Slab to back-arc to arc: Fluid and melt pathways through the mantle wedge beneath the Lesser Antilles

Hicks, Stephen P.; Bie, Lidong; Rychert, Catherine A.; Harmon, Nicholas; Goes, Saskia; Rietbrock, Andreas; Wei, Songqiao Shawn; Collier, Jenny S.; Henstock, Timothy J.; Lynch, Lloyd; Prytulak, Julie; Macpherson, Colin G.; Schlaphorst, David; Wilkinson, Jamie J.; Blundy, Jonathan D.; Cooper, George F.; Davy, Richard G.; Kendall, John-Michael

doi:10.1126/sciadv.add2143

Slab to back-arc to arc: Fluid and melt pathways through the mantle wedge beneath the Lesser Antilles

Hicks, Stephen P.; Bie, Lidong; Rychert, Catherine A.; Harmon, Nicholas; Goes, Saskia; Rietbrock, Andreas; Wei, Songqiao Shawn; Collier, Jenny S.; Henstock, Timothy J.; Lynch, Lloyd; Prytulak, Julie; Macpherson, Colin G.; Schlaphorst, David; Wilkinson, Jamie J.; Blundy, Jonathan D.; Cooper, George F.; Davy, Richard G.; Kendall, John-Michael

Authors

Stephen P. Hicks

Lidong Bie

Catherine A. Rychert

Nicholas Harmon

Saskia Goes

Andreas Rietbrock

Songqiao Shawn Wei

Jenny S. Collier

Timothy J. Henstock

Lloyd Lynch

Professor Julie Prytulak julie.prytulak@durham.ac.uk
Professor

Professor Colin Macpherson colin.macpherson@durham.ac.uk
Professor

David Schlaphorst

Jamie J. Wilkinson

Jonathan D. Blundy

George F. Cooper

Richard G. Davy

John-Michael Kendall

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 mantle wedge 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.

Citation

Hicks, S. P., Bie, L., Rychert, C. A., Harmon, N., Goes, S., Rietbrock, A., …Kendall, J. (2023). Slab to back-arc to arc: Fluid and melt pathways through the mantle wedge beneath the Lesser Antilles. Science Advances, 9(5), https://doi.org/10.1126/sciadv.add2143

Journal Article Type	Article
Online Publication Date	Feb 1, 2023
Publication Date	2023
Deposit Date	Jul 17, 2023
Publicly Available Date	Jul 17, 2023
Journal	Science Advances
Publisher	American Association for the Advancement of Science
Peer Reviewed	Peer Reviewed
Volume	9
Issue	5
DOI	https://doi.org/10.1126/sciadv.add2143
Public URL	https://durham-repository.worktribe.com/output/1169483