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doi:10.2204/iodp.proc.314315316.217.2011 ReferencesAshi, J., Lallemant, S., Masago, H., and the Expedition 315 Scientists, 2009. Expedition 315 summary. In Kinoshita, M., Tobin, H., Ashi, J., Kimura, G., Lallemant, S., Screaton, E.J., Curewitz, D., Masago, H., Moe, K.T., and the Expedition 314/315/316 Scientists, Proc. IODP, 314/315/316: Washington, DC (Integrated Ocean Drilling Program Management International, Inc.). doi:10.2204/iodp.proc.314315316.121.2009 Bangs, N.L.B., and Westbrook, G.K., 1991. Seismic modeling of the decollement zone at the base of the Barbados Ridge accretionary complex. J. Geophys. Res., [Solid Earth], 96(B3):3853–3866. doi:10.1029/90JB02138 Bilek, S.L., and Lay, T., 1999. Rigidity variations with depth along interplate megathrust faults in subduction zones. Nature (London, U. K.), 400:443–446. doi:10.1038/22739 Bray, C.J., and Karig, D.E., 1985. Porosity of sediments in accretionary prisms and some implications for dewatering processes. J. Geophys. Res., [Solid Earth], 90(B1):768–778. doi:10.1029/JB090iB01p00768 Brown, K.M., and Ransom, B., 1996. Porosity corrections for smectite-rich sediments: impact on studies of compaction, fluid generation, and tectonic history. Geology, 24(9):843–846. doi:10.1130/0091-7613(1996)024<0843:PCFSRS>2.3.CO;2 Erickson, S.N., and Jarrard, R.D., 1998. Velocity-porosity relationships for water-saturated siliciclastic sediments. J. Geophys. Res., [Solid Earth], 103(B12):30385–30406. doi:10.1029/98JB02128 Expedition 315 Scientists, 2009. Expedition 315 Site C0002. In Kinoshita, M., Tobin, H., Ashi, J., Kimura, G., Lallemant, S., Screaton, E.J., Curewitz, D., Masago, H., Moe, K.T., and the Expedition 314/315/316 Scientists, Proc. IODP, 314/315/316: Washington, DC (Integrated Ocean Drilling Program Management International, Inc.). doi:10.2204/iodp.proc.314315316.124.2009 Expedition 316 Scientists, 2009. Expedition 316 Site C0004. In Kinoshita, M., Tobin, H., Ashi, J., Kimura, G., Lallemant, S., Screaton, E.J., Curewitz, D., Masago, H., Moe, K.T., and the Expedition 314/315/316 Scientists, Proc. IODP, 314/315/316: Washington, DC (Integrated Ocean Drilling Program Management International, Inc.). doi:10.2204/iodp.proc.314315316.133.2009 Gettemy, G.L., and Tobin, H.J., 2003. Tectonic signatures in centimeter-scale velocity-porosity relationships of Costa Rica convergent margin sediments. J. Geophys. Res., [Solid Earth], 108(B11):2494–2504. doi:10.1029/2001JB000738 Guo, J., Underwood, M., Hillix, D., Wu, H., Banno, H., and Shriniwar, U., 2009. Clay mineral assemblages from Nankai Trough and Kumano Basin, IODP Expeditions 315 and 316, NanTroSEIZE Stage 1. Eos, Trans. Am. Geophys. Union, 90(52)(Suppl.):T21C-1840. (Abstract) http://www.agu.org/meetings/fm09/waisfm09.html Hashimoto, Y., Tobin, H.J., and Knuth, M., 2010. Velocity-porosity relationships for slope apron and accreted sediments in the Nankai Trough Seismogenic Zone Experiment, Integrated Ocean Drilling Program Expedition 315 Site C0001. Geochem., Geophys., Geosyst., 11:Q0AD05–Q0AD14. doi:10.1029/2010GC003217 Moore, J.C., and Saffer, D., 2001. Updip limit of the seismogenic zone beneath the accretionary prism of southwest Japan: an effect of diagenetic to low-grade metamorphic processes and increasing effective stress. Geology, 29(2):183–186. doi:10.1130/0091-7613(2001)029<0183:ULOTSZ>2.0.CO;2 Moore, J.C., and Vrolijk, P., 1992. Fluids in accretionary prisms. Rev. Geophys., 30(2):113–135. doi:10.1029/92RG00201 Raimbourg, H., Hamano, Y., Saito, S., Kinoshita, M., and Kopf, A., 2011. Acoustic and mechanical properties of Nankai accretionary prism core samples. Geochem., Geophys., Geosyst., 12:Q0AD10–Q0AD37. doi:10.1029/2010GC003169 Saffer, D.M., 2007. Pore pressure within underthrust sediment in subduction zones. In Dixon T.H., and Moore, J.C. (Eds.), The Seismogenic Zone of Subduction Thrust Faults: New York (Columbia University Press), 171–209. Screaton, E.J., Kimura, G., Curewitz, D., and the Expedition 316 Scientists, 2009. Expedition 316 summary. In Kinoshita, M., Tobin, H., Ashi, J., Kimura, G., Lallemant, S., Screaton, E.J., Curewitz, D., Masago, H., Moe, K.T., and the Expedition 314/315/316 Scientists, Proc. IODP, 314/315/316: Washington, DC (Integrated Ocean Drilling Program Management International, Inc.). doi:10.2204/iodp.proc.314315316.131.2009 Tobin, H.J., and Moore, J.C., 1997. Variations in ultrasonic velocity and density with pore pressure in the décollement zone, northern Barbados Ridge 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), 125–135. doi:10.2973/odp.proc.sr.156.018.1997 Tobin, H.J., Moore, J.C., and Moore, G.F., 1994. Fluid pressure in the frontal thrust of the Oregon accretionary prism: experimental constraints. Geology, 22(11):979–982. doi:10.1130/0091-7613(1994)022<0979:FPITFT>2.3.CO;2 Tsuji, T., Kimura, G., Okamoto, S., Kono, F., Mochinaga, H., Saeki, T., and Tokuyama, H., 2006. Modern and ancient seismogenic out-of-sequence thrusts in the Nankai accretionary prism: comparison of laboratory-derived physical properties and seismic reflection data. Geophys. Res. Lett., 33:L18309–L18312. doi:10.1029/2006GL027025 von Huene, R., and Scholl, D.W., 1991. Observations at convergent margins concerning sediment subduction, subduction erosion, and the growth of the continental crust. Rev. Geophys., 29(3):279–316. doi:10.1029/91RG00969 |
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