V|1992:1||Bibliography of seismology. 1992 January-June|ISC:28:1:1993
J|0001|Kisslinger,C.|Sizing up the threat||#NAT:355:6355:1992:18-19|Frequency-magnitude relation+b-Value+Magnitude+Hazard|News and views
J|0002|Le Mouel,J-L.+Courtillot,V.+Jault,D.|Changes in Earth rotation rate||#NAT:355:6355:1992:26-27|Coupling+Core-mantle boundary|Scientific correspondence
J|0003|Zhang,Y-S.+Tanimoto,T.|Ridges, hotspots and their interaction as observed in seismic velocity maps||#NAT:355:6355:1992:45-49|Mid-ocean ridge+Velocity structure+S-wave
J|0004|Pacheco,J.F.+Scholz,C.H.+Sykes,L.R.|Changes in frequency-size relationship from small to large earthquakes||#NAT:355:6355:1992:71-73|Frequency-magnitude relation+Magnitude+b-Value+Centroid-moment tensor
J|0005|Johnston,A.C.|Building blocks on shaky ground||#NAT:355:6356:1992:114-115|Source+Intraplate earthquake+Stress-drop+Spectrum|News and views|#*NEWMADRID91
J|0006|Johnston,A.C.|Intraplate not always stable||#NAT:355:6357:1992:213-214|Intraplate earthquake+Faulting+Continental crust+Strain|Scientific correspondence|#*UNGAVA89
J|0007|Snay,R.+Holdahl,S.|Chapman Conference on time-dependent positioning||#EOS:73:3:1992:28|Crustal movement+Faulting+Surface deformation+Modelling|Report of a conference held in Annapolis, September 1991
J|0008|Ellsworth,W.L.|The making of a quake: some surprises from Loma Prieta||#EOS:73:4:1992:44|Loma Prieta+1989+Fault+Source
J|0009|Jacobs,J.A.|Causes of changes in reversals of the Earth's magnetic field: inside or outside the core?||#EOS:73:8:1992:89-91|Geomagnetic field+D"-layer+Core-mantle boundary
J|0010|a-IRIS Steering Committee for Scientific Use of Submarine Cables|Scientific use of submarine telecommunications cables||#EOS:73:9:1992:97-101|IRIS+Ocean-bottom seismometer
J|0011|Benson,W.E.|U.S. involvement in IDNDR discussed||#EOS:73:11:1992:123|IDNDR+United States
J|0012|Baldridge,W.S.+Jiracek,G.R.|SAGE program explores the Rio Grande Rift||#EOS:73:13:1992:145-149|Rio Grande Rift+Vertical seismic profiling+Fault+Magnetotellurics
J|0013|Richards,M.A.+Engebretson,D.C.|Large-scale mantle convection and the history of subduction||#NAT:355:6359:1992:437-440|Mantle convection+Time history+Subduction+Geoid
J|0014|Swinbanks,D.|Tokyo quake||#NAT:355:6360:1992:489|Tokyo+Earthquake+1992+Triple junction|News|#*TOKYO92
J|0015|Hudnut,K.W.|Geodesy tracks plate motion||#NAT:355:6362:1992:681-682|Plate motion+Global Positioning System+Geodetic measurement+San Andreas Fault|News and views
J|0016|Lay,T.|Wrinkles on the inside||#NAT:355:6363:1992:768-769|Earth structure+670km discontinuity+Phase transition+Boundary|News and views
J|0017|Scholz,C.H.|Models of the seismic cycle||#NAT:355:6363:1992:774-775|Model+Prediction+Earthquake cycle+Size|News and views
J|0018|Shearer,P.M.+Masters,T.G.|Global mapping of topography on the 660-km discontinuity||#NAT:355:6363:1992:791-796|Mapping+670km discontinuity+SS-wave+Subduction
J|0019|Purdy,G.M.+Kong,L.S.L.+Christeson,G.L.+|Relationship between spreading rate and the seismic structure of mid-ocean ridges||#NAT:355:6363:1992:815-817|Mid-ocean ridge+Sea-floor spreading+Temperature+Low-velocity layer
J|0020|Perry,A.H.|Wedded to calamity. Review of `Natural hazards' by E. A. Bryant||#NAT:356:6365:1992:119-120|Review+Hazard+Natural disaster
J|0021|Gwyther,R.L.+Gladwin,M.T.+Hart,R.H.G.|A shear-strain anomaly following the Loma Prieta earthquake||#NAT:356:6365:1992:142-144|Shear+Strain+Creep+San Andreas Fault||#*LOMAPRIETA89
J|0022|Butler,R.|Technology defeats geology. Review of `Journey to the centre of the Earth: a new geology' by M. Redfern||#NSC:-:1807:1992:52|Review+Seismology+Earth structure+Geology
J|0023|Gable,C.W.|1991 LANL mantle convection workshop||#EOS:73:14:1992:155|Mantle convection+D" region+Velocity|Report of a workshop held at Los Alamos, July 1991 and at Weilburg, August 1991
J|0024|Swanson,D.A.+Malone,S.D.+Samora,B.A.|Mount Rainier: a decade volcano||#EOS:73:16:1992:177-186|Volcano+Washington State+Activity+Seismicity
J|0025|McBride,J.H.+White,R.S.|Oceanic crust deep seismic survey||#EOS:73:16:1992:183|Deep seismic sounding+Oceanic crust+Cape Verde+BIRPS
J|0026|Bolt,B.A.|International earthquake hazard program underway||#EOS:73:16:1992:183-184|IDNDR+Hazard+IASPEI
J|0027|Butler,R.|A picture of history. Review of `Geological map of the world' published by UNESCO||#NSC:-:1811:1992:50|Review+Map+Geology+Plate tectonics
J|0028|Anderson,I.|Earthquake tension builds up in California||#NSC:-:1816:1992:15|California+Strain+Instrument+Monitoring||#*LOMAPRIETA89
J|0029||Dutch quake wakes northern Europe||#NSC:-:1817:1992:5|Earthquake+1992+Netherlands||#*ROERMOND92
J|0030|Thomas,J.|We want richters||#NSC:-:1817:1992:49|Richter+Magnitude scale|Letter to the editor
J|0031||Europe goes bump in the night||#NSC:-:1818:1992:10|Seismogram+Germany+Epicentre+Netherlands|In brief|#*ROERMOND92
J|0032|Jacobs,J.A.|The Earth's core in a nutshell||#NAT:356:6367:1992:286-287|Core+Solid-earth geophysics+Geomagnetism+Heat flow|News and views
J|0033|Creager,K.C.|Anisotropy of the inner core from differential travel times of the phases PKP and PKIKP||#NAT:356:6367:1992:309-314|Anisotropy+Inner core+Travel-times+PKP-wave+PKIKP-wave
J|0034|Buffett,B.A.+Huppert,H.E.+Lister,J.R.+|Analytical model for solidification of the Earth's core||#NAT:356:6367:1992:329-331|Core+Inner core+Thermal history+Solidification
J|0035|Stein,S.|Seismic gaps and grizzly bears||#NAT:356:6368:1992:387-388|Seismic gap+Plate boundary+Risk+Prediction+Clustering|News and views
J|0036|Swinbanks,D.|Trying to shake Japan's faith in forecasts||#NAT:356:6369:1992:464-465|Prediction+Volcano+Research+Japan|News
J|0037|Smith,P.J.|Worldly wise. Review of `Encyclopedia of Earth system science. Volumes 1-4' edited by W. A. Nierenberg||#NAT:356:6369:1992:486|Review+Earth sciences+Volcanic tremor
J|0038|Larson,R.L.+Searle,R.C.+Kleinrock,M.C.+|Roller-bearing tectonic evolution of the Juan Fernandez microplate||#NAT:356:6370:1992:571-576|Juan Fernandez microplate+Evolution+Triple junction+Marine geophysical investigation
J|0039|Iidaka,T.+Suetsugu,D.|Seismological evidence for metastable olivine inside a subducting slab||#NAT:356:6370:1992:593-595|Olivine+Slab+Subduction+Pacific plate
J|0040|Runcorn,S.K.|Polar path in geomagnetic reversals||#NAT:356:6371:1992:654-656|D"-layer+Geomagnetic variation+Core-mantle boundary+Electrical conductivity
J|0041|Shearer,P.|A mantle thermometer||#NAT:356:6371:1992:662-663|Subduction+Mantle+Teleseism+Discontinuity|News and views
J|0042|Vidale,J.E.+Benz,H.M.|Upper-mantle seismic discontinuities and the thermal structure of subduction zones||#NAT:356:6371:1992:678-682|Upper mantle+Discontinuity+Subduction+Thermal structure||#*BONIN91|#*ARGENTINA87|#*FIJI86
J|0043|Anderson,C.|Quake news quickest||#NAT:356:6372:1992:735|California+Earthquake|News|#*JOSHUATREE92
J|0044||Earthquake centre builds its defences||#NSC:-:1819:1992:6|California+Earthquake|This week
J|0045|Hamer,M.|Quake risk shakes oil rig designers||#NSC:-:1819:1992:10|Hazard+North Sea+Oil rig+Magnitude|This week|#*ROERMOND92
J|0046|Stewart,I.|In pursuit of science's holy grail. Review of `Searching for certainty' by J. Casti||#NSC:-:1819:1992:43|Review+Prediction
J|0047|Richards,P.G.+Kim,W-Y.+Ekstrom,G.|Borovoye geophysical observatory, Kazakhstan||#EOS:73:18:1992:201-206|Kazakhstan+Seismograph station+Digital recording+Nuclear explosion
J|0048|Murton,B.J.+Rouse,I.P.+Millard,N.W.+|Multisensor, deep-towed instrument explores ocean floor||#EOS:73:20:1992:225-228|Bathymetry+Instrument+Marine geophysical investigation
J|0049|Bowler,S.|News travels fast after Californian quakes||#NSC:-:1821:1992:19|California+Data acquisition+System+Personal computer|Technology
J|0050|Cope,J.C.W.|The first billion years of the British Isles||#NSC:-:1824:1992:28-32|Evolution+British Isles+Geology+Plate tectonics
J|0051|Bowler,S.|Cooking up a storm. Review of `How the Earth works' by J. Farndom||#NSC:-:1826:1992:42|Review+Earthquake+Earth+Process
J|0052|Main,I.G.|Earthquake scaling||#NAT:357:6373:1992:27-28|Frequency-magnitude relation+Magnitude scale+b-Value+California|Scientific correspondence
J|0053|Michael,A.|Three's a crowd in California||#NAT:357:6374:1992:111-112|Triple junction+California+Interplate earthquake+Tectonics|News and views|#*PETROLIA92A|#*PETROLIA92B|#*PETROLIA92C
J|0054|Bloomer,S.H.+Meyer,P.S.|Slimline magma chambers||#NAT:357:6374:1992:117-118|Magma chamber+Mid-ocean ridge+Oceanic crust+Melt|News and views
J|0055|Das,S.|Reactivation of an oceanic fracture by the Macquarie Ridge earthquake of 1989||#NAT:357:6374:1992:150-153|1989+Earthquake+Macquarie Ridge+Oceanic fracture||#*MACQUARIE89
J|0056||In the air||#NAT:357:6375:1992:192|Eruption+Volcano+Atmosphere+Air wave|News and views
J|0057|Delaney,P.T.|You can pile it only so high||#NAT:357:6375:1992:194-196|Mount Etna+Volcano+Activity+Landslide|News and views
J|0058|Sornette,D.+Virieux,J.|Linking short-timescale deformation to long-timescale tectonics||#NAT:357:6377:1992:401-404|Deformation+Tectonics+Noise+b-Value
J|0059|De Wit,M.J.+Roering,C.+Hart,R.J.+|Formation of an Archaean continent||#NAT:357:6379:1992:553-562|Tectonics+Craton+South Africa+Continent|Review article
J|0060|Bell,R.E.+Buck,W.R.|Crustal control of ridge segmentation inferred from observations of the Reykjanes Ridge||#NAT:357:6379:1992:583-586|Reykjanes+Mid-Atlantic Ridge+Crustal thickness+Segmentation
J|0061|Schwartz,S.Y.|Earthquake mobilization plan tested||#EOS:73:26:1992:277-278|IRIS+1992+Earthquake+California+Instrumentation||#*JOSHUATREE92|#*PETROLIA92A
J|0062|Zelt,C.A.+Smith,R.B.|Seismic traveltime inversion for 2-D crustal velocity structure||#GJI:108:1:1992:16-34|Inversion+Travel-times+Velocity+Ray tracing
J|0063|Bostock,M.G.+Kennett,B.L.N.|Multiple scattering of surface waves from discrete obstacles||#GJI:108:1:1992:52-70|Surface wave+Multiple scattering+Regional phase+Obstacle
J|0064|Badal,J.+Corchete,V.+Payo,G.+|Deep structure of the Iberian Peninsula determined by Rayleigh wave velocity inversion||#GJI:108:1:1992:71-88|Deep structure+Iberian Peninsula+Rayleigh wave+Inversion
J|0065|Douglas,A.|Q for short-period P-waves: is it frequency-dependent?||#GJI:108:1:1992:110-124|Q+P-wave+Deconvolution+Frequency
J|0066|Freund,D.|Ultrasonic compressional and shear velocities in dry clastic rocks as a function of porosity, clay content, and confining pressure||#GJI:108:1:1992:125-135|Ultrasonics+Velocity+Porosity+Sedimentary rock
J|0067|Johnson,E.|The influence of the lithospheric thickness on bilateral slip||#GJI:108:1:1992:151-160|Lithosphere+Source+Fault plane+Slip
J|0068|Preisig,J.R.|Polar motion, atmospheric angular momentum excitation and earthquakes - correlations and significance||#GJI:108:1:1992:161-178|Large earthquake+Polar motion+Atmosphere+Interferometry
J|0069|Doornbos,D.J.|Diffraction and seismic tomography||#GJI:108:1:1992:256-266|Tomography+Diffraction+Scattering+Perturbation
J|0070|Bottari,A.+Caccamo,D.+Neri,G.|An example of seismic occurrence modelling by a several-state random process||#GJI:108:1:1992:267-272|Microseismicity+Sicily+Statistics+Occurrence
J|0071|Taymaz,T.|Observations on source time functions of earthquakes obtained from inversion of teleseismic body waveforms||#GJI:108:1:1992:273-280|Inversion+Waveform+Source-time function+Body wave
J|0072|Sen,M.K.+Stoffa,P.L.|Rapid sampling of model space using genetic algorithms: examples from seismic waveform inversion||#GJI:108:1:1992:281-292|Inversion+Waveform+Sampling+Model
J|0073|Dorbath,L.+Dorbath,C.+Rivera,L.+|Geometry, segmentation and stress regime of the Spitak (Armenia) earthquake from the analysis of the aftershock sequence||#GJI:108:1:1992:309-328|Aftershock+Spitak+1988+Stress||#*ARMENIA88
J|0074|Thomson,C.J.+Kendall,J-M.+Guest,W.S.|Geometrical theory of shear-wave splitting: corrections to ray theory for interference in isotropic/anisotropic transitions||#GJI:108:1:1992:339-363|Body wave+Shear wave splitting+Waveform+Interference
J|0075|Kendall,J-M.+Guest,W.S.+Thomson,C.J.|Ray-theory Green's function reciprocity and ray-centred coordinates in anisotropic media||#GJI:108:1:1992:364-371|Body wave+Point source+Ray theory+Anisotropy|Research note
J|0076|Guest,W.S.+Thomson,C.J.+Kendall,J-M.|Displacements and rays for splitting S-waves: perturbation theory and the failure of the ray method||#GJI:108:1:1992:372-378|Body wave+Ray theory+Polarization+Shear wave splitting|Research note
J|0077|Console,R.+Di Giovambattista,R.+Favali,P.+|Seismogenic structures activated during the 1987 seismic sequences along the Adriatic coast||#GJI:108:1:1992:379-386|Adriatic+Sequence+1987+Seismogenesis|Research note|#*MARCHE87
J|0078|Kruger,F.+Weber,M.|The effect of low-velocity sediments on the mislocation vectors of the GRF array||#GJI:108:1:1992:387-393|Grafenberg+Tomography+Sediment+Location|Research note
J|0079|Douglas,A.+Sheehan,A.F.+Stewart,R.C.|On the onset of PP and other mini-max phases||#GJI:108:1:1992:394-398|PP-wave+Hilbert transform+Mini-max phase+Onset|Research note
J|0080|Won,J.S.+Moon,W.M.|Inversion of synthetic aperture radar data for surface scattering||#GJI:108:2:1992:423-432|Kirchhoff method+Scattering+Inversion+Wave field
J|0081|Carcione,J.M.|Rayleigh waves in isotropic viscoelastic media||#GJI:108:2:1992:453-464|Energy+Rayleigh wave+Viscoelasticity+Isotropic medium
J|0082|Smylie,D.E.+Jiang,X.+Brennan,B.J.+|Numerical calculation of modes of oscillation of the Earth's core||#GJI:108:2:1992:465-490|Numerical analysis+Core+Oscillation+Mode
J|0083|Crossley,D.J.+Rochester,M.G.|The subseismic approximation in core dynamics||#GJI:108:2:1992:502-506|Core+Dynamics+Oscillation+Approximation
J|0084|Jackson,I.+Paterson,M.S.+Fitz Gerald,J.D.|Seismic wave dispersion and attenuation in Aheim dunite: an experimental study||#GJI:108:2:1992:517-534|Attenuation+Crack+Olivine+Seismic waves
J|0085|Rekdal,T.+Doornbos,D.J.|The times and amplitudes of core phases for a variable core-mantle boundary layer||#GJI:108:2:1992:546-556|Core-mantle boundary+Core phase+Synthetic seismogram+Tomography
J|0086|Kuo,B-Y.+Forsyth,D.W.|A search for split SKS waveforms in the North Atlantic||#GJI:108:2:1992:557-574|SKS-wave+Waveform+North Atlantic+Upper mantle
J|0087|Jin,S.+Madariaga,R.+Virieux,J.+|Two-dimensional asymptotic iterative elastic inversion||#GJI:108:2:1992:575-588|Inversion+Reflexion study
J|0088|Taymaz,T.+Price,S.|The 1971 May 12 Burdur earthquake sequence, SW Turkey: a synthesis of seismological and geological observation||#GJI:108:2:1992:589-603|Turkey+1971+Sequence+Waveform
J|0089|Jech,J.+Psencik,I.|Kinematic inversion for qP- and qS-waves in inhomogeneous hexagonally symmetric structures||#GJI:108:2:1992:604-612|Travel-times+Inversion+qP-wave+qS-wave
J|0090|Tessmer,E.+Kosloff,D.+Behle,A.|Elastic wave propagation simulation in the presence of surface topography||#GJI:108:2:1992:621-632|Surface+Topography+Numerical modelling+Propagation
J|0091|Barnes,A.E.+Reston,T.J.|A study of two mid-crustal bright spots from southeast Georgia (USA)||#GJI:108:2:1992:683-691|Reflexion study+Georgia+Bright spot+Crust
J|0092|Tozer,D.C.|Review of `Introduction to the physics of the Earth's interior' by J. P. Poirier||#GJI:108:2:1992:697-698|Review+Physics+Earth structure+Seismology|Cambridge University Press, Cambridge, 1991
J|0093|Olsen,K.H.|Review of `Super-deep continental drilling and deep geophysical sounding' edited by K. Fuchs, Ye. A. Kozlovsky, A. I. Krivtsov and M. D. Zoback||#GJI:108:2:1992:699-700|Review+Drilling+Deep seismic sounding+Geophysical investigation|Springer-Verlag, Berlin, 1990, 436p.
J|0094|Aster,R.C.+Shearer,P.M.|Initial shear wave particle motions and stress constraints at the Anza seismic network||#GJI:108:3:1992:740-748|Anisotropy+Shear wave+Stress+Anza
J|0095|Zobin,V.M.+Ivanova,E.I.|Aftershocks of shallow earthquakes near Kamchatka Peninsula||#GJI:108:3:1992:749-757|Aftershock+Shallow earthquake+Kamchatka+1962-1987
J|0096|Arvidsson,R.+Wahlstrom,R.+Kulhanek,O.|Deep-crustal earthquakes in the southern Baltic Shield||#GJI:108:3:1992:767-777|Deep crust+Baltic Shield+Focal mechanism+Source parameter
J|0097|Fehler,M.+Hoshiba,M.+Sato,H.+|Separation of scattering and intrinsic attenuation for the Kanto-Tokai region, Japan, using measurements of S-wave energy versus hypocentral distance||#GJI:108:3:1992:787-800|S-wave+Scattering+Attenuation+Kanto-Tokai
J|0098|Durrheim,R.J.+Green,R.W.E.|A seismic refraction investigation of the Archaean Kaapvaal Craton, South Africa, using mine tremors as the energy source||#GJI:108:3:1992:812-832|Witwatersrand+Refraction study+Mine tremor+Craton
J|0099|Kennett,B.L.N.|Locating oceanic earthquakes - the influence of regional models and location criteria||#GJI:108:3:1992:848-854|Location+Ocean+Regional model+Travel-times
J|0100|Davies,J.H.+Gudmundsson,O.+Clayton,R.W.|Spectra of mantle shear wave velocity structure||#GJI:108:3:1992:865-882|Shear wave+Mantle+Spectrum+Velocity structure
J|0101|Merzer,A.M.+Klemperer,S.L.|High electrical conductivity in a model lower crust with unconnected, conductive, seismically reflective layers||#GJI:108:3:1992:895-905|Continental crust+Conductivity+Reflexion study+Profiling
J|0102|Pant,D.R.+Greenhalgh,S.A.+Zhou,B.|Physical and numerical model study of diffraction effects on seismic profiles over simple structures||#GJI:108:3:1992:906-916|Diffraction+Migration+Modelling+Resolution
J|0103|Lomnitz-Adler,J.|Interplay of fault dynamics and fractal dimension in determining Gutenberg & Richter's b-value||#GJI:108:3:1992:941-944|Moment+Fractal dimension+b-Value+San Andreas Fault
J|0104|Chapman,C.H.+Pratt,R.G.|Traveltime tomography in anisotropic media - I. Theory||#GJI:109:1:1992:1-19|Travel-times+Tomography+Anisotropy+Perturbation theory
J|0105|Pratt,R.G.+Chapman,C.H.|Traveltime tomography in anisotropic media - II. Application.||#GJI:109:1:1992:20-37|Travel-times+Tomography+Anisotropy+Regularization
J|0106|Eneva,M.+Hamburger,M.W.+Popandopulo,G.A.|Spatial distribution of earthquakes in aftershock zones of the Garm region, Soviet Central Asia||#GJI:109:1:1992:38-53|Aftershock+Garm+Spatial distribution+1969-1987
J|0107|Emmerich,H.|PSV-wave propagation in a medium with local heterogeneities: a hybrid formulation and its application||#GJI:109:1:1992:54-64|P-wave+Propagation+Absorption+Scattering
J|0108|Ringdal,F.+Marshall,P.D.+Alewine,R.W.|Seismic yield determination of Soviet underground nuclear explosions at the Shagan River test site||#GJI:109:1:1992:65-77|Shagan River Test Site+Nuclear explosion+Magnitude+Yield
J|0109|Pinheiro,L.M.+Whitmarsh,R.B.+Miles,P.R.|The ocean-continent boundary off the western continental margin of Iberia - II. Crustal structure in the Tagus abyssal plain||#GJI:109:1:1992:106-124|Refraction study+Iberia+Crustal structure+Continental margin
J|0110|Rydelek,P.A.+Sacks,I.S.+Scarpa,R.|On tidal triggering of earthquakes at Campi Flegrei, Italy||#GJI:109:1:1992:125-137|Tide+Triggering+Campi Flegrei+Phlegraean Fields
J|0111|Farra,V.|Bending method revisited: a Hamiltonian approach||#GJI:109:1:1992:138-150|Ray tracing+Perturbation+Bending+Anisotropic medium
J|0112|Haessler,H.+Deschamps,A.+Dufumier,H.+|The rupture process of the Armenian earthquake from broad-band teleseismic body wave records||#GJI:109:1:1992:151-161|Spitak+1988+Rupture+Body wave||#*ARMENIA88
J|0113|Fitas,A.J.S.+Mendes-Victor,L.A.|Rayleigh waves normally incident at a continental boundary||#GJI:109:1:1992:171-182|Continental margin+Iberian Peninsula+Rayleigh wave+Dispersion
J|0114|Stange,S.+Friederich,W.|Guided wave propagation across sharp lateral heterogeneities: the complete wavefield at plane vertical discontinuities||#GJI:109:1:1992:183-190|Guided wave+Propagation+Lateral heterogeneity+Wave field
J|0115|Mat-Isa,A.R.+Usher,M.J.|An angular accelerometer for reducing the effects of tilt in seismic records||#GJI:109:1:1992:197-208|Tilt+Seismometer+Accelerometer+Seismic record
J|0116|Oura,A.+Yoshida,S.+Kudo,K.|Rupture process of the Ito-Oki, Japan, earthquake of 1989 July 9 and interpretation as a trigger of volcanic eruption||#GJI:109:2:1992:241-248|Rupture+Trigger+Eruption+Japan+1989+Earthquake||#*OFFIZUPEN89B
J|0117|Tongue,J.A.|Tomographic study of local earthquake data from the Lake Bogoria region of the Kenya rift valley||#GJI:109:2:1992:249-258|Inversion+Kenya+Velocity structure+KRISP
J|0118|Sileny,J.+Panza,G.F.+Campus,P.|Waveform inversion for point source moment tensor retrieval with variable hypocentral depth and structural model||#GJI:109:2:1992:259-274|Waveform+Inversion+Moment tensor+Model||#*FRIULI87
J|0119|Woodward,R.L.+Masters,G.|Upper mantle structure from long-period differential traveltimes and free oscillation data||#GJI:109:2:1992:275-293|Body wave+Upper mantle+Free oscillation+Travel-times
J|0120|Snieder,R.+Sambridge,M.S.|Ray perturbation theory for traveltimes and ray paths in 3-D heterogeneous media||#GJI:109:2:1992:294-322|Perturbation+Ray tracing+Tomography+Heterogeneous medium
J|0121|Sambridge,M.S.+Drijkoningen,G.G.|Genetic algorithms in seismic waveform inversion||#GJI:109:2:1992:323-342|Waveform+Inversion+Genetic algorithm+Refraction study
J|0122|Yabuki,T.+Matsu'ura,M.|Geodetic data inversion using a Bayesian information criterion for spatial distribution of fault slip||#GJI:109:2:1992:363-375|Fault+Slip+Geodetic measurement+Bayesian method
J|0123|Westaway,R.|Revised hypocentre and fault rupture geometry for the 1980 November 23 Campania-Basilicata earthquake in southern Italy||#GJI:109:2:1992:376-390|Campania-Basilicata+1980+Hypocentre+Fault+Earthquake||#*CAMPANIA
J|0124|Cummins,P.R.|Seismic body waves in a 3-D, slightly aspherical Earth - I: testing the Born approximation||#GJI:109:2:1992:391-410|Body wave+Born approximation+Lateral heterogeneity+Synthetic seismogram
J|0125|Bostock,M.G.|Reflection and transmission of surface waves in laterally varying media||#GJI:109:2:1992:411-436|Lateral heterogeneity+Surface wave+Reflexion+Transmission
J|0126|Burov,E.B.+Diament,M.|Flexure of the continental lithosphere with multilayered rheology||#GJI:109:2:1992:449-468|Deep-focus earthquake+Continental lithosphere+Flexural modelling+Rheology
J|0127|Rani,S.+Singh,S.J.|Static deformation of a uniform half-space due to a long dip-slip fault||#GJI:109:2:1992:469-476|Dip-slip+Half-space+Fault+Deformation|Research note
J|0128|McCann,D.M.|Review of `Applied geophysics' by W. M. Telford, L. P. Geldart and R. E. Sheriff||#GJI:109:2:1992:477|Review+Geophysics+Seismic exploration|Cambridge University Press, Cambridge, 1991
J|0129|Tarling,D.H.|Review of `Continents in motion: the New Earth debate' by W. Sullivan||#GJI:109:2:1992:479|Review+Plate tectonics+Continental drift+Tomography|Adam Hilger & American Institute of Physics, 1991
J|0130|Molchan,G.M.+Dmitrieva,O.E.|Aftershock identification: methods and new approaches||#GJI:109:3:1992:501-516|Aftershock+Cluster+Identification+Loss
J|0131|Katz,S.+Henyey,T.|Post-stack diffraction-type migration of the signal component of the wavefield||#GJI:109:3:1992:517-524|Diffraction+Migration+Noise+Signal-to-noise ratio
J|0132|Cao,S.+Greenhalgh,S.A.|Finite-difference simulation of P-SV-wave propagation: a displacement-potential approach||#GJI:109:3:1992:525-535|Boundary condition+Absorption+Elastic wave+Finite difference method
J|0133|De Voogd,B.+Truffert,C.+Chamot-Rooke,N.+|Two-ship deep seismic soundings in the basins of the eastern Mediterranean Sea (Pasiphae cruise)||#GJI:109:3:1992:536-552|Marine seismic investigation+Crustal structure+Mediterranean+Velocity profile
J|0134|Tromp,J.+Dahlen,F.A.|Variational principles for surface wave propagation on a laterally heterogeneous Earth - I. Time-domain JWKB theory||#GJI:109:3:1992:581-598|Lateral heterogeneity+Surface wave+Propagation+Time domain
J|0135|Tromp,J.+Dahlen,F.A.|Variational principles for surface wave propagation on a laterally heterogeneous Earth - II. Frequency-domain JWKB theory||#GJI:109:3:1992:599-619|Frequency domain+Lateral heterogeneity+Surface wave+Propagation
J|0136|Chung,T.W.|A quantitative study of seismic anisotropy in the Yamato Basin, the southeastern Japan Sea, from refraction data collected by an ocean bottom seismographic array||#GJI:109:3:1992:620-638|Anisotropy+Upper mantle+Yamato Basin+Ocean-bottom seismograph
J|0137|Hurukawa,N.+Imoto,M.|Subducting oceanic crusts of the Philippine Sea and Pacific plates and weak-zone-normal compression in the Kanto district, Japan||#GJI:109:3:1992:639-652|Subduction+Oceanic crust+Joint hypocentre determination+Philippine Sea+Pacific plate+Kanto
J|0138|Neele,F.+Snieder,R.|Topography of the 400 km discontinuity from observations of long-period P400P phases||#GJI:109:3:1992:670-682|Body wave+Lateral heterogeneity+Upper mantle+Topography
J|0139|Sinton,J.M.+Detrick,R.S.|Mid-ocean ridge magma chambers||#JGR:97:1:1992:197-216|Magma chamber+Mid-ocean ridge+Tomography+Reflexion study
J|0140|Lallemand,S.E.+Schnurle,P.+Manoussis,S.|Reconstruction of subduction zone paleogeometries and quantification of upper plate material losses caused by tectonic erosion||#JGR:97:1:1992:217-239|Subduction zone+Erosion+Tectonics+Velocity
J|0141|Hawman,R.B.+Phinney,R.A.|Structure of the crust and upper mantle beneath the Great Valley and Allegheny Plateau of eastern Pennsylvania 1. Comparison of linear inversion methods for sparse wide-angle reflection data||#JGR:97:1:1992:371-391|Structure+Crust+Upper mantle+Pennsylvania+Reflexion study
J|0142|Gaherty,J.B.+Lay,T.|Investigation of laterally heterogeneous shear velocity structure in D" beneath Eurasia||#JGR:97:1:1992:417-435|Shear wave+Structure+D" region+Eurasia
J|0143|Bryant,A.S.+Jones,L.M.|Anomalously deep crustal earthquakes in the Ventura Basin, southern California||#JGR:97:1:1992:437-447|Deep crust+Southern California+Seismicity+Mohorovicic discontinuity
J|0144|Byrne,D.E.+Sykes,L.R.+Davis,D.M.|Great thrust earthquakes and aseismic slip along the plate boundary of the Makran subduction zone||#JGR:97:1:1992:449-478|Makran+Great earthquake+Slip+Plate boundary
J|0145|Shaw,B.E.+Carlson,J.M.+Langer,J.S.|Patterns of seismic activity preceding large earthquakes||#JGR:97:1:1992:479-488|Pattern+Seismicity+Large earthquake+San Francisco Bay
J|0146|Ishida,M.|Geometry and relative motion of the Philippine Sea plate and Pacific plate beneath the Kanto-Tokai district, Japan||#JGR:97:1:1992:489-513|Geometry+Plate motion+Kanto-Tokai+P-wave
J|0147|Lamb,F.K.+Callen,B.W.+Sullivan,J.D.|An approximate analytical model of shock waves from underground nuclear explosions||#JGR:97:1:1992:515-535|Underground nuclear explosion+Shock wave+Model+Homogeneous medium
J|0148|Zhang,Z.+Schwartz,S.Y.|Depth distribution of moment release in underthrusting earthquakes at subduction zones||#JGR:97:1:1992:537-544|Depth+Moment+Subduction zone+Thrust
J|0149|Steacy,S.J.+Sammis,C.G.|A damage mechanics model for fault zone friction||#JGR:97:1:1992:587-594|Mechanics+Fault+Friction+Instability
J|0150|Kong,L.S.L.+Solomon,S.C.+Purdy,G.M.|Microearthquake characteristics of a mid-ocean ridge along-axis high||#JGR:97:2:1992: 1659-1685|Microearthquake+Mid-Atlantic Ridge+Marine seismic investigation+Hypocentre
J|0151|White,N.|A method for automatically determining normal fault geometry at depth||#JGR:97:2:1992:1715-1733|Normal fault+Depth+Geometry+Reflexion study
J|0152|Rubin,A.M.|Dike-induced faulting and graben subsidence in volcanic rift zones||#JGR:97:2:1992:1839-1858|Faulting+Subsidence+Rift+Dike
J|0153|Chester,F.M.+Higgs,N.G.|Multimechanism friction constitutive model for ultrafine quartz gouge at hypocentral conditions||#JGR:97:2:1992:1859-1870|Friction+Instability+Quartz+Hypocentre
J|0154|Atwater,B.F.|Geologic evidence for earthquakes during the past 2000 years along the Copalis River, southern coastal Washington||#JGR:97:2:1992:1901-1919|Washington State+Palaeoseismicity+Geology+Subsidence
J|0155|Beaudoin,B.C.+Fuis,G.S.+Mooney,W.D.+|Thin, low-velocity crust beneath the southern Yukon-Tanana terrane, east central Alaska: results from trans-Alaska crustal transect refraction/wide-angle reflection data||#JGR:97:2:1992:1921-1942|Transect+Alaska+Crustal structure+Seismic survey
J|0156|Ben-Zion,Y.+Katz,S.+Leary,P.C.|Joint inversion of fault zone head waves and direct P arrivals for crustal structure near major faults||#JGR:97:2:1992:1943-1951|Fault+Crustal structure+Head wave+P-wave
J|0157|Sampaio,E.E.S.+Fokkema,J.T.|Scattering of monochromatic acoustic and electromagnetic plane waves by two quarter spaces||#JGR:97:2:1992:1953-1963|Scattering+Acoustic wave+Quarter-space+Exploration
J|0158|Zeller,S.S.+Pollard,D.D.|Boundary conditions for rock fracture analysis using the boundary element method||#JGR:97:2:1992:1991-1997|Boundary condition+Fracture+Boundary element method+Crack
J|0159|Martinod,J.+Davy,P.|Periodic instabilities during compression or extension of the lithosphere 1. Deformation modes from an analytical perturbation method||#JGR:97:2:1992:1999-2014|Instability+Lithosphere+Deformation+Perturbation theory
J|0160|Davies,J.H.+Stevenson,D.J.|Physical model of source region of subduction zone volcanics||#JGR:97:2:1992:2037-2070|Subduction zone+Source+Magmatism+Thermal model
J|0161|Genrich,J.F.+Bock,Y.|Rapid resolution of crustal motion at short ranges with the Global Positioning System||#JGR:97:3:1992:3261-3269|Crustal movement+Global Positioning System+San Andreas Fault+Resolution
J|0162|Tushingham,A.M.+Peltier,W.R.|Validation of the ICE-3G model of Wurm-Wisconsin deglaciation using a global data base of relative sea level histories||#JGR:97:3:1992:3285-3304|Earth model+Velocity structure+Sea level+Mantle
J|0163|Yang,X.+Davis,P.M.+Delaney,P.T.+|Geodetic analysis of dike intrusion and motion of the magma-reservoir beneath the summit of Kilauea Volcano, Hawaii: 1970-1985||#JGR:97:3:1992:3305-3324|Geodetic survey+Kilauea+Magma chamber+Seismicity
J|0164|Sano,O.+Kudo,Y.+Mizuta,Y.|Experimental determination of elastic constants of Oshima granite, Barre granite, and Chelmsford granite||#JGR:97:3:1992:3367-3379|Granite+Elasticity+Anisotropy+Velocity
J|0165|Wu,H.+Pollard,D.D.|Propagation of a set of opening-mode fractures in layered brittle materials under uniaxial strain cycling||#JGR:97:3:1992:3381-3396|Propagation+Fracture+Layered medium+Laboratory
J|0166|Campillo,M.+Paul,A.|Influence of the lower crustal structure on the early coda of regional seismograms||#JGR:97:3:1992:3405-3416|Crustal structure+Coda+Seismogram+Lg-wave
J|0167|Hole,J.A.+Clowes,R.M.+Ellis,R.M.|Interface inversion using broadside seismic refraction data and three-dimensional travel time calculations||#JGR:97:3:1992:3417-3429|Refraction study+Queen Charlotte Islands+Inversion+Sedimentary basin
J|0168|Abramovici,F.|The double integral solution of seismic problems||#JGR:97:3:1992:3431-3441|Theoretical seismology+Mathematical method+Propagator matrix
J|0169|Toft,P.B.+Arkani-Hamed,J.|Magnetization of the Pacific Ocean lithosphere deduced from magsat data||#JGR:97:4:1992:4387-4406|Magnetism+Pacific Ocean+Lithosphere+Mohorovicic discontinuity
J|0170|Shipley,T.H.+McIntosh,K.D.+Silver,E.A.+|Three-dimensional seismic imaging of the Costa Rica accretionary prism: structural diversity in a small volume of the lower slope||#JGR:97:4:1992:4439-4459|Imaging+Costa Rica+Accretionary prism+Reflexion study
J|0171|Duffy,T.S.+Ahrens,T.J.|Sound velocities at high pressure and temperature and their geophysical implications||#JGR:97:4:1992:4503-4520|Velocity+High temperature+High pressure+Tomography
J|0172|Crase,E.+Wideman,C.+Noble,M.+|Nonlinear elastic waveform inversion of land seismic reflection data||#JGR:97:4:1992:4685-4703|Reflexion study+Waveform+Nonlinear inversion+Elastic wave
J|0173|Lee,M.W.+Hutchinson,D.R.|Limitations of quantitative analysis of deep crustal seismic reflection data: examples from GLIMPCE||#JGR:97:4:1992:4705-4719|Reflexion study+GLIMPCE+Great Lakes+1986
J|0174|Hutchinson,D.R.+Lee,M.W.+Behrendt,J.C.+|Variations in the reflectivity of the Moho transition zone beneath the midcontinent rift system of North America: results from true amplitude analysis of GLIMPCE data||#JGR:97:4:1992:4721-4737|GLIMPCE+Great Lakes+Reflexion study+Mohorovicic discontinuity
J|0175|Ewing,J.+Carter,J.A.+Sutton,G.R.|Shallow water sediment properties derived from high-frequency shear and interface waves||#JGR:97:4:1992:4739-4762|Sediment+Shear wave+Interface+Acoustics
J|0176|Wyss,M.+Gillard,D.+Liang,B-Y.|An estimate of the absolute stress tensor in Kaoiki, Hawaii||#JGR:97:4:1992:4763-4768|Kaoiki+Stress+Volcanic tremor+Modelling
J|0177|Wyss,M.+Liang,B-Y.+Tanigawa,W.R.+|Comparison of orientations of stress and strain tensors based on fault plane solutions in Kaoiki, Hawaii||#JGR:97:4:1992:4769-4790|Kaoiki+Stress+Strain+Fault plane solution
J|0178|Benz,H.M.+Zandt,G.+Oppenheimer,D.H.|Lithospheric structure of northern California from teleseismic images of the upper mantle||#JGR:97:4:1992:4791-4807|Lithosphere+California+Image+Upper mantle
J|0179|Fukao,Y.+Obayashi,M.+Inoue,H.+|Subducting slabs stagnant in the mantle transition zone||#JGR:97:4:1992:4809-4822|Western Pacific+Subduction+Tomography+Slab+ISC
J|0180|Molchan,G.M.+Kagan,Y.Y.|Earthquake prediction and its optimization||#JGR:97:4:1992:4823-4838|Prediction+Geophysical data+California
J|0181|Delaney,P.T.+Wyss,M.+Lipman,P.W.+|Comment on `Precursors to the Kalapana M = 7.2 earthquake' by M. Wyss, F. W. Klein and A. C. Johnston||#JGR:97:4:1992:4839-4841|Comments+Precursor+Hawaii+1975||#*HILO
J|0182|Ekstrom,G.+Stein,R.S.+Eaton,J.P.+|Seismicity and geometry of a 110-km-long blind thrust fault 1. The 1985 Kettleman Hills, California, earthquake||#JGR:97:4:1992:4843-4864|Seismicity+Geometry+Thrust fault+California+Earthquake+1985||#*KETTLEMAN85
J|0183|Stein,R.S.+Ekstrom,G.|Seismicity and geometry of a 110-km-long blind thrust fault 2. Synthesis of the 1982-1985 California earthquake sequence||#JGR:97:4:1992:4865-4883|Seismicity+Thrust fault+California+1982-1985
J|0184|Larsen,S.+Reilinger,R.+Neugebauer,H.+|Global Positioning System measurements of deformations associated with the 1987 Superstition Hills earthquake: evidence for conjugate faulting||#JGR:97:4:1992:4885-4902|Deformation+Global Positioning System+Superstition Hill+1987+Earthquake||#*SUPERSTITION87
J|0185|Tajima,F.+Tralli,D.M.|Variation of seismic slip in the Gulf of California and the possible effect of geodetic measurements of Pacific-North American plate motion||#JGR:97:4:1992:4903-4913|Slip+Gulf of California+Geodetic measurement+Plate motion
J|0186|Linker,M.F.+Dieterich,J.H.|Effects of variable normal stress on rock friction: observations and constitutive equations||#JGR:97:4:1992:4923-4940|Stress+Friction+Laboratory+Rock
J|0187|Geist,E.L.+Scholl,D.W.|Application of continuum models to deformation of the Aleutian Island arc||#JGR:97:4:1992:4953-4967|Deformation+Aleutian Arc+Stress+Focal mechanism
J|0188|Zoback,M.D.+Lachenbruch,A.H.|Introduction to special section on the Cajon Pass scientific drilling project||#JGR:97:4:1992:4991-4994|Cajon Pass+Drilling
J|0189|Lachenbruch,A.H.+Sass,J.H.|Heat flow from Cajon Pass, fault strength, and tectonic implications||#JGR:97:4:1992:4995-5015|Cajon Pass+Heat flow+Fault+Tectonics
J|0190|Zoback,M.D.+Healy,J.H.|In situ stress measurements to 3.5 km depth in the Cajon Pass scientific research borehole: implications for the mechanics of crustal faulting||#JGR:97:4:1992:5039-5057|Cajon Pass+Stress+Mechanics+Faulting
J|0191|Shamir,G.+Zoback,M.D.|Stress orientation profile to 3.5 km depth near the San Andreas fault at Cajon Pass, California||#JGR:97:4:1992:5059-5080|Stress+Cajon Pass+San Andreas Fault+Borehole
J|0192|Saucier,F.+Humphreys,E.+Weldon,R.|Stress near geometrically complex strike-slip faults: application to the San Andreas fault at Cajon Pass, southern California||#JGR:97:4:1992:5081-5094|Stress+Cajon Pass+Strike-slip+San Andreas Fault
J|0193|Liu,L.+Zoback,M.D.|The effect of topography on the state of stress in the crust: application to the site of the Cajon Pass scientific drilling project||#JGR:97:4:1992:5095-5108|Cajon Pass+Stress+Topography+Crust
J|0194|Vernik,L.+Zoback,M.D.|Estimation of maximum horizontal principal stress magnitude from stress-induced well bore breakouts in the Cajon Pass scientific research borehole||#JGR:97:4:1992:5109-5119|Cajon Pass+Stress+Borehole+Fracturing
J|0195|Vernik,L.+Nur,A.|Petrophysical analysis of the Cajon Pass scientific well: implications for fluid flow and seismic studies in the continental crust||#JGR:97:4:1992:5121-5134|Cajon Pass+Fluid+Continental crust+Reflector
J|0196|Blenkinsop,T.G.+Sibson,R.H.|Aseismic fracturing and cataclasis involving reaction softening within core material from the Cajon Pass drill hole||#JGR:97:4:1992:5135-5144|Cajon Pass+Fracturing+Deformation+Rock
J|0197|Barton,C.A.+Zoback,M.D.|Self-similar distribution and properties of macroscopic fractures at depth in crystalline rock in the Cajon Pass scientific drill hole||#JGR:97:4:1992:5181-5200|Cajon Pass+Distribution+Fracture+Rock
J|0198|Hole,J.A.|Nonlinear high-resolution three-dimensional seismic travel time tomography||#JGR:97:5:1992:6553-6562|Tomography+High resolution+Imaging+Refraction data
J|0199|Moser,T.J.+Van Eck,T.+Nolet,G.|Hypocenter determination in strongly heterogeneous Earth models using the shortest path method||#JGR:97:5:1992:6563-6572|Location+Hypocentre+Heterogeneous medium+Ray theory
J|0200|Song,X-D.+Helmberger,D.V.|Velocity structure near the inner core boundary from waveform modeling||#JGR:97:5:1992:6573-6586|Velocity structure+Inner core+Waveform+Broadband seismology
J|0201|Estabrook,C.H.+Nabelek,J.L.+Lerner-Lam,A.L.|Tectonic model of the Pacific-North American plate boundary in the Gulf of Alaska from broadband analysis of the 1979 St. Elias, Alaska, earthquake and its aftershocks||#JGR:97:5:1992:6587-6612|1979+Alaska+Aftershock+Tectonics+Earthquake||#*STELIAS
J|0202|Takeo,M.|The rupture process of the 1989 offshore Ito earthquakes preceding a submarine volcanic eruption||#JGR:97:5:1992:6613-6627|Rupture+1989+Izu Peninsula+Eruption||#*OFFIZUPEN89A|#*OFFIZUPEN89B|#*OFFIZUPEN89C|#*OFFIZUPEN89D|#*OFFIZUPEN89E
J|0203|Gillard,D.+Wyss,M.+Nakata,J.S.|A seismotectonic model for western Hawaii based on stress tensor inversion from fault plane solutions||#JGR:97:5:1992:6629-6641|Stress+Fault plane solution+Hawaii+Seismotectonics
J|0204|Mayeda,K.+Koyanagi,S.+Hoshiba,M.+|A comparative study of scattering, intrinsic, and coda Q-1 for Hawaii, Long Valley, and central California between 1.5 and 15.0 Hz||#JGR:97:5:1992:6643-6659|Scattering+Attenuation+S-wave+Q+California+Hawaii
J|0205|Mori,J.+Frankel,A.|Correlation of P wave amplitudes and travel time residuals for teleseisms recorded on the southern California seismic network||#JGR:97:5:1992:6661-6674|Southern California+P-wave+Travel-times+Amplitude
J|0206|Ward,S.N.|An application of synthetic seismicity in earthquake statistics: the Middle America Trench||#JGR:97:5:1992:6675-6682|Middle America Trench+Statistics+Seismicity+Faulting
J|0207|Hyndman,R.D.+Spence,G.D.|A seismic study of methane hydrate marine bottom simulating reflectors||#JGR:97:5:1992:6683-6698|Reflexion study+Cascadia subduction zone+Reflector+Sediment
J|0208|Ita,J.+Stixrude,L.|Petrology, elasticity, and composition of the mantle transition zone||#JGR:97:5:1992:6849-6866|Mantle+Petrology+Elasticity+Composition
J|0209|Falls,S.D.+Young,R.P.+Carlson,S.R.+|Ultrasonic tomography and acoustic emission in hydraulically fractured Lac du Bonnet grey granite||#JGR:97:5:1992:6867-6884|Ultrasonics+Tomography+Acoustic emission+Granite
J|0210|Hyndman,R.D.+Davis,E.E.|A mechanism for the formation of methane hydrate and seafloor bottom-simulating reflectors by vertical fluid expulsion||#JGR:97:5:1992:7025-7041|Reflector+Methane+Cascadia subduction zone+Reflexion study
J|0211|Okubo,S.|Gravity and potential changes due to shear and tensile faults in a half-space||#JGR:97:5:1992:7137-7144|Gravity+Electrical potential+Fault+Half-space
J|0212|Wallace,M.H.+Kemeny,J.M.|Nucleation and growth of dip-slip faults in a stable craton||#JGR:97:5:1992:7145-7157|Nucleation+Dip-slip+Fault+Craton
J|0213|Denlinger,R.P.|A revised estimate for the temperature structure of the oceanic lithosphere||#JGR:97:5:1992:7219-7222|Oceanic lithosphere+Temperature+Intraplate seismicity
J|0214|Christensen,K.+Olami,Z.|Variation of the Gutenberg-Richter b values and nontrivial temporal correlations in a spring-block model for earthquakes||#JGR:97:6:1992:8729-8735|b-Value+Dynamics+Model
J|0215|Ribe,N.M.|On the relation between seismic anisotropy and finite strain||#JGR:97:6:1992:8737-8747|Anisotropy+Strain+Splitting+Deformation
J|0216|Wysession,M.E.+Okal,E.A.+Bina,C.R.|The structure of the core-mantle boundary from diffracted waves||#JGR:97:6:1992:8749-8764|Core-mantle boundary+Diffracted wave+Structure+Lateral heterogeneity
J|0217|Jones,L.E.+Mori,J.+Helmberger,D.V.|Short-period constraints on the proposed transition zone discontinuity||#JGR:97:6:1992:8765-8774|P-wave+Southern California+Transition zone+Velocity structure
J|0218|Jackson,M.D.+Endo,E.T.+Delaney,P.T.+|Ground ruptures of the 1974 and 1983 Kaoiki earthquakes, Mauna Loa volcano, Hawaii||#JGR:97:6:1992:8775-8796|Rupture+Mauna Loa+1974+1983+Earthquake||#*HAWAII
J|0219|Levander,A.R.+Holliger,K.|Small-scale heterogeneity and large-scale velocity structure of the continental crust||#JGR:97:6:1992:8797-8804|Velocity structure+Continental crust+Reflexion study+Germany
J|0220|Li,Y-G.+Henyey,T.L.+Silver,L.T.|Aspects of the crustal structure of the western Mojave Desert, California, from seismic reflection and gravity data||#JGR:97:6:1992:8805-8816|Crustal structure+Mojave Desert+Reflexion study+Gravimetric data
J|0221|Li,Y-G.+Henyey,T.L.+Leary,P.C.|Seismic reflection constraints on the structures of the crust beneath the San Bernadino Mountains, Transverse Ranges, southern California||#JGR:97:6:1992:8817-8830|Reflexion study+Crustal structure+Transverse Ranges+Mohorovicic discontinuity
J|0222|Acharya,H.|Comparison of seismicity parameters in different subduction zones and its implications for the Cascadia subduction zone||#JGR:97:6:1992:8831-8842|Cascadia subduction zone+Seismicity+Subduction+Large earthquake
J|0223|Larsen,S.+Reilinger,R.|Global Positioning System measurements of strain accumulation across the Imperial Valley, California: 1986-1989||#JGR:97:6:1992:8865-8876|Strain+Global Positioning System+Imperial Valley+1986-1989||#*SUPERSTITION87|#*IMPERIAL
J|0224|Tao,W.C.+O'Connell,R.J.|Ablative subduction: a two-sided alternative to the conventional subduction model||#JGR:97:6:1992:8877-8904|Subduction+Slab+Model+Interplate seismicity
J|0225|McCaffrey,R.|Oblique plate convergence, slip vectors, and forearc deformation||#JGR:97:6:1992:8905-8915|Plate motion+Convergence+Slip+Deformation
J|0226|Pedersen,L.B.+Juhlin,C.+Rasmussen,T.M.|Electric resistivity in the Gravberg-1 deep well, Sweden||#JGR:97:6:1992:9171-9182|Electrical resistivity+Sweden+Profile+Borehole
J|0227|Uenzelmann-Neben,G.+Jokat,W.+Miller,H.+|The Aegir Ridge: structure of an extinct spreading axis||#JGR:97:6:1992:9203-9218|Reflexion study+Norwegian Sea+Spreading centre+Sediment
J|0228|Caress,D.W.+Burnett,M.S.+Orcutt,J.A.|Tomographic image of the axial low-velocity zone at 12degrees50'N on the East Pacific Rise||#JGR:97:6:1992:9243-9263|Tomography+East Pacific Rise+Low-velocity layer+Refraction study
J|0229|Wilkens,R.H.+Cheng,C.H.+Meredith,J.A.|Evaluation and prediction of shear wave velocities in calcareous marine sediment and rocks||#JGR:97:6:1992:9297-9305|Shear wave+Velocity+Sediment+Rock
J|0230|Hanks,T.C.+Johnston,A.C.|Common features of the excitation and propagation of strong ground motion for North American earthquakes||#BSA:82:1:1992:1-23|Strong motion+North America+Intensity+Propagation
J|0231|Ordaz,M.+Singh,S.K.|Source spectra and spectral attenuation of seismic waves from Mexican earthquakes, and evidence of amplification in the hill zone of Mexico City||#BSA:82:1:1992:24-43|Spectrum+Attenuation+Mexico+Mexico City+Amplification
J|0232|Ohmachi,T.+Midorikawa,S.|Ground-motion intensity inferred from upthrow of boulders during the 1984 western Nagano Prefecture, Japan, earthquake||#BSA:82:1:1992:44-60|Ground motion+Intensity+1984+Nagano+Earthquake||#*NAGANO
J|0233|Lomnitz-Adler,J.+Lund,F.|The generation of quasi-dynamical accelerograms from large and complex seismic fractures||#BSA:82:1:1992:61-80|Accelerogram+Complexity+Fracture+Ground motion
J|0234|Graves,R.W.+Clayton,R.W.|Modeling path effects in three-dimensional basin structures||#BSA:82:1:1992:81-103|Modelling+Path+Basin+Los Angeles
J|0235|Lamarre,M.+Townshend,B.+Shah,H.C.|Application of the bootstrap method to quantify uncertainty in seismic hazard estimates||#BSA:82:1:1992:104-119|Hazard+Statistical method+Earthquake catalogue+Confidence interval
J|0236|Kijko,A.+Sellevoll,M.A.|Estimation of earthquake hazard parameters from incomplete data files. Part II. Incorporation of magnitude heterogeneity||#BSA:82:1:1992:120-134|Hazard+Maximum likelihood+Magnitude+Heterogeneity
J|0237|Brockman,S.R.+Bollinger,G.A.|Q estimates along the Wasatch front in Utah derived from Sg and Lg wave amplitudes||#BSA:82:1:1992:135-147|Q+Wasatch Fault+Sg-wave+Lg-wave+Amplitude
J|0238|Fukushima,Y.+Kinoshita,S.+Sato,H.|Measurement of Q-1 for S waves in mudstone at Chikura, Japan: comparison of incident and reflected phases in borehole seismograms||#BSA:82:1:1992:148-163|Q+S-wave+Kanto+Borehole
J|0239|Brune,J.N.+Nicks,W.+Aburto,A.|Microearthquakes at Yucca Mountain, Nevada||#BSA:82:1:1992:164-174|Yucca Mountain+Microearthquake+Nuclear waste+Array
J|0240|Abe,K.|Seismicity of the caldera-making eruption of Mount Katmai, Alaska in 1912||#BSA:82:1:1992:175-191|Seismicity+Eruption+Alaska+1912
J|0241|Riviere-Barbier,F.+Suteau-Henson,A.+Ryaboy,V.Z.+|Analysis of three-component data from IRIS/IDA stations in the USSR||#BSA:82:1:1992:192-220|IRIS+IDA+USSR+Seismic recording+Polarization
J|0242|Ruud,B.O.+Husebye,E.S.|A new three-component detector and automatic single-station bulletin production||#BSA:82:1:1992:221-237|Signal+Detection+Station+Bulletin
J|0243|Sipkin,S.A.+Lerner-Lam,A.L.|Pulse-shape distortion introduced by broadband deconvolution||#BSA:82:1:1992:238-258|Broadband seismology+Distortion+Deconvolution+Filtering
J|0244|Moser,T.J.+Nolet,G.+Snieder,R.|Ray bending revisited||#BSA:82:1:1992:259-288|Ray theory+Bending+Travel-times+Tomography
J|0245|Zhou,B.+Greenhalgh,S.A.|Seismic scalar wave equation modeling by a convolutional differentiator||#BSA:82:1:1992:289-303|Scalar-wave equation+Modelling+Convolution+Fourier transform
J|0246|White,D.J.+Boland,A.V.|A comparison of forward modeling and inversion of seismic first arrivals over the Kapuskasing uplift||#BSA:82:1:1992:304-322|Kapuskasing+First arrival+Inversion+Modelling
J|0247|Cummins,P.R.+Kennett,B.L.N.+Bowman,J.R.+|The 520 km discontinuity?||#BSA:82:1:1992:323-336|520km discontinuity+Upper mantle+Sunda Arc+Warramunga
J|0248|Carr,D.B.|Discrimination using spectral slopes at frequencies up to 50 Hz||#BSA:82:1:1992:337-351|Discrimination+Spectral analysis+Pn-wave+NORESS
J|0249|Gupta,I.N.+Chan,W.W.+Wagner,R.A.|A comparison of regional phases from underground nuclear explosions at East Kazakh and Nevada test sites||#BSA:82:1:1992:352-382|Regional phase+Underground nuclear explosion+Eastern Kazakhstan+Nevada Test Site
