| scholarly article | Q13442814 |
| P819 | ADS bibcode | 2001E&PSL.184..605P |
| P356 | DOI | 10.1016/S0012-821X(00)00362-9 |
| P50 | author | Suzanne Y. O'Reilly | Q17517283 |
| P2093 | author name string | P. Morgan | |
| W.L. Griffin | |||
| Yvette H. Poudjom Djomani | |||
| P2860 | cites work | Thermal structure, thickness and composition of continental lithosphere | Q58761020 |
| The continental tectosphere | Q59407163 | ||
| Multistage evolution of Australian subcontinental mantle: Re-Os isotopic constraints from Victorian mantle xenoliths | Q63185302 | ||
| Crystallographic Data for Minerals | Q63321740 | ||
| Continent-ocean chemical heterogeneity in the mantle based on seismic tomography | Q80920094 | ||
| Gravitational (Rayleigh-Taylor) instability of a layer with non-linear viscosity and convective thinning of continental lithosphere | Q97997040 | ||
| Constraints on rift thermal processes from heat flow and uplift | Q105239105 | ||
| The thermal structure and thermal evolution of the continental lithosphere | Q105239137 | ||
| Trace elements in indicator minerals: area selection and target evaluation in diamond exploration | Q107291358 | ||
| Compositional evolution of high-temperature sheared lherzolite PHN 1611 | Q107291359 | ||
| The composition of the Earth | Q29396953 | ||
| Structure and Formation of the Continental Tectosphere | Q56136780 | ||
| Some remarks on the development of sedimentary basins | Q56523482 | ||
| Garnet Peridotite Xenoliths from the Vitim Volcanic Field, Baikal Region: the Nature of the Garnet--Spinel Peridotite Transition Zone in the Continental Mantle | Q57763061 | ||
| Layered Mantle Lithosphere in the Lac de Gras Area, Slave Craton: Composition, Structure and Origin | Q57855379 | ||
| Garnet geotherms: Pressure-temperature data from Cr-pyrope garnet xenocrysts in volcanic rocks | Q57855394 | ||
| Thermal expansion | Q57862736 | ||
| Mapping olivine composition in the lithospheric mantle | Q57888898 | ||
| The Siberian lithosphere traverse: mantle terranes and the assembly of the Siberian Craton | Q57888910 | ||
| A xenolith-derived geotherm for southeastern australia and its geophysical implications | Q57889062 | ||
| P433 | issue | 3-4 | |
| P407 | language of work or name | English | Q1860 |
| P921 | main subject | lithosphere | Q83296 |
| P304 | page(s) | 605-621 | |
| P577 | publication date | 2001-01-01 | |
| P1433 | published in | Earth and Planetary Science Letters | Q3046455 |
| P1476 | title | The density structure of subcontinental lithosphere through time | |
| P478 | volume | 184 |
| Q104907628 | A Lithosphere‐Asthenosphere Boundary and Partial Melt Estimated Using Marine Magnetotelluric Data at the Central Middle Atlantic Ridge |
| Q57866293 | Ancient Continental Lithosphere Dislocated Beneath Ocean Basins Along the Mid-Lithosphere Discontinuity: A Hypothesis |
| Q104795789 | Bounds on the viscosity coefficient of continental lithosphere from removal of mantle lithosphere beneath the Altiplano and Eastern Cordillera |
| Q100560373 | Building cratonic keels in Precambrian plate tectonics |
| Q58939718 | Controlling factors for differential subsidence in the Sonoma Foreland Basin (Early Triassic, western USA) |
| Q57855368 | Cr-pyrope garnets in the lithospheric mantle 2. Compositional populations and their distribution in time and space |
| Q59864378 | Cratonic root beneath North America shifted by basal drag from the convecting mantle |
| Q57409221 | Crustal-scale cross-sections across the NW Zagros belt: implications for the Arabian margin reconstruction |
| Q57881367 | Decoupled crust-mantle accommodation of Africa-Eurasia convergence in the NW Moroccan margin |
| Q104415137 | Deep subduction and rapid exhumation: Role of crustal strength and strain weakening in continental subduction and ultrahigh-pressure rock exhumation |
| Q59852423 | Density of the continental roots: compositional and thermal contributions |
| Q57885493 | Differences between Archean and Proterozoic lithospheres: Assessment of the possible major role of thermal conductivity |
| Q56136861 | Ductile deformation of passive margins: A new mechanism for subduction initiation |
| Q58233340 | Dynamic topography, gravity and the role of lateral viscosity variations from inversion of global mantle flow |
| Q57409186 | Geophysical-petrological model of the crust and upper mantle in the India-Eurasia collision zone |
| Q87082881 | Geophysics: A third way to rift continents |
| Q39247102 | Global water cycle and the coevolution of the Earth's interior and surface environment |
| Q59712952 | How long can diamonds remain stable in the continental lithosphere? |
| Q57881420 | Integrated geophysical-petrological modeling of the lithosphere and sublithospheric upper mantle: Methodology and applications |
| Q57840548 | Intrusion and contamination of high-temperature dunitic magma: the Nordre Bumandsfjord pluton, Seiland, Arctic Norway |
| Q57888605 | Lithospheric domains and controls on kimberlite emplacement, Slave Province, Canada: Evidence from elastic thickness and upper mantle composition |
| Q57409196 | Lithospheric mantle heterogeneities beneath the Zagros Mountains and the Iranian Plateau: a petrological-geophysical study |
| Q57881455 | Lithospheric structure under the western African-European plate boundary: A transect across the Atlas Mountains and the Gulf of Cadiz |
| Q59852426 | Lithospheric structure, composition, and thermal regime of the East European Craton: implications for the subsidence of the Russian platform |
| Q59712955 | Longevity and stability of cratonic lithosphere: Insights from numerical simulations of coupled mantle convection and continental tectonics |
| Q61469451 | Mantle structure beneath the western edge of the Colorado Plateau |
| Q56805676 | Mapping the lithosphere–asthenosphere boundary through changes in surface-wave anisotropy |
| Q59712898 | Multidisciplinary Constraints on the Abundance of Diamond and Eclogite in the Cratonic Lithosphere |
| Q93195849 | Multiscale variations of the crustal stress field throughout North America |
| Q56144367 | Origin of Indian Ocean Seamount Province by shallow recycling of continental lithosphere |
| Q43143693 | Pangea breakup and northward drift of the Indian subcontinent reproduced by a numerical model of mantle convection. |
| Q56136781 | Physical, chemical, and chronological characteristics of continental mantle |
| Q57888218 | The Composition and Evolution of Lithospheric Mantle: a Re-evaluation and its Tectonic Implications |
| Q61469289 | The North American upper mantle: Density, composition, and evolution |
| Q57885044 | The Seismic Structure of Wilkes Land/Terre Adelie, East Antarctica and Comparison with Australia: First Steps in Reconstructing the Deep Lithosphere of Gondwana |
| Q57888747 | The origin and evolution of Archean lithospheric mantle |
| Q57888496 | Thermal and compositional structure of the subcontinental lithospheric mantle: Derivation from shear wave seismic tomography |
| Q57888774 | Upper mantle structure beneath eastern Siberia: Evidence from gravity modeling and mantle petrology |
| Q57720312 | Volcanic Pipes as Clues to Upper Mantle Petrogenesis: Mesozoic Ar-Ar Dating of the Minusinsk Basalts, South Siberia |
| Q61635015 | Water contents in mantle xenoliths from the Colorado Plateau and vicinity: Implications for the mantle rheology and hydration-induced thinning of continental lithosphere |
Search more.