Abstract is: Walter D. Mooney (born on November 17, 1951) is a research seismologist and geophysicist at the United States Geological Survey (USGS), Menlo Park, California (1978–present). He was Chief of the USGS Branch of Seismology from 1994 to 1997.
| human | Q5 |
| P5463 | AE member ID | Mooney_Walter |
| P6178 | Dimensions author ID | 011465551715.47 |
| P2671 | Google Knowledge Graph ID | /g/11bwn53tdw |
| P269 | IdRef ID | 16232541X |
| P244 | Library of Congress authority ID | n84081120 |
| P8189 | National Library of Israel J9U ID | 987007448072405171 |
| P1006 | Nationale Thesaurus voor Auteursnamen ID | 238607305 |
| P1207 | NUKAT ID | n2012069137 |
| P496 | ORCID iD | 0000-0002-5310-3631 |
| P7293 | PLWABN ID | 9810535686505606 |
| P4012 | Semantic Scholar author ID | 4482963 |
| P10861 | Springer Nature person ID | 011465551715.47 |
| P214 | VIAF ID | 51784687 |
| P10832 | WorldCat Entities ID | E39PBJcBXDHYChR6FQBw9D9MT3 |
| P166 | award received | George P. Woollard Award | Q63077102 |
| P27 | country of citizenship | United States of America | Q30 |
| P69 | educated at | Cornell University | Q49115 |
| University of Wisconsin–Madison | Q838330 | ||
| P108 | employer | United States Geological Survey | Q193755 |
| P734 | family name | Mooney | Q27391736 |
| Mooney | Q27391736 | ||
| Mooney | Q27391736 | ||
| P735 | given name | Walter | Q499249 |
| Walter | Q499249 | ||
| P463 | member of | Academia Europaea | Q337234 |
| P106 | occupation | seismologist | Q12051314 |
| geophysicist | Q12094958 | ||
| P21 | sex or gender | male | Q6581097 |
| Q61470274 | A crustal model of the ultrahigh-pressure Dabie Shan orogenic belt, China, derived from deep seismic refraction profiling |
| Q98098654 | A seismic refraction survey of the Imperial Valley Region, California |
| Q57929517 | A seismic study of Yucca Mountain and vicinity, southern Nevada; data report and preliminary results |
| Q60701250 | A three-dimensional geophysical model of the crust in the Barents Sea region: model construction and basement characterization |
| Q59609731 | Accretion and subduction tectonics in the Chugach Mountains and Copper River Basin, Alaska: Initial results of the Trans-Alaska Crustal Transect |
| Q59835654 | Aftershock imaging using a dense seismometer array (AIDA) after the 2011 Mineral, Virginia, earthquake |
| Q96111537 | Application of wave field continuation to the inversion of refraction data |
| Q61660386 | Archean and Proterozoic crustal evolution: Evidence from crustal seismology |
| Q79489072 | Basin and range crustal and upper mantle structure, northwest to central Nevada |
| Q59470395 | Building damage survey and microtremor measurements for the source region of the 2015 Gorkha, Nepal, earthquake |
| Q57308373 | CRUST 5.1: A global crustal model at 5° × 5° |
| Q67131521 | CRUSTAL STRUCTURE ALONG THE GEOSCIENCES TRANSECT FROM ALTAY TO ALTUN TAGH |
| Q61661060 | Comment and Reply on "Archean and Proterozoic crustal evolution: Evidence from crustal seismology" |
| Q60697847 | Comparison of Synthetic Pseudoabsolute Response Spectral Acceleration (PSA) for Four Crustal Regions within Central and Eastern North America (CENA) |
| Q60074116 | Continental roots go with the flow |
| Q100515777 | Corrigendum to “Crustal structure of the Northeastern Tibetan Plateau from the Southern Tarim Basin to the Sichuan Basin, China” [Tectonophysics 584 (2013) 191–208] |
| Q59864378 | Cratonic root beneath North America shifted by basal drag from the convecting mantle |
| Q91716944 | Crust and Lithospheric Structure - Global Crustal Structure |
| Q91716945 | Crust and Lithospheric Structure – Global Crustal Structure |
| Q97447498 | Crustal P wave velocity structure beneath the SE margin of the Tibetan Plateau from Deep Seismic Sounding results |
| Q67131710 | Crustal P-wave velocity structure from Altyn Tagh to Longmen mountains along the Taiwan-Altay geoscience transect |
| Q102354751 | Crustal Structure of the Northeastern Tibetan Plateau from the Southern Tarim Basin to the Sichuan Basin, China |