J|0250|Lay,T.+Zhang,T.|Near-source contributions to teleseismic P waves and P-wave coda for underground explosions||#BSA:82:1:1992:383-405|P-wave+Near field+Coda+Underground explosion
J|0251|Reamer,S.K.+Stump,B.W.|Source parameter estimation for large, bermed, surface chemical explosions||#BSA:82:1:1992:406-421|Near field+Accelerogram+Explosion+Arizona
J|0252|Pollitz,F.F.|Post relaxation theory on the spherical Earth||#BSA:82:1:1992:422-453|Relaxation+Earth+Displacement+Strain
J|0253|Pollitz,F.F.+Sacks,I.S.|Modeling of postseismic relaxation following the great 1857 earthquake, southern California||#BSA:82:1:1992:454-480|Relaxation+1857+Great earthquake+Southern California
J|0254|Havskov,J.+Kvamme,L.B.+Hansen,R.A.+|The northern Norway seismic network: design, operation, and results||#BSA:82:1:1992:481-496|Norway+Network+Recording+Design
J|0255|Green,R.W.E.|PC-based continuous recording field seismograph||#BSA:82:1:1992:497-504|Personal computer+Recording+Seismograph+Field work
J|0256|Abrahamson,N.A.+Youngs,R.R.|A stable algorithm for regression analyses using the random effects model||#BSA:82:1:1992:505-510|Regression+Random effect+Mathematical method|Short note
J|0257|Locke,W.W.+Meyer,G.A.+Pings,J.C.|Morphology of a postglacial fault scarp across the Yellowstone (Wyoming) caldera margin and its implications||#BSA:82:1:1992:511-516|Morphology+Scarp+Yellowstone+Profile|Short note
J|0258|Gupta,H.K.|Are RIS events of M>=5 preceded by a couple of foreshocks of M>=4?||#BSA:82:1:1992:517-520|Reservoir+Induced seismicity+Foreshock+Prediction|Short note
J|0259|Masuda,T.+Ohtake,M.|Comment on `A new attenuation relation for peak horizontal acceleration of strong earthquake ground motion in Japan' by Y. Fukushima and T. Tanaka||#BSA:82:1:1992:521-523|Comments+Attenuation+Acceleration+Japan|Short note with a reply by the authors
J|0260|Eaton,J.P.|Determination of amplitude and duration magnitudes and site residuals from short-period seismographs in northern California||#BSA:82:2:1992:533-579|Amplitude+Duration magnitude+Northern California+Short-period wave
J|0261|Su,F.+Aki,K.+Teng,T.+|The relation between site amplification factor and surficial geology in central California||#BSA:82:2:1992:580-602|Coda wave+Amplification+Geology+California
J|0262|Borcherdt,R.D.+Glassmoyer,G.|On the characteristics of local geology and their influence on ground motions generated by the Loma Prieta earthquake in the San Francisco Bay region, California||#BSA:82:2:1992:603-641|Geology+Ground motion+Loma Prieta+1989+Earthquake||#*LOMAPRIETA89
J|0263|Gutierrez,C.+Singh,S.K.|A site effect study in Acapulco, Guerrero, Mexico: comparison of results from strong-motion and microtremor data||#BSA:82:2:1992:642-659|Site+Acapulco+Strong motion+Microearthquake
J|0264|Boatwright,J.+Choy,G.L.|Acceleration source spectra anticipated for large earthquakes in northeastern North America||#BSA:82:2:1992:660-682|North America+Large earthquake+Acceleration+Spectrum
J|0265|Boore,D.M.+Atkinson,G.M.|Source spectra for the 1988 Saguenay, Quebec, earthquakes||#BSA:82:2:1992:683-719|Spectrum+1988+Quebec+Source+Earthquake||#*SAGUENAY88
J|0266|Haddon,R.A.W.|Waveform modeling of strong-motion data for the Saguenay earthquake of 25 November 1988||#BSA:82:2:1992:720-754|Waveform+Strong motion+Quebec+1988+Earthquake||#*SAGUENAY88
J|0267|Estabrook,C.H.+Boyd,T.M.|The Shumagin Islands, Alaska, earthquake of 31 May 1917||#BSA:82:2:1992:755-773|Shumagin Islands+1917+Large earthquake+Magnitude
J|0268|Niazi,M.+Bozorgnia,Y.|The 1990 Manjil, Iran, earthquake: geology and seismology overview, PGA attenuation, and observed damage||#BSA:82:2:1992:774-799|1990+Iran+Acceleration+Damage+Earthquake||#*MANJIL90
J|0269|Hull,A.G.+Nicholson,C.|Seismotectonics of the northern Elsinore fault zone, southern California||#BSA:82:2:1992:800-818|Seismotectonics+Southern California+Fault+Focal mechanism
J|0270|Kuge,K.|Systematic difference in the ISC body-wave magnitude - seismic moment relationship between intermediate and deep earthquakes||#BSA:82:2:1992:819-835|Body wave+Magnitude+Moment+Intermediate-depth earthquake+Deep-focus earthquake+ISC
J|0271|Pavlis,G.L.|Appraising relative earthquake location errors||#BSA:82:2:1992:836-859|Location+Error+Garm
J|0272|Tarvainen,M.|Automatic seismogram analysis: statistical phase picking and locating methods using one-station three-component data||#BSA:82:2:1992:860-869|Seismogram+Pick+Location+Single-station method
J|0273|Kvaerna,T.+Ringdal,F.|Integrated array and three-component processing using a seismic microarray||#BSA:82:2:1992:870-882|Array+Processing+NORESS+S-wave
J|0274|Hill,D.P.+Thatcher,W.|An energy constraint for frictional slip on misorientated faults||#BSA:82:2:1992:883-897|Energy+Friction+Slip+Fault
J|0275|Kausel,E.|Physical interpretation and stability of paraxial boundary conditions||#BSA:82:2:1992:898-913|Interpretation+Stability+Boundary condition+Dynamics
J|0276|Daley,P.F.+Hron,F.|Application of the ray-reflectivity method to multilayered thin bed structures||#BSA:82:2:1992:914-933|Ray theory+Reflectivity+Layered medium+Structure
J|0277|Sung,L-Y.+Jackson,D.D.|Crustal and uppermost mantle structure under southern California||#BSA:82:2:1992:934-961|Crustal structure+Upper mantle+Southern California+Pn-wave
J|0278|Yao,P.C.+Dorman,J.|Short-period surface-wave dispersion and shallow crustal structure of central and eastern Tennessee||#BSA:82:2:1992:962-979|Crustal structure+Tennessee+Surface wave+Dispersion
J|0279|Barker,B.W.+Murphy,J.R.|A lithospheric velocity anomaly beneath the Shagan River test site. Part 1. Detection and location with network magnitude residuals||#BSA:82:2:1992:980-998|Shagan River Test Site+Lithosphere+Velocity+Magnitude
J|0280|McLaughlin,K.L.+Murphy,J.R.+Barker,B.W.|A lithospheric velocity anomaly beneath the Shagan River test site. Part 2. Imaging and inversion with amplitude transmission tomography||#BSA:82:2:1992:999-1017|Lithosphere+Velocity+Shagan River Test Site+Tomography
J|0281|Okada,Y.|Internal deformation due to shear and tensile faults in a half-space||#BSA:82:2:1992:1018-1040|Deformation+Shear fault+Tensile fault+Half-space
J|0282|Fletcher,J.B.+Baker,L.M.+Spudich,P.+|The USGS Parkfield, California, dense seismograph array: UPSTAR||#BSA:82:2:1992:1041-1070|Array+Parkfield+Q+Microearthquake
J|0283|Rodgers,P.W.|Frequency limits for seismometers as determined from signal-to-noise ratios. Part 1. The electromagnetic seismometer||#BSA:82:2:1992:1071-1098|Frequency+Signal-to-noise ratio+Electromagnetic seismometer+Response
J|0284|Rodgers,P.W.|Frequency limits for seismometers as determined from signal-to-noise ratios. Part 2. The feedback seismometer||#BSA:82:2:1992:1099-1123|Frequency+Response+Seismometer+Signal-to-noise ratio
J|0285|Wen,K-L.+Yeh,Y.T.+Huang,W-G.|Effects of an alluvial basin on strong ground motions||#BSA:82:2:1992:1124-1133|Ground motion+Alluvium+Basin+SMART 1 array|Short note
J|0286|Chen,H-W.+McMechan,G.A.|Computation of multi-attribute seismic wavefields by solution of the elastodynamic equations||#BSA:82:2:1992:1134-1143|Computational seismology+Wave field+Elastodynamics+Synthetic seismogram|Short note
J|0287|Koyanagi,S.+Mayeda,K.+Aki,K.|Frequency-dependent site amplification factors using the S-wave coda for the island of Hawaii||#BSA:82:3:1992:1151-1185|Site+Amplification+Hawaii+S-wave
J|0288|Hough,S.E.+Seeber,L.+Rovelli,A.+|Ambient noise and weak-motion excitation of sediment resonances: results from the Tiber Valley, Italy||#BSA:82:3:1992:1186-1205|Noise+Weak earthquake+Ground motion+Rome
J|0289|De Rubeis,V.+Gasparini,C.+Tosi,P.|Determination of the macroseismic field by means of trend and multivariate analysis of questionnaire data||#BSA:82:3:1992:1206-1222|Italy+Macroseismic data+Statistical method+Intensity
J|0290|Bilham,R.+Behr,J.|A two-layer model for aseismic slip on the Superstition Hills fault, California||#BSA:82:3:1992:1223-1235|Superstition Hill+Fault+Creep+California||#*SUPERSTITION87
J|0291|Tichelaar,B.W.+Christensen,D.H.+Ruff,L.J.|Depth extent of rupture of the 1981 Chilean outer-rise earthquake as inferred from long-period body waves||#BSA:82:3:1992:1236-1252|Chile+1981+Rupture+Depth+Earthquake||#*CHILE81
J|0292|Crusem,R.+Caristan,Y.|Moment tensor inversion, yield estimation, and seismic coupling variability at the French Centre d'Experimentation du Pacifique||#BSA:82:3:1992:1253-1274|Moment tensor+Inversion+Yield+Mururoa Test Site
J|0293|Walker,D.A.+McCreery,C.S.+Hiyoshi,Y.|T-phase spectra, seismic moments, and tsunamigenesis||#BSA:82:3:1992:1275-1305|T-phase+Spectrum+Moment+Tsunami
J|0294|Pacheco,J.F.+Sykes,L.R.|Seismic moment catalog of large shallow earthquakes, 1900 to 1989||#BSA:82:3:1992:1306-1349|Moment+Large earthquake+Shallow earthquake+1900-1989
J|0295|West,M.W.|An integrated model for seismogenesis in the intermountain seismic belt||#BSA:82:3:1992:1350-1372|Seismogenesis+Mountain+Basin & Range+Borah Peak||#*BORAH
J|0296|Wyss,M.+Koyanagi,R.Y.|Seismic gaps in Hawaii||#BSA:82:3:1992:1373-1387|Seismic gap+Hawaii+Seismotectonics+Volcano
J|0297|Karageorgi,E.+Clymer,R.+McEvilly,T.V.|Seismological studies at Parkfield. II. Search for temporal variations in wave propagation using Vibroseis||#BSA:82:3:1992:1388-1415|Propagation+Vibroseis+Parkfield+S-wave
J|0298|Richards,P.G.+Anderson,D.A.+Simpson,D.W.|A survey of blasting activity in the United States||#BSA:82:3:1992:1416-1433|Blast+United States+Source
J|0299|Payo,G.+Corchete,V.+Badal,J.+|First two-station Rayleigh-wave velocity measurements for the northern Iberian region||#BSA:82:3:1992:1434-1452|Rayleigh wave+Velocity+Dispersion+Iberian Peninsula
J|0300|Cassidy,J.F.|Numerical experiments in broadband receiver function analysis||#BSA:82:3:1992:1453-1474|Broadband seismology+Numerical analysis+Receiver+Ps-wave
J|0301|Rendon,H.F.+Davis,P.M.|High-frequency scattering of elastic SH waves from a circular cylinder. Part 1||#BSA:82:3:1992:1475-1496|Scattering+SH-wave+Cylinder+High frequency
J|0302|Singh,S.K.+Ordaz,M.+Castro,R.R.|Mismatch between teleseismic and strong-motion source spectra||#BSA:82:3:1992:1497-1502|Spectrum+Teleseism+Source+Strong-motion record|Short note
J|0303|Abrahamson,N.A.|A fast algorithm for the Joyner-Boore two-step regression procedure||#BSA:82:3:1992:1503-1506|Regression+Algorithm+Attenuation+Acceleration|Short note
J|0304|Saha,J.G.+Mehta,C.H.+Bhatta,D.D.|On the use of instantaneous amplitude in timing the seismic events||#BSA:82:3:1992:1507-1510|Amplitude+Time+Event+Signal|Short note
J|0305|Frankel,A.|Comment on `Rupture process of the 1987 Superstition Hills earthquake from the inversion of strong-motion data' by D. J. Wald, D. V. Helmberger and S. H. Hartzell||#BSA:82:3:1992:1511-1533|Comments+Rupture+1987+Superstition Hill+Strong-motion analysis+Earthquake|With a reply by the authors|#*SUPERSTITION87
J|0306|Shepherd,J.B.|Comment on `Subduction and seismic hazard in the Lesser Antilles' by P. Bernard and J. Lambert||#BSA:82:3:1992:1534-1551|Comments+Subduction+Hazard+Lesser Antilles|With a reply by the authors
J|0307|Hoshiba,M.|Comment on `Compact solutions for multiple scattered wave energy in time domain' by Y. Zeng||#BSA:82:3:1992:1552-1553|Comments+Scattering+Energy+Time domain
J|0308|Anderson,D.L.|Citation for the Thirteenth Award of the Medal of the Seismological Society of America||#BSA:82:3:1992:1554-1557|Seismology+Great earthquake+Seismogram+Q|With a reply by H. Kanamori
J|0309|Chekunov,A.V.+Kivshik,N.K.+Kharitonov,O.M.+|DSS profile Putivl-Krivoi Rog through superdeep holes of the Ukraine|In Russian with English abstract|#GFZ:14:1:1992:3-10|Deep seismic sounding+Borehole+Ukraine
J|0310|Grin,N.E.+Lysynchuk,D.V.+Gik,L.D.|Physical modelling of the wave field in the thinning zone|In Russian with English abstract|#GFZ:14:1:1992:20-30|Modelling+Wave field+Thinning+Wave type
J|0311|Burmin,V.Yu.|Numerical transformation of the reflected wave locus|In Russian with English abstract|#GFZ:14:1:1992:72-81|Reflected wave+Numerical analysis+Rotation|Scientific communication
J|0312|Aronsky,A.A.+Gintov,O.B.+Zakhidov,T.K.+|Tectonophysical peculiarities of the epicentral region of the Tavaksai earthquake (eastern Uzbekistan)|In Russian with English abstract|#GFZ:14:1:1992:81-87|Tectonophysics+Epicentre+Uzbekistan+1977|Scientific communication
J|0313|Gerasimov,M.E.+Aliev,O.G.+Shchegoliknin,A.Yu.|Significance of the velocity characteristics of the sedimentary cover in determination of the position of focus zones of earthquakes|In Russian with English abstract|#GFZ:14:1:1992:87-93|Velocity+Sediment+Focus+Crimea|Scientific communication
J|0314|Gordienko,V.V.|Composition of granitoids and models of the Earth crust|In Russian with English abstract|#GFZ:14:2:1992:42-46|Granite+Crust+Density+Velocity|Scientific communication
J|0315|Kolosov,A.L.+Tupchienko,A.M.|Effect of acoustic oscillations on natural electrical field in the hole|In Russian with English abstract|#GFZ:14:2:1992:47-53|Acoustic emission+Rock+Polarization|Scientific communication
J|0316|Shermegor,T.D.+Kuzmenko,Yu.V.+Prodayvoda,G.T.+|Mathematical simulation of the effect of crystallographic orientation of minerals on the efficient elastic permanent rocks|In Russian with English abstract|#GFZ:14:2:1992:53-63|Mathematical model+Orientation+Rock+Elasticity|Scientific communication
J|0317|Latynina,L.A.+Yurkevich,O.I.+Baisarovich,I.M.|Results of deformation measurements in the region of Beregovo|In Russian with English abstract|#GFZ:14:2:1992:63-67|Deformation+Seismogeology+Carpathians+Station|Scientific communication
J|0318|Kanevsky,V.F.|Algorithms of fast Fourier transform of orthogonal pulse-code signals of nonexplosive seismic prospecting|In Russian with English abstract|#GFZ:14:2:1992:76-80|Seismic prospecting+Pulse+Fourier transform+Signal|Scientific communication
J|0319|Starostenko,V.I.+Tripolsky,A.A.|Study of depth structure and tectonic evolution of the lithosphere of Europe|In Russian|#GFZ:14:2:1992:88-91|Structure+Evolution+Lithosphere+Europe|International scientific collaboration
J|0320|Tyapkin,K.F.|Seismological model of the Earth crust and tectonics|In Russian with English abstract|#GFZ:14:3:1992:3-12|Model+Crust+Tectonics+Mohorovicic discontinuity
J|0321|Lossovsky,E.K.+Lossovsky,I.E.|Deep seismic sounding of focus zones: retrospective and perspective|In Russian with English abstract|#GFZ:14:3:1992:22-29|Deep seismic sounding+Focus+Wave field+Q
J|0322|Furdui,R.S.+Omelchenko,V.D.+Pavlova,G.G.|Peculiarities of the structure of Earth crust in Krivorozhie by the data of cosmic decoding and seismics|In Russian with English abstract|#GFZ:14:3:1992:41-47|Structure+Crust+Mantle+Donbas|Scientific communication
J|0323|Almossawi,H.I.H.|Effects of seismic signals on humans||#GFZ:14:3:1992:47-51|Signal+Modelling+Human body+Physical properties|Scientific communication
J|0324|Sheikh-Zade,E.R.+Nazarova,N.S.+Sheikh-Zade,I.K.|New method for treatment of a "line" field of the refracted waves|In Russian with English abstract|#GFZ:14:3:1992:51-56|Refracted wave+Kinematics+Structure+Computer program|Scientific communication
J|0325|Kanevsky,V.F.|Possibilities to improve quality of seismic prospecting during ternary codes|In Russian with English abstract|#GFZ:14:3:1992:72-75|Seismic prospecting+Noise+Seismic record+Orthogonality|Scientific communication
J|0326|Blyas,E.A.+Sereda,O.A.|Dynamic characteristics of reflected waves at small angles of incidence on horizontal-laminar medium|In Russian with English abstract|#GFZ:14:3:1992:82-86|Reflected wave+Dynamics+Layered medium+PP-wave|Scientific communication
J|0327|Tretyak,A.G.+Syrodoev,A.N.|Procedure for geophysical studies of Vladimir-Volyn zone of ruptures|In Russian with English abstract|#GFZ:14:3:1992:86-90|Ukraine+Sediment+Fracture+Geophysical investigation|Scientific communication
J|0328|Orzepowski,S.+Bachowski,C.|Source parameters of mine-induced tremors at Rudna copper mine in Poland||#APL:40:1:1992:13-24|Source parameter+Mine tremor+Poland+Induced seismicity
J|0329|Ismail,M.A.M.|Some problems connected with interpretation of seismic models in the tau-P domain||#APL:40:1:1992:25-47|Interpretation+Model+Tau-p transform+Common-shot data
J|0330|Bala,M.+Jarzyna,J.|System of automatic interpretation of full waveform recorded during acoustic logging||#APL:40:1:1992:49-61|Acoustic logging+Automatic analysis+Waveform+Interpretation
J|0331|Karnkowski,P.|New results of the oil and gas exploration in the Carpathians and their foredeep||#APL:40:1:1992:63-84|Carpathians+Seismic exploration+Gas field+Oil field
J|0332|Samal,S.K.+Rajhans,B.K.|Scattering of SH-waves by a spherical cavity||#APL:40:1:1992:85-92|Scattering+SH-wave+Mathematical analysis+Cavity
J|0333|Wiejacz,P.|Calculation of seismic moment tensor for mine tremors from the Legnica-Glogow copper basin||#APL:40:2:1992:103-122|Seismic moment tensor+Mine tremor+Basin+Poland
J|0334|Chodyn,L.+Zuberek,W.M.|Effect of the discrete stress memory in the acoustic emission in soils||#APL:40:2:1992:139-158|Soil+Acoustic emission+Stress+Laboratory
J|0335|Grabowska,T.+Raczynska,M.+Dolnicki,J.|Interpretation of gravity anomalies along the Eu-3 geotransect in Poland||#APL:40:2:1992:159-173|Deep seismic sounding+Geotransect+Poland+Bouguer anomaly
J|0336|Grabowska,T.+Koblanski,A.|Interpretation of magnetic anomalies along the Eu-3 geotransect in Poland||#APL:40:2:1992:175-185|Poland+Geomagnetic anomaly+Geotransect+Deep seismic sounding
J|0337|Das,S.Ch.+Acharya,D.P.+Sengupta,P.R.|Plane Lamb's problem in an inhomogeneous elastic medium||#APL:40:2:1992:187-195|Lamb's problem+Inhomogeneous medium+Mathematical analysis
J|0338|Doroshev,A.M.+Kuznetsov,G.N.+Malinovskii,I.Yu.+|On systematics of elastic characteristics of natural garnets|In Russian with English abstract|#GGS:-:1:1992:111-121|Elasticity+Garnet
J|0339|Mandelbaum,M.M.+Suvorov,V.D.+Smirnova,T.G.+|New data on peculiarities of the basement of the eastern slope of the Nepa-Botuoba anteclise according to seismic data|In Russian with English abstract|#GGS:-:1:1992:135-138|Seismic exploration+Structure+Basement+Siberian platform
J|0340|Belov,R.V.|Oil- and gas-bearing potential of the upper Paleozoic in the southeastern Nyurol depression|In Russian with English abstract|#GGS:-:2:1992:7-14|Seismic exploration+Oil+Gas+Nyurol'skii
J|0341|Papshev,M.V.|Seismohydrogeological features of Baikal rifting zone|In Russian with English abstract|#GGS:-:2:1992:132-136|Baikalian Rift+Swarm+Strain+Hydrology
J|0342|Mishen'kin,B.P.+Mishen'kina,Z.R.|Some features of a seismic section of the Earth crust bottom from data of refracted and reflected waves in the Baikal Rift zone|In Russian with English abstract|#GGS:-:3:1992:103-112|Baikalian Rift+Refraction study+Reflexion study+Profile
J|0343|Madatov,A.G.+Mitrofanov,G.M.+Sereda,V-A.I.|Approximation approach in dynamic analysis of multichannel seismograms. 3. Applied aspects|In Russian with English abstract|#GGS:-:3:1992:112-122|Approximation+Dynamic analysis+Seismogram+Reflexion study
J|0344|Druzhinin,A.B.|Solution of a 3-D wave equation in a vicinity of the ray|In Russian with English abstract|#GGS:-:3:1992:122-128|Modelling+Inhomogeneous medium+Ray theory+Wave equation
J|0345|Tuzovsky,A.A.|Integral operators of field continuation to 2-dimensional inhomogeneous medium|In Russian with English abstract|#GGS:-:3:1992:137-141|Inhomogeneous medium+Continuation+Reflexion coefficient+Interface
J|0346|Puzyrev,N.N.|On specific features and composition of seismic information|In Russian with English abstract|#GGS:-:4:1992:80-90|Method+Interface+Disturbance+Physical properties
J|0347|Goldin,S.V.|Determination of reflection coefficient under migration of exchange and monotypical waves|In Russian with English abstract|#GGS:-:4:1992:90-105|Reflexion coefficient+Migration+Seismogram+Exchange wave
J|0348|Stovas,A.M.|Comparison of migration methods in vertical heterogeneous media|In Russian with English abstract|#GGS:-:4:1992:105-114|Migration+Heterogeneous medium+Numerical analysis+Velocity profile
J|0349|Krylov,S.V.+Mishen'kina,Z.R.+Ten,E.N.+|Seismic tomography of the focal zone of the 1957 Muya earthquake (Baikalian forecasting polygon)|In Russian with English abstract|#GGS:-:4:1992:114-122|Tomography+Focus+1957+Baikal+Earthquake
J|0350|Vertlib,M.B.|Some peculiarities in distribution of earthquake hypocenters in the Kodar-Udokan region|In Russian with English abstract|#GGS:-:5:1992:116-119|Distribution+Seismicity+Baikal+Depth
J|0351|Emanov,A.F.+Kaptsov,O.V.|Digital treatment of vibration signals under deep seismic investigations|In Russian with English abstract|#GGS:-:5:1992:123-132|Deep seismic sounding+Digital processing+Noise+Vibration
J|0352|Puzyrev,N.N.+Khogoev,E.A.|On approaching (convergence) of reflected wave hodographs|In Russian with English abstract|#GGS:-:6:1992:92-100|Convergence+Reflected wave+Hodograph+Exchange wave
J|0353|Kunin,N.Ya.+Sheikh-Zade,E.R.|Analysis of lateral velocity heterogeneities of magmametamorphic Earth crust in Eurasia|In Russian with English abstract|#GGS:-:6:1992:100-109|Lateral heterogeneity+Velocity+Crust+Eurasia
J|0354|Seleznev,V.S.+Stakanova,N.S.|Study of sedimentary cover by refracted seismic waves in the Lake Baikal aquatorium|In Russian with English abstract|#GGS:-:6:1992:109-113|Refraction study+Sediment+Baikal+Structure
J|0355|Vinogradov,V.A.+Kogan,A.L.+Shimaraev,V.N.|Results of regional seismic investigations in the southwestern Laptev Sea|In Russian with English abstract|#GGS:-:6:1992:113-118|Refraction study+Deep seismic sounding+Oil+Laptev Sea
J|0356|Aleinikov,A.L.+Belikov,V.T.+Nemzorov,N.I.+|Acoustic emission and interpretation of the data obtained when measuring it in the Uralian superdeep borehole|In Russian with English abstract|#GGS:-:6:1992:118-126|Acoustic emission+Borehole+Urals+Dynamics
J|0357|Herman,G.C.|Generalization of traveltime inversion||#GPS:57:1:1992:9-14|Nonlinear inversion+Travel-times+Reflexion
J|0358|Woodward,M.J.|Wave-equation tomography||#GPS:57:1:1992:15-26|Wave equation+Tomography+Rytov approximation+Ray theory
J|0359|Gajewski,D.+Psencik,I.|Vector wavefields for weakly attenuating anisotropic media by the ray method||#GPS:57:1:1992:27-38|Wave field+Anisotropic medium+Ray theory
J|0360|Schneider,W.A.+Ranzinger,K.A.+Balch,A.H.+|A dynamic programming approach to first arrival traveltime computation in media with arbitrarily distributed velocities||#GPS:57:1:1992:39-50|First arrival+Travel-times+Velocity+Dynamic analysis
J|0361|Mikulich,W.+Hale,D.|Steep-dip v(z) imaging from an ensemble of Stolt-like migrations||#GPS:57:1:1992:51-59|Imaging+Migration+Dipping layer+Velocity
J|0362|Martinson,D.G.+Hopper,J.R.|Nonlinear seismic trace interpolation||#GPS:57:1:1992:136-145|Trace interpolation+Seismic survey+Correlation+Common depth point
J|0363|Hornby,B.E.+Murphy,W.F.+Liu,H-L.+|Reservoir sonics: a North Sea case study||#GPS:57:1:1992:146-160|Reservoir+North Sea+Borehole+Acoustic imaging
J|0364|Kim,N.W.+Seriff,A.J.|Marine PSSP reflections with a bottom velocity transition zone||#GPS:57:1:1992:161-170|Transition zone+Marine seismic investigation+Interface+Reflexion
J|0365|Pietsch,K.+Slusarczyk,R.|The application of high-resolution seismics in Polish coal mining||#GPS:57:1:1992:171-180|High resolution+Coal seam+Mining+Seismics+Poland
J|0366|Witten,A.+Gillette,D.D.+Sypniewski,J.+|Geophysical diffraction tomography at a dinosaur site||#GPS:57:1:1992:187-195|Tomography+Palaeontology+Borehole+Sandstone
J|0367|Zhou,B.|Discussion on `The use of Hartley transform in geophysical applications' by R. Saatcilar, S. Ergintav and N. Canitez & `Solving elastic wave equations with the Hartley method' by R. Saatcilar and S. Ergintav||#GPS:57:1:1992:196-197|Comments+Hartley transform+Fourier transform+Wave equation|With a reply by the authors
J|0368|Tango,G.G.|Review of `JESPA: 9th days of study on acoustic propagation' edited by M. P. Filippi et al|In French|#GPS:57:1:1992:198-199|Review+Propagation+Seismoacoustics+Proceedings
J|0369|Kendall,C.|Review of `Lacustrian basin exploration: case studies and model analogs' edited by B. J. Katz||#GPS:57:1:1992:201-202|Review+Basin+Stratigraphy+Sediment
J|0370|Sinha,A.K.|Review of `Bouguer gravity anomaly map of the Cuddapah basin (India)' compiled by N. K. Brahman et al||#GPS:57:1:1992:202|Review+Bouguer anomaly+Seismicity+India
J|0371|Tango,G.G.|Review of `Wave propagation in structures: an FFT-based spectral analysis methodology' by J. F. Doyle||#GPS:57:1:1992:202-204|Review+Fourier transform+Propagation+Structure
J|0372|Vafidis,A.+Abramovici,F.+Kanasewich,E.R.|Elastic wave propagation using fully vectorized high order finite-difference algorithms||#GPS:57:2:1992:218-232|Elastic wave+Propagation+Finite difference method+Cross-hole
J|0373|Lortzer,G.J.M.+Berkhout,A.J.|An integrated approach to lithologic inversion - part I: theory||#GPS:57:2:1992:233-244|Inversion+Theory+Spatial distribution+Bayesian method
J|0374|Tura,M.A.C.+Johnson,L.R.+Majer,E.L.+|Application of diffraction tomography to fracture detection||#GPS:57:2:1992:245-257|Diffraction+Tomography+Fracture+Cross-hole
J|0375|Hargreaves,N.D.|Air-gun signatures and the minimum-phase assumption||#GPS:57:2:1992:263-271|Airgun+Minimum phase+Signature+Deconvolution
J|0376|Mark,N.|Case history: seismic exploration in Egypt's eastern desert||#GPS:57:2:1992:296-305|Egypt+Exploration+Reflexion study+Oil field
J|0377|Snyder,A.G.+Wrolstad,K.H.|Direct detection using AVO, Central Graben, North Sea||#GPS:57:2:1992:313-325|North Sea+Sand+Hydrocarbon+Common midpoint
J|0378|Matsuoka,T.+Ezaka,T.|Ray tracing using reciprocity||#GPS:57:2:1992:326-333|Ray tracing+Reciprocity+Tomography+Fermat's principle
J|0379|Lines,L.R.+Kelly,K.R.+Queen,J.|Channel waves in cross-borehole data||#GPS:57:2:1992:334-342|Channel wave+Cross-hole+Modelling+Wave guide
J|0380|Squires,L.J.+Blakeslee,S.N.+Stoffa,P.L.|The effects of statics on tomographic velocity reconstructions||#GPS:57:2:1992:353-362|Statics+Tomography+Velocity+Borehole
J|0381|McCormack,M.D.|Review of `Anatomy of seismograms, developments in solid Earth geophysics 18' by O. Kulhanek||#GPS:57:2:1992:366-367|Review+Seismogram+Seismology
J|0382|Hale,D.|Errata to `3-D depth migration via McClellan transformations'||#GPS:57:2:1992:370|Errata+Migration+Transformation
J|0383|Aldridge,D.F.+Oldenburg,D.W.|Refractor imaging using an automated wavefront reconstruction method||#GPS:57:3:1992:378-385|Wavefront+Refraction study+Finite difference method+Imaging
J|0384|Foster,D.J.+Mosher,C.C.|Suppression of multiple reflections using the Radon transform||#GPS:57:3:1992:386-395|Multiple reflexion+Radon transform+Common midpoint
J|0385|Brzostowski,M.A.+McMechan,G.A.|3-D tomographic imaging of near-surface seismic velocity and attenuation||#GPS:57:3:1992:396-403|Tomography+Subsurface+Velocity+Attenuation
J|0386|Stork,C.+Clayton,R.W.|Using constraints to address the instabilities of automated prestack velocity analysis||#GPS:57:3:1992:404-419|Stack+Velocity+Constraint+Inversion
J|0387|Pickard,J.E.|Velocity modeling of a long-period static anomaly, West Cameron Block 225, a Gulf of Mexico case history||#GPS:57:3:1992:420-430|Modelling+Velocity+Reflexion study+Mexico, G. of
J|0388|Samec,P.+Blangy,J.P.|Viscoelastic attenuation, anisotropy, and AVO||#GPS:57:3:1992:441-450|Viscoelastic medium+Attenuation+Anisotropy+Reflexion
J|0389|Alfaraj,M.+Larner,K.|Transformation to zero offset for mode-converted waves||#GPS:57:3:1992:474-477|Converted wave+Zero offset+Transformation+Reflexion data|Short note
J|0390|Qin,F.+Luo,Y.+Olsen,K.B.|Finite-difference solution of the eikonal equation along expanding wavefronts||#GPS:57:3:1992:478-487|Finite difference method+Wavefront+Travel-times
J|0391|Solanki,J.J.|Review of `An introduction to seismological research' by B. F. Howell||#GPS:57:3:1992:505|Review+Seismology+Research
J|0392|Kendall,C.|Review of `Proceedings of the first Archie conference' edited by R. Sneider et al||#GPS:57:3:1992:505-506|Review+Reservoir+Hydrocarbon+Proceedings
J|0393|Kendall,C.|Review of `Stratigraphic traps II, treatise of petroleum geology, atlas of oil and gas fields' compiled by N. H. Foster and E. A. Beaumont||#GPS:57:3:1992:506|Review+Stratigraphy+Trap+Map
J|0394|Tango,G.G.|Review of `Introduction to the physics of the Earth's interior' by J-P. Poirier||#GPS:57:3:1992:507-508|Review+Solid-earth geophysics+Earth model
J|0395|Meek,R.A.+Vassiliou,A.A.|Characterizing three-dimensional wavefields with high-resolution spectra||#GPS:57:4:1992:522-531|High resolution+Wave field+Spectral analysis+Maximum entropy
J|0396|Mason,I.M.+Jackson,G.M.+Lee,D.+|Surface-to-borehole fault imaging in a buried horizontal waveguide - an experimental study in the southern North Sea||#GPS:57:4:1992:532-542|Imaging+Waveguide+North Sea+Borehole
J|0397|Ross,C.P.|Incomplete AVO near salt structures||#GPS:57:4:1992:543-553|Salt+Common midpoint+Shadow zone+Exploration
J|0398|Marion,D.+Nur,A.+Yin,H.+|Compressional velocity and porosity in sand-clay mixtures||#GPS:57:4:1992:554-563|Wave velocity+Laboratory+Porosity+Sand+Clay
J|0399|Kerner,C.|Anisotropy in sedimentary rocks modeled as random media||#GPS:57:4:1992:564-576|Anisotropy+Sedimentary rock+Stochastic method+Layered medium
J|0400|Edelmann,H.A.K.|Circularly polarized shear waves used for VSP measurements||#GPS:57:4:1992:643-646|Shear wave+Vertical seismic profiling+Polarization|Short note
J|0401|Tatham,R.H.+Matthews,M.D.+Sekharan,K.K.+|A physical model study of shear-wave splitting and fracture intensity||#GPS:57:4:1992:647-652|Shear wave splitting+Fracture+Anisotropy+Model
J|0402|Winterstein,D.F.|Discussion on `Field measurements of azimuthal anisotropy: first 60 meters, San Francisco Bay area, CA, and estimation of the horizontal stresses' ratio from VS1/VS2' by H. B. Lynn||#GPS:57:4:1992:653-656|Anisotropy+Terminology+Comments+S-wave|With a reply by the author
J|0403|McMechan,G.A.|Review of `Slant stack processing' edited by G. H. F. Gardner and L. Lu||#GPS:57:4:1992:658|Review+Slant stack+Processing
J|0404|Harbert,W.|Review of `Geology of the U.S.S.R.: a plate tectonics synthesis' by L. P. Zonenshain, M. I. Kuzmin, L. M. Natapov, and edited by B. M. Page||#GPS:57:4:1992:660-661|Review+USSR+Geology+Plate tectonics
J|0405|Wang,L-X.+Mendel,J.M.|Adaptive minimum prediction-error deconvolution and source wavelet estimation using Hopfield neural networks||#GPS:57:5:1992:670-679|Neural network+Deconvolution+Wavelet+Reflectivity
J|0406|Stork,C.|Reflection tomography in the postmigrated domain||#GPS:57:5:1992:680-692|Tomography+Reflexion+Inversion+Migration
J|0407|Miller,R.D.+Pullan,S.E.+Steeples,D.W.+|Field comparison of shallow seismic sources near Chino, California||#GPS:57:5:1992:693-709|California+Field work+Point source+Seismic survey
J|0408|Prasad,M.+Meissner,R.|Attenuation mechanisms in sands: laboratory versus theoretical (Biot) data||#GPS:57:5:1992:710-719|Sand+Attenuation+Laboratory+Biot theory
J|0409|Dvorkin,J.+Mavko,G.+Nur,A.|The dynamics of viscous compressible fluid in a fracture||#GPS:57:5:1992:720-726|Dynamics+Fracture+Fluid
J|0410|Vernik,L.+Nur,A.|Ultrasonic velocity and anisotropy of hydrocarbon source rocks||#GPS:57:5:1992:727-735|Ultrasonic wave+Anisotropy+Velocity+Shale
J|0411|Eaton,D.W.S.+Lawton,D.C.|P-SV stacking charts and binning periodicity||#GPS:57:5:1992:745-748|Converted wave+Stacking|Short note
J|0412|Barnes,A.E.|Another look at NMO stretch||#GPS:57:5:1992:749-751|Moveout+Reflexion data|Short note
J|0413|Davis,T.L.|Review of `Multicomponent seismology in petroleum exploration' by R. H. Tatham and M. D. McCormack||#GPS:57:5:1992:753-754|Review+Exploration+Petroleum
J|0414|Kendall,C.|Review of `Tectonic history of the Bering Sea and the evolution of Tertiary strike-slip basins of the Bering Shelf' by D. W. Worrall||#GPS:57:5:1992:754|Review+Bering Sea+Tectonics
J|0415|Kendall,C.|Review of `Basin and Range extensional tectonics near the latitude of Las Vegas, Nevada' edited by B. P. Wernicke||#GPS:57:5:1992:754-755|Review+Basin & Range+Tectonics
J|0416|Carcione,J.M.|Modeling anelastic singular surface waves in the earth||#GPS:57:6:1992:781-792|Surface wave+Modelling+Propagation+Anelasticity
J|0417|Yoon,K-H.+McMechan,G.A.|3-D finite-difference modeling of elastic waves in borehole environments||#GPS:57:6:1992:793-804|Elastic wave+Borehole+Finite difference method+Modelling
J|0418|Cho,W.H.+Spencer,T.W.|Estimation of polarization and slowness in mixed wavefields||#GPS:57:6:1992:805-814|Polarization+Slowness+Wave field+Algorithm
J|0419|Lee,W.B.+Zhang,L.|Residual shot profile migration||#GPS:57:6:1992:815-822|Shot+Profile+Migration+Moveout
J|0420|Cambois,G.+Stoffa,P.L.|Surface-consistent deconvolution in the log/Fourier domain||#GPS:57:6:1992:823-840|Deconvolution+Common midpoint+Reflexion data
J|0421|Krohn,C.E.+Chen,S.T.|Comparisons of downhole geophones and hydrophones||#GPS:57:6:1992:841-847|Down-hole recording+Geophone+Hydrophone+Instrument
J|0422|Harris,C.E.+McMechan,G.A.|Using downward continuation to reduce memory requirements in reverse-time migration||#GPS:57:6:1992:848-853|Reverse-time migration+Algorithm|Short note
J|0423|Tang,X.M.|A waveform inversion technique for measuring elastic wave attenuation in cylindrical bars||#GPS:57:6:1992:854-859|Elastic wave+Attenuation+Inversion+Laboratory
J|0424|Tango,G.G.|Review of `Oceanic basalts' edited by P. A. Floyd||#GPS:57:6:1992:860|Review+Basalt+Oceanic crust
J|0425|Tango,G.G.|Review of `Seismic well surveying' by J-L. Mari and F. Coppins||#GPS:57:6:1992:861|Review+Well+Seismic survey+Vertical seismic profiling
J|0426|Glahn,A.+Sachs,P.M.+Achauer,U.|A teleseismic and petrological study of the crust and upper mantle beneath the geothermal anomaly Urach/SW-Germany||#PEP:69:3-4:1992:176-206|Urach geothermal anomaly+Crust+Upper mantle+P-wave
J|0427|Matyska,C.+Cadek,O.|Comment on `Lateral variations of the mantle density and fluctuation of the core-mantle boundary' by Z. R. Ye||#PEP:69:3-4:1992:207-216|Comments+Mantle+Core-mantle boundary+Density|With a reply by the author and a further response
J|0428|Guterch,A.+Grad,M.+Materzok,R.+|Laminated structure of the lower crust in the fore-Sudetic region in Poland, derived from seismic data||#PEP:69:3-4:1992:217-223|Structure+Lower crust+Poland+Reflexion study
J|0429|Grad,M.|Seismic structure of the sub-crustal continental lithosphere||#PEP:69:3-4:1992:224-230|Continental lithosphere+Crustal structure+Model+East European Platform
J|0430|Schulze,A.+Luck,E.|Some results of deep seismic investigations in East Germany||#PEP:69:3-4:1992:231-238|Germany+P-wave+Velocity+Crust
J|0431|Perchuc,E.|Distribution of VP/VS in the crystalline complex Earth's crust on SVEKA profile||#PEP:69:3-4:1992:239-245|Deep seismic sounding+Profile+Crust+Finland
J|0432|Sadowiak,P.+Meissner,R.|Correlation of deep seismic reflectivity patterns with tectonic units in western and central Europe||#PEP:69:3-4:1992:246-251|Reflexion study+Europe+Continental crust+Tectonics
J|0433|Meissner,R.+Tanner,B.|Crustal viscosities and seismic velocities||#PEP:69:3-4:1992:252-256|Creep+Velocity+Crust+Energy
J|0434|Wever,T.+Trappe,H.|Seismic evidence for a low-viscosity lower crust beneath the continental deep drilling location, Oberpfalz, Germany||#PEP:69:3-4:1992:257-262|Lower crust+Reflexion study+Oberpfalz+Viscosity
J|0435|Ranalli,G.|Average lithospheric stresses induced by thickness changes: a linear approximation||#PEP:69:3-4:1992:263-269|Lithosphere+Stress+Thickness+Moment
J|0436|Deichmann,N.|Structural and rheological implications of lower-crustal earthquakes below northern Switzerland||#PEP:69:3-4:1992:270-280|Lower crust+Switzerland+Seismicity+Structure
J|0437|Schachinger,M.|Finite element models of stress in eastern Austria during the early Miocene||#PEP:69:3-4:1992:281-293|Austria+Stress+Finite element method+Tectonics
J|0438|Spann,H.|Spectral investigations of hydraulic fracture induced seismic events||#PEP:69:3-4:1992:304-310|Spectral analysis+Hydrofracture+Induced seismicity+Borehole
J|0439|Bormann,P.+Wylegalla,K.+Strauch,W.+|Potsdam seismological station network: processing facilities, noise conditions, detection threshold and localization accuracy||#PEP:69:3-4:1992:311-321|Network+Processing+Noise+Germany
J|0440|Burghardt,T.+Savin,I.V.|Real-time detection by a statistical algorithm||#PEP:69:3-4:1992:322-329|Detection+Processing+Signal+Filtering
J|0441|Dziewonski,A.M.+Ekstrom,G.+Salganik,M.P.+|Centroid-moment tensor solutions for January-March 1991||#PEP:70:1-2:1992:7-15|Centroid-moment tensor+1991|Letter section
J|0442|Sipkin,S.A.+Needham,R.E.|Moment-tensor solutions estimated using optimal filter theory: global seismicity, 1990||#PEP:70:1-2:1992:16-21|Moment tensor+1990+Global seismicity|Letter section
J|0443|Helmberger,D.V.+Zhao,L.S.+Dreger,D.S.+|Exploration of the lower lithosphere; northeastern United States||#PEP:70:1-2:1992:22-38|United States+Lower lithosphere+Broadband seismology+P-wave
J|0444|Biswas,S.+Majumdar,R.K.+Gupta,A.D.|Distribution of stress axes orientation in the Andaman-Nicobar island region: a possible stress model and its significance for extensional tectonics of the Andaman Sea||#PEP:70:1-2:1992:57-63|Stress+Andaman Islands+Focal mechanism+Tectonics
J|0445|Liu,L.+Wu,L.|Bulk modulus and equation of state||#PEP:70:1-2:1992:78-84|Elastic wave+Bulk modulus+Equation of state+Spectral analysis
J|0446|Singh,S.J.+Rani,S.+Garg,N.R.|Displacements and stresses in two welded half-spaces caused by two-dimensional sources||#PEP:70:1-2:1992:90-101|Displacement+Stress+Half-space+Source
J|0447|Ghosh,U.+Mukhopadhyay,A.+Sen,S.|On two interacting creeping vertical surface-breaking strike-slip faults in a two-layer model of the lithosphere||#PEP:70:1-2:1992:119-129|Creep+Strike-slip+Fault+Lithosphere
J|0448|Gubbins,D.|Review of `Les Houches 1988, Session L: oceanographic and geophysical tomography' edited by Y. Desaubies, A. Tarantola and J. Zinn-Justin||#PEP:70:1-2:1992:131-132|Review+Tomography+Oceanography+Geophysics|North-Holland Publishing Company, Amsterdam, 1990, 463p.
J|0449|Tozer,D.C.|Review of `Seismic tomography and mantle circulation' edited by R. K. O'Nions and B. Parsons||#PEP:70:1-2:1992:138-140|Review+Tomography+Mantle convection+Heterogeneity|Royal Society of London Publication, 1989, 154p.
J|0450|Gordeev,E.I.+Saltykov,V.A.+Sinitsyn,V.I.+|Relationship between heating of the ground surface and high-frequency seismic noise||#PEP:71:1-2:1992:1-5|Noise+High frequency+Kamchatka+Heat flow
J|0451|Dziewonski,A.M.+Ekstrom,G.+Salganik,M.P.|Centroid-moment tensor solutions for April-June 1991||#PEP:71:1-2:1992:6-14|Centroid-moment tensor+1991
J|0452|Kagan,Y.Y.|On the geometry of an earthquake fault system||#PEP:71:1-2:1992:15-35|Geometry+Fault+Moment tensor+Focal mechanism
J|0453|Mohan,G.+Rai,S.S.|Imaging of seismic scatterers beneath the Gauribidanur (GBA) array||#PEP:71:1-2:1992:36-45|Imaging+India+Array+Scattering
J|0454|Kamal+Mansinha,L.|A test of the superconducting gravimeter as a long-period seismometer||#PEP:71:1-2:1992:52-60|Long-period seismograph+Gravimetry+Normal mode+Q||#*MINAHASSA90
J|0455|King,R.F.|Review of `Joint interpretation of geophysical and geological data applied to lithospheric studies' edited by P. Giese, D. Roeder and R. Nicolich||#PEP:71:1-2:1992:132-133|Review+Geophysics+Geology+Lithosphere|Kluwer, Dordrecht, 1991, 245p.
J|0456|Patane,D.+Caltabiano,T.+Del Pezzo,E.+|Time variation of b and Qc at Mt. Etna (1981-1987)||#PEP:71:3-4:1992:137-140|b-Value+Q+Mount Etna+1981-1987|Letter section
J|0457|Mulargia,F.|Time association between series of geophysical events||#PEP:71:3-4:1992:147-153|Time series+Seismicity+Mount Etna+Statistical method
J|0458|Dionysiou,D.D.+Papadopoulos,G.A.|Poissonian and negative binomial modelling of earthquake time series in the Aegean area||#PEP:71:3-4:1992:154-165|Time series+Distribution+Modelling+AEgean
J|0459|Sun,W.|Seismic energy distribution in latitude and a possible tidal stress explanation||#PEP:71:3-4:1992:205-216|Distribution+Energy+Latitude+Tide
J|0460|Nazmy,A.S.+Abdel-Ghaffar,A.M.|Effects of ground motion spatial variability on the response of cable-stayed bridges||#EES:21:1:1992:1-20|Ground motion+Bridge+Response+Loading
J|0461|Suarez,L.E.+Singh,M.P.+Rohanimanesh,M.S.|Seismic response of rotating machines||#EES:21:1:1992:21-36|Response+Rotating machine+Mathematical model+Dynamics
J|0462|Niazi,M.+Bozorgnia,Y.|Behaviour of near-source vertical and horizontal response spectra at SMART-1 array, Taiwan||#EES:21:1:1992:37-50|Response+Spectrum+SMART 1 array+Accelerogram
J|0463|Mansur,W.J.+DeLima-Silva,W.|Efficient time truncation in two-dimensional BEM analysis of transient wave propagation problems||#EES:21:1:1992:51-63|Propagation+Boundary element method+Dynamic analysis+Transient wave
J|0464|Liao,Z.P.+Liu,J.B.|Numerical instabilities of a local transmitting boundary||#EES:21:1:1992:65-77|Finite element method+Boundary+Instability+Wave motion
J|0465|Nakashima,M.+Kato,H.+Takaoka,E.+|Development of real-time pseudo dynamic testing||#EES:21:1:1992:79-92|Dynamic analysis+Laboratory+Ground motion+Viscoelastic damping
J|0466|Lu,L.+Yamazaki,F.+Katayama,T.|Soil amplification based on seismometer array and microtremor observations in Chiba, Japan||#EES:21:2:1992:95-108|Array+Microearthquake+Chiba+Ground motion||#*MEXICOCITY|#*LOMAPRIETA89
J|0467|Igusa,T.|A unified mode combination theory for stationary response of structural systems||#EES:21:2:1992:109-126|Structural response+Dynamics+Acceleration+Vibration
J|0468|Todorovska,M.I.+Trifunac,M.D.|The system damping, the system frequency and the system response peak amplitudes during in-plane building-soil interaction||#EES:21:2:1992:127-144|Damping+Frequency+Structural response+Soil-structure interaction
J|0469|Makris,N.+Gazetas,G.|Dynamic pile-soil-pile interaction. Part II: lateral and seismic response||#EES:21:2:1992:145-162|Response+S-wave+Soil-structure interaction+Pile
J|0470|Leger,P.+Dussault,S.|Non-linear seismic response analysis using vector superposition methods||#EES:21:2:1992:163-176|Structural response+El Centro+Loading+Damping
J|0471|Dowrick,D.J.|Attenuation of Modified Mercalli intensity in New Zealand earthquakes||#EES:21:3:1992:181-196|Attenuation+Modified Mercalli intensity+New Zealand+Magnitude
J|0472|Ichinose,T.|A shear design equation for ductile R/C members||#EES:21:3:1992:197-214|Shear+Deformation+Reinforced concrete+Earthquake-resistant design
J|0473|Xia,H.+Humar,J.L.|Frequency dependent Ritz vectors||#EES:21:3:1992:215-231|Structural response+Dynamics+Frequency+Mathematical method
J|0474|Tadjbakhsh,I.G.+Rofooei,F.|Optimal hybrid control of structures under earthquake excitation||#EES:21:3:1992:233-252|Base isolation system+Ground acceleration+Excitation+Earthquake-resistant design
J|0475|Davis,R.O.|Pounding of buildings modelled by an impact oscillator||#EES:21:3:1992:253-274|Harmonic analysis+Impact+Structural response+Oscillator||#*SANFERNANDO|#*MEXICOCITY|#*LOMAPRIETA89
J|0476|Srinivasan,M.+Corotis,R.+Ellingwood,B.|Generation of critical stochastic earthquakes||#EES:21:4:1992:275-288|Excitation+Ground motion+Structural response+El Centro
J|0477|Anagnostopoulos,S.A.+Spiliopoulos,K.V.|An investigation of earthquake induced pounding between adjacent buildings||#EES:21:4:1992:289-302|Impact+Structural response+Strong earthquake+Building||#*SANFERNANDO
J|0478|Kaynia,A.M.+Novak,M.|Response of pile foundations to Rayleigh waves and obliquely incident body waves||#EES:21:4:1992:303-318|Rayleigh wave+Body wave+Pile+Response
J|0479|Wijanto,L.S.+Moss,P.J.+Carr,A.J.|The seismic behaviour of cross-braced steel frames||#EES:21:4:1992:319-340|Steel frame+Structural response+Earthquake-resistant design+Deformation
J|0480|Izutani,Y.+Katagiri,F.|Empirical Green's function corrected for source effect||#EES:21:4:1992:341-349|Ground motion+Source+1983+Japan Sea||#*SEAOFJAPAN
J|0481|Zerva,A.|Seismic ground motion simulations from a class of spatial variability models||#EES:21:4:1992:351-361|Ground motion+Modelling+Stochastic model+Fourier transform
J|0482|Novak,M.|Review of `Soil-structure-interaction analysis in time domain' by J. P. Wolf||#EES:21:4:1992:363|Review+Soil-structure interaction+Time domain+Earthquake engineering|Prentice-Hall, New Jersey, 1988, 446p.
J|0483|Chuhan,Z.+Pekau,O.A.+Feng,J.|Application of FE-BE-IBE coupling to dynamic interaction between alluvial soil and rock canyons||#EES:21:5:1992:367-385|Soil+Rock+Canyon+Ground motion
J|0484|Lu,S.+Hall,W.J.|Torsion in two buildings - 1987 Whittier Narrows earthquake||#EES:21:5:1992:387-407|Torsion+Building+1987+Whittier Narrows||#*WHITTIER
J|0485|Madas,P.+Elnashai,A.S.|A new passive confinement model for the analysis of concrete structures subjected to cyclic and transient dynamic loading||#EES:21:5:1992:409-431|Response+Concrete+Loading+Structural dynamics
J|0486|Pun,W.K.+Ambraseys,N.N.|Earthquake data review and seismic hazard analysis for the Hong Kong region||#EES:21:5:1992:433-443|Hazard+Hong Kong+Intensity+Attenuation
J|0487|Chua,K.H.+Balendra,T.+Lo,K.W.|Groundborne vibrations due to trains in tunnels||#EES:21:5:1992:445-460|Vibration+Tunnel+Soil-structure interaction+Attenuation
J|0488|Berrah,M.+Kausel,E.|Response spectrum analysis of structures subjected to spatially varying motions||#EES:21:6:1992:461-470|Spectral analysis+Structural response+Ground motion+Excitation
J|0489|Inaudi,J.+Lopez-Almansa,F.+Kelly,J.M.+|Predictive control of base-isolated structures||#EES:21:6:1992:471-482|Base isolation system+Structural response+Excitation+Ground motion
J|0490|Rosenblueth,E.+Arciniega,A.|Response spectral ratios||#EES:21:6:1992:483-492|Response+Spectral ratio+Mexico+Ground motion
J|0491|Niazi,M.+Mortgat,C.P.+Schneider,J.F.|Attenuation of peak ground acceleration in central California from observations of the 17 October, 1989 Loma Prieta earthquake||#EES:21:6:1992:493-507|Attenuation+Ground acceleration+1989+Loma Prieta+Earthquake||#*LOMAPRIETA89
J|0492|De Rubeis,V.+Gasparini,C.+Maramai,A.+|The uncertainty and ambiguity of isoseismal maps||#EES:21:6:1992:509-523|Isoseismal map+Macroseismic data+Risk+Seismotectonics
J|0493|Luco,J.E.+Wong,H.L.+Mita,A.|Active control of the seismic response of structures by combined use of base isolation and absorbing boundaries||#EES:21:6:1992:525-541|Structural response+Control+Base isolation system+Absorbing boundary
J|0494|Kulkarni,S.M.+Ng,S.F.|Inclusion of higher modes in the analysis of non-classically damped systems||#EES:21:6:1992:543-549|Damping+Mode+Dynamic analysis+Numerical method
J|0495||Review of `Review of earthquake data for the Hong Kong region'||#EES:21:6:1992:551|Review+Hong Kong+Earthquake catalogue+Risk|GCO Publication No. 1/91, Hong Kong, 1991, 115p.
J|0496||Review of `Engineering analysis using PAFEC finite element software' by C. H. Woodford, E. K. Passaris and J. W. Bull||#EES:21:6:1992:551|Review+Earthquake engineering+Finite element method+Software|Blackie, Glasgow and London, 1992, 209p.
J|0497||Review of `Cyclic loading of soils: from theory to design' edited by M. P. O'Reilly and S. F. Brown||#EES:21:6:1992:551-552|Review+Loading+Soil+Earthquake engineering|Blackie, Glasgow and London; Van Nostrand Reinhold, New York, 1991, 479p.
J|0498||Review of `Seismic effects on structures' by E. Juhasova||#EES:21:6:1992:553|Review+Structural response+Earthquake engineering+Dynamic analysis|Elsevier, Amsterdam; Veda, Bratislava, 1991, 343p.
