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Anselmetti, F.S., and Eberli, G.P., 1993. Controls on sonic velocity in carbonates. Pure Appl. Geophys., 141(2–4):287–323. doi:10.1007/​BF00998333

Anselmetti, F.S., von Salis, G.A., Cunningham, K.J., and Eberli, G.P., 1997. Acoustic properties of Neogene carbonates and siliciclastics from the subsurface of the Florida Keys: implications for seismic reflectivity. Mar. Geol., 144(1–3):9–31. doi:10.1016/​S0025-3227(97)00081-9

Berg, E., 1997. 4C-2D or 3D sea bed seismic methodology. Proc. 11R Forum Acquis., Process. Interpret. Mar. Seism. Data, 1274–1282.

Bourbié, T., Coussy, O., and Zinszner, B., 1987. Acoustics of Porous Media: Paris (Ed. Technip.).

Boyce, R.E., 1976. Definitions and laboratory techniques of compressional sound velocity parameters and wet-water content, wet-bulk density, and porosity parameters by gravimetric and gamma-ray attenuation techniques. In Schlanger, S.O., Jackson, E.D., et al., Init. Repts. DSDP, 33: Washington, DC (U.S. Govt. Printing Office), 931–958. doi:10.2973/​dsdp.proc.33.1976

Cabioch, G., Camoin, G.F., and Montaggioni, L.F., 1999. Postglacial growth history of a French Polynesian barrier reef tract, Tahiti, central Pacific. Sedimentology, 46(6):985–1000. doi:10.1046/​j.1365-3091.1999.00254.x

Camoin, G.F., Gautret, P., Montaggioni, L.F., and Cabioch, G., 1999. Nature and environmental significance of microbialites in Quaternary reefs: the Tahiti paradox. Sediment. Geol., 126(1–4):271–304. doi:10.1016/​S0037-0738(99)00045-7

Camoin, G.F., Iryu, Y., McInroy, D., and the Expedition 310 Project Team, 2005. The last deglacial sea level rise in the South Pacific: offshore drilling in Tahiti (French Polynesia). IODP Sci. Prosp., 310. doi:10.2204/​iodp.sp.310.2005

Carmichael, R.S., 1989. Practical Handbook of Physical Properties of Rocks and Minerals: Boca Raton, FL (CRC Press).

Cunningham, K.J., Locker, S.D., Hine, A.C., Bukry, D., Barron, J.A., and Guertin, L.A., 2003. Interplay of late Cenozoic siliciclastic supply and carbonate response on the Southeast Florida Platform. J. Sediment. Res., 73(1):31–46. doi:10.1306/​062402730031

Dickson, J.A.D., 1965. A modified staining technique for carbonates in thin section. Nature (London, U. K.), 205(4971):587. doi:10.1038/​205587a0

Domenico, N., 1995. Poisson’s ratio-an interdisciplinary link? Leading Edge, 14:983–986.

Dunbar, G.B., and Dickens, G.R., 2003. Massive siliciclastic discharge to slopes of the Great Barrier Reef platform during sea-level transgression: constraints from sediment cores between 15°S and 16°S latitude and possible explanations. Sediment. Geol., 162(1–2):141–158. doi:10.1016/​S0037-0738(03)00216-1

Eberli, G.P., 1991. Calcareous turbidites and their relationship to sea-level fluctuations and tectonism. In Einsele, G., Werner, R., and Seilacher, A. (Eds.), Cycles and Events in Stratigraphy: Berlin (Springer Verlag), 340–359.

Gardner, G.H.F., Gardner, L.W., and Gregory, A.R., 1974. Formation velocity and density—the diagnostic basics for stratigraphic traps. Geophysics, 39(6):770–780. doi:10.1190/​1.1440465

Kenter, J.A.M., Braaksma, H., Verwer, K., and van Lanen, X.M.T., 2007. Acoustic behavior of sedimentary rocks: geological properties versus Poisson’s ratios. Leading Edge, 26(4):436–444. doi:10.1190/​1.2723206

Kenter, J.A.M., Bracco Gartner, G.L., and Schlager, W., 2001. Seismic models of a mixed carbonate-siliciclastic shelf margin: Permian upper San Andres Formation, Last Chance Canyon, New Mexico. Geophysics, 66(6):1744–1748. doi:10.1190/​1.1487116

Kenter, J.A.M., Fouke, B.W., and Reinders, M., 1997. Effects of differential cementation on the sonic velocities of Late Cretaceous skeletal grainstones (southeastern Netherlands). J. Sediment. Res., 67:178–185.