| Q73312889 | Crustal imaging of northern Harrat Rahat, Saudi Arabia, from ambient noise tomography |
| Q57075310 | Crustal structure along the west flank of the Cascades, western Washington |
| Q79489090 | Crustal structure and composition of the southern Foothills Metamorphic Belt, Sierra Nevada, California, from seismic data |
| Q57725729 | Crustal structure beneath exposed accreted terranes of Southern Alaska |
| Q97449331 | Crustal structure of China from deep seismic sounding profiles |
| Q98284184 | Crustal structure of accreted terranes in southern Alaska, Chugach Mountains and Copper River Basin, from seismic refraction results |
| Q97856362 | Crustal structure of northeastern California |
| Q57928057 | Crustal structure of southwestern Saudi Arabia |
| Q98284183 | Crustal structure of the Chugach Mountains, southern Alaska: A study of peg-leg multiples from a low-velocity zone |
| Q60019850 | Crustal structure of the Columbia Plateau: Evidence for continental rifting |
| Q96798960 | Crustal structure of the Imperial Valley region |
| Q97477752 | Crustal structure of the Northwestern Basin and Range Province from the 1986 Program for Array Seismic Studies of the Continental Lithosphere Seismic Experiment |
| Q57876828 | Data report for seismic refraction surveys conducted from 1980 to 1982 in the Livermore Valley and the Santa Cruz Mountains, California |
| Q97447304 | Deep Structure of the Eastern Himalayan Collision Zone: Evidence for Underthrusting and Delamination in the Postcollisional Stage |
| Q101011996 | Deep crustal structure of the Cascade Range and surrounding regions from seismic refraction and magnetotelluric data |
| Q59852423 | Density of the continental roots: compositional and thermal contributions |
| Q73970354 | Density, temperature, and composition of the North American lithosphere-New insights from a joint analysis of seismic, gravity, and mineral physics data: 1. Density structure of the crust and upper mantle |
| Q64854599 | Geophysical framework of the continental United States; Progress, problems, and opportunities for research |
| Q98743102 | Ground‐Motion Prediction Equations for Western Saudi Arabia |
| Q57865148 | Integrated geologic and geophysical studies of North American continental intraplate seismicity |
| Q96271967 | Introduction to Special Section: The Trans-Alaska Crustal Transect (TACT) Across Arctic Alaska |
| Q59907963 | Is the Ordos Basin floored by a trapped oceanic plateau? |
| Q91716946 | Lithospheric Buoyancy and Continental Intraplate Stresses |
| Q59842008 | Mantle origin of the Emeishan large igneous province (South China) from the analysis of residual gravity anomalies |
| Q69661440 | NACr14: A 3D model for the crustal structure of the North American Continent |
| Q59852432 | On the relations between cratonic lithosphere thickness, plate motions, and basal drag |
| Q57982687 | Origin of High Mountains in the Continents: The Southern Sierra Nevada |
| Q63994171 | Pore-fluid migration and the timing of the 2005 M8.7 Nias earthquake |
| Q60710436 | Preface |
| Q65036982 | Preliminary interpretation of seismic-refraction and gravity studies west of Yucca Mountain, Nevada and California |
| Q60957806 | Proceedings of the 1980 workshop of the International Association of Seismology and Physics of the Earth's Interior on the seismic modeling of laterally varying structures; contributions based on data from the 1978 Saudi Arabian refraction profile |
| Q60894681 | Proceedings of the 25th Himalaya-Karakoram-Tibet Workshop |
| Q59852434 | Processes of lithosphere evolution: new evidence on the structure of the continental crust and uppermost mantle |
| Q59835650 | Reflection imaging using earthquake sources: A novel application of reverse vertical seismic profiling (RVSP) |
| Q59835631 | Reflection imaging with earthquake sources and dense arrays |
| Q64830896 | Regional crustal structure and tectonics of the Pacific Coastal States; California, Oregon, and Washington |
