Inferring upper-mantle temperatures from seismic velocities
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[1] S. Karato,et al. Effects of pressure on high-temperature dislocation creep in olivine , 2003 .
[2] J. Gerald,et al. Grain-size-sensitive seismic wave attenuation in polycrystalline olivine , 2002 .
[3] Kevin Righter,et al. Determining the composition of the Earth , 2002, Nature.
[4] S. Lee,et al. Thermal structure of the North American uppermost mantle inferred from seismic tomography , 2002 .
[5] R. Snieder,et al. Anomalies of temperature and iron in the uppermost mantle inferred from gravity data and tomographic models , 2002 .
[6] D. Weidner,et al. P-V-VP-VS-T MEASUREMENTS ON WADSLEYITE TO 7 GPA AND 873 K: IMPLICATIONS FOR THE 410-KM SEISMIC DISCONTINUITY , 2001 .
[7] R. Hemley,et al. Stabilities and equations of state of dense hydrous magnesium silicates , 2001 .
[8] P. Ulmer. Partial melting in the mantle wedge — the role of H2O in the genesis of mantle-derived ‘arc-related’ magmas , 2001 .
[9] M. Catti. High-pressure stability, structure and compressibility of Cmcm -MgAl2O4: an ab initio study , 2001 .
[10] Renata M. Wentzcovitch,et al. High‐pressure elastic properties of major materials of Earth's mantle from first principles , 2001 .
[11] Bijaya B. Karki,et al. Origin of lateral variation of seismic wave velocities and density in the deep mantle , 2001 .
[12] S. Yoshioka,et al. The relationship between the physical properties of the assumed pyrolite composition and depth distributions of seismic velocities in the upper mantle , 2001 .
[13] I. Jackson,et al. High-temperature viscoelasticity of fine-grained polycrystalline olivine , 2001 .
[14] T. Katsura,et al. Temperature derivatives of elastic moduli of (Mg0.91Fe0.09)2SiO4 modified spinel , 2001 .
[15] Jeannot Trampert,et al. Sensitivities of seismic velocities to temperature, pressure and composition in the lower mantle , 2001 .
[16] R. Snieder,et al. The relative density to shear velocity scaling in the uppermost mantle , 2001 .
[17] F. D. Stacey,et al. Compositional constraints on the equation of state and thermal properties of the lower mantle , 2001 .
[18] G. D. Price,et al. The elastic constants of MgSiO3 perovskite at pressures and temperatures of the Earth's mantle , 2001, Nature.
[19] Ross J. Angel,et al. Anomalous compression and equation of state of coesite , 2001 .
[20] C. Lithgow‐Bertelloni. The Origin of Lateral Heterogeneity in the Earth's Mantle , 2001 .
[21] J. Ritsema,et al. Automatic measurements of surface wave phase velocities and body wave travel times: New data for new seismic reference Earth models , 2001 .
[22] G. Fiquet. Mineral phases of the Earth´s mantle , 2001 .
[23] J. Mitrovica,et al. Deep-mantle high-viscosity flow and thermochemical structure inferred from seismic and geodynamic data , 2001, Nature.
[24] H. Taniguchi,et al. Melting relations of hydrous pyrolite in CaO‐MgO‐Al2O3‐SiO2‐H2O System at the transition zone pressures , 2001 .
[25] D. Yamazaki,et al. Some mineral physics constraints on the rheology and geothermal structure of Earth’s lower mantle , 2001 .
[26] R. D. van der Hilst,et al. Comparing P and S wave heterogeneity in the mantle , 2001 .
[27] R. Stalder,et al. Phase relations of a serpentine composition between 5 and 14 GPa: significance of clinohumite and phase E as water carriers into the transition zone , 2001, Contributions to Mineralogy and Petrology.
[28] Gabi Laske,et al. The Relative Behavior of Shear Velocity, Bulk Sound Speed, and Compressional Velocity in the Mantle: Implications for Chemical and Thermal Structure , 2013 .
[29] P. Shearer. Upper Mantle Seismic Discontinuities , 2013 .
[30] A. Forte,et al. Geodynamic evidence for a chemically depleted continental tectosphere. , 2000, Science.
[31] H. Mao,et al. Elasticity of MgO and a primary pressure scale to 55 GPa. , 2000, Proceedings of the National Academy of Sciences of the United States of America.
