U.S. Dept. of Commerce / NOAA / OAR / PMEL / Publications
Evidence of large-scale episodic venting of hydrothermal fluids was initially
discovered in August 1986 in the form of a 130-km
radially symmetric "megaplume" over the southern Juan de Fuca Ridge.
We report here on the discovery in September 1987 of a second, smaller megaplume
about 45 km north of the location of the first megaplume. The
He/heat,
He/dissolved Mn, and
He/dissolved
silica ratios in both megaplumes were typical of high-temperature vent fluids.
Evidence from long-term records of current flow over the southern Juan de Fuca
Ridge, and from the mineralogy and Mn chemistry of megaplume particles, makes
it unlikely that the second megaplume was a reencounter of the first. A plume
model that relates the heat flux to the observed plume rise height of ~1000
m finds that the total heat content of the fluids that formed the megaplumes
was 10
-10
J, or equivalently a fluid volume of 3-8 × 10
m
at 350°C. The
geometry and suspended particle population of the first megaplume imply that
such features are formed within a few days time. The extraordinary heat and
volume fluxes associated with megaplumes (10
-10
greater than ordinary vent fields), as
well as their typical hydrothermal chemistry, suggest that they resulted from
tectonic or hydraulic fracturing that suddenly increased the permeability of
the hydrothermal fluid reservoir in the axial crust. The flux of hydrothermal
heat from continuous venting and episodic megaplumes on the southern Juan de
Fuca Ridge is presently 4-10 × 10
W, a factor
of 5-10 greater than various geophysical model calculations for this ridge segment.
This imbalance may be symptomatic of a recent surge in the local cycle of magmatic
activity.
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