Distribution of hydrothermal plumes along the S. EPR: 17 12' - 18 35'S

1997 American Geophysical Union Fall Meeting

S.R. Baron, R.M. Haymon, K.C. Macdonald, J.M. Hobson (Dept. Geological Sciences, UCSB, Santa Barbara, CA 93106)

D Scheirer (Geological Sciences, Brown U., Providence, RI 02912)

D.J. Wright (Dept. of Geosciences, Oregon State University, Corvallis, OR 97331-5506)

E.T. Baker (NOAA/PMEL, Seattle, WA 98115)

ARGO II near bottom photographic and DSL-120 kHz sonar surveys were conducted along the S. EPR in October- November 1996 to study the narrow axial zone of the ultrafast- spreading EPR (145 mm/yr) at 17 18'S. Both the ARGO II camera sled and the DSL-120 were equipped with plume detecting instruments that collected temperature, salinity, and particle abundance data simultaneously with photographic and acoustic coverage. The ARGO II, DSL-120, and plume-detection instruments were used to map the distribution of hydrothermal plumes with respect to volcanic-tectonic features on the ridge. The CTD and transmissometer were mounted on the sleds and therefore collected data approximately 10 m and 75 m off the seafloor during the ARGO II and DSL-120 surveys, respectively. The two MAPRs were suspended on the cable, one at 50m and one at 100 m above the sled. Plume mapping consisted of two DSL-120 lowerings, five ARGO lowerings with the CTD, transmissometer, and MAPRs, totaling 17 days of near bottom data collection and ten vertical profiles acquired during vehicle deployment and recovery. The morphologically distinct Spike (17 24-26'S) and Hump (19 23-29'S) segments and were the principal survey areas but plume data coverage is continuous from 17 12' - 18 30S. We also ran a sawtooth CTD tow-yo for a short distance (17.68 - 17.60'S) along the ridge to obtain local hydrographic data.

Nephelometer and temperature data show that a high percentage (~75%) of the northern survey area (17 12-55'S) and ~45% of the southern survey area (17 55' - 18 35'S) are covered by plume 150m above the seafloor. The most intense plumes are concentrated at the center of and at the southern end of the Spike area (near 17 26.5'S and from 17 35-42'S). Both plumes coincide with other activity indicators (animal communities, smokers) detected with the ARGO II cameras. In the Spike Area there is a one-to-one correlation between areas where seafloor hydrothermal indicators are present, and areas where plumes are detected, although plume contributions from individual seafloor vents were not always resolvable. Further work is being done on this data set to estimate heat flux from this very hydrothermally active area.

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