J|0499|Avouac,J.P.+Meyer,B.+Tapponnier,P.|On the growth of normal faults and the existence of flats and ramps along the El Asnam active fold and thrust system||Tectonics:11:1:1992:1-11|El Asnam+Seismicity+Fault+Surface deformation||#*ELASNAM
J|0500|Cook,F.A.+Varsek,J.L.+Clowes,R.M.+|Lithoprobe crustal reflection cross section of the southern Canadian Cordillera, 1, foreland thrust and fold belt to Fraser River fault||Tectonics:11:1:1992:12-35|Reflexion study+Crust+Canadian Cordillera+Moho
J|0501|Hacker,B.R.+Yin,A.+Christie,J.M.+|Stress magnitude, strain rate, and rheology of extended middle continental crust inferred from quartz grain sizes in the Whipple Mountains, California||Tectonics:11:1:1992:36-46|Stress+Strain+Whipple Mts.+Seismicity
J|0502|Kanaori,Y.+Kawakami,S.+Yairi,K.|The block structure and Quaternary strike-slip block rotation of central Japan||Tectonics:11:1:1992:47-56|Block+Rotation+Japan+Seismicity
J|0503|Forslund,T.+Gudmundsson,A.|Structure of Tertiary and Pleistocene normal faults in Iceland||Tectonics:11:1:1992:57-68|Normal fault+Iceland+Geodetic measurement+Earthquake
J|0504|Morley,C.K.+Cunningham,S.M.+Harper,R.M.+|Geology and geophysics of the Rukwa rift, East Africa||Tectonics:11:1:1992:69-87|Tanzania+Reflexion study+East African Rift+Crustal structure
J|0505|Calais,E.+Bethoux,N.+Mercier de Lepinay,B.|From transcurrent faulting to frontal subduction: a seismotectonic study of the northern Caribbean plate boundary from Cuba to Puerto Rico||Tectonics:11:1:1992:114-123|Seismotectonics+Caribbean Plate+Cuba+Puerto Rico
J|0506|Milsom,J.+Masson,D.+Nichols,G.+|The Manokwari trough and the western end of the New Guinea trench||Tectonics:11:1:1992:145-153|New Guinea+Marine seismic investigation+Trench+Crustal structure
J|0507|Saltzer,S.D.+Pollard,D.D.|Distinct element modeling of structures formed in sedimentary overburden by extensional reactivation of basement normal faults||Tectonics:11:1:1992:165-174|Numerical modelling+Normal fault+Structure+Sediment
J|0508|Unruh,J.R.+Moores,E.M.|Quaternary blind thrusting in the southwestern Sacramento Valley, California||Tectonics:11:1:1992:192-203|Thrust fault+California+Reflexion study+Crustal structure
J|0509|Cashman,S.M.+Kelsey,H.M.+Erdman,C.F.+|Strain partitioning between structural domains in the forearc of the Hikurangi subduction zone, New Zealand||Tectonics:11:2:1992:242-257|New Zealand+Subduction zone+Seismicity+Strain
J|0510|Carr,S.D.|Tectonic setting and U-Pb geochronology of the early Tertiary Ladybird leucogranite suite, Thor-Odin - Pinnacles area, southern Omineca Belt, British Columbia||Tectonics:11:2:1992:258-278|Reflexion study+Canadian Cordillera+Tectonics+Geochronology
J|0511|Frohlich,C.+Apperson,K.D.|Earthquake focal mechanisms, moment tensors, and the consistency of seismic activity near plate boundaries||Tectonics:11:2:1992:279-296|Focal mechanism+Moment tensor+Plate boundary+Seismicity
J|0512|Wdowinski,S.+Axen,G.J.|Isostatic rebound due to tectonic denudation: a viscous flow model of a layered lithosphere||Tectonics:11:2:1992:303-315|Layered medium+Lithosphere+Isostasy+Displacement
J|0513|Knuepfer,P.L.K.|Temporal variations in latest Quaternary slip across the Australian-Pacific plate boundary, northeastern South Island, New Zealand||Tectonics:11:3:1992:449-464|Temporal variation+Slip+New Zealand+Historical seismicity
J|0514|Applegate,B.+Goldfinger,C.+MacKay,M.E.+|A left-lateral strike-slip fault seaward of the Oregon convergent margin||Tectonics:11:3:1992:465-477|Strike-slip+Oregon+Convergence+Marine seismic investigation
J|0515|Goodman,E.D.+Malin,P.E.|Evolution of the southern San Joaquin Basin and mid-Tertiary "transitional" tectonics, central California||Tectonics:11:3:1992:478-498|Great Basin+Evolution+Tectonics+Profile
J|0516|Baby,P.+Herail,G.+Salinas,R.+|Geometry and kinematic evolution of passive roof duplexes deduced from cross section balancing: example from the foreland thrust system of the southern Bolivian Subandean Zone||Tectonics:11:3:1992:523-526|Bolivia+Thrust belt+Reflexion study+Kinematics
J|0517|Bull,J.M.+Martinod,J.+Davy,P.|Buckling of the oceanic lithosphere from geophysical data and experiments||Tectonics:11:3:1992:537-548|Oceanic lithosphere+Folding+Indian Ocean+Profile+Seismicity
J|0518|De Matos,R.M.D.+Brown,L.D.|Deep seismic profile of the Amazonian craton (northern Brazil)||Tectonics:11:3:1992:621-633|Profile+Amazonian craton+Brazil+Crustal structure
J|0519|Brown,J.M.|Review of `Introduction to the physics of the Earth's deep interior' by J-P. Poirier||Physics today:45:3:1992:66-67|Review+Physics+Mineral+Deep structure
J|0520|Wilson,J.T.|Review of `Continents in motion: the New Earth debate' by W. Sullivan||Physics today:45:5:1992:59|Review+Plate tectonics+Geology
J|0521|Nicholson,C.+Lees,J.M.|Travel-time tomography in the northern Coachella Valley using aftershocks of the 1986 ML 5.9 North Palm Springs earthquake||#GRL:19:1:1992:1-4|Tomography+Aftershock+Palm Springs+1986||#*PALMSPRINGS
J|0522|Foley,J.E.+Toksoz,M.N.+Batini,F.|Inversion of teleseismic travel time residuals for velocity structure in the Larderello geothermal field, Italy||#GRL:19:1:1992:5-8|Inversion+Travel-times+Velocity structure+Italy
J|0523|Fujinawa,Y.+Kumagai,T.+Takahashi,K.|A study of anomalous underground electric field variations associated with a volcanic eruption||#GRL:19:1:1992:9-12|Electric field+Eruption+Precursor+1989+Izu Peninsula||#*OFFIZUPEN89C
J|0524|Reinen,L.A.+Weeks,J.D.+Tullis,T.E.|Errata to `The frictional behavior of serpentinite: implications for aseismic creep on shallow crustal faults'||#GRL:19:1:1992:77|Errata+Creep+Friction+Laboratory+Serpentinite
J|0525|Serebryakova,O.N.+Bilichenko,S.V.+Chmyrev,V.M.+|Electromagnetic ELF radiation from earthquake regions as observed by low-altitude satellites||#GRL:19:2:1992:91-94|Aftershock+Satellite+Spitak+Electromagnetic wave||#*ARMENIA88
J|0526|Li,Y.+Thurber,C.H.+Munson,C.G.|Profile of discontinuities beneath Hawaii from S to P converted seismic waves||#GRL:19:2:1992:111-114|Profile+Discontinuity+Hawaii+Converted wave
J|0527|Mocquet,A.+Fukao,Y.|On the source time function of the October 13, 1963 Kurile Islands earthquake||#GRL:19:2:1992:115-118|Source-time function+1963+Kuril Islands+Centroid-moment tensor+Earthquake
J|0528|McCloskey,J.+Bean,C.J.|Time and magnitude predictions in shocks due to chaotic fault interactions||#GRL:19:2:1992:119-122|Chaos+Fault+Prediction+Block
J|0529|Yoshida,Y.+Satake,K.+Abe,K.|The large normal-faulting Mariana earthquake of April 5, 1990 in uncoupled subduction zone||#GRL:19:3:1992:297-300|Normal fault+1990+Marianas+Subduction zone+Earthquake||#*MARIANAS90
J|0530|Satake,K.+Yoshida,Y.+Abe,K.|Tsunami from the Mariana earthquake of April 5, 1990: its abnormal propagation and implications for tsunami potential from outer-rise earthquakes||#GRL:19:3:1992:301-304|Tsunami+Marianas+1990+Propagation||#*MARIANAS90
J|0531|Loo,H-Y.+Gao,X-L.+Sun,J-X.+|Three-dimensional numerical modeling of earthquake migration along a northwestern Pacific subduction slab||#GRL:19:3:1992:313-316|Numerical modelling+Migration+Subduction+Northwest Pacific
J|0532|Linde,A.T.+Gladwin,M.T.+Johnston,M.J.S.|The Loma Prieta earthquake, 1989 and Earth strain tidal amplitudes: an unsuccessful search for associated changes||#GRL:19:3:1992:317-320|Loma Prieta+1989+Strain+Precursor+Earthquake||#*LOMAPRIETA89
J|0533|Pyrak-Nolte,L.J.+Nolte,D.D.|Frequency dependence of fracture stiffness||#GRL:19:3:1992:325-328|Frequency+Fracture+Stiffness+Transmission
J|0534|Stewart,C.A.|Thermal convection in the Earth's mantle: mode coupling induced by temperature-dependent viscosity in a three-dimensional spherical shell||#GRL:19:4:1992:337-340|Convection+Mantle+Mode+Viscosity
J|0535|Tsuboi,S.|Amplitude anomalies of surface waves from the July 16, 1990, Philippine Islands earthquake||#GRL:19:4:1992:341-344|Amplitude+Surface wave+Philippines+1990+Earthquake||#*LUZON90A
J|0536|Jaume,S.C.+Estabrook,C.H.|Accelerating seismic moment release and outer-rise compression: possible precursors to the next great earthquake in the Alaska Peninsula region||#GRL:19:4:1992:345-348|Moment+Compression+Precursor+Alaska
J|0537|Miyatake,T.|Reconstruction of dynamic rupture process of an earthquake with constraints of kinematic parameters||#GRL:19:4:1992:349-352|Dynamics+Rupture+Kinematics+Stress-drop||#*IMPERIAL
J|0538|Wu,J.+Mereu,R.F.|Seismic image of the Ivanhoe Lake fault zone in the Kapuskasing uplift of the Canadian shield||#GRL:19:4:1992:353-356|Image+Kapuskasing+Uplift+Reflexion study
J|0539|Matsumoto,N.+Yomogida,K.+Honda,S.|Fractal analysis of fault systems in Japan and the Philippines||#GRL:19:4:1992:357-360|Japan+Philippines+Fault+Fractal analysis
J|0540|Davy,P.+Sornette,A.+Sornette,D.|Experimental discovery of scaling laws relating fractal dimensions and the length distribution exponent of fault systems||#GRL:19:4:1992:361-363|b-Value+Dimension+Fault+Scaling
J|0541|Henderson,J.+Main,I.G.|A simple fracture-mechanical model for the evolution of seismicity||#GRL:19:4:1992:365-368|Fracture+Mechanics+Seismicity+b-Value
J|0542|Iio,Y.|Slow initial phase of the P-wave velocity pulse generated by microearthquakes||#GRL:19:5:1992:477-480|P-wave+Microearthquake+Initial phase+Velocity
J|0543|Romanowicz,B.|Strike-slip earthquakes on quasi-vertical transcurrent faults: inferences for general scaling relations||#GRL:19:5:1992:481-484|Scaling+Strike-slip+Moment+Large earthquake
J|0544|Hasselgren,E.+Clowes,R.M.+Calvert,A.J.|Propagating rift pseudofaults - zones of crustal underplating imaged by multichannel seismic reflection data||#GRL:19:5:1992:485-488|Crust+Image+Reflexion study+Juan de Fuca
J|0545|Vinnik,L.P.+Farra,V.|Multiple-ScS technique for measuring anisotropy in the mantle||#GRL:19:5:1992:489-492|Mantle+Anisotropy+ScS-wave+Tonga
J|0546|Langseth,M.G.+Becker,K.+Von Herzen,R.P.+|Heat and fluid flux through sediment on the western flank of the Mid-Atlantic Ridge: a hydrogeological study of North Pond||#GRL:19:5:1992:517-520|Heat flow+Mid-Atlantic Ridge+Seismic survey+Sediment
J|0547|Yoshida,Y.+Abe,K.|Source mechanism of the Luzon, Philippines earthquake of July 16, 1990||#GRL:19:6:1992:545-548|Mechanism+Philippines+1990+Broadband seismology+Earthquake||#*LUZON90A
J|0548|Nakanishi,I.+Moriya,T.+Endo,M.+|The November 13, 1990 earthquake off the coast of the Primorskij region, the eastern Russia||#GRL:19:6:1992:549-552|1990+Japan Sea+Mechanism+Primorsk Kray+Earthquake||#*PRIMORSK90
J|0549|Toutain,J-P.+Bachelery,P.+Blum,P-A.+|Real time monitoring of vertical ground deformations during eruptions at Piton de la Fournaise||#GRL:19:6:1992:553-556|Monitoring+Eruption+Surface deformation+1990+Indian Ocean
J|0550|Flatte,S.M.+Xie,X-B.|The transverse coherence function at NORSAR over a wide range of separations||#GRL:19:6:1992:557-560|NORSAR+Coherence+Array+Lithosphere
J|0551|Lesquer,A.+Vasseur,G.|Heat-flow constraints on the West African lithosphere structure||#GRL:19:6:1992:561-564|Heat flow+West Africa+Lithosphere+P-wave
J|0552|Brune,J.N.+Curray,J.R.+Dorman,L.+|A proposed super-thick sedimentary basin, Bay of Bengal||#GRL:19:6:1992:565-568|Bengal, Bay of+Sedimentary basin+Surface wave+Refraction study
J|0553|Hillis,R.R.|A two-layer lithospheric compressional model for the Tertiary uplift of the southern United Kingdom||#GRL:19:6:1992:573-576|Lithosphere+Compression+Reflexion study+United Kingdom
J|0554|Barrientos,S.E.+Plafker,G.+Lorca,E.|Postseismic coastal uplift in southern Chile||#GRL:19:7:1992:701-704|Coast+Uplift+Chile+Great earthquake||#*SANANTONIO
J|0555|Guyoton,F.+Grasso,J-R.+Volant,P.|Interrelation between induced seismic instabilities and complex geological structure||#GRL:19:7:1992:705-708|Induced seismicity+Instability+Geologic structure+France
J|0556|Savage,J.C.|The uncertainty in earthquake conditional probabilities||#GRL:19:7:1992:709-712|Probability+California+Occurrence+Time intervals||#*LOMAPRIETA89
J|0557|Giardini,D.|Moment tensor inversion from MEDNET data (1) large worldwide earthquakes of 1990||#GRL:19:7:1992:713-716|Moment tensor+1990+Large earthquake+MEDNET
J|0558|Carcione,J.M.+Carrion,P.M.|3-D radiation pattern of the drilling bit source in finely stratified media||#GRL:19:7:1992:717-720|Seismic exploration+Radiation+Pattern+Drilling
J|0559|Kanamori,H.+Mori,J.|Harmonic excitation of mantle Rayleigh waves by the 1991 eruption of Mount Pinatubo, Philippines||#GRL:19:7:1992:721-724|Rayleigh wave+Excitation+1991+Mount Pinatubo+Eruption||#*PINATUBO91A|#*PINATUBO91B
J|0560|Zhang,K.|On inertial waves in the Earth's fluid core||#GRL:19:8:1992:737-740|Inertial wave+Core+Hydrodynamics+Oscillation
J|0561|Isaak,D.G.+Anderson,O.L.+Cohen,R.E.|The relationship between shear and compressional velocities at high pressures: reconciliation of seismic tomography and mineral physics||#GRL:19:8:1992:741-744|Shear wave+Compressional wave+High pressure+Tomography
J|0562|Okano,K.+Suetsugu,D.|Search for lower mantle high-velocity zones beneath the deepest Kuril and Mariana earthquakes||#GRL:19:8:1992:745-748|High-velocity layer+Kuril Islands+Marianas+Deep-focus earthquake
J|0563|Sabadini,R.+Giunchi,C.+Gasperini,P.+|Plate motion and dragging of the upper mantle: lateral variations of lithospheric thickness and their implications for intraplate deformation||#GRL:19:8:1992:749-752|Plate motion+Upper mantle+Lithosphere+Deformation
J|0564|Chen,Y.J.|Oceanic crustal thickness versus spreading rate||#GRL:19:8:1992:753-756|Oceanic crust+Spreading+Refraction study+Fracture zone
J|0565|Goldberg,D.+Moos,D.|Physical properties of 110 Ma oceanic crust at site OSN-1: implications for emplacement of a borehole seismometer||#GRL:19:8:1992:757-760|Oceanic crust+Borehole+Hawaii+Ocean sub-bottom seismometer
J|0566|Widmer,R.+Zurn,W.|Bichromatic excitation of long-period Rayleigh and air waves by the Mount Pinatubo and El Chichon volcanic eruptions||#GRL:19:8:1992:765-768|Eruption+Rayleigh wave+Mount Pinatubo+1982||#*PINATUBO91A|#*PINATUBO91B
J|0567|Sibuet,J-C.|Formation of non-volcanic passive margins: a composite model applies to the conjugate Galicia and southeastern Flemish Cap margins||#GRL:19:8:1992:769-772|Passive margin+Lithosphere+Profile+North Atlantic
J|0568|Ponce,L.+Gaulon,R.+Suarez,G.+|Geometry and state of stress of the downgoing Cocos plate in the isthmus of Tehuantepec, Mexico||#GRL:19:8:1992:773-776|Seismicity+Mexico+Stress+Subduction zone
J|0569|Green,H.W.+Scholz,C.H.+Tingle,T.N.+|Acoustic emissions produced by anticrack faulting during the olivine to spinel transformation||#GRL:19:8:1992:789-792|Acoustic emission+Faulting+Phase transformation+Deep-focus earthquake
J|0570|Maeda,Y.+Nakada,M.+Matsumoto,E.+|Crustal tilting derived from Holocene sea-level observations along the east coast of Hokkaido in Japan and upper mantle rheology||#GRL:19:9:1992:857-860|Nemuro+Tilt+Sea level+Rheology||#*NEMUROOKI
J|0571|Majtenyi,S.I.+Foster,E.L.|Propagation velocity of shockwaves and pressure waves in soil and rock||#GRL:19:9:1992:865-868|P-wave+Shock wave+Velocity+Propagation
J|0572|Ishihara,Y.+Fukao,Y.+Yamada,I.+|Rising slope of moment rate functions: the 1989 earthquakes off east coast of Honshu||#GRL:19:9:1992:873-876|Moment+1989+Honshu+Rupture+Earthquake||#*SANRIKU89C|#*SANRIKU89A
J|0573|Sigmundsson,F.|Tectonic implications of the 1989 Afar earthquake sequence||#GRL:19:9:1992:877-880|1989+Afar+Sequence+Tectonics+Earthquake||#*AFAR89A|#*AFAR89B|#*AFAR89C
J|0574|Bourjot,L.+Romanowicz,B.|Crust and upper mantle tomography in Tibet using surface waves||#GRL:19:9:1992:881-884|Tomography+Surface wave+Tibet+Crust+Upper mantle
J|0575|Sylvester,A.G.|Nearfield interseismic vertical strain on the central Garlock fault, southern California, 1984-1991||#GRL:19:10:1992:1037-1040|Strain+Southern California+Seismicity+Levelling
J|0576|Miyatake,T.|Dynamic rupture processes of inland earthquakes in Japan weak and strong asperities||#GRL:19:10:1992:1041-1044|Dynamics+Rupture+Japan+Asperity||#*NAGANO|#*IZUHANTO2|#*IZUHANTO|#*GIFU
J|0577|Christeson,G.L.+Purdy,G.M.+Fryer,G.J.|Structure of young upper crust at the East Pacific Rise near 9degrees30'N||#GRL:19:10:1992:1045-1048|Refraction study+East Pacific Rise+Crustal structure+Spreading
J|0578|Kaneshima,S.+Silver,P.G.|A search for source side mantle anisotropy||#GRL:19:10:1992:1049-1052|Mantle+Anisotropy+Shear wave splitting+Asthenosphere
J|0579|Scrivner,C.+Anderson,D.L.|The effect of post Pangea subduction on global mantle tomography and convection||#GRL:19:10:1992:1053-1056|Tomography+Mantle convection+Pangea+Subduction
J|0580|Stixrude,L.+Bukowinski,M.S.T.|Stability of (Mg,Fe)SiO3 perovskite and the structure of the lowermost mantle||#GRL:19:10:1992:1057-1060|Structure+Lower mantle+Stability+Perovskite
J|0581|Booth,D.C.+Wyss,M.+Gillard,D.|Shear-wave polarization alignments recorded above the Kaoiki fault zone, Hawaii||#GRL:19:11:1992:1141-1144|Shear wave+Polarization+Kaoiki+Anisotropy
J|0582|Volant,P.+Grasso,J-R.+Chatelain,J-L.+|b-value, aseismic deformation and brittle failure within an isolated geological object: evidences from a dome structure loaded by fluid extraction||#GRL:19:11:1992:1149-1152|b-Value+Deformation+Failure+Induced seismicity
J|0583|Holliger,K.+Levander,A.R.|A stochastic view of lower crustal fabric based on evidence from the Ivrea zone||#GRL:19:11:1992:1153-1156|Ivrea+Crustal structure+Model+Heterogeneity
J|0584|Chatelain,J-L.+Grasso,J-R.|Spatial and temporal seismic energy release in the Efate region (central New Hebrides island arc): evidence for buckling?||#GRL:19:11:1992:1157-1160|Energy+New Hebrides+Seismicity+Folding
J|0585|Biasi,G.P.+Humphreys,E.D.|P-wave image of the upper mantle structure of central California and southern Nevada||#GRL:19:11:1992:1161-1164|P-wave+Image+Upper mantle+California+Nevada
J|0586|Shibazaki,B.+Matsu'ura,M.|Spontaneous processes for nucleation, dynamic propagation, and stop of earthquake rupture||#GRL:19:12:1992:1189-1192|Nucleation+Propagation+Rupture+Model
J|0587|Matsumoto,N.|Regression analysis for anomalous changes of ground water level due to earthquakes||#GRL:19:12:1992:1193-1196|Groundwater+Earthquake+Japan+Regression
J|0588|Gu,H-D.+Sun,W-F.|Self-organization and evolution of seismicity|In Chinese with English abstract|#AGS:35:1:1992:25-36|Seismicity+Fractal distribution+Aftershock+Sequence
J|0589|Li,H-J.|Determination of the ground displacement using FFT and modern control engineering|In Chinese with English abstract|#AGS:35:1:1992:37-43|Displacement+Ground motion+Digital recording+Control
J|0590|Shen,X-Z.+Zhu,Z-X.+Liu,S-D.|GMDH modeling on the earthquake magnitude series|In Chinese with English abstract|#AGS:35:1:1992:44-51|Magnitude+Time series+Modelling+Regression
J|0591|Fu,R-S.+Lin,F.+Huang,J-H.|Plate absolute motions and thermal mantle convection|In Chinese with English abstract|#AGS:35:1:1992:52-61|Plate motion+Thermal model+Mantle convection
J|0592|Shao,A-M.+Jin,D-M.+Li,B-X.+|CSJ delay trigger digital recording seismograph|In Chinese with English abstract|#AGS:35:1:1992:62-68|Digital recording+Seismograph+Delay+Trigger
J|0593|Wang,S-R.+Zhu,S-L.+Li,R-C.|Three dimensional inversion of gravity anomalies in the region of Three Gorges, the Yangtze River|In Chinese with English abstract|#AGS:35:1:1992:69-76|Bouguer anomaly+Yangtze River+Deep seismic sounding+Crustal structure
J|0594|Zhang,G-Q.+Liu,F-Q.+Zhang,S-L.|Dip moveout by wavefield transform|In Chinese with English abstract|#AGS:35:1:1992:77-85|Dip+Moveout+Wave field+Stacking
J|0595|Zhu,J-M.+Wang,L-Y.|Finite difference calculation of seismic travel times|In Chinese with English abstract|#AGS:35:1:1992:86-92|Travel-times+Finite difference method+Ray theory+Wave equation
J|0596|Zheng,T-Y.+Yao,Z-X.|Study on strong ground motion in theoretical seismology|In Chinese with English abstract|#AGS:35:1:1992:102-110|Strong-motion analysis+Source+Site+Prediction|Review
J|0597|Shi,X-J.+Niu,Z-R.+Xu,H-M.+|The fractal dimension of the fractured surface of rocks|In Chinese with English abstract|#AGS:35:2:1992:154-159|Fracture+Rock+Fractal analysis+Surface
J|0598|Li,Q-Z.+Bolt,B.A.|Analysis of source mechanisms of the 1979 Coyote Lake earthquake sequence: evidence for that the rupture process of earthquakes in California is simpler than that in Chinese mainland|In Chinese with English abstract|#AGS:35:2:1992:160-173|Mechanism+China+California+Sequence+Rupture||#*COYOTE
J|0599|Zhu,L-B.+Zeng,R-S.|Maslov theoretical seismogram in attenuation medium|In Chinese with English abstract|#AGS:35:2:1992:174-184|Lateral inhomogeneity+Maslov asymptotic theory+Attenuation+Ray theory
J|0600|Cao,B-R.+Xie,X-B.+Yao,Z-X.|Modeling long-period Pnl waveforms at regional ranges in dipping structure|In Chinese with English abstract|#AGS:35:2:1992:185-192|Pnl-wave+Ray theory+Synthetic seismogram+Dipping layer
J|0601|Liu,Q-Y.+Fan,H-J.|The ray-matrix method of synthetic seismograms for different source and receiver structures|In Chinese with English abstract|#AGS:35:2:1992:193-203|Synthetic seismogram+Ray theory+Propagator matrix+Body wave
J|0602|Cai,Y-E.+Yin,Y-Q.+Wang,R.|The influence of thermal state on earthquake occurrence|In Chinese with English abstract|#AGS:35:2:1992:204-213|Focus+Thermal stress+Occurrence+Finite element method
J|0603|Huang,L-J.+Li,Y-M.+Wu,R-S.|The wave-front tracing method for image reconstruction|In Chinese with English abstract|#AGS:35:2:1992:223-233|Wave field+Ray tracing+Travel-times+Imaging
J|0604|Qiao,W-X.+Wang,N.+Yan,C-P.|Reflection and transmission of acoustic wave at a porous solid/porous solid interface|In Chinese with English abstract|#AGS:35:2:1992:242-248|Reflexion+Transmission+Porous medium+Acoustic wave
J|0605|Xiao,J-Y.+Ye,H.+Liu,Z-K.|Automatic extraction of seismogram by computer - intelligent tracking and thinning|In Chinese with English abstract|#AGS:35:2:1992:262-265|Automatic event detector+Seismogram+Computer program|Short contribution
J|0606|Zheng,T-Y.+Yao,Z-X.+Li,S-B.|A method of computing the three-components ground motion at soil sites using the strong motion records at a station|In Chinese with English abstract|#AGS:35:3:1992:295-304|Strong motion+Site+Response+Lulong||#*LULONG82
J|0607|Yao,C.+Wang,P-D.+Chen,Y-T.|Shear-wave polarization and crack induced anisotropy of upper crust in Lulong, north China|In Chinese with English abstract|#AGS:35:3:1992:305-315|Anisotropy+Shear wave splitting+Polarization+Lulong||#*LULONG82
J|0608|Song,Z-H.+An,C-Q.+Chen,G-Y.+|A 3-D shear wave velocity structure beneath the eastern China and its adjacent seas|In Chinese with English abstract|#AGS:35:3:1992:316-330|Shear wave+Velocity structure+East China+Dispersion
J|0609|Guo,G-A.+Feng,R.|The joint inversion of 3-D velocity structure and source parameters in Xinfengjiang reservoir|In Chinese with English abstract|#AGS:35:3:1992:331-342|Tomography+Velocity structure+Xinfengjiang+Reservoir
J|0610|Shen,Y.+Yang,W-C.|Generalized Radon transform and forestack data processing|In Chinese with English abstract|#AGS:35:3:1992:369-379|Radon transform+Stacking+Seismic exploration+Data processing
J|0611|Soffel,H.C.+Bucker,C.H.+Gebrande,H.+|Physical parameters measured on cores and cuttings from the pilot well (0m-4000.1m) of the German Continental Deep Drilling Program (KTB) in the Oberpfalz area, Bavaria, Federal Republic of Germany||Survs Geophys.:13:1:1992:1-34|Physical properties+Borehole+Oberpfalz+Ultrasonic wave
J|0612|Main,I.G.|Review of `Earthquake hazard analysis: issues and insights' by L. Reiter||Survs Geophys.:13:3:1992:297-298|Review+Hazard+Earthquake+Seismotectonics
J|0613|Kozhevnikov,V.M.+Lokshtanov,D.E.+Barmin,M.P.|S-wave pattern in the lithosphere of nine large tectonic regions in Asia|In Russian|#IFZ:-:1:1992:61-70|S-wave+Lithosphere+Pattern+Asia
J|0614|Shapiro,S.A.+Fayzullin,I.S.|Elastic wave scattering by a fractal inhomogeneity|In Russian|#IFZ:-:1:1992:71-84|Elastic wave+Scattering+Fractal+Inhomogeneity
J|0615|Bagayev,S.N.+Orlov,V.A.+Fomin,Yu.N.|Laser strainmeters for high precision geophysical measurements|In Russian|#IFZ:-:1:1992:85-91|Laser+Strainmeter+Measurement+Seismogram
J|0616|Bella,F.+Biagi,P.F.+Della Monica,G.+|Observations of natural electromagnetic emission at earthquakes in central Italy|In Russian|#IFZ:-:1:1992:112-119|Electromagnetic wave+Italy+Earthquake+1987|Scientific communication
J|0617|Sadovsky,M.A.|Applied seismology during the last decades of our century|In Russian|#IFZ:-:2:1992:10-22|Seismology+20th century+Wakayama+Irkutsk
J|0618|Assinovskaya,B.A.+Solovyov,S.L.|The practice of delineation and characterization of seismicity zones in the Barents Sea|In Russian|#IFZ:-:2:1992:23-37|Zoning+Barents Sea+Delineation
J|0619|Rykov,A.V.|Seismometer, and oscillations of the Earth|In Russian|#IFZ:-:2:1992:76-80|Seismometer+Free oscillation+Tilt+Surface wave|Scientific communication
J|0620|Duda,S.J.+Bobsien,M.|Spectral P wave magnitudes determined from wide-band records obtained in Erlangen (FRG) and Obninsk|In Russian|#IFZ:-:3:1992:15-28|P-wave+Magnitude+Broadband seismology+Grafenberg+Obninsk
J|0621|Stovas,A.M.|Born approximation to the acoustic equation in problems of migration and inversion|In Russian|#IFZ:-:3:1992:29-38|Born approximation+Acoustics+Migration+Inversion
J|0622|Mukhamedov,V.A.|On fractal properties and generating mechanisms of high-frequency seismic noise|In Russian|#IFZ:-:3:1992:39-49|Fractal+Generation+High frequency+Noise
J|0623|Borodin,V.I.+Vorobyev,F.A.|Multiple scattering of elastic pulse in sea sediments|In Russian|#IFZ:-:3:1992:56-61|Scattering+Elastic wave+Sediment+Sea floor
J|0624|Polyakova,T.P.+Medvedeva,N.S.+Stepanova,M.B.|Seismicity of the central Mediterranean and the Rudbar, 1990 earthquake|In Russian|#IFZ:-:3:1992:72-79|Seismicity+Mediterranean+Iran+1990+Earthquake|Scientific communication|#*MANJIL90
J|0625|Adushkin,V.V.+Spivak,A.A.+Gorbunova,E.M.+|Main features of groundwater movement during large-scale underground explosions|In Russian|#IFZ:-:3:1992:80-93|Underground explosion+Groundwater+Porosity|Scientific communication
J|0626|Voinov,V.V.+Gufeld,I.L.+Kruglikov,V.V.+|Ionospheric and atmospheric events prior to the Spitak, 1988, 7th November earthquake|In Russian|#IFZ:-:3:1992:96-101|Spitak+1988+Ionosphere+Atmosphere+Earthquake|Scientific communication|#*ARMENIA88
J|0627|Gufeld,I.L.+Rozhnoy,A.A.+Tyumentsev,S.N.+|Radiowave disturbances prior to the Rudbar and Rachinsk earthquake|In Russian|#IFZ:-:3:1992:102-106|Electromagnetic field+Disturbance+Atmosphere+Earthquake|Scientific communication|#*MANJIL90|#*WCAUCASUS91
J|0628|Lykov,V.I.|The main seismicity cycle of the Alpine foldbelt of Asia|In Russian|#RFZ:-:4:1992:3-9|Seismicity+Cycle+Alpide belt+Asia
J|0629|Il'chenko,T.V.|Study of the Ukrainian shield based on DSS data along the Odessa - Krivoy Rog profile|In Russian|#RFZ:-:4:1992:10-19|Ukrainian Shield+Deep seismic sounding+Crust
J|0630|An,V.A.+Luke,E.I.|Cyclic variations of P-wave parameters along Nevada-Borovoye paths|In Russian|#RFZ:-:4:1992:20-31|P-wave+Nevada+Cycle+Borovoye
J|0631|Razin,A.V.|Elastic wave generation by impulsive force normal to a gas-solid interface|In Russian|#RFZ:-:4:1992:32-40|Elastic wave+Interface+Gas+Impulse
J|0632|Shamina,O.G.+Lokaychik,T.|Elastic wave propagation in a physical model of a medium with random inhomogeneities|In Russian|#RFZ:-:4:1992:78-86|Elastic wave+Inhomogeneity+Propagation+Model|Scientific communication
J|0633|Bukchin,B.G.|Preliminary estimates of source parameters for the Rachinsk, April 29, 1991 earthquake|In Russian|#RFZ:-:5:1992:5-13|Earthquake+1991+Caucasus+Source parameter||#*WCAUCASUS91
J|0634|Vinogradov,S.D.+Troitsky,P.A.+Solovyova,M.S.|Elastic wave propagation in a medium with oriented cracks|In Russian|#RFZ:-:5:1992:14-34|Elastic wave+Propagation+Crack+Scattering
J|0635|Nikonov,A.A.|Distribution of strongest observed shocks and potentially seismic zones over the Estonia area|In Russian|#RFZ:-:5:1992:93-99|Strong earthquake+Zoning+Estonia+Seismicity|Scientific communication
J|0636|Aleshin,A.S.+Kovalskaya,I.Ya.+Kuznetsov,V.V.|Phase method of monitoring seismic velocities in real media|In Russian|#RFZ:-:5:1992:100-107|Phase+Velocity+Field work+Vibroseis|Scientific communication
J|0637|Sharov,V.I.|A tectonic earthquake as non-equilibrium thermodynamic process of rock failure|In Russian|#RFZ:-:5:1992:121-127|Earthquake+Tectonics+Thermodynamics+Failure|Discussion
J|0638|Guglielmi,A.V.|On magnetic field of an elastic S-wave|In Russian|#RFZ:-:5:1992:128|S-wave+Magnetic field|Letter to the editor
J|0639|Balakina,L.M.|The Kamchatka, 4.XI.1952 earthquake and its position in seismogenic events of the Kurile-Kamchatka zone|In Russian|#RFZ:-:6:1992:3-19|Kamchatka+Earthquake+1952+Seismogenesis
J|0640|Rastvorova,V.A.|Morphology implications of the source mechanism of the Jergital, 26 October, 1984 earthquake (Tadzhikistan)|In Russian|#RFZ:-:6:1992:20-30|1984+Tadzhikistan+Mechanism+Morphology+Earthquake
J|0641|Dobrovolsky,I.P.|Analysis of preparation of a strong tectonic earthquake|In Russian|#RFZ:-:6:1992:31-47|Strong earthquake+Tectonics+Generation
J|0642|Rodkin,N.V.|On possible relation with seismicity of the Caspian Sea level fluctuations|In Russian|#RFZ:-:6:1992:112-122|Seismicity+Caspian Sea+Sea level|Scientific communication
J|0643|Burmin,V.Yu.+Ngo Thi Li+Kondorskaya,N.V.+|Geometry analysis of the existing seismic network and siting new stations in North Vietnam|In Russian|#RFZ:-:6:1992:123-128|Network+Site+Vietnam+Geometry|Scientific communication
J|0644|Wu,Z-L.+Zang,S-X.|Source parameters of Bohai earthquake, July 18, 1969 and Yongshan earthquake, May 11, 1974 determined by synthetic seismograms of teleseismic P waves||#ASS:5:1:1992:1-9|Synthetic seismogram+P-wave+Bohai+Yongshan+1969+1974+Earthquake||#*YUNGSHAN
J|0645|Yan,M.|Temporal and spatial analysis of regional composite nodal plane solutions for small earthquakes||#ASS:5:1:1992:11-22|First motion+Nodal plane+Small earthquake+China
J|0646|Zang,S-X.+Wu,Z-L.+Li,A-B.|Seismicity and stress state in the South China Sea, Indochina and their vicinity||#ASS:5:1:1992:23-32|Seismicity+South China Sea+Subduction zone+Fault plane solution+Stress
J|0647|Zhuo,Y-R.|A discussion on the amplitude ratios of PP and P waves for earthquakes with different focal mechanisms||#ASS:5:1:1992:33-43|P-wave+PP-wave+Focal mechanism+Amplitude
J|0648|Huan,W-L.+Ge,M.+Chang,X-D.|The features of multiple fractures associated with the great Haiyuan 8.5 magnitude earthquake of 1920||#ASS:5:1:1992:45-56|Great earthquake+1920+Haiyuan+Fracture
J|0649|Li,D-H.+Zuo,H-Q.|Conversion between seismic intensity and peak ground shaking||#ASS:5:1:1992:57-65|Intensity+Ground motion+Site+Building
J|0650|Wu,L-J.+Feng,R.+Huang,Z-M.|The application of wave field continuation for seismic refraction||#ASS:5:1:1992:67-78|Wave field+Refraction study+Inversion+South China Sea
J|0651|Ge,H-C.+Ni,Y-W.+Huang,C-Z.+|The revised mLg scale in six eastern provinces of China||#ASS:5:1:1992:79-86|Lg-wave+Magnitude+Attenuation+China
J|0652|Wang,S-R.+Li,R-H.|Lateral density anomaly distribution in the lower mantle obtained from satellite low order geopotential coefficients||#ASS:5:1:1992:87-99|Density+Lateral variation+Lower mantle+Gravity
J|0653|Koyama,J.+Zheng,S-H.|Seismic intensity distribution of shallow earthquakes due to rupture velocity and faulting modes - nonuniformity of faults of shallow earthquakes and Doppler effect of short period waves||#ASS:5:1:1992:101-113|Intensity+Shallow earthquake+Rupture+Fault||#*SEAOFJAPAN
J|0654|Gao,Y-F.|Geomagnetic daily variations around Huanghai earthquake||#ASS:5:1:1992:127-131|Large earthquake+Geomagnetic variation+1984+Yellow Sea||#*YELLOWSEA
J|0655|Peng,C-Y.+Zhang,X-Y.+Yang,X-P.+|Variations of the geomagnetic field and the geomagnetic effects of three earthquakes (MS>5.0) in Jiangsu Province, China||#ASS:5:1:1992:145-152|Geomagnetic variation+Earthquake+Jiangsu+Precursor||#*YELLOWSEA|#*DAFENG87
J|0656|Zhang,B-C.+Wu,H-M.+Liu,C-Y.+|The effect of stress on pore pressure in rocks and the mechanism of water table anomaly before earthquakes||#ASS:5:1:1992:153-159|Water table+Pore pressure+Stress+Precursor||#*TANGSHAN
J|0657|Liu,C-T.+Geng,N-G.|The experimental study of parameters of rocks under ultrahigh-pressure state||#ASS:5:1:1992:161-168|Velocity+Rock+Shock wave+High pressure
J|0658|Lu,P-L.+Wu,K-T.+Jiao,Y-B.+|The experimental study of acoustic emission during creep of rocks||#ASS:5:1:1992:169-176|Creep+Acoustic emission+b-Value+Sequence
J|0659|Qin,W-P.|On gradings for one-dimensional seismologic predictions||#ASS:5:1:1992:177-185|Prediction+Correlation+Grading
J|0660|Gong,S-J.+Yang,G-J.+Tian,S.+|Research on the time changes of transfer functions at Heze observatory before and after Heze earthquake of magnitude 5.9 - a discussion with Qi Wang||#ASS:5:1:1992:187-195|Geomagnetic variation+Discussion+1983+Heze|Discussion|#*HEZE
J|0661|Li,Y-T.+Guo,Y.|Observations of EM signals prior to earthquake events||#ASS:5:1:1992:211-214|Electromagnetic field+Precursor+Earthquake+Low frequency|Research note|#*XINGTAI85|#*HEZE|#*XINGTAI81
J|0662|Chen,P-S.|Catalogue of earthquakes (March-May, 1991)||#ASS:5:1:1992:221-223|Earthquake catalogue+1991
J|0663|Fu,Z-X.|Focal mechanism of small quakes before and after the Kaoiki, Hawaii, earthquake (MS=6.6) of November 16, 1983||#ASS:5:2:1992:225-235|Focal mechanism+Small earthquake+Kaoiki+1983||#*HAWAII
J|0664|Ma,X-F.+Fu,L-P.|Statistical testing of the relation between burst of aftershocks and strong earthquakes||#ASS:5:2:1992:237-244|Aftershock+Strong earthquake+Precursor+Statistics||#*HAWAII
J|0665|Wang,Z-G.+Guo,Y.+Li,S-L.+|On the seismic regime network method||#ASS:5:2:1992:245-255|Seismicity+Precursor+Seismic zone+Occurrence
J|0666|Ge,H-C.+Huang,C-Z.+Ni,Y-W.+|Lg amplitude ratios H/Z and station terms in six eastern provinces of China||#ASS:5:2:1992:257-261|Lg-wave+Amplitude+China+Station
J|0667|Xu,J-R.+Zhao,Z-X.+Oike,K.|Spatiotemporal distribution of seismic activity in East Asia and its relation to regional stress field||#ASS:5:2:1992:263-269|Seismicity+Stress+Tectonics+Plate motion+East Asia
J|0668|Fu,R-S.+Huang,J-H.|Deep mantle flow, global tectonic pattern and the background of seismic stress field in China||#ASS:5:2:1992:271-281|Mantle convection+Stress field+China+Tectonics
J|0669|Huang,F-M.+Li,Q-F.+Gao,Z-N.|The stress field in the area from the west of Beijing to the Shanxi-Hebei-Nei Mongol border region||#ASS:5:2:1992:283-294|Hebei+Shanxi+Nei Mongol+Beijing+Stress field
J|0670|Xie,J-S.+Shao,H-C.|Determination of QS, spreading factor and S-wave acceleration by inversion of seismic intensity data||#ASS:5:2:1992:295-304|Intensity+S-wave+Acceleration+Inversion
J|0671|Shi,Z-L.+Yan,J-Q.+Gao,M-T.|Research on the principle and methodology of seismic zonation - results of the trials in North China||#ASS:5:2:1992:305-314|Seismic zone+Hazard+Seismicity+North China
J|0672|Zhang,R-F.+Song,Y-H.|Application of system science to the study of the relation between the fault deformation network in the Beijing-Tianjin area and earthquakes||#ASS:5:2:1992:315-323|Fault+Deformation+Beijing+Tianjin||#*TANGSHAN|#*HAICHENG
J|0673|Wang,W.+Lu,Y-Z.|The research of a comprehensive program for earthquake prediction with seismological methods||#ASS:5:2:1992:325-336|Prediction+Occurrence+Strong earthquake+Artificial intelligence
J|0674|Wang,P-D.+Wang,M.+Zhou,J-Y.+|Response spectrum to strong aftershocks of the Lancang-Gengma earthquake||#ASS:5:2:1992:337-342|Aftershock+Yunnan+1988+Response||#*YUNNAN88A|#*YUNNAN88B|#*YUNNAN88C|#*YUNNAN88D
J|0675|Wang,H.+Qiang,Z-J.+Yuan,Z-Z.+|Distribution of seismic intensities of the November 6, 1988, Lancang-Gengma earthquakes and their surface ruptures in Yunnan Province, China||#ASS:5:2:1992:343-354|Intensity+Yunnan+1988+Rupture||#*YUNNAN88A|#*YUNNAN88B
J|0676|Qin,X-L.+Pedersen,L.B.+Zhao,Y-L.+|Conductivity structure of crust in the Tangshan seismic area and the possibility of exploring potential seismic sources by magnetotelluric method||#ASS:5:2:1992:355-365|T'ang-shan+Seismic zone+Magnetotellurics+Conductivity||#*TANGSHAN
J|0677|Xu,Z-Y.+Mei,S-R.+Zhuang,C-T.+|The influence of stiffness of the true triaxial testing machine on the rupturing and acoustic emission of rocks and its correlation with seismic activities||#ASS:5:2:1992:367-379|Acoustic emission+Rock+Rupture+Laboratory
J|0678|Gong,G-Y.+Xie,Y-D.|Research on the diffusion of pore fluid and in-situ hydraulic diffusivity in the epicentral region of Xinfengjiang reservoir earthquakes||#ASS:5:2:1992:381-388|Reservoir+Xinfengjiang+Induced seismicity+Hydraulics
J|0679|Xu,Y-B.|A study on the characteristics of the information dimension D1 of the temporal and spatial distributions of earthquakes in an active fault zone||#ASS:5:2:1992:389-398|Fault+Spatial distribution+Temporal distribution+Prediction||#*LUHUO
J|0680|Zhu,H.+Zou,J-Y.+Xia,F-S.|Characteristics of afferent activity of ampullary electroreceptors in catfish Parasilurus asotus||#ASS:5:2:1992:399-405|Animal behaviour+Prediction
J|0681|Xiong,H.|Recent advances in the research on seismo-electromagnetic emissions||#ASS:5:2:1992:407-412|Review+Seismoelectric effect+Seismomagnetic effect+Precursor+Electromagnetic emission|Review
J|0682|Su,J-Y.+Zhou,X-Y.+Tan,J-A.|Fuzzy predictive model of seismic intensity||#ASS:5:2:1992:413-420|Fuzzy mathematics+Prediction+Intensity+Seismic zone|Research note
J|0683|Jiang,J-C.+Chen,H.+Xu,M-L.|Acoustic behaviour of budgerigar (Melopsittacus undulafus L.) and the mode of its earthquake premonitory call||#ASS:5:2:1992:421-424|Animal behaviour+Prediction|Research note
J|0684|Liu,X-H.+Zhou,Y-S.|Accelerated variation of earth-resistivity as a short-immediate precursor of earthquake||#ASS:5:2:1992:425-430|Resistivity+Precursor+Seismoelectric effect+Yunnan|Research note
J|0685|Chen,P-S.|Catalogue of earthquakes (June-August, 1991)||#ASS:5:2:1992:431-433|Earthquake catalogue+1991
J|0686|Mitlin,Ye.G.+Zorina,Yu.G.|Opening of oceanic and marginal spreading basins: comparative analysis|In Russian with English abstract|#GTK:-:1:1992:21-33|Rifting+Atlantic Ocean+Seismicity+Kinematics
J|0687|Khain,V.Ye.+Zverev,A.T.|Seismic tomography and geodynamics|In Russian with English abstract|#GTK:-:1:1992:34-46|Tomography+Geodynamics+Velocity structure+Lithosphere
J|0688|Lukin,A.Ye.+Vladimirov,A.S.+Yermakov,I.M.+|Pre-Devonian riftogenesis in the Dnepr-Donets aulacogen|In Russian with English abstract|#GTK:-:2:1992:30-46|Seismic survey+Sediment+Structure+Dnepr Basin
J|0689|Kazmin,V.G.+Kogan,L.I.|On the origin of the low-angle reflectors in the oceanic crust of the Mid-Atlantic Ridge|In Russian with English abstract|#OKN:32:2:1992:303-308|Reflexion study+Reflector+Oceanic crust+Mid-Atlantic Ridge
J|0690|Levchenko,O.V.|Detailed investigations of sediment cover in the area of intraplate deformation of the Indian Ocean lithosphere|In Russian with English abstract|#OKN:32:3:1992:532-541|Marine seismic investigation+Indian Ocean+Sediment+Deformation
J|0691|Christoskov,L.|One hundred years of seismology in Bulgaria|In Bulgarian with Russian and English abstracts|#BGS:18:1:1992:3-21|Bulgaria+Seismology+1891-1991+History
J|0692|Solakov,D.+Christoskov,L.+Simeonova,S.+|Results of an experiment on the determination of the chief earthquake parameters by NOTSSI registrations|In Bulgarian with Russian and English abstracts|#BGS:18:1:1992:22-29|Parameters+Error+Duration+Arrival time
J|0693|Al Khoubbi,I.+Christoskov,L.+Dobrev,T.+|On the seismic zoning of the territory of Syria|With Russian abstract|#BGS:18:1:1992:30-36|Syria+Zoning+Seismicity+ISC
J|0694|Ranguelov,B.+Rakova,E.|Statistical investigations of the seismic process along the San Andreas fault|With Russian abstract|#BGS:18:1:1992:37-43|San Andreas Fault+Statistics+Seismic process
J|0695|Dimovski,S.|A logical-multiplied approach and algorithm for an "alternative" geotomography at the geophysical sounding|In Bulgarian with Russian and English abstracts|#BGS:18:1:1992:44-55|Sounding+Tomography+Seismoacoustics+Algorithm
J|0696|Ranguelov,B.|International conference on earthquake prediction in Strasbourg, France, 1991|In Bulgarian|#BGS:18:1:1992:85-86|Prediction+Conference|News in brief
J|0697|Pachova,S.+Yanovskaya,T.B.|Influence of absorption on the spectral amplitude curves of longitudinal waves|In Russian with English abstract|#BGS:18:2:1992:13-20|Model+Absorption+Longitudinal wave+Spectral amplitude
J|0698|Velev,A.+Georgiev,T.+Dolbilkina,N.A.+|Seismic radiation of Sofia seismic zone. Problems and method observations|In Russian with English abstract|#BGS:18:2:1992:21-31|Sofia+Radiation+Explosion seismology+Seismic waves
J|0699|Aleksandrov,S.I.+Velev,A.+Dolbilkina,N.A.+|Seismic radiation of Sofia seismic zone. Polarization-kinematic analysis of the observation results|In Russian with English abstract|#BGS:18:2:1992:32-40|Sofia+Radiation+Polarization+Explosion seismology
J|0700|Dimovski,S.|Methods and computer realization for a ray recovery of the section at the geophysical sounding|In Bulgarian with Russian and English abstracts|#BGS:18:2:1992:40-51|Sounding+Tomography+Ray+Algorithm
J|0701|Stanchev,V.+Mladenovska,Y.|Tilt observations in seismic station "Vitosha"|In Bulgarian with English abstract|#BGS:18:2:1992:52-58|Tilt+Tide+Bulgaria+Instrument
J|0702|Rizhikova,S.|Cyril Yankov|In Bulgarian with Russian and English abstracts|#BGS:18:2:1992:75-78|History+Seismology+Bulgaria
J|0703|Yankov,C.|The seismic station in Sofia|In Bulgarian|#BGS:18:2:1992:79-80|Sofia+Station
J|0704|Stagg,H.M.J.+Willcox,J.B.+Needham,D.J.L.|The Polda Basin - a seismic interpretation of a Proterozoic-Mesozoic rift in the Great Australian Bight||#BMR:13:1:1992:1-13|Australia+Interpretation+Rift+Seismic survey
J|0705|Cooper,W.V.+McKavanagh,B.+Boreham,B.+|The Regional Seismographic Network and seismicity of central Queensland||#BMR:13:2:1992:107-111|Queensland+Network+Seismicity+Historical earthquake
J|0706|McCue,K.F.+McArdle,A.|More on earthquake fatalities in Australia||#BMR:13:2:1992:187-188|Australia+Casualties+Hazard|Note
J|0707|Vartanyan,G.S.|Hydrogeodeformation fields during the Spitak and California earthquakes|In Russian|#SVG:-:1:1992:3-9|Hydrogeology+Spitak+California||#*LOMAPRIETA89|#*ARMENIA88
J|0708|Kunin,N.Ya.+Babadzhanov,T.L.+Rzaeva,V.A.+|The basement surface of oil and gas regions of Uzbekistan|In Russian|#SVG:-:1:1992:57-62|Basement+Crustal structure+Uzbekistan
J|0709|Druzhinin,V.S.+Karmanov,A.B.+Avtoneev,S.V.+|Studying of the structure of the Prejurassic basement of West Siberia by means of three-dimension seismic prospecting, refraction method|In Russian|#SVG:-:3:1992:80-88|Refraction study+West Siberia+Seismic prospecting+Basement
J|0710|Sarkisov,Yu.M.+Kudymov,V.M.+Ovcharenko,A.V.+|New data on the composition, structure and geodynamics of the continental crust|In Russian|#SVG:-:3:1992:88-96|Continental crust+Crustal structure+Geodynamics+Composition
J|0711|Gramberg,I.S.+Volk,V.E.+Verba,V.V.+|The structure of the Earth's crust in the Arctic Ocean|In Russian|#SVG:-:6:1992:47-55|Crustal structure+Arctic Ocean+Oceanic crust
J|0712|Lopatin,B.G.+Musatov,E.E.|Neogene-Quaternary seismostratigraphy of the Barents-Kara shelf|In Russian|#SVG:-:6:1992:56-61|Seismostratigraphy+Neogene+Quaternary+Barents Sea
J|0713|Egorov,N.N.+Popov,V.G.|Helium researches of the Kairakkumskoe earthquake|In Russian|#SVG:-:6:1992:74-80|Helium+Earthquake+Hindu Kush+1986||#*HINDUKUSH86A|#*HINDUKUSH86B
J|0714|Belov,A.P.+Spivak,T.Yu.|The application of muchmeasured mathematic statistics methods for zonation|In Russian|#SVG:-:6:1992:86-91|Statistics+Zonation+Crustal structure
J|0715|Wolfe,E.W.|The 1991 eruptions of Mount Pinatubo, Philippines||#EQV:23:1:1992:5-37|Mount Pinatubo+Eruption+1991+Tremor
J|0716|Person,W.J.|Earthquakes January - February 1991||#EQV:23:1:1992:38-41|Earthquake+1991+Casualties
J|0717|Person,W.J.|Earthquakes March - April 1991||#EQV:23:1:1992:42-47|Earthquake+1991+Casualties
J|0718|Myers,B.|Small explosions interrupt 3-year quiescence at Mount St. Helens, Washington||#EQV:23:2:1992:58-73|Seismicity+Explosion+Mount St. Helens+Tremor
J|0719|Person,W.J.|Earthquakes May-June 1991||#EQV:23:2:1992:77-81|Earthquake+1991+Casualties
J|0720|Person,W.J.|Earthquakes July-August 1991||#EQV:23:2:1992:82-86|Earthquake+1991+Casualties
J|0721||Foreword to Special Issue: the Cape Mendocino earthquakes of April 25-26, 1992||#EQV:23:3:1992:92-93|Triple junction+1992+Strong earthquake+Cape Mendocino||#*PETROLIA92A|#*PETROLIA92B|#*PETROLIA92C
J|0722|Clarke,S.H.|Tectonic framework of the northern California continental margin||#EQV:23:3:1992:94-100|Northern California+Tectonics+Continental margin+Triple junction
J|0723|Dengler,L.|Historical seismicity||#EQV:23:3:1992:101-109|Historical seismicity+Northern California+1906+Strong earthquake||#*PETROLIA92A|#*PETROLIA92B|#*PETROLIA92C|#*HONEYDEW91
J|0724|Michael,A.+Oppenheimer,D.H.+Reasenberg,P.|Preliminary seismological results||#EQV:23:3:1992:110-115|Sequence+Earthquake+1992+Mendocino fracture zone||#*PETROLIA92A|#*PETROLIA92B|#*PETROLIA92C
J|0725|Reagor,G.+Brewer,L.|Damage and intensity survey||#EQV:23:3:1992:116-123|Earthquake+1992+Northern California+Damage||#*PETROLIA92A|#*PETROLIA92B|#*PETROLIA92C
J|0726|Mueller,C.|Strong-motion data||#EQV:23:3:1992:124-126|Strong motion+Earthquake+1992+Northern California||#*PETROLIA92A|#*PETROLIA92B|#*PETROLIA92C
J|0727|Prentice,C.S.+Keefer,D.K.+Sims,J.D.|Surface effects of the earthquakes||#EQV:23:3:1992:127-134|Surface deformation+Earthquake+1992+Northern California||#*PETROLIA92A|#*PETROLIA92B|#*PETROLIA92C
J|0728|Gonzalez,F.I.+Bernard,E.N.|The Cape Mendocino tsunami||#EQV:23:3:1992:135-138|Tsunami+Earthquake+1992+Northern California||#*PETROLIA92A
J|0729|Jayko,A.S.+Marshall,G.A.+Carver,G.A.|Elevation changes||#EQV:23:3:1992:139-143|Uplift+Earthquake+1992+Cape Mendocino||#*PETROLIA92A
J|0730|Person,W.J.|Earthquakes September-October 1991||#EQV:23:3:1992:144-147|Earthquake+1991+Casualties
J|0731|Perlovsky,L.I.|Acoustic critical opalescence of the transitional under-ice layer in the Arctic||#BGT:33:132:1991:237-256|Acoustic wave+Ice+Arctic+Layered medium
J|0732|Teisseyre,K.P.|Primary and crack-induced anisotropy of electric resistivity before earthquakes||#BGT:33:132:1991:257-271|Electrical resistivity+Anisotropy+Crack
J|0733|Bottari,A.+Carveni,P.+Pietrafesa,M.+|Methodological problems in seismic hazard evaluation for the north-eastern Sicily area||#BGT:33:132:1991:273-287|Sicily+Hazard+Maximum intensity+Map
J|0734|Marouani,D.+Shapira,A.|Evaluation of the reliability of a seismic network: the HSSN (Israel) as an example||#BGT:33:132:1991:289-298|Reliability+Network+Israel+Detection
J|0735||Review of `Earthquake resistant construction and design' edited by S. A. Savidis||#BGT:33:132:1991:319|Review+Earthquake-resistant design+Earthquake engineering
J|0736|Turcotte,D.L.|Fractals, chaos, self-organized criticality and tectonics||#TRN:4:1:1992:4-12|Fractal+Chaos+Tectonics+Frequency-magnitude relation|Review
J|0737|Kern,H.+Gueguen,Y.|Structure and composition of the lower continental crust||#TRN:4:1:1992:13|Structure+Composition+Continental crust+Seismic exploration|Introduction to special issue
J|0738|Prodehl,C.+Aichroth,B.|Seismic investigations along the European Geotraverse and its surroundings in Central Europe||#TRN:4:1:1992:14-24|European Geotraverse Project+Central Europe+Refraction study+Crustal structure
J|0739|Boillot,G.+Beslier,M-O.+Comas,M.|Seismic image of undercrusted serpentinite beneath a rifted margin||#TRN:4:1:1992:25-33|Image+Marine seismic investigation+Atlantic Ocean+Portugal
J|0740|Brodie,K.H.+Rutter,E.H.+Evans,P.|On the structure of the Ivrea-Verbano zone (northern Italy) and its implications for present-day lower continental crust geometry||#TRN:4:1:1992:34-40|Ivrea+Crustal structure+Profile+Geology
J|0741|Barruol,G.+Mainprice,D.+Kern,H.+|3D seismic study of a ductile shear zone from laboratory and petrofabric data (Saint Barthelemy Massif, northern Pyrenees, France)||#TRN:4:1:1992:63-76|Reflexion study+Continental crust+Pyrenees+Synthetic seismogram
J|0742|Luschen,E.+Nicolich,R.+Cernobori,L.+|A seismic reflection-refraction experiment across the exposed lower crust in Calabria (southern Italy): first results||#TRN:4:1:1992:77-86|Lower crust+Calabria+Reflexion study+Refraction study
J|0743|Bois,C.|The evolution of the layered lower crust and the Moho through geological time in western Europe: contribution of deep seismic reflection profiles||#TRN:4:1:1992:99-108|Lower crust+Moho+Reflexion study+Western Europe
J|0744|Mengel,K.+Kern,H.|Evolution of the petrological and seismic Moho - implications for the continental crust-mantle boundary||#TRN:4:1:1992:109-116|Evolution+Moho+Ivrea+Velocity
J|0745|Pavlenkova,N.I.|The Kola superdeep drillhole and the nature of seismic boundaries||#TRN:4:1:1992:117-123|Kola Peninsula+Drilling+Deep seismic sounding+Reflector
J|0746|Mouyaris,N.+Papastamatiou,D.+Vita-Finzi,C.|The Helice fault?||#TRN:4:1:1992:124-129|373 B.C.+Corinth, G. of+Historical earthquake+Fault
J|0747|Doglioni,C.|Main differences between thrust belts||#TRN:4:2:1992:152-164|Thrust belt+Tectonics+Subduction+Mantle
J|0748|Ambraseys,N.N.+Karcz,I.|The earthquake of 1546 in the Holy Land||#TRN:4:2:1992:253-262|Earthquake+1546+Jerusalem+Macroseismic data
J|0749|Husebye,E.S.|Review of `The solid Earth' by C. M. R. Fowler||#TRN:4:2:1992:269-270|Review+Solid-earth geophysics+Seismology
J|0750|Jacobson,R.S.|Impact of crustal evolution on changes of the seismic properties of the uppermost ocean crust||#RGS:30:1:1992:23-42|Oceanic crust+Evolution+Velocity+Marine geophysical investigation
J|0751|Anderson,O.L.+Isaak,D.G.+Oda,H.|High-temperature elastic constant data on minerals relevant to geophysics||#RGS:30:1:1992:57-90|High temperature+Elasticity+Mineral+Velocity
J|0752|Moore,J.C.+Vrolijk,P.|Fluids in accretionary prisms||#RGS:30:2:1992:113-135|Fluid+Accretionary prism+Reflexion study+Pore pressure
J|0753|Pilkington,M.+Grieve,R.A.F.|The geophysical signature of terrestrial impact craters||#RGS:30:2:1992:161-181|Impact+Crater+Reflexion study+Refraction study
J|0754|Chou,N-P.+Wang,J-W.|A study on source rupture of the 1978 Lan-Hsu, southeastern Taiwan earthquake||#TAO:3:1:1992:1-20|Rupture+1978+Taiwan+Earthquake+P-wave||#*LANHSU
J|0755|Chiu,H-C.+Huang,H-C.|Azimuth-dependent site amplification||#TAO:3:1:1992:21-37|Site+Amplification+Strong motion+SMART 1 array
J|0756|Huang,E.+Li,A.S.+Yu,S-C.|Compression studies of single-crystal SnO2 and PbO2 in a diamond cell||#TAO:3:2:1992:111-127|Compression+Laboratory+Crystal+Equation of state
J|0757|Ramalingeswara Rao,B.|Seismicity and geodynamics of the low- to high-grade transition zone of peninsula India||#TCT:201:1-2:1992:175-185|Transition zone+India+Seismicity+Geodynamics
J|0758|Ramachandran,C.|P-wave velocity in granulites from South India: implications for the continental crust||#TCT:201:1-2:1992:187-198|Granulite+P-wave+India+Physical properties
J|0759|Ligdas,C.N.+Main,I.G.+Adams,R.D.|Three-dimensional structure and constraints on the nature of the coupled subduction-spreading process in the Aegean area||#TCT:201:3-4:1992:199-207|AEgean+Velocity structure+Lithosphere+Process+ISC
J|0760|Niazi,M.+Karageorgi,E.|Irregular geometry of the Gorda subduction and deep structure of the Eel River basin determined from teleseismic P delays||#TCT:201:3-4:1992:209-228|Deep structure+Gorda Plate+Geometry+P-wave
J|0761|Henriet,J.P.+Meissner,R.+Miller,H.+|Active margin processes along the Antarctic Peninsula||#TCT:201:3-4:1992:229-253|Antarctica+Active margin+Marine geophysical investigation+Profile
J|0762|Hajnal,Z.|Nature of the Canadian polar margin northwest of Axel Heiberg Island||#TCT:201:3-4:1992:255-275|Continental margin+Canada+Marine seismic investigation+Sonic log
J|0763|Krishna,V.G.+Kaila,K.L.+Khandekar,G.|Upper mantle velocity structure in the Mediterranean and surrounding regions from seismological data||#TCT:201:3-4:1992:277-301|Upper mantle+Velocity structure+Mediterranean+Travel-times+ISC
J|0764|Ogasawara,H.|Flexure of the crust estimated from in-situ stress measurements and its relation to tectonics||#TCT:201:3-4:1992:303-315|Flexure+Crust+Stress+Tectonics
J|0765|Kovachev,S.A.+Kuzin,I.P.+Solov'ev,S.L.|Microseismicity of the frontal Hellenic arc according to OBS observations||#TCT:201:3-4:1992:317-327|Microseismicity+Hellenic arc+Ocean-bottom seismograph
J|0766|Ostrovsky,A.A.+Buravtsev,A.A.|Generalized seismic properties of the lithosphere in the northwestern Pacific Basin||#TCT:201:3-4:1992:329-340|Northwest Pacific+Lithosphere+Ocean-bottom seismograph+Wave velocity
J|0767|Bott,M.H.P.+Stern,T.A.|Finite element analysis of Transantarctic Mountain uplift and coeval subsidence in the Ross Embayment||#TCT:201:3-4:1992:341-356|Finite element method+Antarctica+Mountain+Uplift+ISC
J|0768|Nasir,S.|The lithosphere beneath the northwestern part of the Arabian plate (Jordan): evidence from xenoliths and geophysics||#TCT:201:3-4:1992:357-370|Jordan+Lithosphere+Xenolith+Wave velocity
J|0769|Areshidze,G.+Bella,F.+Biagi,P.F.+|Anomalies in geophysical parameters revealed on the occasion of the Paravani (M=5.6) and Spitak (M=6.9) earthquakes (Caucasus)||#TCT:202:1:1992:23-41|Anomaly+Earthquake+1988+1986+Caucasus||#*CAUCASUS86|#*ARMENIA88
J|0770|Knapp,R.B.|Review of `The role of fluids in crustal processes' edited by J. D. Bredehoeft and D. L. Norton||#TCT:202:1:1992:95-96|Review+Crust+Pore fluid+Pore pressure|Papers from a symposium held in 1986
J|0771|Pevnev,A.K.|The prediction of strong earthquakes||#TCT:202:2-4:1992:97-100|Strong earthquake+Prediction+Deformation+Geodetic measurement
J|0772|Groten,E.|Monitoring co- and pre-seismic motion by geodetic techniques||#TCT:202:2-4:1992:101-105|Geodetic measurement+Monitoring+Precursor+Instrument
J|0773|Banyai,L.|The role of the elastic rebound theory in design and evaluation of deformation surveys||#TCT:202:2-4:1992:107-110|Rebound+Deformation+Geodetic survey+Shallow earthquake
J|0774|Papp,G.|Geodynamical monitoring of local areas: a uniform treatment of 2-D geodata based on directional and geometrical analysis||#TCT:202:2-4:1992:111-116|Monitoring+Geodynamics+Harmonic analysis+Fault
J|0775|Ellenberg,J.|Recent fault tectonics and their relations to the seismicity of East Germany||#TCT:202:2-4:1992:117-121|Germany+Seismicity+Fault+Tectonics
J|0776|Cacon,S.|Geodynamic profile of Sniezka-Borowiec as an element of complex investigations of recent crustal movements||#TCT:202:2-4:1992:123-128|Profile+Geodynamics+Crustal movement+Poland
J|0777|Totomanov,I.N.+Georgiev,N.I.+Raev,P.S.|Geodetic data on the Earth's crustal kinematic processes within the Sofia seismo-forecasting test area||#TCT:202:2-4:1992:135-140|Geodetic measurement+Sofia+Crustal movement
J|0778|Radulescu,F.+Ghitau,D.+Nacu,V.+|Study of recent crustal movements in Romania (Gruiu-Caldarusani polygon)||#TCT:202:2-4:1992:141-144|Crustal movement+Romania+Geodetic measurement+Gravity||#*VRANCEA86
J|0779|Fedotov,S.A.+Zharinov,N.A.+Sharoglazova,G.A.+|Deformations of the Earth's surface in the Klyuchi geodynamic polygon, Kamchatka, 1978-1987||#TCT:202:2-4:1992:151-156|Volcano+1978-1987+Kamchatka+Deformation
J|0780|Fedotov,S.A.+Maguskin,M.A.+Kirienko,A.P.+|Vertical ground movements on the coast of the Kamchatka Gulf: their specific features in the epicentral zone of the August 17, 1983, earthquake M = 6.9, before and after||#TCT:202:2-4:1992:157-162|Vertical movement+Kamchatka+1983+Earthquake||#*KAMCHATKA2
J|0781|Belokopytov,V.A.+Guseva,T.V.+Lukk,A.A.+|Present-day geodynamics and seismicity in the Garm test area, Tadjikistan||#TCT:202:2-4:1992:163-167|Garm+Geodynamics+Seismicity+Tectonics
J|0782|Bakhtiarov,V.F.+Levin,V.E.+Saprykin,A.V.|Geodimeter measurements from Mishennaya Observatory: analysis of observation results||#TCT:202:2-4:1992:173-176|Geodetic measurement+Petropavlovsk-Kamchatskii+Deformation+1979-1989||#*KAMCHATKA87A|#*KAMCHATKA87B
J|0783|Shapiro,S.A.+Fayzullin,I.S.|Fractal properties of fault systems by scattering of body seismic waves||#TCT:202:2-4:1992:177-181|Scattering+Body wave+Fractal+Fault
J|0784|Rousseau,A.|A new geodynamic model for the seismicity and in situ stresses of the Mediterranean region||#TCT:202:2-4:1992:183-201|Seismicity+Mediterranean+Geodynamic model+Stress
J|0785|Levy,E.I.|Possible prediction-modulation effect in the short-period sea-wave microseisms||#TCT:202:2-4:1992:203-207|Sea wave+Microseism+Balkans+Modulation+Precursor||#*STRAZHITSA
J|0786|Dubrov,M.N.+Alyoshin,V.A.|Laser strainmeters: new developments and earthquake prediction applications||#TCT:202:2-4:1992:209-213|Laser+Strainmeter+Instrument+Prediction
J|0787|Pirouzian,S.A.|Concerts of earthquakes and transverse dislocations in the Caucasus||#TCT:202:2-4:1992:215-219|Historical earthquake+Caucasus+Dislocation+Tremor||#*ARMENIA88
J|0788|Nersesov,I.L.+Latynina,L.A.|Strain processes before the Spitak earthquake||#TCT:202:2-4:1992:221-225|Strain+Earthquake+1988+Spitak||#*ARMENIA88
J|0789|Agaronian,V.G.+Geodakian,E.G.+Danilova,M.A.+|Aftershock focal mechanisms of the Spitak earthquake||#TCT:202:2-4:1992:227-231|Aftershock+Spitak+Earthquake+1988||#*ARMENIA88
J|0790|Bragin,V.D.+Volykhin,A.M.+Trapeznikov,Yu.A.|Electrical resistivity variations and moderate earthquakes||#TCT:202:2-4:1992:233-238|Moderate earthquake+Electrical resistivity+Tien Shan+Anomaly
J|0791|Osokina,D.N.+Kuznetsova,K.I.+Bagmanova,N.Kh.|Local stress and strain fields near a fault as indicators of movement on its surface: mechanics and seismicity||#TCT:202:2-4:1992:239-246|Seismicity+Mechanics+Stress field+Pamir
J|0792|Soboleva,O.V.+Starkov,V.I.+Starkova,E.Ya.|Different scale deformations in the transition zone of the Tadjik Depression, southern Tien Shan||#TCT:202:2-4:1992:247-250|Deformation+Tien Shan+Transition zone+Subsurface
J|0793|Kesselman,S.I.+Kotliar,P.E.+Kuchay,O.A.+|Deformations of the near-surface part of the Earth's crust by seismologic and geodetic data obtained on Baikal geodynamic polygons||#TCT:202:2-4:1992:251-256|Baikal+Deformation+Geodetic measurement+Subsurface
J|0794|Lo Giudice,E.+Rasa,R.|Very shallow earthquakes and brittle deformation in active volcanic areas: the Etnean region as an example||#TCT:202:2-4:1992:257-268|Shallow earthquake+Mount Etna+Volcano+Deformation
J|0795|Bottari,A.+Carveni,P.+Lo Giudice,E.+|Anomalous crustal movements prior to great earthquakes as derived from tide-gauge records: the Messina, 1908, I = XI, earthquake case history||#TCT:202:2-4:1992:269-275|1908+Messina+Great earthquake+Sea level
J|0796|Simon,D.|Improvements in the supervision of mining areas and seismoactive regions by measurements of antiparallel tilts||#TCT:202:2-4:1992:277-283|Mining+Strain+Earthquake engineering
J|0797|Glowacka,E.|Application of the extracted volume of a deposit as a measure of deformation for seismic hazard evaluation in mines||#TCT:202:2-4:1992:285-290|Mine+Deformation+Hazard+Induced seismicity
J|0798|Vernette,G.+Mauffret,A.+Bobier,C.+|Mud diapirism, fan sedimentation and strike-slip faulting, Caribbean Colombian margin||#TCT:202:2-4:1992:335-349|Seismic survey+Diapirism+Sedimentation+Faulting+Colombia
J|0799|Arieh,E.+Rotwain,I.+Steinberg,J.+|Diagnosis of time of increased probability of strong earthquakes in the Jordan-Dead Sea rift zone||#TCT:202:2-4:1992:351-359|Strong earthquake+Probability+Jordan+Prediction
J|0800|Verma,R.K.+Banerjee,P.|Nature of continental crust along the Narmada-Son Lineament inferred from gravity and deep seismic sounding data||#TCT:202:2-4:1992:375-397|Continental crust+Gravity+Deep seismic sounding+Narmada-Son lineament
J|0801|Torne,M.+Pascal,G.+Buhl,P.+|Crustal and velocity structure of the Valencia trough (western Mediterranean), Part I. A combined refraction/wide-angle reflection and near-vertical reflection study||#TCT:203:1-4:1992:1-20|Valencia+Velocity structure+Crust+Marine seismic investigation
J|0802|Pascal,G.+Torne,M.+Buhl,P.+|Crustal and velocity structure of the Valencia trough (western Mediterranean), Part II. Detailed interpretation of five expanded spread profiles||#TCT:203:1-4:1992:21-35|Crust+Velocity structure+Valencia+Marine seismic investigation
J|0803|Danobeitia,J.J.+Arguedas,M.+Gallart,J.+|Deep crustal configuration of the Valencia trough and its Iberian and Balearic borders from extensive refraction and wide-angle reflection seismic profiling||#TCT:203:1-4:1992:37-55|Crustal structure+Valencia+Seismic survey+Oceanic basin
J|0804|Maillard,A.+Mauffret,A.+Watts,A.B.+|Tertiary sedimentary history and structure of the Valencia trough (western Mediterranean)||#TCT:203:1-4:1992:57-75|Valencia+Common depth point+Sedimentary basin+History
J|0805|Foucher,J-P.+Mauffret,A.+Steckler,M.+|Heat flow in the Valencia trough: geodynamic implications||#TCT:203:1-4:1992:77-97|Valencia+Crustal thickness+Heat flow+Geodynamics
J|0806|Olivera,C.+Susagna,T.+Roca,A.+|Seismicity of the Valencia trough and surrounding areas||#TCT:203:1-4:1992:99-109|Valencia+Seismicity+Epicentre+Fault plane solution
J|0807|Canas,J.A.+Pujades,L.G.|The Valencia trough: coda-Q||#TCT:203:1-4:1992:125-132|Valencia+Coda+Q
J|0808|Morgan,P.+Fernandez,M.|Neogene vertical movements and constraints on extension in the Catalan Coastal Ranges, Iberian Peninsula, and the Valencia trough (western Mediterranean)||#TCT:203:1-4:1992:185-201|Neogene+Iberian Peninsula+Lithosphere+Valencia
J|0809|Roca,E.+Guimera,J.|The Neogene structure of the eastern Iberian margin: structural constraints on the crustal evolution of the Valencia trough (western Mediterranean)||#TCT:203:1-4:1992:203-218|Reflexion study+Neogene+Iberian Peninsula+Valencia
J|0810|Bartrina,M.T.+Cabrera,L.+Jurado,M.J.+|Evolution of the central Catalan margin of the Valencia trough (western Mediterranean)||#TCT:203:1-4:1992:219-247|Valencia+Evolution+Continental margin+Reflexion study
J|0811|Escutia,C.+Maldonado,A.|Palaeogeographic implications of the Messinian surface in the Valencia trough, northwestern Mediterranean Sea||#TCT:203:1-4:1992:263-284|Reflexion study+Valencia+Marine seismic investigation+Drilling
