Arsenault, M.A., Trehu, A.M., Bangs, N., and Nakamura, Y., 2001. P-wave tomography of Hydrate Ridge, Oregon continental margin. Eos, Trans., 82:604. (Abstract).
Boetius, A., Ravenschlag, K., Schubert, C.J., Rickert, D., Widdel, F., Gieseke, A., Amann, R., Jorgensen, B.B., Witte, U., and Pfannkuche, O., 2000. Microscopic identification of a microbial consortium apparently mediating anaerobic methane oxidation above marine gas hydrate. Nature, 407:623626.
Bohrmann, G., Greinert, J., Suess, E., and Torres, M., 1998. Authigenic carbonates from the Cascadia Subduction Zone and their relation to gas hydrate stability. Geology, 26:647650.
Bohrmann, G., Linke, P., Suess, E., Pfannkuche, O., and Scientific Party, 2000. R/V SONNE cruise report, SO143 TECFLUX-I-1999. GEOMAR Rpt., 93.
Bohrmann, G., Suess, E., Greinert, J., Teichert, B., and Naehr, T., 2002. Gas hydrate carbonates from Hydrate Rdige, Cascadia Convergent Margin: indicators of near-seafloor clathrate deposits. Fourth Int. Conf. Gas Hydrates, Yokohama, Japan. 102 107.
Booth, J.S., Winters, W.J., and Dillon, W.P., 1994. Circumstantial evidence of gas hydrate and slope failure associations on the United States Atlantic continental margin. In Sloan, E.D., Happel, J., and Hantow, M.A. (Eds.), Int. Conf. Nat. Gas Hydrates, 7:487489.
Borowski, W.S., Paull, C.K., and Ussler, W., III, 1996. Marine pore-water sulfate profiles indicate in situ methane flux from underlying gas hydrate. Geology, 24:655658.
Boudreau, B.P., and Canfield, D.E., 1993. A comparison of closed and open system models for porewater and calcite saturation state. Geochim. Cosmochim. Acta, 57:317334.
Carson, B., Seke, E., Paskevich, V., and Holmes, M.L., 1994. Fluid expulsion sites on the Cascadia accretionary prism: mapping diagenetic deposits with processed GLORIA imagery. J. Geophys. Res., 99:1195911969.
Clague, D., Maher, N., and Paull, C.K., 2001. High-resolution multibeam survey of Hydrate Ridge, offshore Oregon. In Paull, C.K., and Dillon, W.P. (Eds.), Natural Gas Hydrates: Occurrence, Distribution, and Detection. Am. Geophys. Union, Geophys. Monogr. Ser., 124:297306.
Claypool, G.E., and Kaplan, I.R., 1974. The origin and distribution of methane in marine sediments. In Kaplan, I.R. (Ed.), Natural Gases in Marine Sediments: New York (Plenum), 99139.
Collett, T.S., and Ladd, J., 2000. Detection of gas hydrate with downhole logs and assessment of gas hydrate concentrations (saturations) and gas volumes on the Blake Ridge with electrical resistivity log data. In Paull, C.K., Matsumoto, R., Wallace, P.J., and Dillon, W.P. (Eds.), Proc. ODP, Sci. Results, 164: College Station, TX (Ocean Drilling Program), 179191.
Dickens, G.R., Castillo, M.M., and Walker, J.G.C., 1997. A blast of gas in the latest Paleocene: simulating first-order effects of massive dissociation of oceanic methane hydrate. Geology, 25:259262.
Dickens, G.R., O'Neil, J.R., Rea, D.K., and Owen, R.M., 1995. Dissociation of oceanic methane hydrate as a cause of the carbon isotope excursion at the end of the Paleocene. Paleoceanography, 10:965971.
Dickens, G.R., 2001. Modeling the global carbon cycle with a gas hydrate capacitor: significance for the latest Paleocene thermal maximum. In Paull, C.K., and Dillon, W.P. (Eds.), Natural Gas Hydrates: Occurrence, Distribution, and Detection. Am. Geophys Union, Geophys. Monogr. Ser., 124:1940.
