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  • Alley, R. B. (1992), Flow-law hypotheses for ice-sheet modeling, J. Glaciol., 38(129), 245256.
  • Alley, R. B., J. H. Perepezko, and C. R. Bentley (1986), Grain growth in polar ice: I. Theory, J. Glaciol., 32(112), 415424.
  • Anandakrishnan, S., and C. R. Bentley (1993), Micro-earthquakes beneath Ice Streams B and C, West Antarctica: Observations and implications, J. Glaciol., 39(133), 455462.
  • Anandakrishnan, S., J. J. Fitzpatrick, A. Gow, and D. A. Meese (1995), Shear-wave detection of asymmetric c-axis fabric in the GISP2 ice core, J. Glaciol., 40, 491496.
  • Augustin, L., et al. (2004), Eight glacial cycles from an Antarctic ice core, Nature, 429, 623628.
  • Bass, R., D. Rossberg, and G. Ziegler (1957), Die elastichen konstanten des eises, Z. Phys. A, 149, 199203.
  • Benjumea, B., Y. Y. Macheret, F. J. Navarro, and T. Teixidó (2003), Estimation of water content in a temperate glacier from radar and seismic sounding data, Ann. Glaciol., 37, 317324.
  • Bennett, F. (1968), An investigation into velocities in anisotropic ice: A comparison of measured and calculated values in and around the deep drill hole at Byrd Station, Antarctica, PhD thesis, University of Wisconsin, Madison, Wis.
  • Bentley, C. R. (1972), Seismic-wave velocities in anisotropic ice: A comparison of measured and calculated values in and around the deep drill hole at Byrd Station, Antarctica, J. Geophys. Res., 77, 44064420.
  • Blankenship, D. D., and C. R. Bentley (1987), The crystalline fabric of polar ice sheet inferred from seismic anisotropy, IAHS Publ., 170, 1728.
  • Brockamp, B., and H. Querfurth (1965), Untersuchungen über die Elastizitaskonstanten von See und kunsteis, Polarforschung, 34, 253262.
  • Buiron, D., et al. (2011), TALDICE-1 age scale of the Talos Dome ice core, East Antarctica, Clim. Past, 7, 116.
  • Cuffey, K. M., and W. S. B. Paterson (2010), The Physics of Glaciers, 4th ed., Elsevier, Burlington, Mass.
  • Dahl-Jensen, T., T. B. Larsen, I. Woelbern, T. Bach, W. Hanka, R. Kind, S. Gregersen, K. Mosegaard, P. Voss, and O. Gudmundsoson (2003), Depth to Moho in Greenland: Receiver function analysis suggests two Proterozoic blocks in Greenland, Earth Planet. Sci. Lett., 205, 379393.
  • Dantl, G. (1968), Die elastichn moduln voin eis-einkristallen, J. Phys. Condens. Matter, 7, 390397.
  • Durand, G., O. Gagliardini, T. Thorsteinsson, A. Svensson, and S. Kipfstuhl (2006), Ice microstructure and fabric: An up-to-date approach for measuring textures, J. Glaciol., 52(179), 619630.
  • Durand, G., F. Gillet-Chaulet, A. Svensson, O. Gagliardini, S. Kipfstuhl, J. Meyssonier, F. Parrenin, P. Duval, and D. Dahl-Jensen (2007), Change in ice rheology during climate variations: Implications for ice flow modelling and dating of the EPICA Dome C core, Clim. Past, 3, 155167.
  • Durand, G., A. Svensson, A. Persson, O. Gagliardini, F. Gillet-Chaulet, A. Sjolte, M. Montagnat, and D. Dahl-Jensen (2009), Evolution of the texture along the EPICA Dome C ice core, in Physics of Ice Core Records II, pp. 91106, Inst. of Low Temp. Sci., Hokkaido Univ., Sapporo, Japan.
  • Duval, P., M. F. Ashby, and I. Andermann (1983), Rate-controlling processes in the creep of polycrystalline ice, J. Phys. Chem., 87(21), 40664074.
  • Gagliardini, O., G. Durand, and Y. Wang (2004), Grain area as a statistical weight for polycrystal constituents, J. Glaciol., 50(168), 8795.
  • Gagliardini, O., F. Gillet-Chaulet, and M. Montagnat (2009), A review of anisotropic polar ice models: From crystal to ice-sheet flow models, in Physics of Ice Core Records II, pp. 149166, Inst. of Low Temp. Sci., Hokkaido Univ, Sapporo, Japan.
  • Gammon, R. H., H. Kiefte, M. J. Clouter, and W. W. Denner (1983), Elastic constants of artificial and natural ice samples by Brillouin spectroscopy, J. Glaciol., 29(103), 433460.
  • Gow, A., and H. Kohnen (1979), The relationship of ultrasonic velocities to c-axis fabrics and relaxation characteristics of ice cores from Byrd Station, Antarctica, J. Glaciol., 24(90), 147153.
  • Green, R. E., and L. McKinnon (1956), Determination of the elastic constants of ice single crystals by an ultrasonic pulse method, J. Acoust. Soc. Am., 28, 12921292.
  • Helgerud, M. B., W. F. Waite, S. H. Kirby, and A. Nur (2009), Elastic wave speeds and moduli in polycrystalline ice Ih, sI methane hydrate and sII methane-ethane hydrate, J. Geophys. Res., 114, B02212, doi:10.1029/2008JB006132.
  • Horgan, H. J., S. Anandakrishnan, R. B. Alley, L. E. Peters, G .P. Tsoflias, D. E. Voigt, and J. P. Winberry (2008), Complex fabric development revealed by englacial seismic reflectivity: Jakobshavn Isbrae, Greenland, Geophys. Res. Lett., 35, L10501, doi:10.1029/2008GL033712.
