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References

  • Anderson, J. L. (1985), Contrasting depths of core complex mylonitization. Abstract with programs, Geol. Soc. Am., 17, 337.
  • Antonellini, M., and A. Aydin (1994), Effect of faulting on fluid flow in porous sandstones: Petrophysicial properties, Am. Assoc. Pet. Geol. Bull., 78, 355377.
  • Armstrong, R. J. (1982), Cordilleran metamorphic core complexes, from Arizona to southern Canada, Annu. Rev. Earth Planet. Sci., 10, 129154.
  • Austrheim, H. (1987), Eclogitization of lower crustal granulites by fluid migration through shear zones, Earth. Plan. Sci. Lett., 81(2–3), 221232.
  • Banks, D. A., G. R. Da Vies, B. W. D. Yardley, A. M. McCaig, and N. T. Grant (1991), The chemistry of brines from an Alpine thrust system in the Central Pyrenees: An application of fluid inclusion analysis to the study of fluid behaviour in orogenesis, Geochim. Cosmochim. Acta, 55(4), 10211030.
  • Barton, C. A., M. D. Zoback, and D. Moos (1995), Fluid flow along potentially active faults in crystalline rock, Geology, 23, 683686.
  • Bebout, G. E., D. J. Anastasio, and J. E. Holl (2001), Synorogenic crustal fluid infiltration in the Idaho-Montana thrust belt, Geophys. Res. Lett., 28, 42954298.
  • Bell, T. H. (1981), Foliation development—The contribution, geometry and significance of progressive, bulk, inhomogeneous shortening, Tectonophysics, 75(3–4), 273296.
  • Bense, V. F., and M. Person (2006), Faults as conduit-barrier systems to fluid flow in siliciclastic sedimentary aquifers, Water Resour. Res., 42, W05421, doi:10.1029/2005WR004480.
  • Bickle, M. J., H. J. Chapman, S. M. Wickham, and M. T. Peters (1995), Strontium and oxygen isotope profiles across marble-silicate contacts, Lizzies Basin, East Humboldt Range, Nevada: Constraints on metamorphic permeability contrasts and fluid flow, Contrib. Mineral. Petrol., 121(4), 400413.
  • Bird, P. (2002), Stress direction history of the western United States and Mexico since 85 Ma, Tectonics, 21(3), 1014, doi:10.1029/2001TC001319.
  • Bowman, J. R., and S. D. Willett (1991), Spatial patterns of oxygen isotope exchange during one-dimensional fluid infiltration, Geophys. Res. Lett., 18(5), 971074.
  • Bowman, J. R., S. D. Willett, and S. J. Cook (1994), Oxygen isotopic transport and exchange during fluid flow: One-dimensional models and applications, Am. J. Sci., 294, 155.
  • Brown, R. L., J. M. Journeay, L. S. Lane, D. C. Murphy, and C. J. Rees (1986), Obduction, backfolding and piggyback thrusting in the metamorphic hinterland of the southeastern Canadian Cordillera, J. Struct. Geol., 8, 255268.
  • Brun, J.-P., D. Sokoutis, and J. Van Den Driessche (1994), Analogue modeling of detachment fault systems and core complexes, Geology, 22, 319322.
  • Bürgmann, R., and G. Dresen (2008), Rheology of the lower crust and upper mantle: Evidence from rock mechanics, geodesy, and field observations, Annu. Rev. Earth Planet. Sci., 36, 531567.
  • Burkhard, M., and R. Kerrich (1988), Fluid regimes in the deformation of the Helvetic nappes, Switzerland, as inferred from stable isotope data, Contrib. Mineral. Petrol., 99(4), 416429.
  • Caine, J., J. P. Evans, and F. Craig (1996), Fault zone architecture and permeability structure, Geology, 24(11), 10251028.
  • Carr, S. D. (1992), Tectonic setting and U-Pb geochronology of the early Tertiary Ladybird leucogranite suite Thor-Odin-Pinnacles area, southern Dominica belt, British Columbia, Tectonics, 11, 258278.
  • Chen, S., and G. D. Doolen (1998), Lattice Boltzmann method for fluid flows, Annu. Rev. Environ. Fluid Mech., 30, 329364.
