Arc magma compositions controlled by linked thermal and chemical gradients above the subducting slab
Arc magma compositions controlled by linked thermal and chemical gradients above the subducting slab
Global arc magmatism is sustained by a continuous fluid flux that is returned to the mantle in subduction zones. Despite considerable advances in simulations of melting processes, models of arc magmatism remain incompletely tested against erupted products. Here, we show that a suite of primitive volcanic rocks from across the southern Chilean arc preserves the signature of a systematic down-slab gradient in fluid chemistry. The chemical gradient is consistent with predictions from modeling, geothermometry and experiments. We infer that increasing slab-surface temperatures cause the sub-arc slab flux to become less water-rich and increasingly dominated by hydrous melts over a distance of a few kilometers behind the arc front. This change exerts a first-order control on magma chemistry, and implies discrete melt-transport pathways through subduction zones. Our results replicate patterns in other arcs, implying common sub-arc slab-surface temperature ranges in thermally-diverse subduction zones.
Primitive magma, Primary melt, Picrite, Chile, Scoria cone, Arc magma generation
2550-2556
Watt, S.F.L.
76f594eb-9252-4a8b-822f-be71038b18db
Pyle, D.M.
30f0cb90-7a4d-4219-9cff-1fabe2f0e4c1
Mather, T.A.
97b5dc46-dee8-4dcd-865f-d346fa0783ea
Naranjo, J.A.
9e73f8ba-7b8a-48d7-b330-d9f573442429
16 June 2013
Watt, S.F.L.
76f594eb-9252-4a8b-822f-be71038b18db
Pyle, D.M.
30f0cb90-7a4d-4219-9cff-1fabe2f0e4c1
Mather, T.A.
97b5dc46-dee8-4dcd-865f-d346fa0783ea
Naranjo, J.A.
9e73f8ba-7b8a-48d7-b330-d9f573442429
Watt, S.F.L., Pyle, D.M. and Mather, T.A. et al.
(2013)
Arc magma compositions controlled by linked thermal and chemical gradients above the subducting slab.
Geophysical Research Letters, 40 (11), .
(doi:10.1002/grl.50513).
Abstract
Global arc magmatism is sustained by a continuous fluid flux that is returned to the mantle in subduction zones. Despite considerable advances in simulations of melting processes, models of arc magmatism remain incompletely tested against erupted products. Here, we show that a suite of primitive volcanic rocks from across the southern Chilean arc preserves the signature of a systematic down-slab gradient in fluid chemistry. The chemical gradient is consistent with predictions from modeling, geothermometry and experiments. We infer that increasing slab-surface temperatures cause the sub-arc slab flux to become less water-rich and increasingly dominated by hydrous melts over a distance of a few kilometers behind the arc front. This change exerts a first-order control on magma chemistry, and implies discrete melt-transport pathways through subduction zones. Our results replicate patterns in other arcs, implying common sub-arc slab-surface temperature ranges in thermally-diverse subduction zones.
This record has no associated files available for download.
More information
e-pub ahead of print date: 4 June 2013
Published date: 16 June 2013
Keywords:
Primitive magma, Primary melt, Picrite, Chile, Scoria cone, Arc magma generation
Organisations:
Geology & Geophysics
Identifiers
Local EPrints ID: 353425
URI: http://eprints.soton.ac.uk/id/eprint/353425
ISSN: 0094-8276
PURE UUID: c069b2c4-aee1-410c-8d20-23aa48d69269
Catalogue record
Date deposited: 06 Jun 2013 10:58
Last modified: 14 Mar 2024 14:05
Export record
Altmetrics
Contributors
Author:
S.F.L. Watt
Author:
D.M. Pyle
Author:
T.A. Mather
Author:
J.A. Naranjo
Download statistics
Downloads from ePrints over the past year. Other digital versions may also be available to download e.g. from the publisher's website.
View more statistics