| scholarly article | Q13442814 |
| P819 | ADS bibcode | 1995JGR...100.9761C |
| P356 | DOI | 10.1029/95JB00259 |
| P50 | author | Walter D. Mooney | Q22006988 |
| P2093 | author name string | Nikolas I. Christensen | |
| P2860 | cites work | The velocity of compressional waves in rocks to 10 kilobars: 2. | Q29305353 |
| The velocity of compressional waves in rocks to 10 kilobars: 1 | Q56002591 | ||
| Seismic anisotropy due to preferred mineral orientation observed in shallow crustal rocks in southern Alaska | Q57876892 | ||
| Creation and destruction of lower continental crust | Q58041945 | ||
| The nature of the lower continental crust: Inferences from geophysics, surface geology, and crustal xenoliths | Q58042012 | ||
| Elasticity of igneous rocks at high temperatures and pressures | Q61031767 | ||
| The composition of the Earth's crust | Q61049636 | ||
| Archean and Proterozoic crustal evolution: Evidence from crustal seismology | Q61660386 | ||
| Seismic methods for determining earthquake source parameters and lithospheric structure | Q64830869 | ||
| Chapter 23: Heat flow and thermal regimes in the continental United States | Q64854146 | ||
| Chapter 28: Seismic properties of the crust and uppermost mantle of the conterminous United States and adjacent Canada | Q64854226 | ||
| Chapter 30: Composition of the continental crust and upper mantle; A review | Q64854560 | ||
| Cenozoic tectonics of the western United States | Q78375981 | ||
| Heat Flow in the United States and the Thermal Regime of the Crust | Q79489105 | ||
| Seismic Velocities | Q94516271 | ||
| The Thermal Structure of the Continental Crust | Q97855922 | ||
| Structure and constitution of the lower oceanic crust | Q98013032 | ||
| Compressional wave velocities in rocks at high temperatures and pressures, critical thermal gradients, and crustal low-velocity zones | Q98284175 | ||
| Bedrock geology and tectonic evolution of the Wrangellia, Peninsular, and Chugach Terranes along the Trans-Alaska Crustal Transect in the Chugach Mountains and Southern Copper River Basin, Alaska | Q98284200 | ||
| P433 | issue | B6 | |
| P407 | language of work or name | English | Q1860 |
| P921 | main subject | velocity | Q11465 |
| P1104 | number of pages | 28 | |
| P304 | page(s) | 9761-9788 | |
| P577 | publication date | 1995-06-10 | |
| P1433 | published in | Journal of Geophysical Research | Q2738009 |
| P1476 | title | Seismic velocity structure and composition of the continental crust: A global view | |
| P478 | volume | 100 |
| Q59877449 | 3-D gravity analysis of the Dniepr–Donets Basin and Donbas Foldbelt, Ukraine |
| Q60699998 | A 3-D model of the crust and uppermost mantle beneath the Central and Western US by joint inversion of receiver functions and surface wave dispersion |
| Q63975901 | A Probabilistic Shear Wave Velocity Model of the Crust in the Central West Australian Craton Constrained by Transdimensional Inversion of Ambient Noise Dispersion |
| Q57725682 | A comparison between the transpressional plate boundaries of South Island, New Zealand, and southern California, USA: The Alpine and San Andreas Fault Systems |
| Q61470274 | A crustal model of the ultrahigh-pressure Dabie Shan orogenic belt, China, derived from deep seismic refraction profiling |
| Q57877091 | A model for continental crust genesis by arc accretion: rare earth element evidence from the Irish Caledonides |
| Q107275349 | A new convection–fractionation model for the evolution of the principal geochemical reservoirs of the Earth's mantle |
| Q57872670 | A probabilistic seismic model for the European Arctic |
| Q58760703 | A reference Earth model for the heat-producing elements and associated geoneutrino flux |
| Q70941775 | A seismic model of the Precambrian crust along the coast of southeastern Sweden: the Coast Profile wide-angle airgun experiment and the southern part of FENNOLORA revisited |
| Q64991650 | A subduction and mantle plume origin for Samoan volcanism. |
| Q60153958 | A synoptic view of the distribution and connectivity of the mid-crustal low velocity zone beneath Tibet |
| Q101011131 | Adakite‐Like Potassic Magmatism and Crust‐Mantle Interaction in a Postcollisional Setting: An Experimental Study of Melting Beneath the Tibetan Plateau |
| Q107297118 | Along-strike variation in the Aleutian Island Arc: Genesis of high Mg# andesite and implications for continental crust |
| Q97866295 | Arc composition at mid-crustal depths: Insights from the Coast Ridge Belt, Santa Lucia Mountains, California |
| Q56388583 | Archean magmatism and deformation were not products of plate tectonics |
| Q89532063 | Aseismic mid-crustal magma reservoir at Cleveland Volcano imaged through novel receiver function analyses |