  • Chester, F. M., J. P. Evans, and R. L. Biegel (1993), Internal structure and weakening mechanisms of the San Andreas Fault, J. Geophys. Res., 98(B1), 771786.
  • Coney, P., J. Harms, and A. Tekla (1984), Cordilleran metamorphic core complexes: Cenozoic extensional relics of Mesozoic compression, Geology, 12(9), 550554.
  • Coney, P. J. (1987), The regional tectonic setting and possible causes of Cenozoic extension in the North American Cordillera, in Extension in the Basin and Range Province and East Pacific Margin, Special Publications, Geological Society, London, 28, 177186, doi:10.1144/GSL.SP.1987.028.01.13.
  • Cook, S. J., J. R. Bowman, and C. B. Forster (1997), Contact metamorphism surrounding the Alta Stock: Finite element model simulation of heat- and 18O/16O mass-transport during prograde metamorphism, Am. J. Sci., 297(1), 155.
  • Crespo-Blanc, A., H. Masson, Z. Sharp, M. Cosca, and J. Hunziker (1995), A stable and 40Ar/39Ar isotope study of a major thrust in the Helvetic nappes (Swiss Alps): Evidence for fluid flow and constraints on nappe kinematics, Geol. Soc. Am. Bull., 107(10), 11291144.
  • Crowley, J. L., R. L. Brown, and R. R. Parrish (2001), Diachronous deformation and a strain gradient beneath the Selkirk allochthon, northern Monashee complex, southeastern Canadian Cordillera, J. Struct. Geol., 23, 11031121.
  • Dardis, O., and J. McCloskey (1998a), Lattice Boltzmann scheme with real numbered solid density for the simulation of flow in porous media, Phys. Rev. E., 57, 48344837.
  • Dardis, O., and J. McCloskey (1998b), Permeability porosity relationships from numerical simulations of fluid flow, Geophys. Res. Lett., 25, 14711474.
  • Davis, G. (1988), Rapid upward transport of mid-crustal mylonitic gneisses in the footwall of a Miocene detachment fault, Whipple Mountains, southeastern California, Geol. Rundsch., 77(1), 191209, doi:10.1007/BF01848684.
  • Davis, G. H., and P. J. Coney (1979), Geologic development of the Cordilleran metamorphic core complexes, Geology, 7, 120124.
  • Davis, G. A., D. L. Martin, D. Krummenacher, E. G. Frosta, and R. L. Armstrong (1982), Geologic and geochronologic relations in the lower plate of the Whipple detachment fault, Whipple Mountains, southeastern California: A progress report, in Mesozoic-Cenozoic Tectonic Evolution of the Colorado River, Region, California, Arizona, and Nevada, edited by E. G. Frost and D. L. Martin, pp. 408432, Cordilleran, San Diego, CA.
  • Duffy, C. J., and S. Al-Hassan (1988), Groundwater circulation in a closed desert basin, topographic scaling and climatic forcing, Water Resour. Res., 24(10), 16751688.
  • Forster, C. B., J. V. Goddard, and J. P. Evans (1994), Permeability structure of a thrust fault, in The Mechanical Involvement of Fluids in Faulting: U.S. Geological Survey Open-File Report 94-228, 216223.
  • Foster, D. A., and C. M. Fanning (1997), Geochronology of the Idaho-Bitterroot batholith and Bitterrot metamorphic core complex: Magmatism preceding and contemporaneous with extension, Geol. Soc. Am. Bull., 109, 370394.
  • Foster, D. A. (2000), Tectonic evolution of the Eocene Bitterroot metamorphic core complex, Montana and Idaho, Roberts, S., and D. Winston (Eds.), Geologic Field Trips, Western Montana and Adjacent Areas: Rocky Mountain Section of the Geological Society of America, University of Montana, Missoula (2000), pp. 129.
  • Foster, D. A., and A. Raza (2002), Low-temperature thermochronological record of exhumation of the Bitterroot metamorphic core complex, northern Cordilleran Orogen, Tectonophysics, 349, 2336.
  • Foster, D. A., C. Schafer, C. M. Fanning, and D. W. Hyndman (2001), Relationships between crustal partial melting, plutonism, orogeny, and exhumation: Idaho-Bitterroot batholith, Tectonophysics, 342, 313350.
