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Magmatic events can produce rapid changes in hydrothermal vent chemistry

Marvin D. Lilley (), David A. Butterfield, John E. Lupton and Eric J. Olson
Additional contact information
Marvin D. Lilley: University of Washington
David A. Butterfield: University of Washington
John E. Lupton: NOAA
Eric J. Olson: University of Washington

Nature, 2003, vol. 422, issue 6934, 878-881

Abstract: Abstract The Endeavour segment of the Juan de Fuca ridge is host to one of the most vigorous hydrothermal areas found on the global mid-ocean-ridge system, with five separate vent fields located within 15 km along the top of the ridge segment1. Over the past decade, the largest of these vent fields2, the ‘Main Endeavour Field’, has exhibited a constant spatial gradient in temperature and chloride concentration in its vent fluids, apparently driven by differences in the nature and extent of subsurface phase separation3. This stable situation was disturbed on 8 June 1999 by an earthquake swarm4. Owing to the nature of the seismic signals and the lack of new lava flows observed in the area during subsequent dives of the Alvin and Jason submersibles (August–September 1999), the event was interpreted to be tectonic in nature4. Here we show that chemical data from hydrothermal fluid samples collected in September 1999 and June 2000 strongly suggest that the event was instead volcanic in origin. Volatile data from this event and an earlier one at 9° N on the East Pacific Rise show that such magmatic events can have profound and rapid effects on fluid–mineral equilibria, phase separation, 3He/heat ratios and fluxes of volatiles from submarine hydrothermal systems.

Date: 2003
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DOI: 10.1038/nature01569

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