Garrels, R.M., and Perry, E.A., 1974. Cycling of carbon, sulfur, and oxygen through geologic time. In Goldberg, E.D. (Ed.), The Sea (Vol. 5): Marine Chemistry: The Sedimentary Cycle: New York (Wiley), 569655.
Ginsburg, G.D., and Soloviev, V.A., 1998. Submarine gas hydrates. VNIIOkeangeologia, St. Petersburg, 216.
Greinert, J., Bohrmann, G., and Suess, E., 2001. Gas hydrate-associated carbonates and methane-venting at Hydrate Ridge: classification, distribution and origin of authigenic lithologies. In Paull, C.K., and Dillon, W.P. (Eds.), Natural Gas Hydrates: Occurrence, Distribution, and Detection. Am. Geophy. Union, Geophys. Monogr. Ser., 124:99114.
Holbrook, W.S., Hoskins, H., Wood, W.T., Stephen, R.A., Lizzarralde, D., and the Leg 164 Science Party, 1996. Methane gas-hydrate and free gas on the Blake Ridge from vertical seismic profiling. Science, 273:18401843.
Holland, H.D., 1978. The Chemistry of the Atmosphere and Oceans: New York (Wiley).
Housen, B.A., and Musgrave, R.J., 1996. Rock-magnetic signature of gas hydrates in accretionary prism sediments. Earth Planet. Sci. Lett., 139:509519.
Hovland, M., Lysne, D. and Whiticar, M., 1995. Gas hydrate and sediment gas composition, Hole 892A. In Carson, B., Westbrook, G.K., Musgrave, R.J., and Suess, E. (Eds.), Proc. ODP, Sci. Results, 146 (Pt 1): College Station, TX (Ocean Drilling Program), 151161.
Kastner, M., Sample, J.C., Whiticar, M.J., Hovland, M., Cragg, B.A., and Parkes, J.R., 1995. Geochemical evidence for fluid flow and diagenesis at the Cascadia convergent margin. In Carson, B., Westbrook, G.K., Musgrave, R.J., and Suess, E. (Eds.), Proc. ODP, Sci. Results, 146 (Pt 1): College Station, TX (Ocean Drilling Program), 375384.
Katz, M.E., Pak, D.K., Dickens, G.R., and Miller, K.G., 1999. The source and fate of massive carbon input during the latest Paleocene thermal maximum. Science, 286:15311533.
Kennett, J., Hendy, I.L., Behl, 1996. First MASTER Workshop on Gas Hydrates, Ghent, Belgium.
Kulm, L.D., Suess, E., Moore, J.C., Carson, B., Lewis, B.T., Ritger, S.D., Kadko, D.C., Thornburg, T.M., Embley, R.W., Rugh, W.D., Massoth, G.J., Langseth, M.G., Cochrane, G.R., and Scamman, R.L., 1986. Oregon subduction zone: venting, fauna, and carbonates. Science, 231:561566.
Kvenvolden, K.A., 1995. A review of the geochemistry of methane in natural gas hydrate. Org. Geochem., 23:9971008.
Kvenvolden, K.A., and Lorenson, T.D., 2001. The global occurrence of natural gas hydrate. In Paull, C.K., and Dillon, W.P. (Eds.), Natural Gas Hydrates: Occurrence, Distribution, and Detection. Am. Geophys. Union, Geophys. Monogr. Ser., 124:318.
Linke, P., Suess, E., and Scientific Party, 2001. R/V SONNE cruise report, SO148 TECFLUX-II-2000. GEOMAR Rpt., 98.
MacDonald, I.R., Boland, G.S., Baker, J.S., Brooks, J.M., Kennicutt, M.C., II, and Bidigare, R.R., 1989. Gulf of Mexico hydrocarbon seep communities II. Spatial distribution of seep organisms and hydrocarbons at Bush Hill. Mar. Biol., 101:235247.
MacKay, M.E., 1995. Structural variation and landward vergence at the toe of the Oregon accretionary prism. Tectonics, 14:13091320.
MacKay, M.E., Moore, G.F., Cochrane, G.R., Moore, J.C., and Kulm, L.D., 1992. Landward vergence and oblique structural trends in the Oregon margin accretionary prism: implications and effect on fluid flow. Earth Planet. Sci. Lett., 109:477491.