J|0812|Mauffret,A.+Maillard,A.+Pascal,G.+|Long-listening multichannel seismic profiles in the Valencia trough (Valsis 2) and the Gulf of Lions (ECORS): a comparison||#TCT:203:1-4:1992:285-304|Valencia+ECORS+Marine seismic investigation+Well
J|0813|Van der Beek,P.+Cloetingh,S.|Lithospheric flexure and the tectonic evolution of the Betic Cordilleras (SE Spain)||#TCT:203:1-4:1992:325-344|Flexure+Evolution+Betic Cordillera+Crustal structure
J|0814|Lyberis,N.+Yurur,T.+Chorowicz,J.+|The East Anatolian Fault: an oblique collisional belt||#TCT:204:1-2:1992:1-15|Triple junction+Anatolia+Fault+Tectonics
J|0815|Green,W.V.+Meyer,R.P.|Array observations of PKP phases across the Kenya Rift: implications for structure and tectonics||#TCT:204:1-2:1992:41-58|PKP-wave+Kenya+Rift+Tectonics
J|0816|Swain,C.J.|The Kenya Rift axial gravity high: a re-interpretation||#TCT:204:1-2:1992:59-70|KRISP+Kenya+Rift+Gravity
J|0817|Tongue,J.A.+Maguire,P.K.H.+Young,P.A.V.|Seismicity distribution from temporary earthquake recording networks in Kenya||#TCT:204:1-2:1992:71-79|Seismicity+Kenya+Spatial distribution+Network
J|0818|Du,Y.+Aydin,A.|Three-dimensional characteristics of dike intrusion along the northern Iceland Rift from inversion of geodetic data||#TCT:204:1-2:1992:111-121|Iceland+Dike+Swarm+Geodetic measurement
J|0819|Haggert,K.+Cox,S.J.D.+Jessell,M.W.|Observation of fault gouge development in laboratory see-through experiments||#TCT:204:1-2:1992:123-136|Laboratory+Fault+Gouge+Microfracture
J|0820|Seber,D.+Mitchell,B.J.|Attenuation of surface waves across the Arabian peninsula||#TCT:204:1-2:1992:137-150|Surface wave+Arabia+Spectrum+Q
J|0821|Gahalaut,V.K.+Chander,R.|A rupture model for the great earthquake of 1897, northeast India||#TCT:204:1-2:1992:163-174|Rupture+1897+India+Great earthquake
J|0822|Lomnitz-Adler,J.+Lomnitz,C.|Review of `Principles of earthquake source mechanics' by B. V. Kostrov and S. Das||#TCT:204:1-2:1992:183-184|Review+Mechanics+Dynamics+Rupture
J|0823|Husebye,E.S.|Review of `Seismic noise attenuation' by E. Kanasewich||#TCT:204:1-2:1992:188-189|Review+Noise+Suppression+Filtering
J|0824|Berckhemer,H.|Review of `The German continental deep drilling program (KTB): site selection studies in the Oberpfalz and Schwarzwald' edited by R. Emmermann and J. Wohlenberg||#TCT:204:1-2:1992:189-190|Review+Drilling+Deep structure+Variscan
J|0825|Rikitake,T.|Review of `Seismology and plate tectonics' by D. Gubbins||#TCT:204:1-2:1992:191-192|Review+Seismology+Plate tectonics
J|0826|Olsson,R.+Skordas,E.|The seismicity of Fennoscandia||#TCT:204:1-2:1992:193-195|Seismicity+Fennoscandia+Mid-Atlantic Ridge+1900-1987|Letter section
J|0827|Spray,J.G.|A physical basis for the frictional melting of some rock-forming minerals||#TCT:204:3-4:1992:205-221|Friction+Melting+Slip+Mineral
J|0828|Swanson,M.T.|Fault structure, wear mechanisms and rupture processes in pseudotachylyte generation||#TCT:204:3-4:1992:223-242|Fault+Rupture+Pseudotachylyte+Slip
J|0829|Koch,N.+Masch,L.|Formation of Alpine mylonites and pseudotachylytes at the base of the Silvretta nappe, eastern Alps||#TCT:204:3-4:1992:289-306|Alps+Mylonite+Pseudotachylyte+Deformation
J|0830|Techmer,K.S.+Ahrendt,H.+Weber,K.|The development of pseudotachylyte in the Ivrea-Verbano zone of the Italian Alps||#TCT:204:3-4:1992:307-322|Alps+Pseudotachylyte+Palaeoseismicity
J|0831|Liu,Q-S.+Gao,S.|Geophysical properties of the lower crustal granulites from the Qinling orogenic belt, China||#TCT:204:3-4:1992:401-408|Granulite+China+Lower crust+P-wave
J|0832|Fuenzalida,A.+Pardo,M.+Cisternas,A.+|On the geometry of the Nazca Plate subducted under central Chile (32-34.5degreesS) as inferred from microseismic data||#TCT:205:1-3:1992:1-11|Nazca Plate+Microseismicity+Geometry+Subduction
J|0833|Comte,D.+Pardo,M.+Dorbath,L.+|Crustal seismicity and subduction morphology around Antofagasta, Chile: preliminary results from a microearthquake survey||#TCT:205:1-3:1992:13-22|Chile+Seismicity+Microearthquake+Subduction
J|0834|Lindo,R.+Dorbath,C.+Cisternas,A.+|Subduction geometry in central Peru from a microseismicity survey: first results||#TCT:205:1-3:1992:23-29|Geometry+Subduction+Peru+Microseismicity
J|0835|Introcaso,A.+Pacino,M.C.+Fraga,H.|Gravity, isostasy and Andean crustal shortening between latitudes 30 and 35degreesS||#TCT:205:1-3:1992:31-48|Gravity+Velocity structure+Andes+Crust
J|0836|Dewey,J.F.+Lamb,S.H.|Active tectonics of the Andes||#TCT:205:1-3:1992:79-95|Andes+Fault plane solution+Plate boundary+Tectonics
J|0837|Tibaldi,A.+Ferrari,L.|Latest Pleistocene-Holocene tectonics of the Ecuadorian Andes||#TCT:205:1-3:1992:109-125|Andes+Tectonics+Seismicity+Ecuador||#*ECUADOR87A|#*ECUADOR87B|#*ECUADOR87C
J|0838|Wang,Z.+Stein,C.A.|Subsidence of the Gulf of Papua in the Cenozoic||#TCT:205:4:1992:409-426|Papua New Guinea+Cenozoic+Subsidence+Reflexion study
J|0839|Liakopoulou,F.+Pearce,R.G.+Main,I.G.|Errata to `Source mechanisms of recent earthquakes in the Hellenic Arc from broadband data'||#TCT:205:4:1992:453-454|Errata+Hellenic arc+Focal mechanism+Large earthquake
J|0840|Marty,B.+O'Nions,R.K.+Oxburgh,E.R.+|Helium isotopes in Alpine regions||#TCT:206:1-2:1992:71-78|Helium+Isotope+Alps+Crustal thickness
J|0841|Cojan,I.+Thiry,M.|Seismically induced deformation structures in Oligocene shallow-marine and aeolian coastal sands (Paris Basin)||#TCT:206:1-2:1992:79-89|Paris+Liquefaction+Deformation+Sand
J|0842|Campos-Enriquez,J.O.+Hubral,P.+Wenzel,F.+|Gravity and magnetic constraints on deep and intermediate crustal structure and evolution models for the Rhine Graben||#TCT:206:1-2:1992:113-135|Rhine-Graben+Gravity+Crustal structure+DEKORP+Geomagnetic field
J|0843|Godano,A.+Bottari,A.+Cocina,O.+|Depth dependence of seismic attenuation in the Messina Strait area||#TCT:206:1-2:1992:137-146|Depth+Messina, Straits of+Coda+Q
J|0844|Shanov,S.+Spassov,E.+Georgiev,T.|Evidence for the existence of a paleosubduction zone beneath the Rhodopean massif (central Balkans)||#TCT:206:3-4:1992:307-314|Rhodope+Subduction zone+Source parameter+Fault plane solution
J|0845|Negi,J.G.+Agrawal,P.K.+Singh,A.P.+|Bombay gravity high and eruption of Deccan flood basalts (India) from a shallow secondary plume||#TCT:206:3-4:1992:341-350|Deccan+Deep seismic sounding+Bouguer anomaly+Plume
J|0846|Pinet,N.+Cobbold,P.R.|Experimental insights into the partitioning of motion within zones of oblique subduction||#TCT:206:3-4:1992:371-388|Philippines+Subduction+Strike-slip+Plate boundary
J|0847|Ahjos,T.+Uski,M.|Earthquakes in northern Europe in 1375-1989||#TCT:207:1-2:1992:1-23|Earthquake catalogue+1375-1989+Northern Europe+Epicentre||#*SNORWAY89
J|0848|Marquart,G.+Lelgemann,D.|On the interpretation of geoid anomalies in Europe with special regard to the EGT profiles||#TCT:207:1-2:1992:25-42|European Geotraverse Project+Geoid+Profile+Anomaly
J|0849|Aichroth,B.+Prodehl,C.+Thybo,H.|Crustal structure along the central segment of the EGT from seismic-refraction studies||#TCT:207:1-2:1992:43-64|Velocity structure+European Geotraverse Project+Refraction study+Crust+Variscan
J|0850|Brink,H.J.+Durschner,H.+Trappe,H.|Some aspects of the late and post-Variscan development of the northwestern German Basin||#TCT:207:1-2:1992:65-95|European Geotraverse Project+Germany+Deep seismic sounding+Geophysical investigation+Variscan
J|0851|Grosse,S.+Behr,H.J.+Edel,J.B.+|The gravity field along the central segment of the EGT||#TCT:207:1-2:1992:97-121|European Geotraverse Project+Map+Moho+Bouguer anomaly+Central Europe
J|0852|a-ERCEUGT Group|An electrical resistivity crustal section from the Alps to the Baltic Sea (central segment of the EGT)||#TCT:207:1-2:1992:123-139|European Geotraverse Project+Electrical resistivity+Crust+Central Europe
J|0853|Babuska,V.+Plomerova,J.|The lithosphere in central Europe - seismological and petrological aspects||#TCT:207:1-2:1992:141-163|Lithosphere+Central Europe+Residual+Anisotropy
J|0854|Maurer,H.+Ansorge,J.|Crustal structure beneath the northern margin of the Swiss Alps||#TCT:207:1-2:1992:165-181|Swiss Alps+Reflexion study+Refraction study+Crustal structure
J|0855|Roth,Ph.+Pavoni,N.+Deichmann,N.|Seismotectonics of the eastern Swiss Alps and evidence for precipitation-induced variations of seismic activity||#TCT:207:1-2:1992:183-197|Seismotectonics+Swiss Alps+Trigger+Rainfall
J|0856|a-Research Group for Lithospheric Structure in Tunisia|The EGT'85 seismic experiment in Tunisia: a reconnaissance of the deep structures||#TCT:207:1-2:1992:245-267|European Geotraverse Project+Tunisia+Deep structure+Refraction study
J|0857|Farsi,M.N.|Damage and countermeasures of masonry structures in Algeria||#IIS:26:-:1992:1-16|Algeria+Damage+Antiseismic design+Masonry structure||#*ELASNAM|#*ALGERIA89
J|0858|Villafane,E.|Realities on earthquake engineering in Argentina||#IIS:26:-:1992:17-38|Argentina+Earthquake engineering+Building code+Masonry structure||#*SANJUAN
J|0859|Monguilner,C.A.|Damage and countermeasures of masonry structure in west Argentine||#IIS:26:-:1992:39-49|Damage+Antiseismic design+Masonry structure+Argentina||#*SANJUAN
J|0860|Steren,S.G.|Damage and countermeasures of masonry structure in Argentina||#IIS:26:-:1992:51-57|Damage+Antiseismic design+Masonry structure+Argentina||#*SANJUAN
J|0861|Sarrazin A.,M.J.|Masonry construction in Chile||#IIS:26:-:1992:59-78|Chile+Damage+Masonry structure+Antiseismic design||#*SANANTONIO
J|0862|Jaramillo J.,J.O.|Damages in masonry structures and countermeasures||#IIS:26:-:1992:79-81|Damage+Masonry structure+Antiseismic design+Colombia
J|0863|Sobaih,M.E.H.|Note on damage and countermeasures of masonry structures in Egypt||#IIS:26:-:1992:83|Damage+Masonry structure+Antiseismic design+Egypt|Note
J|0864|Deras,J.A.R.|Damage and countermeasures of masonry buildings in El Salvador and fundamental characteristics of masonry components in El Salvador||#IIS:26:-:1992:85-97|El Salvador+Damage+Antiseismic design+Masonry structure
J|0865|Elizondo,R.A.L.|Damage and countermeasures of masonry structure in El Salvador||#IIS:26:-:1992:99-114|El Salvador+Damage+Antiseismic design+Masonry structure||#*SALVADOR86
J|0866|Manos,G.C.+Demosthenous,M.|Damage of masonry structure in Greece||#IIS:26:-:1992:115-133|Damage+Masonry structure+Greece+Antiseismic design||#*THESSALONIKI|#*KALAMATA
J|0867|Arce-Valenzuela,A.|Damage and countermeasure of masonry structures in Guatemala||#IIS:26:-:1992:135-149|Damage+Antiseismic design+Masonry structure+Guatemala||#*GUATEMALA
J|0868|Tuladhar,M.R.|Earthquake damages and building construction||#IIS:26:-:1992:151-176|Damage+Antiseismic design+Nepal+Masonry structure||#*NEPAL|#*BIHAR88
J|0869|Mahmood,H.|Damages in masonry structures and counter measures||#IIS:26:-:1992:177-184|Damage+Masonry structure+Antiseismic design+Pakistan
J|0870|Hakim,A.|Damages and countermeasures of masonry in Pakistan||#IIS:26:-:1992:185-189|Damage+Antiseismic design+Masonry structure+Pakistan||#*NPAKISTAN74|#*DAREL
J|0871|Lopez Acuna,J.|Masonry structures in Peru||#IIS:26:-:1992:191-196|Peru+Damage+Antiseismic design+Masonry structure
J|0872|Torres V.,R.A.|Country report on damage and countermeasure of masonry structure in Peru||#IIS:26:-:1992:197-203|Damage+Antiseismic design+Masonry structure+Peru||#*LIMA
J|0873|Bayulke,N.|The state of masonry buildings in Turkiye||#IIS:26:-:1992:205-224|Turkey+Damage+Masonry structure+Antiseismic design
J|0874|Farsi,M.N.|Reedition history of seismic design code in Algeria||#IIS:26:-:1992:225-239|Building code+Algeria+History||#*ELASNAM
J|0875|Monguilner,C.A.|Reedition history of seismic design code in Argentina||#IIS:26:-:1992:241-242|Building code+Argentina+History
J|0876|Steren,S.G.|Reedition history of seismic code in Argentina||#IIS:26:-:1992:243-245|History+Building code+Argentina
J|0877|Sarrazin A.,M.J.|History of Chilean seismic regulations||#IIS:26:-:1992:247-260|History+Building code+Chile||#*SANANTONIO
J|0878|Jaramillo J.,J.O.|Reedition of Colombian code for earthquake resistant structures||#IIS:26:-:1992:261-277|History+Colombia+Building code||#*COLOMBIAN|#*POPAYAN
J|0879|Sobaih,M.E.H.|Appraisal of current aseismic design regulations in Egypt||#IIS:26:-:1992:279-292|Egypt+History+Building code
J|0880|Deras,J.A.R.|Seismic design code of El Salvador||#IIS:26:-:1992:293-305|El Salvador+Building code+History||#*SALVADOR86
J|0881|Elizondo,R.A.L.|Reedition history of seismic design code in El Salvador||#IIS:26:-:1992:307-323|History+Building code+El Salvador||#*SALVADOR86
J|0882|Manos,G.C.+Demosthenous,M.|Reedition history of seismic design code in Greece||#IIS:26:-:1992:325-335|History+Building code+Greece
J|0883|Arce-Valenzuela,A.|Proposal of seismic design regulation for Guatemala||#IIS:26:-:1992:337-360|History+Building code+Guatemala
J|0884|Tuladhar,M.R.|Code of technical requirements for construction of buildings in seismic regions of Nepal||#IIS:26:-:1992:361-379|Building code+History+Nepal
J|0885|Mahmood,H.|Reedition history of seismic code in Pakistan||#IIS:26:-:1992:381-388|History+Building code+Pakistan
J|0886|Hakim,A.|Reedition history of seismic design code in Pakistan||#IIS:26:-:1992:389-393|Building code+History+Pakistan
J|0887|Lopez Acuna,J.|Reedition history of seismic design code in Peru||#IIS:26:-:1992:395-403|History+Building code+Peru||#*LIMA
J|0888|Torres V.,R.A.|Reedition history of seismic design code in Peru||#IIS:26:-:1992:405-411|History+Building code+Peru||#*LIMA
J|0889|Bayulke,N.|Historical development of the earthquake resistant building design code of Turkiye||#IIS:26:-:1992:413-429|History+Building code+Turkey
J|0890|Farsi,M.N.|Seismic design example of buildings in Algeria||#IIS:26:-:1992:431-448|Design+Building code+Algeria
J|0891|Monguilner,C.A.|Seismic design example of buildings in Argentina||#IIS:26:-:1992:449-470|Design+Building code+Argentina
J|0892|Steren,S.G.|Seismic design example of buildings in Argentina||#IIS:26:-:1992:471-479|Design+Building code+Argentina
J|0893|Sarrazin A.,M.J.|Design and construction of a building on seismic isolators||#IIS:26:-:1992:481-497|Design+Building code+Chile+Base isolation system
J|0894|Jaramillo J.,J.O.|Design procedures according to the CCCSR-84||#IIS:26:-:1992:499-503|Building code+Design+Colombia
J|0895|Sobaih,M.E.H.|A proposal for earthquake-resistant design of reinforced concrete structures in Egypt||#IIS:26:-:1992:505-525|Design+Building code+Egypt+Reinforced concrete
J|0896|Deras,J.A.R.|Seismic design example of buildings in El Salvador||#IIS:26:-:1992:527-535|Design+Building code+El Salvador
J|0897|Elizondo,R.A.L.|Seismic design example of building in El Salvador||#IIS:26:-:1992:537-557|Design+Building code+El Salvador+Reinforced concrete
J|0898|Manos,G.C.+Demosthenous,M.|Design of R.C. structures according to the Greek seismic code provisions||#IIS:26:-:1992:559-578|Design+Building code+Greece+Reinforced concrete
J|0899|Arce-Valenzuela,A.|Seismic design example of buildings in Guatemala||#IIS:26:-:1992:579-593|Design+Building code+Guatemala
J|0900|Tuladhar,M.R.|Seismic design example of building in Nepal||#IIS:26:-:1992:595-611|Design+Building code+Nepal
J|0901|Mahmood,H.|Seismic design example||#IIS:26:-:1992:613-621|Design+Building code+Pakistan+Overhead tank
J|0902|Hakim,A.|Seismic design example of buildings in Pakistan||#IIS:26:-:1992:623-624|Design+Building code+Pakistan
J|0903|Lopez Acuna,J.|Reedition history of seismic design code in Peru and seismic design example||#IIS:26:-:1992:625-642|Design+Building code+Peru||#*LIMA
J|0904|Torres V.,R.A.|Seismic design example of buildings in Peru||#IIS:26:-:1992:643-649|Design+Building code+Peru+Reinforced concrete
J|0905|Bayulke,N.+Gulkan,P.|A comparison of Turkish and ATC-3 lateral force requirements||#IIS:26:-:1992:651-672|Design+Building code+Turkey
J|0906|Zahradnik,J.+Hron,F.|Robust finite-difference scheme for elastic waves on coarse grids||#SGE:36:1:1992:1-19|Finite difference method+Elastic wave+Grid+Rayleigh wave
J|0907|Jansky,J.+Kvasnicka,M.|Theoretical PKIKP magnitude determination||#SGE:36:1:1992:20-25|Magnitude+PKIKP-wave+Deep-focus earthquake+PREM
J|0908|Cerveny,V.+Aranha,P.R.A.|Tunneling of seismic body waves through thin high-velocity layers in complex structures||#SGE:36:2:1992:115-138|Body wave+Layered medium+Tunnel+High velocity
J|0909|Silver,P.|Seismic anisotropy and the motions of the Earth's mantle||#YBC:91:-:1992:66-78|Anisotropy+Mantle+Shear wave splitting+Deformation
J|0910|Dobroka,M.+Dresen,L.+Gelbke,C.+|Tomographic inversion of normalized data: double-trace tomography algorithms||#GPP:40:1:1992:1-14|Tomography+Inversion+Algorithm+Trace
J|0911|Tsutsui,T.|Pseudoreflection profiling method: an efficient complement to CDP method||#GPP:40:1:1992:15-30|Common depth point+Explosion seismology+Multiple reflexion+Profiling
J|0912|Breitzke,M.|Seismogram synthesis and recompression of dispersive in-seam seismic multimode data using a normal-mode superposition approach||#GPP:40:1:1992:31-70|Synthetic seismogram+Coal seam+Normal mode+Filtering+Superposition
J|0913|Ikelle,L.T.+Kitchenside,P.W.+Schultz,P.S.|Parametrization of GRT inversion for acoustic and P-P scattering||#GPP:40:1:1992:71-84|Inversion+Radon transform+Scattering+Acoustic medium
J|0914|Aldridge,D.F.|Comment on `Conversion points and traveltimes of converted waves in parallel dipping layers' by G. Tessmer and A. Behle||#GPP:40:1:1992:101-103|Comments+Converted wave+Travel-times+Dipping layer
J|0915||Review of `The potential of deep seismic profiling for hydrocarbon exploration' edited by B. Pinet and C. Bois||#GPP:40:1:1992:105-106|Review+Hydrocarbon+Exploration+Deep seismic sounding
J|0916||Review of `Seismic noise attenuation' by E. R. Kanasewich||#GPP:40:1:1992:106|Review+Noise+Attenuation
J|0917||Review of `The solid Earth, an introduction to global geophysics' by C. M. R. Fowler||#GPP:40:1:1992:107|Review+Solid-earth geophysics+Seismology
J|0918|Olsson,O.+Falk,L.+Forslund,O.+|Borehole radar applied to the characterization of hydraulically conductive fracture zones in crystalline rock||#GPP:40:2:1992:109-142|Fracture zone+Radar+Borehole+Cross-hole
J|0919|Jastram,C.+Behle,A.|Acoustic modelling on a grid of vertically varying spacing||#GPP:40:2:1992:157-169|Modelling+Grid+Wave equation+Acoustic wave
J|0920|Greenberg,M.L.+Castagna,J.P.|Shear-wave velocity estimation in porous rocks: theoretical formulation, preliminary verification and applications||#GPP:40:2:1992:195-209|Shear wave+Velocity+Porous medium+Rock
J|0921|Shatilo,A.P.|Seismic phase unwrapping: methods, results, problems||#GPP:40:2:1992:211-225|Phase+Wavelet+Spectrum+Trace
J|0922|Pilkington,M.+Todoeschuck,J.P.|Natural smoothness constraints in cross-hole seismic tomography||#GPP:40:2:1992:227-242|Tomography+Cross-hole+Inversion+Constraint
J|0923|Dahl,T.+Ursin,B.|Non-linear AVO inversion for a stack of anelastic layers||#GPP:40:2:1992:243-265|Nonlinear inversion+Stack+Layered medium+Ray tracing
J|0924|Pereyra,V.|Two-point ray tracing in general 3D media||#GPP:40:3:1992:267-287|Ray tracing+Interface+Modelling+Algorithm
J|0925|Walden,A.T.+White,R.E.|Some fads and fallacies in seismic data analysis||#GPP:40:3:1992:289-305|Data analysis+Maximum entropy+Wavelet+Porosity
J|0926|Waltham,D.|Plane-wave constraints in 2D filter design||#GPP:40:3:1992:343-358|Plane wave+Constraint+Filter+Frequency-space domain
J|0927|Western,P.G.+Ball,G.J.|3D prestack depth migration in the Gulf of Suez: a case history||#GPP:40:4:1992:379-402|Migration+Gulf of Suez+Case history+Diapir
J|0928|Haase,A.B.|Slope data water-bottom multiple attenuation||#GPP:40:4:1992:403-427|Sea floor+Multiple reflexion+Attenuation+Slope
J|0929|Wapenaar,C.P.A.+Cox,H.L.H.+Berkhout,A.J.|Elastic redatuming of multicomponent seismic data||#GPP:40:4:1992:465-482|Redatuming+Elastic medium+Wave field+Matrix
J|0930|Kudo,K.+Irikura,K.+Kawase,H.|Effects of surface geology on seismic motion: introduction to the special issue||#JPE:40:1:1992:1-4|Geology+Ground motion+Seismogram+Numerical analysis||#*MEXICOCITY|#*PETATLAN
J|0931|Higashi,S.+Kudo,K.|Polarization and frequency-wavenumber spectrum analysis for the strong-motion array data in Ashigara Valley, Japan||#JPE:40:1:1992:5-25|Spectral analysis+Sedimentary basin+Strong-motion array+Ashigara Valley||#*MEXICOCITY|#*OFFIZUPEN89B|#*IZUOSHIMA89|#*IZUOSHIMA90
J|0932|Kawase,H.+Sato,T.|Simulation analysis of strong motions in the Ashigara Valley considering one- and two-dimensional geological structures||#JPE:40:1:1992:27-56|Ashigara Valley+Strong motion+Sedimentary basin+Surface wave||#*HONSHU87|#*OFFIZU88
J|0933|Yamanaka,H.+Seo,K.+Samano,T.|Analysis and numerical modeling of surface-wave propagation in a sedimentary basin||#JPE:40:1:1992:57-71|Numerical modelling+Surface wave+Sedimentary basin+Kanto||#*OSHIMA86
J|0934|Kagawa,T.+Sawada,S.+Iwasaki,Y.|On the relationship between azimuth dependency of earthquake ground motion and deep basin structure beneath Osaka Plain||#JPE:40:1:1992:73-83|Ground motion+Sedimentary basin+Osaka+Azimuth+Refraction study
J|0935|Sasatani,T.+Ikeda,M.+Sakajiri,N.|A study of site effects by means of strong-motion seismograms from near-by, intermediate-depth earthquakes||#JPE:40:1:1992:85-98|Japan+Strong motion+Local earthquake+Intermediate-depth earthquake||#*MEXICOCITY|#*HOKKAIDO87|#*AOMORI85|#*KYUSHU83
J|0936|Kinoshita,S.+Fujiwara,H.+Mikoshiba,T.+|Secondary Love waves observed by a strong-motion array in the Tokyo Lowlands, Japan||#JPE:40:1:1992:99-116|Love wave+Strong motion+Array+Tokyo
J|0937|Yamazaki,K.+Minamishima,M.+Kudo,K.|Propagation characteristics of intermediate-period (1-10 seconds) surface waves in the Kanto Plain, Japan||#JPE:40:1:1992:117-136|Propagation+Surface wave+Strong-motion record+Kanto||#*NAGANO
J|0938|Akamatsu,J.+Fujita,M.+Nishimura,K.|Vibrational characteristics of microseisms and their applicability to microzoning in a sedimentary basin||#JPE:40:1:1992:137-150|Vibration+Microseism+Sedimentary basin+Microzoning||#*NAGANO|#*MEXICOCITY
J|0939|Kamiyama,M.|Non-linear soil amplification identified empirically from strong earthquake ground motions||#JPE:40:1:1992:151-173|Strong earthquake+Ground motion+Soil+Amplification
J|0940|Kato,K.+Takemura,M.+Ikeura,T.+|Preliminary analysis for evaluation of local site effects from strong motion spectra by an inversion method||#JPE:40:1:1992:175-191|Site+Strong motion+Spectrum+Japan
J|0941|Kobayashi,Y.+Tsutsui,T.|Seismic explorations conducted in Kyoto and its environs for determining shallow subsurface structure||#JPE:40:1:1992:193-207|Seismic exploration+Kyoto+Subsurface+Profiling
J|0942|Ohori,M.+Koketsu,K.+Minami,T.|Seismic responses of three-dimensionally sediment-filled valleys due to incident plane waves||#JPE:40:1:1992:209-222|Response+Sediment+Valley+Plane wave
J|0943|Uebayashi,H.+Horike,M.+Takeuchi,Y.|Seismic motion in a three-dimensional arbitrarily-shaped sedimentary basin, due to a rectangular dislocation source||#JPE:40:1:1992:223-240|Ground motion+Sedimentary basin+Faulting+Source
J|0944|Mossessian,T.K.+Dravinski,M.|A hybrid approach for scattering of elastic waves by three-dimensional irregularities of arbitrary shape||#JPE:40:1:1992:241-261|Scattering+Elastic wave+Inhomogeneous medium+Basin
J|0945|Motosaka,M.+Ohtsuka,Y.|Frequency response characteristics for incident P-SV waves in multi-layered irregular strata including water-saturated layers using discrete wave number method||#JPE:40:1:1992:263-284|Frequency response+P-wave+Layered medium+Pore fluid
J|0946|Zheng,J.+Tamura,C.+Konagai,K.|Earthquake response analysis of ground surface by wave front tracing method||#JPE:40:1:1992:285-295|Response+Ground motion+Soil+Amplification
J|0947|Sato,M.|Maximum responses of viscoelastic multilayers subjected to inhomogeneous plane wave incidence||#JPE:40:1:1992:297-311|Response+Viscoelastic medium+Layered medium+Plane wave
J|0948|Horiuchi,S.+Ito,K.+Moriya,T.+|Hypocenter locations by a dense network||#JPE:40:2:1992:313-326|Hypocentre+Network+Nagano+1984||#*NAGANO
J|0949|Yamazaki,F.+Horiuchi,S.+Ito,K.+|Focal mechanism analyses of aftershocks of the 1984 western Nagano Prefecture earthquake||#JPE:40:2:1992:327-341|Focal mechanism+Aftershock+Nagano+1984||#*NAGANO
J|0950|Hirahara,K.+Hirata,N.+Ikami,A.+|Three-dimensional P and S wave velocity structure in the focal region of the 1984 western Nagano Prefecture earthquake||#JPE:40:2:1992:343-360|P-wave+S-wave+Velocity structure+1984+Nagano||#*NAGANO
J|0951|Ikami,A.+Asano,S.+Koketsu,K.+|A shallow crustal structure as derived from an explosion seismic experiment||#JPE:40:2:1992:361-377|Crustal structure+Explosion seismology+Nagano+Bouguer anomaly||#*NAGANO
J|0952|Inamori,T.+Horiuchi,S.+Hasegawa,A.|Location of mid-crustal reflectors by a reflection method using aftershock waveform data in the focal area of the 1984 western Nagano Prefecture earthquake||#JPE:40:2:1992:379-393|Crustal structure+Reflexion study+Aftershock+1984+Nagano||#*NAGANO
J|0953|Horiuchi,S.+Matsuzawa,T.+Hasegawa,A.|A real-time processing system of seismic wave using personal computers||#JPE:40:2:1992:395-406|Data processing+Personal computer+Seismic waves+Nagano+1984||#*NAGANO
J|0954|Iio,Y.+Yoshioka,K.|Strong ground motion in the source region of the 1984 western Nagano Prefecture earthquake - inferred from displaced boulders||#JPE:40:2:1992:407-419|Ground motion+Source+1984+Nagano+Boulder displacement||#*NAGANO
J|0955|Kosuga,M.|Dependence of coda Q on frequency and lapse time in the western Nagano region, central Japan||#JPE:40:2:1992:421-445|Coda wave+Q+Frequency+Nagano+1984||#*NAGANO
J|0956|Sakai,H.+Oda,H.+Nakayama,T.+|Electromagnetic changes detected at explosion seismic experiment||#JPE:40:2:1992:447-458|Electromagnetism+Explosion seismology+1984+Nagano||#*NAGANO
J|0957|Shichi,R.+Yamamoto,A.+Kimura,A.+|Gravimetric evidences for active faults around Mt. Ontake, central Japan: specifically for the hidden faulting of the 1984 western Nagano Prefecture earthquake||#JPE:40:2:1992:459-478|Gravimetric data+Faulting+1984+Nagano||#*NAGANO
J|0958|Fujinawa,Y.|A note on a relation between the synthetic and individual probabilities in the quantitative earthquake prediction||#JPE:40:3:1992:479-486|Prediction+Probability+Precursor+Major earthquake
J|0959|Kinoshita,S.|Local characteristics of the fmax of bedrock motion in the Tokyo metropolitan area, Japan||#JPE:40:3:1992:487-515|Frequency+Tokyo+Bedrock+Borehole
J|0960|Kawahara,J.|Scattering of P, SV waves by random distribution of aligned open cracks||#JPE:40:3:1992:517-524|Crack+Scattering+P-wave+SV-wave|Letter
J|0961|Zhang,L.+Feng,J-J.+Li,B.+|The oscillation during instability of rock body and the multilateral faulting traces|In Chinese with English abstract|#SMG:14:1:1992:1-9|Oscillation+Instability+Faulting+Rock
J|0962|Ma,J.|A discussion on seismogenic structure of Datong-Yanggao earthquake|In Chinese|#SMG:14:1:1992:10-11|Datong+Seismogenesis+Destructive earthquake+Discussion||#*DATONG89A|#*DATONG89B|#*NECHINA89|#*DATONG89C|#*DATONG91
J|0963|Che,Y-T.+Yu,J-Z.|The statistical characteristics of groundwater level anomaly before some moderate-strong earthquakes in the eastern China continent|In Chinese with English abstract|#SMG:14:1:1992:23-29|Datong+Strong earthquake+Groundwater+Prediction||#*DATONG89A|#*DATONG89B|#*DATONG89C|#*NECHINA89
J|0964|Zheng,J-D.|Advances in research on recent crustal movement and geodynamics in Qinghai-Xizang (Tibet) Plateau|In Chinese|#SMG:14:1:1992:30-31|Crustal movement+Geodynamics+Xizang+Qinghai
J|0965|Wu,Z-M.+Shetu,B-M.+Cao,Z-Q.+|Characteristics of Gyaring Co fault zone in central Tibet|In Chinese with English abstract|#SMG:14:1:1992:41-46|Tibet+Fault zone+Holocene+Surface deformation
J|0966|Zhang,X.+Jiao,T-H.+Jiang,P-H.|A primary study of magnetic crystal line basement interface in Tang-shan earthquake area|In Chinese with English abstract|#SMG:14:1:1992:47-54|Aeromagnetic study+T'ang-shan+Seismogenesis+Fold||#*TANGSHAN
J|0967|Qiu,Z-H.+Zhang,B-H.|Study of some long-term anomalous changes prior to Tangshan earthquake with respect to tectonic cave-in|In Chinese with English abstract|#SMG:14:1:1992:55-60|T'ang-shan+Tectonics+Levelling+Precursor||#*TANGSHAN
J|0968|Huang,X-M.|Drainage system and indicator of seismic risk|In Chinese with English abstract|#SMG:14:1:1992:68-78|Seismicity+Drainage+Seismic risk||#*DATONG91|#*NECHINA89
J|0969|Li,J-G.+Wang,S-Z.|Resistance nonuniformity and sudden instability of sliding zone in rocks|In Chinese with English abstract|#SMG:14:1:1992:79-88|Instability+Rock+Resistance+Stress-drop
J|0970|Zhao,A-X.|Experimental study on rock creep fracture and its implication for earthquake prediction|In Chinese with English abstract|#SMG:14:1:1992:89-95|Creep+Acoustic emission+Prediction+Fracture
J|0971|Peng,J-B.|Tectonic evolution and seismicity of Weihe fault zone|In Chinese with English abstract|#SMG:14:2:1992:113-120|Weihe Basin+Seismicity+Tectonics+Evolution
J|0972|Ma,Z-J.+Li,X-Z.+Jin,J-Y.|The law interpretation and prediction of earthquake migration - earthquake migration of four seismic belts in China mainland|In Chinese with English abstract|#SMG:14:2:1992:129-139|Migration+Earthquake+China+Seismic zone
J|0973|Liu,X-S.+Tang,H-J.|On segmentation of fault activity|In Chinese with English abstract|#SMG:14:2:1992:140-144|Fault+Strong earthquake+Sequence+Geodetic survey
J|0974|Zhou,B-G.+Gao,M-X.|The structural analysis of several moderate-strong earthquakes in the Songliao Basin|In Chinese with English abstract|#SMG:14:2:1992:145-150|Strong earthquake+Jilin+Basin+Palaeoseismicity
J|0975|Du,P-R.+Li,Q-T.|Lunar and solar periodicities of earthquakes in lower Changjiang River region|In Chinese with English abstract|#SMG:14:2:1992:157-164|East China+Periodicity+Triggering+Gravity
J|0976|Zhang,J-S.+Zhou,C-P.+Yang,G-Z.|Preliminary study on an ancient seismic source substance|In Chinese with English abstract|#SMG:14:2:1992:165-175|Palaeoseismicity+Geology+Shear zone+Anhui
J|0977|Zhang,Z-D.+Zheng,X-Y.+Yen,J-T.+|Oscillation test of well level and its result|In Chinese with English abstract|#SMG:14:2:1992:183-188|Oscillation+Well+Shandong+Seismic waves
J|0978|Kostadinov,I.+Shanov,S.+Karagjuleva,J.|Seismotectonic prognosticating and regionalizing of northeast Bulgaria|In Russian with English abstract|Geologica balc.:22:1:1992:89-104|Seismotectonics+Bulgaria+Seismic potential+Zoning
J|0979|Shanov,S.+Kostadinov,I.|Configuration of the deep geophysical discontinuities beneath the territory of Bulgaria||Geologica balc.:22:2:1992:71-79|Bulgaria+Mohorovicic discontinuity+Conrad discontinuity+Profile
J|0980|Riazkov,H.|The Moho discontinuity on the Balkan Peninsula and some geodynamic problems||Geologica balc.:22:2:1992:81-93|Mohorovicic discontinuity+Balkans+Geodynamics+Profile
J|0981|Yanev,Y.|Comments on the paper by Shanov and Kostadinov `Configuration of the deep geophysical discontinuities beneath the territory of Bulgaria'||Geologica balc.:22:2:1992:95-96|Comments+Bulgaria+Profile+Discontinuity
J|0982|Orzepowski,S.+Bachowski,C.|Focal parameters of mining tremors in the Rudna colliery in Polkowice|In Polish with English abstract|#PAA:-:245:1992:3-13|Stress-drop+Mine tremor+Poland+Moment
J|0983|Kalab,Z.|Determination of physical source parameters of mining tremors in the Ostrava-Karvina coalfield (Czecho-Slovakia)||#PAA:-:245:1992:14-26|Source parameter+Mine tremor+Velocity structure+Czechoslovakia
J|0984|Kalab,Z.+Stas,L.+Vesela,V.|First results from determination of focus mechanisms of mining tremors in the Ostrava-Karvina coalfield (Czecho-Slovakia)||#PAA:-:245:1992:27-34|Focal mechanism+Mine tremor+Czechoslovakia
J|0985|Hordejuk,J.|Application of coda waves to estimate source parameters of mine tremors in upper and lower Silesia|In Polish with English abstract|#PAA:-:245:1992:35-43|Coda wave+Mine tremor+Source parameter+Silesia
J|0986|Domanski,B.+Droste,Z.+Hordejuk,J.|Values of quality factor and attenuation of the medium along the Ksiaz-Lubin-Upper Silesia route|In Polish with English abstract|#PAA:-:245:1992:45-50|Q+Body wave+Coda wave+Silesia
J|0987|Krol,M.|Some problems related to the focal mechanism determination in the Polkowice mine|In Polish with English abstract|#PAA:-:245:1992:51-70|Focal mechanism+Mine tremor+P-wave+Poland
J|0988|Cichy,A.+Mortimer,Z.|Modelling of stresses around excavations including the rockmass failure|In Polish with English abstract|#PAA:-:245:1992:71-80|Stress+Mining+Rock mechanics+Failure
J|0989|Idziak,A.|The use of crack tensor for seismic anisotropy problems in fractured rock masses|In Polish with English abstract|#PAA:-:245:1992:81-90|Crack+Tensor+Anisotropy+Fracture
J|0990|Materzok,R.+Cwojdzinski,S.+Janik,T.|Seismogeological model for region of Ksiaz|In Polish with English abstract|#PAA:-:245:1992:91-102|Crustal structure+Poland+Seismograph station+Model
J|0991|Mutke,G.+Dworak,J.|Factors affecting the seismic effect of strong mining tremors on the surface structures in the Upper Silesian coal field|In Polish with English abstract|#PAA:-:245:1992:115-129|Mine tremor+Silesia+Surface+Attenuation
J|0992|Kazimierczyk,M.|An analysis of the "causes-result" relation of hazard-inducing dynamical phenomena in mines|In Polish with English abstract|#PAA:-:245:1992:131-142|Hazard+Mine tremor+Poland+Dynamics
J|0993|Holub,K.+Glowacka,E.|Seismic activity observed under the conditions of the Dukla colliery (Czecho-Slovakia)||#PAA:-:245:1992:143-156|Seismicity+Mine tremor+Czechoslovakia+Coal
J|0994|Sagan,G.+Zuberek,W.M.|Geological aspects of induced seismicity in the central area of the Upper Silesian coal basin|In Polish with English abstract|#PAA:-:245:1992:157-175|Induced seismicity+Geology+Silesia+Coal
J|0995|Stec,K.+Holeczek,G.|Study of a relationship between the technical parameters of mining and the seismic energy release process|In Polish with English abstract|#PAA:-:245:1992:176-188|Mining+Energy+Mine tremor+Statistical method
J|0996|Bucha,V.+Jira,T.|Seismic observations in the north Bohemian coal area||#PAA:-:245:1992:189-202|Coal+Czechoslovakia+Induced seismicity+Seismogram
J|0997|Pilecki,Z.|The use of zonal seismoacoustic observations for rockburst hazard monitoring|In Polish with English abstract|#PAA:-:245:1992:203-216|Hazard+Rockburst+Seismoacoustics+Poland
J|0998|Zogala,B.+Zuberek,W.M.|Changes in seismoacoustic emission in carboniferous rocks subject to thermal stresses|In Polish with English abstract|#PAA:-:245:1992:217-227|Seismoacoustics+Carboniferous+Rock+Thermal stress
J|0999|Vilhelm,J.|Seismo-acoustic evaluation of the instantaneous failure state of a sample under axial load||#PAA:-:245:1992:229-239|Seismoacoustics+Load+Failure+Rock
J|1000|Lasocki,S.|Weibull distribution for time intervals between mining tremors||#PAA:-:245:1992:241-260|Mine tremor+Distribution+Silesia+Coal
J|1001|Glowacka,E.|Evaluation of seismic hazard taking into account the progress of mining|In Polish with English abstract|#PAA:-:245:1992:261-277|Hazard+Mining+b-Value+Energy
J|1002|Bialek,J.+Drzezla,B.+Jaworski,A.|An attempt to determine functional dependences between the course of rock mass deformations in time and seismic energy for the Rydultowy coal mine|In Polish with English abstract|#PAA:-:245:1992:279-287|Rock+Deformation+Energy+Poland
J|1003|Syrek,B.|The use of Gutenberg-Richter distributions for the evaluation of rockburst hazard in longwall XIII, bed 501, of the Wujek mine|In Polish with English abstract|#PAA:-:245:1992:289-305|Rockburst+Distribution+Hazard+Poland
J|1004|Filipek,M.+Mitrega,P.+Syrek,B.|An attempt to assess the efficiency of destressing blasting performed in longwalls mined with caving under high rockburst hazard conditions|In Polish with English abstract|#PAA:-:245:1992:319-332|Rockburst+Hazard+Poland+Blast
J|1005|Ruzek,B.+Malek,J.|Estimation of absorption from explosions||#PAA:-:245:1992:333-345|Absorption+Explosion+P-wave+Spectrum
J|1006|Granieczny,S.+Jakubow,A.|Rockburst hazard and its control in mine Jastrzebie|In Polish with English abstract|#PAA:-:245:1992:347-359|Rockburst+Hazard+Blast+Poland
J|1007|Dworok,R.+Krzystolik,P.|Problems of electric firing in seismic studies|In Polish with English abstract|#PAA:-:245:1992:361-372|Charge+Profiling+Methane
J|1008|Knejzlik,J.|Intrinsically safe circuits of instruments for underground seismic monitoring network||#PAA:-:245:1992:373-379|Instrument+Seismic recording+Mining+Czechoslovakia
J|1009|Lawson,J.E.+Luza,K.V.+Brown,R.L.+|Oklahoma earthquakes, 1991||Okla. Geol. Notes:52:2:1992:48-59|Oklahoma+1991+Earthquake catalogue
J|1010|Lee,V.W.+Trifunac,M.D.|Frequency dependent attenuation of strong earthquake ground motion in Yugoslavia||#EEE:6:1:1992:3-13|Frequency+Attenuation+Ground motion+Yugoslavia
J|1011|Dolce,M.+Ludovici,D.|Torsional effects in buildings under strong earthquakes||#EEE:6:1:1992:14-22|Building+Strong earthquake+Torsion+Reinforced concrete
J|1012|Tomazevic,M.+Weiss,P.|On the analysis of seismic resistance of masonry buildings||#EEE:6:1:1992:23-35|Masonry structure+Resistance+Reinforcement+Shake table||#*SANANTONIO|#*MONTENEGRAN
J|1013|Todorovska,M.I.+Trifunac,M.D.|Effect of the input base rocking on the relative response of long buildings on embedded foundations||#EEE:6:1:1992:36-46|Response+Building+Soil-structure interaction+Seismic waves
J|1014|Skoko,D.|Introduction to the translation of A. Mohorovicic's "Earthquake of 8 October 1909"||Geofizika, Zagreb:9:-:1992:1-2|Introduction+Mohorovicic discontinuity+1909+Croatia
J|1015|Mohorovicic,A.|Earthquake of 8 October 1909||Geofizika, Zagreb:9:-:1992:3-55|Mohorovicic discontinuity+Earthquake+1909+Croatia|New English translation
J|1016|Singh,H.N.+Venkatesh Raghavan+Raju,G.K.|On relation between seismicity and tectonic features of Idukki region, southwestern India||Geofizika, Zagreb:9:-:1992:109-122|Southwest India+Seismicity+1988+Tectonics
J|1017|Muco,B.+Minga,P.|Anelastic-attenuation coefficient gamma and the correction of A0 values of Richter magnitude formula for Albania||Geofizika, Zagreb:9:-:1992:123-132|Albania+Local magnitude+Attenuation+Lg-wave
J|1018|Kesmarky,I.+Hajnal,Z.|Lithoprobe, Vancouver Island interval velocity case study||#GPT:37:1:1992:57-73|Lithoprobe+Velocity structure+Vancouver Island+Crust
J|1019|Kilenyi,T.I.|The influence of sea-level changes on reservoir development along passive margins||#GPT:37:1:1992:75-89|Seismic survey+Africa+Hydrocarbon+Offshore
J|1020|Solov'ev,S.L.|Detailed studies of sea floor seismicity and benthic currents||#GPT:37:1:1992:91-107|Sea floor+Ocean-bottom seismograph+Seismicity+Mediterranean
J|1021|Antonopoulos,J.|The tsunami of 426 BC in the Maliakos Gulf, eastern Greece||#NHZ:5:1:1992:83-93|Greece+426 B.C.+Tsunami+Destructive earthquake
J|1022|Berz,G.|Losses in the range of US$ 50 billion and 50 000 people killed: Munich Re's list of major natural disasters in 1990||#NHZ:5:1:1992:95-102|1990+Natural disaster+Loss+Casualties|Research note|#*MANJIL90|#*LUZON90A
J|1023|Yoshida,H.+Tokunaga,K.+Katsumata,M.|List of major earthquakes in and near Japan during the period from 1971 through 1980|In Japanese|#QJS:55:1-4:1992:1-13|Major earthquake+Japan+1971-1980+Intensity
J|1024|Ando,K.|On the volcanic activities of Izu-Oshima Island after 1987 (Part 2) -from December 1988 to July 1990-|In Japanese with English abstract|#QJS:55:1-4:1992:15-41|Volcanism+Volcanic tremor+1988-1990+Izu-Oshima
J|1025|Ando,K.|On the volcanic activities of Izu-Oshima Island after 1987 (Part 3) -from April to December 1990-|In Japanese with English abstract|#QJS:55:1-4:1992:43-67|Volcanism+Volcanic tremor+Izu-Oshima+1990
J|1026|Kanbayashi,Y.|Some problems underlying the empirical formulas for determining the magnitude of the shallow focus earthquake using the JMA 67 and 76 type seismographs|In Japanese with English abstract|#QJS:55:1-4:1992:81-88|Magnitude+Shallow-focus earthquake+Japan+Seismograph
J|1027|Katsumata,A.+Yokoyama,H.+Sakuma,K.|Seismic database for use in the Earthquake Phenomena Observation System (EPOS)|In Japanese|#QJS:55:1-4:1992:89-94|Data base+EPOS+Japan Meteorological Agency+Earthquake
J|1028|Katsumata,A.+Kokubo,K.|Software for global automatic regionalization on epicenters|In Japanese|#QJS:55:1-4:1992:95-106|Epicentre+Regionalization+Global seismicity+Software
J|1029|Katsumata,A.|Interactive tools for seismic data display and analysis in the Earthquake Phenomena Observation System (EPOS)|In Japanese with English abstract|#QJS:55:1-4:1992:107-125|EPOS+Japan Meteorological Agency+Data base+Tsunami+Prediction
J|1030|Takenaka,J.|Seismic activity around Bandai Volcano examined by volcanic earthquake observation data|In Japanese with English abstract|#QJS:55:1-4:1992:127-137|Bandai+Volcanic tremor+Seismicity+1988
J|1031|a-Earthquake and Tsunami Observation Division|Tsunamis observed in Japan from 1986 through 1990|In Japanese|#QJS:55:1-4:1992:157-171|Tsunami+Japan+1986-1990
J|1032|Kurata,E.+Iai,S.|Annual report on strong-motion earthquake records in Japanese ports (1991)|With Japanese abstract|#TNP:-:727:1992:1-230|Earthquake+Japan+1991+Strong-motion instrument+Network+Data processing
J|1033|Mahdavian,A.+Sasatani,T.|Strong ground motion from the Urakawa earthquake of Jan. 25, 1989||#JFH:9:2:1992:253-267|Strong motion+Earthquake+1989+Urakawa
J|1034|Maeda,I.|Relations between fracture process and fracture strength observed by means of triboluminescence with high resolution of time||#JFH:9:2:1992:281-288|Fracture+Triboluminescence+Rock+Laboratory
J|1035|Nishimura,Y.+Mori,H.Y.+Okada,H.|Earthquake families observed at Tarumai volcano, Hokkaido, Japan, during January and February, 1988||#JFH:9:2:1992:289-302|Swarm+1988+Volcano+Hokkaido
J|1036|Udias,A.|Basic theory of the mechanisms of earthquakes|In Spanish|#RGN:47:2:1991:169-178|Mechanism+Earthquake+Theory
J|1037|Fitas,A.J.S.+Mendes-Victor,L.A.|Rayleigh wave propagation in horizontal layered models of the western continental margin of the Iberian Peninsula||#RGN:47:2:1991:179-190|Rayleigh wave+Propagation+Iberian Peninsula+Layered medium+Continental margin
J|1038|Wen,K-L.+Yeh,Y.T.|Analysis of peak ground motions observed by two dense arrays|With Chinese abstract|#JGC:35:2:1992:115-134|Ground-motion analysis+SMART 1 array+Depth+Site
J|1039|Mossessian,T.K.+Dravinski,M.|Transient response patterns for a 3D canyon in a viscoelastic half space for different incident waves|With Chinese abstract|#JGC:35:2:1992:153-172|Canyon+Half-space+Response+Ricker wavelet
J|1040|Vikulin,A.V.|Migration of the largest earthquake foci in Kamchatka and North Kuriles, reiteration of earthquakes|In Russian with English abstract|#VSM:-:1:1992:46-61|Migration+Large earthquake+Kamchatka+Kuril Islands
J|1041|Vikulin,A.V.|Forecast of the largest earthquakes at the coasts of Kamchatka and North Kuriles|In Russian with English abstract|#VSM:-:1:1992:62-69|Large earthquake+Kamchatka+Kuril Islands
J|1042|Aleksandrov,S.I.|Optimal methods for spatial analysis of noise seismic sources. I. Synthesis of adaptive constructions|In Russian with English abstract|#VSM:-:1:1992:70-82|Spatial analysis+Noise+Microseism+Energy
J|1043|Aleksandrov,S.I.+Uzunov,D.P.|Optimal methods for spatial analysis of noise seismic sources. II. Resolution studies|In Russian with English abstract|#VSM:-:1:1992:83-93|Spatial analysis+Noise+Microseism+Pluton
J|1044|Tikhonov,I.N.|An algorithm for automatic classification of recorded earthquakes in terms of remoteness based on three-component record|In Russian with English abstract|#VSM:-:1:1992:94-100|Classification+Location+Earthquake+Sakhalin
J|1045|Zaslavsky,Yu.M.|Seismic sounding of the residual deformation zone in the Earth's interior|In Russian with English abstract|#VSM:-:1:1992:101-105|Sounding+Deformation+S-wave+Seismic prospecting
J|1046|Momoi,T.|The polarization of waves in an anisotropic nonlinear-elastic medium|With Japanese abstract|#BER:67:1:1992:1-20|Polarization+Elastic medium+Anisotropy+Mathematical analysis
J|1047|Tsukuda,T.+Miura,K.+Fujiwara,K.+|Volume visualization of seismicity|With Japanese abstract|#BER:67:1:1992:21-36|Seismicity+Microearthquake+Graphical representation
J|1048|a-Research Group for Explosion Seismology|Explosion seismic observations on the Kii Peninsula, southwestern Japan (Kawachinagano-Kiwa Profile)|In Japanese with English abstract|#BER:67:1:1992:37-56|Explosion seismology+Japan+Refraction study
J|1049|Yanagisawa,M.+Ishii,H.+Takahashi,T.|Abnormal crustal movements observed at Nokogiriyama crustal movement observatory|In Japanese with English abstract|#BER:67:1:1992:57-66|Crustal movement+1990+Japan+Water level
J|1050|Ishii,H.|Characteristic vertical movements on the Izu Peninsula before and after the submarine volcanic eruption off Ito|In Japanese with English abstract|#BER:67:1:1992:67-77|Vertical movement+Izu Peninsula+Eruption+Submarine volcano
J|1051|Sun,W.|Potential and gravity changes caused by dislocations in spherically symmetric Earth models|With Japanese abstract|#BER:67:2:1992:89-238|Gravity+Geoid+Earth model+Dislocation
J|1052|Kato,T.+Iidaka,T.+Mizoue,M.|The subcrustal discontinuity with a molten material at the east coast off the Izu Peninsula|In Japanese with English abstract|#BER:67:2:1992:239-264|Discontinuity+Izu Peninsula+Swarm+Phase
J|1053|Ghosh,U.+Mukhopadhyay,A.+Sen,S.|On two aseismically creeping and interacting vertical strike slip faults - one buried and the other extended up to the surface in a two layer model of the lithosphere||#BIT:29:1:1992:1-15|Creep+Lithosphere+Fault+Strike-slip
J|1054|Arora,S.K.+Bhat,M.K.+Kulkarni,A.G.+|Seismic noise measurement in the region around Kaiga atomic power project||#BIT:29:1:1992:17-33|Seismic noise+Power plant+Monitoring+Site
J|1055|Kumar,B.|Isoseismals of Burma-India border region earthquake of August 6, 1988||#BIT:29:1:1992:57-67|Isoseismal map+Earthquake+1988+Burma+India||#*IMPHAL88
J|1056|Knopoff,L.|Major puzzles and paradoxes||Chron. U.G.G.I.:-:209:1992:8-12|Earth structure+Mantle+Discontinuity+Symposium|Report on IUGG Symposium U3
J|1057|Le Mouel,J-L.|Dynamics of the Earth's deep interior and Earth rotation||Chron. U.G.G.I.:-:209:1992:13-16|Geodynamics+Core+Mantle+Symposium|Report on IUGG Symposium U6
J|1058|Gokhberg,M.B.+Parrot,M.+Johnston,M.J.S.|IAGA-IASPEI - report on Seismo-electromagnetic Effects session||Chron. U.G.G.I.:-:209:1992:47|Electric field+Electromagnetic wave+IASPEI
J|1059|Bergman,E.A.|Report on ISOP international workshop on observatory-based processing of digital seismic data||Chron. U.G.G.I.:-:209:1992:47-48|ISOP+Digital processing+Global Digital Seismograph Network+Workshop
J|1060|Doornbos,D.J.|IASPEI - report of International Seismological Observing Period (ISOP)||Chron. U.G.G.I.:-:209:1992:48|ISOP+IASPEI+ISC
J|1061||Workshop: International Seismological Observing Period (ISOP)||Chron. U.G.G.I.:-:209:1992:50|ISOP+Observatory+Digital processing+Software+Workshop
J|1062|Melchior,P.|Tidal interactions in the Earth Moon system||Chron. U.G.G.I.:-:210:1992:76-114|Trigger+Tide+Earth model+Core
J|1063|Romanowicz,B.+Gee,L.+Uhrhammer,R.A.|Berkeley Digital Seismic Network: a broadband network for northern and central California||IRIS Newsl.:11:1:1992:1-5|California+Network+Broadband seismology+Data processing||#*WHITTIER|#*MINDANAO91
J|1064|Phinney,R.A.|PASSCAL earthquake recording for freshman field program||IRIS Newsl.:11:1:1992:5-6|PASSCAL+Array+Instrument+Long Valley
J|1065|Vernon,F.L.|Kyrghizstan seismic telemetry network||IRIS Newsl.:11:1:1992:7-9|Telemetry+Network+Equipment+Kirghizstan
J|1066|Fowler,J.|New PASSCAL data available from the data management center||IRIS Newsl.:11:1:1992:10|PASSCAL+Mauna Loa+Profile+Alaska
J|1067|Schwartz,S.Y.+Beck,S.L.|Strategies for an effective PASSCAL rapid aftershock mobilization plan||IRIS Newsl.:11:1:1992:12-15|PASSCAL+Aftershock+Focal mechanism+Costa Rica+Loma Prieta||#*LOMAPRIETA89|#*COSTARICA91
J|1068|Peterson,J.|Deployment of the WWSSN 1960-1967||IRIS Newsl.:11:1:1992:16-19|Global Seismic Network+1960-1967+Map
B|1069||Geoscience Report of the Institute of Geophysics, Meteorology and Space Physics 1991/92|Vol. 1 No. 1|Kanasewich,E.R.|Directors Report||1992:Edmonton:University of Alberta|Lithoprobe+Seismic prospecting+Refraction study+Canadian Cordillera|p4-5
B|1070||Geoscience Report of the Institute of Geophysics, Meteorology and Space Physics 1991/92|Vol. 1 No. 1|Hron,F.+Moczo,P.+Zahradnik,J.+|Studies of seismic waves in complex geological structures using synthetic seismograms||1992:Edmonton:University of Alberta|Synthetic seismogram+Seismic waves+Geologic structure+Seismic prospecting|p9
B|1071||Geoscience Report of the Institute of Geophysics, Meteorology and Space Physics 1991/92|Vol. 1 No. 1|Kanasewich,E.R.+Phadke,S.+Udey,N.+|Seismology||1992:Edmonton:University of Alberta|Seismology+Lithoprobe+Reflexion study+Finite difference method+Canada|p9-12
B|1072||Geoscience Report of the Institute of Geophysics, Meteorology and Space Physics 1991/92|Vol. 1 No. 1|Nyland,E.+Li,Q.+Rouleau,P.|Theoretical seismology and seismicity||1992:Edmonton:University of Alberta|Seismicity+Theory+Canada|p12-13
B|1073||Geoscience Report of the Institute of Geophysics, Meteorology and Space Physics 1991/92|Vol. 1 No. 1|Schmitt,D.R.+Haverstock,J.+Madu,B.|Development of stress measurement technologies and laboratory and field physical property determinations||1992:Edmonton:University of Alberta|Borehole+Stress+Laboratory|p22-23
J|1074|Leon,R.T.+Galambos,T.V.+Forcier,G.+|Seismic performance of composite semi-rigid connections||#NCE:6:1:1992:1-5|Steel frame+Support structure+Joint
J|1075||Study of the propagation and amplification of seismic waves in Caracas Valley with reference to the July 29, 1967 earthquake response||#NCE:6:1:1992:9|Amplification+1967+Earthquake+Venezuela|Report of a seminar given by Dr A. Papageorgiou
J|1076||Earthquake hazards reduction: challenges to implementation||#NCE:6:1:1992:9-10|Hazard+Mitigation|Report of a seminar given by Mr. H. Crane
J|1077||Recent experiences in testing small-scale masonry building models||#NCE:6:1:1992:10-11|Masonry structure+Building+Model+Simulation|Report of a seminar given by Dr. M. Tomazevic
J|1078||The European standard for structural bearings and antiseismic strategies in Italy||#NCE:6:1:1992:11|Italy+Earthquake engineering+Antiseismic design+Building code|Report of a seminar given by A. Marioni
J|1079||Frequency domain optimal control design for civil engineering structures||#NCE:6:1:1992:12|Earthquake engineering+Frequency domain+Design+Control|Report of a seminar given by Dr. B. F. Spencer
J|1080|Mander,J.B.+Chen,S.S.|Seismic performance of highway bridges in the eastern United States||#NCE:6:2:1992:1-6|Performance+Bridge+United States
J|1081|Hosahalli,S.+Toksoy,T.+Aktan,A.E.|Closed-loop modal testing of a 27-story concrete flat plate-core building||#NCE:6:2:1992:7-11|Building+Concrete+Structural response
J|1082|Huang,Z-X.+Kisslinger,C.|Coda-Q before and after the 1986 Andreanof Islands earthquake||#PAG:138:1:1992:1-16|Andreanof Islands+1986+Earthquake+Coda+Q||#*ANDREANOF
J|1083|Chung,W-Y.+Liu,C.|The reservoir-associated earthquakes of April 1983 in western Thailand: source modelling and implications for induced seismicity||#PAG:138:1:1992:17-41|1983+Thailand+Earthquake+Induced seismicity+Reservoir||#*SRINAKARIND
J|1084|Talandier,J.+Okal,E.A.|One-station estimates of seismic moments from the mantle magnitude Mm: the case of the regional field (1.5degrees <= Delta <= 15degrees)||#PAG:138:1:1992:43-60|Single-station method+Moment+Mantle magnitude+Distance
J|1085|Agrawal,P.K.+Thakur,N.K.+Negi,J.G.|MAGSAT data and Curie-depth below Deccan flood basalts (India)||#PAG:138:1:1992:61-75|Aeromagnetic study+Deccan+Crustal thickness+Basalt
J|1086|Capaldi,G.+Pece,R.+Veltri,C.|Radon variation in groundwaters in the Campi Flegrei Caldera (southern Italy) during and after the 1982-1984 bradyseismic crisis||#PAG:138:1:1992:77-93|Radon+Groundwater+Campi Flegrei+1982-1984
J|1087|Okal,E.A.|On the orientation of the horizontal seismometers at South Pole||#PAG:138:1:1992:151-154|Seismometer+Orientation+South Pole|Short note
J|1088|Lovison-Golob,L.C.|Review of `Quo Vadimus: geophysics for the next generation' edited by G. D. Garland and J. R. Apel||#PAG:138:1:1992:155-158|Review+Geophysics
J|1089|Avdeiko,G.P.|Review of `Crust/mantle recycling at convergence zones' edited by S. R. Hart and L. Gulen||#PAG:138:1:1992:158-159|Review+Crust+Mantle+Convergence
J|1090|Tango,G.G.|Review of `Rock mechanics, volume 1: theoretical fundamentals' by P. A. Charlez||#PAG:138:1:1992:164-166|Review+Rock mechanics
J|1091|Iwasaki,S-I.|Review of `Tsunami hazard: a practical guide for tsunami hazard reduction' edited by E. N. Bernard||#PAG:138:1:1992:175-176|Review+Tsunami+Hazard|Reprint from Natural Hazards journal, Volume 4, Nos. 2 and 3, 1991
J|1092|Lana,X.+Fernandez Mills,G.|Local lithospheric stress distribution deduced by means of the total inversion algorithm and an objective classification method||#PAG:138:2:1992:229-247|Lithosphere+Stress+Focal mechanism+Aftershock||#*CAMPANIA
J|1093|Sharma,M.D.+Gogna,M.L.|Reflection and refraction of plane harmonic waves at an interface between elastic solid and porous solid saturated by viscous liquid||#PAG:138:2:1992:249-266|Plane wave+Interface+Reflexion+Refraction
J|1094|Mao,W.J.+Suhadolc,P.|Simultaneous inversion of velocity structures and hypocentral locations: application to the Friuli seismic area NE Italy||#PAG:138:2:1992:267-285|Friuli+Local earthquake+Velocity structure+Earthquake location
J|1095|Papazachos,B.C.|A time- and magnitude-predictable model for generation of shallow earthquakes in the Aegean area||#PAG:138:2:1992:287-308|Shallow earthquake+AEgean+Magnitude+Temporal dependence
J|1096|Tada,T.+Tsuji,Y.+Tsukamoto,M.+|Comparison of observed and theoretically calculated seiches of Heda Bay, Japan||#PAG:138:2:1992:309-322|Seiche+Tsunami+Japan+Sea level
J|1097|Schmitt,D.R.|Review of `The role of fluids in crustal processes' by J. D. Bredehoeft and D. L. Norton||#PAG:138:2:1992:336-340|Review+Fluid+Crust
J|1098|Koch,M.|Review of `Mechanics of porous media' by O. Coussy|In French|#PAG:138:2:1992:343-345|Review+Mechanics+Porous medium
J|1099|Benites,R.+Aki,K.+Yomogida,K.|Multiple scattering of SH waves in 2-D media with many cavities||#PAG:138:3:1992:353-390|Multiple scattering+SH-wave+Cavity+Synthetic seismogram
J|1100|Yomogida,K.|Fresnel zone inversion for lateral heterogeneities in the Earth||#PAG:138:3:1992:391-406|Fresnel zone+Lateral heterogeneity+Inversion+Rytov approximation
J|1101|Ruppert,S.D.+Yomogida,K.|A crack-like rupture model for the 19 September 1985 Michoacan, Mexico, earthquake||#PAG:138:3:1992:407-427|1985+Earthquake+Michoacan+Rupture||#*MEXICOCITY
J|1102|Maupin,V.+Cara,M.|Love-Rayleigh wave incompatibility and possible deep upper mantle anisotropy in the Iberian Peninsula||#PAG:138:3:1992:429-444|Iberian Peninsula+Love wave+Rayleigh wave+Upper mantle+Anisotropy
J|1103|Papazachos,C.B.|Anisotropic radiation modelling of macroseismic intensities for estimation of the attenuation structure of the upper crust in Greece||#PAG:138:3:1992:445-469|Macroseismic data+Attenuation+Upper crust+Greece
J|1104|Rybicki,K.R.|Review of `Evaluation of proposed earthquake precursors' edited by M. Wyss||#PAG:138:3:1992:507-510|Review+Precursor
J|1105|Cormier,V.F.|Review of `Seismic anisotropy in the Earth' by V. Babuska and M. Cara||#PAG:138:3:1992:510-511|Review+Anisotropy|In Modern Approaches in Geophysics, Vol. 10
J|1106|Mavko,G.|Review of `Earth soundings analysis: processing versus inversion' by J. F. Claerbout||#PAG:138:3:1992:520-522|Review+Sounding+Inversion+Data analysis
J|1107|Ito,K.|Towards a new view of earthquake phenomena||#PAG:138:4:1992:531-548|Fractal+Earthquake+Theory
J|1108|Kemeny,J.M.+Hagaman,R.M.|An asperity model to simulate rupture along heterogeneous fault surfaces||#PAG:138:4:1992:549-567|Asperity+Rupture+b-Value+Fault
J|1109|Huang,J.+Turcotte,D.L.|Chaotic seismic faulting with a mass-spring model and velocity-weakening friction||#PAG:138:4:1992:569-589|Faulting+Model+Friction+Chaos
J|1110|Hirabayashi,T.+Ito,K.+Yoshii,T.|Multifractal analysis of earthquakes||#PAG:138:4:1992:591-610|Fractal analysis+Earthquake+Hypocentre+Spatial distribution+Energy+ISC
J|1111|Doser,D.I.|Faulting processes of the 1956 San Miguel, Baja California, earthquake sequence||#PAG:139:1:1992:3-16|Baja California+Earthquake+1956+Focal mechanism
J|1112|Okal,E.A.|Use of the mantle magnitude Mm for the reassessment of the moment of historical earthquakes. I: shallow events||#PAG:139:1:1992:17-57|Mantle magnitude+Historical earthquake+Moment+Shallow-focus earthquake||#*COLOMBIAN|#*INDONESIAN|#*SANANTONIO|#*MEXICOCITY|#*MACQUARIE89
J|1113|Okal,E.A.|Use of the mantle magnitude Mm for the reassessment of the moment of historical earthquakes. II: intermediate and deep events||#PAG:139:1:1992:59-85|Mantle magnitude+Historical earthquake+Moment+Deep-focus earthquake+Intermediate-depth earthquake||#*PETKAMCHAT|#*COLOMBIAN70|#*HONSHU78
J|1114|Russo,R.M.+Okal,E.A.+Rowley,K.C.|Historical seismicity of the southeastern Caribbean and tectonic implications||#PAG:139:1:1992:87-120|Historical seismicity+Caribbean+Focal mechanism+Tectonics
J|1115|Kawahara,J.+Yamashita,T.|Scattering of elastic waves by a fracture zone containing randomly distributed cracks||#PAG:139:1:1992:121-144|Scattering+Elastic wave+Crack+Fracture zone
J|1116|Rice,J.R.|Review of `Fractals and chaos in geology and geophysics' by D. L. Turcotte||#PAG:139:1:1992:163|Review+Fractal+Chaos+Geophysics
J|1117|Ekstrom,G.|Review of `An introduction to seismological research, history and development' by B. F. Howell||#PAG:139:1:1992:165-167|Review+Seismology+Research
J|1118|Gibowicz,S.J.|Review of `Induced seismicity' edited by P. Knoll||#PAG:139:1:1992:167-168|Review+Induced seismicity
J|1119|Bethoux,N.+Frechet,J.+Guyoton,F.+|A closing Ligurian Sea?||#PAG:139:2:1992:179-194|Ligurian Sea+Earthquake+1989+1990||#*LIGURIAN89|#*LIGURIAN90
J|1120|Marone,C.+Hobbs,B.E.+Ord,A.|Coulomb constitutive laws for friction: contrasts in frictional behavior for distributed and localized shear||#PAG:139:2:1992:195-214|Friction+Shear+Gouge+Fault
J|1121|Greenhalgh,S.A.+Cao,S.+Mason,I.M.+|Fault proximity surveys in coal using guided seismic waves - numerical modelling||#PAG:139:2:1992:215-239|Coal+Guided wave+Numerical modelling+Fault+Vertical seismic profiling
J|1122|Takahara,M.+Yomogida,K.|Estimation of coda Q using the maximum likelihood method||#PAG:139:2:1992:255-268|Coda+Q+Maximum likelihood+Nagano||#*NAGANO86
J|1123|Papadopoulos,G.A.+Dedousis,V.|Fractal approach of the temporal earthquake distribution in the Hellenic arc-trench system||#PAG:139:2:1992:269-276|Fractal analysis+Temporal distribution+Hellenic arc+Clustering
J|1124|Osella,A.M.+Sabbione,N.C.+Cernadas,D.C.|Statistical analysis of seismic data from north-western and western Argentina||#PAG:139:2:1992:277-292|Argentina+Recurrence+Seismicity+Statistics
J|1125|Tsapanos,T.M.+Liritzis,I.|Time-lag of the earthquake energy release between three seismic regions||#PAG:139:2:1992:293-308|Energy+Chile+Mexico+Kamchatka+Cross-correlation function
J|1126|Ferraes,S.G.|The Bayesian probabilistic prediction of the next earthquake in the Ometepec segment of the Mexican subduction zone||#PAG:139:2:1992:309-329|Prediction+Bayesian method+Ometepec+Subduction zone+1907
J|1127|Mitchell,B.J.|Review of `Continental lithosphere: deep seismic reflections' edited by R. Meissner, L. Brown, H-J. Durbaum, W. Franke, K. Fuchs and F. Seifert||#PAG:139:2:1992:331-332|Review+Deep seismic sounding+Continental lithosphere
J|1128|Koch,M.|Review of `Theory and practice of geophysical data inversion' edited by A. Vogel, A. K. M. Sarwar, R. Gorenflo and O. I. Kounchev||#PAG:139:2:1992:332-335|Review+Geophysical data+Inversion
J|1129|Barakat,R.|Review of `Short-wavelength diffraction theory' by V. M. Babic and V. S. Buldyrev||#PAG:139:2:1992:337-338|Review+Diffraction+Wave theory
J|1130||Natural disaster prevention and preparedness in Tunisia||STOP Disasters:-:5:1992:8-9|Tunisia+Natural disaster+Prevention+Preparedness
J|1131|Barberi,F.+Villari,L.|An earthern barrier against lava flow at Mt. Etna, Italy||STOP Disasters:-:5:1992:12|Mount Etna+Eruption+Lava+1991
J|1132|Beedle,L.S.|Partners in action||STOP Disasters:-:6:1992:11|Building+IDNDR
J|1133|Bender,S.O.|Strategies to effectively integrate natural disaster management into development planning||STOP Disasters:-:7:1992:4-5|Natural disaster+Mitigation
J|1134|Bruce,J.P.|IDNDR/STC held its third session||STOP Disasters:-:7:1992:6-7|IDNDR+Mitigation+Disaster
J|1135|Ville de Goyet,C.|Disaster mitigation in hospital facilities in Latin America and the Caribbean. A major project study by PAHO/WHO||STOP Disasters:-:7:1992:8|Latin America+Caribbean+Hospital+Mitigation
J|1136||News from New Zealand IDNDR Newsletter||STOP Disasters:-:7:1992:10|New Zealand+Hazard+Preparedness
J|1137|Tilling,R.I.+Tedesco,D.|Which role for WOVO during the International Decade for Natural Disaster Reduction?||STOP Disasters:-:7:1992:10-11|Volcano+Warning
J|1138|Nishikawa,S.|The recent earthquake in Tokyo||STOP Disasters:-:7:1992:14|1992+Strong earthquake+Tokyo+Mitigation||#*TOKYO92
J|1139|Real,C.|The California Seismic Hazards Mapping Project||Nat. Haz. Observer:16:3:1992:14-15|California+Hazard+Mapping
J|1140|Figone,D.|Earthquakes in San Jose. Planning ahead, yesterday||Nat. Haz. Observer:16:5:1992:3-4|California+Building+Mitigation+Damage||#*MORGAN|#*LOMAPRIETA89
A|1141|e*Camelbeeck,T.+Flick,J.+Ducarme,B.|Local and national seismic networks: on line data processing with microcomputer facilities||1992:Luxembourg:Centre Europeen de Geodynamique et de Seismologie|Network+Data processing+Microcomputer+Workshop|Vol. 5. 160p. Proceedings of a workshop held in Luxembourg, November 1991
A|1142|Tabulevich,V.N.|Microseismic and infrasound waves||1992:Berlin:Springer-Verlag|Microseism+Noise+Sound+Wave|Research reports in physics. 150p.
