R. Kessel scite author profile

Fluids and melts liberated from subducting oceanic crust recycle lithophile elements back into the mantle wedge, facilitate melting and ultimately lead to prolific subduction-zone arc volcanism. The nature and composition of the mobile phases generated in the subducting slab at high pressures have, however, remained largely unknown. Here we report direct LA-ICPMS measurements of the composition of fluids and melts equilibrated with a basaltic eclogite at pressures equivalent to depths in the Earth of 120-180 km and temperatures of 700-1,200 degrees C. The resultant liquid/mineral partition coefficients constrain the recycling rates of key elements. The dichotomy of dehydration versus melting at 120 km depth is expressed through contrasting behaviour of many trace elements (U/Th, Sr, Ba, Be and the light rare-earth elements). At pressures equivalent to 180 km depth, however, a supercritical liquid with melt-like solubilities for the investigated trace elements is observed, even at low temperatures. This mobilizes most of the key trace elements (except the heavy rare-earth elements, Y and Sc) and thus limits fluid-phase transfer of geochemical signatures in subduction zones to pressures less than 6 GPa.

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The water–basalt system at 4 to 6 GPa: Phase relations and second critical endpoint in a K-free eclogite at 700 to 1400 °C

Kessel

Ulmer²,

Pettke

et al. 2005

Earth and Planetary Science Letters

292

165

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Geomagnetic field intensity: How high can it get? How fast can it change? Constraints from Iron Age copper slag

Shaar¹,

Ben‐Yosef²,

Ron³

et al. 2011

Earth and Planetary Science Letters

111

140

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A new model for the evolution of diamond-forming fluids: Evidence from microinclusion-bearing diamonds from Kankan, Guinea

Weiss

Kessel

Griffin

et al. 2009

Lithos

161

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The thermal history of equilibrated ordinary chondrites and the relationship between textural maturity and temperature

Kessel

Beckett

Stolper

2007

Geochimica et Cosmochimica Acta

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R. Kessel

Trace element signature of subduction-zone fluids, melts and supercritical liquids at 120–180 km depth

The water–basalt system at 4 to 6 GPa: Phase relations and second critical endpoint in a K-free eclogite at 700 to 1400 °C

Geomagnetic field intensity: How high can it get? How fast can it change? Constraints from Iron Age copper slag

A new model for the evolution of diamond-forming fluids: Evidence from microinclusion-bearing diamonds from Kankan, Guinea

The thermal history of equilibrated ordinary chondrites and the relationship between textural maturity and temperature

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