| Q57862660 | Asymmetry in elastic properties and the evolution of large continental strike-slip faults |
| Q57308373 | CRUST 5.1: A global crustal model at 5° × 5° |
| Q59844813 | Cenozoic shortening budget for the northeastern edge of the Tibetan Plateau: Is lower crustal flow necessary? |
| Q59796521 | Comment on “New evidence of magmatic diapirs in the intermediate crust under the Dead Sea, Israel” by Nitzan Rabinowitz, Jean Steinberg, and Yossi Mart |
| Q57931405 | Comparison between crustal density and velocity variations in southern California |
| Q57864031 | Composition of the Uralide crust from seismic velocity ( V p , V s ), heat flow, gravity, and magnetic data |
| Q97996990 | Constraints on crustal composition beneath a metamorphic core complex: results from 3-component wide-angle seismic data along the eastern flank of the Ruby Mountains, Nevada |
| Q97308052 | Continent size revisited: Geophysical evidence for West Antarctica as a back-arc system |
| Q57074288 | Continental crust generated in oceanic arcs |
| Q58415083 | Continental thermal isostasy: 1. Methods and sensitivity |
| Q58415087 | Continental thermal isostasy: 2. Application to North America |
| Q57982685 | Contrasting lithospheric structure between the Colorado Plateau and Great Basin: Initial results from Colorado Plateau - Great Basin PASSCAL Experiment |
| Q56388595 | Controls on tectonic accretion versus erosion in subduction zones: Implications for the origin and recycling of the continental crust |
| Q60153960 | Crust and uppermost mantle beneath the North China Craton, northeastern China, and the Sea of Japan from ambient noise tomography |
| Q59874738 | Crustal Density Structure, Lithosphere Flexure Mechanism, and Isostatic State Throughout the Qinling Orogen Revealed by In Situ Dense Gravity Observations |
| Q73312604 | Crustal Structure Across the Lord Howe Rise, Northern Zealandia, and Rifting of the Eastern Gondwana Margin |
| Q97308167 | Crustal and upper mantle structure beneath Antarctica and surrounding oceans |
| Q59714951 | Crustal and uppermost mantle structure of the Bohemian Massif based on CELEBRATION 2000 data |
| Q60716042 | Crustal seismic velocity structure in the epicentral region of the Latur earthquake (September 29, 1993), southern India: inferences from modelling of the aftershock seismograms |
| Q59755018 | Crustal shear wave velocity structure of the western United States inferred from ambient seismic noise and earthquake data |
| Q57075310 | Crustal structure along the west flank of the Cascades, western Washington |
| Q58779735 | Crustal structure and evolution beneath the Colorado Plateau and the southern Basin and Range Province: Results from receiver function and gravity studies |
| Q29036631 | Crustal structure and implications for the tectonic evolution of the Archean Western Superior craton from forward and inverse gravity modeling |
| Q59344921 | Crustal structure and relocated earthquakes in the Puget Lowland, Washington, from high-resolution seismic tomography |
| Q60713639 | Crustal structure at colliding plates boundary from receiver functions analysis: A close look beneath the northern Apennines (Italy) |
| Q57871861 | Crustal structure beneath China from receiver function analysis |
| Q101011049 | Crustal structure beneath Montserrat, Lesser Antilles, constrained by xenoliths, seismic velocity structure and petrology |
| Q60118006 | Crustal structure beneath the Florida‐to‐Edmonton broadband seismometer array |
| Q59836800 | Crustal structure beneath the Montserrat region of the Lesser Antilles island arc |
| Q97449331 | Crustal structure of China from deep seismic sounding profiles |
| Q59796472 | Crustal structure of central Lake Baikal: Insights into intracontinental rifting |
| Q60717536 | Crustal structure of the NE Rockall Trough from wide-angle seismic data modeling |
| Q59714999 | Crustal structure of the Trans-European suture zone region along POLONAISE'97 seismic profile P4 |
| Q56552799 | Crustal structure of the Yakutat terrane and the evolution of subduction and collision in southern Alaska |
| Q104782684 | Crustal structure of the basin and ridge system west of New Caledonia (southwest Pacific) from wide-angle and reflection seismic data |
| Q57625732 | Crustal structure of the northwestern Basin and Range Province and its transition to unextended volcanic plateaus |
| Q60704120 | Crustal structure of the southeast Greenland margin from joint refraction and reflection seismic tomography |
| Q57882774 | Crustal structure of the southern margin of the African continent: Results from geophysical experiments |
