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References

  • Addis, M. A., M. E. Jones, Volume changes during diagenesis, Mar. Pet. Geol., 2, 241246, 1985.
  • Banthia, B. S., M. S. King, I. Fatt, Ultrasonic shear-wave velocities in rocks subjected to simulated overburden pressure and internal pore pressure, Geophysics, 30, 117121, 1965.
  • Bennett, R. H., K. M. Fischer, D. L. Lavoie, W. R. Bryant, R. Rezak, Porometry and fabric of marine clay and carbonate sediments-Determinants of permeability, Mar. Geol., 89, 127152, 1989.
  • Berg, R. R., M. F. Habeck, Abnormal pressures in the lower Vicksburg, McAllen ranch fields, south Texas, Trans. Gulf Coast Assoc. Geol. Soc., 32, 247253, 1982.
  • Bernabe, Y., The effective pressure law for permeability in Chelmsford granite and Barre granite, Int. J. Rock Mech. Min. Sci., 23, 267275, 1986.
  • Bernabe, Y., The effective pressure law for permeability during pore pressure and confining pressure cycling of several crystalline rocks, J. Geophys. Res., 92, 649657, 1987.
  • Bernabe, Y., Pore geometry and pressure dependence of the transport properties in sandstones, Geophysics, 56, 436446, 1991.
  • Berryman, J. G., Effective stress for transport properties of inhomogeneous porous rock, J. Geophys. Res., 97, 1740917424, 1992.
  • Berryman, J. G., Effective-stress rules for pore-fluid transport in rocks containing two minerals, Int. J. Rock Mech. Min. Sci., 30, 11651168, 1993.
  • Berryman, J. G., S. C. Blair, Use of digital image analysis to estimate fluid permeability of porous materials: Application of two-point correlation functions, J. Appl. Phys., 60, 19301938, 1986.
  • Berryman, J. G., S. C. Blair, Kozeny-Carmen relations and image processing methods for estimating Darcy's constant, J. Appl. Phys., 62, 22212228, 1987.
  • Bigelow, E. L., Global occurrences of abnormal pressures, Studies in Abnormal PressuresW. H. Fertl, R. E. Chapman, R. F. Hotz, 117, Elsevier Sci., New York, 1994.
  • Biot, M. A., General theory of three-dimensional consolidation, J. Appl. Phys., 12, 155164, 1941.
  • Biot, M. A., D. G. Willis, The elastic coefficients of the theory of consolidation, J. Appl. Mech., 24, 594601, 1957.
  • Bishop, R. S., Calculated compaction states of thick abnormally pressured shales, AAPG Bull., 63, 918933, 1979.
  • Blair, S. C., P. A. Berge, J. G. Berryman, Using two-point correlation functions to characterize microgeometry and estimate permeabilities of sandstones and porous glass, J. Geophys. Res., 101, 2035920375, 1996.
  • Brace, W. F., Permeability of crystalline and argillaceous rocks, Int. J. Rock Mech. Min. Sci. Geomech. Abstr., 17, 241251, 1980.
  • Brace, W. F., J. B. Walsh, W. T. Frangos, Permeability of granite under high pressure, J. Geophys. Res., 73, 22252236, 1968.
  • Braddock, W. A., M. Machette, Experimental deformation of Pierre shale, final report, 96U.S. Air Force Geophys. Lab., Hanscom Air Force Base, Mass., 1976.
  • Bradley, J. S., Abnormal formation pressure, Am. Assoc. Pet. Geol. Bull., 59, 957973, 1975.
  • Bredehoeft, J. D., B. B. Hanshaw, On the maintenance of anomalous fluid pressures, I, Thick sedimentary sequences, Geol. Soc. Am. Bull., 79, 10971106, 1968.
  • Bredehoeft, J. D., C. E. Neuzil, P. C. D. Milly, Regional flow in the Dakota aquifer-A study of the role of confining layers, U. S. Geol. Surv. Water Supply Pap., 2237, 45, 1983.