J|1143|Gupta,H.K.|About this issue||Curr. Sci.:62:1-2:1992:5|India+Great earthquake+Hazard|Introduction to special issue
J|1144|Radhakrishna,B.P.+Ramaseshan,S.|A dedicated organization for earthquake studies||Curr. Sci.:62:1-2:1992:6-7|Seismology+India+History+Earthquake
J|1145|Tandon,A.N.|Seismology in India - an overview up to 1970||Curr. Sci.:62:1-2:1992:9-16|India+History+Seismology+Velocity
J|1146|Krishna,J.|Seismic zoning maps of India||Curr. Sci.:62:1-2:1992:17-23|India+Zoning+Map||#*MEXICOCITY
J|1147|Narula,P.L.+Shome,S.K.|Macroseismic studies of recent earthquakes in northwest Himalaya - a review||Curr. Sci.:62:1-2:1992:24-33|Macroseismic data+Himalayas+Review+Major earthquake||#*KINNAUR|#*DHARMSALA78|#*NEPAL|#*DHARMSALA86|#*SKASHMIR80A|#*SKASHMIR80B
J|1148|Srivastava,H.N.|Seismic instrumentation in India||Curr. Sci.:62:1-2:1992:34-39|India+Instrumentation+Network
J|1149|Chandra,U.|Seismotectonics of Himalaya||Curr. Sci.:62:1-2:1992:40-71|Himalayas+Seismotectonics+Earthquake catalogue+Seismicity+ISC
J|1150|Mukhopadhyay,M.|On earthquake focal mechanism studies for the Burmese arc||Curr. Sci.:62:1-2:1992:72-85|Burmese arc+Focal mechanism+Seismicity+Benioff zone
J|1151|Rajendran,K.+Talwani,P.+Gupta,H.K.|State of stress in the Indian subcontinent: a review||Curr. Sci.:62:1-2:1992:86-93|India+Stress+Review+Focal mechanism
J|1152|Bhattacharya,S.N.|Crustal and upper mantle velocity structure of India from surface wave dispersion||Curr. Sci.:62:1-2:1992:94-100|Velocity structure+India+Surface wave+Dispersion
J|1153|Rastogi,B.K.|Seismotectonics inferred from earthquakes and earthquake sequences in India during the 1980s||Curr. Sci.:62:1-2:1992:101-108|Seismotectonics+India+Damaging earthquake+Fault plane solution||#*BIHAR88|#*IMPHAL88
J|1154|Khattri,K.N.|Seismic hazard in Indian region||Curr. Sci.:62:1-2:1992:109-116|Hazard+India+Seismicity+Crustal structure
J|1155|Kaila,K.L.+Krishna,V.G.|Deep seismic sounding studies in India and major discoveries||Curr. Sci.:62:1-2:1992:117-154|India+Deep seismic sounding+Moho+Crustal structure
J|1156|Singh,D.D.|Recent results on the structure of Bay of Bengal and Indian Ocean from the surface wave dispersion studies||Curr. Sci.:62:1-2:1992:155-162|Surface wave+Dispersion+Bengal, Bay of+Indian Ocean+Crustal structure
J|1157|Krishna,V.G.+Kaila,K.L.+Reddy,P.R.|Body wave travel time studies and inferences||Curr. Sci.:62:1-2:1992:163-176|Body wave+Travel-times+India+Velocity structure
J|1158|Sitaram,M.V.D.+Saikia,M.M.|Results of a seismic network in north east India region||Curr. Sci.:62:1-2:1992:177-182|Network+India+Seismicity+P-wave||#*IMPHAL88
J|1159|Gupta,H.K.|Reservoir-induced earthquakes||Curr. Sci.:62:1-2:1992:183-198|Induced seismicity+Reservoir+Koyna+Water level
J|1160|Kolvankar,V.G.+Nadre,V.N.+Arora,S.K.+|Development and deployment of radio telemetered seismic network at Bhatsa||Curr. Sci.:62:1-2:1992:199-212|Radiotelemetry+Network+Bhatsa reservoir+Microearthquake
J|1161|Rai,S.S.+Ramesh,D.S.+Srinagesh,D.+|Seismic tomography of the south Indian shield||Curr. Sci.:62:1-2:1992:213-226|India+Tomography+Residual+Anisotropy
J|1162|Singh,S.J.|Free oscillations of the Earth||Curr. Sci.:62:1-2:1992:227-232|Free oscillation+Earth model+Equation of motion
J|1163|Chandrasekaran,A.R.+Das,J.D.|Strong motion arrays in India and analysis of data from Shillong array||Curr. Sci.:62:1-2:1992:233-250|Shillong+Array+Strong motion+Uttar Pradesh||#*DHARMSALA86|#*SHILLONG86|#*NEINDIA87|#*SYLHET88|#*IMPHAL88
J|1164|Arya,A.S.|Possible effects of a major earthquake in Kangra region of Himachal Pradesh||Curr. Sci.:62:1-2:1992:251-256|Himachal Pradesh+Major earthquake+1905+Isoseismal map+Damage||#*DHARMSALA86
J|1165|Gupta,H.K.|Earthquake prediction related studies in India||Curr. Sci.:62:1-2:1992:257-263|India+Prediction+Seismicity+Epicentre
J|1166|Lorenzo,J.M.+Vera,E.E.|Thermal uplift and erosion across the continent-ocean transform boundary of the southern Exmouth Plateau||#EPL:108:1-3:1992:79-92|Reflexion study+Exmouth Plateau+Transform margin+Thermal evolution
J|1167|Stiros,S.C.+Arnold,M.+Pirazzoli,P.A.+|Historical coseismic uplift on Euboea Island, Greece||#EPL:108:1-3:1992:109-117|Greece+Uplift+Holocene+Epicentre
J|1168|Osler,J.C.+Louden,K.E.|Crustal structure of an extinct rift axis in the Labrador Sea: preliminary results from a seismic refraction survey||#EPL:108:4:1992:243-258|Labrador Sea+Crustal structure+Rift+Refraction study
J|1169|Hyndman,R.D.+Foucher,J-P.+Yamano,M.+|Deep sea bottom-simulating-reflectors: calibration of the base of the hydrate stability field as used for heat flow estimates||#EPL:109:3-4:1992:289-301|Heat flow+Ocean Drilling Programme+Reflector+Accretionary wedge
J|1170|Le Pichon,X.+Kobayashi,K.+a-Kaiko-Nankai Scientific Crew|Fluid venting activity within the eastern Nankai Trough accretionary wedge: a summary of the 1989 Kaiko-Nankai results||#EPL:109:3-4:1992:303-318|Profile+Nankai+Accretionary wedge+Survey
J|1171|Chamot-Rooke,N.+Lallemant,S.J.+Le Pichon,X.+|Tectonic context of fluid venting at the toe of the eastern Nankai accretionary prism: evidence for a shallow detachment fault||#EPL:109:3-4:1992:319-332|Nankai+Accretionary prism+Bathymetry+Reflexion study
J|1172|Taira,A.+Hill,I.+Firth,J.+|Sediment deformation and hydrogeology of the Nankai Trough accretionary prism: synthesis of shipboard results of ODP Leg 131||#EPL:109:3-4:1992:431-450|Nankai+Accretionary prism+Reflexion study+Ocean Drilling Programme
J|1173|Yamano,M.+Foucher,J-P.+Kinoshita,M.+|Heat flow and fluid flow regime in the western Nankai accretionary prism||#EPL:109:3-4:1992:451-462|Reflexion study+Nankai+Accretionary prism
J|1174|MacKay,M.E.+Moore,G.F.+Cochrane,G.R.+|Landward vergence and oblique structural trends in the Oregon margin accretionary prism: implications and effect on fluid flow||#EPL:109:3-4:1992:477-491|Reflexion study+Flow+Accretionary prism+Oregon
J|1175|Torne,M.+Banda,E.+Garcia-Duenas,V.+|Mantle-lithosphere bodies in the Alboran crustal domain (Ronda peridotites, Betic-Rif orogenic belt)||#EPL:110:1-4:1992:163-171|Betic Cordillera+Peridotite+Bouguer anomaly+High velocity
J|1176|Francheteau,J.+Armijo,R.+Cheminee,J-L.+|Dyke complex of the East Pacific Rise exposed in the walls of Hess Deep and the structure of the upper oceanic crust||#EPL:111:1:1992:109-121|East Pacific Rise+Oceanic crust+Dyke+Structure
A|1177|Skordas,E.|Some aspects of causes and effects of the seismicity in Fennoscandia with emphasis to Sweden||1992:Uppsala:Uppsala University|Sweden+Fennoscandia+Seismicity+Energy+ISC|Doctoral dissertation, 198p.
A|1178|Coburn,A.W.+Spence,R.J.S.|Earthquake protection||1992:Chichester:John Wiley|Protection+Hazard+Preparedness+Mitigation|355p
J|1179|a-Japan-China Cooperative Research Xian Group|Active faults in the Weihe Basin and ground fissures in Xian City, Shaanxi Province, China - a report on the Japan-China cooperative studies on earthquake prediction (1987-1989)|In Japanese with English abstract|#BER:-:-:1992:1-186|Fault+Weihe Basin+Fissure+Shaanxi+1556+Historical earthquake|Supplementary volume VII
J|1180||Earthquake prediction studies in the Earthquake Research Institute: present and future perspectives|In Japanese|#BER:-:-:1992:1-94|Prediction|Supplementary volume VIII
J|1181|Frostick,L.E.+Linsey,T.K.+Reid,I.|Tectonic and climatic control of Triassic sedimentation in the Beryl Basin, northern North Sea||#JGL:149:1:1992:13-26|Beryl Embayment+Sedimentation+Reflexion study+Fault
J|1182|Morley,C.K.|Tectonic and sedimentary evidence for synchronous and out-of-sequence thrusting, Larache-Acilah area, western Moroccan Rif||#JGL:149:1:1992:39-49|Reflexion study+Morocco+Thrust belt
J|1183|Vaughan,A.P.M.+Johnston,J.D.|Structural constraints on closure geometry across the Iapetus suture in eastern Ireland||#JGL:149:1:1992:65-74|Iapetus suture+Reflector+Structure
J|1184|Morley,C.K.+Wescott,W.A.+Stone,D.M.+|Tectonic evolution of the northern Kenyan Rift||#JGL:149:3:1992:333-348|Reflexion study+East African Rift+Evolution+Tectonics
J|1185|Hillis,R.R.+Chapman,T.J.|Variscan structure and its influence on post-Carboniferous basin development, Western Approaches Basin, SW UK Continental Shelf||#JGL:149:3:1992:413-417|Variscan+Western Approaches+Reflexion study+Basin
J|1186|Ruffell,A.H.|Early to mid-Cretaceous tectonics and unconformities of the Wessex Basin (southern England)||#JGL:149:3:1992:443-454|Reflexion study+Tectonics+England+Sedimentation
J|1187|Forsyth,D.W.|Finite extension and low-angle normal faulting||Geology:20:1:1992:27-30|Normal fault+Slip+Dip+Friction
J|1188|Marrett,R.+Allmendinger,R.W.|Amount of extension on "small" faults: an example from the Viking graben||Geology:20:1:1992:47-50|Viking Graben+Fault+Extension
J|1189|Montgomery,D.R.+Jones,D.L.|How wide is the Calaveras fault zone? - Evidence for distributed shear along a major fault in central California||Geology:20:1:1992:55-58|Calaveras Fault+Epicentre+Shear+Palaeoseismogeology
J|1190|Cook,D.G.+MacLean,B.C.|Proterozoic thick-skinned intracratonic deformation, Colville Hills region, Northwest Territories, Canada||Geology:20:1:1992:67-70|Northwest Territories+Proterozoic+Reflexion study+Deformation
J|1191|Harris,R.A.+Wu,S.|Comment on `Postcollision extension in arc-continent collision zones, eastern Indonesia' by T. R. Charlton||Geology:20:1:1992:92-94|Comments+Collision+Extension+Indonesia|With a reply by the author
J|1192|Goldfinger,C.+Kulm,L.D.+Yeats,R.S.+|Transverse structural trends along the Oregon convergent margin: implications for Cascadia earthquake potential and crustal rotations||Geology:20:2:1992:141-144|Cascadia subduction zone+Convergence+Fault+Strike-slip
J|1193|Poupinet,G.+Souriau,A.+Vadell,M.+|Constraints on the lithospheric structure beneath the North Pyrenean fault from teleseismic observations||Geology:20:2:1992:157-160|Teleseism+Pyrenees+Lithosphere+Structure
J|1194|Seni,S.J.+Jackson,M.P.A.|Segmentation of salt allochthons||Geology:20:2:1992:169-172|Mexico, G. of+Salt+Segmentation+Reflexion study
J|1195|Breen,N.|Comment on `EDGE deep seismic reflection transect of the eastern Aleutian arc-trench layered lower crust reveals underplating and continental growth' by J. C. Moore and J. Sample||Geology:20:2:1992:188-190|Comments+Deep seismic sounding+Aleutian Arc+Accretionary wedge|With a reply by the authors
J|1196|Niemi,T.M.+Hall,N.T.|Late Holocene slip rate and recurrence of great earthquakes on the San Andreas fault in northern California||Geology:20:3:1992:195-198|Great earthquake+San Andreas Fault+Holocene+Recurrence+Slip
J|1197|Holbrook,W.S.+Reiter,E.C.+Purdy,G.M.+|Image of the Moho across the continent-ocean transition, U.S. east coast||Geology:20:3:1992:203-206|Moho+Ocean-bottom seismometer+Reflexion study+Continental margin+Carolina Trough
J|1198|Rojstaczer,S.+Wolf,S.|Permeability changes associated with large earthquakes: an example from Loma Prieta, California||Geology:20:3:1992:211-214|Large earthquake+Loma Prieta+Permeability+Hydrology||#*LOMAPRIETA89
J|1199|Little,T.A.+Holcombe,R.J.+Gibson,G.M.+|Exhumation of late Paleozoic blueschists in Queensland, Australia, by extensional faulting||Geology:20:3:1992:231-234|Queensland+Palaeozoic+Reflector+Extension
J|1200|Nicholson,C.+Sorlien,C.C.+Luyendyk,B.P.|Deep crustal structure and tectonics in the offshore southern Santa Maria Basin, California||Geology:20:3:1992:239-242|Tectonics+Santa Maria+Deep seismic sounding+Crustal structure
J|1201|Rotstein,Y.+Bartov,Y.+Frieslander,U.|Evidence for local shifting of the main fault and changes in the structural setting, Kinarot basin, Dead Sea transform||Geology:20:3:1992:251-254|Reflexion study+Dead Sea+Fault+Plate boundary
J|1202|Diament,M.+Harjono,H.+Karta,K.+|Mentawai fault zone off Sumatra: a new key to the geodynamics of western Indonesia||Geology:20:3:1992:259-262|Reflexion study+Sumatra+Fault+Geodynamics
J|1203|Herman,G.C.|Deep crustal structure and seismic expression of the central Appalachian orogenic belt||Geology:20:3:1992:275-278|Deep seismic sounding+Appalachian Mts.+Crustal structure+Reflector
J|1204|Mickus,K.L.+Keller,G.R.|Lithospheric structure of the south-central United States||Geology:20:4:1992:335-338|Lithosphere+Structure+Ouachita Mts.+Mexico, G. of
J|1205|Hawman,R.B.+Phinney,R.A.|Structure of the crust and upper mantle beneath the Great Valley and Allegheny Plateau of eastern Pennsylvania 2. Gravity modeling and migration of wide-angle reflection data||#JGR:97:1:1992:393-415|Structure+Crust+Upper mantle+Pennsylvania+Reflexion study
V|1992:2||Bibliography of seismology. 1992 July-December|ISC:28:2:1994
J|0001|Papike,J.+Eichelberger,J.|Under the volcano||#NSC:-:1829:1992:34-37|Alaska+Eruption+Magma
J|0002|Lindley,D.|Solar observatory shaken by quake||#NAT:358:6382:1992:95|Mojave Desert+Earthquake+1992+Observatory|News|#*BIGBEAR92
J|0003|Molnar,P.|Crust in mantle overdrive||#NAT:358:6382:1992:105-106|Convergence+Orogeny+Upper mantle+Anisotropy|News and views
J|0004|Makeyeva,L.I.+Vinnik,L.P.+Roecker,S.W.|Shear-wave splitting and small-scale convection in the continental upper mantle||#NAT:358:6382:1992:144-147|Shear wave splitting+Tien Shan+Mantle convection+Deformation
J|0005|Charles,D.|Split opens up over California's double fault||#NSC:-:1830:1992:4|Fault+Earthquake+1992+Southern California|This week|#*LANDERS92
J|0006|Dayton,L.|Australia's ancient boomerang volcanoes||#NSC:-:1830:1992:17|Hot spot+Volcano+Australia|Science
J|0007|Horlick-Jones,T.|Review of `Natural hazards' by E. A. Bryant||#NSC:-:1830:1992:44-45|Review+Disaster|Cambridge University Press, 213p
J|0008|Thompson,A.B.|Water in the Earth's upper mantle||#NAT:358:6384:1992:295-302|Water+Upper mantle+Discontinuity+Subduction|Review article
J|0009|Angel,R.J.+Chopelas,A.+Ross,N.L.|Stability of high-density clinoenstatite at upper-mantle pressures||#NAT:358:6384:1992:322-324|Upper mantle+Discontinuity+Pyroxene+Phase change
J|0010|Swinbanks,D.|Japanese report shows cracks in predicting earthquakes||#NAT:358:6385:1992:361|Prediction+Japan+Precursor|News
J|0011|Thatcher,W.|Does the mid-crust flow?||#NAT:358:6386:1992:454-455|Crustal movement+Upper mantle+Rheology+Ductility|News and views
J|0012|Foulger,G.R.+Jahn,C-H.+Seeber,G.+|Post-rifting stress relaxation at the divergent plate boundary in northeast Iceland||#NAT:358:6386:1992:488-490|Plate boundary+Iceland+Stress+Deformation
J|0013|Shaw,P.R.|Ridge segmentation, faulting and crustal thickness in the Atlantic Ocean||#NAT:358:6386:1992:490-493|Faulting+Crustal thickness+Mid-Atlantic Ridge+Bouguer anomaly
J|0014|Evans,B.|Greasing the fault||#NAT:358:6387:1992:544-545|Pore fluid+Friction+Pore pressure+Fault|News and views
J|0015|Blanpied,M.L.+Lockner,D.A.+Byerlee,J.D.|An earthquake mechanism based on rapid sealing of faults||#NAT:358:6387:1992:574-576|Mechanism+Fault+Pore pressure+Friction
J|0016|Benz,H.M.+Unger,J.D.+Leith,W.S.+|Deep seismic sounding in northern Eurasia||#EOS:73:28:1992:297-300|Deep seismic sounding+Eurasia+Profile+Crustal structure
J|0017|Keller,G.R.+Braile,L.W.+Davis,P.M.+|Kenya Rift International Seismic Project, 1989-1990 experiment||#EOS:73:33:1992:345-351|KRISP+Deep structure+Refraction study+Velocity
J|0018|Bush,S.|California earthquake risk reassessed||#EOS:73:34:1992:362|San Andreas Fault+Probability+Prediction+Large earthquake||#*LANDERS92|#*BIGBEAR92
J|0019||Pinatubo activity continues||#EOS:73:35:1992:370|Volcanic tremor+Warning+Philippines
J|0020|Ward,P.L.|SUDS: the Seismic Unified Data System||#EOS:73:35:1992:380|Data processing+SUDS+Computer program+Data base
J|0021|Maschenkov,S.+Pogrebitskii,Yu.E.|Preliminary results of Canary-Bahamas geotransect project||#EOS:73:37:1992:393-397|Geotransect+Atlantic Ocean+Oceanic crust+Profile
J|0022|Jacobs,G.K.+Dunbar,N.W.+Naney,M.T.+|Petrologic and geophysical studies of an artificial magma||#EOS:73:38:1992:401-412|Melting+Magma+Petrology+Vertical seismic profiling
J|0023|a-ODP Leg 141 Scientific Party|Geology and tectonics of the Chile triple junction||#EOS:73:38:1992:404-410|Tectonics+Geology+Triple junction+Chile
J|0024||Disaster relief needs satellite task force||#NSC:-:1838:1992:5|Disaster+Relief+Communications|This week
J|0025||Baby black holes blamed for earthquakes||#NSC:-:1839:1992:18|Trigger+Black hole+Earthquake+Volcanism
J|0026|Sammonds,P.R.+Meredith,P.G.+Main,I.G.|Role of pore fluids in the generation of seismic precursors to shear fracture||#NAT:359:6392:1992:228-230|Pore fluid+Precursor+b-Value+Fracture
J|0027|Vidale,J.E.+Benz,H.M.|A sharp and flat section of the core-mantle boundary||#NAT:359:6396:1992:627-629|Core-mantle boundary+PcP-wave+ScP-wave+Network||#*ANDREANOF92A|#*ANDREANOF92B
J|0028|Scholz,C.H.|Weakness amidst strength||#NAT:359:6397:1992:677-678|Fault+Friction+Pore pressure+Earthquake cycle|News and views
J|0029|Sleep,N.H.+Blanpied,M.L.|Creep, compaction and the weak rheology of major faults||#NAT:359:6397:1992:687-692|Creep+Fault+Rheology+Earthquake cycle
J|0030|Finn,R.|Rumblings grow about Parkfield in wake of first earthquake prediction||#NAT:359:6398:1992:761|Parkfield+Prediction+Probability+Precursor|News
J|0031|Hoffman,K.A.|Dipolar reversal states of the geomagnetic field and core-mantle dynamics||#NAT:359:6398:1992:789-794|Geomagnetic field+Reversal+Geodynamics+Lower mantle
J|0032|Mori,J.+Hudnut,K.+Jones,L.M.+|Rapid scientific response to Landers quake||#EOS:73:39:1992:417-418|Earthquake+1992+Southern California+Displacement||#*LANDERS92|#*BIGBEAR92|#*JOSHUATREE92
J|0033|Simarski,L.T.|Joint studies still seismically active||#EOS:73:39:1992:418-419|United States+USSR+Seismology+Station
J|0034|a-Lake Baikal Paleoclimate Project Members|Initial results of U.S.-Soviet paleoclimate study of Lake Baikal||#EOS:73:43:1992:457-462|Baikal+Sediment+Reflexion study+Seismostratigraphy
J|0035|Charles,D.|Everyone came but the Earth didn't move||#NSC:-:1845:1992:5|Parkfield+Prediction+Precursor+Earthquake cycle|This week
J|0036|Stephenson,W.J.+Odum,J.+Shedlock,K.M.+|Mini-Sosie high-resolution seismic method aids hazards studies||#EOS:73:44:1992:473-476|Controlled source+Reflexion study+Equipment
J|0037|Bush,S.|California neotectonics to be examined||#EOS:73:46:1992:490|California+Neotectonics+Fault
J|0038|Park,S.K.|Workshop on low-frequency electrical precursors to earthquakes||#EOS:73:46:1992:491-492|Workshop+Precursor+Electromagnetic field+Electrical resistivity
J|0039|Houston,H.|The exception is the rule||#NAT:360:6400:1992:111-112|Subduction zone+Great earthquake+Tsunami+Seismic gap
J|0040|Su,W-J.+Woodward,R.L.+Dziewonski,A.M.|Deep origin of mid-ocean-ridge seismic velocity anomalies||#NAT:360:6400:1992:149-152|Anomaly+Mid-ocean ridge+Velocity+Map
J|0041|Henyey,T.|Californians feel the tension||#NAT:360:6401:1992:206-207|Southern California+Hazard+1992+Fault|News and views|#*LANDERS92|#*BIGBEAR92
J|0042|Harris,R.A.+Simpson,R.W.|Changes in static stress on southern California faults after the 1992 Landers earthquake||#NAT:360:6401:1992:251-254|Stress+Southern California+1992+Fault+Earthquake||#*LANDERS92|#*BIGBEAR92
J|0043|Blue,C.|Status of hazard mitigation studies||#EOS:73:47:1992:506-507|Hazard+Mitigation+Natural disaster+Earthquake
J|0044|Bratt,S.R.|GSETT-2: an experiment in rapid exchange and interpretation of seismic data||#EOS:73:48:1992:513-520|Network+Data acquisition+Event+Interpretation+ISC
J|0045|Fleischer,R.L.+Mogro-Campero,A.|222Rn premonitory signals for earthquakes?||#EOS:73:48:1992:516|Radon+Precursor+Prediction+Magnitude
J|0046|King,C-Y.|Comment on `222Rn premonitory signals for earthquakes?' by R. L. Fleischer and A. Mogro-Campero||#EOS:73:48:1992:517-518|Comments+Radon+Precursor+Anomaly
J|0047|Giardini,D.+Basham,P.+Berry,M.|The Global Seismic Hazard Assessment Program||#EOS:73:48:1992:518|Hazard+GSHAP+Map
J|0048|Dick,H.B.J.+Erzinger,J.A.+Stokking,L.B.+|ODP drills deepest hole in ocean crust||#EOS:73:50:1992:537-540|Oceanic crust+Ocean Drilling Programme+Deep crust+Lithostratigraphy
J|0049||Shallow shock||#NSC:-:1852:1992:10|Indonesia+Earthquake+1992+Casualties|In brief|#*FLORES92
J|0050|Douglass,K.+Wald,L.A.|Southern California Earthquake Center Data Center||#EOS:73:51:1992:548|Southern California+Data bank+Sequence||#*JOSHUATREE92|#*LANDERS92|#*BIGBEAR92
J|0051|Butler,R.+Hutt,C.R.|Seismic noise on Rarotonga: surface versus downhole||#EOS:73:51:1992:548-549|Down-hole recording+Seismic noise+Rarotonga+Global Seismic Network
A|0052|Magottini,C.+Kozak,J.|Earthquakes in Italy from 62 A.D. to 1908|In Italian|1992:Rome:ENEA|Italy+Historical earthquake+Damage|125p
J|0053|Gershanik,S.|On the lines of the direction of S-waves||#GJI:110:1:1992:1-5|S-wave+Focal mechanism+Double couple
J|0054|Muller,G.+Roth,M.+Korn,M.|Seismic-wave traveltimes in random media||#GJI:110:1:1992:29-41|Wave velocity+Scattering+Travel-times+Ray theory
J|0055|Helmberger,D.V.+Stead,R.J.+Ho-Liu,P.+|Broadband modelling of regional seismograms: Imperial Valley to Pasadena||#GJI:110:1:1992:42-54|Broadband seismology+Modelling+Imperial Valley+Seismogram||#*SUPERSTITION87|#*ELMORE87|#*WESTMORLAND81
J|0056|Nowack,R.L.|Wavefronts and solutions of the eikonal equation||#GJI:110:1:1992:55-62|Travel-times+Wavefront+Eikonal equation+Ray theory
J|0057|Hu,G.+Menke,W.H.|Formal inversion of laterally heterogeneous velocity structure from P-wave polarization data||#GJI:110:1:1992:63-69|Inversion+Polarization+P-wave+Tomography
J|0058|Marquis,G.+Hyndman,R.D.|Geophysical support for aqueous fluids in the deep crust: seismic and electrical relationships||#GJI:110:1:1992:91-105|Lower crust+Reflexion+Porosity+Wave velocity
J|0059|Rebai,S.+Philip,H.+Taboada,A.|Modern tectonic stress field in the Mediterranean region: evidence for variation in stress directions at different scales||#GJI:110:1:1992:106-140|Tectonics+Stress+Mediterranean+Focal mechanism
J|0060|Philip,H.+Rogozhin,E.A.+Cisternas,A.+|The Armenian earthquake of 1988 December 7: faulting and folding, neotectonics and palaeoseismicity||#GJI:110:1:1992:141-158|1988+Spitak+Earthquake+Tectonics||#*ARMENIA88
J|0061|Vavrycuk,V.|Polarization properties of near-field waves in homogeneous isotropic and anisotropic media: numerical modelling||#GJI:110:1:1992:180-190|Anisotropy+Finite difference method+Near field+Polarization
J|0062|Fokkema,J.T.+Van den Berg,P.M.|Reflector imaging||#GJI:110:1:1992:191-200|Imaging+Migration+Reflector+Radon transform
J|0063|Douglas,A.+Sheehan,A.F.+Stewart,R.C.|Northern Chile earthquake of 1980 May 26: evidence of unilateral fracture||#GJI:110:1:1992:201-210|Converted wave+Doppler effect+Chile+1980+Earthquake+ISC
J|0064|Whitmarsh,R.B.|Review of `Shaping the Earth - tectonics of continents and oceans. Readings from Scientific American magazine' edited by E. M. Moores||#GJI:110:1:1992:221|Review+Tectonics+Continental crust+Oceanic crust+Profiling|W. H. Freeman & Co., New York (USA) & Oxford (UK), 1990, 208p.
J|0065|Foulger,G.R.|Review of `Les Houches 1988, Session L oceanographic and geophysical tomography' edited by Y. Desaubies, A. Tarantola and J. Zinn-Justin||#GJI:110:1:1992:222-223|Review+Acoustics+Tomography+Oceanic crust|Elsevier Science Publishers, Amsterdam & New York, 1990, 510p.
J|0066|Galea,P.|Observations of very high P-velocities in the subducted slab, New Zealand, and their relation with the slab geometry||#GJI:110:2:1992:238-250|P-wave+Velocity+New Zealand+Subduction zone
J|0067|Lisle,R.J.|New method of estimating regional stress orientations: application to focal mechanism data of recent British earthquakes||#GJI:110:2:1992:276-282|Stress+Focal mechanism+Inversion+Britain||#*CLUN90|#*NEWTOWN
J|0068|Mjelde,R.|Shear waves from three-component ocean bottom seismographs off Lofoten, Norway, indicative of anisotropy in the lower crust||#GJI:110:2:1992:283-296|Ocean-bottom seismograph+Norway+Anisotropy+Lower crust
J|0069|Kagan,Y.Y.|Correlations of earthquake focal mechanisms||#GJI:110:2:1992:305-320|Focal mechanism+Correlation+Rotation+Faulting
J|0070|Nobes,D.C.+Law,L.K.+Edwards,R.N.|Results of a sea-floor electromagnetic survey over a sedimented hydrothermal area on the Juan de Fuca Ridge||#GJI:110:2:1992:333-346|Profile+Juan de Fuca+Electromagnetism+Sediment
J|0071|De Chabalier,J.B.+Lyon-Caen,H.+Zollo,A.+|A detailed analysis of microearthquakes in western Crete from digital three-component seismograms||#GJI:110:2:1992:347-360|Crete+Microearthquake+Anisotropy+Fault plane solution
J|0072|Barton,P.J.|LISPB revisited: a new look under the Caledonides of northern Britain||#GJI:110:2:1992:371-391|LISPB+Crustal structure+Britain+Lithosphere
J|0073|Solov'ev,S.L.+Kuzin,I.P.+Kovachev,S.A.+|Some results of the short-time ocean bottom seismological observations in the central part of the Azores-Gibraltar fault||#GJI:110:2:1992:392-396|Ocean-bottom seismometer+Azores+Gibraltar+Microseismicity|Research note
J|0074|Garmany,J.|Review of `Seismic anisotropy in the Earth' by V. Babuska and M. Cara||#GJI:110:2:1992:399|Review+Anisotropy+Propagation+Continental lithosphere|Kluwer Academic Publishers, Dordrecht (NL), 1991
J|0075|Park,J.+Yu,Y.|Anisotropy and coupled free oscillations: simplified models and surface wave observations||#GJI:110:3:1992:401-420|Anisotropy+Free oscillation+Surface wave+Synthetic seismogram
J|0076|Reamer,S.K.+Hinzen,K-G.+Stump,B.W.|Near-source characterization of the seismic wavefield radiated from quarry blasts||#GJI:110:3:1992:435-450|Quarry blast+Near field+Cylinder+Source
J|0077|Bromirski,P.D.+Frazer,L.N.+Duennebier,F.K.|Sediment shear Q from airgun OBS data||#GJI:110:3:1992:465-485|Converted wave+Ocean-bottom seismometer+Pacific Ocean+Attenuation
J|0078|Wagner,G.S.+Langston,C.A.|A numerical investigation of scattering effects for teleseismic plane wave propagation in a heterogeneous layer over a homogeneous half-space||#GJI:110:3:1992:486-500|Scattering+Plane wave+Propagation+Layered medium
J|0079|Deichmann,N.+Garcia-Fernandez,M.|Rupture geometry from high-precision relative hypocentre locations of microearthquake clusters||#GJI:110:3:1992:501-517|Swarm+1987+Switzerland+Master-event location
J|0080|Wyss,M.+Habermann,R.E.+Bodin,P.|Seismic quiescence: a test of the hypothesis and a precursor to the next Parkfield, California, earthquake||#GJI:110:3:1992:518-536|Quiescence+Precursor+Parkfield+Prediction
J|0081|Maupin,V.|Modelling of laterally trapped surface waves with application to Rayleigh waves in the Hawaiian swell||#GJI:110:3:1992:553-570|Surface wave+Hawaii+Lateral heterogeneity+Modelling
J|0082|Shapiro,S.A.|Elastic waves scattering and radiation by fractal inhomogeneity of a medium||#GJI:110:3:1992:591-600|Elastic wave+Scattering+Fractal system+Inhomogeneity
J|0083|Vo-Thanh,D.|Effect of temperature and fluid viscosity on the ultrasonic velocities in Lavoux calcite rock||#GJI:110:3:1992:614-618|Ultrasonics+Viscosity+Limestone+Temperature|Research note
J|0084|Westaway,R.|Comment on `Active tectonics of the north and central Aegean Sea' by T. Taymaz, J. Jackson and D. P. McKenzie||#GJI:110:3:1992:619-623|Comments+Tectonics+AEgean Sea+Seismicity|With a reply by the authors
J|0085|Sun,R.+McMechan,G.A.|2-D full-wavefield inversion for wide-aperture, elastic, seismic data||#GJI:111:1:1992:1-10|Wave field+Elastic wave+Inversion+Velocity structure
J|0086|Um,J.+Dahlen,F.A.|Normal mode multiplet coupling on an aspherical, anelastic Earth||#GJI:111:1:1992:11-31|Anelasticity+Free oscillation+Lateral heterogeneity+Surface wave
J|0087|Mulargia,F.+Gasperini,P.|Evaluating the statistical validity beyond chance of `VAN' earthquake precursors||#GJI:111:1:1992:32-44|Precursor+Statistics+Prediction+Electromagnetic field
J|0088|Kaila,K.L.+Reddy,P.R.+Mall,D.M.+|Crustal structure of the west Bengal basin, India from deep seismic sounding investigations||#GJI:111:1:1992:45-66|Crustal structure+Deep seismic sounding+Bengal Basin+Moho
J|0089|Pollitz,F.F.|Propagation of surface waves on a laterally heterogeneous Earth: asymptotic solution of the two-dimensional wave equation||#GJI:111:1:1992:67-78|Dispersion+Scattering+Surface wave+Lateral heterogeneity
J|0090|Bhattacharya,S.N.|Generation of synthetic seismograms with layer reduction||#GJI:111:1:1992:79-90|Synthetic seismogram+Surface wave+Layered medium+Half-space
J|0091|Peper,T.+Beekman,F.+Cloetingh,S.|Consequences of thrusting and intraplate stress fluctuations for vertical motions in foreland basins and peripheral areas||#GJI:111:1:1992:104-126|Cycle+Stress+Thrust+Lithosphere
J|0092|Nolte,B.+Frazer,L.N.+Mallick,S.|Seismogram synthesis for azimuthally anisotropic media with a single slowness integration||#GJI:111:1:1992:127-140|Anisotropy+Reflectivity+Synthetic seismogram+Modelling
J|0093|Goldberg,D.+Badri,M.+Wepfer,W.W.|Acoustic attenuation in oceanic gabbro||#GJI:111:2:1992:193-202|Ultrasonics+Attenuation+Oceanic crust+Laboratory
J|0094|Holliger,K.+Kissling,E.|Gravity interpretation of a unified 2-D acoustic image of the central Alpine collision zone||#GJI:111:2:1992:213-225|European Geotraverse Project+Reflexion study+Swiss Alps+Gravity
J|0095|Widmer,R.+Zurn,W.+Masters,G.|Observation of low-order toroidal modes from the 1989 Macquarie Rise event||#GJI:111:2:1992:226-236|1989+Macquarie Ridge+Toroidal mode+Mechanism||#*MACQUARIE89
J|0096|Narkounskaia,G.+Turcotte,D.L.|A cellular-automata, slider-block model for earthquakes I. Demonstration of chaotic behaviour for a low-order system||#GJI:111:2:1992:250-258|Chaos+Earthquake+Seismicity+Block
J|0097|Huang,J.+Narkounskaia,G.+Turcotte,D.L.|A cellular-automata, slider-block model for earthquakes II. Demonstration of self-organised criticality for a 2-D system||#GJI:111:2:1992:259-269|Earthquake+Seismicity+Block+Critical phenomenon
J|0098|De Miguel,F.+Ibanez,J.M.+Alguacil,G.+|1-18 Hz Lg attenuation in the Granada Basin (southern Spain)||#GJI:111:2:1992:270-280|Lg-wave+Attenuation+Granada+Scattering
J|0099|McLaughlin,K.L.+Barker,T.G.+Day,S.M.+|Effects of subduction zone structure on explosion-generated Rayleigh waves: 3-D numerical simulations||#GJI:111:2:1992:291-308|Amchitka+Nuclear explosion+Rayleigh wave+Subduction zone||#*CANNIKIN
J|0100|Guest,W.S.+Thomson,C.J.|A source of significant transverse arrivals from an isotropic-anisotropic interface, e.g. the Moho||#GJI:111:2:1992:309-318|Anisotropy+Moho+Converted wave+Poisson's ratio
J|0101|Gee,L.S.+Jordan,T.H.|Generalized seismological data functionals||#GJI:111:2:1992:363-390|Filter+Seismogram+Inversion+Waveform
J|0102|Reilly,W.I.+Fredrich,G.+Hein,G.W.+|Geodetic determination of crustal deformation across the Strait of Gibraltar||#GJI:111:2:1992:391-398|Seismicity+Gibraltar+Deformation+Geodetic survey
J|0103|Papazachos,C.B.+Kiratzi,A.A.|A formulation for reliable estimation of active crustal deformation and its application to central Greece||#GJI:111:3:1992:424-432|Greece+Deformation+Fault plane solution+Moment
J|0104|Vinnik,L.P.+Makeyeva,L.I.+Milev,A.+|Global patterns of azimuthal anisotropy and deformations in the continental mantle||#GJI:111:3:1992:433-447|Anisotropy+Continental mantle+Plate tectonics+Deformation
J|0105|Sekiguchi,S.|Amplitude distribution of seismic waves for laterally heterogeneous structures including a subducting slab||#GJI:111:3:1992:448-464|Body wave+Amplitude+Ray tracing+Subduction zone
J|0106|Stange,S.+Friederich,W.|Guided wave propagation across sharp lateral heterogeneities: the complete wavefield at a cylindrical inclusion||#GJI:111:3:1992:470-482|Wave guide+Surface wave+Cylinder+Lateral heterogeneity
J|0107|Mochizuki,E.|Toroidal oscillations and SH body waves of an aspherical Earth||#GJI:111:3:1992:497-504|Body wave+Toroidal mode+Free oscillation+WKBJ method
J|0108|Ringdal,F.+Kvaerna,T.|Continuous seismic threshold monitoring||#GJI:111:3:1992:505-514|Monitoring+Array+Scandinavia+Nuclear explosion
J|0109|Weinstein,S.A.+Olson,P.L.|Thermal convection with non-Newtonian plates||#GJI:111:3:1992:515-530|Lithosphere+670km discontinuity+Plate tectonics+Mantle convection
J|0110|Main,I.G.|Damage mechanics with long-range interactions: correlation between the seismic b-value and the fractal two-point correlation dimension||#GJI:111:3:1992:531-541|b-Value+Fractal+Crack+Mechanics
J|0111|Ma,X.Q.+Kusznir,N.J.|3-D subsurface displacement and strain fields for faults and fault arrays in a layered elastic half-space||#GJI:111:3:1992:542-558|Displacement+Fault+Layered medium+Strain
J|0112|Widmer,R.+Masters,G.+Gilbert,F.|Observably split multiplets - data analysis and interpretation in terms of large-scale aspherical structure||#GJI:111:3:1992:559-576|Normal mode+Splitting+Core+Free oscillation
J|0113|Skordas,E.+Kulhanek,O.|Spatial and temporal variations of Fennoscandian seismicity||#GJI:111:3:1992:577-588|b-Value+Fennoscandia+Energy+Strain
J|0114|Kuge,K.+Kawakatsu,H.|Deep and intermediate-depth non-double couple earthquakes: interpretation of moment tensor inversions using various passbands of very broadband seismic data||#GJI:111:3:1992:589-606|Deep-focus earthquake+Moment tensor+Mechanism+Broadband seismology
J|0115|Sato,T.+Matsu'ura,M.|Cyclic crustal movement, steady uplift of marine terraces, and evolution of the island arc-trench system in southwest Japan||#GJI:111:3:1992:617-629|Crustal movement+Cycle+Subduction+Japan
J|0116|Tsapanos,T.M.|Considerations on the global seismic sequences: the second and the third largest aftershocks||#GJI:111:3:1992:630-636|Sequence+Aftershock+Heat flow+Temporal distribution
J|0117|Maj,S.|Heat flow from Okuniew IG-1 borehole, Poland||#APL:40:3-4:1992:213-218|Borehole+Heat flow+Wave velocity+Physical properties
J|0118|Rajhans,B.K.+Samal,S.K.|Scattering of compressional waves in an inhomogeneous medium||#APL:40:3-4:1992:219-233|Compressional wave+Scattering+Inhomogeneous medium+Cylinder
J|0119|Das,T.K.+Mukherjee,A.+Sengupta,P.R.|Couple-stress effect on the propagation of waves in a thermo-visco-elastic layer||#APL:40:3-4:1992:235-246|Couple-stress+Propagation+Elastic medium
J|0120|Droste,Z.|The evaluation of seismic hazard of large industrial objects||#APL:40:3-4:1992:247-269|Hazard+Nuclear power plant+Earthquake catalogue+Northern Europe+ISC
J|0121|Materzok,R.+Cwojdzinski,S.+Janik,T.|Seismological model of the region around Ksiaz||#APL:40:3-4:1992:271-281|Model+Poland+Deep seismic sounding+Seismogeology
J|0122|Nguyen Kim Lap+Nguyen Duy Nuoi+Bui Nhi Thanh|Seismicity of the east Vietnam Sea||#APL:40:3-4:1992:283-291|Vietnam+Seismicity+Maximum earthquake+Fault+ISC
J|0123|Zang,S-X.+Wu,Z-L.+Ning,J-Y.+|The interaction of plates around China and its effect on the stress field in China, part II: the influence of Indian plate|In Chinese with English abstract|#AGS:35:4:1992:428-440|Plate tectonics+Stress field+China+India
J|0124|Huang,S-P.|Variations of heat flow and crustal thickness in the continental area of China|In Chinese with English abstract|#AGS:35:4:1992:441-450|Heat flow+Crustal thickness+China
J|0125|Yin,Z-X.+Xiong,S-B.|Explosion seismic study for the 2-D crustal structure in Xichang-Dukou-Muding region|In Chinese with English abstract|#AGS:35:4:1992:451-458|Reflexion study+Crustal thickness+Velocity structure
J|0126|Feng,D-Y.+Liu,X-L.+Jiang,C.+|Fuzzy fractal dimension and some of its applications in earthquake researches|In Chinese with English abstract|#AGS:35:4:1992:459-468|Fractal dimension+Fuzzy mathematics+Large earthquake+Precursor
J|0127|Teng,C-K.+Bai,W-M.+Wang,X-H.|The stress field features in the multi-faulting medium with friction|In Chinese with English abstract|#AGS:35:4:1992:469-478|Stress field+Friction+Faulting+Finite element method
J|0128|Lei,L-Y.+Yang,Z-T.|The mathematical models and basic characters of transient response for dynamic test of pile|In Chinese with English abstract|#AGS:35:4:1992:501-509|Pile+Structural response+Earthquake engineering
J|0129|Wang,X-M.+Li,Z-X.+Yang,J-S.+|Propagation of elastic waves along a borehole excited by acoustic multipole sources in soft formations|In Chinese with English abstract|#AGS:35:4:1992:510-520|Borehole+Elastic wave+Propagation+Multipole source
J|0130|Men,F-L.+Cui,J.+Yuan,X-M.+|Effect of saturated-soil layers on seismic wave propagation|In Chinese with English abstract|#AGS:35:4:1992:521-532|Propagation+Soil+Saturation+Porous medium|Review
J|0131|Zang,S-X.+Wu,Z-L.+Ning,J-Y.|Stress state and deep deformation of subduction zone in Japan Sea and the Sea of Okhotsk and the problem of slab penetration into the lower mantle|In Chinese with English abstract|#AGS:35:5:1992:560-573|Subduction zone+Japan+Stress field+Depth
J|0132|Chen,L-H.+Song,Z-H.+An,C-Q.+|Three dimensional shear wave velocity and anisotropy of crust and upper mantle in the China north-south earthquake belt|In Chinese with English abstract|#AGS:35:5:1992:574-583|Anisotropy+China+Shear velocity+Velocity structure
J|0133|Hu,J-F.+Zhuang,Z.+Teng,J-W.|Mid-long period digital surface-wave data and the crustal structure of south-east China|In Chinese with English abstract|#AGS:35:5:1992:584-593|Love wave+China+Velocity structure+Depth
J|0134|Niu,Z-R.+Shi,X-J.|Statistical theory of rock fractal fracture|In Chinese with English abstract|#AGS:35:5:1992:594-603|Fractal dimension+Rock+Fracture+Statistical method
J|0135|Qian,S-X.|Application of pattern recognition technique to lateral prediction of hydrocarbon reservoir|In Chinese with English abstract|#AGS:35:5:1992:630-636|Pattern recognition+Hydrocarbon+Reservoir+Seismic exploration
J|0136|Zhang,X-G.+Li,Y-D.|Automatic editing of noisy seismic data using an artificial neural network approach|In Chinese with English abstract|#AGS:35:5:1992:637-643|Neural network+Automatic processing+Noise
J|0137|Zhuang,Z.+Fu,Z-W.+Lu,Z-L.+|3-D shear velocity model of crust and upper mantle beneath the Tibetan Plateau and its adjacent regions|In Chinese with English abstract|#AGS:35:5:1992:694-709|Tibet+Shear velocity+Velocity structure+Model
J|0138|Fan,H-J.+Liu,Q-Y.|Block-like 3-D velocity models and synthetic body wave seismograms|In Chinese with English abstract|#AGS:35:6:1992:721-732|Synthetic seismogram+Body wave+Velocity structure+Model
J|0139|Yin,F.+Wei,Y.+Li,Y-M.|A study of an iterative algorithm of solving 2.5D inverse scattering in cross-holes|In Chinese with English abstract|#AGS:35:6:1992:753-761|Algorithm+Scattering+Cross-hole+Inhomogeneous medium
J|0140|Tu,G-T.|Migration with the cascaded F-K plus PSPI method|In Chinese with English abstract|#AGS:35:6:1992:762-770|Migration+Cascade+Wave field+Reflexion study
J|0141|Chu,Z-H.+Zhao,P-H.|The analysis and processing of long spacing sonic log|In Chinese with English abstract|#AGS:35:6:1992:771-780|Sonic log+Data processing+Frequency-time analysis
J|0142|Tan,T-D.|The new method of evaluating the class of heavy oil zone by well-logging|In Chinese with English abstract|#AGS:35:6:1992:781-789|Well-log+Oil+Prospecting
J|0143|Xie,X-B.+Zheng,T-Y.+Yao,Z-X.|Methods of synthetic seismograms - a review|In Chinese with English abstract|#AGS:35:6:1992:790-801|Review+Synthetic seismogram+Technique
J|0144||The prediction of California earthquakes in USA in 1992 - a lecture given by Prof. Weng Wen-Bo|In Chinese|#AGS:35:6:1992:802|Prediction+California+1992+Earthquake|News
J|0145|Liu,H-P.+Warrick,R.E.+Westerlund,R.E.+|Observation of local site effects at a downhole-and-surface station in the Marina District of San Francisco||#BSA:82:4:1992:1563-1591|San Francisco+Station+Ground motion+Sediment||#*LOMAPRIETA89
J|0146|Archuleta,R.J.+Seale,S.H.+Sangas,P.V.+|Garner Valley downhole array of accelerometers: instrumentation and preliminary data analysis||#BSA:82:4:1992:1592-1621|Array+Accelerometer+Southern California+Ground motion
J|0147|Humphrey,J.R.+Anderson,J.G.|Shear-wave attenuation and site response in Guerrero, Mexico||#BSA:82:4:1992:1622-1645|Shear wave+Attenuation+Site+Guerrero
J|0148|Chiu,H-C.+Huang,H-C.|Effects of the canyon topography on ground motions at the Feitsui damsite||#BSA:82:4:1992:1646-1660|Taiwan+Dam+Canyon+Ground motion||#*HUALIEN86
J|0149|Toshinawa,T.+Ohmachi,T.|Love-wave propagation in a three-dimensional sedimentary basin||#BSA:82:4:1992:1661-1677|Love wave+Propagation+Sedimentary basin+Finite element method||#*IZUOSHIMA90
J|0150|Helmberger,D.V.+Somerville,P.G.+Garnero,E.|The location and source parameters of the Lompoc, California, earthquake of 4 November 1927||#BSA:82:4:1992:1678-1709|1927+California+Earthquake+Source||#*LOMAPRIETA89|#*COALINGA|#*SANTABARBARA
J|0151|Satake,K.+Somerville,P.G.|Location and size of the 1927 Lompoc, California, earthquake from tsunami data||#BSA:82:4:1992:1710-1725|1927+California+Tsunami+Earthquake
J|0152|Berberian,M.+Qorashi,M.+Jackson,J.A.+|The Rudbar-Tarom earthquake of 20 June 1990 in NW Persia: preliminary field and seismological observations, and its tectonic significance||#BSA:82:4:1992:1726-1755|1990+Iran+Destructive earthquake+Tectonics||#*MANJIL90
J|0153|Wesnousky,S.G.+Leffler,L.M.|The repeat time of the 1811 and 1812 New Madrid earthquakes: a geological perspective||#BSA:82:4:1992:1756-1785|1811+1812+New Madrid+Geology
J|0154|Doser,D.I.|Historic earthquakes (1918 to 1923) and an assessment of source parameters along the San Jacinto fault system||#BSA:82:4:1992:1786-1801|Historical earthquake+1918-1923+San Jacinto Fault+Waveform||#*SUPERSTITION87
J|0155|Tuttle,M.P.+Sykes,L.R.|Re-evaluation of several large historic earthquakes in the vicinity of the Loma Prieta and Peninsular segments of the San Andreas fault, California||#BSA:82:4:1992:1802-1820|Historical earthquake+California+Loma Prieta+San Andreas Fault||#*LOMAPRIETA89
J|0156|Lees,J.M.+Shalev,E.|On the stability of P-wave tomography at Loma Prieta: a comparison of parameterizations, linear and nonlinear inversions||#BSA:82:4:1992:1821-1839|P-wave+Tomography+Loma Prieta+Stability||#*LOMAPRIETA89
J|0157|Du,Y.+Aydin,A.+Segall,P.|Comparison of various inversion techniques as applied to the determination of a geophysical deformation model for the 1983 Borah Peak earthquake||#BSA:82:4:1992:1840-1866|Deformation+1983+Borah Peak+Fault-slip+Earthquake||#*BORAH
J|0158|Rajendran,K.+Talwani,P.|The role of elastic, undrained, and drained responses in triggering earthquakes at Monticello Reservoir, South Carolina||#BSA:82:4:1992:1867-1888|Reservoir+South Carolina+Triggering+Pore pressure
J|0159|Powell,C.A.|Seismic noise in northcentral North Carolina||#BSA:82:4:1992:1889-1909|Seismic noise+North Carolina+Site+Ground motion
J|0160|Castro,R.R.+Anderson,J.G.+Brune,J.N.|P and S-wave displacements from kinematic dislocation models||#BSA:82:4:1992:1910-1926|P-wave+S-wave+Displacement+Numerical modelling
J|0161|Zhao,L-S.+Harkrider,D.G.|Wave fields from an off-center explosion in an embedded solid sphere||#BSA:82:4:1992:1927-1955|Body wave+Wave field+Explosion+Asymmetric source
J|0162|Boore,D.M.+Joyner,W.B.+Wennerberg,L.|Fitting the stochastic omega-2 source model to observed response spectra in western North America: trade-offs between Deltasigma and kappa||#BSA:82:4:1992:1956-1963|Source+Ground motion+Response+Western United States|Short note
J|0163|Eberhart-Phillips,D.+Stuart,W.D.|Material heterogeneity simplifies the picture: Loma Prieta||#BSA:82:4:1992:1964-1968|Loma Prieta+Heterogeneity+Fault+Rupture|Short note|#*LOMAPRIETA89
J|0164|Aki,K.|Scattering conversions P to S versus S to P||#BSA:82:4:1992:1969-1972|Scattering+Conversion+P-wave+S-wave|Short note
J|0165|Bock,G.|Comment on `Origin of precursors to teleseismic S waves' by L. P. Vinnik and B. A. Romanowicz||#BSA:82:4:1992:1973-1976|Comments+Teleseism+Origin+S-wave+Converted wave|Short note
J|0166|McGuire,R.K.|Perceptions of earthquake risk||#BSA:82:4:1992:1977-1982|Risk+Earthquake|Presidential address
J|0167|Hartzell,S.H.|Estimation of near-source ground motions from a teleseismically derived rupture model of the 1989 Loma Prieta, California, earthquake||#BSA:82:5:1992:1991-2013|Ground motion+Earthquake+1989+Loma Prieta||#*LOMAPRIETA89
J|0168|Atkinson,G.M.+Mereu,R.F.|The shape of ground motion attenuation curves in southeastern Canada||#BSA:82:5:1992:2014-2031|Ground motion+Attenuation+Canada+Reflexion
J|0169|Kohler,W.M.+Fuis,G.S.|Empirical dependence of seismic ground velocity on the weight of explosives, shotpoint site condition, and recording distance for seismic-refraction data||#BSA:82:5:1992:2032-2044|Ground motion+Explosion+Site+Refraction study
J|0170|Frankel,A.+Vidale,J.E.|A three-dimensional simulation of seismic waves in the Santa Clara Valley, California, from a Loma Prieta aftershock||#BSA:82:5:1992:2045-2074|Seismic waves+Santa Clara+Loma Prieta+Aftershock||#*LOMAPRIETA89
J|0171|Paolucci,R.+Suarez,M.M.+Sanchez-Sesma,F.J.|Fast computation of SH seismic response for a class of alluvial valleys||#BSA:82:5:1992:2075-2086|SH-wave+Response+Alluvium+Valley
J|0172|Kanamori,H.+Hauksson,E.|A slow earthquake in the Santa Maria basin, California||#BSA:82:5:1992:2087-2096|Slow earthquake+Santa Maria+1991+California||#*SMARIA91
J|0173|Bent,A.L.|A re-examination of the 1925 Charlevoix, Quebec, earthquake||#BSA:82:5:1992:2097-2113|1925+Charlevoix+Earthquake+Focal mechanism
J|0174|Singh,S.K.+Comte,D.+Pardo,M.|Background seismicity and strength of coupling in the subduction zones||#BSA:82:5:1992:2114-2125|Seismicity+Coupling+Subduction zone+Aftershock
J|0175|Wagner,G.S.+Langston,C.A.|Body-to-surface-wave scattered energy in teleseismic coda observed at the NORESS seismic array||#BSA:82:5:1992:2126-2138|Scattering+Energy+Teleseism+NORESS
J|0176|Gupta,I.N.+Wagner,R.A.|Evidence for Rg-to-P scattering in teleseismic P coda of East Kazakh explosions||#BSA:82:5:1992:2139-2152|Eastern Kazakhstan+Underground nuclear explosion+Scattering+P-wave+Rayleigh wave
J|0177|Jeyakumaran,M.+Rudnicki,J.W.+Keer,L.M.|Modeling slip zones with triangular dislocation elements||#BSA:82:5:1992:2153-2169|Slip+Dislocation+Stress-drop+Half-space
J|0178|Rybicki,K.R.|Strike-slip faulting in the presence of low-rigidity inhomogeneities||#BSA:82:5:1992:2170-2190|Strike-slip+Faulting+Inhomogeneous medium+Crack
J|0179|Claassen,J.P.|The application of multiply constrained minimum-variance adaptive beamforming to regional monitoring||#BSA:82:5:1992:2191-2212|Pn-wave+NORESS+Monitoring+Underground nuclear explosion
J|0180|Hiyoshi,Y.+Walker,D.A.+McCreery,C.S.|T-phase data and regional tsunamigenesis in Japan||#BSA:82:5:1992:2213-2223|T-phase+Tsunami+Japan+Moment
J|0181|Colburn,R.H.+Hawman,R.B.|Inversion of slant stacks of deep crustal refraction data from the Great Valley, California||#BSA:82:5:1992:2224-2247|Refraction study+Great Valley+California+Deep crust
J|0182|Arnadottir,T.+Segall,P.+Matthews,M.|Resolving the discrepancy between geodetic and seismic fault models for the 1989 Loma Prieta, California, earthquake||#BSA:82:5:1992:2248-2255|Fault+1989+Loma Prieta+Geodesy|Short note|#*LOMAPRIETA89
J|0183|Menke,W.H.+Shengold,L.+Busby,R.|Precision of broadband velocity measurements made with IRIS/PASSCAL instrumentation||#BSA:82:5:1992:2256-2262|Broadband seismograph+Velocity+IRIS+PASSCAL|Short note|#*ALASKA91
J|0184|Sharma,M.D.|Comments on `Lamb's problem for fluid-saturated porous media' by A. J. Philippacopoulos||#BSA:82:5:1992:2263-2273|Comments+Lamb's problem+Porous medium+Fluid+Saturation|Short note
J|0185|Field,E.H.+Jacob,K.H.+Hough,S.E.|Earthquake site response estimation: a weak-motion case study||#BSA:82:6:1992:2283-2307|Site+Response+Loma Prieta+Aftershock||#*LOMAPRIETA89
J|0186|Hartzell,S.H.|Site response estimation from earthquake data||#BSA:82:6:1992:2308-2327|Site+Response+Loma Prieta+San Francisco||#*LOMAPRIETA89
J|0187|Koketsu,K.+Higashi,S.|Three-dimensional topography of the sediment/basement interface in the Tokyo metropolitan area, central Japan||#BSA:82:6:1992:2328-2349|Refraction study+Tokyo+Sediment+Structure
J|0188|Rial,J.A.+Ling,H.|Theoretical estimation of the eigenfrequencies of 2-D resonant sedimentary basins: numerical computations and analytic approximations to the elastic problem||#BSA:82:6:1992:2350-2367|Sedimentary basin+Response+Finite element method+SH-wave
J|0189|Bryan,C.J.|A possible triggering mechanism for large Hawaiian earthquakes derived from analysis of the 26 June 1989 Kilauea south flank sequence||#BSA:82:6:1992:2368-2390|Triggering+Hawaii+1989+Sequence||#*KILAUEA89
J|0190|Iio,Y.|Seismic source spectrum of microearthquakes||#BSA:82:6:1992:2391-2409|Spectrum+Microearthquake+1984+Nagano||#*NAGANO
J|0191|Maeda,N.|A method of determining focal mechanisms and quantifying the uncertainty of the determined focal mechanisms for microearthquakes||#BSA:82:6:1992:2410-2429|Focal mechanism+Microearthquake+P-wave+Stress
J|0192|Chapman,M.C.+Bollinger,G.A.+Sibol,M.S.|Modeling delay-fired explosion spectra at regional distances||#BSA:82:6:1992:2430-2447|Explosion+Spectrum+Regional study+Virginia
J|0193|Rouland,D.+Condis,C.+Parmentier,C.+|Previously undetected earthquakes in the southern hemisphere located using long-period Geoscope data||#BSA:82:6:1992:2448-2463|GEOSCOPE+South Pacific+South Indian Ocean+Antarctica+1986
J|0194|Levshin,A.L.+Ratnikova,L.I.+Berger,J.|Peculiarities of surface-wave propagation across central Eurasia||#BSA:82:6:1992:2464-2493|Surface wave+Propagation+Eurasia+Broadband seismograph
J|0195|Quin,H.R.+Thurber,C.H.|Seismic velocity structure and event relocation in Kazakhstan from secondary P phases||#BSA:82:6:1992:2494-2510|Velocity structure+Kazakhstan+Explosion+PmP-wave
J|0196|Hartse,H.E.+Sanford,A.R.+Knapp,J.S.|Incorporating Socorro magma body reflections into the earthquake location process||#BSA:82:6:1992:2511-2532|Socorro+Magma+Reflexion+Location
J|0197|Rieken,E.+Thiessen,R.L.|Three-dimensional model of the Cascadia subduction zone using earthquake hypocenters, western Washington||#BSA:82:6:1992:2533-2548|Cascadia subduction zone+Model+Hypocentre+Washington
J|0198|Regnier,M.+Chatelain,J-L.+Smalley,R.+|Seismotectonics of Sierra Pie de Palo, a basement block uplift in the Andean foreland of Argentina||#BSA:82:6:1992:2549-2571|Seismotectonics+Uplift+Argentina+Block||#*SANJUAN
J|0199|Chiodini,G.+Cioni,R.+Falsaperla,S.+|Geochemical and seismological investigations at Vulcano (Aeolian Islands) during 1978-1989||#JGR:97:7:1992:11025-11032|Lipari Islands+Seismicity+1978-1989+Volcanism
J|0200|Wald,D.J.|Strong motion and broadband teleseismic analysis of the 1991 Sierra Madre, California, earthquake||#JGR:97:7:1992:11033-11046|Strong motion+Broadband seismology+1991+California||#*SANGABRIEL91|#*WHITTIER
J|0201|Zucca,J.J.+Evans,J.R.|Active high-resolution compressional wave attenuation tomography at Newberry Volcano, central Cascade Range||#JGR:97:7:1992:11047-11055|Newberry Volcano+Tomography+Compressional wave+Attenuation
J|0202|Saikia,C.K.|Numerical study of quarry generated Rg as a discriminant for earthquakes and explosions: modeling of Rg in southwestern New England||#JGR:97:7:1992:11057-11072|Quarry blast+Rayleigh wave+Discrimination+New England
J|0203|Cowie,P.A.+Scholz,C.H.|Growth of faults by accumulation of seismic slip||#JGR:97:7:1992:11085-11095|Slip+Fault+Growth+Strain
J|0204|Shemenda,A.I.|Horizontal lithosphere compression and subduction: constraints provided by physical modeling||#JGR:97:7:1992:11097-11116|Oceanic lithosphere+Compression+Subduction+Profile
J|0205|Savage,J.C.+Thatcher,W.|Interseismic deformation at the Nankai Trough, Japan, subduction zone||#JGR:97:7:1992:11117-11135|Deformation+Nankai+Subduction zone+Uplift
J|0206|Zoback,M.L.|First- and second-order patterns of stress in the lithosphere: The World Stress Map project||#JGR:97:8:1992:11703-11728|Lithosphere+Stress+Map+Focal mechanism
J|0207|Bai,W-M.+Vigny,C.+Ricard,Y.+|On the origin of deviatoric stresses in the lithosphere||#JGR:97:8:1992:11729-11737|Stress+Lithosphere+Plate motion+Tomography
J|0208|Richardson,R.M.|Ridge forces, absolute plate motions, and the intraplate stress field||#JGR:97:8:1992:11739-11748|Plate motion+Ridge+Intraplate stress+Lithosphere
J|0209|Govers,R.+Wortel,M.J.R.+Cloetingh,S.+|Stress magnitude estimates from earthquakes in oceanic plate interiors||#JGR:97:8:1992:11749-11759|Stress+Earthquake+Oceanic crust+Plate
J|0210|Zoback,M.L.|Stress field constraints on intraplate seismicity in eastern North America||#JGR:97:8:1992:11761-11782|Stress+Intraplate seismicity+Eastern North America+Focal mechanism
J|0211|Muller,B.+Zoback,M.L.+Fuchs,K.+|Regional patterns of tectonic stress in Europe||#JGR:97:8:1992:11783-11803|Tectonics+Stress+Europe+Focal mechanism
J|0212|Grunthal,G.+Stromeyer,D.|The recent crustal stress field in Central Europe: trajectories and finite element modeling||#JGR:97:8:1992:11805-11820|Stress+Central Europe+Finite element method+Focal mechanism
J|0213|Gregersen,S.|Crustal stress regime in Fennoscandia from focal mechanisms||#JGR:97:8:1992:11821-11827|Stress+Fennoscandia+Focal mechanism+Crust
J|0214|Cornet,F.H.+Burlet,D.|Stress field determinations in France by hydraulic tests in boreholes||#JGR:97:8:1992:11829-11849|Stress+France+Borehole+Hydraulics
J|0215|Bosworth,W.+Strecker,M.R.+Blisniuk,P.M.|Integration of East African paleostress and present-day stress data: implications for continental stress field dynamics||#JGR:97:8:1992:11851-11865|East Africa+Continental crust+Stress+Seismicity
J|0216|Xu,Z-H.+Wang,S-Y.+Huang,Y-R.+|Tectonic stress field of China inferred from a large number of small earthquakes||#JGR:97:8:1992:11867-11877|Stress+China+Small earthquake+Focal mechanism
J|0217|Gowd,T.N.+Srirama Rao,S.V.+Gaur,V.K.|Tectonic stress field in the Indian subcontinent||#JGR:97:8:1992:11879-11888|Stress+India+Borehole+Focal mechanism
J|0218|Assumpcao,M.|The regional intraplate stress field in South America||#JGR:97:8:1992:11889-11903|Stress+South America+Focal mechanism+Lithosphere
J|0219|Stefanick,M.+Jurdy,D.M.|Stress observations and driving force models for the South American plate||#JGR:97:8:1992:11905-11913|Stress+South America+Driving mechanism+Lithosphere
J|0220|Meijer,P.Th.+Wortel,M.J.R.|The dynamics of motion of the South American plate||#JGR:97:8:1992:11915-11931|Plate motion+South America+Stress+Continental lithosphere
J|0221|Whittaker,A.+Bott,M.H.P.+Waghorn,G.D.|Stresses and plate boundary forces associated with subduction plate margins||#JGR:97:8:1992:11933-11944|Stress+Plate boundary+Subduction+Lithosphere
J|0222|Mercier,J.L.+Sebrier,M.+Lavenu,A.+|Changes in the tectonic regime above a subduction zone of Andean type: the Andes of Peru and Bolivia during the Pliocene-Pleistocene||#JGR:97:8:1992:11945-11982|Tectonics+Subduction zone+Andes+Stress
J|0223|Suter,M.+Quintero,O.+Johnson,C.A.|Active faults and state of stress in the central part of the trans-Mexican volcanic belt, Mexico 1. The Venta de Bravo fault||#JGR:97:8:1992:11983-11993|Fault+Stress+Mexico+Earthquake
J|0224|Mount,V.S.+Suppe,J.|Present-day stress orientations adjacent to active strike-slip faults: California and Sumatra||#JGR:97:8:1992:11995-12013|Stress+California+Sumatra+Focal mechanism
J|0225|Young,R.P.+Maxwell,S.C.|Seismic characterization of a highly stressed rock mass using tomographic imaging and induced seismicity||#JGR:97:9:1992:12361-12373|Tomography+Rock+Mine+Ontario
J|0226|Darby,D.J.+Beanland,S.|Possible source models for the 1855 Wairarapa earthquake, New Zealand||#JGR:97:9:1992:12375-12389|Source model+1855+Earthquake+Wairarapa
J|0227|Parsons,T.+Howie,J.M.+Thompson,G.A.|Seismic constraints on the nature of lower crustal reflectors beneath the extending southern transition zone of the Colorado Plateau, Arizona||#JGR:97:9:1992:12391-12407|Crust+Reflexion study+Arizona+Transition zone
J|0228|Fisk,M.D.+Charrette,E.E.+McCartor,G.D.|A comparison of phase screen and finite difference calculations for elastic waves in random media||#JGR:97:9:1992:12409-12423|Elastic wave+Finite difference method+Heterogeneous medium+Propagation
J|0229|Mayeda,K.+Koyanagi,S.+Hoshiba,M.+|Correction to `A comparative study of scattering, intrinsic, and coda Q-1 for Hawaii, Long Valley, and central California between 1.5 and 15.0 Hz'||#JGR:97:9:1992:12425|Errata+Scattering+Attenuation+S-wave+Q+California+Hawaii
J|0230|Shimada,S.+Bock,Y.|Crustal deformation measurements in central Japan determined by a Global Positioning System fixed-point network||#JGR:97:9:1992:12437-12455|Deformation+Japan+Global Positioning System+Large earthquake||#*IZUHANTO|#*IZUOSHIMA|#*IZUHANTO2|#*OSHIMA86
J|0231|Salyards,S.L.+Sieh,K.E.+Kirschvink,J.L.|Paleomagnetic measurement of nonbrittle coseismic deformation across the San Andreas fault at Pallett Creek||#JGR:97:9:1992:12457-12470|Palaeomagnetism+Deformation+San Andreas Fault+Seismicity