| Q101012074 | Crustal structure transition from oceanic arc to continental arc, eastern Aleutian Islands and Alaska Peninsula |
| Q97448003 | Crustal thickness and averageVp/Vsratio variations in southwest Yunnan, China, from teleseismic receiver functions |
| Q97855210 | Crustal thickness map of the western United States by partitioned waveform inversion |
| Q60709982 | Crustal thicknesses in SE Brazilian Shield by receiver function analysis: Implications for isostatic compensation |
| Q97997026 | Crustal velocity structure beneath the eastern flank of the Ruby Mountains metamorphic core complex: results from normal-incidence to wide-angle seismic data |
| Q57409221 | Crustal-scale cross-sections across the NW Zagros belt: implications for the Arabian margin reconstruction |
| Q35487064 | Crystal preferred orientation of an amphibole experimentally deformed by simple shear |
| Q61717148 | DAMAGE AND STRAIN LOCALIZATION AROUND A PRESSURIZED SHALLOW-LEVEL MAGMA RESERVOIR |
| Q57881367 | Decoupled crust-mantle accommodation of Africa-Eurasia convergence in the NW Moroccan margin |
| Q97447304 | Deep Structure of the Eastern Himalayan Collision Zone: Evidence for Underthrusting and Delamination in the Postcollisional Stage |
| Q101832608 | Deep crustal structure of the Chicxulub impact crater |
| Q57977510 | Deep crustal structure of the Indian shield from joint inversion of P wave receiver functions and Rayleigh wave group velocities: Implications for Precambrian crustal evolution |
| Q57977532 | Deep crustal structure of the Paraná Basin from receiver functions and Rayleigh-wave dispersion: Evidence for a fragmented cratonic root |
| Q98237623 | Deep long period volcanic earthquakes generated by degassing of volatile-rich basaltic magmas |
| Q56235203 | Deep seismic structure of the Tonga subduction zone: Implications for mantle hydration, tectonic erosion, and arc magmatism |
| Q59810830 | Deep structure and mechanical behavior of the lithosphere in the Hangai–Hövsgöl region, Mongolia: new constraints from gravity modeling |
| Q60699639 | Deep structure of the Baikal rift zone revealed by joint inversion of gravity and seismology |
| Q104415137 | Deep subduction and rapid exhumation: Role of crustal strength and strain weakening in continental subduction and ultrahigh-pressure rock exhumation |
| Q57982658 | Differential motion between upper crust and lithospheric mantle in the central Basin and Range |
| Q60713835 | Discontinuous change in temperature derivative of Vp in lower crustal rocks |
| Q57858243 | Dissipation analysis as a guide to mode selection during crustal extension and implications for the styles of sedimentary basins |
| Q57850054 | Do great earthquakes occur on the Alpine Fault in central South Island, New Zealand? |
| Q64029098 | EBSD-measured lattice-preferred orientations and seismic properties of eclogites |
| Q57492299 | Early-stage rifting of the northern Tyrrhenian Sea Basin: Results from a combined wide-angle and multichannel seismic study |
| Q106419275 | Earth's global Ag, Al, Cr, Cu, Fe, Ni, Pb, and Zn cycles |
| Q57562288 | Effect of water on the electrical conductivity of lower crustal clinopyroxene |
| Q59876864 | Electrical conductivity of continental lithospheric mantle from integrated geophysical and petrological modeling: Application to the Kaapvaal Craton and Rehoboth Terrane, southern Africa |
| Q60709799 | Evidence for crustal extension and inversion in eastern Tasmania, Australia, during the Neoproterozoic and Early Palaeozoic |
| Q60719499 | Factors influencing magmatism during continental breakup: New insights from a wide-angle seismic experiment across the conjugate Seychelles-Indian margins |
| Q57876746 | Forearc structure beneath southwestern British Columbia: A three-dimensional tomographic velocity model |
| Q57851627 | Formation of lower continental crust by relamination of buoyant arc lavas and plutons |
| Q43437206 | Foundering of lower island-arc crust as an explanation for the origin of the continental Moho |
| Q59487428 | Full-Wave Seismic Tomography in the Northeastern United States: New Insights Into the Uplift Mechanism of the Adirondack Mountains |
| Q63946392 | Fully nonlinear inversion of fundamental mode surface waves for a global crustal model |
| Q57858216 | Geodynamic models of terrane accretion: Testing the fate of island arcs, oceanic plateaus, and continental fragments in subduction zones |
| Q59796497 | Geophysical evidence for the evolution of the California Inner Continental Borderland as a metamorphic core complex |
| Q96022623 | Geophysical imaging of ophiolite structure in the United Arab Emirates |
| Q55411287 | Gravity modeling finds a large magma body in the deep crust below the Gulf of Naples, Italy. |
