Mélange dehydration and melting beneath South Sandwich Islands arc

Shu, Yunchao; Nielsen, Sune G.; Roux, Veronique; Ramos, Danielle Santiago; Blusztajn, Jerzy; Auro, Maureen; Leat, Phil T.; Horner, Tristan J.

Mélange dehydration and melting beneath South Sandwich Islands arc

Yunchao Shu (yshu@hku.hk), Sune G. Nielsen (sune.nielsen@univ-lorraine.fr), Veronique Roux, Danielle Santiago Ramos, Jerzy Blusztajn, Maureen Auro, Phil T. Leat and Tristan J. Horner
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Yunchao Shu: Woods Hole Oceanographic Institution
Sune G. Nielsen: Woods Hole Oceanographic Institution
Veronique Roux: Woods Hole Oceanographic Institution
Danielle Santiago Ramos: Woods Hole Oceanographic Institution
Jerzy Blusztajn: Woods Hole Oceanographic Institution
Maureen Auro: Woods Hole Oceanographic Institution
Phil T. Leat: British Antarctic Survey
Tristan J. Horner: Woods Hole Oceanographic Institution

Nature Communications, 2025, vol. 16, issue 1, 1-13

Abstract: Abstract Mechanisms regulating material transfer from subducted slabs to arc magmas remain debated, centered on metasomatized mantle wedge interactions versus mélange mobilization at the slab-mantle interface. The South Sandiwch Islands arc offers a unique setting to distinguish between these models due to the significant barium isotope contrast between altered oceanic crust and sediments, the latter displaying unusually light barium isotope compositions compared to the global sediment range. Here we show substantial barium isotope variations coupled with invariant strontium isotope ratios in arc lavas, consistent with mélange mobilization beneath the arc. Northern arc lavas display a broader range of barium isotope values than expected from slab inputs, suggesting barium isotope fractionation during slab material transport, potentially driven by phengite-related barium retention within the mélange. Notably, sediments, rather than altered oceanic crust, emerge as the dominant source of barium in arc lavas. While a comparison of barium isotope data from four additional arcs indicates mantle wedge metasomatism remains visible in several cases, mélange mobilization is consistent with available data across all of these subduction zones.

Date: 2025
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DOI: 10.1038/s41467-025-56554-x

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