  • Brighenti, G., Effect of confining pressure on gas permeability of tight sandstones, Rock at Great DepthV. Maury, D. Foumaintraux, 187194, A. A. Balkema, Brookfield, Vt., 1989.
  • Brown, S. R., Fluid flow through rock joints: The effect of surface roughness, J. Geophys. Res., 92, 13371347, 1987.
  • Brown, S. R., R. L. Bruhn, Fluid permeability of deformable fracture networks, J. Geophys. Res., 103, 24892500, 1998.
  • Brown, S. R., C. H. Scholz, Closure of random elastic surfaces in contact, J. Geophys. Res., 90, 55315545, 1985.
  • Brown, S. R., H. W. Stockman, S. J. Reeves, Applicability of the Reynolds equation for modeling fluid flow between rough surfaces, Geophys. Res. Lett., 22, 25372540, 1995.
  • Bruce, C. H., Pressured shale and related sediment deformation-Mechanism for development of regional contemporaneous faults, Am. Assoc. Pet. Geol. Bull., 57, 878886, 1973.
  • Bruce, C. H., Smectite dehydration-Its relation to structural development and hydrocarbon accumulation in northern Gulf of Mexico Basin, AAPG Bull., 68, 673683, 1984.
  • Bryant, W. R., W. Hottman, P. Trabant, Permeability of uncon-solidated and consolidated marine sediments, Gulf of Mexico, Mar. Geotechnol., 1, 114, 1975.
  • Burst, J. F., Diagenesis of Gulf Coast clayey sediments and its possible relation to petroleum migration, Am. Assoc. Pet. Geol. Bull., 53, 7393, 1969.
  • Caillet, G., The caprock of the Snorre Field, Norway-A possible leakage by hydraulic fracturing, Mar. Pet. Geol., 10, 4250, 1993.
  • Carlson, R. L., A. F. Gangi, Effect of cracks on the pressure dependence of P wave velocities in crystalline rocks, J. Geophys. Res., 90, 86758684, 1985.
  • Chapman, R. E., Clays with abnormal interstitial fluid pressures, Am. Assoc. Pet. Geol. Bull., 56, 790795, 1972.
  • Chapman, R. E., The geology of abnormal pore pressures, Studies in Abnormal PressuresW. H. Fertl, R. E. Chapman, R. F. Hotz, 1949, Elsevier Sci., New York, 1994a.
  • Chapman, R. E., Abnormal pore pressures-Essential theory, possible causes, and sliding, Studies in Abnormal PressuresW. H. Fertl, R. E. Chapman, R. F. Hotz, 5191, Elsevier Sci., New York, 1994b.
  • Chen, C. T., L. S. Chen, F. J. Millero, Speed of sound in NaCl, MgCl2, Na2SO4, and MgSO4 aqueous solutions as functions of concentration, temperature, and pressure, J. Acoust. Soc. Am., 63, 19751800, 1978.
  • Christensen, N. I., H. F. Wang, The influence of pore pressure and confining pressure on dynamic elastic properties of Berea sandstone, Geophysics, 50, 207213, 1985.
  • David, C., Geometry of flow paths for fluid transport in rocks, J. Geophys. Res., 98, 1226712278, 1993.
  • David, C., M. Darot, Permeability and conductivity of sandstones, Rock at Great DepthV. Maury, D. Foumaintraux, 203209, A. A. Balkema, Brookfield, Vt., 1989.
  • David, C., Y. Gueguen, G. Pampoukis, Effective medium theory and network theory applied to the transport properties of rock, J. Geophys. Res., 95, 69937005, 1990.
  • Deming, D., Factors necessary to define a pressure seal, AAPG Bull., 78, 10051009, 1994.
  • Dewhurst, D. N., A. C. Aplin, J.-P. Sarda, Y. Yang, Compaction-driven evolution of porosity and permeability in natural mudstones: An experimental study, J. Geophys. Res., 103, 651661, 1998.
  • Dewhurst, D. N., A. C. Aplin, J.-P. Sarda, Influence of clay fraction on pore-scale properties and hydraulic conductivity of experimentally compacted mudstones, J. Geophys. Res., 104, 2926129274, 1999.