| Q58760983 | Hf–Nd isotopic evolution of the lower crust |
| Q60705446 | Imaging detailed crustal structure and magmatic intrusion across the Ethiopian Rift using a dense linear broadband array |
| Q57121758 | Imaging the Indian subcontinent beneath the Himalaya |
| Q57876722 | Imaging the transition from Aleutian subduction to Yakutat collision in central Alaska, with local earthquakes and active source data |
| Q57850236 | Implications of hydrostatic pore pressures and high crustal strength for the deformation of intraplate lithosphere |
| Q60710385 | Injection of Tibetan crust beneath the south Qaidam Basin: Evidence from INDEPTH IV wide-angle seismic data |
| Q97996614 | Interaction of strong lower and weak middle crust during lithospheric extension in western New Zealand |
| Q61469926 | Joint inversion of gravity and arrival time data from Parkfield: New constraints on structure and hypocenter locations near the SAFOD drill site |
| Q60704856 | Joint inversion of surface wave velocity and gravity observations and its application to central Asian basins shear velocity structure |
| Q44160610 | Laboratory measurement of elastic anisotropy on spherical rock samples by longitudinal and transverse sounding under confining pressure |
| Q57881477 | Laboratory measurements of seismic P-wave velocities on rocks from the Betic chain (southern Iberian Peninsula) |
| Q60703561 | Lake Toba volcano magma chamber imaged by ambient seismic noise tomography |
| Q97418254 | Limited and localized magmatism in the Central Atlantic Magmatic Province |
| Q57881403 | LitMod3D: An interactive 3-D software to model the thermal, compositional, density, seismological, and rheological structure of the lithosphere and sublithospheric upper mantle |
| Q56984506 | Lithospheric Structure of Greenland From Ambient Noise and Earthquake Surface Wave Tomography |
| Q56430575 | Lithospheric strength and intraplate seismicity in the New Madrid seismic zone |
| Q70941825 | Lithospheric structure and composition of the Archean western Superior Province from seismic refraction/wide-angle reflection and gravity modeling |
| Q57977560 | Lithospheric structure of the Arabian Shield from the joint inversion of receiver functions and surface-wave group velocities |
| Q57864941 | Lithospheric structure of the Bohemian Massif and adjacent Variscan belt in central Europe based on profile S01 from the SUDETES 2003 experiment |
| Q59797271 | Lithospheric structure of the Qiangtang Terrane, northern Tibetan Plateau, from complete regional waveform modeling: Evidence for partial melt |
| Q59797275 | Low crustal velocities and mantle lithospheric variations in southern Tibet from regional Pnl waveforms |
| Q97992472 | Lower Crustal Composition in the Southwestern United States |
| Q97866236 | Lower crustal deformation beneath the central Transverse Ranges, southern California: Results from the Los Angeles Region Seismic Experiment |
| Q57856187 | Lower crustal earthquakes near the Ethiopian rift induced by magmatic processes |
| Q58156625 | Making continental crust |
| Q60704119 | Mantle thermal structure and active upwelling during continental breakup in the North Atlantic |
| Q70941788 | Measured and calculated seismic velocities and densities for granulites from xenolith occurrences and adjacent exposed lower crustal sections: A comparative study from the North China craton |
| Q59295783 | Metamorphism, denudation and sea level in the Archean and cooling of the Earth |
| Q100251352 | Methods for resolving the origin of large igneous provinces from crustal seismology |
| Q58082166 | Models of the upper mantle beneath the central North Island, New Zealand, from speeds and anisotropy of subhorizontal P waves (Pn) |
| Q60700330 | Modes of raising northeastern Tibet probed by explosion seismology |
| Q73310012 | Moho Depths of Antarctica: Comparison of Seismic, Gravity, and Isostatic Results |
| Q60713635 | Moho depth andVp/Vsratio in peninsular Italy from teleseismic receiver functions |
| Q60709951 | Moho map of South America from receiver functions and surface waves |
| Q57877659 | M≥ 7.0 earthquake recurrence on the San Andreas fault from a stress renewal model |
| Q56212018 | Nature and composition of the continental crust: A lower crustal perspective |
| Q60710392 | Nature of the crust beneath northwest Basin and Range province from teleseismic receiver function data |
| Q57863946 | Nature of the lithosphere across the Variscan orogen of SW Iberia: Dense wide-angle seismic reflection data |
| Q59839743 | New Seismic Evidence for Continental Collision During the Assembly of the Central Asian Orogenic Belt |
