scholarly article | Q13442814 |
P6179 | Dimensions Publication ID | 1025297003 |
P356 | DOI | 10.1038/NATURE09912 |
P2888 | exact match | https://scigraph.springernature.com/pub.10.1038/nature09912 |
P698 | PubMed publication ID | 21412337 |
P50 | author | Anthony R Lowry | Q60227883 |
Marta Pérez-Gussinyé | Q60301316 | ||
P2860 | cites work | Crustal architecture of the cascadia forearc | Q34675024 |
Colorado Plateau magmatism and uplift by warming of heterogeneous lithosphere | Q39302183 | ||
Active foundering of a continental arc root beneath the southern Sierra Nevada in California | Q44981676 | ||
Preliminary reference Earth model | Q55868389 | ||
Did the Atlantic Close and then Re-Open? | Q55878091 | ||
Some remarks on the development of sedimentary basins | Q56523482 | ||
Density and lithospheric strength models of the Yellowstone–Snake River Plain volcanic system from gravity and heat flow data | Q56659419 | ||
Dynamics of intra-plate compressional deformation: the Alpine foreland and other examples | Q56851080 | ||
Effective elastic thickness of Africa and its relationship to other proxies for lithospheric structure and surface tectonics | Q57881398 | ||
Thermal expansivity and elastic properties of the lithospheric mantle: results from mineral physics of composites | Q57881458 | ||
Seismic evidence for widespread western-US deep-crustal deformation caused by extension | Q59098585 | ||
Rheology of the Lower Crust and Upper Mantle: Evidence from Rock Mechanics, Geodesy, and Field Observations | Q59805547 | ||
Seismic velocity structure and composition of the continental crust: A global view | Q60547096 | ||
Temperature derivatives of elastic wave velocities in plagioclase (An51 1) above and below the order-disorder transition temperature | Q60713829 | ||
Thermal regime of the southern Basin and Range Province: 1. Heat flow data from Arizona and the Mojave Desert of California and Nevada | Q69239037 | ||
Transient thermal regimes in the Sierra Nevada and Baja California extinct outer arcs following the cessation of Farallon subduction | Q97830349 | ||
The Yellowstone hotspot | Q97997214 | ||
Degassing of mantle-derived CO2 and He from springs in the southern Colorado Plateau region—Neotectonic connections and implications for groundwater systems | Q98912257 | ||
P433 | issue | 7338 | |
P407 | language of work or name | English | Q1860 |
P304 | page(s) | 353-7 | |
P577 | publication date | 2011-03-17 | |
P1433 | published in | Nature | Q180445 |
P1476 | title | The role of crustal quartz in controlling Cordilleran deformation | |
P478 | volume | 471 |
Q57876502 | An updated stress map of the continental United States reveals heterogeneous intraplate stress |
Q57525806 | Crustal Structure of Active Deformation Zones in Africa: Implications for Global Crustal Processes |
Q57819198 | Crustal structure of the Bighorn Mountains region: Precambrian influence on Laramide shortening and uplift in north-central Wyoming |
Q59805342 | Earth science: Continental jelly |
Q57525871 | Evolutionary aspects of lithosphere discontinuity structure in the western U.S. |
Q37660500 | Gravitational body forces focus North American intraplate earthquakes |
Q57982645 | Origins of topography in the western U.S.: Mapping crustal and upper mantle density variations using a uniform seismic velocity model |
Q60153924 | Physical State and Structure of the Crust Beneath the Western‐Central United States From Multiobservable Probabilistic Inversion |
Q44343203 | Possible control of subduction zone slow-earthquake periodicity by silica enrichment |
Q59225387 | Precambrian Tectonic Discontinuities in Western Laurentia: Broadband Seismological Perspectives on the Snowbird and Great Falls Tectonic Zones |
Q60700001 | Seismic structure and lithospheric rheology from deep crustal xenoliths, central Montana, USA |
Q59786371 | Tomography of crustalPandStravel times across the western United States |
Q45096442 | Western US intermountain seismicity caused by changes in upper mantle flow |
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