  • Fricke, H. C., S. Wickham, and J. R. O'Neil (1992), Oxygen and hydrogen isotope evidence for meteoric water infiltration during mylonitization and uplift in the Ruby Mountains-East Humboldt Range core complex, Nevada, Contrib. Mineral. Petrol., 111, 203221.
  • Garven, G., and R. A. Freeze (1984), Theoretical analysis of the role of groundwater flow in the genesis of stratabound ore deposits: 1. Mathematical and numerical model, Am. J. Sci., 284, 10851124.
  • Gébelin, A., A. Mulch, C. Teyssier, M. Heizler, T. W. Vennemann, and N. C. A. Seaton (2011), Oligo-Miocene extensional tectonics and fluid flow across the Northern Snake Range detachment system, Nevada, Tectonics, doi:10.1029/2010TC002797.
  • Gerdes, M., L. P. Baumgarnter, and M. Person (1998), Convective flow through heterogeneous country rocks during contact metamorphism, J. Geophys. Res., 103, 23,98324,003.
  • Ghisetti, F., D. L. Kirschner, L. Vezzani, and F. Agosta (2001), Stable isotope evidence for contrasting paleofluid circulation in thrust faults and normal faults of the central Apennines, Italy, J. Geophys. Res., 106, 88118825.
  • Goddard, J. V., and J. P. Evans (1995), Chemical changes and fluid-rock interaction in faults of crystalline thrust sheets, northwestern Wyoming, U.S.A, J. Struct. Geol., 17(4), 533547.
  • Gottardi, R., C. Teyssier, A. Mulch, T. W. Vennemann, and M. L. Wells (2011), Preservation of an extreme transient geotherm in the Raft River detachment shear zone, Geology, doi:10.1130/G31834.1.
  • Guo, Z., and T. S. Zhao (2005), A lattice Boltzmann model for convection heat transfer in porous media, Num. Heat Transf. Part B, 47, 157177.
  • Handya, M. R., and J.-P. Brun (2004), Seismicity, structure and strength of the continental lithosphere, Earth Planet. Sci. Lett., 223, 427441.
  • Haneberg, W. C. (1995), Steady state groundwater flow across idealized faults, Water Resour. Res., 31(7), 18151820.
  • Hirschmann, M. M., C. Aubaud, and A. C. Withers (2005), Storage capacity of H2O in nominally anhydrous minerals in the upper mantle, Earth Planet. Sci. Lett., 236(1–2), 167181.
  • Hirth, G., and D. L. Kohlstedt (1996), Water in the oceanic upper mantle: implications for rheology, melt extraction and the evolution of the lithosphere, Earth Planet. Sci. Lett., 144(1–2), 93108.
  • Holk, G. J. (1997), The role of water in the magmatic and tectonic evolution of metamorphic core complexes: A stable isotope study of the southern Omineca Crystalline Belt, British Columbia, Canada PHd thesis, 444 pp., Pasadena, California, California Institute of Technology.
  • Holk, G. J., and H. P. Taylor (2000), Water as a petrologic catalyst driving 18O/16O homogenization and anatexis of the middle crust in the metamorphic core complexes of British Columbia, Int. Geol. Rev., 42, 97130.
  • Hurlow, H. A., A. W. Snoke, and K. V. Hodges (1991), Temperature and pressure of mylonitization in a Tertiary extensional shear zone, Ruby Mountains-East Humboldt Range, Nevada: Tectonic implications, Geology, 19, 8286.
  • Iio, Y., T. Sagiya, Y. Kobayashi, and I. Shiozaki (2002), Water-weakened lower crust and its role in the concentrated deformation in the Japanese Islands, Earth Planet. Sci. Lett., 203(1), 245253.
  • Ingebritsen, S. E., and C. E. Manning (2010), Permeability of the continental crust: dynamic variations inferred from seismicity and metamorphism, Geofluids, 10, 193205.
  • Kao, P.-H., and R.-J. Yang (2007), Simulating oscillatory flows in Rayleigh-Bénard convection using the lattice Boltzmann method, Int. J. Heat Mass Trans., 50, 33153328.
