REFERENCES
Bloomer, S.H., and Hawkins, J.W., 1980. Arc-derived plutonic and volcanic rocks from the Mariana Trench wall. Eos, 61:1143.Carson, B, and Westbrook, G.K., 1995. Modern fluid flow in the Cascadia accretionary wedge: a synthesis. 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), 413-421.
COSOD II. 1987. Rep. 2nd Conf. Scientific Ocean Drilling: Washington/Strasbourg (JOIDES/European Sci. Found.).
Cox, A., and Gordon, R.G., 1984. Paleolatitudes determined from paleomagnetic data from vertical cores. Rev. Geophys. Space Phys., 22:47-72.
Davis, E.E., Becker, K., Pettigrew, T., Carson, B., and MacDonald, R., 1992. CORK: a hydrologic seal and downhole observatory for deep-ocean boreholes. In Davis, E.E., Mottl, M.J., Fisher, A.T., et al., Proc. ODP, Init. Repts., 139: College Station, TX (Ocean Drilling Program), 43-53.
Fisk, M.R., Giovannom, S.J., and Thorseth, I.H., 1998. Alteration of oceanic volcanic glass: textural evidence of microbial activity. Science, 281:978-980.
Fryer, P., 1992. A synthesis of Leg 125 drilling of serpentine seamounts on the Mariana and Izu Bonin forearcs. In Fryer, P., Pearce, J.A., Stokking, L.B., et al., Proc. ODP, Sci. Results, 125: College Station, TX (Ocean Drilling Program), 593-614.
Fryer, P., 1996. Tectonic evolution of the Mariana convergent margin. Rev. of Geophys. 34:89 125.
Fryer, P., in press. An actively venting serpentine seamount on the southeastern Mariana forearc: Shinkai 6500 dives 280 and 281. Deep Sea Research, JAMSTEC.
Fryer, P., and Fryer, G.J., 1987. Origins of nonvolcanic seamounts in a forearc environment. In Keating, B.H., Fryer. P., Batiza, R., and Boehlert, G.W. (Eds.), Seamounts, Islands, and Atolls. Geophys. Monogr., Am. Geophys. Union, 43:61-69.
Fryer, P., and Mottl, M., 1992. Lithology, mineralogy and origin of Serpentine muds drilled at Conical Seamount and Torishima Forearc Seamount. In Fryer, P., Pearce, J.A., Stokking, L.B., et al., Proc. ODP, Sci. Results, 125: College Station, TX (Ocean Drilling Program), 343 362.
Fryer, P., Pearce, J.A., Stokking, L.B., et al., 1990. Proc. ODP, Init. Repts., 125: College Station, TX (Ocean Drilling Program).
Fryer, P., Saboda, K.L., Johnson, L E., MacKay, M.E., Moore, G.F., and Stoffers, P., 1990. Conical Seamount: SeaMARC 11, Alvin submersible, and seismic reflection studies. In Fryer, P., Pearce, J.A., Stokking, L.B., et al., Proc. ODP, Init. Repts., 125: College Station, TX (Ocean Drilling Program), 69-80.
Fryer, P., Wheat, C.G., and Mottl, M.J., in press. Mariana blueschist mud volcanism: implications for conditions within the subduction zone. Geology.
Fukao, Y., 1992. Seismic tomogram of the Earth's mantle: geodynamic implications. Science, 258:625-630.
Fukao, Y., Obayashi, M., Inoue, H., and Nenbai, M., 1992. Subducting slabs stagnant in the mantle transition zone. J. Geophys. Res., 97:4809-4822.
Goodman, D., and Bibee, L.D., 1991. Measurements and modelling of possible mantle constituents from a long-line seismic refraction experiment in the West Philippine Basin. Geophys. J. Int., 106:667-675.
Haggerty, J.A., 1991. Evidence from fluid seeps atop serpentine seamounts in the Mariana Forearc: clues for emplacement of the seamounts and their relationship to forearc tectonics. Mar. Geol., 102:293-309.
Haggerty. J., and Chadhuri, S., 1992. Strontium isotopic composition of the interstitial waters from Leg 125; Mariana and Bonin forearcs. In Fryer, P., Pearce, J.A., Stokking, L.B., et al., Proc. ODP, Sci. Results, 125: College Station, TX (Ocean Drilling Program), 397-400.
Haggerty, J., and Fisher, J.B., 1992. Short chain organic acids in interstitial waters from Mariana and Bonin forearc serpentines: Leg 125. In Fryer, P., Pearce, J.A., Stokking, L.B., et al., Proc. ODP, Sci. Results, 125: College Station, TX (Ocean Drilling Program), 387-396.
Hickey-Vargas, R., Hergt, J.M., and Spadea, P., 1995. The Indian Ocean-type isotopic signature in western Pacific marginal basins: origin and significance. In Taylor, B., and Natland, J. (Eds.), Active margins and marginal basins of the western Pacific. Geophys. Monogr., Am. Geophys. Union, 88:175-197.