| Q56804029 | No Moho uplift below the Baikal Rift Zone: Evidence from a seismic refraction profile across southern Lake Baikal |
| Q104169148 | Nonlinear estimation of geometric parameters in FEMs of volcano deformation: Integrating tomography models and geodetic data for Okmok volcano, Alaska |
| Q97996611 | North American dynamics and western U.S. tectonics |
| Q58049880 | Numerical modeling of geochemical variations caused by crustal relamination |
| Q101012097 | On the conditions for lower crustal convective instability |
| Q59715188 | P- and S-wave velocity model of the southwestern margin of the Precambrian East European Craton; POLONAISE'97, profile P3 |
| Q60713839 | Petrological model of the northern Izu–Bonin–Mariana arc crust: constraints from high-pressure measurements of elastic wave velocities of the Tanzawa plutonic rocks, central Japan |
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| Q59714901 | Rifting and lower crustal reflectivity: A case study of the intracratonic Dniepr-Donets rift zone, Ukraine |
| Q59345458 | Secular change in Archaean crust formation recorded in Western Australia |
| Q59715133 | Seismic and gravity modelling of crustal structure in the Central Graben, North Sea. Observations along MONA LISA profile 3 |
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| Q60700001 | Seismic structure and lithospheric rheology from deep crustal xenoliths, central Montana, USA |
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| Q59845034 | Sensitivity of seismic wide-angle wave-field and first arrival times to fine scale crustal structure and moho topography |
| Q57863920 | Shear wave modeling and Poisson's ratio in the Variscan Belt of SW Iberia |
| Q57872718 | Shear wave velocity structure of the lower crust in southern Africa: Evidence for compositional heterogeneity within Archaean and Proterozoic terrains |
| Q70941926 | Shear-Wave Velocity Structure of Southern Africa's Lithosphere: Variations in the Thickness and Composition of Cratons and Their Effect on Topography |
| Q60713828 | Simultaneous high P-T measurements of ultrasonic compressional and shear wave velocities in Ichino-megata mafic xenoliths: Their bearings on seismic velocity perturbations in lower crust of northeast Japan arc |
| Q91558255 | Southern Africa crustal anisotropy reveals coupled crust-mantle evolution for over 2 billion years |
| Q57882766 | Southern African continental margin: Dynamic processes of a transform margin |
| Q58779867 | Southern African crustal evolution and composition: Constraints from receiver function studies |
| Q57851808 | Stability of arc lower crust: Insights from the Talkeetna arc section, south central Alaska, and the seismic structure of modern arcs |
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| Q60713838 | Structure and Evolution of the East Antarctic Lithosphere: Tectonic Implications for the Development and Dispersal of Gondwana |
| Q59541303 | Structure and composition of the Aleutian island arc and implications for continental crustal growth |
| Q60294229 | Structure and development of a microcontinent: Elan Bank in the southern Indian Ocean |
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| Q97308170 | Tonga Ridge and Lau Basin crustal structure from seismic refraction data |
| Q97997027 | Two-dimensional travel time inversion for the crustalPandSwave velocity structure of the Ruby Mountains metamorphic core complex, NE Nevada |
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| Q59796562 | Uplift of the Transantarctic Mountains and the bedrock beneath the East Antarctic ice sheet |
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| Q59851907 | Upper crustal structure of Newberry Volcano from P-wave tomography and finite difference waveform modeling |
| Q57876777 | Upper crustal structure of southwestern British Columbia from the 1998 Seismic Hazards Investigation in Puget Sound |
| Q63257730 | Upper mantle earth structure in Africa from full‐wave ambient noise tomography |
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| Q57525885 | VSand density structure beneath the Colorado Plateau constrained by gravity anomalies and joint inversions of receiver function and phase velocity data |
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| Q97449299 | Weakness of the lower continental crust: a condition for delamination, uplift, and escape |
| Q60710407 | West-east variation in crustal thickness in northern Lhasa block, central Tibet, from deep seismic sounding data |
| Q59835687 | Wide-angle seismic constraints on the evolution of the deep San Andreas plate boundary by Mendocino triple junction migration |
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