  • Kerrich, R., and D. Hyndman (1986), Thermal and fluid regimes in the Bitterroot lobe-Sapphire block detachment zone, Montana: Evidence from 18O/16O and geologic relations, Geol. Soc. Am. Bull., 97(2), p. 147155, doi:10.1130/0016-7606(1986)97<147:TAFRIT>2.0.CO;2.
  • Kharaka, Y. K., J. J. Thordsen, W. C. Evans, and B. M. Kennedy (1999), Geochemistry and hydromechanical interactions of fluids associated with the San Andreas fault system, Calif. Geophys. Monogr., 113, 129148.
  • Kirschner, D. L., and L. A. Kennedy (2001), Limited syntectonic fluid flow in carbonate-hosted thrust faults of the Front Ranges, Canadian Rockies, inferred from stable isotope data and structures, J. Geophys. Res., 106, 88278840.
  • Koons, P. O., D. Craw, S. C. Cox, P. Upton, A. S. Templeton, and C. P. Chamberlain? (1998), Fluid flow during active oblique convergence: A Southern Alps model from mechanical and geochemical observations, Geology, 26, 159162.
  • Kusznir, N. J., and R. G. Park (1987), The extensional strength of the continental lithosphere: Its dependence on geothermal gradient, and crustal composition and thickness (in Continental extensional tectonics), Geol. Soc. Spec. Pub., 28, 3552.
  • Lee, J. (1995), Rapid uplift and rotation of mylonitic rocks from beneath a detachment fault: Insights from potassium feldspar 40Ar/39Ar thermochronology, northern Snake Range, Nevada, Tectonics, 14, 5477.
  • Leising, J. F., S. W. Tyler, and W. W. Miller (1995), Convection of saline brines in enclosed lacustrine basins: A mechanism for potassium metasomatism, J. Struct. Geol., 107(10), 11571163.
  • Lister, G. S., and G. A. Davis (1989), The origin of metamorphic core complexes and detachment faults and exchange within metamorphic core complexes formed during Tertiary continental extension in the northern Colorado River region, U.S.A, J. Struct. Geol., 11(1–2), 6594.
  • Lister, G. S., and P. F. Williams (1979), Fabric development in shear zones: Theoretical controls and observed phenomena, J. Struct. Geol., 1(4), 283297.
  • Lopez, D. L., and L. Smith (1995), Fluid flow in fault zones: Analysis of the interplay of convective circulation and topographically driven groundwater flow, Water Resour. Res., 31(6), 14891503.
  • Maggi, A., J. Jackson, D. McKenzie, and K. Priestley (2000), Earthquake focal depths, effective elastic thickness, and the strength of the continental lithosphere, Geology, 28, 495498.
  • Manning, C. E., and S. E. Ingebritsen (1999), Permeability of the continental crust: Implications of geothermal data and metamorphic systems, Rev. Geophys., 37(1), 127150.
  • Marquer, D., and M. Burkhard (1992), Fluid circulation, progressive deformation and mass-transfer processes in the upper crust: The example of basement-cover relationships in the External Crystalline Massifs, Switzerland, J. Struct. Geol., 4(8–9), 10471057.
  • McCaig, A. M., D. M. Wayne, J. D. Marshall, D. Banks, and I. Henderson (1995), Isotopic and fluid inclusion studies of fluid movement along the Gavarnie Thrust, central Pyrenees: Reaction fronts in carbonate mylonites, Am. J. Sci., 295, 309343.
  • McGrew, A. J., and L. W. Snee (1994), 40Ar/39Ar thermochronologic constraints on the tectonothermal evolution of the northern East Humboldt Range metamorphic core complex, Nevada, Tectonophysics, 238, 425450.
  • McKenzie, D. P., and D. J. Fairhead (1997), Estimates of effective elastic thickness of the continental lithosphere from Bouguer and free-air gravity anomalies, J. Geophys. Res., 102, 2752327552.
  • Miller, E. L., T. A. Dumitru, R. W. Brown, and P. B. Gans (1999), Rapid Miocene slip on the Snake Range-Deep Creek Range fault system, east-central Nevada, Geol. Soc. Am. Bull., 111, 886905.
  • Moore, J. C., and P. Vrolijk (1992), Fluids in accretionary prisms, Rev. Geophys., 30(2), 113135, doi:10.1029/92RG00201.