| Q61948123 | Regional seismic-wave propagation from the M5.8 23 August 2011, Mineral, Virginia, earthquake |
| Q60697845 | Relocated Hypocenters and Structural Analysis from Waveform Modeling of Aftershocks from the 2011 Prague, Oklahoma, Earthquake Sequence |
| Q60703972 | Results of a reconnaissance microearthquake survey of Bucaramanga, Colombia |
| Q61459653 | Rupture History of the 2008 Mw 7.9 Wenchuan, China, Earthquake: Evaluation of Separate and Joint Inversions of Geodetic, Teleseismic, and Strong‐Motion Data |
| Q57928047 | Saudi Arabian seismic deep-refraction profiles; final project report |
| Q30459458 | Scientific basis for safely shutting in the Macondo Well after the April 20, 2010 Deepwater Horizon blowout |
| Q59852428 | Seismic anisotropy and mantle creep in young orogens |
| Q61469728 | Seismic characteristics of central Brazil crust and upper mantle: A deep seismic refraction study |
| Q61468981 | Seismic evidence for active magmatic underplating beneath the Basin and Range Province, western United States |
| Q64830869 | Seismic methods for determining earthquake source parameters and lithospheric structure |
| Q57725733 | Seismic refraction studies of the Imperial Valley region, California: profile models, a traveltime contour map, and a gravity model |
| Q59846093 | Seismic structure of the crust and uppermost mantle of South America and surrounding oceanic basins |
| Q60547096 | Seismic velocity structure and composition of the continental crust: A global view |
| Q61472154 | Seismic velocity structure of the crust and shallow mantle of the Central and Eastern United States by seismic surface wave imaging |
| Q59852421 | Shear wave velocity, seismic attenuation, and thermal structure of the continental upper mantle |
| Q125906267 | Surface deformations of the 6 February 2023 earthquake sequence, eastern Türkiye |
| Q96798976 | Synthetic seismogram modeling for the laterally varying structure in the central Imperial Valley |
| Q55982950 | The 17 July 2006 Tsunami Earthquake in West Java, Indonesia |
| Q60957781 | The MW 7.0 Haiti Earthquake of January 12, 2010: USGS/EERI Advance Reconnaissance Team Report |
| Q61469289 | The North American upper mantle: Density, composition, and evolution |
| Q97448106 | The crustal structure from the Altai Mountains to the Altyn Tagh fault, northwest China |
| Q97322659 | The crustal structure of the axis of the Great Valley, California, from seismic refraction measurements |
| Q59852440 | Thermal thickness and evolution of Precambrian lithosphere: A global study |
| Q98284166 | Thin, low-velocity crust beneath the southern Yukon-Tanana Terrane, east central Alaska: Results from Trans-Alaska crustal transect refraction/wide-angle reflection data |
| Q60710441 | Three-dimensional crustal structure of the southern Sierra Nevada from seismic fan profiles and gravity modeling |
| Q57532297 | Three-dimensional velocity structure of crust and upper mantle in southwestern China and its tectonic implications |
| Q57725697 | Trans-Alaska Crustal Transect and continental evolution involving subduction underplating and synchronous foreland thrusting |
| Q60710442 | Transition from slab to slabless: Results from the 1993 Mendocino triple junction seismic experiment |
| Q96110893 | Two lithospheric profiles across southern California derived from gravity and seismic data |
| Q59835219 | Two-stage Red Sea rifting inferred from mantle earthquakes in Neoproterozoic lithosphere |
| Q59835221 | Upper mantle velocity structure beneath the Arabian shield from Rayleigh surface wave tomography and its implications |
| Q63495440 | Validation of the rupture properties of the 2001 Kunlun, China (Ms= 8.1), earthquake from seismological and geological observations |
| Q69670279 | Variations of the lithospheric strength and elastic thickness in North America |
| Q97449299 | Weakness of the lower continental crust: a condition for delamination, uplift, and escape |
| Walter D. Mooney | wikipedia |
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