  • Horgan, H. J., S. Anandakrishnan, R. B. Alley, P. G. Burkett, and L. E. Peters (2011), Englacial seismic reflectivity: Imaging crystal-orientation fabric in West Antarctica, J. Glaciol., 57(204), 639650.
  • Jona, F., and P. Scherrer (1952), Die elastischen Konstanten von Eis Einkristallen, Helv. Phys. Acta, 25, 3554.
  • Kavanaugh, J. L., P. L. Moore, C. F. Dow, and J. W. Sanders (2010), Using pressure pulse seismology to examine basal criticality and the influence of sticky spot on glacial flow, J. Geophys. Res., 115, F04025, doi:10.1029/2010JF001666.
  • Kennedy, J. H., E. C. Pettit, C. Di Prinzio, E. Waddington, P. Jacobson, and L. Wilen (2011), Modeling the evolution of crystal fabric and its link to climate and ice sheet history, Geophys. Res. Abstr., 13, 23432343.
  • King, E. C., and E. P. Jarvis (2007), Use of shear waves to measure Poisson's Ratio in polar firn, J. Environ. Eng. Geophys., 13(67), 144147.
  • Kohnen, H. (1974), The temperature dependence of seismic waves in ice, J. Glaciol., 12(67), 1521.
  • Lefebvre, E., C. Ritz, B. Legrésy, and P. Possenti (2008), New temperature profile measurement in the EPICA Dome C borehole, Geophys. Res. Abstr., 10, 22.
  • Martín, C., G. H. Gudmundsson, H. D. Pritchard, and O. Gagliardini (2009), On the effects of anisotropic rheology on ice flow, internal structure, and the age-depth relationship at ice divides, J. Geophys. Res., 114, F04001, doi:10.1029/2008JF001204.
  • Mayer, C., N. Reeh, F. Jung-Rothenäusler, P. Huybrechts, and J. Oerter (2000), The subglacial cavity and implied dynamics under Nioghalvfjerdsfjorden Glacier, NE-Greenland, Geophys. Res. Lett., 27, 22892292.
  • Navarro, F. J., Y. Y. Macheret, and B. Benjumea (2005), Application of radar and seismic methods for the investigation of temperate glaciers, J. Appl. Geophys., 57(108), 193211.
  • Nøst, O. A. (2004), Measurements of ice thicknes and seabed topography under the Fimbul Ice Shelf, Dronning Maud Land, Antarctica, J. Geophys. Res., 109, C10010, doi:10.1029/2004JC002277.
  • Nye, J. F. (1985), Physical Properties of Crystals: Their Representation by Tensors and Matrices, Clarendon Press, Oxford, U. K.
  • Paterson, W. S. B. (1991), Why ice-age ice is sometimes soft, Cold Reg. Sci. Technol., 20, 7598.
  • Petrenko, V. F., and R. W. Withworth (1998), Physics of Ice, Oxford Univ. Press, New York.
  • Pettit, E. C., T. Thorsteinsson, H. P. Jacobson, and E. D. Waddington (2007), The role of crystal fabric in flow near an ice divide, J. Glaciol., 57(181), 277288.
  • Pettit, E. C., E. D. Waddington, W. D. Harrison, T. Thorsteinsson, D. Elsberg, J. Morack, and M. A. Zumberge (2011), The crossover stress, anisotropy and ice flow law at Siple Dome, West Antarctica, J. Glaciol., 57(201), 3952.
  • Schulson, E. M., and P. Duval (2009), Creep and Fracture of Ice, Cambridge Univ. Press, New York.
  • Spetzler, J., and R. Snieder (2004) The Fresnel volume and transmitted waves, Geophysics, 69(3), 60516060.
  • Studinger, M., G. D. Karner, R. E. Bell, V. Levin, C. A. Raymond, and A. A. Tikku (2003), Geophysical models for the tectonic framework of the Lake Vostok region, East Antarctica, Earth Planet. Sci. Lett., 216, 663677.
  • Svensson, A., K. G. Schmidt, D. Dahl-Jensen, S. J. Johnsen, Y. Wang, S. Kipfstuhl, and T. Thorsteinsson (2005), Properties of ice crystals in NorthGRIP late-to middle Holocene ice, Ann. Glaciol., 37, 113118.
  • Thomsen, G. W. (1986), Weak elastic anisotropy, Geophysics, 15, 19541966.
  • Thorsteinsson, T. (2000), Anisotropy of ice Ih. Development of fabric and effects of anisotropy on deformation, PhD thesis, Univ. of Wash., Seattle, Wash.
  • Vogt, C., K. Laihem, and C. Wiebusch (2008), Speed of sound in bubble-free ice, J. Acoust. Soc. Am., 124(6), 36133618.
  • Wang, Y., T. Thorsteinsson, J. Kipfsthul, H. Miller, and D. Dahl-Jensen (2002), A vertical girdle fabric in the NorthGRIP deep ice core, Ann. Glaciol., 37, 515520.
  • Wang, Y., S. Kipfstuhl, N. Azuma, T. Thorsteinsson, and H. Miller (2003), Ice-fabrics study in the upper 1500 of the Dome C (East Antarctica) deep ice core, Ann. Glaciol., 37, 97104.
  • Watson, G. S. (1965), Equatorial distributions on a sphere, Biometrika, 52(1–2), 193201.
  • Woodcock, N. H. (1977), Specification of fabric shapes using an eigenvalues method, Geol. Soc. Am. Bull., 88, 12311236.