  • Morrison, J. (1994), Meteoric water-rock interaction in the lower plate of the Whipple Mountain metamorphic core complex, California, J. Metamorph. Geol., 12, 827840.
  • Morrison, J., and J. L. Anderson (1998), Footwall refrigeration along a detachment fault: Implications for the thermal evolution of core complexes, Science, 279(5347), 6366, doi:10.1126/science.279.5347.63.
  • Mueller, K. J., and A. W. Snoke (1993), Progressive overprinting of normal fault systems and their role in Tertiary exhumation of the East Humboldt Range-Wood Hills metamorphic core complex northeast Nevada, Tectonics, 12, 361373.
  • Mulch, A., C. Teyssier, M. A. Cosca, O. Vanderhaeghe, and T. W. Vennemann (2004), Reconstructing paleoelevation in eroded orogens, Geology, 32, 525528.
  • Mulch, A., C. Teyssier, M. A. Cosca, and T. W. Vennemann (2006), Thermomechanical analysis of strain localization in a detachment zone, J. Geophys. Res., 111(B12405), doi:10.1029/2005JB004032.
  • Mulch, A., C. Teyssier, M. A. Cosca, and C. P. Chamberlain (2007), Stable isotope paleoaltimetry of Eocene Core Complexes in the North American Cordillera, Tectonics, 26, TC4001, doi:10.1029/2006TC001995.
  • Myre, J., S. D. C. Walsh, D. Lilja, and M. O. Saar (2011), Performance analysis of single-phase, multiphase, and multicomponent lattice-Boltzmann fluid flow simulations on GPU clusters Concurrency and Computation, Pract. Experience, 23(4), 332350, doi:10.1002/cpe.1645.
  • Nesbitt, B. E., and K. Muehlenbachs (1989), Origins and movement of fluids during deformation and metamorphism in the Canadian Cordillera, Science, 245(4919), 733736.
  • Newman, J., and G. Mitra (1994), Fluid-influenced deformation and recrystallization of dolomite at low temperatures along a natural fault zone, Mountain City window, Tennessee, Geol. Soc. Am. Bull., 106, 12671280.
  • Oliver, N. H. S. (1996), Review and classification of structural controls on fluid flow during regional metamorphism, J. Metamorph. Geol., 14(4), 477492.
  • O'Neil, J. R., and T. C. Hanks (1980), Geochemical evidence for water-rock interaction along the San Andreas and Garlock Faults of California, J. Geophys. Res., 85(B11), 62866292.
  • Parrish, R. R., S. D. Carr, and D. L. Parkinson (1988), Eocene extensional tectonics and geochronology of the southern Omineca Belt, British Columbia and Washington, Tectonophysics, 7, 181212.
  • Person, M. P., A. Mulch, C. Teyssier, and Y. Gao (2007), Isotope Transport and exchange during detachment tectonics, Shuswap metamorphic core complex, British Columbia, Am. J. Sci., 307, 555589, doi:10.2475/03.2007.01.
  • Pili, E., F. Poitrasson, and J.-P. Gratier (2002), Carbon-oxygen isotope and trace element constraints on how fluids percolate faulted limestones from the San Andreas Fault system: Partitioning of fluid sources and pathways, Chem. Geol., 190(1–4), 231250.
  • Price, R. A. (1986), The Canadian Cordillera: Thrust faulting, tectonic wedging and delamination of the lithosphere, J. Struct. Geol., 8, 238254.
  • Quilichini, A. (2012), Fluid-rock-strain feedbacks in extensional shear zones. Doctoral thesis, University of Lausanne.
  • Raffensperger, J. P., and G. Garven (1995a), The formation of unconformity-type uranium ore deposits:1, Coupled groundwater flow and heat transport modeling, Am. J. Sci., 295(5), 581636.
  • Raffensperger, J. P., and G. Garven (1995b), The formation of unconformity-type uranium ore deposits. 2. Coupled hydrochemical modeling, Am. J. Sci., 295, 639696.
  • Rey, P. F., C. Teyssier, and D. L. Whitney (2009a), Extension rates, crustal melting, and core complex dynamics, Geology, 37, 391394, doi:10.1130/G25460A.1.
