| scholarly article | Q13442814 |
| P819 | ADS bibcode | 2012GGG....13.AK07L |
| P356 | DOI | 10.1029/2012GC004056 |
| P50 | author | Meghan Miller | Q57410267 |
| P2093 | author name string | Alan Levander | |
| P2860 | cites work | P-to-SandS-to-Pimaging of a sharp lithosphere-asthenosphere boundary beneath eastern North America | Q60704287 |
| Ophiolitic basement to the Great Valley forearc basin, California, from seismic and gravity data: Implications for crustal growth at the North American continental margin | Q60710440 | ||
| The Moho in the northern Basin and Range province, Nevada, along the COCORP 40°N seismic-reflection transect | Q60710459 | ||
| The lithosphere-asthenosphere boundary beneath the western United States | Q60719186 | ||
| TheSreceiver functions: synthetics and data example | Q60719199 | ||
| Post-Laramide removal of the Farallon slab, western United States | Q61905856 | ||
| Asthenospheric flow and lithospheric evolution near the Mendocino Triple Junction | Q62019470 | ||
| Lithosphere-asthenosphere interaction beneath the western United States from the joint inversion of body-wave traveltimes and surface-wave phase velocities | Q62019479 | ||
| Constraints on seismic velocities in the Earth from traveltimes | Q63344509 | ||
| Geophysical and tectonic framework of the eastern Basin and Range-Colorado Plateau-Rocky Mountain transition | Q64830916 | ||
| Crustal structure and signatures of recent tectonism as influenced by ancient terranes in the western United States | Q95160962 | ||
| Late Jurassic to Eocene evolution of the Cordilleran thrust belt and foreland basin system, western U.S.A | Q96584544 | ||
| Water in the oceanic upper mantle: implications for rheology, melt extraction and the evolution of the lithosphere | Q97322608 | ||
| Crustal deformation across the Sierra Nevada, northern Walker Lane, Basin and Range transition, western United States measured with GPS, 2000–2004 | Q97323693 | ||
| The crustal structure of the Northwestern Basin and Range Province, Nevada, from wide-angle seismic data | Q97477754 | ||
| How Laramide-Age Hydration of North American Lithosphere by the Farallon Slab Controlled Subsequent Activity in the Western United States | Q97996970 | ||
| Upper Mantle Imaging with Array Recordings of Converted and Scattered Teleseismic Waves | Q107253181 | ||
| Multiparameter two-dimensional inversion of scattered teleseismic body waves 1. Theory for oblique incidence | Q107253206 | ||
| Multiparameter two-dimensional inversion of scattered teleseismic body waves 3. Application to the Cascadia 1993 data set | Q107253213 | ||
| A global view of the lithosphere-asthenosphere boundary | Q34977513 | ||
| Seismic evidence for sharp lithosphere-asthenosphere boundaries of oceanic plates | Q34977517 | ||
| Colorado Plateau magmatism and uplift by warming of heterogeneous lithosphere | Q39302183 | ||
| An inverted continental Moho and serpentinization of the forearc mantle | Q43530633 | ||
| Continuing Colorado plateau uplift by delamination-style convective lithospheric downwelling. | Q43534191 | ||
| Active foundering of a continental arc root beneath the southern Sierra Nevada in California | Q44981676 | ||
| Lithospheric thinning beneath rifted regions of Southern California. | Q46015785 | ||
| The nature of the landers-mojave earthquake line | Q46678411 | ||
| Implications of Plate Tectonics for the Cenozoic Tectonic Evolution of Western North America | Q55968503 | ||
| Composition and development of the continental tectosphere | Q56136740 | ||
| Hot mantle upwelling across the 660 beneath Yellowstone | Q56268543 | ||
| EVOLUTION OF THE CONTINENTAL LITHOSPHERE | Q56805673 | ||
| The Lithosphere-Asthenosphere Boundary | Q56805674 | ||
| The elusive lithosphere–asthenosphere boundary (LAB) beneath cratons | Q56805675 | ||
| Mapping the lithosphere–asthenosphere boundary through changes in surface-wave anisotropy | Q56805676 | ||
| Toroidal mantle flow through the western U.S. slab window | Q57075334 | ||
| Complex subduction and small-scale convection revealed by body-wave tomography of the western United States upper mantle | Q57075342 | ||
| Seismically imaged relict slab from the 55 Ma Siletzia accretion to the northwest United States | Q57075344 | ||
| A lithospheric instability origin for Columbia River flood basalts and Wallowa Mountains uplift in northeast Oregon | Q57107002 | ||
| The role of crustal quartz in controlling Cordilleran deformation | Q57109864 | ||