MacKay, M.E., Jarrad, R.D., Westbrook, G.K., Hyndman, R.D., and Shipboard Scientific Party, 1994. ODP Leg 146, Origin of BSRs: geophysical evidence from the Cascadia accretionary prism. Geology, 22:459462.
Milkov, A.V., and Sassen, R., 2002. Economic geology of offshore gas hydrate accumulations and provinces. Mar. Petr. Geol., 19:111.
Nisbet, E.G., 1990. The end of the ice age. Can. J. Earth Sci., 27:148157.
Nisbet, E.G., and Piper, D.J., 1998. Giant submarine landslides. Nature, 392:329330.
ODP Leg 146 Scientific Party, 1993. ODP Leg 146 examines fluid flow in Cascadia margin. Eos, 74:345347.
Parkes, R.J., Cragg, B.A., and Wellsbury, P., 2000. Recent studies on bacterial populations and processes in marine sediments: a review. Hydrogeol. Rev., 8:1128.
Paull, C.K., Matsumoto, R., Wallace, P.J., et al., 1996. Proc. ODP, Init. Repts., 164: College Station, TX (Ocean Drilling Program).
Paull, C.K., and Ussler W., III, 2001. History and significance of gas sampling during the DSDP and ODP. In Paull, C.K., and Dillon, W.P. (Eds.), Natural Gas Hydrates: Occurrence, Distribution, and Detection. Am. Geophys. Union, Geophys. Monogr. Ser., 124:5366.
Paull, C.K., Ussler, W., III, and Borowski, W.A., 1994. Sources of biogenic methane to form marine gas-hydrates: in situ production or upward migration? Ann. N.Y. Acad. Sci., 715:392409.
Paull, C.K., Ussler, W., III, and Dillon, W.P., 1991. Is the extent of glaciation limited by marine gas-hydrates? Geophys. Res. Lett., 18:432434.
Rempel, A.W., and Buffett, B.A., 1998. Mathematical models of gas hydrate accumulation. In Henriet, J.P., and Mienert, J. (Eds.), Gas Hydrates; Relevance to World Margin Stability and Climate Change, Spec. Publ.Geol. Soc. London, 137:6374.
Revelle, R., 1983. Methane hydrates in continental slope sediments and increasing atmospheric carbon dioxide. In Changing Climate: Washington (National Academy Press), 252261.
Ruppel, C., 1997. Anomalously cold temperatures observed at the base of the gas hydrate stability zone on the U.S. Atlantic passive margin. Geology, 25:699702.
Sample, J.C., and Kopf, A., 1995. Isotope geochemistry of syntectonic carbonate cements and veins from the Oregon Margin: implications for the hydrogeologic evolution of the accretionary wedge. In Carson, B., Westbrook, G.K., Musgrave, R.J., and Suess, E. (Eds.), Proc. ODP, Sci. Results, 146 (Pt 1): College Station, TX (Ocean Drilling Program), 137148.
Sassen, R., Sweet, S.T., Milkov, A.V., Defreitas, D.A., and Kennicutt, M.C., 2001. Thermogenic vent gas and gas hydrate in the Gulf of Mexico slope: is gas hydrate decomposition significant? Geology, 29:107110.
Sassen, R., Sweet, S.T., Milkov, A.V., Defreitas, D.A., Kennicutt, M.C., and Roberts, H.H., 2001. Stability of thermogenic gas hydrate in the Gulf of Mexico: constraints on models of climate change. In Paull, C.K., and Dillon, W.P. (Eds.), Natural Gas Hydrates: Occurrence, Distribution, and Detection. Am. Geophys. Union, Geophys. Monogr. Ser., 124:131144.
Schlüter, M., Linke, P., and Suess, E., 1998. Geochemistry of a sealed deep-sea borehole on the Cascadia margin. Mar. Geol., 148:920.
Suess, E., and Bohrmann, G., 1997. FS SONNE cruise report, SO110:SO-RO (SONNE-ROPOS), Victoria-Kodiak-Victoria, July 9-Aug. 19, 1996. GEOMAR Rpt., 59:181.
