Gulf of Mexico hydrocarbon seep communities (original) (raw)
Literature cited
Anderson, R. K., Scalan, R. S., Parker, P. L. (1983). Seep oil and gas in Gulf of Mexico sediment. Science. N.Y. 222: 619–621 Google Scholar
Anonymous (1987). Record template positioned on Conoco's Jolliet field. Sea Technol. 28(7): p. 62
Arp, A. J., Childress, J. J. (1981). Blood function in the hydrothermal vent vestimentiferan tube worm. Science, N.Y. 213: 342–344 Google Scholar
Arp, A. J., Childress, J. J., Fisher, C. R., Jr. (1985). Blood gas transport in Rifita pachyptila. Bull. biol. Soc. Wash. 6: 289–300 Google Scholar
Behrens, E. W. (1988). Geology of a continental slope oil seep, northern Gulf of Mexico. Bull. Am. Ass. Petrol. Geol. 72: 105–114 Google Scholar
Boland, G. S. (1986). Discovery of co-occurring bilvalve Acesta sp. and chemosynthetic tube worms Lamellibrachia sp. Nature, Lond. 323: p. 759 Google Scholar
Brooks, J. M., Cox, H. B., Bryant, W. R., Kennicutt II, M. C., Mann, R. G., McDonald, T. J. (1986). Association of gas hydrates and oil seepage in the Gulf of Mexico. Org. Geochem. 10: 221–234 Google Scholar
Brooks, J. M., Kennicutt II, M. C., Bidigare, R. R., Fay, R. R. (1985). Hydrates, oil seepage and chemosynthetic ecosystems on the Gulf of Mexico slope. EOS Trans., Am. geophys. Un. 66: p. 105 Google Scholar
Brooks, J. M., Kennicutt II, M. C., Bidigare, R. R., Wade, T. L., Powell, E. N., Denoux, G. J., Fay, R. R., Childress, J. J., Fisher, C. R., Rosman, I., Boland, G. (1987a). Hydrates, oil seepage, and chemosynthetic ecosystems on the Gulf of Mexico slope: an update. EOS Trans., Am. geophys. Un. 68: 489–499 Google Scholar
Brooks, J. M., Kennicutt II, M. C., Fisher, C. R., Macko, S. A., Cole, K., Childress, J. J., Bidigare, R. R., Vetter, R. D. (1987b). Deep-sea hydrocarbon seep communities: evidence for energy and nutritional carbon sources. Science, N.Y. 238: 1138–1142 Google Scholar
Brooks, J. M., Reid, D. F., Bernard, B. B. (1981). Methane in the upper water of the northwestern Gulf of Mexico. J. geophys. Res. 86: 11029–11040 Google Scholar
Cavanaugh, C. M., Gardiner, S. L., Jones, M. L., Jannasch, H. W., Waterbury, J. B. (1981). Prokaryotic cells in the hydrothermal vent tube worm Riftia pachyptila Jones: possible chemoautotrophic symbionts. Science, N.Y. 213: 340–342 Google Scholar
Childress, J. J., Fisher, C. R., Brooks, J. M., Kennicutt II, M. C., Bidigare, R., Anderson, A. (1986). A methanotrophic molluscan (Bivalvia: Mytilidae) symbiosis: mussels fueled by gas. Science, N.Y. 233: 1306–1308 Google Scholar
Cline, J. D. (1969). Spectrophotometric determination of hydrogen sulfide in natural waters. Limnol. Oceanogr. 14: 454–458 (1969) Google Scholar
Conover, W. J. (1980). Practical nonparametric statistics. John Wiley & Sons, New York Google Scholar
Corliss, J. B., Dymond, J., Gordon, L. I., Edmond, J. M., von Herzen, R. P., Ballard, R. D., Green, K., Williams, D., Bainbridge, A., Crane, K., van Andel, T. H. (1979). Submarine thermal springs on the Galápagos Rift. Science, N.Y. 203: 1073–1083 Google Scholar
Felbeck, H. (1981). Chemoautotrophic potential of the hydrothermal vent tube worm, Riftia pachyptila Jones (Vestimentifera). Science, N. Y. 213: 336–338 Google Scholar
Fisher, C. R., Childress, J. J., Oremland, R. S., Bidigare, R. R. (1987) The importance of methane and thiosulfate in the metabolism of the bacterial symbionts of two deep-sea mussels. Mar. Biol. 96: 59–71 Google Scholar
Fustec, A., Desbruyères, D., Juniper, S. K. (1987). Deep-sea hydrothermal vent communities at 13°N on the East Pacific Rise: microdistribution and temporal variations. Biol. Oceanogr. 4: 121–164 Google Scholar
Goldhaber, M. B., Aller, R. C., Cochran, J. K., Rosenfeld, J. K., Martens, C. S., Berner, R. A. (1977). Sulfate reduction, diffusion and bioturbation in Long Island Sound sediments: report of the FOAM group. Am. J. Sci 277: 193–237 Google Scholar
Hecker, B. (1985). Fauna from a cold sulfur-seep in the Gulf of Mexico: comparison with hydrothermal vent communities and evolutionary implications. Bull. biol. Soc. Wash. 6: 465–474 Google Scholar
