Impact of seamounts on the hydration of subducting plates
Impact of seamounts on the hydration of subducting plates
The subduction of seamounts greatly affects arc volcanism, earthquakes, and tectonic deformation of the overriding plate, but the role of seamounts during bending and hydration of the incoming plate at subduction zones is poorly understood. We present seismic tomographic results along three profiles from the Middle America Trench offshore northern Costa Rica. The crustal and upper mantle P-wave velocities decrease toward the trench, with the onset of velocity reduction at ∼70 km from the trench axis, indicating bend-faulting, alteration, and hydration of the incoming plate. The most prominent low-velocity anomaly of 7.6−7.8 km/s in the upper mantle occurs beneath a seamount at the outer rise, indicating enhanced hydration with ∼2.4 wt% water content, compared to ∼1.1−1.2 wt% in the subducting plate away from the seamount. Near the seamount, extremely low heat flow (<10 mW/m2) supports vigorous hydrothermal recharge of seawater. Our results reveal that subducting seamounts efficiently increase the permeability of the oceanic crust prior to subduction, facilitate the transport of seawater into the mantle, exert control on widespread serpentinization, and potentially promote water recycling back into Earth’s interior.
Li, Yuhan
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Grevemeyer, Ingo
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Robinson, Adam
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Henstock, Tim
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Marjanović, Milena
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Dannowski, Anke
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Kaul, Norbert
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Klaucke, Ingo
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Vannucchi, Paola
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Hilbert, Helen-Sophie
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Teagle, Damon
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Morgan, Jason Phipps
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1 August 2025
Li, Yuhan
6625cb67-9e58-453b-ab2d-f77aeb61981d
Grevemeyer, Ingo
e96d5dfd-f06d-4f34-bd1e-949f5d051601
Robinson, Adam
f5aea908-d884-465b-bfc1-ed67ca16ed85
Henstock, Tim
27c450a4-3e6b-41f8-97f9-4e0e181400bb
Marjanović, Milena
cce5ab7e-8a97-4b21-a2a7-9e672bab1b0e
Dannowski, Anke
0c7235f1-4a9c-4c71-a624-99593d8b3def
Kaul, Norbert
f3e2763a-268b-47ff-a83b-3f76885c2325
Klaucke, Ingo
d31ff73b-52b1-4667-bdf6-49b79a2367b0
Vannucchi, Paola
7c0b6a81-a76a-4357-ac38-6c21e967dbd1
Hilbert, Helen-Sophie
83fca05d-9cea-4b05-b9a2-477d7710a3bd
Teagle, Damon
396539c5-acbe-4dfa-bb9b-94af878fe286
Morgan, Jason Phipps
77a026aa-3742-4f0e-9c71-ee8d230e0687
Li, Yuhan, Grevemeyer, Ingo, Robinson, Adam, Henstock, Tim, Marjanović, Milena, Dannowski, Anke, Kaul, Norbert, Klaucke, Ingo, Vannucchi, Paola, Hilbert, Helen-Sophie, Teagle, Damon and Morgan, Jason Phipps
(2025)
Impact of seamounts on the hydration of subducting plates.
Geology.
(doi:10.1130/G53355.1).
Abstract
The subduction of seamounts greatly affects arc volcanism, earthquakes, and tectonic deformation of the overriding plate, but the role of seamounts during bending and hydration of the incoming plate at subduction zones is poorly understood. We present seismic tomographic results along three profiles from the Middle America Trench offshore northern Costa Rica. The crustal and upper mantle P-wave velocities decrease toward the trench, with the onset of velocity reduction at ∼70 km from the trench axis, indicating bend-faulting, alteration, and hydration of the incoming plate. The most prominent low-velocity anomaly of 7.6−7.8 km/s in the upper mantle occurs beneath a seamount at the outer rise, indicating enhanced hydration with ∼2.4 wt% water content, compared to ∼1.1−1.2 wt% in the subducting plate away from the seamount. Near the seamount, extremely low heat flow (<10 mW/m2) supports vigorous hydrothermal recharge of seawater. Our results reveal that subducting seamounts efficiently increase the permeability of the oceanic crust prior to subduction, facilitate the transport of seawater into the mantle, exert control on widespread serpentinization, and potentially promote water recycling back into Earth’s interior.
Text
manuscript JC228 p200e_rev2
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Accepted/In Press date: 9 July 2025
Published date: 1 August 2025
Additional Information:
Currently this is "Early publication" so waiting for the final journal issue
I believe that the Publisher version is not open access, hence have uploaded the Author accepted version
Identifiers
Local EPrints ID: 505079
URI: http://eprints.soton.ac.uk/id/eprint/505079
ISSN: 0091-7613
PURE UUID: 1d381809-0194-47e7-81bc-f3a72d363f8e
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Date deposited: 25 Sep 2025 17:07
Last modified: 26 Sep 2025 02:03
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Contributors
Author:
Yuhan Li
Author:
Ingo Grevemeyer
Author:
Milena Marjanović
Author:
Anke Dannowski
Author:
Norbert Kaul
Author:
Ingo Klaucke
Author:
Paola Vannucchi
Author:
Helen-Sophie Hilbert
Author:
Jason Phipps Morgan
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