J|0232|Jackson,J.A.|Partitioning of strike-slip and convergent motion between Eurasia and Arabia in eastern Turkey and the Caucasus||#JGR:97:9:1992:12471-12479|Plate motion+Turkey+Caucasus+Focal mechanism
J|0233|Reches,Z.+Baer,G.+Hatzor,Y.|Constraints on the strength of the upper crust from stress inversion of fault slip data||#JGR:97:9:1992:12481-12493|Upper crust+Stress+Fault-slip+Friction
J|0234|Collier,J.S.+Sinha,M.C.|Seismic mapping of a magma chamber beneath the Valu Fa Ridge, Lau Basin||#JGR:97:10:1992:14031-14053|Lau Basin+Imaging+Magma chamber+Reflexion study
J|0235|Stark,P.B.|Inference in infinite-dimensional inverse problems: discretization and duality||#JGR:97:10:1992:14055-14082|Inversion+Velocity structure+Core+Confidence interval
J|0236|Rogers,R.M.+Pearce,R.G.|Use of the relative amplitude method to compute "best fit" earthquake moment tensors||#JGR:97:10:1992:14083-14095|Moment tensor+Amplitude+P-wave+S-wave+Depth phase
J|0237|Goldstein,P.+Walter,W.R.+Zandt,G.|Upper mantle structure beneath central Eurasia using a source array of nuclear explosions and waveforms at regional distances||#JGR:97:10:1992:14097-14113|Upper mantle+Eurasia+Nuclear explosion+Waveform
J|0238|Magistrale,H.+Kanamori,H.+Jones,C.H.|Forward and inverse three-dimensional P wave velocity models of the Southern California crust||#JGR:97:10:1992:14115-14135|P-wave+Southern California+Velocity structure+Crust
J|0239|Lindley,G.T.+Archuleta,R.J.|Earthquake source parameters and the frequency dependence of attenuation at Coalinga, Mammoth Lakes, and the Santa Cruz Mountains, California||#JGR:97:10:1992:14137-14154|Source+Frequency+Attenuation+California||#*LOMAPRIETA89|#*COALINGA|#*MAMMOTH
J|0240|Wessel,P.|Thermal stresses and the bimodal distribution of elastic thickness estimates of the oceanic lithosphere||#JGR:97:10:1992:14177-14193|Oceanic lithosphere+Thermal stress+Thickness+Profile
J|0241|Marlow,M.S.+Johnson,L.E.+Pearce,J.A.+|Upper Cenozoic volcanic rocks in the Mariana forearc recovered from drilling at Ocean Drilling Program site 781: implications for forearc magmatism||#JGR:97:11:1992:15085-15097|Marianas+Ocean Drilling Programme+Magmatism+Reflexion study
J|0242|Berge,P.A.+Fryer,G.J.+Wilkens,R.H.|Velocity-porosity relationships in the upper oceanic crust: theoretical considerations||#JGR:97:11:1992:15239-15254|Oceanic crust+Velocity+Porosity+Refraction study+East Pacific Rise
J|0243|Jannaud,L.R.+Adler,P.M.+Jacquin,C.G.|Wave propagation in random anisotropic media||#JGR:97:11:1992:15277-15289|Wave+Propagation+Anisotropy+Inversion
J|0244|Nielsen,S.B.+Tarantola,A.|Numerical model of seismic rupture||#JGR:97:11:1992:15291-15295|Numerical modelling+Rupture+Evolution+Synthetic seismogram
J|0245|Serpa,L.+Dokka,R.K.|Geometry of the Garlock fault zone based on seismic reflection data||#JGR:97:11:1992:15297-15306|Reflexion study+Mojave Desert+Geometry+Fault
J|0246|Iidaka,T.+Mizoue,M.+Suyehiro,K.|Seismic velocity structure of the subducting Pacific plate in the Izu-Bonin region||#JGR:97:11:1992:15307-15319|Velocity structure+Subduction+Izu-Bonin+Major earthquake+ISC
J|0247|Pelayo,A.M.+Wiens,D.A.|Tsunami earthquakes: slow thrust-faulting events in the accretionary wedge||#JGR:97:11:1992:15321-15337|Tsunami+Thrust fault+Accretionary wedge+Major earthquake||#*KURILS2
J|0248|Sheehan,A.F.+Solomon,S.C.|Differential shear wave attenuation and its lateral variation in the North Atlantic region||#JGR:97:11:1992:15339-15350|Attenuation+Shear wave+North Atlantic+Lateral heterogeneity
J|0249|Ferrucci,F.+Hirn,A.+De Natale,G.+|P-SV conversions at a shallow boundary beneath Campi Flegrei caldera (Italy): evidence for the magma chamber||#JGR:97:11:1992:15351-15359|Campi Flegrei+Magma chamber+P-wave+SV-wave
J|0250|Rydelek,P.A.+Sacks,I.S.|Comment on `Seismicity and detection/location threshold in the southern Great Basin seismic network' by J. Gomberg||#JGR:97:11:1992:15361-15364|Comments+Seismicity+Great Basin+Detection+Yucca Mts.|With a reply by the author
J|0251|Bergman,E.A.+Solomon,S.C.|On the strength of oceanic fracture zones and their influence on the intraplate stress field||#JGR:97:11:1992:15365-15377|Oceanic fracture+Intraplate stress+Focal mechanism+Intraplate earthquake
J|0252|Anders,M.H.+Sleep,N.H.|Magmatism and extension: the thermal and mechanical effects of the Yellowstone hotspots||#JGR:97:11:1992:15379-15393|Seismicity+Yellowstone+Hot spot+Plate motion
J|0253|Cohen,S.C.|Postseismic deformation and stress diffusion due to viscoelasticity and comments on the modified Elsasser model||#JGR:97:11:1992:15395-15403|Deformation+Stress+Viscoelasticity+Finite element method
J|0254|Denlinger,R.P.|A model for large-scale plastic yield of the Gorda deformation zone||#JGR:97:11:1992:15415-15423|Gorda Plate+Seismicity+Focal mechanism+Deformation
J|0255|Westaway,R.|Seismic moment summation for historical earthquakes in Italy: tectonic implications||#JGR:97:11:1992:15437-15464|Moment+Historical earthquake+Italy+Tectonics
J|0256|Knight,R.J.+Dvorkin,J.|Seismic and electrical properties of sandstones at low saturations||#JGR:97:12:1992:17425-17432|Elastic wave+Velocity+Attenuation+Sandstone
J|0257|Wu,J.+Mereu,R.F.|Crustal structure of the Kapuskasing uplift from LITHOPROBE near-vertical/wide-angle seismic reflection data||#JGR:97:12:1992:17441-17453|Crustal structure+Kapuskasing+Lithoprobe+Reflexion study
J|0258|Hughes,S.+Luetgert,J.H.|Crustal structure of the southeastern Grenville Province, northern New York State and eastern Ontario||#JGR:97:12:1992:17455-17479|Grenville basement+Crustal structure+Reflexion study+Refraction study
J|0259|Koch,M.+Kalata,J.|Simultaneous determination of hypocentre location and crustal structure in the Virginia seismic region||#JGR:97:12:1992:17481-17502|Virginia+Hypocentre+Crustal structure+Network
J|0260|Cahill,T.+Isacks,B.L.|Seismicity and shape of the subducted Nazca plate||#JGR:97:12:1992:17503-17529|Seismicity+Subduction+Nazca Plate+Focal mechanism
J|0261|Bernard,P.|Plausibility of long distance electrotelluric precursors to earthquakes||#JGR:97:12:1992:17531-17546|Electrotelluric field+Precursor+Teleseism+Prediction
J|0262|Stammler,K.+Kind,R.|Comment on `Mantle layering from ScS reverberations, 2, the transition zone' by J. Revenaugh and T. H. Jordan||#JGR:97:12:1992:17547-17551|Comments+Mantle+Layered medium+ScS-wave+Transition zone|With a reply by the authors
J|0263|Tibor,G.+Ben-Avraham,Z.+Steckler,M.+|Late Tertiary subsidence history of the southern Levant margin, eastern Mediterranean Sea, and its implications to the understanding of the Messinian event||#JGR:97:12:1992:17593-17614|Levant+Reflexion study+Sediment+Subsidence
J|0264|DeMets,C.|Oblique convergence and deformation along the Kuril and Japan trenches||#JGR:97:12:1992:17615-17625|Japan Trench+Kuril Trench+Deformation+Focal mechanism
J|0265|DeMets,C.|A test of present-day plate geometries for northeast Asia and Japan||#JGR:97:12:1992:17627-17635|Northeast Asia+Japan+Plate tectonics+Seismicity
J|0266|Jackson,J.A.+Haines,A.J.+Holt,W.E.|The horizontal velocity field in the deforming Aegean Sea region determined from the moment tensors of earthquakes||#JGR:97:12:1992:17657-17684|Deformation+AEgean Sea+Moment tensor+Velocity
J|0267|Nicol,A.+Wise,D.U.|Paleostress adjacent to the Alpine fault of New Zealand: fault, vein, and styolite data from the Doctors Dome area||#JGR:97:12:1992:17685-17692|New Zealand+Fault+Stress+Focal mechanism
J|0268|White,R.S.+McKenzie,D.+O'Nions,R.K.|Oceanic crustal thickness from seismic measurements and rare earth element inversions||#JGR:97:13:1992:19683-19715|Oceanic crust+Refraction study+Thickness+Rare earth element
J|0269|Delprat-Jannaud,F.+Lailly,P.|What information on the Earth model do reflection travel times provide?||#JGR:97:13:1992:19827-19844|Tomography+Reflected wave+Travel-times+Earth model
J|0270|Ogata,Y.|Detection of precursory relative quiescence before great earthquakes through a statistical model||#JGR:97:13:1992:19845-19871|Precursor+Quiescence+Great earthquake+Statistical method
J|0271|Yamashita,T.+Knopoff,L.|Model for intermediate-term precursory clustering of earthquakes||#JGR:97:13:1992:19873-19879|Precursor+Clustering+Rheology+Fault-slip
J|0272|Hwang,L.J.+Kanamori,H.|Rupture processes of the 1987-1988 Gulf of Alaska earthquake sequence||#JGR:97:13:1992:19881-19908|Rupture+1987-1988+Alaska, Gulf of+Sequence||#*ALASKA187|#*ALASKA287|#*ALASKA88
J|0273|Zhao,D-P.+Hasegawa,A.+Horiuchi,S.|Tomographic imaging of P and S wave velocity structure beneath northeastern Japan||#JGR:97:13:1992:19909-19928|Tomography+P-wave+S-wave+Japan
J|0274|Whitman,D.+Isacks,B.L.+Chatelain,J-L.+|Attenuation of high-frequency seismic waves beneath the central Andean plateau||#JGR:97:13:1992:19929-19947|Attenuation+High frequency+Central Andes+Upper mantle
J|0275|Hirn,A.+Magnier,S-A.|Shear source multiazimuth near- and far-offset vertical seismic profiles, Asal Rift, Republic of Djibouti||#JGR:97:13:1992:19949-19960|Djibouti+Vertical seismic profiling+Anisotropy+Shear wave
J|0276|Miller,K.C.+Howie,J.M.+Ruppert,S.D.|Shortening within underplated oceanic crust beneath the central California margin||#JGR:97:13:1992:19961-19980|California+Oceanic crust+Reflexion study+Compression
J|0277|Shaw,P.R.|Quantitative comparison of seismic data sets with waveform inversion: testing the age-dependent evolution of crustal structure||#JGR:97:13:1992:19981-19991|Mid-Atlantic Ridge+Oceanic crust+Waveform+Refraction study
J|0278|White,D.J.+Milkereit,B.+Salisbury,M.H.+|Crystalline lithology across the Kapuskasing uplift determined using in situ Poisson's ratio from seismic tomography||#JGR:97:13:1992:19993-20006|Kapuskasing+Tomography+Refraction study+Lithology
J|0279|Watts,A.B.+Torne,M.|Subsidence history, crustal structure, and thermal evolution of the Valencia Trough: a young extensional basin in the western Mediterranean||#JGR:97:13:1992:20021-20041|Valencia+Reflexion study+Subsidence+Crustal structure
J|0280|Kropotkin,P.N.+Efremov,V.N.|The Earth's radius changes in the course of the geological evolution|In Russian with English abstract|#GTK:-:4:1992:3-14|Earth structure+Tomography+Expansion+Contraction
J|0281|Sobornov,K.O.+Bushuev,A.S.|Kinematics of the convergence zone between the northern Urals and the upper Pechora depression|In Russian with English abstract|#GTK:-:4:1992:39-51|Profile+Urals+Kinematics+Convergence
J|0282|Belyakov,L.N.+Dembovsky,B.Ya.+Timusheva,V.N.+|The structure of the Lemvin allochthonous sheet (Polar Urals)|In Russian|#GTK:-:4:1992:125-128|Structure+Polar Urals+Crust+Geophysical investigation|In brief
J|0283|Sokolov,V.B.|The structure of the Earth crust in the Urals|In Russian with English abstract|#GTK:-:5:1992:3-19|Structure+Crust+Urals+Geophysical investigation
J|0284|Pilipenko,A.I.+Korsakov,O.D.|Lithosphere tectonic deformations in the Indian Ocean|In Russian with English abstract|#GTK:-:5:1992:27-44|Lithosphere+Deformation+Indian Ocean+Geotraverse
J|0285|Zonenshain,L.P.+Gol'mshtok,A.Ya.+Hutchinson,D.R.|The structure of the Baikal rift|In Russian with English abstract|#GTK:-:5:1992:63-77|Structure+Baikalian Rift+Reflexion study+Focal mechanism
J|0286|Postelnikov,Ye.S.+Museibov,N.I.|The Baikalides basement structure at the southwest border of the Siberian platform|In Russian with English abstract|#GTK:-:6:1992:37-51|Siberian platform+Heterogeneity+Basement+Velocity
J|0287|Pushcharovskii,Yu.M.+Raznitsin,Yu.N.+Mazarovich,A.O.+|The Arkhangelsky, Doldrums and Vernadsky faults in central Atlantics: structure and composition of rocks|In Russian with English abstract|#GTK:-:6:1992:63-79|Mid-Atlantic Ridge+Fault+Crustal structure+Marine geophysical investigation
J|0288|Kasmin,V.G.+Borisova,I.A.|Structural relations between continental and oceanic rift zones|In Russian with English abstract|#GTK:-:6:1992:80-98|Continental rift+Oceanic rift+Africa+Profile
J|0289|Grigoriants,B.V.|The role of clay beds in tectogenesis|In Russian with English abstract|#GTK:-:6:1992:99-110|Tectonogenesis+Clay+Sedimentary cover+Wave guide
J|0290|Levchenko,O.V.+Evsyukov,Yu.D.|Detailed survey of the ocean bottom structure in the central Indian Ocean intraplate deformation area|In Russian with English abstract|#OKN:32:4:1992:752-760|Crustal structure+Indian Ocean+Intraplate deformation+Reflexion study|Marine geology
J|0291|Pavlidis,Yu.A.+Shcherbakov,F.A.+Boyarskaya,T.D.+|The Quaternary stratigraphy and paleogeography of the southern part of the Barents Sea|In Russian with English abstract|#OKN:32:5:1992:917-923|Barents Sea+Seismoacoustics+Stratigraphy+Sediment|Marine geology
J|0292|Sviridov,N.I.+Sivkov,V.V.|The use of seismoacoustic data for the near-bottom currents investigation in the south-west Baltic|In Russian with English abstract|#OKN:32:5:1992:941-947|Seismoacoustics+Baltic Sea+Sediment+Current|Marine geology
J|0293|Chethutskiy,G.A.+Sokolov,S.B.|A local non-linear (tau-p)-method in marine seismological research||#OKN:32:6:1992:1151-1155|Tau-p method+Deep seismic sounding+Barents Sea+Ocean-bottom seismometer|Observational methods and instruments
J|0294|Chekunov,A.V.+Tripolsky,A.A.|Depth structure of the Teisseir-Tornquist zone in the territory of Ukraine by the data of regional seismic studies|In Russian with English abstract|#GFZ:14:4:1992:3-8|Deep structure+Ukraine+Profile+Lithosphere
J|0295|Prochazkova,D.+Roth,Z.|Seismogenic movements in central Europe||#GFZ:14:4:1992:20-30|Central Europe+Seismogenesis+Collision+Seismicity
J|0296|Grin,N.E.+Gordienko,L.Ya.|Deconvolution of DSS data obtained while using industrial explosions|In Russian with English abstract|#GFZ:14:4:1992:47-57|Deconvolution+Deep seismic sounding+Explosion
J|0297|Borodulin,M.A.+Baisarovich,M.N.|Models of lithosphere of the Ukrainian Shield by the materials of CDP materials|In Russian with English abstract|#GFZ:14:4:1992:57-66|Lithosphere+Ukrainian Shield+Common depth point+Profiling
J|0298|Lossovsky,E.K.|Uniqueness of solution of the standard inverse kinematic problem by CMRW|In Russian with English abstract|#GFZ:14:4:1992:81-85|Head wave+Occurrence+Refraction study+Boundary
J|0299|Almossawi,H.I.H.|Microfracture modelling and rock deformation of lunarstones with synthetic cement||#GFZ:14:4:1992:91-95|Microfracture+Deformation+Rock+Synthetic cement
J|0300|Lossovsky,E.K.|Determination of the rheological parameters of the Earth crust and upper mantle by peculiar points of amplitude spectra of reflected waves|In Russian with English abstract|#GFZ:14:5:1992:27-35|Rheology+Crust+Upper mantle+Reflected wave
J|0301|Il'chenko,T.V.|A seismic model of the Earth crust by the DSS profile: the Priazovian Massif-Donbas-Voronezh Massif|In Russian with English abstract|#GFZ:14:5:1992:50-59|Crustal structure+Deep seismic sounding+Dnepr Basin+Donets Basin
J|0302|Kanevsky,V.F.|Orthogonal separation of signals in the spatial unexplosive seismic sounding|In Russian with English abstract|#GFZ:14:5:1992:69-73|Signal+Seismic prospecting+Pulse|Scientific communication
J|0303|Blyas,E.A.|An inverse kinematic problem for laminar three-dimensional media|In Russian with English abstract|#GFZ:14:5:1992:73-77|Inversion+Kinematics+Layered medium+Model|Scientific communication
J|0304|Gintov,O.B.+Isai,V.M.+Kobylyansky,V.B.|On two approaches to solution of the tectonophysical problem on the mechanism of structurization|In Russian|#GFZ:14:5:1992:93-96|Tectonophysics+Mechanism+Structure|Discussion
J|0305|Gordienko,V.V.|Tectonosphere of oceanic basin|In Russian with English abstract|#GFZ:14:6:1992:3-11|Mantle+Oceanic basin+Velocity structure+Physical properties
J|0306|Volvovsky,B.S.+Volvovsky,I.S.+Tal-Virsky,B.B.|Asthenosphere - facts and suppositions|In Russian with English abstract|#GFZ:14:6:1992:11-22|Asthenosphere+Geophysical data+Structure+Constitution
J|0307|Lebedev,T.S.+Korchin,V.A.+Burtny,P.A.|Elastic anisotropy and structural transformations of amphibolite under high PT-parameters. 1. Ultrasonic and petrographic studies|In Russian with English abstract|#GFZ:14:6:1992:29-42|Anisotropy+Transformation+Ultrasonics+Mineral
J|0308|Grin,N.E.+Gordienko,L.Ya.|Multiwave deconvolution|In Russian with English abstract|#GFZ:14:6:1992:42-51|Multiple wave+Pulse+Deconvolution+Filtering
J|0309|Soloviev,V.D.+Rusakov,O.M.+Kozlenko,V.G.|Structural-tectonic zoning and structure of Guinea Shelf by geophysical data|In Russian with English abstract|#GFZ:14:6:1992:51-61|Guinea+Continental shelf+Marine geophysical investigation+Sedimentary cover
J|0310|Lukishov,B.G.+Samoilov,E.V.+Bagdasaryan,A.G.+|Possibilities to reveal inhomogeneities in the crust on the base of study of spectral characteristics of natural seismic background of the Earth|In Russian with English abstract|#GFZ:14:6:1992:83-89|Inhomogeneity+Crust+Plane wave+Seismic noise|Scientific communication
J|0311|Suvorov,V.D.|Structure of the Earth crust in the Yakutian kimberlite province according to DSS data|In Russian with English abstract|#GGS:-:7:1992:114-124|Deep seismic sounding+Crustal structure+Kimberlite pipe+Yakutiya
J|0312|Voitylova,T.N.+Kharlamov,M.G.+Fuks,V.Z.+|On the exchange capacity of boundaries in the Earth crust|In Russian with English abstract|#GGS:-:7:1992:124-128|Exchange wave+Crust+Profile+Kazakhstan
J|0313|Suvorov,V.D.+Parasotka,B.S.+Os'kin,I.V.+|New seismic data on structure of the Earth's crust in the Mirny kimberlite field (Yakutia)|In Russian with English abstract|#GGS:-:8:1992:96-101|Deep seismic sounding+Kimberlite+Yakutiya+Layered medium
J|0314|Goldin,S.V.+Piankov,V.N.|Geometrical divergence and number of singularities on a ray|In Russian with English abstract|#GGS:-:8:1992:101-111|Decomposition+Propagation+Seismic waves+Layered medium
J|0315|Yashkov,G.N.|Treatment of RWM data on the basis of 3D transient fields of diffraction and reflection|In Russian with English abstract|#GGS:-:8:1992:112-121|Reflected wave+Diffraction+Curvilinearity+Surface
J|0316|Znak,V.I.+Panov,S.M.|Algorithm of interactive treatment of vertical seismic sounding data|In Russian with English abstract|#GGS:-:8:1992:121-127|Vertical seismic profiling+Interactive system
J|0317|Brodov,L.Yu.+Lebedev,K.A.+Kuznetsov,V.M.+|On nature of some errors when determining orientation of three-component borehole arrays from first-wave polarization|In Russian with English abstract|#GGS:-:8:1992:127-136|Vertical seismic profiling+Converted wave+Polarization+Borehole
J|0318|Chikov,B.M.|Shear stress-structuring in the lithosphere: varieties, mechanisms, conditions (review of the problem)|In Russian with English abstract|#GGS:-:9:1992:3-39|Shear stress+Lithosphere+Mechanism+Rock
J|0319|Druzhinin,A.B.|Wave beam in 3D scalar version of the edge-wave superposition method|In Russian with English abstract|#GGS:-:9:1992:113-126|Wave equation+Inhomogeneous medium+Kirchhoff method+Edge wave
J|0320|Shteiman,E.A.|Clustering and characteristic times in the local seismic sequences of Baikal rift zone|In Russian with English abstract|#GGS:-:9:1992:126-134|Clustering+Sequence+Distribution+Baikalian Rift
J|0321|Kolesnikov,Yu.I.+Ignatov,A.Yu.+Koksharov,V.Z.|On the accuracy of P-wave attenuation estimates from acoustic logging data: physical model results|In Russian with English abstract|#GGS:-:9:1992:134-141|P-wave+Attenuation+Acoustic logging+Borehole
J|0322|Borodin,V.I.+Vorobyev,F.A.|Multiple scattering of seismic wavelet in a heterogeneous medium|In Russian with English abstract|#GGS:-:11:1992:132-136|Scattering+Wavelet+Heterogeneous medium+Pulse
J|0323|Aizenberg,A.M.|A self-similar conformal analog of wave equation in the 3D inhomogeneous medium|In Russian with English abstract|#GGS:-:11:1992:136-142|Wave equation+Inhomogeneous medium+Geometry+Edge wave
J|0324|Borovik,N.S.|Aftershock field structure of the 15 May 1970 earthquake (northeast of the Baikal rift zone)|In Russian with English abstract|#GGS:-:12:1992:103-110|Aftershock+1970+Baikalian Rift+Earthquake
J|0325|Steiman,E.A.|Unstationarity and spatial localization of periodicity of earthquakes in Baikal rift zone|In Russian with English abstract|#GGS:-:12:1992:110-116|Baikalian Rift+Periodicity+Occurrence+1968-1984
J|0326|Pavlenov,V.A.|Estimation of seismic parameters affecting the ground conditions in Irkutsk|In Russian with English abstract|#GGS:-:12:1992:116-124|Irkutsk+Ground motion+Intensity+Strong earthquake
J|0327|Kontorovich,V.A.|Wave field modelling by forecasting a geological section in the Lower-Jurassic deposits of the Koltogorskii Trough|In Russian with English abstract|#GGS:-:12:1992:124-132|Hydrocarbon+West Siberia+Wave field+Geology
J|0328|Senin,A.G.|Optimization of vibroseis exploration treatment algorithms|In Russian with English abstract|#GGS:-:12:1992:140-145|Vibroseis+Exploration+Filtering+Probe signal
J|0329|Nedashkovskii,I.Yu.|On nature of actually excitable sounding signals in vibration seismic prospecting|In Russian with English abstract|#GGS:-:12:1992:146-153|Seismic prospecting+Vibration+Excitation+Nonlinear response
J|0330|Trubitsyn,V.P.+Belavina,Yu.F.|Geodynamical models of subduction zones|In Russian|#RFZ:-:7:1992:3-34|Geodynamic model+Subduction zone+Seismicity+Thermal structure
J|0331|Guglielmi,A.V.|Ponderomotive forces in the Earth's crust and magnetosphere|In Russian|#RFZ:-:7:1992:35-39|Seismomagnetic effect+Crust+Magnetosphere
J|0332|Zhdanov,M.A.|A simple analytical model of tsunami generation by an earthquake|In Russian|#RFZ:-:7:1992:40-50|Tsunami+Earthquake+Generation+Source
J|0333|Gershenzon,N.I.|The seismoelectromagnetic field of electrokinetic nature|In Russian|#RFZ:-:7:1992:51-66|Seismomagnetic effect+Electromagnetic field
J|0334|Kuskov,O.L.+Panferov,A.B.|Thermodynamic models of seismic boundary structure at 650km depth|In Russian|#RFZ:-:7:1992:67-80|Thermodynamic model+Structure+650km discontinuity+Chemistry
J|0335|Guryanov,V.V.|Monotype nonlinear plane seismic waves|In Russian|#RFZ:-:7:1992:81-88|Plane wave+Nonlinear wave
J|0336|Shalimov,S.L.|On effects of long-period oscillations of the Earth in the upper atmosphere|In Russian|#RFZ:-:7:1992:89-94|Free oscillation+Atmosphere
J|0337|Kolokolov,L.E.+Liperovskaya,E.V.+Liperovsky,V.A.+|Sudden spreading of sporadic E layers in the middle-latitude ionosphere prior to earthquakes|In Russian|#RFZ:-:7:1992:101-109|Ionosphere+Earthquake+Precursor|Scientific communication
J|0338|Polikarpova,L.A.+Arutyunyan,A.V.|Spectral differences in PKP waves from underground nuclear explosions and earthquakes|In Russian|#RFZ:-:7:1992:110-120|Spectral analysis+PKP-wave+Underground nuclear explosion+Discrimination|Scientific communication
J|0339|Bogachkin,B.M.+Borisov,B.A.+Rogozhin,E.A.|The Rachinsk, 29 April 1991, earthquake: results of geological observations|In Russian|#RFZ:-:8:1992:12-23|Earthquake+1991+Caucasus+Geology||#*WCAUCASUS91
J|0340|Starostenko,V.I.+Pashko,V.F.+Zavorot'ko,A.N.|On the solution of a strongly unstable linear problem of gravity data inversion|In Russian|#RFZ:-:8:1992:24-44|Stability+Inversion+Gravity+Seismology
J|0341|Zubkov,S.I.|Thermal forerunners|In Russian|#RFZ:-:8:1992:72-82|Thermal model+Precursor+Earthquake
J|0342|Malamud,A.S.+Nikolaevskii,V.N.|Seismic monitoring as a tool for earthquake prediction|In Russian|#RFZ:-:8:1992:83-92|Monitoring+Prediction+Energy+Tadzhikistan|Scientific communication
J|0343|Kozyreva,L.I.|The 1st all-union seminar on the biological implications of earthquake prediction|In Russian|#RFZ:-:8:1992:107-112|Prediction+Animal behaviour|Chronicle
J|0344|Rogozhin,E.A.+Leontyev,A.N.|Zaysan, 1990 earthquake: surface deformations and source tectonic setting|In Russian|#RFZ:-:9:1992:3-14|1990+Kazakhstan+Earthquake+Surface deformation||#*ZAYSAN90
J|0345|Solovyov,S.L.+Kampos-Romero,M.L.+Plink,N.L.|The Orleansville, 1954, and El Asnam, 1980 tsunamis in the Alboran Sea|In Russian|#RFZ:-:9:1992:15-40|Tsunami+Alboran Sea+El Asnam+1954+1980||#*ELASNAM
J|0346|Koshtyak,B.+Nikonov,A.A.+Perederin,V.P.+|Very small motions monitoring of faults at the Garm geodynamic test site|In Russian|#RFZ:-:9:1992:41-58|Fault+Garm+Motion+Geodynamics
J|0347|Dorofeeva,R.P.+Sintsov,A.A.|Heat generation of rocks and radiogenic heat flux at Mongolia and adjacent areas|In Russian|#RFZ:-:9:1992:70-82|Mongolia+Heat+Radioactivity+Wave velocity
J|0348|Gershenzon,N.I.+Gokhberg,M.B.|On earthquake precursors in geomagnetic variations of electrokinetic origin|In Russian|#RFZ:-:9:1992:100-105|Precursor+Geomagnetic variation+Prediction|Scientific communication
J|0349|Gridnev,D.G.+Naumenko-Bondarenko,I.I.+Sidorin,A.Ya.+|Observations of tidal gravity variation in Garm|In Russian|#RFZ:-:9:1992:121-124|Garm+Gravity+Station|Scientific communication
J|0350|Sanina,I.A.+Galkin,I.N.|Problems of geotomography|In Russian|#RFZ:-:9:1992:125-128|Tomography|Chronicle
J|0351|Krestnikov,V.N.+Nersesov,I.L.+Shtange,D.V.|Seismic zoning of the Pamir and Tien Shan areas|In Russian|#RFZ:-:10:1992:3-26|Pamir+Tien Shan+Zoning+Fault
J|0352|Bokanenko,L.I.+Perederin,V.P.+Galaganov,O.N.|Local deformations at the Garm test site and their implications for earthquake prediction|In Russian|#RFZ:-:10:1992:27-41|Deformation+Garm+Prediction+Seismicity
J|0353|Genshaft,Yu.S.+Bdoyan,A.A.+Sholpo,A.V.+|Composition of the third crustal layer at Iceland|In Russian|#RFZ:-:10:1992:42-57|Iceland+Crustal structure+Composition+Wave velocity
J|0354|Danilova,M.A.+Yunga,S.L.|On possible asymmetry of the seismic moment tensor|In Russian|#RFZ:-:11:1992:31-34|Rupture+Moment tensor+Asymmetry+Mechanics|Scientific communication
J|0355|Kiselev,A.P.|Higher order terms of the ray theory and "nongeometrical phenomena" in an inhomogeneous viscoelastic medium|In Russian|#RFZ:-:11:1992:35-38|Ray theory+Inhomogeneous medium+Viscoelasticity+Propagation|Scientific communication
J|0356|Urupov,A.K.+Trushnikov,E.B.|2D ultrasonic modelling of P waves propagation in a medium having one system of cracks|In Russian|#RFZ:-:11:1992:39-53|Ultrasonics+P-wave+Propagation+Crack|Scientific communication
J|0357|Dubrov,N.I.+Zaslavsky,Yu.M.+Mostovoy,S.P.|A short-pulse P wave seismic geophone|In Russian|#RFZ:-:11:1992:54-63|Pulse+P-wave+Geophone|Scientific communication
J|0358|Saidov,O.A.+Zabitova,S.G.|Variations of hydrous and gaseous geochemical parameters in relation to shallow earthquakes|In Russian|#RFZ:-:11:1992:89-96|Shallow-focus earthquake+Hydrology+Gas+Geochemistry|Scientific communication
J|0359|Burymskaya,R.N.+Zhelnina,L.A.+Ivashchenko,A.I.|Source spectra of the June, 1975 earthquakes at the southern part of the Kurile Islands|In Russian|#RFZ:-:12:1992:14-19|1975+Kuril Islands+Source+Spectrum||#*KURILS|#*KURILS2
J|0360|Migunov,N.I.+Skipochka,S.I.+Kokorev,A.A.|On the seismoelectric effect in cracked rocks|In Russian|#RFZ:-:12:1992:20-28|Crack+Rock+Seismoelectric effect+Precursor
J|0361|Ionov,A.M.+Linnik,V.N.+Sirotkin,V.K.|Behaviour of Rayleigh waves in a medium which is weakly inhomogeneous in the vertical direction|In Russian|#RFZ:-:12:1992:80-87|Rayleigh wave+Inhomogeneous medium+Propagation+Vertical movement|Scientific communication
J|0362|Vanek,I.+Kondorskaya,N.V.+Christoskov,L.|Uniform magnitude system in the Euroasian region for seismological practice|In Russian|#RFZ:-:12:1992:99-107|Magnitude+Eurasia+P-wave+S-wave+Surface wave|Scientific communication
B|0363|#CEC1|Lopez Arroyo,A.|Macroseismic intensity scales in hazard and risk studies|#CEC2|Hazard+Risk+Intensity+MSK-Scale|p1-17
B|0364|#CEC1|Drakopoulos,J.K.+Stavrakakis,G.N.|Rupture complexity and synthesized strong ground motion|#CEC2|Rupture+Complexity+Ground motion+Stress-drop|p19-32|#*ALKION|#*ALKION2|#*ALKION3
B|0365|#CEC1|Bonnin,J.+Olivet,J-L.|Geodynamics of the Mediterranean domain|#CEC2|Mediterranean+Geodynamics+Plate interaction+Atlantic Ocean|extended abstract only, p33-35
B|0366|#CEC1|Carydis,P.G.|An approach towards the understanding of earthquake resistant design of structures|#CEC2|Earthquake-resistant design+Earthquake engineering+Damage+Structure|p37-40
B|0367|#CEC1|Drakopoulos,J.K.+Stavrakakis,G.N.|Far-field seismic spectra and source parameters for earthquakes occurred in the Aegean and surrounding area|#CEC2|Source parameter+Spectrum+AEgean+Stress-drop|p41-63|#*NAEGEAN|#*KEFALLINIA
B|0368|#CEC1|Panza,G.F.|The theory and some applications of synthetic seismograms to strong motion data and macroseismic informations|#CEC2|Synthetic seismogram+Strong motion+Theory+Macroseismic data|p65-77
B|0369|#CEC1|Suhadolc,P.|Synthetic isoseismals|#CEC2|Isoseismal+Displacement+Synthetic seismogram+Source parameter|p79-87|#*CAMPANIA
B|0370|#CEC1|Oliveira,C.S.|Strong ground motion: characterization and modelling|#CEC2|Ground motion+Modelling+Earthquake engineering+SMART 1 array|p89-98
B|0371|#CEC1|Mendes-Victor,L.A.|Elements for seismic hazard evaluation|#CEC2|Hazard+Damage+Soil+Building|p99-118
B|0372|#CEC1|Marcellini,A.|Methodology for microzonation assessment|#CEC2|Microzoning+Hazard+Soil+Amplification|p119-131
B|0373|#CEC1|Suhadolc,P.|Applications of synthetic seismograms to the analysis of strong ground motion|#CEC2|Ground motion+Synthetic seismogram+Strong-motion seismology+Crustal structure|p133-142
B|0374|#CEC1|Ambraseys,N.N.|Data for the investigation of the long-term seismicity of central Greece|#CEC2|Greece+Seismicity+Earthquake catalogue+Epicentre|p143-149
B|0375|#CEC1|Ambraseys,N.N.|Liquefaction-induced ground failures|#CEC2|Liquefaction+Distance+Formula+Ground condition|p151-165
B|0376|#CEC1|Papazachos,B.C.|Seismic hazard and long term earthquake prediction in Greece|#CEC2|Greece+Hazard+Prediction+Shallow earthquake|p167-176
B|0377|#CEC1|Pucaru,G.|Probabilistic approach for predicting the occurrence time of a future earthquake using precursors as symptomatic phenomena|#CEC2|Probability+Prediction+Precursor+Bayesian method|p177-195
J|0378|Ben-Avraham,Z.+Zoback,M.D.|Transform-normal extension and asymmetric basins: an alternative to pull-apart models||Geology:20:5:1992:423-426|Basin+Transform fault+Profile+Plate tectonics
J|0379|Unruh,J.R.+Davisson,M.L.+Criss,R.E.+|Implications of perennial saline springs for abnormally high fluid pressures and active thrusting in western California||Geology:20:5:1992:431-434|California+Spring water+Pore pressure+Thrust fault
J|0380|Joseph,D.+Taylor,B.+Shor,A.N.|New sidescan sonar and gravity evidence that the Nova-Canton Trough is a fracture zone||Geology:20:5:1992:435-438|Side-scan sonar+Fracture zone+Gravity+Pacific Ocean
J|0381|Russo,R.M.+Speed,R.C.|Oblique collision and tectonic wedging of the South American continent and Caribbean terranes||Geology:20:5:1992:447-450|Collision+South America+Caribbean+Seismicity
J|0382|Armijo,R.+Lyon-Caen,H.+Papanastassiou,D.|East-west extension and Holocene normal-fault scarps in the Hellenic arc||Geology:20:6:1992:491-494|Hellenic arc+Scarp+Extension+Seismotectonics
J|0383|Nelson,K.D.|Are crustal thickness variations in old mountain belts like the Appalachians a consequence of lithospheric delamination?||Geology:20:6:1992:498-502|Crustal thickness+Mountain+Tectonics+Lithosphere
J|0384|Allen,D.J.+Hinze,W.J.|Wisconsin gravity minimum: solution of a geologic and geophysical puzzle and implications for cratonic evolution||Geology:20:6:1992:515-518|Bouguer anomaly+Wisconsin+Craton+Batholith
J|0385|Jones,A.G.+Kurtz,R.D.+Boerner,D.E.+|Electromagnetic constraints on strike-slip fault geometry - the Fraser River fault system||Geology:20:6:1992:561-564|Strike-slip+Fault+British Columbia+Magnetotellurics
J|0386|Hutchinson,D.R.+Gol'mshtok,A.Ya.+Zonenshain,L.P.+|Depositional and tectonic framework of the rift basins of Lake Baikal from multichannel seismic data||Geology:20:7:1992:589-592|Baikalian Rift+Tectonics+Reflexion study+Basin
J|0387|Johnson,R.A.+Loy,K.L.|Seismic reflection evidence for seismogenic low-angle faulting in southeastern Arizona||Geology:20:7:1992:597-600|Arizona+Faulting+Reflexion data+Seismogenesis
J|0388|Cloos,M.|Thrust-type subduction-zone earthquakes and seamount asperities: a physical model for seismic rupture||Geology:20:7:1992:601-604|Subduction zone+Model+Rupture+Seamount
J|0389|Antoine,L.A.G.+Moyes,A.B.|Geophysical evidence for a causative process for fragmentation in western Gondwana||Geology:20:7:1992:605-608|Fragmentation+Gondwana+Anomaly+Low-velocity layer
J|0390|Wever,T.|Comment on `Archean and Proterozoic crustal evolution: evidence from crustal seismology' by R. J. Durrheim and W. D. Mooney||Geology:20:7:1992:664-666|Comments+Evolution+Crust+Moho|With a reply by the authors
J|0391|Rosendahl,B.R.+Meyers,J.+Groschel,H.+|Nature of the transition from continental to oceanic crust and the meaning of reflection Moho||Geology:20:8:1992:721-724|Moho+Continental crust+Oceanic crust+Guinea+Transition
J|0392|Poag,C.W.+Powars,D.S.+Poppe,L.J.+|Deep sea drilling project site 612 bolide event: new evidence of a late Eocene impact-wave deposit and a possible impact site, U.S. east coast||Geology:20:9:1992:771-774|DSDP+Impact+Eocene+Reflexion study
J|0393|Milkereit,B.+Green,A.G.+a-Sudbury Working Group|Deep geometry of the Sudbury structure from seismic reflection profiling||Geology:20:9:1992:807-811|Sudbury structure+Geometry+Dipping reflector+Reflexion study
J|0394|Hopper,J.R.+Mutter,J.C.+Larson,R.L.+|Magmatism and rift margin evolution: evidence from northwest Australia||Geology:20:9:1992:853-857|Marine seismic investigation+Australia+Magmatism+Passive margin
J|0395|Pigram,C.J.+Davies,P.J.+Feary,D.A.+|Absolute magnitude of the second-order middle to late Miocene sea-level fall, Marion Plateau, northeast Australia||Geology:20:9:1992:858-862|Sea level+Australia+Miocene+Sediment
J|0396|Jokat,W.+Uenzelmann-Neben,G.+Kristoffersen,Y.+|Lomonosov Ridge - a double-sided continental margin||Geology:20:10:1992:887-890|Continental margin+Arctic+Reflexion study+Velocity structure
J|0397|Acharyya,S.K.|Comment on `Possible greenschist metamorphism at the base of a 22-km sedimentary section, Bay of Bengal' by J. R. Curray||Geology:20:10:1992:955-957|Bengal, Bay of+Sediment+Reflexion study+Comments|With a reply by the author
J|0398|Lefort,J-P.+Max,M.D.|Structure of the Variscan belt beneath the British and Armorican overstep sequences||Geology:20:11:1992:979-982|Variscan+Block+Deep structure+Reflexion study
J|0399|Mohajer,A.+Eyles,N.+Rogojina,C.|Neotectonic faulting in metropolitan Toronto: implications for earthquake hazard assessment in the Lake Ontario region||Geology:20:11:1992:1003-1006|Hazard+Lake Ontario+Faulting+Neotectonics
J|0400|Milkereit,B.+Forsyth,D.A.+Green,A.G.+|Seismic images of a Grenvillian terrane boundary||Geology:20:11:1992:1027-1030|Great Lakes+Extension+Dipping layer+Reflexion study
J|0401|Zoetemeijer,R.+Sassi,W.+Roure,F.+|Stratigraphic and kinematic modeling of thrust evolution, northern Apennines, Italy||Geology:20:11:1992:1035-1038|Apennines+Thrust sheet+Evolution+Reflexion study
J|0402|Aydin,A.+Johnson,A.M.+Fleming,R.W.|Right-lateral-reverse surface rupture along the San Andreas and Sargent faults associated with the October 17, 1989, Loma Prieta, California, earthquake||Geology:20:12:1992:1063-1067|Loma Prieta+Rupture+1989+Earthquake||#*LOMAPRIETA89
J|0403|Hoffmann,H-J.+Reston,T.J.|Nature of the S reflector beneath the Galicia Banks rifted margin: preliminary results from prestack depth migration||Geology:20:12:1992:1091-1094|Reflector+Continental margin+Spain+Migration
J|0404|Kennard,J.M.+Southgate,P.N.+Jackson,M.J.+|New sequence perspective on the Devonian reef complex and the Frasnian-Famennian boundary, Canning Basin, Australia||Geology:20:12:1992:1135-1138|Seismostratigraphy+Sequence+Australia+Sedimentation
J|0405|Harvill,L.L.|Comment on `Finite extension and low-angle normal faulting' by D. W. Forsyth||Geology:20:12:1992:1152|Comments+Normal fault+Stress
J|0406|Chen,P-S.+Bai,T-X.|Quantification relations between the source parameters||#ASS:5:3:1992:435-446|Source parameter+Moment magnitude+Scaling+Equation
J|0407|Wang,B-Q.+Chen,Z-Y.+Ma,S-T.+|The expert system for earthquake prediction (I) - the overall design and main structure||#ASS:5:3:1992:447-457|Prediction+Expert system+Data base+Software
J|0408|Ni,J-C.+Chen,Y-T.+Wang,M.+|Moment tensor inversion of some aftershocks of the April 18, 1985 Luquan earthquake of Yunnan Province, China||#ASS:5:3:1992:459-467|Yunnan+1985+Moment tensor+Aftershock||#*LUQUAN
J|0409|Lin,J-Z.+Jiang,W-Q.+Li,Y-M.+|Determination of source parameters of small earthquakes in the east part of Guangdong and south part of Fujian Province||#ASS:5:3:1992:469-480|Source parameter+Small earthquake+Fujian+Guangdong
J|0410|Sun,Y.+Zheng,S-H.+Mei,S-R.|Inversion of source parameters and attenuation of the Tangshan aftershocks||#ASS:5:3:1992:481-492|Source parameter+Attenuation+Aftershock+T'ang-shan||#*TANGSHAN
J|0411|Zhu,Y-Q.+Hu,T-Y.+Guo,Z-Q.|Propagation of seismic waves in a viscoelastic medium and the effect of topography||#ASS:5:3:1992:493-501|Propagation+Viscoelastic medium+Topography+Finite element method
J|0412|Zhang,C.+Chen,L-W.|Comprehensive study on stability of deep crust and unstable behavior of earthquake source by both failure mechanism and frictional sliding mechanism||#ASS:5:3:1992:503-514|Deep crust+Friction+Stability+Failure||#*TANGSHAN
J|0413|Wang,Q-Z.+Qiang,Z-J.|The techniques of inverse for tectonic stress field in Chao-Shan area using data of sliding faults||#ASS:5:3:1992:515-521|Fault+Stress field+Inversion+China
J|0414|Wei,B-L.+Chen,P-L.+Li,F-G.+|Focal mechanisms and tectonic stress field of the Xinfengjiang earthquake||#ASS:5:3:1992:539-548|Focal mechanism+Earthquake+Xinfengjiang+Pattern||#*XUNWU87|#*XUNWU87A
J|0415|Ge,H-C.+Ni,Y-W.+Li,J-H.|Lg magnitude scale in the mainland of China||#ASS:5:3:1992:549-562|Lg-wave+Magnitude+China+Group velocity
J|0416|Qin,J-H.|Regional characteristics of coda attenuation after the Lancang-Gengma earthquake||#ASS:5:3:1992:563-578|Coda+Attenuation+Yunnan+Regional study||#*YUNNAN88A|#*YUNNAN88B
J|0417|Yao,D-Y.+Yu,L-M.+Li,Q-Z.+|A study of crust and upper mantle structure in northeastern region of China by means of synthetic seismograms||#ASS:5:3:1992:579-586|Crust+Upper mantle+China+Synthetic seismogram
J|0418|Lin,M.+Gong,S-J.|Secular and seasonal changes in transfer function at Guangzhou geomagnetic observatory||#ASS:5:3:1992:587-595|Secular variation+Seasonal variation+Transfer function+Geomagnetic variation
J|0419|Li,H-J.|Checking the quality of restoration in the frequency domain of CDSN broad-band seismograms using modern control engineering||#ASS:5:3:1992:597-607|Frequency domain+Broadband seismograph+Seismogram+Transfer function
J|0420|Zhuang,C-T.+Xu,S.+Zhang,W-X.+|A data collection and analysis system for research on rock fracturing||#ASS:5:3:1992:609-615|Acoustic emission+Fracturing+Microcrack+Laboratory
J|0421|Sun,J-Z.+Peng,Y-M.+Zhao,H-R.+|Ultrasonic modelling research of earthquake response of underground lifeline engineering||#ASS:5:3:1992:617-624|Ultrasonic modelling+Earthquake engineering+Ground motion+Pipeline
J|0422|Lei,J-C.+Shi,Z-L.+Yian,J-Q.|Research on determining the annual earthquake occurrence rates of potential seismic source areas||#ASS:5:3:1992:625-634|Seismic potential+Fuzzy mathematics+Probability+North China
J|0423|Xie,Y-S.|Historical seismicity of the offshore Fujian-Guangdong region||#ASS:5:3:1992:635-646|Historical seismicity+Fujian+Intensity+Guangdong
J|0424|Tang,C.A.+Xu,X-H.|Complete process of rock failure and the complete course of seismogeny||#ASS:5:3:1992:647-652|Seismogenesis+Failure+Rock+Laboratory|Research note
J|0425|Li,H-H.|A preliminary study of earthquake self-similarity phenomena||#ASS:5:3:1992:653-659|Characteristic earthquake+Fractal dimension+China+Precursor||#*SONGPAN|#*TANGSHAN
J|0426|Chen,P-S.|Catalogue of earthquakes (September-November, 1991)||#ASS:5:3:1992:663-665|Earthquake catalogue+1991|Errata sheet for the June-August 1990 catalogue is a loose insert page
J|0427|Zhang,L-M.+Tao,Z-Y.|A visco-elastoplastic model for fault rocks and its application to earthquake research||#ASS:5:4:1992:667-674|Rock+Fault+Viscoelastic medium+Model
J|0428|Wang,S-Y.+Shi,Z-L.+Huan,W-L.|The Yecheng, Xinjiang, China, earthquake of February 14, 1980 - a destructive intermediate earthquake||#ASS:5:4:1992:675-682|Intermediate-depth earthquake+1980+Focal mechanism+Xinjiang+ISC||#*KARAKORUM80
J|0429|Zhao,Z-X.+Qike,K.+Matsumura,K.+|p values of continental aftershock activity in China||#ASS:5:4:1992:683-690|China+Aftershock+Continent+p-Value
J|0430|Zhao,G-M.|The possible changes of tectonic stress fields in North China in 16-17th centuries||#ASS:5:4:1992:691-697|Stress field+North China+16-17th centuries+Fault plane solution
J|0431|Tian,H.+Zhang,Z-L.|Research on thermal structure and thermal stress of the crust in Bohai Sea and its surroundings||#ASS:5:4:1992:699-707|Seismic belt+Bohai+Thermal structure+Thermal stress
J|0432|Li,F-Q.|Comparison of the results obtained from different techniques such as overcoring, hydrofracturing, breakouts and focal mechanism solutions||#ASS:5:4:1992:709-717|Hydrofracturing+Focal mechanism+Technique+Stress
J|0433|Yang,M-Z.|Frequency characteristics of coda and determination of medium parameters in Lingwu region, China||#ASS:5:4:1992:719-728|China+Coda+Frequency response+Q
J|0434|Huang,S-P.+Wang,J-Y.|Variations of heat flow and Pn-velocity in the continental area of China||#ASS:5:4:1992:729-738|Heat flow+China+Wave velocity+Deep seismic sounding
J|0435|Rong,D-L.+Jin,F-H.+He,Y-T.+|Experimental study on the effect of the critical temperature of water on the preparing and occurring of large earthquakes||#ASS:5:4:1992:739-747|Large earthquake+Physical properties+Temperature+Laboratory
J|0436|Chen,S-Z.|Crustal structure and dynamical analysis of seismogenesis in the lower Yangzi Valley - south Yellow Sea area||#ASS:5:4:1992:749-758|Seismogenesis+Crustal structure+Dynamic analysis+Yellow Sea
J|0437|Jiang,W-Q.+Lin,J-Z.+Li,Y-M.+|Preliminary study of the straticulate structure of crust-mantle beneath east Guangdong and south Fujian Provinces of China||#ASS:5:4:1992:759-767|Synthetic seismogram+Fujian+Crust-mantle structure+P-wave+Guangdong
J|0438|Xia,H-K.+Lu,Z-X.+Niu,X.+|The deep and shallow structure, composition and its relation to earthquakes in Chaoyang-Yixian seismic region||#ASS:5:4:1992:769-777|China+Structure+Crust+Low-velocity layer
J|0439|Pan,S-D.+Ma,J.|Time interval of earthquake recurrence for strike-slip fault||#ASS:5:4:1992:779-787|Time intervals+Recurrence+Strike-slip+Fault
J|0440|Yi,X-F.+Shi,Y-Q.|Shifts of the head of Zhengguo canal dug in Qin dynasty and recent activity of the fault on north margin of the Weihe downfaulted basin||#ASS:5:4:1992:789-795|Weihe Basin+Fault+Crustal movement+Seismicity
J|0441|Chen,Y-F.+Kang,Y-S.+Du,X-B.+|Dipole electrode sounding in earthquake prone region||#ASS:5:4:1992:797-806|Precursor+Geoelectricity+Dipole source+Sounding
J|0442|Galper,A.M.+Dmitrenko,V.V.+Nikitina,N.V.+|An investigation on the relationship between high energy charged particle flux in the upper atmosphere and the earthquake activities||#ASS:5:4:1992:825-829|Atmosphere+Correlation+Charged particle+Occurrence
J|0443|Stopinski,W.|Dynamic processes in a medium subject to loading as detected by resistivity measurements||#ASS:5:4:1992:831-840|Laboratory+Resistivity+Dynamics+Dilatancy
J|0444|Su,Q-C.+Zeller,E.+Angino,E.|Inducing action of hydrogen migrating along faults on earthquakes||#ASS:5:4:1992:841-847|Hydrogen+Fault+Migration+Trigger
J|0445|Li,D-H.|Successive formula method for numerical analysis of vibrating response||#ASS:5:4:1992:849-856|Numerical analysis+Spectrum+Algorithm+Computer program
J|0446|Feng,C-G.+Jiang,J-C.|Quantitative observation and study on rhythmic abnormalities of activities in animals prior to earthquakes||#ASS:5:4:1992:857-865|Animal behaviour+Precursor
J|0447|Li,H.+Yin,X-C.+Li,S-Y.+|The experimental research on b value of AE for the rock specimens with pre-existing crack or notch under uniaxial compression||#ASS:5:4:1992:867-875|b-Value+Rock+Crack+Laboratory
J|0448|Chi,S-L.+Luo,M-J.|Tidal energy flow in solid Earth||#ASS:5:4:1992:877-881|Earth tide+Energy+Flow|Research note
J|0449|Zhuang,K-Y.+Wang,W.+Huang,B-S.+|Expert system for earthquake prediction on personal computer (ESEP/PC)||#ASS:5:4:1992:883-886|Personal computer+Prediction+Expert system|Research note
J|0450|Zhao,L.+Li,Z-J.+Zheng,S-H.|Focal mechanism of the October 19, 1989 Datong, China earthquake||#ASS:5:4:1992:887-890|Focal mechanism+Earthquake+1989+Datong|Research note|#*NECHINA89
J|0451|Wu,H.|Review of `Compilation of historical materials of Chinese earthquakes' edited by Y-S. Xie and M-B. Cai||#ASS:5:4:1992:897-898|Review+China+Historical earthquake
J|0452|Chen,P-S.|Catalogue of earthquakes (December, 1991 - February, 1992)||#ASS:5:4:1992:899-901|Earthquake catalogue+1991-1992
J|0453|Bonafede,M.+Strehlau,J.+Ritsema,A.R.|Geophysical and structural aspects of fault mechanics - a brief historical review||#TRN:4:4:1992:458-463|Fault+Mechanics+Review+Earthquake
J|0454|Gudmundsson,A.|Formation and growth of normal faults at the divergent plate boundary in Iceland||#TRN:4:4:1992:464-471|Iceland+Normal fault+Plate boundary
J|0455|Valensise,G.+Pantosti,D.|A 125 Kyr-long geological record of seismic source repeatability: the Messina Straits (southern Italy) and the 1908 earthquake (Ms 7 1/2)||#TRN:4:4:1992:472-483|Recurrence+1908+Messina, Straits of+Characteristic earthquake
J|0456|Dragoni,M.|A dislocation model of aseismic fault slip under nonuniform friction||#TRN:4:4:1992:501-508|Dislocation+Aseismicity+Fault-slip+Friction
J|0457|Teisseyre,R.|Earthquake premonitory processes: evolution of stresses and electric current generation||#TRN:4:4:1992:509-513|Current+Precursor+Stress+Seismic process
J|0458|Searle,M.P.|International symposium on the Karakoram and Kun Lun Mountains||#TRN:4:5:1992:531-534|Symposium+Karakoram+Mountain+Tectonics|Report of a Symposium held at Kashgar, June 1992
J|0459|Woo,G.|Citius Altius Fortius: 10th world conference on earthquake engineering||#TRN:4:5:1992:534-535|Conference+Earthquake engineering+Building+Mitigation|Report of a Conference held in Madrid, July 1992
J|0460|Tibaldi,A.|The role of transcurrent intra-arc tectonics in the configuration of a volcanic arc||#TRN:4:5:1992:567-577|Tectonics+Volcanic complex+Arc+Configuration
J|0461|Reuschle,T.|Fracture in a heterogeneous medium: a network approach||#TRN:4:5:1992:591-597|Heterogeneous medium+Fracture+Crack+Fractal dimension
J|0462|Meissner,R.+Sadowiak,P.|The terrane concept and its manifestation by deep reflection studies in the Variscides||#TRN:4:5:1992:598-607|Variscides+Deep seismic sounding+DEKORP+Terrane
J|0463||Earthquake engulfments!||#TRN:4:5:1992:620|Earthquake+1794+Destruction+Ecuador
J|0464|Giardini,D.+Basham,P.+Berry,M.|The Global Seismic Hazard Assessment Program (GSHAP)||#TRN:4:6:1992:623-627|GSHAP+Hazard+Regionalization+Map|Terranews
J|0465|Bella,F.+Biagi,P.F.+Caputo,M.+|On the migration of precursors of strong earthquakes||#TRN:4:6:1992:676-681|Strong earthquake+Migration+Precursor+Perturbation
J|0466|Carter,R.M.+Carter,L.|Seismic imaging of Pleistocene deep-sea cyclothems: implications for sequence stratigraphy||#TRN:4:6:1992:682-692|Imaging+Stratigraphy+Sediment+Offshore
J|0467|Woo,G.|Review of `Searching for fragments: fractals and chaos in geology and geophysics' by D. L. Turcotte||#TRN:4:6:1992:706|Review+Chaos+Fractal+Geophysics
J|0468|Nath,S.K.+Majumdar,S.+Sengupta,S.|Two dimensional seismic modelling by finite element Legendre polynomial condensation technique||#BGT:34:133:1992:3-19|Modelling+Technique+Finite element method+Synthetic seismogram
J|0469|Bottari,A.+Federico,B.+Stillitani,E.|Body-wave velocity model in the upper mantle of the southern Tyrrhenian region||#BGT:34:133:1992:29-40|Upper mantle+Tyrrhenian Sea+Wave velocity+Body wave
J|0470|Ambraseys,N.N.|Reappraisal of the seismic activity in Cyprus: 1894-1991||#BGT:34:133:1992:41-80|Earthquake catalogue+Seismicity+1894-1991+Cyprus+Macroseismic data+ISC
J|0471|Amadori,M.L.+Feroci,M.+Versino,L.|Geological outline of the Selinunte Archaeological Park||#BGT:34:134-135:1992:87-99|Historical earthquake+Sicily+Geology+Vertical electric sounding
J|0472|Balia,R.|Shallow reflection survey in the Selinunte National Archaeological Park (Sicily, Italy)||#BGT:34:134-135:1992:121-131|Reflexion study+Sicily+Survey
J|0473|Bernabini,M.+Nicolich,R.+Polino,R.|Seismic line CROP/ECORS across the western Alps||#BGT:34:134-135:1992:227-232|CROP+Western Alps+ECORS+Profile|CROP News N. 2
A|0474|Marshall,P.D.+Porter,D.+Peachell,P.|Analysis of seismograms from nuclear explosions of known yield at Degelen Mountain and Konystan in East Kazakhstan, USSR|Report No. O 2/92|1992:Aldermaston, Berks:AWE|Seismogram+Test site+USSR+Underground nuclear explosion|115p
B|0475||Explosion Source Phenomenology|Geophysical Monograph 65|Douglas,A.|Broad band estimates of the seismic source functions of Nevada explosions from far-field observations of P waves||1991:Washington:American Geophysical Union|Nevada Test Site+Underground nuclear explosion+P-wave+Seismogram|p127-140
J|0476|Takeda,T.+Yamanobe,S.+Ichinomiya,T.|Seismic safety of prestressed concrete cable-stayed bridges: member importance factor|In Japanese with English abstract on p6-7|#AKR:40:10:1992:55-62|Bridge+Safety+Concrete
J|0477|Ohbo,N.+Hayashi,K.+Ueno,K.+|Seismic forces in earthquake-resistant design for super-deep vertical underground structures|In Japanese with English abstract on p7|#AKR:40:10:1992:63-70|Earthquake-resistant design+Underground structure
J|0478|Yamada,T.+Suzuki,K.+Kobayashi,H.+|Elasto-plastic control of building vibration using fuzzy set theory (Part 1) -applicability of fuzzy control-|In Japanese with English abstract on p10|#AKR:40:10:1992:89-94|Vibration+Fuzzy mathematics+Control
J|0479|Yamada,T.+Kanada,T.|Optimum distribution of yield shear coefficients for multi-story structure subjected to nonstationary random earthquakes|In Japanese with English abstract on p10-11|#AKR:40:10:1992:95|Shear+Structure+Damage
J|0480|Koshida,H.+Ishida,M.+Yasaka,A.+|Base isolation system for earthquake protection and vibration isolation of structures (Part 11) -system identification of vibration model and earthquake response simulation analysis of base-isolated building-|In Japanese with English abstract on p12-13|#AKR:40:10:1992:111-116|Base isolation system+Vibration+Building+Response
J|0481|Iizuka,M.+Tasaka,A.+Yoshizawa,T.+|Base isolation system for earthquake protection and vibration isolation of structures (Part 12) -verification tests of composite rubber bearing-|In Japanese with English abstract on p13-14|#AKR:40:10:1992:117-122|Base isolation system+Vibration+Damper
J|0482|Mizukoshi,K.+Yasaka,A.+Iizuka,M.|Failure tests of laminated rubber bearings having various shape factors|In Japanese with English abstract on p14|#AKR:40:10:1992:123-128|Base isolation system+Building+Design
J|0483|Ishibashi,T.+Naito,Y.+Yokoyama,K.|Influence of wind force on system identification of buildings during microtremors (Part 1) -observed results and simulation analyses-|In Japanese with English abstract on p15-16|#AKR:40:10:1992:137-142|Tremor+Building+Wind
J|0484|Naito,Y.+Ishibashi,T.+Yokoyama,K.|Influence of wind force on system identification of buildings by micro tremor (Part 2) -theoretical study using wave propagation theory-|In Japanese with English abstract on p16|#AKR:40:10:1992:143-146|Wind+Tremor+Building
J|0485|Ohno,S.+Ikeura,T.+Takemura,M.+|Attenuation formula for strong-motion spectra applicable to near- and far-source regions|In Japanese with English abstract on p17|#AKR:40:10:1992:153-160|Attenuation+Spectrum+Strong motion+Distance||#*IMPERIAL|#*MORGAN|#*MEXICOCITY
J|0486|Hibiya,K.+Inou,M.+Hirono,S.+|Evaluation of rock mass using borehole radar system|In Japanese with English abstract on p21|#AKR:40:10:1992:205-210|Electromagnetic wave+Borehole+Radar+Tomography
J|0487|Yamanaka,Y.+Miyatake,T.+Hirahara,K.|Three-dimensional S-wave velocity structure beneath the Japan Islands -configuration of the subducting slab-|In Japanese with English abstract|#BER:67:3:1992:265-302|S-wave+Velocity structure+Japan+Slab+ISC
J|0488|a-Research Group for Explosion Seismology|Explosion seismic observations along the southern part of the Itoigawa-Shizuoka tectonic line, Hayakawa-Shizuoka profile|In Japanese with English abstract|#BER:67:3:1992:303-323|Profile+Japan+Crustal structure+Explosion seismology
J|0489|Okubo,S.+Nagasawa,K.+Hiraga,S.+|Gravity observations around active faults in southern Kanto, Japan (I) -Kozu-Matsuda fault-|In Japanese with English abstract|#BER:67:3:1992:325-359|Fault+Japan+Bouguer anomaly
J|0490|Tsukuda,T.+Sakai,K.+Hashimoto,S.+|Structural features of the precursory seismic gap and aftershock region of the 1990 southern Niigata earthquake of M 5.4|In Japanese with English abstract|#BER:67:3:1992:361-388|Seismic gap+1990+Earthquake+Niigata||#*NIIGATA90A|#*NIIGATA90B
J|0491|Takeo,M.+Kanamori,H.|Simulation of long-period ground motions for the 1923 Kanto earthquake (M~8)|With Japanese abstract|#BER:67:4:1992:389-436|Earthquake+1923+Ground motion+Japan
J|0492|a-Research Group for Explosion Seismology|Explosion seismic observation in the Kitakami region, northern Honshu, Japan. (Kuji-Ishinomaki profile)|In Japanese with English abstract|#BER:67:4:1992:437-461|Refraction study+Japan+Profile+Velocity
J|0493|a-Japanese DELP Research Group|Report on DELP 1989 cruise in the TTT junction areas part 1: general outline|With Japanese abstract|#BER:67:4:1992:463-478|DELP+Triple junction+Marine geophysical investigation+Japan
J|0494|Hirata,N.+Takahashi,N.+Amishiki,T.+|Report on DELP 1989 cruise in the TTT junction areas part 2: upper crustal structure near the trench-trench-trench triple junction off the Boso Peninsula, Japan|With Japanese abstract|#BER:67:4:1992:479-512|DELP+Triple junction+Crustal structure+Marine seismic investigation+Japan
J|0495|Hudson,D.E.|Parameters for seismic hazard mapping - a review||#BIT:29:3:1992:1-14|Hazard+Review+Mapping+Parameters
J|0496|Medhekar,M.S.+Jain,S.K.+Arya,A.S.|Proposed draft for IS:4326 on ductile detailing of reinforced concrete structures||#BIT:29:3:1992:15-35|Reinforced concrete+Building code+Earthquake engineering
J|0497|Kumar,P.+Bhal,N.S.|Damage mechanism assessment in rehabilitation of distressed structures||#BIT:29:3:1992:37-46|Damage+Building+Reconstruction
J|0498||Earthquakes in and around India for the period from July to September 1990||#BIT:29:3:1992:47-52|Earthquake catalogue+1990+India
J|0499|Gupta,H.K.|Artificial water reservoirs and earthquakes||#BIT:29:4:1992:1-21|Induced earthquake+Reservoir+Koyna+Global seismicity
J|0500|Bhattacharya,S.N.+Srivastava,H.N.|Earthquake predictability in Hindukush region using seismicity pattern and chaos||#BIT:29:4:1992:23-35|Hindu Kush+Chaos+Space-time pattern+Prediction+ISC
J|0501|Pankaj+Singh,G.|On critical earthquake direction and treatment of accidental torsional response in 3D frame analysis||#BIT:29:4:1992:37-52|Structural response+Building+Frame+Direction
J|0502|Kumar,A.+Basu,S.+Chandra,B.|The effect of band limited interpolation of nonuniform samples on records of analog accelerographs||#BIT:29:4:1992:53-67|Accelerograph+Interpolation+Seismic record+Accelerogram
J|0503||Earthquakes in and around India for the period January to March 1991||#BIT:29:4:1992:69-77|Earthquake catalogue+1991+India
J|0504|Yin,C-S.+Batzle,M.L.+Smith,B.J.|Effects of partial liquid/gas saturation on extensional wave attenuation in Berea sandstone||#GRL:19:13:1992:1399-1402|Extensional wave+Attenuation+Sandstone+Pore fluid
J|0505|Hiramatsu,Y.+Ando,M.+Takeuchi,F.|Temporal change in coda Q-1 in the Hida region, central Japan||#GRL:19:13:1992:1403-1406|Coda+Q+Temporal variation+Honshu
J|0506|Molchanov,O.A.+Kopytenko,Yu.A.+Voronov,P.M.+|Results of ULF magnetic field measurements near the epicenters of the Spitak (MS = 6.9) and Loma Prieta (MS = 7.1) earthquakes: comparative analysis||#GRL:19:14:1992:1495-1498|Magnetic field+Spitak+1988+Loma Prieta+1989||#*ARMENIA88|#*LOMAPRIETA89
J|0507|Westaway,R.|Evidence for anomalous earthquake size distributions in regions of minimal strain||#GRL:19:14:1992:1499-1502|Strain+Size+Distribution+Fault