Suess, E., Torres, M.E., Bohrmann, G., Collier, R.W., Rickert, D., Goldfinger, C., Linke, P., Heuser, A., Sahling, H., Heeschen, K., Jung, C., Nakamura, K., Greinert, J., Pfannkuche, O., Trehu, A., Klinkhammer, G., Whiticar, M.J., Eisenhauer, A., Teichert, B., and Elvert, M., 2001. Sea floor methane hydrates at Hydrate Ridge, Cascadia margin. In Paull, C.K., and Dillon, W.P. (Eds.), Natural Gas Hydrates: Occurrence, Distribution, and Detection. Am. Geophysical Union, Geophys. Monogr. Ser., 124:8798.
Suess, E.M., Torres, M.E., Bohrmann, G., Collier, R.W., Greinter, J., Linke, P., Rehter, G., Trehu, A.M., Wallmann, K., Winckler, G., and Zulegger, E., 1999. Gas hydrate destabilization: enhanced dewatering, benthic material turnover, and large methane plumes at the Cascadia convergent margin. Earth Planet. Sci. Lett., 170:115.
Teichert, B.M.A., Eisenhauer, A., and Bohrmann, G., 2001. Chemoherm buildups at the Cascadia Margin (Hydrate Ridge)evidence for long-term fluid flow. 2001 MARGINS Meet., Kiel, 208.
Teichert, B.M.A., Eisenhauer, A., Bohrmann, G., Haase-Schramm, A., Bock, B., and Linke, P., in press. U/Th systematics and ages of authigenic carbonates from Hydrate Ridge, Cascadia margin: recorders of fluid flow variations. Geochm. Cosmochem. Acta.
Torres, M.E., Bohrmann, G., Brown, K., deAngelis, M., Hammond, D., Klinkhammer, G., McManus, J., Suess, E., and Trehu, A.M., 1999. Geochemical observations on Hydrate Ridge, Cascadia margin, July, 1999. Oregon State Univ. Data Rpt. 174, ref. 99-3.
Torres, M.E., Colbert, S., Collier, R.W., deAngelis, M., Hammond, D., Heeschen, K., Hubbard, D., McManus, J., Moyer, C., Rehder, G., Trehu, A.M., Tyron, M., and Whaling, P., 1998. Active gas discharge resulting from decomposition of gas hydrates on Hydrate Ridge, Cascadia margin. Eos, Trans., 79:461.
Trehu, A.M., and Bangs, N., 2001. 3-D seismic imaging of an active margin hydrate system, Oregon continental margin, report of cruise TTN112. Oregon State Univ. Data Rpt., 182.
Trehu, A.M., Bangs, N.L., Arsenault, M.A., Bohrmann, G., Goldfinger, C., Johnson, J.E., Nakamura, Y., and Torres, M.E., 2002. Complex subsurface plumbing beneath southern Hydrate Ridge, Oregon continental margin, from high-resolution 3-D seismic reflection and OBS Data. Fourth Int. Conf. Gas Hydrates, Yokohama, Japan, 19023:9096.
Trehu, A.M., and Flueh, E., 2001. Estimating the thickness of the free gas zone beneath Hydrate Ridge, Oregon continental margin, from seismic velocities and attenuation. J. Geophys. Res., 106:20352045.
Trehu, A.M., Lin, G., Maxwell, E., and Goldfinger, C., 1995. A seismic reflection profile across the Cascadia subduction zone offshore central Oregon: new constraints on methane distribution and crustal structure. J. Geophys. Res., 100:1510115116.
Trehu, A.M., Torres, M.E., Moore, G.F., Suess, E., and Bohrmann, G., 1999. Temporal and spatial evolution of a gas-hydrate-bearing accretionary ridge on the Oregon continental margin. Geology, 27:939942.
Wefer, G.P., Heinze, M., and Berger, W.H., 1994. Clues to ancient methane release. Nature, 369:282.
Xu, W., and Ruppel, C., 1999. Predicting the occurrence, distribution, and evolution of methane gas hydrate in porous marine sediments. J. Geophys. Res, 104:50815096.
Zwart, G., Moore, J.C., and Cochrane, G.R., 1996. Variations in temperature gradients identify active faults in the Oregon accretionary prism. Earth Planet. Sci. Lett., 139:485495.