[32] T. Duffy,et al. The stability and P–V–T equation of state of CaSiO3 perovskite in the Earth's lower mantle , 2000 .
[33] Jianzhong Zhang,et al. New experimental observations on the anhydrous solidus for peridotite KLB‐1 , 2000 .
[34] Marc M. Hirschmann,et al. Mantle solidus: Experimental constraints and the effects of peridotite composition , 2000 .
[35] Jun Liu,et al. Elasticity of the pyrope (Mg3Al2Si3O12)-majorite (MgSiO3) garnets solid solution , 2000 .
[36] Mamoru Kato,et al. Upper mantle velocity structure in the western Pacific rim estimated from short-period recordings at Matsushiro Seismic Array System , 2000 .
[37] A. Oganov,et al. High-pressure phases in the Al2SiO5 system and the problem of aluminous phase in the Earth's lower mantle: ab initio calculations , 2000 .
[38] S. Sinogeikin,et al. Single-crystal elasticity of pyrope and MgO to 20 GPa by Brillouin scattering in the diamond cell , 2000 .
[39] Pierre Vacher,et al. Shallow mantle temperatures under Europe from P and S wave tomography , 2000 .
[40] D. Yamazaki,et al. Silicon self-diffusion in MgSiO3 perovskite at 25 GPa , 2000 .
[41] Y. Ohishi,et al. Isothermal compressibility of hydrous ringwoodite and its relation to the mantle discontinuities , 2000 .
[42] R. Liebermann,et al. Sound velocities of wadsleyite b-(Mg0.88Fe0.12)2SiO4 to 10 GPa , 2000 .
[43] S. Sinogeikin,et al. Sound velocities and elastic properties of g-Mg2SiO4 to 873 K by Brillouin spectroscopy , 2000 .
[44] Guust Nolet,et al. Slab temperature and thickness from seismic tomography: 1. Method and application to Tonga , 1999 .
[45] G. Nolet,et al. Slab temperature and thickness from seismic tomography: 2. Izu‐Bonin, Japan, and Kuril subduction zones , 1999 .
[46] C. Geiger,et al. Single-crystal hydrostatic compression of synthetic pyrope, almandine, spessartine, grossular and andradite garnets at high pressures , 1999 .
[47] T. Kikegawa,et al. The high-pressure and temperature equation of state of a majorite solid solution in the system of Mg4Si4O12-Mg3Al2Si3O12 , 1999 .
[48] O. Jaoul,et al. Activation volume of Si diffusion in San Carlos olivine: Implications for upper mantle rheology , 1999 .
[49] J. Gerald,et al. Viscoelasticity of the titanate perovskites CaTiO3 and SrTiO3 at high temperature , 1999 .
[50] Flanagan,et al. Seismic Velocity and Density Jumps Across the 410- and 660-Kilometer Discontinuities. , 1999, Science.
[51] J. Tromp,et al. Normal-mode and free-Air gravity constraints on lateral variations in velocity and density of Earth's mantle , 1999, Science.
[52] L. Stixrude,et al. Seismic velocities of major silicate and oxide phases of the lower mantle , 1999 .
[53] T. Jordan,et al. Testing plausible upper‐mantle compositions using fine‐scale models of the 410‐km discontinuity , 1999 .
[54] Jun Liu,et al. THERMAL EQUATION OF STATE OF STISHOVITE , 1999 .
[55] Y. Fei. Effects of temperature and composition on the bulk modulus of (Mg,Fe)O , 1999 .
[56] R. Liebermann,et al. Elastic wave velocities of Mg3Al2Si3O12-pyrope garnet to 10 GPa , 1999 .
[57] S. Saxena,et al. Equation of state of MgSiO3 with the perovskite structure based on experimental measurement , 1999 .
[58] Russell J. Hemley,et al. The high-pressure, single-crystal elasticity of pyrope, grossular, and andradite , 1999 .
[59] H. Mao,et al. The fate of subducted basaltic crust in the Earth's lower mantle , 1999, Nature.
[60] T. Jordan,et al. Seismological structure of the upper mantle: a regional comparison of seismic layering , 1999 .
[61] Toru Inoue,et al. Effect of pressure on the crystal structure of hydrous wadsleyite, Mg1.75SiH0.5O4 , 2013 .
[62] A. Tarantola,et al. A logarithmic equation of state , 1998 .