| CRUST 5.1: A global crustal model at 5° × 5° | Q57308373 | ||
| Melting under the Colorado Plateau, USA | Q57525878 | ||
| Imaging crustal and upper mantle structure beneath the Colorado Plateau using finite frequency Rayleigh wave tomography | Q57525890 | ||
| Formation of cratonic mantle keels by arc accretion: Evidence from S receiver functions | Q57525894 | ||
| Subduction-zone magnetic anomalies and implications for hydrated forearc mantle | Q57876751 | ||
| Seismic evidence for widespread serpentinized forearc upper mantle along the Cascadia margin | Q57876785 | ||
| Is the continental Moho the crust-mantle boundary? | Q57889050 | ||
| North American lithospheric discontinuity structure imaged byPsandSpreceiver functions | Q57890085 | ||
| Mantle discontinuity structure from midpoint stacks of converted P to S waves across the Yellowstone hotspot track | Q57983011 | ||
| Small-scale convection at the edge of the Colorado Plateau: Implications for topography, magmatism, and evolution of Proterozoic lithosphere | Q58080422 | ||
| The role of chemical boundary layers in regulating the thickness of continental and oceanic thermal boundary layers | Q58156619 | ||
| Regional geotherms and lithospheric thickness | Q59263701 | ||
| Structure of the crust and uppermost mantle beneath the western United States revealed by ambient noise and earthquake tomography | Q59755027 | ||
| Dominant role of tectonic inheritance in supercontinent cycles | Q59805330 | ||
| Crustal structure of the Colorado Plateau, Arizona: Application of new long-offset seismic data analysis techniques | Q59835690 | ||
| The continental lithosphere: Reconciling thermal, seismic, and petrologic data | Q59852414 | ||
| How the crust meets the mantle: Lithoprobe perspectives on the Mohorovičić discontinuity and crust–mantle transition | Q59876880 | ||
| Global azimuthal seismic anisotropy and the unique plate-motion deformation of Australia | Q60011577 | ||
| P433 | issue | 7 | |
| P921 | main subject | lithosphere | Q83296 |
| P577 | publication date | 2012-07-01 | |
| P1433 | published in | G3: Geochemistry, Geophysics, Geosystems | Q15759647 |
| P1476 | title | Evolutionary aspects of lithosphere discontinuity structure in the western U.S. | |
| P478 | volume | 13 |
| Q59767368 | An Anisotropic Contrast in the Lithosphere Across the Central San Andreas Fault |
| Q60708631 | Crust and upper mantle structure beneath the Pacific Northwest from joint inversions of ambient noise and earthquake data |
| Q57819198 | Crustal structure of the Bighorn Mountains region: Precambrian influence on Laramide shortening and uplift in north-central Wyoming |
| Q42316219 | Earthquake rupture below the brittle-ductile transition in continental lithospheric mantle. |
| Q101011114 | High‐Resolution Numerical Modeling of Heat and Volatile Transfer from Basalt to Wall Rock: Application to the Crustal Column beneath Long Valley Caldera, CA |
| Q57889727 | Imaging anisotropic layering with Bayesian inversion of multiple data types |
| Q57878847 | Intraplate volcanism at the edges of the Colorado Plateau sustained by a combination of triggered edge-driven convection and shear-driven upwelling |
| Q57525832 | Lithospheric architecture beneath Hudson Bay |
| Q57525834 | Lithospheric discontinuity structure in Alaska, thickness variations determined bySpreceiver functions |
| Q69033245 | Mechanisms and geologic significance of the mid-lithosphere discontinuity in the continents |
| Q107253106 | Multimode 3‐D Kirchhoff Migration of Receiver Functions at Continental Scale |
| Q58049880 | Numerical modeling of geochemical variations caused by crustal relamination |
| Q57982645 | Origins of topography in the western U.S.: Mapping crustal and upper mantle density variations using a uniform seismic velocity model |
| Q59225387 | Precambrian Tectonic Discontinuities in Western Laurentia: Broadband Seismological Perspectives on the Snowbird and Great Falls Tectonic Zones |
| Q46831298 | Subduction-driven recycling of continental margin lithosphere |
| Q60109424 | The Changing Face of the Lithosphere-Asthenosphere Boundary: Imaging Continental Scale Patterns in Upper Mantle Structure Across the Contiguous U.S. With Sp Converted Waves |
| Q45096442 | Western US intermountain seismicity caused by changes in upper mantle flow |
| Q111337802 | Whole-lithosphere shear during oblique rifting |
Search more.