J|0508|Feignier,B.+Young,R.P.|Moment tensor inversion of induced microseismic events: evidence of non-shear failures in the -4 < M < -2 moment magnitude range||#GRL:19:14:1992:1503-1506|Mine tremor+Induced seismicity+Moment tensor+Manitoba
J|0509|Chatelain,J-L.+Molnar,P.+Prevot,R.+|Detachment of part of the downgoing slab and uplift of the New Hebrides (Vanuatu) Islands||#GRL:19:14:1992:1507-1510|Slab+Uplift+New Hebrides+Seismicity
J|0510|Jackson,M.E.+Barrientos,S.E.+Bilham,R.+|Uplift in the Nepal Himalaya revealed by spirit leveling||#GRL:19:15:1992:1539-1542|Nepal+Uplift+Levelling+Seismicity
J|0511|King,S.D.+Masters,G.|An inversion for radial viscosity structure using seismic tomography||#GRL:19:15:1992:1551-1554|Tomography+Viscosity+Structure+Mantle
J|0512|Peltier,W.R.+Forte,A.M.+Mitrovica,J.X.+|Earth's gravitational field: seismic tomography resolves the enigma of the Laurentian anomaly||#GRL:19:15:1992:1555-1558|Tomography+Gravity+Hudson Bay+Mantle convection
J|0513|Nagumo,S.+McCreery,C.S.|PcP and ScP beneath the western Pacific detected by a deep ocean-bottom hydrophone array||#GRL:19:15:1992:1559-1562|PcP-wave+ScP-wave+Western Pacific+Hydrophone
J|0514|Stammler,K.+Kind,R.+Petersen,N.+|The upper mantle discontinuities: correlated or anticorrelated?||#GRL:19:15:1992:1563-1566|Upper mantle+Discontinuity+Broadband seismograph+Converted wave
J|0515|Tanimoto,T.+Zhang,Y-S.|Cause of low velocity anomaly along the South Atlantic hotspots||#GRL:19:15:1992:1567-1570|Low-velocity layer+South Atlantic+Hot spot+S-wave
J|0516|Li,F.|A structural approach to estimate seismic stacking velocity and zero-offset time||#GRL:19:15:1992:1571-1574|Stacking+Velocity+Offset+Exploration
J|0517|Um,J.+Dahlen,F.A.|Source phase and amplitude anomalies of long-period surface waves||#GRL:19:15:1992:1575-1578|Surface wave+Amplitude+Phase+Propagation
J|0518|McGarr,A.|An implosive component in the seismic moment tensor of a mining-induced tremor||#GRL:19:15:1992:1579-1582|Implosion+Moment tensor+Mine tremor+South Africa
J|0519|Igarashi,G.+Wakita,H.+Sato,T.|Precursory and coseismic anomalies in well water levels observed for the February 2, 1992 Tokyo Bay earthquake||#GRL:19:15:1992:1583-1586|Precursor+Water level+1992+Tokyo+Earthquake||#*TOKYO92
J|0520|Crossley,D.J.+Rochester,M.G.+Peng,Z.R.|Slichter modes and Love numbers||#GRL:19:16:1992:1679-1682|Inner core+Normal mode+Love number+Gravity
J|0521|Palciauskas,V.V.|Compression to shear wave velocity ratio of granular rocks: role of rough grain contacts||#GRL:19:16:1992:1683-1686|Compressional wave+Shear wave+Velocity+Granular medium
J|0522|Nagihara,S.+Sclater,J.G.+Beckley,L.M.+|High heat flow anomalies over salt structures on the Texas continental slope, Gulf of Mexico||#GRL:19:16:1992:1687-1690|Heat flow+Salt+Profile+Mexico, G. of
J|0523|Dieterich,J.H.+Linker,M.F.|Fault stability under conditions of variable normal stress||#GRL:19:16:1992:1691-1694|Stress+Fault+Stability+Modelling
J|0524|Ishida,M.+Kikuchi,M.|A possible foreshock of a future large earthquake near Odawara, central Japan||#GRL:19:16:1992:1695-1698|Foreshock+Large earthquake+1990+Kanto-Tokai||#*ODAWARA90
J|0525|Holbrook,W.S.+Purdy,G.M.+Collins,J.A.+|Deep velocity structure of rifted continental crust, U.S. Mid-Atlantic margin, from wide-angle reflection/refraction data||#GRL:19:16:1992:1699-1702|Velocity structure+Continental crust+Mid-Atlantic Ridge+Reflexion study
J|0526|Kaneshima,S.+Silver,P.G.|Errata to `A search for source side mantle anisotropy'||#GRL:19:16:1992:1721|Errata+Anisotropy+Mantle+Shear wave splitting+Asthenosphere
J|0527|Huang,J-I.|Modeling dynamic fracture growth with an elastic network||#GRL:19:18:1992:1855-1858|Fracture+Modelling+Rock+Elastodynamics
J|0528|Sheetz,K.E.+Schlue,J.W.|Inferences for the Socorro magma body from teleseismic receiver functions||#GRL:19:18:1992:1867-1870|Magma+Teleseism+Socorro+Receiver
J|0529|Swift,S.A.+Stephen,R.A.|How much gabbro is in ocean seismic layer 3?||#GRL:19:18:1992:1871-1874|Oceanic crust+Layered medium+Vertical seismic profiling+Mid-Atlantic Ridge
J|0530|Goldberg,D.|Crosshole lithotectonic correlation in high-grade metamorphic rocks, central southern Connecticut||#GRL:19:18:1992:1879-1882|Connecticut+Cross-hole+Well-log+Sonic log
J|0531|Katsumata,K.|Seismic transmission survey: mapping in two-layered media||#GRL:19:18:1992:1883-1886|Converted wave+Seismic survey+Layered medium+Synthetic seismogram
J|0532|Frankel,A.+Leith,W.|Evaluation of topographic effects on P and S-waves of explosions at the northern Novaya Zemlya test site using 3-D numerical simulations||#GRL:19:18:1992:1887-1890|Novaya Zemlya+Topography+Nuclear explosion+Waveform
J|0533|Zhong,S-J.+Gurnis,M.|Viscous flow model of a subduction zone with a faulted lithosphere: long and short wavelength topography, gravity and geoid||#GRL:19:18:1992:1891-1894|Subduction zone+Deformation+Viscosity+Topography
J|0534|Kawakatsu,H.+Ohminato,T.+Ito,H.+|Broadband seismic observation at the Sakurajima volcano, Japan||#GRL:19:19:1992:1959-1962|Broadband seismology+Volcano+Kyushu+Volcanic tremor
J|0535|Lomax,A.J.+Bolt,B.A.|Broadband waveform modelling of anomalous strong ground motion in the 1989 Loma Prieta earthquake using three-dimensional geologic structures||#GRL:19:19:1992:1963-1966|Broadband seismology+Strong motion+Loma Prieta+1989||#*LOMAPRIETA89
J|0536|Verdonck,D.+Furlong,K.P.|Stress accumulation and release at complex transform plate boundaries||#GRL:19:19:1992:1967-1970|Plate boundary+Stress+Finite element method+San Andreas Fault
J|0537|Abers,G.A.|Relationship between shallow- and intermediate-depth seismicity in the eastern Aleutian subduction zone||#GRL:19:20:1992:2019-2022|Aleutian Islands+Subduction zone+Shallow-focus earthquake+Intermediate-depth earthquake
J|0538|Hirata,N.+Karp,B.Ya.+Yamaguchi,T.+|Oceanic crust in the Japan Basin of the Japan Sea by the 1990 Japan-USSR expedition||#GRL:19:20:1992:2027-2030|Oceanic crust+Japan Sea+1990+Marine seismic investigation
J|0539|Kim,J-S.+Moon,W.M.+Percival,J.A.+|Seismic imaging of shallow reflectors in the eastern Kapuskasing structural zone, with correction of crossdip attitudes||#GRL:19:20:1992:2035-2038|Imaging+Reflector+Kapuskasing+Lithoprobe
J|0540|Weber,P.+Machetel,P.|Convection within the inner-core and thermal implications||#GRL:19:21:1992:2107-2110|Convection+Inner core+Thermal model+Anisotropy
J|0541|Selvaggi,G.+Amato,A.|Subcrustal earthquakes in the northern Apennines (Italy): evidence for a still active subduction?||#GRL:19:21:1992:2127-2130|Apennines+Subduction+Intermediate-depth earthquake+Italy
J|0542|Wilcock,W.S.D.+Purdy,G.M.+Solomon,S.C.+|Microearthquakes on and near the East Pacific Rise, 9degrees-10degreesN||#GRL:19:21:1992:2131-2134|Microearthquake+East Pacific Rise+Spreading centre+Hydrophone
J|0543|Park,S.K.+Jiracek,G.R.+Johnson,K.M.|Magnetotelluric evidence for a brittle-ductile transition, Peninsular Ranges batholith, southern California?||#GRL:19:21:1992:2143-2146|Magnetotellurics+Southern California+Seismicity+Transition zone
J|0544|Balachandar,S.+Yuen,D.A.+Reuteler,D.|Time-dependent three dimensional compressible convection with depth-dependent properties||#GRL:19:22:1992:2247-2250|Mantle convection+Tomography+Spectrum+Modelling
J|0545|Karato,S.|On the Lehmann discontinuity||#GRL:19:22:1992:2255-2258|Lehmann discontinuity+Upper mantle+Deformation+Velocity
J|0546|Wasilewski,P.J.+Mayhew,M.A.|The Moho as a magnetic boundary revisited||#GRL:19:22:1992:2259-2262|Moho+Magnetism+Reflexion study+Boundary
J|0547|Holliger,K.+Carbonell,R.+Levander,A.R.|Sensitivity of the lateral correlation function in deep seismic reflection data||#GRL:19:22:1992:2263-2266|Reflexion study+Lateral variation+Synthetic seismogram+Crustal structure
J|0548|Kanamori,H.+Thio,H-K.+Dreger,D.S.+|Initial investigation of the Landers, California, earthquake of 28 June 1992 using TERRAscope||#GRL:19:22:1992:2267-2270|Southern California+1992+Earthquake+Strong-motion record||#*LANDERS92
J|0549|Zhao,D-P.+Kanamori,H.|P-wave image of the crust and uppermost mantle in southern California||#GRL:19:23:1992:2329-2332|P-wave+Tomography+Crustal structure+Southern California
J|0550|Kato,M.+Hirahara,K.|Anomalous propagation of Rayleigh waves along Izu-Mariana trench||#GRL:19:23:1992:2333-2336|Propagation+Rayleigh wave+Macquarie Ridge+1989||#*MACQUARIE89
J|0551|Sandvol,E.+Ni,J.+Ozalaybey,S.+|Shear-wave splitting in the Rio Grande Rift||#GRL:19:23:1992:2337-2340|Shear wave splitting+Rio Grande Rift+SKS-wave+Deformation
J|0552|Byerlee,J.D.+Savage,J.C.|Coulomb plasticity within the fault zone||#GRL:19:23:1992:2341-2344|Fault+Plasticity+Deformation+Model
J|0553|Jones,A.G.+Gough,D.I.+Kurtz,R.D.+|Electromagnetic images of regional structure in the southern Canadian Cordillera||#GRL:19:24:1992:2373-2376|Magnetotellurics+Canadian Cordillera+Reflexion study+Crustal structure
J|0554|Brandsdottir,B.+Menke,W.H.|Thin low-velocity zone within the Krafla caldera, NE-Iceland attributed to a small magma chamber||#GRL:19:24:1992:2381-2384|Iceland+Volcanic tremor+Magma chamber+Low-velocity layer
J|0555|Nakanishi,I.|Rayleigh waves guided by sea-trench topography||#GRL:19:24:1992:2385-2388|Rayleigh wave+Kuril Trench+1991+Swarm||#*KURIL91
J|0556|Rutenberg,A.|Nonlinear response of asymmetric building structures and seismic codes: a state of the art review||#EEE:6:2:1992:3-19|Structural response+Soil-structure interaction+Building code+Asymmetry||#*MEXICOCITY
J|0557|Pitilakis,K.+Margaris,V.+Lekidis,V.+|The Griva, northern Greece, earthquake of December 21, 1990. (Seismological, structural and geotechnical aspects)||#EEE:6:2:1992:20-35|Greece+1990+Strong earthquake+Building code||#*GRIVA90
J|0558|Di Paola,M.+La Mendola,L.|Dynamics of structures under seismic input motion (eurocode 8)||#EEE:6:2:1992:36-44|Ground motion+Building code+Structural dynamics+Response
J|0559|Papanikolaou,K.V.+Tegos,I.A.+Penelis,G.G.|A comparative study on the seismic performance of conventionally and non conventionally reinforced short members||#EEE:6:2:1992:45-53|Earthquake-resistant design+Structural dynamics+Steel frame+Loading
J|0560|Jangid,R.S.+Datta,T.K.|Seismic behaviour of torsionally coupled base isolated structure||#EEE:6:3:1992:3-13|Base isolation system+Torsion+Nonlinear response+Building
J|0561|Jordanovski,L.R.+Todorovska,M.I.+Trifunac,M.D.|The total loss in a building exposed to earthquake hazard. Part I: the model||#EEE:6:3:1992:14-25|Hazard+Building+Model+Loss
J|0562|Jordanovski,L.R.+Todorovska,M.I.+Trifunac,M.D.|The total loss in a building exposed to earthquake hazard. Part II: a hypothetical example||#EEE:6:3:1992:26-32|Hazard+Loss+Building
J|0563|Crespellani,T.+Vannucchi,G.+Zeng,X.|Seismic hazard analysis in the Florence area||#EEE:6:3:1992:33-42|Hazard+Italy+Intensity+Attenuation
J|0564|Sigbjornsson,R.+Olafsson,S.|Application of parametric time series models in earthquake engineering||#EEE:6:3:1992:43-49|Earthquake engineering+Time series+Iceland+Spectrum
J|0565|Corsanego,A.+D'Agostino,S.|Italian guidelines for interventions on ancient architectonic complexes of great value in seismic areas||#EEE:6:3:1992:50-55|Historic building+Restoration+Italy+Vulnerability
J|0566|Suarez,G.+Ligorria,J.P.+Ponce,L.|Preliminary crustal structure of the coast of Guerrero, Mexico, using the minimum apparent velocity of refracted waves|With Spanish abstract|#GFN:31:3:1992:247-252|Crustal structure+Guerrero+Refracted wave+Velocity
J|0567|Esparza,F.J.+Frez,J.|Regionalization of surface wave velocities by means of continuity conditions|In Spanish with English abstract|#GFN:31:3:1992:263-277|Travel-times+Surface wave+Mathematical method+Regionalization
J|0568|Munguia,L.+Gaitan M.,J.+Wong O.,V.+|Microseismicity in the north zone of the La Paz fault, south Baja California, Mexico|In Spanish with English abstract|#GFN:31:3:1992:279-287|Microseismicity+Baja California+Swarm+Focal mechanism
J|0569|Vega,R.M.|Interface for linking a 24 channel seismograph to a portable microcomputer|In Spanish with English abstract|#GFN:31:3:1992:325-329|Microcomputer+Digital processing+Reflexion
J|0570|Ronquillo,G.F.|Seismic tomography in the Cazones area, Veracruz (Mexico)|In Spanish with English abstract|#GFN:31:4:1992:397-405|Tomography+Power plant+Numerical method+Velocity structure
J|0571|Castillo H.,D.+De la Cruz M.,V.|Structural survey and volcanism in the thermal zone of the San Pedro Lagunillas, Nayarit, Mexico|In Spanish with English abstract|#GFN:31:4:1992:407-415|Volcanism+Mexico+Geothermal field+1987
J|0572|Urrutia-Fucugauchi,J.+Molina-Garza,R.S.|Gravity modelling of regional crustal and upper mantle structure of the Guerrero terrane 1. Colima graben and southern Sierra Madre Occidental, western Mexico|With Spanish abstract|#GFN:31:4:1992:493-507|Gravity modelling+Upper mantle+Crustal structure+Guerrero
J|0573|Pap,S.+Soreg,V.+Pap-Hasznos,I.|Exploration of the Devavanya-south basement structure for hydrocarbons - a case history||#GPT:37:2-3:1992:211-228|Hydrocarbon+Basement+Exploration+Pannonian Basin
J|0574|Lenhardt,W.+Aric,K.|Amplitude attenuation and industrial noise origin in the eastern Alps||#GPT:37:2-3:1992:229-240|Q+Alps+Seismic noise+Refraction study
J|0575|Pitarka,A.|Study of lateral heterogeneities and source location effects on SH wave propagation using finite difference method||#IDV:28:-:1992:1-12|Lateral heterogeneity+Finite difference method+SH-wave+Double couple
J|0576|Yan,H-G.|The stress fields in and around Shanxi graben system||#IDV:28:-:1992:15-27|Shanxi+Stress field+Graben+Seismicity
J|0577|Moustafa,S.M.|Seismicity and water level fluctuations in the Aswan high dam reservoir, Egypt||#IDV:28:-:1992:31-43|Induced seismicity+Water level+Dam+Egypt
J|0578|Karmacharya,S.L.|Hypocentres and focal mechanisms of microearthquakes in central and eastern Nepal||#IDV:28:-:1992:47-60|Hypocentre+Focal mechanism+Microearthquake+Nepal
J|0579|Mahmood,T.|Source process of teleseismic body waves from earthquakes in Hindukush and Pakistan||#IDV:28:-:1992:63-77|Body wave+Hindu Kush+Pakistan+Seismic process||#*PAKISTAN92A|#*PAKISTAN92B|#*PAKISTAN92C|#*HINDUKUSH91|#*HINDUKUSH82|#*AFGHAN81
J|0580|Minaya Espinoza,M.J.|Seismic risk analysis of Akita city||#IDV:28:-:1992:81-95|Akita+Risk+Seismic gap+Damage||#*SEAOFJAPAN
J|0581|Barcelona,E.S.|Pre- and post-eruption seismicity of Pinatubo Volcano||#IDV:28:-:1992:99-111|Eruption+Volcano+Seismicity+Mount Pinatubo||#*PINATUBO91A|#*PINATUBO91B
J|0582|Suwanlert,J.|Seismotectonics of Thailand: in seismicity and focal mechanism||#IDV:28:-:1992:115-129|Thailand+Seismotectonics+Focal mechanism+Seismicity||#*SRINAKARIND
J|0583|Malele,F.P.|Microearthquake networking: instrumentation/equipment-basic approach with the state-of-the-art||#IDV:28:-:1992:133-141|Instrumentation+Microearthquake+Network+Data acquisition
J|0584|N'yombo,L.|Development of semi-automatic event reading system and its application to the Virunga seismic network, Zaire||#IDV:28:-:1992:145-154|Automatic analyser+Zaire+Eruption+1991
J|0585|Ahmed,A.|Simplified mechanical model of circular tuned liquid damper||#IDV:28:-:1992:157-169|Earthquake engineering+Damper
J|0586|Hernandez,N.E.P.|Seismic performance of buildings with base isolation system||#IDV:28:-:1992:173-186|Building+Base isolation system+Structural response
J|0587|Martin,A.C.|Processing and analysis of strong earthquake motions recorded in Costa Rica||#IDV:28:-:1992:189-200|Strong motion+Costa Rica+Data processing||#*BARBACOAS90|#*COSTARICA91
J|0588|Purwito|The application of large panel-precast concrete systems for 8 story buildings in seismic areas||#IDV:28:-:1992:203-216|Earthquake-resistant design+Building+Concrete
J|0589|Sedigh,M.|Design of 15-story moment resisting frame building||#IDV:28:-:1992:219-231|Frame+Building+Earthquake-resistant design
J|0590|Noguez,R.V.|Evaluation of seismic capacity of reinforced concrete buildings, considering some failure patterns observed in 1985 Mexico earthquake (bond splitting failure, beam-column connection failure and in-filled masonry walls failure)||#IDV:28:-:1992:235-247|Reinforced concrete+Building+Failure||#*MEXICOCITY
J|0591|Leon,C.A.|Effects of base isolation system on the structural response||#IDV:28:-:1992:251-266|Base isolation system+Structural response+Damper
J|0592|Matos Flores Guerra,C.G.|Nonlinear finite element analysis of RC shear walls||#IDV:28:-:1992:269-283|Reinforced concrete+Wall+Finite element method+Nonlinearity
J|0593|Kocaman,C.|Aseismic design of 22 storey reinforced concrete residential building||#IDV:28:-:1992:287-299|Aseismic design+Reinforced concrete+Building
J|0594|Yu,S-B.+Yu,G-K.+Kuo,L-C.+|Crustal deformation in the southern Longitudinal Valley area, eastern Taiwan||#JGC:35:3:1992:219-230|Deformation+Geodetic survey+Taiwan+Fault
J|0595|Chen,C-S.|Mapping structures in the Hsinhua fault area, southwestern Taiwan by the transient electromagnetic method||#JGC:35:3:1992:261-273|Mapping+Underground structure+Taiwan+Sounding
J|0596|Chen,C-H.+Yeh,Y-H.+Chen,C-H.|Bathymetric ridges and troughs in the active arc-continent collision region off southeastern Taiwan: discussion||#JGC:35:4:1992:421-427|Marine geophysical investigation+Bathymetry+Sea floor+Taiwan
J|0597|Hirata,K.|Synthetic near-field seismograms due to rupture-propagation fault models||#JPE:40:4:1992:535-554|Synthetic seismogram+Propagator matrix+Rupture+Near-field data
J|0598|Masuda,K.|P-coda amplitude as a measure of earthquake magnitude of local microearthquake||#JPE:40:4:1992:565-572|Magnitude+Coda wave+Amplitude+Microearthquake|Letter
J|0599|Widiyantoro,S.+Kobayashi,Y.|Subsurface structure beneath the southeast coast of Lake Biwa, central Japan, revealed by seismic profiling||#JPE:40:5:1992:573-584|Biwa, L.+Common depth point+Profiling+Velocity structure
J|0600|Kimata,F.|Strain event in 1985-1987 in the Tokai region, central Japan||#JPE:40:5:1992:585-599|Tokai+1985-1987+Strain+Seismicity
J|0601|Suzuki,I.+Oda,H.+Isoda,S.|Free oscillation of an elastically anisotropic sphere and its application to determining the elastic constants of rutile||#JPE:40:5:1992:601-616|Free oscillation+Eigenfrequency+Sphere+Elastic medium
J|0602|Lei,X.+Nishizawa,O.+Kusunose,K.+|Fractal structure of the hypocenter distributions and focal mechanism solutions of acoustic emission in two granites of different grain sizes||#JPE:40:6:1992:617-634|Microfracture+Acoustic emission+Focal mechanism+Granite
J|0603|Kakehi,Y.+Iwata,T.|Rupture process of the 1945 Mikawa earthquake as determined from strong motion records||#JPE:40:6:1992:635-655|Seismic process+1945+Earthquake+Japan
J|0604|Zeng,L.F.+Wiberg,N-E.+Li,X.D.+|A posteriori local error estimation and adaptive time-stepping for Newmark integration in dynamic analysis||#EES:21:7:1992:555-571|Dynamic analysis+Error+Numerical method+Earthquake engineering
J|0605|O'Connor,J.M.+Ellingwood,B.R.|Site-dependent models of earthquake ground motion||#EES:21:7:1992:573-589|Ground motion+Site+Loading+Response
J|0606|Ohtsuki,A.+Hirota,M.+Ishimura,K.+|Verification of two-dimensional non-linear analysis of sand-structure system by examining the results of the shaking-table test||#EES:21:7:1992:591-607|Sand-structure interaction+Shake table+Spectral analysis+Structural dynamics
J|0607|Tso,W.K.+Zhu,T.J.|Design of torsionally unbalanced structural systems based on code provisions I: ductility demand||#EES:21:7:1992:609-627|Building code+Torsion+Ductility+Strong motion||#*MEXICOCITY|#*LOMAPRIETA89
J|0608|Zhu,T.J.+Tso,W.K.|Design of torsionally unbalanced structural systems based on code provisions II: strength distribution||#EES:21:7:1992:629-644|Building code+Torsion+Loading+Strong motion
J|0609|Makris,N.+Constantinou,M.C.|Spring-viscous damper systems for combined seismic and vibration isolation||#EES:21:8:1992:649-664|Damper+Base isolation system+Dynamic analysis+Response
J|0610|Moller,O.+Rubenstein,M.|Reliability-based design of R/C water tank structures under seismic action||#EES:21:8:1992:665-678|Water tank+Reinforced concrete+Seismic waves+Antiseismic design
J|0611|Yamazaki,F.+Lu,L.+Katayama,T.|Orientation error estimation of buried seismographs in array observation||#EES:21:8:1992:679-694|Ground motion+Array+Error+Chiba
J|0612|Peng,C-Y.+Iwan,W.D.|An identification methodology for a class of hysteretic structures||#EES:21:8:1992:695-712|Hysteresis+Dynamic analysis+Response+Strong motion
J|0613|Der Kiureghian,A.+Neuenhofer,A.|Response spectrum method for multi-support seismic excitations||#EES:21:8:1992:713-740|Spectral analysis+Response+Ground motion+Support structure||#*LOMAPRIETA89
J|0614|Westermo,B.D.|The synthesis of strong ground motion accelerograms from existing records||#EES:21:9:1992:743-756|Strong motion+Accelerogram+Structural response+Recording
J|0615|Iura,M.+Matsui,K.+Kosaka,I.|Analytical expressions for three different modes in harmonic motion of sliding structures||#EES:21:9:1992:757-769|Sliding+Harmonic tremor+Mode+Base isolation system
J|0616|Maison,B.F.+Kasai,K.|Dynamics of pounding when two buildings collide||#EES:21:9:1992:771-786|Structural dynamics+Collision+Building||#*LOMAPRIETA89
J|0617|Cheung,Y.K.+Zhu,J.X.|Dynamic interaction analysis of a circular cylindrical shell of finite length in a half-space||#EES:21:9:1992:799-809|Structural dynamics+Cylinder+Half-space+Explosion
J|0618|Wolf,J.P.+Paronesso,A.|Lumped-parameter model and recursive evaluation of interaction forces of semi-infinite uniform fluid channel for time-domain dam-reservoir analysis||#EES:21:9:1992:811-831|Interactive system+Dam+Reservoir+Excitation
J|0619|Fajfar,P.|Equivalent ductility factors, taking into account low-cycle fatigue||#EES:21:10:1992:837-848|Ductility+Aseismic design+Deformation+Strong motion
J|0620|Villaverde,R.+Hanna,M.M.|Efficient mode superposition algorithm for seismic analysis of non-linear structures||#EES:21:10:1992:849-858|Hysteresis+Ground motion+Structural dynamics+Response
J|0621|Capuani,D.+Savoia,M.+Laudiero,F.|A generalization of the Timoshenko beam model for coupled vibration analysis of thin-walled beams||#EES:21:10:1992:859-879|Beam+Vibration+Shear strain+Model
J|0622|Dumanoglu,A.A.+Brownjohn,J.M.W.+Severn,R.T.|Seismic analysis of the Fatih Sultan Mehmet (second Bosporus) suspension bridge||#EES:21:10:1992:881-906|Structural dynamics+Bridge+Istanbul+Response
J|0623|Brownjohn,J.M.W.+Dumanoglu,A.A.+Severn,R.T.|Ambient vibration survey of the Fatih Sultan Mehmet (second Bosporus) suspension bridge||#EES:21:10:1992:907-924|Vibration+Bridge+Istanbul+Structural dynamics
J|0624|Falsone,G.+Muscolino,G.+Ricciardi,G.|Stochastic response of combined primary-secondary structures under seismic input||#EES:21:11:1992:927-943|Ground motion+Response+Structural dynamics+Secondary structure
J|0625|Tomazevic,M.+Velechovsky,T.|Some aspects of testing small-scale masonry building models on simple earthquake simulators||#EES:21:11:1992:945-963|Masonry structure+Loading+Shake table+Excitation
J|0626|Tanrikulu,A.K.+Mengi,Y.+McNiven,H.D.|The non-linear response of unreinforced masonry buildings to earthquake excitations||#EES:21:11:1992:965-985|Excitation+Masonry structure+Response+Hysteresis
J|0627|Wang,Y-C.+Murti,V.+Valliappan,S.|Assessment of the accuracy of the Newmark method in transient analysis of wave propagation problems||#EES:21:11:1992:987-1004|Acceleration+Wave+Propagation+Accuracy
J|0628|Oppenheim,I.J.|The masonry arch as a four-link mechanism under base motion||#EES:21:11:1992:1005-1017|Masonry structure+Arch+Response+Ground motion
J|0629|Wolf,J.P.+Paronesso,A.|Lumped-parameter model for a rigid cylindrical foundation embedded in a soil layer on rigid rock||#EES:21:12:1992:1021-1038|Soil-structure interaction+Cylinder+Foundation+Soil dynamics
J|0630|Chen,Y.+Ahmadi,G.|Stochastic earthquake response of secondary systems in base-isolated structures||#EES:21:12:1992:1039-1057|Secondary structure+Response+Base isolation system+Aseismic design
J|0631|Xu,K-M.+Igusa,T.|Dynamic characteristics of multiple substructures with closely spaced frequencies||#EES:21:12:1992:1059-1070|Structural dynamics+Secondary structure+Frequency response+Oscillator
J|0632|Lei,Z.X.+Tham,L.G.+Cheung,Y.K.|Transient elastodynamic analysis by time domain BEM in cylindrical coordinates||#EES:21:12:1992:1071-1089|Half-space+Elastodynamics+Boundary element method+Time domain
J|0633|Yuan,X-M.+Men,F-L.|Scattering of plane SH waves by a semi-cylindrical hill||#EES:21:12:1992:1091-1098|Scattering+SH-wave+Cylinder+Topography
J|0634|Dziewonski,A.M.+Ekstrom,G.+Salganik,M.P.|Centroid-moment tensor solutions for July-September 1991||#PEP:72:1-2:1992:1-11|Centroid-moment tensor+1991|Letter section
J|0635|Christova,C.|Seismicity depth pattern, seismic energy and b value depth variation in the Hellenic Wadati-Benioff zone||#PEP:72:1-2:1992:38-48|Depth+Hellenic arc+Seismicity+Energy+ISC
J|0636|Dragoni,M.+Tallarico,A.|Interaction between seismic and aseismic slip along a transcurrent plate boundary: a model for seismic sequences||#PEP:72:1-2:1992:49-57|Slip+Plate boundary+Model+Sequence
J|0637|Yoshioka,S.+Loo,H-Y.+Mikumo,T.+|A model of post-seismic recovery induced by a deep-focus earthquake||#PEP:72:1-2:1992:83-98|Deep-focus earthquake+Model+Finite element method+Creep
J|0638|Zhang,J.+Lay,T.|The April 5, 1990 Mariana Islands earthquake and subduction zone stresses||#PEP:72:1-2:1992:99-121|1990+Marianas+Stress+Earthquake||#*MARIANAS90|#*INDONESIAN|#*TONGA2
J|0639|Kohler,M.D.+Tanimoto,T.|One-layer global inversion for outermost core velocity||#PEP:72:3-4:1992:173-184|Outer core+Inversion+SKS-wave+SKKS-wave+ISC
J|0640|Xie,J-K.|Shear-wave splitting near Guam||#PEP:72:3-4:1992:211-219|Shear wave splitting+Guam+Anisotropy+Wadati-Benioff zone+ISC
J|0641|Kausel,E.+Campos,J.|The Ms = 8 tensional earthquake of 9 December 1950 of northern Chile and its relation to the seismic potential of the region||#PEP:72:3-4:1992:220-235|Chile+1950+Seismic potential+Large earthquake
J|0642|Imanishi,Y.+Sato,T.+Kumazawa,M.+|Observation of seismic core modes from a superconducting gravimeter record||#PEP:72:3-4:1992:249-263|Core+Gravimetric data+Mode||#*MACQUARIE89
J|0643|Houard,S.+Nataf,H-C.|Further evidence for the `Lay discontinuity' beneath northern Siberia and the North Atlantic from short-period P-waves recorded in France||#PEP:72:3-4:1992:264-275|North Atlantic+Siberia+Discontinuity+Short-period wave||#*KURIL87|#*SEAOKHOTSK87|#*SEAOKHOTSK84|#*CHIAPAS83
J|0644|Cichowicz,A.+Green,R.W.E.|Tomographic study of upper-mantle structure of the South African continent, using wave-form inversion||#PEP:72:3-4:1992:276-285|Tomography+Upper mantle+South Africa+Inversion||#*SWAFRICA89|#*SOUTHIRAN89
J|0645|Weber,M.+Kornig,M.|A search for anomalies in the lowermost mantle using seismic bulletins||#PEP:73:1-2:1992:1-28|Anomaly+Lower mantle+P-wave+PcP-wave+ISC
J|0646|Poirier,J-P.+Le Mouel,J-L.|Does infiltration of core material into the lower mantle affect the observed geomagnetic field?||#PEP:73:1-2:1992:29-37|D"-layer+Low-velocity layer+Geomagnetic field+Core
J|0647|Kumagai,H.+Fukao,Y.+Suda,N.+|Structure of the D" layer inferred from the Earth's free oscillations||#PEP:73:1-2:1992:38-52|D"-layer+Free oscillation+Structure+Core-mantle boundary+ISC
J|0648|Kumari,G.+Singh,S.J.+Singh,K.|Static deformation of two welded elastic half-spaces caused by a point dislocation source||#PEP:73:1-2:1992:53-76|Half-space+Deformation+Mathematical analysis+Point source
J|0649|Mentock,R.M.|Degree-one components of the Earth's interior||#PEP:73:1-2:1992:77-84|Geoid+Spherical harmonics+Earth model+P-wave+ISC
J|0650|Pulliam,R.J.+Johnson,L.R.|What patterns of heterogeneity in the Earth's mantle can be revealed by seismic travel time tomography?||#PEP:73:1-2:1992:109-151|Mantle+Tomography+Heterogeneity+Pattern+ISC
J|0651|Thakur,N.K.+Nagarajan,N.|Geotectonic remobilisation of the lower-crustal segment of southern peninsular India||#PEP:73:3-4:1992:153-162|India+Geophysical investigation+Lower crust+Tectonics
J|0652|Mohan,G.+Rai,S.S.+Panza,G.F.|Seismic heterogeneities in the Indian lithosphere||#PEP:73:3-4:1992:189-198|Heterogeneity+India+Lithosphere+Rayleigh wave
J|0653|Okuda,S.+Ouchi,T.+Terashima,T.|Deviation of magnitude frequency distribution of earthquakes from the Gutenberg-Richter law: detection of precursory anomalies prior to large earthquakes||#PEP:73:3-4:1992:229-238|Gutenberg & Richter+Large earthquake+Precursor+Frequency-magnitude relation||#*URAKAWA|#*MIYAGIKEN|#*OFFMIYAGI|#*IBARAKI|#*HYUGANADA84
J|0654|Rabinowitz,N.+Hofstetter,A.|A rapid algorithm for estimating fault plane solution using polarity-amplitude data: application of a non-linear programming approach||#PEP:73:3-4:1992:239-254|Fault plane solution+P-wave+Polarity+Amplitude
J|0655|Roy,F.+Arora,S.K.+Basu,T.K.|Detection of weak seismic signals using stationarity of noise and coherency of signals at a seismic array||#PEP:73:3-4:1992:264-273|Detection+Signal-to-noise ratio+Coherency+Array
J|0656|Darbyshire,J.|Microseisms formed off the coast of Norway||#PEP:73:3-4:1992:282-289|Microseism+Coast+Norway+Sea wave
J|0657|Su,W-J.+Dziewonski,A.M.|On the scale of mantle heterogeneity||#PEP:74:1-2:1992:29-54|Mantle+Heterogeneity+SS-wave+Residual+ISC
J|0658|Niazi,M.+Johnson,L.R.|Q in the inner core||#PEP:74:1-2:1992:55-62|Inner core+Q+PKIKP-wave+PKP-wave
J|0659|Lundgren,P.R.+Giardini,D.|Seismicity, shear failure and modes of deformation in deep subduction zones||#PEP:74:1-2:1992:63-74|Seismicity+Subduction zone+Deep-focus earthquake+Deformation+ISC
J|0660|Giardini,D.|Space-time distribution of deep seismic deformation in Tonga||#PEP:74:1-2:1992:75-88|Space-time distribution+Tonga+Deep-focus earthquake+Focal mechanism+ISC
J|0661|Dziewonski,A.M.+Ekstrom,G.+Saganik,M.P.|Centroid-moment tensor solutions for October-December 1991||#PEP:74:3-4:1992:89-100|Centroid-moment tensor+1991|Letter section
J|0662|Velasco,A.A.+Lay,T.+Zhang,J.|Improved resolution of earthquake source parameters from long-period surface wave inversions||#PEP:74:3-4:1992:101-107|Source parameter+Surface wave+Resolution+Long-period wave||#*LOMAPRIETA89|#*COSTARICA91
J|0663|Levchenko,O.V.+Ostrovsky,A.A.|Seismic seafloor observations: a study of `anomalous' intraplate seismicity in the northeastern Indian Ocean||#PEP:74:3-4:1992:173-182|Sea floor+Intraplate seismicity+Indian Ocean+Ocean-bottom seismograph
J|0664|Mareschal,M.+Jouanne,V.+Menvielle,M.+|Magnetotelluric observations over the Rhine Graben, France: a simple impedance tensor analysis helps constrain the dominant electrical features||#PEP:74:3-4:1992:191-197|ECORS+Rhine-Graben+Magnetotellurics+Impedance
J|0665|Fernandez,J.+Vieira,R.+Diez,J.L.+|Investigations on crustal thickness, heat flow and gravity tide relationship in Lanzarote Island||#PEP:74:3-4:1992:199-208|Crustal thickness+Heat flow+Canary Islands+Earth tide
J|0666|McCann,C.|Review of `Shear waves in sediments' edited by J. M. Hovem, M. D. Richardson and D. R. Stou||#PEP:74:3-4:1992:279-281|Review+Shear wave+Sediment
J|0667|Loper,D.E.|Review of `Deep interior of the Earth' by J. A. Jacobs||#PEP:74:3-4:1992:281-282|Review+Core+Solid-earth geophysics
J|0668|Adams,R.D.|Effects of heterogeneity on earthquake location at ISC||#PEP:75:1-3:1992:1-5|Heterogeneity+Location+International Seismological Centre||#*ALBANIA89
J|0669|Pujol,J.|Joint hypocentral location in media with lateral velocity variations||#PEP:75:1-3:1992:7-24|Joint hypocentre determination+Lateral variation+Station correction+Velocity||#*ARKANSAS
J|0670|Bebel,D.J.+Stoddard,P.R.+Woods,M.T.|A comparison of epicenter relocation techniques: a case study for the Juan de Fuca plate||#PEP:75:1-3:1992:25-38|Juan de Fuca+Location+Epicentre+Technique+ISC||#*VANCOUVER80|#*NCALIFORNIA76
J|0671|Van der Hilst,R.D.+Engdahl,E.R.|Step-wise relocation of ISC earthquake hypocenters for linearized tomographic imaging of slab structure||#PEP:75:1-3:1992:39-53|Location+Hypocentre+International Seismological Centre+Tomography
J|0672|Thurber,C.H.|Hypocenter-velocity structure coupling in local earthquake tomography||#PEP:75:1-3:1992:55-62|Hypocentre+Velocity structure+Tomography+Local earthquake
J|0673|Creager,K.C.+Boyd,T.M.|Effects of earthquake mislocation on estimates of velocity structure||#PEP:75:1-3:1992:63-76|Location+Velocity structure+Residual+Filter+ISC||#*ADAK
J|0674|Slavina,L.B.+Pivovarova,N.B.|Three-dimensional velocity models of focal zones and refinement of hypocenter parameters||#PEP:75:1-3:1992:77-88|Hypocentre+Kamchatka+Velocity structure+Algorithm
J|0675|Davies,J.H.|Lower bound estimate of average earthquake mislocation from variance of travel-time residuals||#PEP:75:1-3:1992:89-101|Location+Travel-times+Residual+Ray+ISC
J|0676|Kennett,B.L.N.+Sambridge,M.S.|Earthquake location - genetic algorithms for teleseisms||#PEP:75:1-3:1992:103-110|Location+Algorithm+Teleseism+Hypocentre+ISC
J|0677|Amato,A.+Chiarabba,C.+Malagnini,L.+|Three-dimensional P-velocity structure in the region of the Ms = 6.9 Irpinia, Italy, normal faulting earthquake||#PEP:75:1-3:1992:111-119|Earthquake+Irpinia+1980+Velocity structure||#*CAMPANIA
J|0678|Doufexopoulou,M.+Korakitis,R.|Resolution analysis of seismic networks||#PEP:75:1-3:1992:121-129|Resolution+Network+Greece+Inverse problem
J|0679|Giardini,D.+Velona,M.A.+Boschi,E.|The compilation of the instrumental seismic catalogue of Italy: 1975-1984||#PEP:75:1-3:1992:131-143|Earthquake catalogue+Italy+1975-1984+Seismicity+ISC
J|0680|Aric,K.+Freudenthaler,A.+Lenhardt,W.|Seismological observations in the eastern Alps||#PEP:75:1-3:1992:145-152|Eastern Alps+Seismicity+Seismotectonics
J|0681|Console,R.+Di Giovambattista,R.+Favali,P.+|Methodological approach to earthquake location procedures: application to Italian seismicity||#PEP:75:1-3:1992:153-164|Location+Italy+Seismicity+Joint hypocentre determination
J|0682|Nishizawa,A.+Kanazawa,T.+Iwasaki,T.+|Spatial distribution of earthquakes associated with the Pacific plate subduction off northeastern Japan revealed by ocean bottom and land observation||#PEP:75:1-3:1992:165-175|Spatial distribution+Pacific plate+Ocean-bottom seismograph+Subduction
J|0683|Solov'ev,S.L.+Karakaisis,G.F.+Kovachev,S.A.+|Microearthquake hypocenter determination in the southern Aegean Sea from records of sea-floor and land-based seismographs||#PEP:75:1-3:1992:177-183|Microearthquake+Ocean-bottom seismograph+AEgean Sea+Hypocentre
J|0684|Ryzhiy,B.P.+Druzhinin,V.S.+Yunusov,F.F.+|Deep structure of the Urals region and its seismicity||#PEP:75:1-3:1992:185-191|Deep structure+Urals+Seismicity+Zoning
J|0685|Frohlich,C.|Triangle diagrams: ternary graphs to display similarity and diversity of earthquake focal mechanism||#PEP:75:1-3:1992:193-198|Graphical representation+Focal mechanism+Mid-Atlantic Ridge
J|0686|Chiu,H-C.+Ni,S-D.|The attenuation of PGA in Hualien, Taiwan||#BAS:12:-:1992:1-4|Attenuation+Hualien+Ground acceleration+SMART 2 array|Technical report|#*HUALIEN90A|#*HUALIEN90B
J|0687|Huang,B-S.|A program for two-dimension seismic wave propagation by the pseudo-spectrum method||#BAS:12:-:1992:5-7|Spectrum+Numerical modelling+Propagation|Extended abstract
J|0688|Tsai,C-C.P.|Engineering implications of asperity-induced ground motion||#BAS:12:-:1992:12-15|Ground motion+Asperity+Strike-slip+Engineering seismology|Technical report
J|0689|Kuo,B-Y.|Dynamic flow along the southeast Indian Ridge||#BAS:12:-:1992:39-44|SS-wave+Differential travel-times+Indian Ridge+Dynamics|Technical report
J|0690|Sherburn,S.|Characteristics of earthquake sequences in the Central Volcanic Region, New Zealand||#NEZ:35:-:1992:57-68|New Zealand+Sequence+Swarm+Duration
J|0691|Van Dissen,R.J.+Berryman,K.R.+Pettinga,J.R.+|Paleoseismicity of the Wellington-Hutt Valley segment of the Wellington fault, North Island, New Zealand||#NEZ:35:-:1992:165-176|New Zealand+Palaeoseismicity+Fault+Recurrence
J|0692|O'Connor,R.M.|Thrust faulting near Oamaru from seismic reflection profiles||#NEZ:35:-:1992:243-247|Thrust fault+New Zealand+Profile+Reflexion study
J|0693|Sherburn,S.|Seismicity of the Lake Taupo region, New Zealand, 1985-90||#NEZ:35:-:1992:331-335|Seismicity+New Zealand+1985-1990+Clustering
J|0694|Lihou,J.C.|Reinterpretation of seismic reflection data from the Moutere Depression, Nelson region, South Island, New Zealand||#NEZ:35:-:1992:477-490|Reflexion data+New Zealand+Geophysical survey+Basin
J|0695|Luo,X.|Subduction interface and crustal structure in the Cape Palliser region, North Island, New Zealand, from observations of Cape Palliser earthquakes||#NEZ:35:-:1992:491-499|Crustal structure+New Zealand+Subduction zone+Aftershock||#*PALLISER90
J|0696|Clark,V.A.|The effect of oil under in-situ conditions on the seismic properties of rocks||#GPS:57:7:1992:894-901|Oil sand+Exploration+Physical properties+Rock
J|0697|Cerveny,V.+Soares,J.E.P.|Fresnel volume ray tracing||#GPS:57:7:1992:902-915|Ray tracing+Fresnel zone+Layered medium+Caustic
J|0698|Okaya,D.A.+Karageorgi,E.+McEvilly,T.V.+|Removing vibrator-induced correlation artifacts by filtering in frequency-uncorrelated time space||#GPS:57:7:1992:916-926|Filtering+Frequency-time analysis+Seismogram+Vibrator
J|0699|Stork,C.|Singular value decomposition of the velocity-reflector depth tradeoff, Part 1: introduction using a two-parameter model||#GPS:57:7:1992:927-932|Decomposition+Common midpoint+Reflexion+Depth
J|0700|Stork,C.|Singular value decomposition of the velocity reflector depth tradeoff, Part 2: high-resolution analysis of a generic model||#GPS:57:7:1992:933-943|Decomposition+Reflexion+Depth+High resolution
J|0701|Hargreaves,N.D.|Similarity and the inverse Q filter: some simple algorithms for inverse Q filtering||#GPS:57:7:1992:944-947|Filter+Algorithm|Short note
J|0702|Squires,L.J.+Cambois,G.|A linear filter approach to designing off-diagonal damping matrices for least-squares inverse problems||#GPS:57:7:1992:948-951|Filter+Least squares+Matrix+Cross-hole|Short note
J|0703|Green,W.R.|Review of `Safety in offshore drilling: the role of shallow gas surveys' edited by D. A. Ardus and C. D. Green||#GPS:57:7:1992:960|Review+Gas+Offshore+Drilling
J|0704|Hsu,K.+Esmersoy,C.|Parametric estimation of phase and group slownesses from sonic logging waveforms||#GPS:57:8:1992:978-985|Slowness+Waveform+Parameters+Sonic log
J|0705|Lucet,N.+Zinszner,B.|Effects of heterogeneities and anisotropy on sonic and ultrasonic attenuation in rocks||#GPS:57:8:1992:1018-1026|Ultrasonic wave+Heterogeneity+Anisotropy+Attenuation
J|0706|Kirlin,R.L.|The relationship between semblance and eigenstructure velocity estimators||#GPS:57:8:1992:1027-1033|Algorithm+Velocity+Estimator+Wavefront
J|0707|Biondi,B.|Velocity estimation by beam stack||#GPS:57:8:1992:1034-1047|Velocity+Stack+Beam+Ray tracing
J|0708|Hedley,J.P.|3-D migration via McClellan transformations on hexagonal grids||#GPS:57:8:1992:1048-1053|Migration+Transformation+Filter+Accuracy
J|0709|Tygel,M.+Schleicher,J.+Hubral,P.|Geometrical spreading corrections of offset reflections in a laterally inhomogeneous earth||#GPS:57:8:1992:1054-1063|Lateral inhomogeneity+Spreading+Offset+Reflected wave
J|0710|Shon,H.+Yamamato,T.|Simple data processing procedures for seismic section noise reduction||#GPS:57:8:1992:1064-1067|Data processing+Signal-to-noise ratio+Technique+Reflexion data
J|0711|Albu,I.+Papa,A.|Application of high-resolution seismics in studying reservoir characteristics of hydrocarbon deposits in Hungary||#GPS:57:8:1992:1068-1088|Seismics+Hydrocarbon+Reservoir+Hungary
J|0712|Lambare,G.+Virieux,J.+Madariaga,R.+|Iterative asymptotic inversion in the acoustic approximation||#GPS:57:9:1992:1138-1154|Asymptotic ray theory+Inversion+Iterative method+Vertical seismic profiling
J|0713|Lamb,W.J.+Zhu,X.+McMechan,G.A.+|Elastic wave propagation in composite media||#GPS:57:9:1992:1155-1165|Elastic wave+Propagation+Inhomogeneous medium+Multiple scattering
J|0714|Verschuur,D.J.+Berkhout,A.J.+Wapenaar,C.P.A.|Adaptive surface-related multiple elimination||#GPS:57:9:1992:1166-1177|Inversion+Surface+Multiple reflexion+Common-shot data
J|0715|Wapenaar,C.P.A.+Verschuur,D.J.+Herrmann,P.|Amplitude preprocessing of single and multicomponent seismic data||#GPS:57:9:1992:1178-1188|Amplitude+Common midpoint+Seismic processing+Line source
J|0716|Muir,F.+Dellinger,J.+Etgen,J.+|Modeling elastic fields across irregular boundaries||#GPS:57:9:1992:1189-1193|Modelling+Boundary+Irregularity+Finite difference method|Short note
J|0717|Carrion,P.+Costa,J.+Ferrer Pinheiro,J.E.+|Cross-borehole tomography in anisotropic media||#GPS:57:9:1992:1194-1198|Cross-hole+Tomography+Anisotropic medium|Short note
J|0718|Duren,R.E.|Range-equation weights for AVO||#GPS:57:9:1992:1203-1208|Range+Common midpoint+Offset+Gas sand|Short note
J|0719|Gochioco,L.M.|Modeling studies of interference reflections in thin-layered media bounded by coal seams||#GPS:57:9:1992:1209-1216|Modelling+Layered medium+Coal seam+Interference
J|0720|Goforth,T.+Hayward,C.|Seismic reflection investigations of a bedrock surface buried under alluvium||#GPS:57:9:1992:1217-1227|Reflexion+Bedrock+Alluvium+Profiling
J|0721|Uko,E.D.+Ekine,A.S.+Ebeniro,J.O.+|Weathering structure of the east-central Niger Delta, Nigeria||#GPS:57:9:1992:1228-1233|Refraction study+Nigeria+Low-velocity layer+Shallow structure
J|0722|Schlue,J.W.|Review of `Neotectonics in earthquake evaluation' edited by E. L. Krinitzsky and D. B. Slemmons||#GPS:57:9:1992:1234-1235|Review+Neotectonics+Hazard+Seismic potential
J|0723|Cross,G.M.|Array responses for plane and spherical incidence||#GPS:57:10:1992:1294-1306|Array+Wave field+Filter+Plane wave
J|0724|Docherty,P.|Solving for the thickness and velocity of the weathering layer using 2-D refraction tomography||#GPS:57:10:1992:1307-1318|Low-velocity layer+Thickness+Refraction+Tomography
J|0725|Rector,J.W.+Hardage,B.A.|Radiation pattern and seismic waves generated by a working roller-cone drill bit||#GPS:57:10:1992:1319-1333|Seismic waves+Drilling+Radiation pattern+Head wave
J|0726|Reitveld,W.E.A.+Berkhout,A.J.+Wapenaar,C.P.A.|Optimum seismic illumination of hydrocarbon reservoirs||#GPS:57:10:1992:1334-1345|Hydrocarbon+Reservoir+Reflexion+Wave field
J|0727|Levin,F.K.|P-wave anisotropy of the Pierre Shale||#GPS:57:10:1992:1346-1347|P-wave+Anisotropy+Colorado+Velocity|Short note
J|0728|Richardson,R.P.|Linear velocity function: reflection times for specific ranges||#GPS:57:10:1992:1352-1353|Range+Reflexion+Common midpoint+Travel-times|Short note
J|0729|Beaudoin,B.C.+Ten Brink,U.S.+Stern,T.A.|Characteristics and processing of seismic data collected on thick, floating ice: results from the Ross Ice Shelf, Antarctica||#GPS:57:10:1992:1359-1372|Ice+Antarctica+Reflexion data+Refraction data
J|0730|Miller,R.D.+Saenz,V.+Huggins,R.J.|Feasibility of CDP seismic reflection to image structures in a 220-m deep, 3-m thick coal zone near Palau, Coahuila, Mexico||#GPS:57:10:1992:1373-1380|Common depth point+Imaging+Coal+Mexico
J|0731|McCormack,W.R.|Review of `Encyclopedic dictionary of exploration geophysics' by R. E. Sheriff||#GPS:57:10:1992:1382-1383|Review+Exploration+Dictionary+Geophysics
J|0732|Hutchinson,P.J.|Review of `West coast regional section' edited by R. B. Bloch and S. A. Graham||#GPS:57:10:1992:1383|Review+Profile+California+Geology
J|0733|Sheriff,R.E.|Review of `Encyclopedia of Earth system science' edited by W. A. Nierenberg||#GPS:57:10:1992:1383-1384|Review+Earth sciences
J|0734|Batzle,M.L.+Wang,Z.|Seismic properties of pore fluids||#GPS:57:11:1992:1396-1408|Pore fluid+Physical properties+Hydrocarbon+Exploration
J|0735|Ellefsen,K.J.+Toksoz,M.N.+Tubman,K.M.+|Estimating a shear modulus of a transversely isotropic formation||#GPS:57:11:1992:1428-1434|Shear modulus+Isotropic medium+Acoustic logging+Algorithm
J|0736|Beasley,C.+Lynn,W.|The zero-velocity layer: migration from irregular surfaces||#GPS:57:11:1992:1435-1443|Migration+Irregularity+Velocity+Common midpoint
J|0737|Purnell,G.W.|Imaging beneath a high-velocity layer using converted waves||#GPS:57:11:1992:1444-1452|High-velocity layer+Converted wave+Imaging+Transmission coefficient
J|0738|Hale,D.+Hill,N.R.+Stefani,J.|Imaging salt with turning seismic waves||#GPS:57:11:1992:1453-1462|Imaging+Salt dome+Seismic waves+Common midpoint
J|0739|Lefeuvre,F.+Nicoletis,L.+Ansel,V.+|Detection and measure of the shear-wave birefringence from vertical seismic data: theory and applications||#GPS:57:11:1992:1463-1481|Vertical seismic profiling+Shear wave+Propagator matrix+Reflectivity
J|0740|Simmons,J.L.+Backus,M.M.|Linearized tomographic inversion of first-arrival times||#GPS:57:11:1992:1482-1492|Tomography+Inversion+First arrival+Marine seismic investigation
J|0741|Linville,A.F.+Meek,R.A.|Canceling stationary sinusoidal noise||#GPS:57:11:1992:1493-1501|Noise+Wiener filter+Algorithm
J|0742|Miller,R.D.|Normal moveout stretch mute on shallow-reflection data||#GPS:57:11:1992:1502-1507|Moveout+Common depth point+Reflexion data+Shallow structure
J|0743|White,R.E.|The accuracy of estimating Q from seismic data||#GPS:57:11:1992:1508-1511|Accuracy+Q+Power spectrum|Short note
J|0744|Graebner,M.|Plane-wave reflection and transmission coefficients for a transversely isotropic solid||#GPS:57:11:1992:1512-1519|Plane wave+Reflexion coefficient+Transmission coefficient+Isotropic medium|Short note
J|0745|Barnes,A.E.|The calculation of instantaneous frequency and instantaneous bandwidth||#GPS:57:11:1992:1520-1524|Bandwidth+Frequency|Short note
J|0746|Kendall,C.|Review of `Expert systems in exploration' edited by F. Aminzadeh and M. Simaan||#GPS:57:11:1992:1526|Review+Hydrocarbon+Exploration+Expert system
J|0747|Kendall,C.|Review of `Oil and gas traps' by M. K. Jenyon||#GPS:57:11:1992:1526-1527|Review+Trap+Oil+Gas
J|0748|Ass'ad,J.M.+Tatham,R.H.+McDonald,J.A.|A physical model study of microcrack-induced anisotropy||#GPS:57:12:1992:1562-1570|Model+Microcrack+Anisotropy+Shear wave
J|0749|Tutuncu,A.N.+Sharma,M.M.|The influence of fluids on grain contact stiffness and frame moduli in sedimentary rocks||#GPS:57:12:1992:1571-1582|Fluid+Sedimentary rock+Contact+Deformation
J|0750|O'Brien,J.|VSP measurement of shear-wave velocities in consolidated and poorly consolidated formations||#GPS:57:12:1992:1583-1592|Vertical seismic profiling+Shear wave+Velocity+Consolidation
J|0751|Carcione,J.M.+Kosloff,D.+Behle,A.+|A spectral scheme for wave propagation simulation in 3-D elastic-anisotropic media||#GPS:57:12:1992:1593-1607|Propagation+Anisotropic medium+Spectral analysis+Modelling
J|0752|MacKay,S.+Abma,R.|Imaging and velocity estimation with depth-focusing analysis||#GPS:57:12:1992:1608-1622|Imaging+Velocity+Depth+Migration
J|0753|Duren,R.E.+Morris,S.V.|Sideswipe removal via null steering||#GPS:57:12:1992:1623-1632|Stacking+Signal+Interference
J|0754|Landro,M.+Sollie,R.|Source signature determination by inversion||#GPS:57:12:1992:1633-1640|Inversion+Signature+Airgun+Array
J|0755|Juhlin,C.|Comment on `Seismic amplitude anomalies and AVO analyses at Mestena Grande Field, Jim Hogg Co., Texas' by R. C. Burnett||#GPS:57:12:1992:1641-1643|Comments+Anomaly+Amplitude+Texas|With a reply by the author
J|0756|Duren,R.E.|Errata to `Range-equation weights for AVO'||#GPS:57:12:1992:1658|Errata+Range+Common midpoint+Offset+Gas sand
B|0757||1991-92 Platinum Jubilee Year|Souvenir issue|Guha,S.K.|Reservoir induced seismicity studies||1992:Pune, India:Central Water and Power Research Station|Induced seismicity+Reservoir+Koyna+Bhatsa
J|0758|Plafker,G.+Ward,S.N.|Backarc thrust faulting and tectonic uplift along the Caribbean Sea coast during the April 22, 1991 Costa Rica earthquake||Tectonics:11:4:1992:709-718|Earthquake+1991+Costa Rica+Uplift||#*COSTARICA91
J|0759|Cooper,A.K.+Marlow,M.S.+Scholl,D.W.+|Evidence for Cenozoic crustal extension in the Bering Sea region||Tectonics:11:4:1992:719-731|Bering Sea+Reflexion study+Crust+Extension
J|0760|Bernstein-Taylor,B.L.+Kirchoff-Stein,K.S.+Silver,E.A.+|Large-scale duplexes within the New Britain accretionary wedge: a possible example of accreted ophiolitic slivers||Tectonics:11:4:1992:732-752|New Britain+Accretionary wedge+Marine seismic investigation+Oceanic crust
J|0761|Bernstein-Taylor,B.L.+Brown,K.M.+Silver,E.A.+|Basement slivers within the New Britain accretionary wedge: implications for the emplacement of some ophiolitic slivers||Tectonics:11:4:1992:753-765|Marine seismic investigation+New Britain+Accretionary wedge+Oceanic crust
J|0762|De Matos,R.M.D.|The northeast Brazilian rift system||Tectonics:11:4:1992:766-791|Brazil+Rift+Continental drift+Seismic survey
J|0763|Cahill,T.+Isacks,B.L.+Whitman,D.+|Seismicity and tectonics in Jujuy Province, northwestern Argentina||Tectonics:11:5:1992:944-959|Jujuy+Array+Seismicity+Tectonics
J|0764|Jolivet,L.+Fournier,M.+Huchon,P.|Cenozoic intracontinental dextral motion in the Okhotsk-Japan Sea region||Tectonics:11:5:1992:968-977|Okhotsk, Sea of+Japan Sea+Focal mechanism+Deformation
J|0765|Scott,D.L.+Etheridge,M.A.+Rosendahl,B.R.|Oblique-slip deformation in extensional terrains: a case of the Lakes Tanganyika and Malawi rift zones||Tectonics:11:5:1992:998-1009|East African Rift+Deformation+Seismic survey+Tanganyika+Malawi
J|0766|Weinberg,R.F.|Neotectonic development of western Nicaragua||Tectonics:11:5:1992:1010-1017|Neotectonics+Nicaragua+Deformation+Seismicity
J|0767|Plafker,G.+Ward,S.N.|Correction to `Backarc thrust faulting and tectonic uplift along the Caribbean Sea coast during the April 22, 1991 Costa Rica earthquake'||Tectonics:11:5:1992:1081|Errata+Earthquake+1991+Costa Rica+Uplift||#*COSTARICA91
J|0768|Collier,R.E.L.+Leeder,M.R.+Rowe,P.J.+|Rates of tectonic uplift in the Corinth and Megara basins, central Greece||Tectonics:11:6:1992:1159-1167|Uplift+Corinth, G. of+Tectonics+Seismicity||#*ALKION|#*ALKION2|#*ALKION3
J|0769|Tokunaga,T.|Duplexing and intraprism deformation of the Paleogene Shimanto supergroup in western Shikoku, southwest Japan||Tectonics:11:6:1992:1168-1179|Shikoku+Profile+Geology+Deformation
J|0770|Lallemand,S.E.+Malavieille,J.+Calassou,S.|Effects of oceanic ridge subduction on accretionary wedges: experimental modeling and marine observations||Tectonics:11:6:1992:1301-1313|Subduction+Accretionary wedge+Laboratory+1981+Nankai
J|0771|Rotstein,Y.+Schlich,R.+Munschy,M.+|Structure and tectonic history of the southern Kerguelen Plateau (Indian Ocean) deduced from seismic reflection data||Tectonics:11:6:1992:1332-1347|Marine seismic investigation+Kerguelen Islands+Oceanic crust+Tectonics
J|0772|Parsons,T.+Sleep,N.H.+Thompson,G.A.|Host rock rheology controls on the emplacement of tabular intrusions: implications for underplating of extending crust||Tectonics:11:6:1992:1348-1356|Deep seismic sounding+Rheology+Underplating+Crust
J|0773|Dickas,A.B.+Mudrey,M.G.+Ojakangas,R.W.+|A possible southeastern extension of the midcontinent rift system located in Ohio||Tectonics:11:6:1992:1406-1414|Profile+Mid-continent rift+Ohio+Borehole
J|0774|McCreary,R.+McGaughey,J.+Potvin,Y.+|Results from microseismic monitoring, conventional instrumentation, and tomography surveys in the creation and thinning of a burst-prone sill pillar||#PAG:139:3-4:1992:349-373|Monitoring+Microseismicity+Mine+Rockburst
J|0775|Swanson,P.L.+Estey,L.H.+Boler,F.M.+|Mining-induced microseismic event location errors: accuracy and precision of two location systems||#PAG:139:3-4:1992:375-404|Induced seismicity+Mining+Location+Accuracy
J|0776|Deflandre,J-P.+Dubesset,M.|Identification of P/S-wave successions for application in microseismicity||#PAG:139:3-4:1992:405-420|Microseismicity+Polarization+Location+PS-wave
J|0777|Maxwell,S.C.+Young,R.P.|Sequential velocity imaging and microseismic monitoring of mining-induced stress change||#PAG:139:3-4:1992:421-447|Induced seismicity+Mining+Stress+Wave velocity
J|0778|Urbancic,T.I.+Trifu,C-I.+Long,J.M.+|Space-time correlations of b values with stress release||#PAG:139:3-4:1992:449-462|b-Value+Correlation+Stress+Rockburst
J|0779|Chen,Q.+Nur,A.|Pore fluid pressure effects in anisotropic rocks: mechanisms of induced seismicity and weak faults||#PAG:139:3-4:1992:463-479|Pore pressure+Induced seismicity+Anisotropic medium+Rock mechanics
J|0780|Doser,D.I.+Baker,M.R.+Luo,M.+|The not so simple relationship between seismicity and oil production in the Permian Basin, west Texas||#PAG:139:3-4:1992:481-506|Oil field+Seismicity+Texas+Well-log
J|0781|Grasso,J-R.|Mechanics of seismic instabilities induced by the recovery of hydrocarbons||#PAG:139:3-4:1992:507-534|Induced seismicity+Pore pressure+Hydrocarbon+Mechanics
J|0782|Segall,P.|Induced stresses due to fluid extraction from axisymmetric reservoirs||#PAG:139:3-4:1992:535-560|Induced seismicity+Poroelasticity+Fluid extraction+Reservoir
J|0783|Nicholson,C.+Wesson,R.L.|Triggered earthquakes and deep well activities||#PAG:139:3-4:1992:561-578|Triggering+Well+Induced earthquake+Fluid
J|0784|Grasso,J-R.+Guyoton,F.+Frechet,J.+|Triggered earthquakes as stress gauge: implication for the upper crust behavior in the Grenoble area, France||#PAG:139:3-4:1992:579-605|Induced seismicity+Trigger+Reservoir+France
J|0785|Plotnikova,L.M.+Makhmudova,V.I.+Sigalova,O.B.|Seismicity associated with the Charvak reservoir, Uzbekistan||#PAG:139:3-4:1992:607-608|Reservoir+Uzbekistan+Induced seismicity+Water level|Extended abstract
J|0786|Dodge,D.A.+Sprenke,K.F.|Improvements in mining induced microseismic source locations at the Lucky Friday mine using an automated whole-waveform analysis system||#PAG:139:3-4:1992:609-626|Location+Mine+Automatic analyser+Microseismicity
J|0787|Williams,T.J.+Wideman,C.J.+Scott,D.F.|Case history of a slip-type rockburst||#PAG:139:3-4:1992:627-637|Case history+Rockburst+First motion+Fault-slip
J|0788|Boler,F.M.+Swanson,P.L.|Observations of heterogeneous stope convergence behavior and implications for induced seismicity||#PAG:139:3-4:1992:639-656|Induced seismicity+Convergence+Mine+Idaho
J|0789|Swanson,P.L.|Mining-induced seismicity in faulted geologic structures: an analysis of seismicity-induced slip potential||#PAG:139:3-4:1992:657-676|Induced seismicity+Fault-slip+Mine+Idaho
J|0790|Ortlepp,W.D.|Note on fault-slip motion inferred from a study of micro-cataclastic particles from an underground shear rupture||#PAG:139:3-4:1992:677-695|Fault-slip+Mine+Rockburst+Witwatersrand
J|0791|Young,R.P.+Maxwell,S.C.+Urbancic,T.I.+|Mining-induced microseismicity: monitoring and applications of imaging and source mechanism techniques||#PAG:139:3-4:1992:697-719|Induced seismicity+Mining+Monitoring+Source parameter
J|0792|Urbancic,T.I.+Feignier,B.+Young,R.P.|Influence of source region properties on scaling relations for M < 0 events||#PAG:139:3-4:1992:721-739|Scaling+Induced seismicity+Excavation+Microseismicity
J|0793|Hsiung,S.M.+Blake,W.+Chowdhury,A.H.+|Effects of mining-induced seismic events on a deep underground mine||#PAG:139:3-4:1992:741-762|Induced seismicity+Mine+Stick-slip+Idaho
J|0794|Mack,M.G.|The three-dimensional dynamic displacement discontinuity method: theory and applications||#PAG:139:3-4:1992:763-779|Boundary element method+Rock mechanics+Mining+Dynamics
J|0795|McGarr,A.|Moment tensors of ten Witwatersrand mine tremors||#PAG:139:3-4:1992:781-800|Mine tremor+Moment tensor+Witwatersrand+Induced seismicity
J|0796|Hatzfeld,D.+Martin,C.|Intermediate depth seismicity in the Aegean defined by teleseismic data||#EPL:113:1-3:1992:267-275|Intermediate-depth earthquake+AEgean+Seismicity+Teleseism+ISC||#*SGREECE83
J|0797|Mammerickx,J.|The Foundation Seamounts: tectonic setting of a newly discovered seamount chain in the South Pacific||#EPL:113:1-3:1992:293-306|South Pacific+Seamount+Tectonics+Geophysical data
J|0798|Papadopoulos,G.A.+Pavlides,S.B.|The large 1956 earthquake in the south Aegean: macroseismic field configuration, faulting, and neotectonics of Amorgos Island||#EPL:113:1-3:1992:383-396|AEgean Sea+1956+Earthquake+Isoseismal map
J|0799|Chopelas,A.|Sound velocities of MgO to very high compression||#EPL:114:1:1992:185-192|Acoustics+Velocity+Pressure+Crystal
J|0800||Review of `Planning for earthquakes: risk, politics, and policy' by P. R. Berke and T. Beatley||Nat. Haz. Observer:16:6:1992:19|Review+Planning+Public policy+United States
J|0801||Review of `Catalog of significant earthquakes, 2150 B.C.-1991 A.D.: including quantitative casualties and damage' by P. K. Dunbar, P. A. Lockridge and L. S. Whiteside||Nat. Haz. Observer:17:1:1992:20|Review+Earthquake catalogue+Significant earthquake+2150 B.C.-1991 A.D.