[63] S. Sinogeikin,et al. Sound velocities and elastic properties of Fe-bearing wadsleyite and ringwoodite , 1998 .
[64] B. Li. Elastic Moduli of Wadsleyite (-Mg2SiO4) to 7Gigapascals and 873Kelvin , 1998 .
[65] Liebermann,et al. Ultrasonic shear wave velocities of MgSiO3 perovskite at 8 GPa and 800 K and lower mantle composition , 1998, Science.
[66] Boehler,et al. Solidus of Earth's deep mantle , 1998, Science.
[67] I. Jackson. Elasticity, composition and temperature of the Earth’s lower mantle: a reappraisal , 1998 .
[68] J. Parise,et al. Elastic properties of hydrous ringwoodite (γ-phase) in Mg2SiO4 , 1998 .
[69] H. Mao,et al. Brillouin scattering and X-ray diffraction of San Carlos olivine: direct pressure determination to 32 GPa , 1998 .
[70] B. Kennett,et al. Joint seismic tomography for bulk sound and shear wave speed in the Earth's mantle , 1998 .
[71] R. Liebermann,et al. Sound velocities of polycrystalline MgSiO3-orthopyroxene to 10 GPa at room temperature , 1998 .
[72] S. Karato,et al. Water, partial melting and the origin of the seismic low velocity and high attenuation zone in the upper mantle , 1998 .
[73] Olafur Gudmundsson,et al. A regionalized upper mantle (RUM) seismic model , 1998 .
[74] D. Weidner,et al. Chemical‐ and Clapeyron‐induced buoyancy at the 660 km discontinuity , 1998 .
[75] C. Sotin,et al. Computation of seismic profiles from mineral physics: the importance of the non-olivine components for explaining the 660 km depth discontinuity , 1998 .
[76] J. Montagner. Where Can Seismic Anisotropy Be Detected in the Earth’s Mantle? In Boundary Layers... , 1998 .
[77] G. Masters,et al. SURFACE-WAVE POLARIZATION DATA AND GLOBAL ANISOTROPIC STRUCTURE , 1998 .
[78] D. Vasco,et al. Whole Earth structure estimated from seismic arrival times , 1998 .
[79] I. Jackson,et al. The Earth's Mantle: Composition and Temperature of the Earth's Mantle: Seismological Models Interpreted through Experimental Studies of Earth Materials , 1998 .
[80] I. Jackson. The Earth's Mantle: Composition, Structure, and Evolution , 1998 .
[81] J. Woodhouse,et al. Comparison of P and S station corrections and their relationship to upper mantle structure , 1997 .
[82] L. Stixrude. Structure and sharpness of phase transitions and mantle discontinuities , 1997 .
[83] K. Fuchs,et al. Upper mantle temperatures and lithosphere-asthenosphere system beneath the French Massif Central constrained by seismic, gravity, petrologic and thermal observations , 1997 .
[84] Wei-jia Su,et al. Simultaneous inversion for 3-D variations in shear and bulk velocity in the mantle , 1997 .
[85] S. Dutton,et al. Shear attenuation and dispersion in MgO , 1997 .
[86] S. Karato. On the separation of crustal component from subducted oceanic lithosphere near the 660 KM discontinuity , 1997 .
[87] J. Woodhouse,et al. Ratio of relative S to P velocity heterogeneity in the lower mantle , 1996 .
[88] R. Liebermann,et al. Elasticity of stishovite at high pressure , 1996 .
[89] Jianzhong Zhang,et al. Melting experiments on anhydrous peridotite KLB-1: Compositions of magmas in the upper mantle and transition zone , 1996 .
[90] B. Kennett,et al. How to reconcile body-wave and normal-mode reference earth models , 1996 .
[91] K. Fuchs,et al. Upper mantle temperatures from teleseismic tomography of French Massif Central including effects of composition, mineral reactions, anharmonicity, anelasticity and partial melt , 1996 .
[92] G. Ekström,et al. A radial model of anelasticity consistent with long-period surface-wave attenuation , 1996 .
[93] F. Guyot,et al. Thermal equation of state of CaSiO3 perovskite , 1996 .
[94] C. Sotin,et al. Comparison between tomographic structures and models of convection in the upper mantle , 1996 .
[95] H. Mao,et al. Elasticity of forsterite to 16 GPa and the composition of the upper mantle , 1995, Nature.
