An Experimental Study of Trace Element Fluxes from Subducted Oceanic Crust

We have determined experimentally the hydrous phase relations and trace element partitioning behaviour of ocean floor basalt protoliths at pressures and temperatures (3 GPa, 750-1000°C) relevant to melting in subduction zones. To avoid potential complexities associated with trace element doping of s...

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Main Authors: Carter, L. B., Skora, S., Blundy, J. D., De Hoog, J. C. M., Elliott, T.
Language:English
Published: 2017
Subjects:
Kolbeinsey
Kolbeinsey Ridge
Online Access:http://doc.rero.ch/record/303317/files/egv046.pdf
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spelling ftreroch:oai:doc.rero.ch:303317 2023-05-15T17:05:07+02:00 An Experimental Study of Trace Element Fluxes from Subducted Oceanic Crust Carter, L. B. Skora, S. Blundy, J. D. De Hoog, J. C. M. Elliott, T. 2017-08-02T19:48:25Z http://doc.rero.ch/record/303317/files/egv046.pdf eng eng http://doc.rero.ch/record/303317/files/egv046.pdf 2017 ftreroch 2023-02-16T17:29:45Z We have determined experimentally the hydrous phase relations and trace element partitioning behaviour of ocean floor basalt protoliths at pressures and temperatures (3 GPa, 750-1000°C) relevant to melting in subduction zones. To avoid potential complexities associated with trace element doping of starting materials we have used natural, pristine mid-ocean ridge basalt (MORB from Kolbeinsey Ridge) and altered oceanic crust (AOC from Deep Sea Drilling Project leg 46, ∼20°N Atlantic). Approximately 15 wt % water was added to starting materials to simulate fluid fluxing from dehydrating serpentinite underlying the oceanic crust. The vapour-saturated solidus is sensitive to basalt K2O content, decreasing from 825 ± 25°C in MORB (∼0·04 wt % K2O) to ≈750°C in AOC (∼0·25 wt % K2O). Textural evidence indicates that near-solidus fluids are sub-critical in nature. The residual solid assemblage in both MORB and AOC experiments is dominated by garnet and clinopyroxene, with accessory kyanite, epidote, Fe-Ti oxide and rutile (plus quartz-coesite, phengite and apatite below the solidus). Trace element analyses of quenched silica-rich melts show a strong temperature dependence of key trace elements. In contrast to the trace element-doped starting materials of previous studies, we do not observe residual allanite. Instead, abundant residual epidote provides the host for thorium and light rare earth elements (LREE), preventing LREE from being released (ΣLREE <3 ppm at 750-900°C). Elevated Ba/Th ratios, characteristic of many arc basalts, are found to be generated within a narrow temperature field above the breakdown temperature of phengite, but below exhaustion of epidote. Melts with Ba/Th >1500 and La/SmPUM (where PUM indicates primitive upper mantle) ∼1, most closely matching the geochemical signal of arc lavas worldwide, were generated from AOC at 800-850°C Other/Unknown Material Kolbeinsey RERO DOC Digital Library Kolbeinsey ENVELOPE(-18.687,-18.687,67.149,67.149) Kolbeinsey Ridge ENVELOPE(-16.917,-16.917,68.833,68.833)
institution Open Polar
collection RERO DOC Digital Library
op_collection_id ftreroch
language English
description We have determined experimentally the hydrous phase relations and trace element partitioning behaviour of ocean floor basalt protoliths at pressures and temperatures (3 GPa, 750-1000°C) relevant to melting in subduction zones. To avoid potential complexities associated with trace element doping of starting materials we have used natural, pristine mid-ocean ridge basalt (MORB from Kolbeinsey Ridge) and altered oceanic crust (AOC from Deep Sea Drilling Project leg 46, ∼20°N Atlantic). Approximately 15 wt % water was added to starting materials to simulate fluid fluxing from dehydrating serpentinite underlying the oceanic crust. The vapour-saturated solidus is sensitive to basalt K2O content, decreasing from 825 ± 25°C in MORB (∼0·04 wt % K2O) to ≈750°C in AOC (∼0·25 wt % K2O). Textural evidence indicates that near-solidus fluids are sub-critical in nature. The residual solid assemblage in both MORB and AOC experiments is dominated by garnet and clinopyroxene, with accessory kyanite, epidote, Fe-Ti oxide and rutile (plus quartz-coesite, phengite and apatite below the solidus). Trace element analyses of quenched silica-rich melts show a strong temperature dependence of key trace elements. In contrast to the trace element-doped starting materials of previous studies, we do not observe residual allanite. Instead, abundant residual epidote provides the host for thorium and light rare earth elements (LREE), preventing LREE from being released (ΣLREE <3 ppm at 750-900°C). Elevated Ba/Th ratios, characteristic of many arc basalts, are found to be generated within a narrow temperature field above the breakdown temperature of phengite, but below exhaustion of epidote. Melts with Ba/Th >1500 and La/SmPUM (where PUM indicates primitive upper mantle) ∼1, most closely matching the geochemical signal of arc lavas worldwide, were generated from AOC at 800-850°C
author Carter, L. B.
Skora, S.
Blundy, J. D.
De Hoog, J. C. M.
Elliott, T.
spellingShingle Carter, L. B.
Skora, S.
Blundy, J. D.
De Hoog, J. C. M.
Elliott, T.
An Experimental Study of Trace Element Fluxes from Subducted Oceanic Crust
author_facet Carter, L. B.
Skora, S.
Blundy, J. D.
De Hoog, J. C. M.
Elliott, T.
author_sort Carter, L. B.
title An Experimental Study of Trace Element Fluxes from Subducted Oceanic Crust
title_short An Experimental Study of Trace Element Fluxes from Subducted Oceanic Crust
title_full An Experimental Study of Trace Element Fluxes from Subducted Oceanic Crust
title_fullStr An Experimental Study of Trace Element Fluxes from Subducted Oceanic Crust
title_full_unstemmed An Experimental Study of Trace Element Fluxes from Subducted Oceanic Crust
title_sort experimental study of trace element fluxes from subducted oceanic crust
publishDate 2017
url http://doc.rero.ch/record/303317/files/egv046.pdf
long_lat ENVELOPE(-18.687,-18.687,67.149,67.149)
ENVELOPE(-16.917,-16.917,68.833,68.833)
geographic Kolbeinsey
Kolbeinsey Ridge
geographic_facet Kolbeinsey
Kolbeinsey Ridge
genre Kolbeinsey
genre_facet Kolbeinsey
op_relation http://doc.rero.ch/record/303317/files/egv046.pdf
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