Hilde, T.W.C., and Lee, C-S., 1984. Origin and evolution of the West Philippine Basin: A new interpretation. Tectonophysics, 102:85-104.
Ingle, J.C., Jr., Suyehiro, K., von Breymann, M.T., et al., 1990. Proc. ODP, Init. Repts., 128: College Station, TX (Ocean Drilling Program).
Isacks, B.L., and Barazangi, M., 1977. Geometry of Benioff Zones: lateral segmentation and downwards bending of the subducted lithospliere. In Talwani, M., and Pitman, W.C., III (Eds.), Island Arcs, Deep Sea Trenches and Back Arc Basins. Am. Geophys. Union, Maurice Ewing Ser., 1:94-114.
JOI-ESF, 1987. Report of the Second Conference on Scientific Ocean Drilling. Washington (JOI, Inc.).
JOI/USSAC, 1994. BOREHOLE: a plan to advance post-drilling sub-seafloor science. JOI/USSAC Workshop Rep., Univ. Miami, Miami, FL, 1-83.
JOIDES Long Range Plan, 1996. Understanding Our Dynamic Earth through Ocean Drilling.
Kanamori, H., and Abe, K., 1968. Deep structure of island arcs as revealed by surface waves. Bull. Earthquake Res. Inst., 46:1001-1025.
Kanazawa, T., Suyehiro, K., Hirata, N., and Shinohara, M., 1992. Performance of the ocean broadband downhole seismometer at Site 794. In Tamaki, K., Suyehiro, K., Allan, J., McWilliams, M., et al., Proc. ODP, Sci. Results, 127/128, (Pt. 2): College Station, TX (Ocean Drilling Program), 1157-1171.
Karig, D.E., Ingle, J.C., Jr., et al., 1975. Init. Repts. DSDP, 31: Washington (U.S. Govt. Printing Office).
Kastner, M., Elderfield, H., Jenkins, W.J., Gieskes, J.M., and Garno, T., 1992. Geochemical and isotopic evidence for fluid flow in the western Nankai subduction zone, Japan. In Hill, I.A., Taira, A., Firth, J.V., et al., Proc ODP, Sci. Results, 131: College Station, TX (Ocean Drilling Program), 397-413.
Klein, E.M., and Langmuir, C.H., 1987. Global correlations of ocean ridge basalt chemistry with axial depth and crustal thickness. J. Geophys. Res., B, 92:8089-8115.
Kroenke, L., Scott, R., et al., 1980. Init. Repts. DSDP, 59: Washington (U.S. Govt. Printing Office).
Kulm, L.D., and Seuss, E., 1990. Relationship between carbonate deposits and fluid venting: Oregon accretionary prism. J. Geophys. Res., 95:8899-8915.
Langseth, M.G., Mottl, M.J., Hobart, M.A., and Fisher, A., 1988. The distribution of geothermal and geochemical gradients near Site 501/504: implications for hydrothermal circulation in the oceanic crust. In Becker. K, Sakai, H., et al., Proc. Init. Repts., 111: College Station, TX (Ocean Drilling Program), 23-32.
Langseth, M.G., and Moore, J.C., 1990. Fluid in accretionary prisms. Eos, 71:245-246.
Lee, C.S., Chiang, F., Kong, S.L., Chung, S.L., and Lo, C.H., 1998. Kinematics of the opening of the southernmost part of Okinawa Trough. Eos, 79:120.
Liu, J., Bohlen, S.R.. and Ernst, W.G., 1996. Stability of hydrous phases in subducting oceanic crust. Earth Planet. Sci. Lett., 143:161-171.
Lockwood, J.P., 1972. Possible mechanisms for the emplacement of Alpine-type serpentinite. Mem.--Geol. Soc. Am. 132:273-287.
Louden, K.E., 1980. The crustal and lithospheric thicknesses of the Philippine Sea as compared to the Pacific. Earth Planet. Sci. Lett., 50:275-288.
Maekawa, H., Fryer, P., Ozaki, M., 1995. Incipient blueschist-facies metamorphism in the active subduction zone beneath the Mariana Forearc. In Taylor, B., and Natland, J. (Eds.), Active Margins and Marginal Basins of the Western Pacific, Geophys. Monogr., Am. Geophys. Union, 88:281-290.
Maltman, A.J., Labaume, P., and Housen, B., 1997. Structural geology of the décollement at the toe of the Barbados accretionary prism. In Shipley, T.H., Ogawa, Y., Blum, P., and Bahr, J.M. (Eds.), Proc. ODP, Sci. Results, 156: College Station, TX (Ocean Drilling Program), 279 292.
Martin, J.B., Kastner, M., and Elderfield, H. 1991. Lithium: sources in pore fluids of Peru slope sediments and implication for oceanic fluxes. Mar. Geol., 102:281-292.
