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Sapin, Martine
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Bayrakci, Gaye
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Evain, Mikael
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Kopp, Heidrun
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Paulatto, Michele
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Laigle, Mireille
82196c87-2fe2-4cae-8971-5216bb42e0a5
Galve, Audrey
58e78c75-e186-4a55-8b69-7b9c7fb61d34
Charvis, Philippe
c7785575-8266-4ab8-ae45-e7826cde140e
Sapin, Martine
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Bayrakci, Gaye
e0b89aa5-d514-4ecb-91b1-8ed8bd472eda
Evain, Mikael
96248080-28c3-4e81-9a67-569aac9cc9e3
Kopp, Heidrun
c33e910c-127a-437c-843a-139f4c4380d5
Paulatto, Michele, Laigle, Mireille, Galve, Audrey, Charvis, Philippe, Sapin, Martine, Bayrakci, Gaye, Evain, Mikael and Kopp, Heidrun
(2017)
Dehydration of subducting slow-spread oceanic lithosphere in the Lesser Antilles.
Nature Communications, 8, [15980].
(doi:10.1038/ncomms15980).
Abstract
Subducting slabs carry water into the mantle and are a major gateway in the global geochemical water cycle. Fluid transport and release can be constrained with seismological data. Here we use joint active-source/local-earthquake seismic tomography to derive unprecedented constraints on multi-stage fluid release from subducting slow-spread oceanic lithosphere. We image the low P-wave velocity crustal layer on the slab top and show that it disappears beneath 60–100 km depth, marking the depth of dehydration metamorphism and eclogitization. Clustering of seismicity at 120–160 km depth suggests that the slab’s mantle dehydrates beneath the volcanic arc, and may be the main source of fluids triggering arc magma generation. Lateral variations in seismic properties on the slab surface suggest that serpentinized peridotite exhumed in tectonized slow-spread crust near fracture zones may increase water transport to sub-arc depths. This results in heterogeneous water release and directly impacts earthquakes generation and mantle wedge dynamics.
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ncomms15980
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Accepted/In Press date: 18 May 2017
e-pub ahead of print date: 10 July 2017
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Local EPrints ID: 412716
URI: http://eprints.soton.ac.uk/id/eprint/412716
PURE UUID: 20d4f1aa-edb8-489f-a151-3b65cda8fab7
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Date deposited: 27 Jul 2017 16:30
Last modified: 15 Mar 2024 15:26
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Author:
Michele Paulatto
Author:
Mireille Laigle
Author:
Audrey Galve
Author:
Philippe Charvis
Author:
Martine Sapin
Author:
Gaye Bayrakci
Author:
Mikael Evain
Author:
Heidrun Kopp
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