Related
Publication(s):
Von Damm, K.L. (1983), Chemistry of submarine hydrothermal solutions at 21°N, East Pacific Rise and Guaymas Basin,Gulf of California, Ph.D. thesis, WHOI-MIT Joint Program in Oceanography, 240 pp.
Albarede, F., A. Michard, J.F. Minster, and G. Michard (1981), 87Sr/86Sr ratios in hydrothermal waters and deposits from the East Pacific Rise at 21oN, Earth and Planetary Science Letters, 55, 229-236
Bourles, D.L., G.M. Taisbeck, E.T. Brown, F. Yiou, and J.M. Edmond (1991), Beryllium isotope systematics of submarine hydrothermal systems, Earth and Planetary Science Letters, 105, 534-542
Campbell, A.C., and J.M. Edmond (1989), Halide systematics of submarine hydrothermal vents, Nature, 342, 168-170
Campbell, A.C., T.S. Bowers, C.I. Measures, K.Kl. Falkner, M. Khadem, and J.M. Edmond (1988), A time series of vent fluid compositions from 21oN, East Pacific Rise (1979, 1981, 1985), and the Guaymas Basin, Gulf of California (1982, 1985), Journal of Geophysical Research, 93, 4537-4549
Chan, L.-H., J.M. Edmond, and G. Thompson (1993), A lithium isotope study of hot springs and metabasalts from mid-ocean ridge hydrothermal systems, Journal of Geophysical Research, 98, 9653-9659
Chen, J.H., G.J. Wasserburg, K.L. Von Damm, and J.M. Edmond (1986), The U-Th-Pb systematics in hot springs on the East Pacific Rise at 21°N and Guaymas Basin, Geochimica et Cosmochimica Acta, 50, 2467-2479
Klinkhammer, G.P., H. Elderfield, J.M. Edmond, and A. Mitra (1994), Geochemical implications of rare earth element patterns in hydrothermal fluids from mid-ocean ridges, Geochimica et Cosmochimica Acta, 58, 5105-5113
Michard, A., and F. Albarede (1986), The REE content of some hydrothermal fluids, Chemical Geology, 55, 51-60
Mortlock, R.A., P.N. Froelich, R.A. Feely, G.J. Massoth, D.A. Butterfield, and J.E. Lupton (1993), Silica and germanium in Pacific Ocean hydrothermal vents and plumes, Earth and Planetary Science Letters, 119, 365-378
Palmer, M.R. (1991), Boron isotope systematics of hydrothermal fluids and tourmalines: a synthesis, Chemical Geology (Isotope Geoscience Section), 94, 111-121
Palmer, M.R. (1992), Controls over the chloride concentration of submarine hydrothermal vent fluids: evidence from Sr/Ca and 87Sr/86Sr ratios, Earth and Planetary Science Letters, 109, 37-46
Palmer, M.R., and J.M. Edmond (1989a), The strontium isotope budget of the modern ocean, Earth and Planetary Science Letters, 92, 11-26
Palmer, M.R., and J.M. Edmond (1989b), Cesium and rubidium in submarine hydrothermal fluids: evidence for recycling of alkali elements, Earth and Planetary Science Letters, 95, 8-14
Spivack, A.J., and J.M. Edmond (1987), Boron isotope exchange between seawater and the oceanic crust, Geochimica et Cosmochimica Acta, 51, 1033-1043
Von Damm, K.L. (1990), Seafloor hydrothermal activity: black smoker chemistry and chimneys, Annual Reviews of Earth and Planetary Science, 18, 173-204
Von Damm, K.L., J.M. Edmond, B. Grant, C.I. Measures, B. Walden, and R.F. Weiss (1985), Chemistry of submarine hydrothermal solutions at 21°N, East Pacific Rise, Geochimica et Cosmochimica Acta, 49, 2197-2230
Woodruff, L.G., and W.C. Shanks III (1988), Sulfur isotope study of chimney minerals and vent fluids from 21°N, East Pacific Rise: hydrothermal sulfur sources and disequilibrium sulfate reduction, Journal of Geophysical Research, 93, 4562-4572