Montagner, J.-P., Karczewski, J-F., Romanowicz, B., Bouaricha, S., Lognonne, P., Roult, G., Stutzmann, E., Thirot, J.L., Brion, J., Dole, B., Fouassier, D., Koenig, J.-C., Savary, J., Floury, L., Dupond, J., Echardour, A., and Floc, H., 1994. The French pilot experiment OFM SISMOBS: first scientific results on noise level and event detection. Phys. Earth Planet. Inter., 84:321-336.
Montagner, J.-P., and Lancelot, Y. (Eds.), 1995. Multidisciplinary observatories on the deep seafloor, (INSU/CNRS, IFREMER, ODP-France, OSN/USSAC, ODP-Japan).
Mottl, M.J., 1992. Pore waters from serpentine seamounts in the Mariana and lzu-Bonin forearcs, Leg 125: evidence for volatiles from the subducting slab. In Fryer, P., Pearce, J.A., Stokking, L.B., et al., Proc. ODP, Sci. Results, 125: College Station, TX (Ocean Drilling Program), 373 386.
Mottl, M.J., and Alt, J.C., 1992. Data Report: Minor and trace element and sulfur isotopic composition of pore waters from Sites 778 through 786. In Fryer, P., Pearce, J.A., Stokking, L.B., et al., Proc. ODP, Sci. Results, 125: College Station, TX (Ocean Drilling Program), 683 690.
Okino, K., Ohara, Y., Kasuga, S., and Kato, Y., 1999. The Philippine Sea: new survey results reveal the structure and the history of marginal basins. GRL, 26:2287-2290.
Peacock, S.M., 1987. Creation and preservation of subduction-related inverted metamorphic gradients. J. Geophys. Res., 92:12763-1278.
Peacock, S.M. 1990. Fluid processes in subduction zones. Science, 248:329-336.
Phipps, S.P., and Ballotti, D., 1992. Rheology of serpentinite muds in the Mariana-Bonin forearc. In Fryer, P., Pearce, J.A., Stokking, L.B., et al., Proc. ODP, Sci. Results, 125: College Station, TX (Ocean Drilling Program), 363-372.
Purdy, G.M., and Dziewonski, A.M., 1988. Proc. of a Workshop on Broadband Downhole Seismometers in the Deep Ocean. Woods Hole Oceanographic Institution.
Ringwood, A.E., and Irifune, T., 1988. Nature of the 650 km seismic discontinuity: Implications for mantle dynamics and differentiation. Nature, 331:131-136.
Seekins, L.C., and Teng, T.L., 1977. Lateral variations in the structure of the Philippine Sea plate. J. Geophys. Res., 82:317-324.
Stephen, R.A., Collins, J.A., and Peal, K.R., 1999. Seafloor seismic stations perform well. Eos, 80:592.
Su, W.J., Woodward, R.L., and Dziewonski, A.M., 1992. Deep origin of mid-ocean ridge velocity anomalies. Nature, 360:149-152.
Suyehiro, K., Kanazawa, T., Hirata, N., Shinohara, M., and Kinoshita, H., 1992. Broadband downhole digital seismometer experiment at Site 794: a technical paper. In Tamaki, K., Suyehiro, K., Allan, J., McWilliams, M., et al., Proc. ODP, Sci. Results, 127/128 (Pt. 2): College Station, TX (Ocean Drilling Program), 1061-1073.
Suyehiro, K., Kanazawa, T., Hirata, N., and Shinohara, M., 1995. Ocean downhole seismic project. J. Phys. Earth, 43:599-618.
Suyehiro, K., Sacks, S., Acton, G.D., et al., 2000. Proc. ODP, Init. Repts, 186 [CD-ROM]. Available from: Ocean Drilling Program, Texas A&M University, College Station TX 77845 9547, USA.
Suyehiro, K., Sacks, S., Araki, E., Linde, A., Shinohara, M., and Leg 186 Science Party, 1999. Monitoring plate subduction in the Japan Trench. Am. Geophys. Union, 1999 Fall Meeting OS21A-92. [Abstract].
Tanimoto, T., 1988. The 3-D shear wave structure in the mantle by overtone waveform inversion - II. Inversion of X-waves, R-waves, and G-waves. J. Geophys., 93:321-334.
Van der Hilst, R.D., Engdahl, R., Spakman, W., and Nolet, G., 1991. Tomographic imaging of subducted lithosphere below northwest Pacific island arcs. Nature, 353:37-43.
Van der Hilst, R.D., and Seno, T., 1993. Effects of relative plate motion on the deep structure and penetration depth of slabs below the Izu-Bonin and Mariana island arcs. Earth Planet. Sci. Lett., 120:395-407.
White, A.F., and Hochella, M.F., 1992. Surface chemistry associated with the cooling and subaerial weathering of Recent basalt flows. Geochim. Cosmochim. Acta, 56:3711-3721.
Zhang, Y.S., and Tanimoto, T., 1992. Ridges, hotspots and their interpretation as observed in seismic velocity maps. Nature, 355:45-49.