Extraordinary phase separation and segregation in vent fluids from the southern East Pacific Rise

Details Extraordinary phase separation and segregation in vent fluids from the southern East Pacific Rise Extraordinary phase separation and segregation in vent fluids from the southern East Pacific Rise

Feb 2003

adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=2003e%26psl.206..365v&link_type=abstract

Earth and Planetary Science Letters, Volume 206, Issue 3-4, p. 365-378.

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14

Black Smokers, Hydrothermal Processes, Mid-Ocean Ridges, East Pacific Rise, Phase Separation

Scientific paper

The discovery of Brandon vent on the southern East Pacific Rise is providing new insights into the controls on mid-ocean ridge hydrothermal vent fluid chemistry. The physical conditions at the time of sampling (287 bar and 405°C) place the Brandon fluids very close to the critical point of seawater (298 bar and 407°C). This permits in situ study of the effects of near critical phenomena, which are interpreted to be the primary cause of enhanced transition metal transport in these fluids. Of the five orifices on Brandon sampled, three were venting fluids with less than seawater chlorinity, and two were venting fluids with greater than seawater chlorinity. The liquid phase orifices contain 1.6-1.9 times the chloride content of the vapors. Most other elements, excluding the gases, have this same ratio demonstrating the conservative nature of phase separation and the lack of subsequent water-rock interaction. The vapor and liquid phases vent at the same time from orifices within meters of each other on the Brandon structure. Variations in fluid compositions occur on a time scale of minutes. Our interpretation is that phase separation and segregation must be occurring `real time' within the sulfide structure itself. Fluids from Brandon therefore provide an unique opportunity to understand in situ phase separation without the overprinting of continued water-rock interaction with the oceanic crust, as well as critical phenomena.
SouEPR Science Party: M.D. Lilley (chief scientist), K.L. Von Damm (co-chief scientist), R. Collier, J. Cowen, R. Haymon, M.K. Tivey, D. Fornari, K. Nakamura, E. McLaughlin-West, T. Shank, E. Olson, A. Graham, G. Proskurowski, J. Kaye, A. Bray, M. Brockington, K. O'Grady, J. Hobson, J. Sarrazin, M. Sparrow, D. Hubbard, D. McGee, S. Brinson, B. Cushman.

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