[96] A. Dziewoński,et al. Thermal and chemical heterogeneity in the mantle: a seismic and geodynamic study of continental roots , 1995 .
[97] Regionalized Temperature Variations in the Upper 400 km of the Earth's Mantle , 1995 .
[98] E. R. Engdahl,et al. Constraints on seismic velocities in the Earth from traveltimes , 1995 .
[99] W. McDonough,et al. The composition of the Earth , 1995 .
[100] Guust Nolet,et al. Seismic heterogeneity in the upper mantle , 1994 .
[101] A. Dziewoński,et al. Joint inversions of seismic and geodynamic data for models of three—dimensional mantle heterogeneity , 1994 .
[102] G. Nolet,et al. Low S velocities under the Tornquist‐Teisseyre zone: Evidence for water injection into the transition zone by subduction , 1994 .
[103] George Helffrich,et al. Phase transition Clapeyron slopes and transition zone seismic discontinuity topography , 1994 .
[104] E. Humphreys,et al. Physical state of the western U.S. upper mantle , 1994 .
[105] A. Yasuda,et al. Melting phase relations of an anhydrous mid-ocean ridge basalt from 3 to 20 GPa , 1994 .
[106] B. Hager,et al. Compositional vs. thermal buoyancy and the evolution of subducted lithosphere , 1994 .
[107] I. Jackson. Dynamic compliance from torsional creep and forced oscillation tests: An experimental demonstration of linear viscoelasticity , 1993 .
[108] S. Karato,et al. Importance of anelasticity in the interpretation of seismic tomography , 1993 .
[109] A. E. Ringwood,et al. Phase transformations in subducted oceanic crust and buoyancy relationships at depths of 600–800 km in the mantle , 1993 .
[110] W. Peltier,et al. Dynamic surface topography: A new interpretation based upon mantle flow models derived from seismic tomography , 1993 .
[111] S. Saxena,et al. Assessed data on heat capacity, thermal expansion, and compressibility for some oxides and silicates , 1992 .
[112] R. Boehler,et al. Thermal expansivity in the lower mantle , 1992 .
[113] L. Stixrude,et al. Petrology, elasticity, and composition of the mantle transition zone , 1992 .
[114] M. Paterson,et al. Seismic wave dispersion and attenuation in Åheim dunite: an experimental study , 1992 .
[115] T. Jordan,et al. Mantle layering from ScS reverberations: 1. Waveform inversion of zeroth-order reverberations , 1991 .
[116] T. Tanimoto,et al. Global anisotropy in the upper mantle inferred from the regionalization of phase velocities , 1990 .
[117] R. Boehler,et al. Thermal expansion measurements at very high pressure, systematics, and a case for a chemically homog , 1989 .
[118] D. L. Anderson,et al. Seismic velocities in mantle minerals and the mineralogy of the upper mantle , 1989 .
[119] H. Paulssen. Evidence for small scale structure of the upper mantle , 1988 .
[120] T. Jordan. Structure and Formation of the Continental Tectosphere , 1988 .
[121] A. E. Ringwood,et al. Phase transformations in a harzburgite composition to 26 GPa: implications for dynamical behaviour of the subducting slab , 1987 .
[122] T. Irifune. An experimental investigation of the pyroxene-garnet transformation in a pyrolite composition and its bearing on the constitution of the mantle , 1987 .
[123] D. Weidner,et al. A mineral physics test of a pyrolite mantle , 1985 .
[124] James J. Simpson,et al. A simple model of the 1982‐83 Californian "El Nino" , 1984 .
[125] Don L. Anderson,et al. Composition of the upper mantle: Geophysical tests of two petrological models , 1984 .
[126] D. L. Anderson,et al. Preliminary reference earth model , 1981 .
[127] D. Green,et al. Anhydrous melting of peridotite at 0–15 Kb pressure and the genesis of tholeiitic basalts , 1980 .
[128] A. Dziewoński,et al. Homogeneity and Constitution of the Earth's Lower Mantle and Outer Core , 1975 .
[129] Adam M. Dziewonski,et al. Parametrically simple earth models consistent with geophysical data , 1975 .
[130] F. D. Stacey. Physics of the earth , 1977 .
[131] F. Birch. Elasticity and Constitution of the Earth's Interior , 1952 .