  • Dickey, P. A., C. R. Shriram, W. R. Paine, Abnormal pressures in deep wells of southwestern Louisiana, Science, 160, 609615, 1968.
  • Dickinson, G., Geological aspects of abnormal reservoir pressures in Gulf Coast Louisiana, Am. Assoc. Pet. Geol. Bull., 37, 410432, 1953.
  • Doyen, P. M., Permeability, conductivity, and pore geometry of sandstone, J. Geophys. Res., 93, 77297740, 1988.
  • Dzevanshir, R. D., L. A. Buryakovskiy, G. V. Chilingarian, Simple quantitative evaluation of porosity of argillaceous sediments at various depths of burial, Sediment. Geol., 46, 169175, 1986.
  • Eberl, D., J. Hower, Kinetics of illite formation, Geol. Soc. Am. Bull., 87, 13261330, 1976.
  • Fatt, I., Compressibility of sandstones at low to moderate pressures, Am. Assoc. Pet. Geol. Bull., 42, 19241957, 1958.
  • Fatt, I., The Blot-Willis elastic coefficients for a sandstone, J. Appl. Mech., 26, 296297, 1959.
  • Fredrich, J. T., K. H. Greaves, J. W. Martin, Pore geometry and transport properties of Fontainebleau sandstone, Int. J. Rock Mech. Min. Sci. Geomech. Abstr., 30, 691697, 1993.
  • Gangi, A. F., Hertz theory applied to the porosity-pressure, permeability-pressure and failure strength-porosity variations of porous rocks, Proc. U.S. Rock Mech. Symp., 17th, 2A5-12A5-8, 1976.
  • Gangi, A. F., Variation of whole and fractured porous rock permeability with confining pressure, Int. J. Rock Mech. Min. Sci. Geomech. Abstr., 15, 249257, 1978.
  • Gangi, A. F., R. L. Carlson, An asperity-deformation model for effective pressure, Tectonophysics, 256, 241251, 1996.
  • Garg, S. K., A. Nur, Effective stress laws for fluid-saturated porous rocks, J. Geophys. Res., 78, 59115921, 1973.
  • Green, D. H., H. F. Wang, Fluid pressure response to undrained compression in saturated sedimentary rock, Geophysics, 51, 948956, 1986.
  • Han, D.-H., A. Nur, D. Morgan, Effects of porosity and clay content on wave velocities in sandstones, Geophysics, 51, 20932107, 1986.
  • Handin, J., R. V. Hager, M. Friedman, J. N. Feather, Experimental deformation of sedimentary rocks under confining pressure-Pore pressure tests, Am. Assoc. Pet. Geol. Bull., 47, 717755, 1963.
  • Harrison, W. J., L. L. Summa, Paleohydrology of the Gulf of Mexico Basin, Am. J. Sci., 291, 109176, 1991.
  • Hornby, B. E., The elastic properties of shales, Ph.D. dissertation,Univ. of Cambridge,Cambridge, England,1994.
  • Howard, J. J., Influence of authigenic-clay minerals on permeability, Origin, Diagenesis, and Petrophysics of Clay Minerals in SandstonesD. W. Houseknecht, E. D. Pittman, Spec. Publ. SEPM, 47, 257264, 1992.
  • Hubbert, M. K., W. W. Rubey, Role of fluid pressure in mechanics of overthrust faulting, I, Mechanics of fluid-filled porous solids and its application to overthrust faulting, Geol. Soc. Am. Bull., 70, 115166, 1959.
  • Hunt, J. M., Generation and migration of petroleum from abnormally pressured fluid compartments, AAPG Bull., 74, 112, 1990.
  • Ibanez, W. D., A. K. Kronenberg, Experimental deformation of shale: Mechanical properties and microstructural indicators of mechanisms, Int. J. Rock Mech. Min. Sci. Geomech. Abstr., 30, 723734, 1993.
  • Ives, K. J., Filtration of clay suspensions through sand, Clay Miner., 22, 4961, 1987.
  • Johnston, D. H., Physical properties of shale at temperature and pressure, Geophysics, 52, 13911401, 1987.