  • Rey, P. F., C. Teyssier, and D. L. Whitney (2009b), The role of partial melting and extensional strain rates in the development of metamorphic core complexes, Tectonophysics, 477(3–4), 135144.
  • Rey, P., O. Vanderhaeghe, and C. Teyssier (2001), Gravitational collapse of the continental crust: definition, regimes and modes, Tectonophysics, 342(3–4), 435449.
  • Rye, D. M., and H. J. Bradbury (1988), Fluid flow in the crust: An example from a Pyrenean thrust ramp, Am. J. Sci., 288(197–235), doi:10.2475/ajs.288.3.197.
  • Saar, M. O., and M. Manga (2003), Seismicity induced by seasonal groundwater recharge at Mt. Hood, Oregon, Earth Planet. Sci. Lett., 214, 605618.
  • Saar, M. O., and M. Manga (2004), Depth dependence of permeability in the Oregon Cascades inferred from hydrogeologic, thermal, seismic, and magmatic modeling constraints, J. Geophys. Res., 109(B4), doi:10.1029/2003JB002855.
  • Saar, M. O., M. C. Castro, C. M. Hall, M. Manga, and T. P. Rose (2005), Quantifying magmatic, crustal, and atmospheric Helium contributions to volcanic aquifers using all stable noble gases: Implications for magmatism and groundwater flow, Geochem. Geophys. Geosyst., 6(3), doi:10.1029/2004GC000828.
  • Saar, M. O. (2011), Review: Geothermal heat as a tracer of large-scale groundwater flow and as a means to determine permeability fields, special theme issue on Environmental Tracers and Groundwater Flow, Hydrogeol. J., 19(31–52), doi:10.1007/s10040-010-0657-2.
  • Sibson, R. H., F. Robert, and K. H. Poulsen (1988), High-angle reverse faults, fluid-pressure cycling, and mesothermal gold-quartz deposits, Geology, 16, 551555, doi:10.1130/0091-7613(1988)016 < 0551:HARFFP > 2.3.CO;2.
  • Sibson, R. H. (1994), Crustal stress, faulting and fluid flow, in, Geofluids: Origin, Migration and Evolution of Fluids in Sedimentary Basins, Parnell, Geological Society Special Publications, 78, 6984.
  • Sibson, R. H. (1996), Structural permeability of fluid-driven fault-fracture meshes, J. Struct. Geol., 18(8), 10311042.
  • Sibson, R. H., and J. Scott (1998), Stress/fault controls on the containment and release of overpressured fluids: Examples from gold-quartz vein systems in Juneau, Alaska; Victoria, Australia; and Otago, New Zealand, Ore Geol. Rev., 13(1–5), 293306.
  • Smith, L., C. B. Forster, and J. P. Evans (1990), Interaction of fault zones, fluid flow, and heat transfer at the basin scale, in Hydrogeology of Permeability Environments, Int. Assoc. Hydrogeol., 2, 4167.
  • Succi, S. (2001), The Lattice Boltzmann Equation for Fluid Dynamics and Beyond, Clarendon Press, Oxford.
  • Sukop, M. C., and D. T. Thorne (2006), Lattice Boltzmann Modeling: An Introduction for Geoscientists and Engineers, Springer-Verlag, Berlin, Heidelberg.
  • Sutherland, R., et al. (2012), Drilling reveals fluid control on architecture and rupture of the Alpine fault, New Zealand, Geology, 40, 11431146, doi:10.1130/G33614.1.
  • Suzuoki, T., and S. Epstein (1976), Hydrogen isotope fractionation between OH-bearing minerals and water, Geochim. Cosmochim. Acta, 40, 12291240.
  • Taylor, H. P., Jr. (1977), Water/rock interactions and the origin of H2O in granitic batholiths, J. Geol. Soc., 133, 509558.
  • Teyssier, C., E. Ferré, D. L. Whitney, B. Norlander, O. Vanderhaeghe, and D. Parkinson (2005), Flow of partially molten crust and origin of detachments during collapse of the Cordilleran orogen, Geol. Soc. London Spec. Publ., 245, 3964.
