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Seismic imaging of a basaltic Lesser Antilles slab from ancient tectonics

Seismic imaging of a basaltic Lesser Antilles slab from ancient tectonics
Seismic imaging of a basaltic Lesser Antilles slab from ancient tectonics

At subduction zones, lithospheric material descends through the upper mantle to the mantle transition zone (MTZ), where it may continue to sink into the lower mantle or stagnate1,2. Several factors may be important in influencing this flow, including chemical heterogeneity3, 4–5. However, tight constraints on these mantle flows and the exact factors that affect them have proved challenging. We use P-to-S receiver functions to image the subducting slab and the MTZ beneath the Lesser Antilles subduction zone. We image a singular, superdeep (>700 km) 660-km discontinuity over a 200-km-wide zone within the slab, accompanied by nearby double 660 discontinuity phases (normal and superdeep). Combined geodynamic and waveform modelling shows that this observation cannot be explained by temperature effects in typical mantle compositions but requires a large basalt-rich chemical anomaly, strongest in the location of the singular, deep 660. The inferred basalt signature is near the proposed location of a subducted extinct spreading ridge6,7, where basalt is probably present in greater proportions. Our finding suggests that past tectonic events impart chemical heterogeneity into slabs, and the heterogeneities, in turn, may affect the inherent tendency of the slab to sink.

0028-0836
697-701
Yang, Xusong
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Xie, Yujiang
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Rychert, Catherine A.
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Harmon, Nicholas
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Goes, Saskia
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Rietbrock, Andreas
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Lynch, Lloyd
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Robertson, Richard
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Latchman, Joan
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Blundy, Jonathan D.
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Kendall, John Michael
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Henstock, Timothy J.
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Wilkinson, Jamie J.
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Collier, Jenny
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Allen, Robert
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Wilson, Marjorie
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Davidson, Jon
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Van Hunen, Jeroen
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Macpherson, Colin G.
097a92cc-8164-494f-ba31-5ce3270ae8fb
Members of the VoiLA Working Group
Yang, Xusong
b9f47022-ce73-462d-8529-930f220277c4
Xie, Yujiang
77c46c7b-1aa6-4534-bca1-8c6a3dd40705
Rychert, Catherine A.
70cf1e3a-58ea-455a-918a-1d570c5e53c5
Harmon, Nicholas
10d11a16-b8b0-4132-9354-652e72d8e830
Goes, Saskia
8da1004a-3f5b-44c9-9889-046c5b6c537e
Rietbrock, Andreas
9fbc63af-9a9a-4dfe-a389-83d92b5f4cc2
Lynch, Lloyd
2bdb7db0-2d2f-4fea-8806-d55abdde888b
Robertson, Richard
20b02a16-10d3-41de-94d1-ad5b49575f62
Latchman, Joan
e8454f6e-22ad-4f6b-a6dc-8ed1a6162722
Blundy, Jonathan D.
5d32ab4e-c5af-45bf-ad68-4098b47e0f71
Kendall, John Michael
3baf9e58-0af9-44ba-9547-89d91ee0f365
Henstock, Timothy J.
27c450a4-3e6b-41f8-97f9-4e0e181400bb
Wilkinson, Jamie J.
ee1c53dd-ff6f-4e8c-8c40-010b520692e2
Collier, Jenny
76fed74d-bdd8-4299-be78-f65ca6f7e0b9
Allen, Robert
ef4ab5fe-e236-459b-83f5-8b07fba18684
Wilson, Marjorie
12d1e97a-5f12-4c88-b2d8-03f23bd756e2
Davidson, Jon
33579284-2d0d-4111-97a3-368486d74963
Van Hunen, Jeroen
3ac9ea6a-bf85-4a23-9bc6-7bf0432b974f
Macpherson, Colin G.
097a92cc-8164-494f-ba31-5ce3270ae8fb

Yang, Xusong, Xie, Yujiang, Rychert, Catherine A., Harmon, Nicholas, Goes, Saskia, Rietbrock, Andreas and Lynch, Lloyd , Members of the VoiLA Working Group (2025) Seismic imaging of a basaltic Lesser Antilles slab from ancient tectonics. Nature, 640, 697-701. (doi:10.1038/s41586-025-08754-0).

Record type: Article

Abstract

At subduction zones, lithospheric material descends through the upper mantle to the mantle transition zone (MTZ), where it may continue to sink into the lower mantle or stagnate1,2. Several factors may be important in influencing this flow, including chemical heterogeneity3, 4–5. However, tight constraints on these mantle flows and the exact factors that affect them have proved challenging. We use P-to-S receiver functions to image the subducting slab and the MTZ beneath the Lesser Antilles subduction zone. We image a singular, superdeep (>700 km) 660-km discontinuity over a 200-km-wide zone within the slab, accompanied by nearby double 660 discontinuity phases (normal and superdeep). Combined geodynamic and waveform modelling shows that this observation cannot be explained by temperature effects in typical mantle compositions but requires a large basalt-rich chemical anomaly, strongest in the location of the singular, deep 660. The inferred basalt signature is near the proposed location of a subducted extinct spreading ridge6,7, where basalt is probably present in greater proportions. Our finding suggests that past tectonic events impart chemical heterogeneity into slabs, and the heterogeneities, in turn, may affect the inherent tendency of the slab to sink.

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s41586-025-08754-0 - Version of Record
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Accepted/In Press date: 6 February 2025
e-pub ahead of print date: 9 April 2025
Published date: 17 April 2025

Identifiers

Local EPrints ID: 503322
URI: http://eprints.soton.ac.uk/id/eprint/503322
DOI: doi:10.1038/s41586-025-08754-0
ISSN: 0028-0836
PURE UUID: f2c61e93-0e67-4d79-baad-9f9acf84f452
ORCID for Nicholas Harmon: ORCID iD orcid.org/0000-0002-0731-768X
ORCID for Timothy J. Henstock: ORCID iD orcid.org/0000-0002-2132-2514

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Date deposited: 29 Jul 2025 16:40
Last modified: 22 Aug 2025 02:01

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Contributors

Author: Xusong Yang
Author: Yujiang Xie
Author: Catherine A. Rychert
Author: Nicholas Harmon ORCID iD
Author: Saskia Goes
Author: Andreas Rietbrock
Author: Lloyd Lynch
Author: Richard Robertson
Author: Joan Latchman
Author: Jonathan D. Blundy
Author: John Michael Kendall
Author: Timothy J. Henstock ORCID iD
Author: Jamie J. Wilkinson
Author: Jenny Collier
Author: Robert Allen
Author: Marjorie Wilson
Author: Jon Davidson
Author: Jeroen Van Hunen
Author: Colin G. Macpherson
Corporate Author: Members of the VoiLA Working Group

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