Slab to back-arc to arc: fluid and melt pathways through the mantle wedge beneath the Lesser Antilles
Slab to back-arc to arc: fluid and melt pathways through the mantle wedge beneath the Lesser Antilles
Volatiles expelled from subducted plates promote melting of the overlying warm mantle, feeding arc volcanism. However, debates continue over the factors controlling melt generation and transport, and how these determine the placement of volcanoes. To broaden our synoptic view of these fundamental mantlewedge processes, we image seismic attenuation beneath the Lesser Antilles arc, an end-member system that slowly subducts old, tectonized lithosphere. Punctuated anomalies with high ratios of bulk-to-shear attenuation (Qκ-1/Qμ-1 > 0.6) and VP/VS (>1.83) lie 40 km above the slab, representing expelled fluids that are retained in a cold boundary layer, transporting fluids toward the back-arc. The strongest attenuation (1000/QS ∼ 20), characterizing melt in warm mantle, lies beneath the back-arc, revealing how back-arc mantle feeds arc volcanoes. Melt ponds under the upper plate and percolates toward the arc along structures from earlier back-arc spreading, demonstrating how slab dehydration, upper-plate properties, past tectonics, and resulting melt pathways collectively condition volcanism.
Hicks, Stephen
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Bie, Lidong
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Rychert, Catherine
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Harmon, Nicholas
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Goes, Saskia
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Rietbrock, Andreas
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Wei, Songqiao
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Collier, J.S.
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Henstock, Timothy
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Lynch, Lloyd
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Prytulak, Julie
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McPherson, C.J.
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Schlaphorst, David
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Wilkinson, Jamie J.
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Blundy, J.D.
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Cooper, George F.
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Davy, R.G.
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Kendall, J.M.
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1 February 2023
Hicks, Stephen
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Bie, Lidong
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Rychert, Catherine
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Harmon, Nicholas
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Goes, Saskia
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Rietbrock, Andreas
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Wei, Songqiao
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Collier, J.S.
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Henstock, Timothy
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Lynch, Lloyd
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Prytulak, Julie
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McPherson, C.J.
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Schlaphorst, David
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Wilkinson, Jamie J.
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Blundy, J.D.
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Cooper, George F.
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Davy, R.G.
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Kendall, J.M.
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Hicks, Stephen, Bie, Lidong, Rychert, Catherine, Harmon, Nicholas, Goes, Saskia, Rietbrock, Andreas, Wei, Songqiao, Collier, J.S., Henstock, Timothy, Lynch, Lloyd, Prytulak, Julie, McPherson, C.J., Schlaphorst, David, Wilkinson, Jamie J., Blundy, J.D., Cooper, George F., Davy, R.G. and Kendall, J.M.
(2023)
Slab to back-arc to arc: fluid and melt pathways through the mantle wedge beneath the Lesser Antilles.
Science Advances, 9 (5), [eadd2143].
(doi:10.1126/sciadv.add2143).
Abstract
Volatiles expelled from subducted plates promote melting of the overlying warm mantle, feeding arc volcanism. However, debates continue over the factors controlling melt generation and transport, and how these determine the placement of volcanoes. To broaden our synoptic view of these fundamental mantlewedge processes, we image seismic attenuation beneath the Lesser Antilles arc, an end-member system that slowly subducts old, tectonized lithosphere. Punctuated anomalies with high ratios of bulk-to-shear attenuation (Qκ-1/Qμ-1 > 0.6) and VP/VS (>1.83) lie 40 km above the slab, representing expelled fluids that are retained in a cold boundary layer, transporting fluids toward the back-arc. The strongest attenuation (1000/QS ∼ 20), characterizing melt in warm mantle, lies beneath the back-arc, revealing how back-arc mantle feeds arc volcanoes. Melt ponds under the upper plate and percolates toward the arc along structures from earlier back-arc spreading, demonstrating how slab dehydration, upper-plate properties, past tectonics, and resulting melt pathways collectively condition volcanism.
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Antilles_attenuation_Hicksetal_revised_cleaned_unlinked
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sciadv.add2143
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Accepted/In Press date: 4 January 2023
e-pub ahead of print date: 1 February 2023
Published date: 1 February 2023
Additional Information:
Funding Information:
This work was supported by the Natural Environment Research Council (NERC) large grant, with the following grant numbers NE/K010654/1 (to S.P.H., C.A.R., N.H., and T.J.H.), NE/K010743/1 (to S.G., J.S.C., J.J.W., and R.G.D.), NE/K010611/1 (to L.B. and A.R.), NE/K010824/1 (to G.F.C. and C.G.M.), and NE/K010662/1 (to J.D.B. and J.-M.K.); National Science Foundation grant 2042553 (to S.S.W.); and Fundação para a Ciência e a Tecnologia (FCT) UIDB/50019/2020 - IDL (to D.S.).
Publisher Copyright:
Copyright © 2023 The Authors.
Identifiers
Local EPrints ID: 474642
URI: http://eprints.soton.ac.uk/id/eprint/474642
ISSN: 2375-2548
PURE UUID: 7487ad3c-2b75-4d62-803d-8460a62d8237
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Date deposited: 28 Feb 2023 17:41
Last modified: 17 Mar 2024 07:39
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Contributors
Author:
Stephen Hicks
Author:
Lidong Bie
Author:
Saskia Goes
Author:
Andreas Rietbrock
Author:
Songqiao Wei
Author:
J.S. Collier
Author:
Lloyd Lynch
Author:
Julie Prytulak
Author:
C.J. McPherson
Author:
David Schlaphorst
Author:
Jamie J. Wilkinson
Author:
J.D. Blundy
Author:
George F. Cooper
Author:
R.G. Davy
Author:
J.M. Kendall
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