  • Unruh, J. R., M. L. Davisson, R. E. Criss, and E. M. Moores (1992), Implications of perennial saline springs for abnormally high fluid pressures and active thrusting in western California, Geology, 20, 431434.
  • Vanderhaeghe, O., and C. Teyssier (1997), Formation of the Shuswap metamorphic core complex during late-orogenic collapse of the Canadian Cordillera: Role of ductile thinning and partial melting of the mid- to lower crust, Geodinamica Acta, 10, 4158.
  • Vanderhaeghe, O., and C. Teyssier (2001), Partial melting and flow of orogens, Tectonophysics, 342, 451472.
  • Vanderhaeghe, O., C. Teyssier, and R. Wysoczanski (1999), Structural and geochronological constraints on the role of partial melting during the formation of the Shuswap metamorphic core complex at the latitude of the Thor-Odin Dome, British Columbia, Can. J. Earth Sci., 36, 917943.
  • Vanderhaeghe, O., C. Teyssier, I. McDougall, and W. J. Dunlap (2003), Cooling and exhumation of the Shuswap metamorphic core complex constrained by 40Ar/39Ar thermochronology, Geol. Soc. Am. Bull., 115, 200216.
  • Valley, J. W., H. P. Taylor, and J. R. O'Neil (Eds) (1986), Stable isotopes in high temperature geological processes, Rev. Mineral., 16, 570.
  • Walsh, S. D. C., H. Burwinkle, and M. O. Saar (2009), A new partial-bounceback lattice-Boltzmann method for fluid flow through heterogeneous media, Comp. Geosci., 35, 11861193, doi:10.1016/j.cageo.2008.05.004.
  • Walsh, S. D. C., and M. O. Saar (2010), Marcoscale lattice-Boltzmann methods for low-Peclet-number solute and heat transport in heterogeneous porous media, Water Resour. Res., 46, W07517, doi:10.1029/2009WR007895.
  • Watts, A. B., and E. B. Burov (2003), Lithospheric strength and its relationship to the elastic and seismogenic layer thickness, Earth Planet. Sci. Lett., 213, 113131.
  • Watts, A. B. (2001), Isostacy and flexure of the lithosphere, Univ. Press, Cambridge, pp. 458 .
  • Weis, P., T. Driesner, and C. A. Heinrich (2012), Porphyry-copper ore shells form at stable pressure-temperature fronts within dynamic fluid plumes, Science, 338(6114), 16131616, doi:10.1126/science.1225009.
  • Wells, M. L., L. W. Snee, and A. E. Blythe (2000), Dating of major normal fault systems using thermochronology: An example from the Raft River detachment, Basin and Range, western United States, J. Geophys. Res., 105, 16,30316,327.
  • Wickham, S. M., and H. P. Taylor (1987), Stable isotope constraints on the origin and depth of penetration of hydrothermal fluids associated with Hercynian regional metamorphism and crustal anatexis in the Pyrenees, Contrib. Mineral. Petrol., 95, 255268.
  • Wickham, S. M., H. P. Taylor, A. W. Snoke, and J. R. O'Neil (1991), An oxygen and hydrogen isotope study of high-grade metamorphism and anatexis in the Ruby Mountains-East Humboldt Range core complex, in Stable Isotope Geochemistry: A Tribute To Samuel Epstein, edited by H. P. Taylor, Geochemical Society, Nevada.
  • Wickham, S. M., M. T. Peters, H. C. Fricke, and J. R. O'Neil (1993), Identification of magmatic and meteoric fluid sources and upward- and downward-moving infiltration fronts in a metamorphic core complex, Geology, 21, 8184.
  • Wolf-Gladrow, D. A. (2000), Lattice-Gas Cellular Automata and Lattice Boltzmann Models: An Introduction, Springer-Verlag, Berlin Heidelberg.
  • Woodbury, A., and L. Smith (1988), Simultaneous inversion of hydrogeologic and thermal data. 2, Incorporation of thermal data, Water Resour. Res., 24(3), 356372.
  • Zharikov, A. V., V. M. Vitovtova, V. M. Shmonov, and A. A. Grafchikov (2003), Permeability of the rocks from the Kola superdeep borehole at high temperature and pressure: Implication to fluid dynamics in the continental crust, Tectonophysics, 370(1–4), 177191.