Kenter, J.A.M., and Ivanov, M., 1995. Parameters controlling acoustic properties of carbonate and volcaniclastic sediments at Sites 866 and 869. In Winterer, E.L., Sager, W.W., Firth, J.V., and Sinton, J.M. (Eds.), Proc. ODP, Sci. Results, 143: College Station, TX (Ocean Drilling Program), 287–303. doi:10.2973/​

Kenter, J.A.M., Podladchikov, F.F., Reinders, M., van der Gaast, S.J., Fouke, B.W., and Sonnenfeld, M.D., 1997. Parameters controlling sonic velocities in a mixed carbonate-siliciclastics Permian shelf-margin (upper San Andres Formation, Last Chance Canyon, New Mexico). Geophysics, 62(2):505–520. doi:10.1190/​1.1444161

Mavko, G., Mukerji, T., and Dvorkin, J., 1998. The Rock Physics Handbook: Cambridge (Cambridge Univ. Press).

Ostrander, W.J., 1984. Plane-wave reflection coefficients for gas sands at non-normal angles of incidence. Geophysics, 49(10):1637–1648. doi:10.1190/​1.1441571

Ozel, O., Iwasaki, T., Moriya, T., Sakai, S., Maeda, T., Piao, C., Yoshii, T., Tsukada, S., Ito, A., Suzuki, M., Yamazaki, A., and Miyamachi, H., 1999. Crustal structure of central Japan and its petrological implications. Geophys. J. Int., 138(1):257–274. doi:10.1046/​j.1365-246x.1999.00859.x

Paillet, F.L., and Cheng, C.H., 1991. Acoustic Waves in Boreholes: Boca Raton, FL (CRC Press).

Playford, P.E., 1980. Devonian ‘Great Barrier Reef’ of Canning Basin, Western Australia. AAPG Bull., 62:814–841.

Rafavich, F., Kendall, C.H.St.C., and Todd, T.P., 1984. The relationship between acoustic properties and the petrographic character of carbonate rocks. Geophysics, 49(10):1622–1636. doi:10.1190/​1.1441570

Rankey, E.C., Bachtel, S.L., and Kaugmann, J., 1999. Controls on stratigraphic architecture of icehouse mixed carbonate-siliciclastic systems: a case study from the Holder Formation (Pennsylvanian, Virgilian), Sacramento Mountains, New Mexico. In Harris, P.M., Saller, A.H., and Simo, J.A. (Eds.), Advances in Carbonate Sequence Stratigraphy: Applications to Reservoirs, Outcrops, and Models. Spec. Publ.—SEPM (Soc. Sediment. Geol.), 63:127–150.

Raymer, L.L., Hunt, E.R., and Gardner, J.S., 1980. An improved sonic transit time-to-porosity transform. Trans. SPWLA 21st Annu. Log. Symp., Pap. P.

Shuey, R.T., 1985. A simplification of the Zoeppritz equations. Geophysics, 50(4):609–614. doi:10.1190/​1.1441936

Sonnenfeld, M.D., and Cross, T.A., 1993. Volumetric partitioning and facies differentiation within the Permian upper San Andres Formations, Guadalupian Mountains, New Mexico and Texas. In Loucks, C.G., and Sarg, J.F. (Eds.), Carbonate Sequence Stratigraphy—Recent Developments and Applications. AAPG Mem., 57:435–474.

Stafleu, J., Everts, A.J.W., and Kenter, J.A.M., 1994. Seismic models of a prograding carbonate platform: Vercors, south-east France. Mar. Pet. Geol., 11(5):514–537. doi:10.1016/​0264-8172(94)90065-5

Verm, R.W., and Hilterman, F.J., 1995. Lithologic color-coded sections: the calibration of AVO crossplotting to rock properties. Leading Edge, 14(8):847–853. doi:10.1190/​1.1437170

Vernik, L., and Nur, A., 1992. Petrophysical classification of siliciclastics for lithology and porosity prediction from seismic velocities. AAPG Bull., 76:1295–1309.

Verwer, K., Braaksma, H., and Kenter, J.A.M., 2008. Acoustic properties of carbonates: Effects of rock texture and implications for fluid substitution. Geophysics, 73(2):B51–B65. doi:10.1190/​1.2831935

Wilson, J.L., 1975. Carbonate Facies in Geologic History: Berlin (Springer-Verlag).

Wyllie, M.R.J., Gregory, A.R., and Gardner, L.W., 1956. Elastic wave velocities in heterogeneous and porous media. Geophysics, 21(1):41–70. doi:10.1190/​1.1438217