  • Johnston, J. E., N. I. Christensen, Seismic anisotropy of shales, J. Geophys. Res., 100, 59916003, 1995.
  • Jones Jr., F. O., A laboratory study of the effects of confining pressure on fracture flow and storage capacity in carbonate rocks, J. Pet. Technol., 27, 2127, 1975.
  • Jones Jr., F. O., W. W. Owens, A laboratory study of low-permeability gas sands, J. Pet. Technol., 32, 16311640, 1980.
  • Karig, D. E., G. Hou, High-stress consolidation experiments and their geologic implications, J. Geophys. Res., 97, 289300, 1992.
  • Katsube, T. J., B. S. Mudford, M. E. Best, Petrophysical characteristics of shales from the Scotian Shelf, Geophysics, 56, 16811689, 1991.
  • Kim, J. W., W. R. Bryant, J. S. Watkins, T. T. Tieh, Mineralogical and fabric changes of shale during burial diagenesis and their effects on petrophysical properties, Trans. Gulf Coast Assoc. Geol. Soc., 48, 139150, 1998.
  • Kim, J. W., W. R. Bryant, J. S. Watkins, T. T. Tieh, Electron microscopic observations of shale diagenesis, offshore Louisiana, USA, Gulf of Mexico, Geo Mar. Lett., 18, 234240, 1999.
  • Kranz, R. L., A. D. Frankel, T. Engelder, C. H. Scholz, The permeability of whole and jointed Barre granite, Int. J. Rock Mech. Min. Sci. Geomech. Abstr., 16, 225234, 1979.
  • Kwon, O., A. K. Kronenberg, Deformation of Wilcox shale: Un-drained strengths and effects of strain rate, Proceedings of the 1st North American Rock Mechanics SymposiumP. P. Nelson, S. E. Laubach, 757765, A. A. Balkema, Brookfield, Vt., 1994.
  • Lee, J. H., J. H. Ahn, D. Peacor, Textures in layered silicates: Progressive changes through diagenesis and low temperature metamorphism, J. Sediment Petrol., 55, 532540, 1985.
  • Lide, D. R., CRC Handbook of Chemistry and Physics78th ed., 162, CRC Press, Boca Raton, Fla., 1997.
  • Lin, W., Measuring the permeability of Eleana argillite from area 17, Nevada test site, using the transient methodRep. UCRL-52604, 11Lawrence Livermore Natl. Lab., Livermore, Calif., 1978.
  • Magara, K., Permeability considerations in generation of abnormal pressures, Soc. Pet. Eng. J., 11, 236242, 1971.
  • Magara, K., Compaction and Fluid Migration: Practical Petroleum Geology, 319, Elsevier Sci., New York, 1978.
  • Meyer, C. A., R. B. McClintock, G. J. Silvestri, R. C. Spence Jr., ASME Steam Table, Thermodynamic and Transport Properties of Steam, 330, Am. Soc. of Mech. Eng., New York, 1979.
  • Millero, F. J., G. K. Ward, P. V. Chetirkin, Relative sound velocities of sea salts at 25°C, J. Acoust. Soc. Am., 61, 14921498, 1977.
  • Morrow, C. A., L. Q. Shi, J. D. Byerlee, Permeability of fault gouge under confining pressure and shear stress, J. Geophys. Res., 89, 31933200, 1984.
  • Morrow, C. A., B.-C. Zhang, J. D. Byerlee, Effective pressure law for permeability of Westerly granite under cyclic loading, J. Geophys. Res., 91, 38703876, 1986.
  • Nagtegaal, P., Relationship of facies and reservoir quality in Rotliegendes desert sandstones, southern North Sea region, J. Pet. Geol., 2, 145158, 1979.
  • Neglia, S., Migration of fluids in sedimentary basins, AAPG Bull., 63, 573597, 1979.
  • Nelson, R. A., An experimental study of fracture permeability in porous rock, Proc. U.S. Symp. Rock Mech., 17th, 2A6-12A6-8, 1976.