Hessler, R. R., Smithey, W. M., Jr., Keller, C. H. (1985). Spatial and temporal variation of giant clams, tube worms and mussels at deep-sea hydrothermal vents. Bull. biol. Soc. Wash. 6: 411–428 Google Scholar
Horvitz, L. (1972). Vegetation and geochemical prospecting for petroleum. Bull. Am. Ass. Petrol. Geol. 56: 925–940 Google Scholar
Johnson, K. S., Beehler, C. L., Sakamoto-Arnold, C. M., Childress, J. J. (1986). In situ measurements of chemical distributions in a deep-sea hydrothermal vent field. Science, N.Y. 231: 1139–1141 Google Scholar
Jones, M. L. (1985). On the Vestimentifera, new phylum: six new species and other taxa from hydrothermal vents and elsewhere. Bull. biol. Soc. Wash. 6: 117–158 Google Scholar
Juniper, S. K., Sibuet, M. (1987). Cold seep benthic communities in Japan subduction zones: spatial organization, trophic strategies and evidence for temporal evolution. Mar. Ecol. Prog. Ser. 40: 115–126 Google Scholar
Kennicutt II, M. C., Brooks, J. M., Bidigare, R. R., Fay, R. R., Wade, T. L., McDonald, T. J. (1985). Vent-type taxa in a hydrocarbon seep region on the Louisiana slope. Nature, Lond. 317: 351–353 Google Scholar
Kennicutt II, M. C., Brooks, J. M., Denoux, G. J. (1988). Leekage of deep reservoired petroleum to the near surface on the Gulf of Mexico continental slope. Mar. Chem. 24: 39–59 Google Scholar
Kennicutt II, M. C., Denoux, G. J., Brooks, J. M., Sandberg, W. A. (1987a). Hydrocarbons in Mississippi Fan intraslope basin sediments. Geochim. cosmochim. Acta 51: 1457–1466 Google Scholar
Kennicutt II, M. C., Sericano, J., Wade, T. L., Alcazar, F., Brooks, J. M. (1987b). High-molecular weight hydrocarbons in the Gulf of Mexico continental slope sediment. Deep-Sea Res. 34: 403–424 Google Scholar
Laubier, I., Ohta, S., Sibuet, M. (1986). Découverte de communautés animale profondes durant la campagne franco-japonaise KAIKO de plongées dans les fosses de subduction autour du Japon. C. r. hebd. Séanc. Acad. Sci., Paris (Ser. III) 303: 25–29 Google Scholar
Paull, C. K., Hecker, B., Commeau, R., Freeman-Lynde, R. P., Neumann, C., Corso, W. P., Golubic, S., Hook, J. E., Sikes, E., Curry, J. (1984). Biological communities at the Florida Escarpment resemble hydrothermal vent taxa. Science, N.Y. 226: 965–967 Google Scholar
Ripley, B. D. (1981). Spatial statistics. John Wiley & Sons, New York Google Scholar
Rise Project Group (1980). East Pacific Rise: hot springs and geophysical experiments. Science, N.Y. 207: 1421–1433 Google Scholar
Rosman, I., Boland, G. S., Baker, J. S. (1987). Epifaunal aggregations of Vesicomyidae on the continental slope off Louisiana. Deep-Sea Res. 34: 1811–1820 Google Scholar
Sackett, W. M., Nakaparksin, S., Dalrymple, D. (1970). Carbon isotope effects of methane production by thermal cracking. In: Hobson, G. D., Speers, G. C. (eds.), Advances in organic geochemistry. Plenum Press, New York, p. 37–53 Google Scholar
Schoell, M. E., Faber, E., Coleman, M. L. (1983). Carbon and hydrogen isotope comparisons of the NBS-22 and NBS-21 stable isotope reference materials in interlaboratory comparison. Org. Geochem. 5: 3–6 Google Scholar
Sammarco, P. W., Andrews, J. C. (1988). Localized dispersal and recruitment in Great Barrier Reef corals: the helix experiment. Science, N.Y. 239: 1422–1424 Google Scholar
SAS Institute Inc. (1985). SAS/GRAPH® user's guide, Version 5. SAS Institute Inc., Cary, North Carolina Google Scholar
Sibuet, M., Juniper, S. K., Pautot, G. (1988). Cold seep benthic communities in the Japan subduction zones: geological control of community development. J. mar. Res. 46: 333–348 Google Scholar
Suess, E., Carson, B., Ritger, S., Moore, J. C., Jones, M. L., Kulm, L. D., Cochrane, G. R. (1985). Biological communities along the subduction zone off Oregon. Bull. biol. Soc. Wash. 6: 475–484 Google Scholar
Tunnicliffe, V., Juniper, S. K., de Burgh, M. E. (1985). The hydrothermal vent community on Axial Seamount, Juan de Fuca Ridge. Bull. biol. Soc. Wash. 6: 453–484 Google Scholar