Abstract
Massive sulfide deposits were photographed and sampled at two sites (southern or SESCA and northern or NESCA) on the sediment-covered Escanaba Trough segment of Gorda Ridge, a slow-spreading midocean ridge located offshore of northern California within the U.S. Exclusive Economic Zone. Massive sulfide ledges, mounds, and chimneys in various stages of oxidation and erosion are spatially associated with the margins of small (1 km wide, 100 m high) sediment hills at SESCA and NESCA, and with faulted sediment on the north flank of a volcanic hill at NESCA. The sediment hills are uplifted above volcanic edifices that rise through sediment filling the axial valley. Two types of massive sulfide have been dredged from Escanaba Trough. Porous aggregates of pyrrhotite-rich sulfide contain small amounts of intergrown isocubanite, chalcopyrite, sphalerite, and loellingite. In some samples, pyrrhotite is partly to completely replaced by marcasite. Pyrrhotite-rich massive sulfide generally contains low amounts of base and precious metals, but barite encrustations on some of the samples are enriched in Zn, Pb, Ag, and Au. This sulfide type is largely derived from mound and talus deposits associated with the sediment hills at SESCA and NESCA. Zoned polymetallic sulfide samples from a single dredge at the NESCA site comprise the second massive sulfide type. These polymetallic samples are fragments from the wall of a sulfide structure with a large fluid channelway. Proceeding from the inner to outer wall, the mineral zonation includes isocubanite, sphalerite, arsenopyrite, galena, tetrahedrite, a Pb-Sb suifosalt, and argentite. Polymetallic sulfide samples are enriched in Pb, As, Sb, Ag, Hg, and Sn relative to massive sulfide recovered from other spreading axes. Other dredge samples include sulfide-cemented sediment-clast breccia and sediment containing abundant interstitial galena and hydrocarbon. The composition of massive sulfide from both areas indicates extensive interaction between hydrothermal fluids and the sediment in Escanaba Trough. Pyrrhotite-rich sulfide probably forms above sites of diffuse, sluggish discharge, whereas polymetallic sulfide structures formed in response to focused, high-velocity discharge at a “black smoker” type of vent.
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References
Abbott DH, Morton JL, Holmes ML (1986) Heat-flow measurements on a hydrothermally-active, slow spreading ridge: The Escanaba Trough. Geophys Res Lett 13: 678–680.
Atwater T, Mudie JD (1973) Detailed near-bottom geophysical study of the Gorda Ridge. J Geophys Res 78: 8665–8686.
Benninger LM, Koski RA (1987) Preliminary descriptions of sulfide samples dredged in 1986 from Escanaba Trough, southern Gorda Ridge. U.S. Geological Survey Open-File Report 87–375-B, 26 pp.
Campbell AC, German C, Palmer MR, Edmond JM (1988) Preliminary report of the chemistry of hydrothermal fluids from the Escanaba Trough (abstract). EOS, Trans Am Geophys Union 69: 1271.
Chezar H, Lee J (1985) A new look at deep-sea video. Deep-Sea Res 32: 1429–1436.
Clague DA, Holmes ML (1987) Geology, petrology, and mineral potential of the Gorda Ridge. In: Scholl DW, Grantz A, Vedder JG (eds): Geology and Resource Potential of the Continental Margin of Western North America and Adjacent Ocean Basins—Beaufort Sea to Baja California. Houston: Circum-Pacific Council for Energy and Mineral Resouces Earth Science Series, Vol 6, pp 563–580.
Davis EE, Goodfellow WD, Bornhold BD, et al. (1987) Massive sulfides in a sedimented rift valley, northern Juan de Fuca Ridge. Earth Planetary Sci Lett 82: 49–61.
EEZ-SCAN 84 Scientific Staff (1986) Atlas of the Exclusive Economic Zone, Western Conterminous United States. U.S. Geological Survey Miscellaneous Investigations Series I–1792 152 pp, scale 1: 500,000.
Franklin JM, Lydon JW, Sangster DM (1981) Volcanic-associated massive sulfide deposits. In Economic Geology 75th Anniversary Volume, pp 485–627.
Hannington MD, Peter JM, Scott SD (1986) Gold in sea-floor polymetallic sulfide deposits. Econ Geol 81: 1867–1883.