  • Neuzil, C. E., How permeable are clays and shales?, Water Resour. Res., 30, 145150, 1994.
  • Nur, A., J. D. Byerlee, An exact effective stress law for elastic deformation of rock with fluids, J. Geophys. Res., 76, 64146419, 1971.
  • Olgaard, D. L., R. Nuesch, J. Urai, Consolidation of water saturated shales at great depth under drained conditions, Rock Mechanics: Proceedings of the 8th International Congress on Rock MechanicsT. Fujii, 273277, A. A. Balkema, Brookfield, Vt., 1995.
  • Olsen, H. W., Liquid movement through kaolinite under hydraulic, electric, and osmotic gradients, Am. Assoc. Pet. Geol. Bull., 56, 20222028, 1972.
  • Pallatt, N., J. Wilson, B. McHardy, The relationship between permeability and the morphology of diagenetic illite in reservoir rocks, J. Pet. Technol., 36, 22252227, 1984.
  • Paterson, M. S., Experimental Rock Deformation-The Brittle Field, 254, Springer-Verlag, New York, 1978.
  • Paterson, M. S., The equivalent channel model for permeability and resistivity in fluid-saturated rock-A reappraisal, Mech. Mater., 2, 345352, 1983.
  • Plumley, W. J., Abnormally high fluid pressure-Survey of some basic principles, AAPG Bull., 64, 414430, 1980.
  • Rice, J. R., M. P. Cleary, Some basic stress diffusion solutions for fluid-saturated elastic porous media with compressible constituents, Rev. Geophys., 14, 227241, 1976.
  • Robin, P.-Y. F., Note on effective pressure, J. Geophys. Res., 78, 24342437, 1973.
  • Schlomer, S., B. M. Krooss, Experimental characterization of the hydrocarbon sealing efficiency of cap rocks, Mar. Pet. Geol., 14, 565580, 1997.
  • Schmidt, G. W., Interstitial water composition and geochemistry of deep Gulf Coast shales and sandstones, Am. Assoc. Pet. Geol. Bull., 57, 321337, 1973.
  • Schofield, A., P. Wroth, Critical State Soil Mechanics, 310, McGraw-Hill, New York, 1968.
  • Scott, C. R., An Introduction to Soil Mechanics and Foundations, 406, Elsevier Sci., New York, 1980.
  • Seeburger, D. A., A. Nur, A pore space model for rock permeability and bulk modulus, J. Geophys. Res., 89, 527536, 1984.
  • Silva, A. J., J. R. Hetherman, D. I. Calnan, Low-gradient permeability testing of fine-grained marine sediments, Permeability and Groundwater Contaminant TransportT. F. Zimmie, C. O. Riggs, ASTM Spec. Tech. Publ., 746, 121136, 1981.
  • Skempton, A. W., Effective stress in soils, concrete and rocks, Conference on Pore Pressure and Suction in Soils, 416, Butter-worths, London, 1961.
  • Stalder, P. J., Influence of crystallographic habit and aggregate structure of authigenic clay minerals on sandstone permeability, Geol. Mijnbouw, 52, 217220, 1973.
  • Sutherland, H. J., S. P. Cave, Argon gas permeability of New Mexico rock salt under hydrostatic compression, Int. J. Rock Mech. Min. Sci., 17, 281288, 1980.
  • Swan, G., J. Cook, S. Bruce, R. Meehan, Strain rate effects in Kimmeridge Bay shale, Int. J. Rock Mech. Min. Sci. Geomech. Abstr., 26, 135149, 1989.
  • Tavenas, F., P. Jean, P. Leblond, S. Leroueil, The permeability of natural soft clays, II, Permeability characteristics, Can. Geotech. J., 20, 645660, 1983.
  • Terzaghi, K., Die berechnung der durchlassigkeitsziffer des tones aus dem verlauf der hydrodynamithen spannungserscheinungen, Sitzungsber. Akad. Wiss. Wien Math Naturwiss. Kl. Abt. IIa, 132, 105124, 1923.
  • Terzaghi, K., Principles of soil mechanics, Eng. News Rec., 95, 987996, 1925.