Holmes ML, Morton JL (1986) Massive sulfide deposits from Escanaba Trough, Gorda Ridge (abstract). Geol Soc Am Abstr Program 18: 118.
Karlin R, Lyle M (1986) Sediment studies on the Gorda Ridge. State of Oregon, Department of Geology and Mineral Industries, Open-File Report 0–86–19, 76 pp.
Koski RA, Lonsdale PF, Shanks WC, Berndt ME, Howe SS (1985) Mineralogy and geochemistry of a sediment-hosted hydrothermal sulfide deposit from the southern trough of Guaymas Basin, Gulf of California. J Geophys Res 9: 6695–6707.
Koski RA, Shanks WC III, Bohrson WA, Oscarson RL (1988) The composition of massive sulfide deposits from the sediment-covered floor of Escanaba Trough, Gorda Ridge: Implications for de-positional processes. Can Mineral 26: 655–673.
Kvenvolden KA, Rapp JB, Hostettler F, Morton JL, King JD, Claypool GE (1986) Petroleum associated with polymetalic sulfide on the Gorda Ridge, offshore Northern California. Science 234: 1231–1234.
LeHuray AP, Church SE, Koski RA, Bouse RM (1988) Pb isotopes in sulfides from mid-ocean ridge hydrothermal sites. Geology 16: 362–365.
Lonsdale PF, Lawver LA (1980) Immature plate boundary zones studied with a submersible in the Gulf of California. Geol Soc Am Bull 91: 555–569.
Lonsdale PF, Bischoff JL, Burns VM, Kastner M, Sweeney RE (1980) A high-temperature hydro-thermal deposit on the seabed at a Gulf of California spreading center. Earth Planetary Sci Lett 49:8–20.
Lydon JW (1984) Ore deposit models—8. Volca-nogenic massive sulphide deposits. I. A descriptive model. Geosci Can 11: 195–202.
McManus DA et al. (1970) Site 35. In McManus DA et al. (eds): Initial Reports of the Deep Sea Drilling Project, Vol 5. Washington: U.S. Government Printing Office, pp 165–172.
Moore GW (1970) Sea-floor spreading at the junction between Gorda Rise and Mendocino Ridge. Geol Soc Am Bull 81: 2817–2824.
Moore GW, Sharman GF (1970) Summary of scan site 4. In McManus DA et al. (eds): Initial Reports of the Deep Sea Drilling Project, Vol 5. Washington: U.S. Government Printing Office, pp 761–773.
Morton JL, Normark WR, Ross SL, et al. (1987a) Preliminary report, cruises L1–86-NC and L2–86-NC, Escanaba Trough, Gorda Ridge. U.S. Geological Survey Open-File Report 87–375-A, 13 pp.
Morton JL, Holmes ML, Koski RA (1987b) Volcanism and massive sulfide formation at a sedimented spreading center, Escanaba Trough, Gorda Ridge, northeast Pacific Ocean. Geophys Res Lett 14: 769–772.
Peter JM (1986) Genesis of hydrothermal vent deposits in the Southern Trough of Guaymas Basin, Gulf of California: A mineralogical and geochemical study. MS Thesis, University of Toronto, Toronto, Ontario, Canada, 164 pp.
Riddihough RP (1980) Gorda Plate motions from magnetic anomaly analysis. Earth Planetary Sci Lett 51: 163–170.
Vallier TL, Harold PJ, Girdley WA (1973) Provenances and dispersal patterns of turbidite sand in Escanaba Trough, northeastern Pacific Ocean. Marine Geol 15: 67–87.
Von Damm KL, Edmond JM, Measures CI, Grant B (1985) Chemistry of submarine hydrothermal solutions at Guaymas Basin, Gulf of California. Geochim Cosmochim Acta 49: 2221–2237.
Zierenberg RA, Koski RA, Ross SL, Shanks WC III, Slack JF (1988) Preliminary results of ALVIN dives on active sediment-hosted massive sulfide deposits in the Escanaba Trough, southern Gorda Ridge (abstract). EOS, Trans Am Geophys Union 69: 1488.
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Morton, J.L., Koski, R.A., Normark, W.R., Ross, S.L. (1990). Distribution and Composition of Massive Sulfide Deposits at Escanaba Trough, Southern Gorda Ridge. In: McMurray, G.R. (eds) Gorda Ridge. Springer, New York, NY. https://doi.org/10.1007/978-1-4612-3258-2_5
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