  • Terzaghi, K., The shearing resistance of saturated soils and the angle between the planes of shear, Proceedings of the 1st International Conference on Soil Mechanics and Foundation Engineering, 5456Harvard Univ. Press, Cambridge, Mass., 1936.
  • Thompson, A. H., A. J. Katz, C. E. Krohn, The microgeometry and transport properties of sedimentary rock, Adv. Phys., 36, 625694, 1987.
  • Todd, T., G. Simmons, Effect of pore pressure on the velocity of compressional waves in low-porosity rocks, J. Geophys. Res., 77, 37313743, 1972.
  • Trimmer, D. A., Design criteria for laboratory measurements of low permeability rocks, Geophys. Res. Lett., 8, 973975, 1981.
  • Vasseur, G., I. Djeran-Maigre, D. Grunberger, G. Rousset, D. Tessier, B. Velde, Evolution of structural and physical parameters of clays during experimental compaction, Mar. Pet. Geol., 12, 941954, 1995.
  • Vernik, L., X. Liu, Velocity anisotropy in shales: A petrophysical study, Geophysics, 62, 521532, 1997.
  • Vernik, L., A. Nur, Ultrasonic velocity and anisotropy of hydrocarbon source rocks, Geophysics, 57, 727735, 1992.
  • Walls, J., A. Nur, Pore pressure and confining pressure dependence of permeability in sandstone7th Formation Evaluation SymposiumCan. Well Logging Soc.Calgary, Alberta, 1979.
  • Walsh, J. B., Effect of pore pressure and confining pressure on fracture permeability, Int. J. Rock Mech. Min. Sci., 18, 429435, 1981.
  • Walsh, J. B., W. F. Brace, The effect of pressure on porosity and the transport properties of rock, J. Geophys. Res., 89, 94259431, 1984.
  • Walsh, J. B., M. A. Grosenbaugh, A new model for analyzing the effect of fractures on compressibility, J. Geophys. Res., 84, 35323536, 1979.
  • Witherspoon, P. A., J. S. Y. Wang, K. Iwai, J. E. Gale, Validity of cubic law for fluid flow in a deformable rock fracture, Water Resour. Res., 16, 10161024, 1980.
  • Wolf, A. V., M. G. Brown, P. G. Prentiss, Concentrative properties of aqueous solutions: Conversion tables, CRC Handbook of Chemistry and PhysicsR. C. Weast, D227D276, CRC Press, Boca Raton, Fla., 1979.
  • Wong, T.-f., J. T. Fredrich, G. D. Gwanmesia, Crack aperture statistics and pore space fractal geometry of Westerly granite and Rutland quartzite: Implications for an elastic contact model of rock compressibility, J. Geophys. Res., 94, 1026710278, 1989.
  • Wood, D. M., Soil Behaviour and Critical State Soil Mechanics, 462, Cambridge Univ. Press, New York, 1990.
  • York, D., Least squares fitting of a straight line, Can. J. Phys., 44, 10791086, 1966.
  • Young, A., P. F. Low, A. S. McLatchie, Permeability studies of argillaceous rocks, J. Geophys. Res., 69, 42374245, 1964.
  • Zhu, W., C. David, T.-F. Wong, Network modeling of permeability evolution during cementation and hot isostatic pressing, J. Geophys. Res., 100, 1545115464, 1995.
  • Zhu, W., B. Evans, Y. Bernabe, Densification and permeability reduction in hot-pressed calcite: A kinetic model, J. Geophys. Res., 104, 2550125511, 1999.
  • Zoback, M. D., High pressure deformation and fluid flow in sandstone, granite, and granular materials, Ph.D. thesis,Stanford Univ.,Stanford, Calif.,1975.
  • Zoback, M. D., J. D. Byerlee, Permeability and effective stress, Am. Assoc. Pet. Geol. Bull., 59, 154158, 1975.
  • Zoback, M. D., J. D. Byerlee, Effect of high-pressure deformation on permeability of Ottawa sand, Am. Assoc. Pet. Geol. Bull., 60, 15311542, 1976.