J|0802||Review of `The Landers and Big Bear earthquakes of June 28, 1992' by EQE International||Nat. Haz. Observer:17:2:1992:23|Review+Southern California+Damage+1992||#*LANDERS92|#*BIGBEAR92
J|0803|Constantinou,M.C.|NCEER - Taisei research on sliding isolation systems for bridges||#NCE:6:3:1992:1-4|Bridge+Base isolation system+Sliding+Earthquake engineering
J|0804|Ghanem,R.+Shinozuka,M.|Development of vibration suppression devices using variable dampers||#NCE:6:3:1992:5-8|Vibration+Damper+Earthquake engineering
J|0805|Cozzarelli,F.A.|Structural damping with shape memory alloys||#NCE:6:4:1992:4-7|Damping+Hysteresis+Metal+Shape
J|0806|Field,E.H.+Jacob,K.H.+Barstow,N.+|Coachella Valley site-response experiment using Landers earthquake aftershocks in Southern California||#NCE:6:4:1992:8-11|Southern California+Aftershock+Response+1992||#*LANDERS92|#*BIGBEAR92
J|0807|Seeber,L.+Armbruster,J.G.|A sharper focus on the San Andreas fault in Southern California after the 1992 Landers earthquake sequence||#NCE:6:4:1992:12-14|San Andreas Fault+Southern California+Seismicity+Focal mechanism||#*LANDERS92|#*LOMAPRIETA89|#*PALMSPRINGS
J|0808|O'Rourke,M.|Seismic damage to lifelines following the Landers earthquake||#NCE:6:4:1992:14-15|Damage+Public works||#*LANDERS92
J|0809|Landwer,W.R.+Neidell,N.S.+Smith,M.|Seismic definition of sand lithology by geologic setting or by AVO||Okla. Geol. Notes:52:5:1992:189|Sand+Shale+Oklahoma+Lithology|Abstract only
J|0810|He,H-L.+Li,P.+Fang,Z-J.|Analysis of seismogenic conditions in the wedge tectonic region of southeast Yunnan Province|In Chinese with English abstract|#SMG:14:3:1992:217-226|Yunnan+Seismicity+Fault+Wedge
J|0811|Ran,Y-K.+Wang,Y-P.+Fang,Z-J.|Tentative analysis of slip patterns and segment types of active faults|In Chinese with English abstract|#SMG:14:3:1992:227-236|Pattern+Slip+Fault+Palaeoearthquake
J|0812|Zhang,Y-Z.+Zhang,L-R.+Su,S-P.+|Gradients of vertical deformation rates and high-risk areas of strong earthquake in China|In Chinese with English abstract|#SMG:14:3:1992:237-244|Strong earthquake+China+Deformation+Risk
J|0813|Wang,Y.|Result of harmonic analysis of effect of Earth tide on water level in seven wells in Ningxia and its application|In Chinese with English abstract|#SMG:14:3:1992:245-250|Earth tide+Water level+Well+Prediction
J|0814|Gao,Q-W.|Geochemical characteristics of gases in Wudalianchi volcanic area of Heilongjiang Province|In Chinese with English abstract|#SMG:14:3:1992:251-258|Gas+Cluster+Volcano+China
J|0815|Gao,X-L.+Luo,H-Y.|Characteristics of seismic source faults within the continental plate|In Chinese with English abstract|#SMG:14:3:1992:259-264|Intraplate earthquake+Continent+Fault+Geodynamics
J|0816|Wang,H-L.+Chao,H-T.+Geng,J.|Characteristics of fault gouge from the NW-trending faults in west Shandong and its seismo-geological implications|In Chinese with English abstract|#SMG:14:3:1992:265-273|Seismogeology+Gouge+Fault+Shandong
J|0817|Liu,Z-M.|Historic record of earthquakes in Taiwan|In Chinese|#SMG:14:3:1992:274|Taiwan+Historical earthquake+1644-1892|Scientific note
J|0818|Zhang,Y-M.|Determination of potential earthquake source from both seismic and geological data|In Chinese with English abstract|#SMG:14:3:1992:275-278|Seismic potential+Zoning+Seismogeology
J|0819|Yu,K-T.+Jiang,P.+Luo,H-Y.|Surface rupture hazard analysis of a site|In Chinese with English abstract|#SMG:14:3:1992:279-285|Hazard+Rupture+Surface deformation+Site
J|0820|Lu,G-X.|Seismicity emerging in the reservoir area of Tongjiezhi hydroelectric station, Sichuan Province|In Chinese|#SMG:14:3:1992:288|Sichuan+Reservoir+Seismicity|Scientific note
J|0821|Xu,X-W.+Deng,Q-D.+Dong,R-S.+|Study on strong earthquake activity and risk areas in the Shanxi graben system|In Chinese with English abstract|#SMG:14:4:1992:305-316|Strong earthquake+Shanxi+Risk+Seismicity
J|0822|Qian,H.+Tang,R-C.+Wen,D-H.+|Research on the recent surficial faulting on the northern segment of the Anninghe fault zone and earthquake potential|In Chinese with English abstract|#SMG:14:4:1992:317-323|Seismic potential+Surface deformation+China+Faulting
J|0823|Liu,M-H.|Seawater injection into subduction zone: an assumption on inducing genesis of shallow earthquakes|In Chinese|#SMG:14:4:1992:324|Shallow earthquake+Induced earthquake+Subduction zone+Fluid injection|Scientific note
J|0824|Wang,S-Z.|A tectonophysical method for estimating seismic energy and efficiency|In Chinese with English abstract|#SMG:14:4:1992:325-332|Tectonophysics+Energy+Efficiency+Magnitude
J|0825|Quing,B-Y.+Chen,J-C.+Feng,X-Y.|Discussion on principles and methods for delineation of large historic earthquake areas with high seismic effects|In Chinese with English abstract|#SMG:14:4:1992:333-340|Delineation+Historical earthquake+Seismicity+Activity
J|0826|Ma,S-L.+Ji,F-J.+Ma,J.+|Effect of frictional sliding on thermoluminescent property of quartz and calcite and its seismological significance|In Chinese with English abstract|#SMG:14:4:1992:341-349|Friction+Seismogeology+Quartz+Calcite
J|0827|Qiu,Z-H.+Zhang,B-H.|Study on the abrupt change of precursory anomalies prior to Tangshan earthquake|In Chinese with English abstract|#SMG:14:4:1992:369-373|Precursor+T'ang-shan+Anomaly+Uplift||#*TANGSHAN
J|0828|Ursin,B.+Dahl,T.|Seismic reflection amplitudes||#GPP:40:5:1992:483-512|Amplitude+Reflexion coefficient+Transmission coefficient+Offset
J|0829|Liu,E.+Crampin,S.+Roth,B.|Modelling channel waves with synthetic seismograms in an anisotropic in-seam seismic survey||#GPP:40:5:1992:513-540|Seismic survey+Synthetic seismogram+Channel wave+Coal seam
J|0830|Gray,S.H.|Frequency-selective design of the Kirchhoff migration operator||#GPP:40:5:1992:565-571|Design+Migration+Operator
J|0831|Murat,M.E.+Rudman,A.J.|Automated first arrival picking: a neural network approach||#GPP:40:6:1992:587-604|First arrival+Pick+Neural network+Automatic selection
J|0832|Mjelde,R.|Reflection and polarization of tube waves as seen in VSP data||#GPP:40:6:1992:605-617|Tube wave+Reflexion+Polarization+Vertical seismic profiling
J|0833|Bleistein,N.+Cohen,J.K.|The Cagniard method in complex time revisited||#GPP:40:6:1992:619-649|Cagniard's technique+Time domain+Mathematical method
J|0834|Gritto,R.+Dresen,L.|Seismic modelling of seam waves excited by energy transmission into a seam||#GPP:40:6:1992:671-699|Modelling+Coal seam+Channel wave+Frequency-wavenumber analysis
J|0835|Landro,M.|Modelling of GI gun signatures||#GPP:40:7:1992:721-747|Airgun+Signature+Modelling+Marine seismic source
J|0836|Carcione,J.M.|Anisotropic Q and velocity dispersion of finely layered media||#GPP:40:7:1992:761-783|Layered medium+Anisotropy+Dispersion+Q
J|0837|Bondar,I.|Seismic horizon detection using image processing algorithms||#GPP:40:7:1992:785-800|Algorithm+Image+Detection+Data processing
J|0838|MacBeth,C.D.+Yardley,G.S.|Optimal estimation of crack-strike||#GPP:40:8:1992:849-872|Vertical seismic profiling+Microcrack+Strike+Shear wave splitting
J|0839|Bortfeld,R.+Kiehn,M.|Reflection amplitudes and migration amplitudes (zero-offset situation)||#GPP:40:8:1992:873-884|Amplitude+Zero offset+Seismics+Migration
J|0840|Kovalevskiy,E.V.+Kharchenko,V.I.|Integrated interpretation of marine engineering geological and geophysical data on the principles of expert system technology||#GPP:40:8:1992:909-923|Marine geophysical investigation+Interpretation+Soil+Expert system
J|0841|Whiteley,R.J.|Comments on `The resolution of narrow low-velocity zones with the generalized reciprocal method' by D. Palmer||#GPP:40:8:1992:925-935|Comments+Resolution+Low-velocity layer+Reciprocal method+Refractor|With a reply by the author
J|0842|Clark,E.A.+Cook,F.A.|Crustal-scale ramp in a Middle Proterozoic orogen, Northwest Territories, Canada||#CJS:29:1:1992:142-157|Deep seismic sounding+Northwest Territories+Geophysical investigation+Crustal structure
J|0843|Cumming,E.H.+Aksu,A.E.+Mudie,P.J.|Late Quaternary glacial and sedimentary history of Bonavista Bay, northeast Newfoundland||#CJS:29:2:1992:222-235|Newfoundland+Seismostratigraphy+Sedimentation+Vertical seismic profiling
J|0844|Chian,D-P.+Louden,K.E.|The structure of Archean-Ketilidian crust along the continental shelf of southwestern Greenland from a seismic refraction profile||#CJS:29:2:1992:301-313|Refraction study+Greenland+Continental shelf+Velocity structure
J|0845|Michel,H.K.+Louden,K.E.+Marillier,F.+|The seismic velocity structure of northern Appalachian crust around western Newfoundland||#CJS:29:3:1992:462-478|Velocity structure+Canadian Appalachians+Refraction study+Vertical seismic profiling
J|0846|Piper,D.J.W.+Pereira,C.P.G.|Late Quaternary sedimentation in central Flemish Pass||#CJS:29:3:1992:535-550|Grand Banks+Sedimentation+Survey+Profile
J|0847|Carlson,P.R.+Powell,R.D.+Phillips,A.C.|Submarine sedimentary features on a fjord delta front, Queen Inlet, Glacier Bay, Alaska||#CJS:29:3:1992:565-573|Side-scan sonar+Alaska+Sediment+Profile|Note
J|0848|Auld,D.R.+Dosso,S.E.+Oldenburg,D.W.+|Monitoring temporal change in conductivity in the central Vancouver Island region, an area with past large earthquakes||#CJS:29:4:1992:601-608|Vancouver Island+Large earthquake+Magnetotellurics+Temporal variation
J|0849|Samson,C.+West,G.F.|Crustal structure of the midcontinent rift system in eastern Lake Superior from controlled-amplitude analysis of GLIMPCE deep reflection seismic data||#CJS:29:4:1992:636-649|Crustal structure+Lake Superior+GLIMPCE+Deep seismic sounding
J|0850|Davis,E.E.+Chapman,D.S.+Mottl,M.J.+|FlankFlux: an experiment to study the nature of hydrothermal circulation in young oceanic crust||#CJS:29:5:1992:925-952|Hydrothermy+Oceanic crust+Juan de Fuca+Reflexion study
J|0851|Wahlstrom,R.+Rogers,G.C.|Relocation of earthquakes west of Vancouver Island, British Columbia, 1965-1983||#CJS:29:5:1992:953-961|Location+Vancouver Island+1965-1983+Offshore
J|0852|Shilts,W.W.+Clague,J.J.|Documentation of earthquake-induced disturbance of lake sediments using subbottom acoustic profiling||#CJS:29:5:1992:1018-1042|Sediment+Profiling+Historical earthquake+Canadian Shield
J|0853|Shilts,W.W.+Rappol,M.+Blais,A.|Evidence of late and postglacial seismic activity in the Temiscouata-Madawaska Valley, Quebec - New Brunswick, Canada||#CJS:29:5:1992:1043-1069|Activity+Canada+Profiling+Sediment
J|0854|Lewis,T.J.+Bentkowski,W.H.+Hyndman,R.D.|Crustal temperatures near the Lithoprobe Southern Canadian Cordillera Transect||#CJS:29:6:1992:1197-1214|Canadian Cordillera+Temperature+Crust+Reflector
J|0855|Dehler,S.A.+Clowes,R.M.|Integrated geophysical modelling of terranes and other structural features along the western Canadian margin||#CJS:29:7:1992:1492-1508|Continental margin+Canada+Geophysical data+Terrane
J|0856|Yuan,T-S.+Spence,G.D.+Hyndman,R.D.|Structure beneath Queen Charlotte Sound from seismic-refraction and gravity interpretations||#CJS:29:7:1992:1509-1529|Queen Charlotte Islands+Gravity+Seismic survey+Crustal structure
J|0857|Zelt,B.C.+Ellis,R.M.+Clowes,R.M.+|Crust and upper mantle velocity structure of the Intermontane belt, southern Canadian Cordillera||#CJS:29:7:1992:1530-1548|Canadian Cordillera+Velocity structure+Crust+Upper mantle
J|0858|Kurtz,R.D.+Gupta,J.C.|Shallow and deep crustal conductivity studies in the Miramichi earthquake zone, New Brunswick||#CJS:29:7:1992:1549-1564|Magnetotellurics+Miramichi+Crust+Survey||#*NEWBRUNSWICK|#*NEWBRUNSWICK2|#*NEWBRUNSWICK3
J|0859|Clague,J.J.+Naesgaard,E.+Sy,A.|Liquefaction features on the Fraser delta: evidence for prehistoric earthquakes?||#CJS:29:8:1992:1734-1745|Prehistoric earthquake+Liquefaction+British Columbia+Sand
J|0860|Clowes,R.M.+Cook,F.A.+Green,A.G.+|Lithoprobe: new perspectives on crustal evolution||#CJS:29:9:1992:1813-1864|Lithoprobe+Crust+Geophysical investigation+Canada
J|0861|Quinlan,G.M.+Hall,J.+Williams,H.+|Lithoprobe onshore seismic reflection transects across the Newfoundland Appalachians||#CJS:29:9:1992:1865-1877|Lithoprobe+Appalachians+Transect+Reflexion study
J|0862|Thurlow,J.G.+Spencer,C.P.+Boerner,D.E.+|Geological interpretation of a high resolution reflection seismic survey at the Buchans mine, Newfoundland||#CJS:29:9:1992:2022-2037|Newfoundland+Seismic survey+High resolution+Geology
J|0863|Adam,E.+Milkereit,B.+Mareschal,M.+|The application of reflection seismology to the investigation of the geometry of near-surface units and faults in the Blake River group, Abitibi belt, Quebec||#CJS:29:9:1992:2038-2045|Geometry+Quebec+Reflexion study+Lithoprobe
J|0864|Jackson,H.R.+Dickie,K.+Marillier,F.|A seismic reflection study of northern Baffin Bay: implication for tectonic evolution||#CJS:29:11:1992:2353-2369|Reflexion study+Baffin Bay+Tectonics+Sedimentary basin
J|0865|Langbein,J.|The October 1992 Parkfield, California, earthquake prediction||#EQV:23:4:1992:160-169|Prediction+1992+Parkfield+Warning||#*PARKFIELD92
J|0866|Andrews,R.|The Parkfield earthquake prediction of October 1992: the emergency services response||#EQV:23:4:1992:170-174|Prediction+1992+Parkfield+Warning||#*PARKFIELD92
J|0867|Celebi,M.+Brown,R.D.|Building damage from the March 13, 1992, earthquake near Erzincan, Turkey||#EQV:23:4:1992:175-182|Damage+Earthquake+1992+Turkey||#*ERZINCAN92
J|0868|Person,W.J.|Earthquakes November-December 1991||#EQV:23:4:1992:183-187|Earthquake+1991+Casualties
J|0869|Person,W.J.|Earthquakes January-February 1992||#EQV:23:4:1992:188-191|Earthquake+1992
J|0870||Introduction to the Landers-Big Bear earthquakes||#EQV:23:5:1992:196-199|Earthquake+1992+Southern California+Rupture||#*LANDERS92|#*BIGBEAR92
J|0871|Jones,L.M.+Mori,J.+Hauksson,E.|The Landers earthquake: preliminary instrumental results||#EQV:23:5:1992:200-208|Earthquake+1992+Southern California+Sequence||#*LANDERS92|#*JOSHUATREE92
J|0872|a-USGS Staff|The 1992 Landers earthquake and surface faulting||#EQV:23:5:1992:209-218|Earthquake+Faulting+1992+Southern California||#*LANDERS92
J|0873|Brewer,L.|Preliminary damage and intensity survey||#EQV:23:5:1992:219-226|Earthquake+1992+Southern California+Damage||#*LANDERS92
J|0874|Person,W.J.|Earthquakes March-April 1992||#EQV:23:5:1992:227-234|Earthquake+1992+Casualties
J|0875|Person,W.J.|Earthquakes May-June 1992||#EQV:23:5:1992:235-239|Earthquake+1992+Casualties
J|0876|Clague,D.A.+Heliker,C.|The ten-year eruption of Kilauea volcano||#EQV:23:6:1992:244-254|Volcanic tremor+Kilauea+Eruption+Activity
J|0877|Dvorak,J.J.|Tracking the movement of Hawaiian volcanoes: Global Positioning System (GPS) measurements||#EQV:23:6:1992:255-267|Global Positioning System+Hawaii+Volcano+Movement
J|0878|Hays,W.W.|Natural hazards research and response: International Decade for reducing loss from natural disasters||#EQV:23:6:1992:268-273|IDNDR+Natural disaster+Mitigation+Damage||#*LOMAPRIETA89
J|0879|Person,W.J.|Earthquakes July-August 1992||#EQV:23:6:1992:274-279|Earthquake+1992+Casualties
J|0880|Person,W.J.|Earthquakes September-October 1992||#EQV:23:6:1992:280-287|Earthquake+1992+Casualties
J|0881|Tobyas,V.+Mittag,R.|Seismic activity in the region of northwest Bohemia||#SGE:36:3:1992:207-214|Bohemia+Macroseismic data+Frequency-magnitude relation+Microseismicity
J|0882|Safanda,J.+Kashubin,S.N.+Cermak,V.|Temperature modelling along the Taratashskiy profile crossing the Ural Mountains||#SGE:36:4:1992:349-357|Deep seismic sounding+Urals+Temperature+Modelling
J|0883|Wang,J-H.|Magnitude scales and their relations for Taiwan earthquakes: a review||#TAO:3:4:1992:449-468|Taiwan+Magnitude scale+Equation+Review
J|0884|Shieh,C-F.|Estimation of Q value by SP/S spectral ratio||#TAO:3:4:1992:469-482|Q+Spectral ratio+Velocity structure+Converted wave||#*TAIWAN86B
J|0885|Chen,C.H.+Shih,T.F.|An improved vicinity ray tracing in two-dimensional laterally inhomogeneous velocity structure||#TAO:3:4:1992:483-501|Synthetic seismogram+Ray tracing+Lateral inhomogeneity+Velocity structure
J|0886|Giardini,D.|The Global Seismic Hazard Assessment Programme (GSHAP)||STOP Disasters:-:8:1992:11-12|GSHAP+Hazard+Global seismicity+Regionalization
J|0887|Daly,M.C.+Lawrence,S.R.+Diemu-Tshiband,K.+|Tectonic evolution of the Cuvette Centrale, Zaire||#JGL:149:4:1992:539-546|Tectonics+Evolution+Zaire+Reflexion study
J|0888|Brooks,M.|Discussion on `Crustal evolutionary model for the Variscides of Ireland and Wales from SWAT seismic data' by B. Le Gall||#JGL:149:4:1992:681-682|Comments+SWAT+Variscides+Crust+Evolution|With a reply by the author
J|0889|Soper,N.J.+England,R.W.+Snyder,D.B.+|The Iapetus suture zone in England, Scotland and eastern Ireland: a reconciliation of geological and deep seismic data||#JGL:149:5:1992:697-700|Iapetus suture+Deep seismic sounding+Geologic structure+Crust
J|0890|Bott,M.H.P.|Passive margins and their subsidence||#JGL:149:5:1992:805-812|Subsidence+Passive margin+Tectonics+Crustal thickness
J|0891|Watts,A.B.+Torne,M.|Crustal structure and the mechanical properties of extended continental lithosphere in the Valencia trough (western Mediterranean)||#JGL:149:5:1992:813-827|Crustal structure+Valencia+Continental lithosphere+Geophysical investigation
J|0892|Sibuet,J-C.|New constraints on the formation of the non-volcanic continental Galicia-Flemish Cap conjugate margins||#JGL:149:5:1992:829-840|Continental margin+Constraint+Reflector+Galicia
J|0893|White,R.S.|Crustal structure and magmatism of North Atlantic continental margins||#JGL:149:5:1992:841-854|Crustal structure+Magmatism+North Atlantic+Continental margin
J|0894|Smith,K.|Carboniferous magmatism in the Iapetus convergence zone: evidence from deep seismic reflection profiles||#JGL:149:6:1992:907-914|Deep seismic sounding+Magmatism+Iapetus suture+Interpretation
J|0895|Ford,M.+Klemperer,S.L.+Ryan,P.D.|Deep structure of southern Ireland: a new geological synthesis using BIRPS deep reflection profiling||#JGL:149:6:1992:915-922|Deep structure+Ireland+BIRPS+Reflexion study
J|0896|Bull,J.M.+Scrutton,R.A.|Seismic reflection images of intraplate deformation, central Indian Ocean, and their tectonic significance||#JGL:149:6:1992:955-966|Indian Ocean+Tectonics+Intraplate deformation+Reflexion study
J|0897|Paton,S.|Active normal faulting, drainage patterns and sedimentation in southwestern Turkey||#JGL:149:6:1992:1031-1044|Normal fault+Turkey+Sedimentation+Drainage
J|0898|Church,W.R.|Discussion on `On the trace of the Iapetus suture in Ireland and Britain' by S. P. Todd, F. C. Murphy and P. S. Kennan||#JGL:149:6:1992:1048-1049|Comments+Iapetus suture+Britain+Ireland+Dipping layer|With a reply by the authors
J|0899||Nuclear earthquakes||Geogrl Mag., Lond.:64:11:1992:39|Underground nuclear explosion+Trigger+Nevada Test Site|Geoforum|#*NEVADA92A|#*NEVADA92B|#*LANDERS92|#*CALIFNEV92|#*TABAS|#*TANGSHAN
J|0900|Cook,J.|Raleigh to the cause||Geogrl Mag., Lond.:64:12:1992:20-23|Chile+Geophysical investigation+Field work+Monitoring
A|0901|e*Fantechi,R.+Almeida-Teixeira,M.E.|Earthquake hazard assessment||1991:Luxembourg:Commission of the European Communities|Proceedings+Hazard+Assessment+Seismology|193p. Proceedings of a course held in Athens, May 1988|#*ALKION|#*ALKION2|#*ALKION3|#*KEFALLINIA|#*NAEGEAN|#*PARMA
A|0902|e*Schenk,V.+Mayer-Rosa,D.|Activity report 1990-1992 and Proceedings||1992:Prague:Geophysical Institute of the Czechoslovak Academy of Sciences|Seismology+Proceedings+Europe+Seismicity|462p. Two volumes. Proceedings of the XXIII General Assembly of the European Seismological Commission held in Prague, September 1992|#*ROERMOND92|#*SICILY90
A|0903|e*Gutdeutsch,R.+Grunthal,G.+Musson,R.M.W.|Historical earthquakes in central Europe||1992:Vienna:Geologische Bundesanstalt|Historical earthquake+Central Europe|109p. Monograph. Volume 1
A|0904|e*Wyss,M.|Evaluation of proposed earthquake precursors||1991:Washington:American Geophysical Union|Precursor+Prediction+IASPEI|94p|#*HAICHENG|#*SEAOFJAPAN
A|0905|e*Zonno,G.+Ducarme,B.|Application of artificial intelligence techniques in seismology and engineering seismology||1992:Luxembourg:Centre Europeen de Geodynamique et de Seismologie|Proceedings+Seismology+Technique+Artificial intelligence|281p. Volume 6. Proceedings of a Workshop held in Walferdange, March 1992
A|0906|a-Geological Survey of India|Uttarkashi earthquake October 20, 1991||1992:Calcutta:Geological Survey of India|Earthquake+India+1991+Damage|218p. Special Publication No. 30|#*NINDIA91
A|0907||Annual Report of the Eotvos Lorand Geophysical Institute of Hungary for 1990|In Hungarian, English and Russian|1992:Budapest:ELGI Hungary|Prospecting+Reflexion study+Refraction study+Instrument|294p
J|0908|Rakova,E.+Ranguelov,B.|A statistical investigation on consecutive strong earthquakes in a part of the eastern Mediterranean and California|In Bulgarian with Russian and English abstracts|#BGS:18:3:1992:3-11|Strong earthquake+Time intervals+Mediterranean+California
J|0909|Alexandrova,I.+Babachkova,B.+Botev,E.+|Preliminary data about the earthquakes on the Balkan Peninsula (July-September, 1992)|In Bulgarian with Russian and English abstracts|#BGS:18:4:1992:90-93|Balkans+1992+Earthquake
J|0910|Michael-Leiba,M.O.+Malafant,K.|A new local magnitude scale for southeastern Australia||#BMR:13:3:1992:201-205|Local magnitude+Australia+Magnitude scale
J|0911|Ding,G-Y.|The characteristic behaviours of active faults and earthquakes in China mainland||#JEP:1:1:1992:5-19|China+Fault+Behaviour+Palaeoearthquake
J|0912|Sobolev,G.A.|Earthquake prediction in the USSR: fundamental principles||#JEP:1:1:1992:21-42|USSR+Prediction+Precursor+Resistivity
J|0913|Mei,S-R.|Progress in earthquake prediction in China during the 80's||#JEP:1:1:1992:43-57|Prediction+China+Precursor+Expert system
J|0914|Gufeld,I.L.|Radio-wave precursors of earthquakes||#JEP:1:1:1992:59-70|Precursor+Radio emission+Ionosphere+Electromagnetic field||#*ARMENIA88|#*MANJIL90
J|0915|Zhang,G-M.+Zhang,Z-C.|The study of multidisciplinary earthquake prediction in China||#JEP:1:1:1992:71-85|Prediction+China+Precursor
J|0916|Grachev,A.F.|Intraplate geodynamics and seismicity||#JEP:1:1:1992:87-106|Intraplate seismicity+Geodynamics+New Madrid+Tectonics
J|0917|Chen,Y.+Wang,W.+Zhu,Y-Q.+|Multidisciplinary approach used in expert system for earthquake prediction in China||#JEP:1:1:1992:107-113|China+Prediction+Expert system+Precursor
J|0918|Borisov,B.A.+Rogozhin,E.A.|The Racha, Georgia, April 29, 1991 earthquake: results of geological investigation||#JEP:1:1:1992:115-125|Earthquake+Georgia USSR+1991+Seismogeology||#*WCAUCASUS91
J|0919|Chen,X-L.|Research on earthquake disasters and countermeasures in China||#JEP:1:1:1992:127-142|Disaster+China+Antiseismic measure+Vulnerability
J|0920|Jakobson,A.N.|The seismic Rayleigh wave as a means of lithosphere studies|In Russian|#SVG:-:7:1992:66-71|Rayleigh wave+Lithosphere
A|0921|Williams,M.S.+Pomonis,A.+Booth,E.D.+|The Erzincan, Turkey earthquake of 13 March 1992. A field report by EEFIT||1992:London:Institution of Structural Engineers|Field work+Earthquake+Turkey+1992|101p|#*ERZINCAN92
J|0922|Dawson,P.|PASSCAL instruments tackle an active volcano, Redoubt, Alaska||IRIS Newsl.:11:2:1992:1-2|PASSCAL+Alaska+Volcano+Instrument|Summer issue
J|0923|Butler,R.|Rarotonga borehole site||IRIS Newsl.:11:2:1992:3-8|Borehole+Rarotonga+Noise+Seismometer|Summer issue
J|0924|Buland,R.|United States National Seismograph Network||IRIS Newsl.:11:2:1992:4-6|United States+Network+Data acquisition|Summer issue
J|0925|Kappel,E.S.|Ocean seismic network planning office is established||IRIS Newsl.:11:2:1992:7|Global Seismic Network+Ocean-bottom seismometer|Summer issue
J|0926|Owens,T.J.+Randall,G.E.+Wu,F.T.+|The Tibetan Plateau passive-source seismic experiment||IRIS Newsl.:11:3:1992:1-3|Tibet+PASSCAL+Broadband seismograph|Fall issue
J|0927|Ritzwoller,M.H.+Harvey,D.|IRIS's Joint Seismic Program Center (JSPC) opens||IRIS Newsl.:11:3:1992:5-8|United States+CIS+Data management+Programme|Fall issue
J|0928|Bergman,E.A.+Engdahl,E.R.|International Seismological Observing Period||IRIS Newsl.:11:3:1992:9-11|ISOP+Deep structure+Digital processing+Global Seismic Network|Fall issue
J|0929|Thurber,C.H.+Munson,C.G.+Li,Y-P.+|Initial results from project ALOHA||IRIS Newsl.:11:3:1992:12-15|Hawaii+PASSCAL+Imaging+Velocity structure|Fall issue
J|0930|Simpson,D.|IRIS - an overview||IRIS A. Rep.:-:-:1992:2-3|IRIS
J|0931|Butler,R.|Global Seismographic Network||IRIS A. Rep.:-:-:1992:4-5|Global Seismic Network
J|0932|Van der Vink,G.|The Joint Seismic Program||IRIS A. Rep.:-:-:1992:8-9|Programme+CIS+United States
J|0933|Ahern,T.|Data Management System||IRIS A. Rep.:-:-:1992:12-13|Data management
J|0934|Fowler,J.|PASSCAL||IRIS A. Rep.:-:-:1992:16-17|PASSCAL
J|0935|Korsch,R.J.+Wake-Dyster,K.D.+Johnstone,D.W.|Geometry of Gunnedah Basin and New England Orogen examined by AGSO deep seismic profile||AGSO Res. Newsl.:-:17:1992:3-4|Deep seismic sounding+New South Wales+Geometry+Geophysical investigation
J|0936|McCue,K.|Chinese earthquakes to rock Australian buildings||AGSO Res. Newsl.:-:17:1992:9|China+Australia+Intraplate earthquake+Hazard
J|0937|Totterdell,J.+Brakel,A.+Wells,A.+|Sequence stratigraphic interpretation of Bowen and Surat Basin successions, Tamroon region, Queensland||AGSO Res. Newsl.:-:17:1992:15-16|Sedimentary basin+Queensland+Stratigraphy+Hydrocarbon
J|0938||Australian Seismological Centre||AUS.GEO News:-:12:1992:8|Network+Monitoring+Australia
J|0939|Al-Saad,D.+Sawaf,T.+Gebran,A.+|Crustal structure of central Syria: the intracontinental Palmyride mountain belt||#TCT:207:3-4:1992:345-358|Syria+Crustal structure+Reflexion study+Geophysical investigation
J|0940|Bressan,G.+De Franco,R.+Gentile,F.|Seismotectonic study of the Friuli (Italy) area based on tomographic inversion and geophysical data||#TCT:207:3-4:1992:383-400|Friuli+Seismotectonics+Velocity structure+Geophysical data||#*FRIULI|#*FRIULI2|#*FRIULI3|#*FRIULI4
J|0941|Neumann,E-R.+Olsen,K.H.+Baldridge,W.S.+|The Oslo Rift: a review||#TCT:208:1-3:1992:1-18|Review+Geophysical survey+Oslo Rift+Velocity structure
J|0942|Ro,H.E.+Faleide,J.I.|A stretching model for the Oslo Rift||#TCT:208:1-3:1992:19-36|Oslo Rift+Stretching+Isostasy+Geophysical data
J|0943|Ziegler,P.A.|North Sea rift system||#TCT:208:1-3:1992:55-75|North Sea+Rift+Crustal thickness+Palaeogeography
J|0944|Ziegler,P.A.|European Cenozoic rift system||#TCT:208:1-3:1992:91-111|Europe+Cenozoic+Rift+Velocity structure
J|0945|Prodehl,C.+Mueller,St.+Glahn,A.+|Lithospheric cross sections of the European Cenozoic rift system||#TCT:208:1-3:1992:113-138|Seismic survey+Europe+Lithosphere+Rift
J|0946|Brun,J-P.+Gutscher,M-A.+a-DEKORP-ECORS teams|Deep crustal structure of the Rhine Graben from DEKORP-ECORS seismic reflection data: a summary||#TCT:208:1-3:1992:139-147|Reflexion data+Rhine-Graben+Deep structure+Crust
J|0947|Glahn,A.+Granet,M.|3-D structure of the lithosphere beneath the southern Rhine Graben area||#TCT:208:1-3:1992:149-158|Velocity structure+Lithosphere+Rhine-Graben+P-wave
J|0948|Zijerveld,L.+Stephenson,R.+Cloetingh,S.+|Subsidence analysis and modelling of the Roer Valley Graben (SE Netherlands)||#TCT:208:1-3:1992:159-171|Netherlands+Subsidence+Profile+Evolution
J|0949|Banda,E.+Santanach,P.|The Valencia trough (western Mediterranean): an overview||#TCT:208:1-3:1992:183-202|Valencia+Basin+Crustal structure+Geophysical investigation
J|0950|Tari,G.+Horvath,F.+Rumpler,J.|Styles of extension in the Pannonian Basin||#TCT:208:1-3:1992:203-219|Reflexion study+Pannonian Basin+Extension+Fault
J|0951|Chekunov,A.V.+Garvish,V.K.+Kutas,R.I.+|Dnieper-Donets palaeorift||#TCT:208:1-3:1992:257-272|Deep seismic sounding+Rift+Donets Basin+Geophysical data+Dnepr Basin
J|0952|Logatchev,N.A.+Zorin,Yu.A.|Baikal rift zone: structure and geodynamics||#TCT:208:1-3:1992:273-286|Baikalian Rift+Structure+Geodynamics+Crustal thickness
J|0953|Kiselev,A.I.+Popov,A.M.|Asthenospheric diapir beneath the Baikal rift: petrological constraints||#TCT:208:1-3:1992:287-295|Baikalian Rift+Diapir+Petrology+Deep structure
J|0954|Sherman,S.I.|Faults and tectonic stresses of the Baikal rift zone||#TCT:208:1-3:1992:297-307|Fault+Tectonics+Stress+Baikalian Rift
J|0955|Xu,X.+Ma,X-Y.|Geodynamics of the Shanxi Rift system, China||#TCT:208:1-3:1992:325-340|Deep seismic sounding+Geodynamics+Shanxi+Rift
J|0956|Tian,Z-Y.+Han,P.+Xu,K-D.|The Mesozoic-Cenozoic East China rift system||#TCT:208:1-3:1992:341-363|East China+Rift+Geophysical data
J|0957|Lees,J.M.+Ukawa,M.|The South Fossa Magna, Japan, revealed by high-resolution P- and S-wave travel time tomography||#TCT:208:4:1992:377-396|Tomography+Japan+P-wave+S-wave
J|0958|Mezcua,J.+Buforn,E.+Udias,A.+|Seismotectonics of the Canary Islands||#TCT:208:4:1992:447-452|Seismotectonics+Canary Islands+Earthquake+1989|Short note|#*CANARY89
J|0959|Engdahl,E.R.+Bergman,E.A.|The International Seismological Observing Period in Africa||#TCT:209:1-4:1992:1-16|ISOP+Africa+Travel-times+ISC
J|0960|Giardini,D.+Boschi,E.+Mazza,S.+|Very-broad-band seismology in Northern Africa under the MedNet project||#TCT:209:1-4:1992:17-30|Broadband seismology+North Africa+Mediterranean+Network
J|0961|Lombe,K.D.+Mubu,M.S.|Instrumentation and seismicity in Zambia||#TCT:209:1-4:1992:31-33|Instrumentation+Seismicity+Zambia|Extended abstract
J|0962|Fernandez,L.M.+Otto,M.A.+Steyn,J.|The South African National Digital Seismological System (SANDSS), a dial-up telephone-linked network||#TCT:209:1-4:1992:35-42|Digital recording+South Africa+Network+Telecommunications
J|0963|Akoto,M.A.+Anum,S.A.|Monitoring recent microseismic activity in Ghana||#TCT:209:1-4:1992:43-46|Microseismicity+Monitoring+Ghana|Extended abstract
J|0964|Beckles,D.+Shepherd,J.B.+Aspinall,W.P.|The "Soufriere" system: PC-based instrumentation for acquiring and processing data from seismograph networks||#TCT:209:1-4:1992:47-49|Network+Personal computer+Instrumentation+Leeward Is.|Extended abstract
J|0965|Kebede,F.+Kulhanek,O.|Recent seismicity of the East African rift system and its implications||#TCT:209:1-4:1992:51-54|East African Rift+Seismicity|Extended abstract
J|0966|Asfaw,L.M.|Constraining the African pole of rotation||#TCT:209:1-4:1992:55-63|East African Rift+Seismicity+Plate tectonics
J|0967|Lepine,J-C.+Hirn,A.|Seismotectonics in the Republic of Djibouti, linking the Afar Depression and the Gulf of Aden||#TCT:209:1-4:1992:65-86|Seismotectonics+Djibouti+Afar+Aden, G. of
J|0968|Gaulon,R.+Chorowicz,J.+Vidal,G.+|Regional geodynamic implications of the May-July 1990 earthquake sequence in southern Sudan||#TCT:209:1-4:1992:87-103|Sequence+Sudan+1990+Geodynamics||#*SUDAN90
J|0969|Giardini,D.+Beranzoli,L.|Waveform modelling of the May 20, 1990 Sudan earthquake||#TCT:209:1-4:1992:105-114|Sudan+1990+Earthquake+Waveform||#*SUDAN90
J|0970|Bosworth,W.|Mesozoic and early Tertiary rift tectonics in East Africa||#TCT:209:1-4:1992:115-137|East African Rift+Tectonics+Reflexion study+Strain
J|0971|Kilembe,E.A.+Rosendahl,B.R.|Structure and stratigraphy of the Rukwa rift||#TCT:209:1-4:1992:143-158|Rift+Tanzania+Structure+Reflexion study
J|0972|Chapola,L.S.+Kaphwiyo,C.E.|The Malawi rift: geology, tectonics and seismicity||#TCT:209:1-4:1992:159-164|Malawi+Rift+Tectonics+Seismicity|Extended abstract
J|0973|Gupta,H.K.|The Malawi earthquake of March 10, 1989: a report of the macroseismic survey||#TCT:209:1-4:1992:165-166|Malawi+Earthquake+1989+Macroseismic data|Extended abstract|#*MALAWI89
J|0974|Dlala,M.|Seismotectonic study in northern Tunisia||#TCT:209:1-4:1992:171-174|Seismotectonics+Tunisia|Extended abstract
J|0975|Chihi,L.|Seismotectonic study in central and southern Tunisia||#TCT:209:1-4:1992:175-178|Seismotectonics+Tunisia|Extended abstract
J|0976|Hadiouche,O.+Zurn,W.|On the structure of the crust and upper mantle beneath the Afro-Arabian region from surface wave dispersion||#TCT:209:1-4:1992:179-196|Africa+Arabia+Structure+Surface wave+Dispersion
J|0977|Achauer,U.|A study of the Kenya rift using delay-time tomography analysis and gravity modelling||#TCT:209:1-4:1992:197-207|Kenya+Rift+KRISP+Tomography
J|0978|Khan,M.A.+Maguire,P.K.H.+Swain,C.J.|Geophysical models of the Kenya rift||#TCT:209:1-4:1992:209-211|Model+Kenya+Rift+Seismic survey|Extended abstract
J|0979|Tanaka,S.+Hamaguchi,H.|Heterogeneity in the lower mantle beneath Africa, as revealed from S and ScS phases||#TCT:209:1-4:1992:213-222|Africa+Mantle+S-wave+ScS-wave
J|0980|Fourno,J.P.+Roussel,J.|Seismicity of central Madagascar and the imaging of the Moho depth||#TCT:209:1-4:1992:223-225|Madagascar+Seismicity+Imaging+Mohorovicic discontinuity|Extended abstract
J|0981|Hamaguchi,H.+Nishimura,T.+Zana,N.|Process of the 1977 Nyiragongo eruption inferred from the analysis of long-period earthquakes and volcanic tremors||#TCT:209:1-4:1992:241-254|Eruption+1977+East African Rift+Tremor
J|0982|Zana,N.+Tanaka,K.+Kasahara,A.M.|Main geophysical features related to the Virunga zone, Western rift, and their volcanological implications||#TCT:209:1-4:1992:255-257|East African Rift+Volcanism+Seismicity|Extended abstract
J|0983|Wafula,M.+Zana,N.+Mavonga,T.+|Recent seismicity of the Virunga volcanic zone, Western rift, Zaire||#TCT:209:1-4:1992:259-260|Seismicity+Rift+Zaire+Volcanism|Extended abstract
J|0984|Lukaya,N.+Ciraba,M.+Mavonga,T.+|Main pattern of waveforms observed in the Virunga volcanic zone, Western rift valley of Africa||#TCT:209:1-4:1992:261-265|Waveform+East African Rift+Volcanism+Tremor|Extended abstract
J|0985|Ambraseys,N.N.+Adams,R.D.|Reappraisal of major African earthquakes, south of 20degreesN, 1900-1930||#TCT:209:1-4:1992:293-296|Major earthquake+Africa+1900-1930|Extended abstract
J|0986|Asfaw,L.M.|Seismic risk at a site in the East African rift system||#TCT:209:1-4:1992:301-309|Seismic risk+East African Rift+Seismicity+Tectonics
J|0987|Mantyniemi,P.+Kijko,A.|Seismic hazard in East Africa: an example of the application of incomplete and uncertain data||#TCT:209:1-4:1992:311-312|Hazard+East Africa+Seismicity+Maximum likelihood|Extended abstract
J|0988|Iranga,M.D.|Seismicity of Tanzania: distribution in time, space, magnitude, and strain release||#TCT:209:1-4:1992:313-320|Seismicity+Tanzania+Distribution+Strain
J|0989|Zana,N.+Kavotha,K.+Wafula,M.|Estimation of earthquake risk in Zaire||#TCT:209:1-4:1992:321-323|Seismic risk+Zaire+Seismicity+Magnitude|Extended abstract
J|0990|Xiu,J.|A review of seismic monitoring and earthquake prediction in China||#TCT:209:1-4:1992:325-329|Monitoring+Prediction+China
J|0991|Hu,P.+Hu,Y.|Advances in reservoir-induced seismicity research in China||#TCT:209:1-4:1992:331-337|China+Reservoir+Induced seismicity
J|0992|Johnston,J.E.+Christensen,N.I.|Shear wave reflectivity, anisotropies, Poisson's ratios, and densities of a southern Appalachian Paleozoic sedimentary sequence||#TCT:210:1-2:1992:1-20|Appalachians+Sedimentary rock+Shear wave splitting+Anisotropy
J|0993|Stagg,H.M.J.+Willcox,J.B.|A case for Australia-Antarctica separation in the Neocomian (ca. 125 Ma)||#TCT:210:1-2:1992:21-32|Australia+Marine seismic investigation+Antarctica+Separation
J|0994|Huang,B-S.+Yeh,Y.T.|Source geometry and slip distribution of the April 21, 1935 Hsinchu-Taichung, Taiwan earthquake||#TCT:210:1-2:1992:77-90|Earthquake+1935+Taiwan+Source parameter
J|0995|Koch,M.|Bootstrap inversion for vertical and lateral variations of the S wave structure and the vp/vs-ratio from shallow earthquakes in the Rhinegraben seismic zone, Germany||#TCT:210:1-2:1992:91-115|Rhine-Graben+S-wave+Statistical method+Shallow earthquake
J|0996|Ghisetti,F.|Fault parameters in the Messina Strait (southern Italy) and relations with the seismogenic source||#TCT:210:1-2:1992:117-133|Messina, Straits of+Seismogenesis+Fault+Parameters
J|0997|Jackson,P.+Sanderson,D.J.|Scaling of fault displacements from the Badajoz-Cordoba shear zone, SW Spain||#TCT:210:3-4:1992:179-190|Fault+Displacement+Spain+Shear zone
J|0998|Aksu,A.E.+Calon,T.J.+Piper,D.J.W.+|Architecture of late orogenic Quaternary basins in northeastern Mediterranean Sea||#TCT:210:3-4:1992:191-213|Mediterranean+Reflexion study+Basin+Orogeny
J|0999|Jung,W-Y.+Vogt,P.R.|Predicting bathymetry from Geosat-ERM and shipborne profiles in the South Atlantic Ocean||#TCT:210:3-4:1992:235-253|South Atlantic Ocean+Bathymetry+Profile+Geophysical investigation
J|1000|Gol'mshtok,A.Ya.+Zonenshain,L.P.+Terekhov,A.A.+|Age, thermal evolution and history of the Black Sea Basin based on heat flow and multichannel reflection data||#TCT:210:3-4:1992:273-293|Black Sea+Reflexion data+Oceanic basin+Heat flow
J|1001|Latoussakis,J.+Stavrakakis,G.N.|Times of increased probability of earthquakes of ML >= 5.5 in Greece diagnosed by algorithm M8||#TCT:210:3-4:1992:315-326|Greece+Probability+Algorithm+Intermediate-term
J|1002|Aki,K.|Higher-order interrelations between seismogenic structures and earthquake processes||#TCT:211:1-4:1992:1-12|Seismic process+Asperity+California+Fault zone||#*LOMAPRIETA89
J|1003|Umeda,Y.|The bright spot of an earthquake||#TCT:211:1-4:1992:13-22|Bright spot+Large earthquake+Seismogram+Rupture||#*LUZON90A|#*LOMAPRIETA89|#*NAGANO
J|1004|Dmowska,R.+Lovison,L.C.|Influence of asperities along subduction interfaces on the stressing and seismicity of adjacent areas||#TCT:211:1-4:1992:23-43|Asperity+Subduction zone+Seismicity+Stress+ISC||#*SANANTONIO
J|1005|Yoshida,S.|Waveform inversion for rupture process using a non-flat seafloor model: application to 1986 Andreanof Islands and 1985 Chile earthquakes||#TCT:211:1-4:1992:45-49|Inversion+1986+1985+Earthquake+Sea floor||#*SANANTONIO|#*ANDREANOF
J|1006|Ruff,L.J.|Asperity distributions and large earthquake occurrence in subduction zones||#TCT:211:1-4:1992:61-83|Asperity+Large earthquake+Subduction zone+Sequence
J|1007|Gusev,A.A.|On relations between earthquake population and asperity population on a fault||#TCT:211:1-4:1992:85-98|Asperity+Short-period wave+Fault+Amplitude
J|1008|Spudich,P.K.P.|On the inference of absolute stress levels from seismic radiation||#TCT:211:1-4:1992:99-106|Radiation+Stress+Kinematics+Fault||#*PALMSPRINGS|#*WHITTIER|#*LOMAPRIETA89|#*IMPERIAL
J|1009|Kikuchi,M.|Strain drop and apparent strain for large earthquakes||#TCT:211:1-4:1992:107-113|Large earthquake+Strain+Energy+Moment||#*MEXICOCITY|#*SEAOFJAPAN|#*IZUOSHIMA|#*INDONESIAN
J|1010|Dieterich,J.H.|Earthquake nucleation on faults with rate- and state-dependent strength||#TCT:211:1-4:1992:115-134|Nucleation+Fault+Slip+Friction
J|1011|Matsu'ura,M.+Kataoka,H.+Shibazaki,B.|Slip-dependent friction law and nucleation processes in earthquake rupture||#TCT:211:1-4:1992:135-148|Slip+Friction+Nucleation+Rupture
J|1012|Ohnaka,M.|Earthquake source nucleation: a physical model for short-term precursors||#TCT:211:1-4:1992:149-178|Nucleation+Precursor+Model+Rupture||#*IZUOSHIMA|#*LOMAPRIETA89
J|1013|Yamashita,T.+Ohnaka,M.|Precursory surface deformation expected from a strike-slip fault model into which rheological properties of the lithosphere are incorporated||#TCT:211:1-4:1992:179-199|Precursor+Surface deformation+Strike-slip+San Andreas Fault
J|1014|Mikumo,T.|Dynamic fault rupture and stress recovery processes in continental crust under depth-dependent shear strength and frictional parameters||#TCT:211:1-4:1992:201-222|Continental crust+Seismodynamics+Depth+Rupture
J|1015|Miyatake,T.|Numerical simulation of three-dimensional faulting processes with heterogeneous rate- and state-dependent friction||#TCT:211:1-4:1992:223-232|Faulting+Simulation+Friction+Seismic process
J|1016|Main,I.G.|Temporal variations in seismic event rate and b-values from stress corrosion constitutive laws||#TCT:211:1-4:1992:233-246|Event rate+b-Value+Temporal variation+Stress
J|1017|Yukutake,H.|Fracture nucleation process in intact rocks||#TCT:211:1-4:1992:247-257|Nucleation+Microcrack+Fracturing+Velocity
J|1018|Shimada,M.|Confirmation of two types of fracture in granite deformed at temperatures to 300degreesC||#TCT:211:1-4:1992:259-268|Fracture+Acoustic emission+Granite+Pressure+Temperature
J|1019|Kato,N.+Yamamoto,K.+Yamamoto,H.+|Strain-rate effect on frictional strength and the slip nucleation process||#TCT:211:1-4:1992:269-282|Nucleation+Strain+Friction+Slip
J|1020|Sibson,R.H.|Implications of fault-valve behaviour for rupture nucleation and recurrence||#TCT:211:1-4:1992:283-293|Recurrence+Rupture+Nucleation+Fluid pressure
J|1021|Byerlee,J.D.|The change in orientation of subsidiary shears near faults containing pore fluid under high pressure||#TCT:211:1-4:1992:295-303|Pore fluid+High pressure+Orientation+San Andreas Fault
J|1022|Moore,D.E.+Byerlee,J.D.|Relationships between sliding behavior and internal geometry of laboratory fault zones and some creeping and locked strike-slip faults of California||#TCT:211:1-4:1992:305-316|California+Sliding+Creep+Strike-slip
J|1023|Kumpel,H-J.|About the potential of wells to reflect stress variations within inhomogeneous crust||#TCT:211:1-4:1992:317-336|Well+Stress+Inhomogeneous medium+Pore pressure
J|1024|Enomoto,Y.+Hashimoto,H.|Transient electrical activity accompanying rock under indentation loading||#TCT:211:1-4:1992:337-344|Loading+Rock+Geoelectricity+Fracturing
J|1025|Gwavava,O.+Swain,C.J.+Podmore,F.+|Evidence of crustal thinning beneath the Limpopo Belt and Lebombo monocline of southern Africa based on regional gravity studies and implications for the reconstruction of Gondwana||#TCT:212:1-2:1992:1-20|Crustal thickness+Southern Africa+Gondwana+Gravity
J|1026|Qureshy,M.N.+Iqbaluddin|A review of the physical constraints in modelling the Gondwana crust in India||#TCT:212:1-2:1992:141-151|India+Gondwana+Geophysical data+Crust
J|1027|Mishra,D.C.|Mid-continent gravity "high" of central India and the Gondwana tectonics||#TCT:212:1-2:1992:153-161|India+Gravity+Gondwana+Profile
J|1028|Atchuta Rao,D.+Ram Babu,H.V.+Sivakumar Sinha,G.D.J.|Crustal structure associated with Gondwana graben across the Narmada-Son lineament in India: an inference from aeromagnetics||#TCT:212:1-2:1992:163-172|Crustal structure+Gondwana+Aeromagnetic study+Narmada-Son lineament
J|1029|Miletto,M.+Polino,R.|A gravity model of the crust beneath the Tertiary Piemonte basin (northwestern Italy)||#TCT:212:3-4:1992:243-256|Crust+Gravity modelling+Italy+Seismic survey
J|1030|Nyblade,A.A.+Pollack,H.N.|A gravity model for the lithosphere in western Kenya and northeastern Tanzania||#TCT:212:3-4:1992:257-267|Lithosphere+Gravity modelling+Kenya+Tanzania
J|1031|Mjelde,R.+Sellevoll,M.A.+Shimamura,H.+|A crustal study off Lofoten, N. Norway, by use of 3-component ocean bottom seismographs||#TCT:212:3-4:1992:269-288|Ocean-bottom seismograph+Norway+Crustal structure+Refraction study+Reflexion study
J|1032|Zhao,D-P.+Horiuchi,S.+Hasegawa,A.|Seismic velocity structure of the crust beneath the Japan Islands||#TCT:212:3-4:1992:289-301|Velocity structure+Japan+Crust+Depth
J|1033|Tabod,C.T.+Fairhead,J.D.+Stuart,G.W.+|Seismicity of the Cameroon Volcanic Line, 1982-1990||#TCT:212:3-4:1992:303-320|Seismicity+Cameroon, Mt.+1982-1990+Eruption+ISC||#*CAMEROUN87
J|1034|Peacock,S.|Review of `Scattering and attenuation of seismic waves, part III' edited by R-S. Wu and K. Aki||#TCT:212:3-4:1992:383-384|Review+Scattering+Attenuation+Seismic waves
J|1035|Hinze,W.J.+Allen,D.J.+Fox,A.J.+|Geophysical investigations and crustal structure of the North American midcontinent rift system||#TCT:213:1-2:1992:17-32|Mid-continent rift+North America+Crustal structure+Geophysical investigation
J|1036|Cannon,W.F.|The midcontinent rift in the Lake Superior region with emphasis on its geodynamic evolution||#TCT:213:1-2:1992:41-48|Mid-continent rift+Lake Superior+Evolution+Geodynamics
J|1037|Jones,C.H.+Wernicke,B.P.+Farmer,G.L.+|Variations across and along a major continental rift: an interdisciplinary study of the Basin and Range Province, western USA||#TCT:213:1-2:1992:57-96|Western United States+Basin & Range+Continental rift+Geophysical investigation
J|1038|Chang,H.K.+Kowsmann,R.O.+Figueiredo,A.M.F.+|Tectonics and stratigraphy of the East Brazil Rift system: an overview||#TCT:213:1-2:1992:97-138|Tectonics+Stratigraphy+Brazil+Rift
J|1039|Fairhead,J.D.|The west and central African rift systems||#TCT:213:1-2:1992:139-140|Africa+Continental rift+Imaging+Tectonics
J|1040|Binks,R.M.+Fairhead,J.D.|A plate tectonic setting for Mesozoic rifts of west and central Africa||#TCT:213:1-2:1992:141-151|Africa+Rift+Plate tectonics+Mesozoic
J|1041|Genik,G.J.|Regional framework, structural and petroleum aspects of rift basins in Niger, Chad and the Central African Republic (C.A.R.)||#TCT:213:1-2:1992:169-185|Africa+Rift+Structure+Petroleum
J|1042|McHargue,T.R.+Heidrick,T.L.+Livingston,J.E.|Tectonostratigraphic development of the Interior Sudan rifts, central Africa||#TCT:213:1-2:1992:187-202|Africa+Rift+Stratigraphy+Tectonics
J|1043|Rosendahl,B.R.+Kilembe,E.A.+Kaczmarick,K.|Comparison of the Tanganyika, Malawi, Rukwa and Turkana Rift zones from analyses of seismic reflection data||#TCT:213:1-2:1992:235-256|East African Rift+Reflexion data+Geodynamics+Magmatism
J|1044|Achauer,U.+Maguire,P.K.H.+Mechie,J.+|Some remarks on the structure and geodynamics of the Kenya Rift||#TCT:213:1-2:1992:257-268|Geodynamics+Kenya+East African Rift+KRISP
J|1045|Mohr,P.|Nature of the crust beneath magmatically active continental rifts||#TCT:213:1-2:1992:269-284|Crust+Continental rift+Magmatism+Geophysics
J|1046|Areshidze,G.+Bella,F.+Biagi,P.F.+|No preseismic evidence from hydrogeochemical parameters on the occasion of the April 29, 1991, Georgian earthquake, Caucasus||#TCT:213:3-4:1992:353-358|Water level+Earthquake+1991+Caucasus||#*WCAUCASUS91
J|1047|Chadha,R.K.|Geological contacts, thermal springs and earthquakes in peninsular India||#TCT:213:3-4:1992:367-374|India+Thermal spring+Seismicity+Seismogeology
J|1048|Leven,J.H.+Stuart-Smith,P.G.+Musgrave,R.J.+|A geophysical transect across the Tumut synclinorial zone, N.S.W.||#TCT:214:1-4:1992:239-248|New South Wales+Transect+Geophysical investigation+Reflexion study
J|1049|Gray,D.R.+Cull,J.P.|Thermal regimes, anatexis, and orogenesis: relations in the western Lachlan fold belt, southeastern Australia||#TCT:214:1-4:1992:441-461|Australia+Thermal model+Crust+Orogeny
J|1050|Pararas-Carayannis,G.|The tsunami generated from the eruption of the volcano of Santorin in the Bronze Age||#NHZ:5:2:1992:115-123|Palaeoearthquake+Tsunami+Eruption+Mediterranean
J|1051|Khan,M.A.|Earthquake hazard assessment from the recent space and surface measurements of the Earth's gravity field||#NHZ:5:2:1992:125-132|Hazard+Gravity
J|1052|Antonopoulos,J.|The great Minoan eruption of Thera volcano and the ensuing tsunami in the Greek Archipelago||#NHZ:5:2:1992:153-168|Tsunami+Mediterranean+Eruption+Earthquake
J|1053|Gasparini,C.+De Rubeis,V.+Tertulliani,A.|A method for the analysis of macroseismic questionnaires||#NHZ:5:2:1992:169-177|Macroseismic data+Intensity+MCS-Scale
J|1054|Ng,M.+Le Blond,P.H.+Murty,T.S.|Tsunami threat to the Pacific coast of Canada due to local earthquakes||#NHZ:5:2:1992:205-210|Tsunami+Local earthquake+Cascadia subduction zone+Coast|Research note
A|1055|e*Roca,A.+Mayer-Rosa,D.|Proceedings and activity report 1988-1990||1992:Barcelona:Servei Geologic de Catalunya|Seismology+Europe+Proceedings+Seismicity|959p. Two volumes. Proceedings of the XXII General Assembly of the European Seismological Commission held in Barcelona, September 1990|#*VRANCEA86|#*VRANCEA90|#*ICELAND87|#*ARMENIA88
A|1056|e*Hirosawa,M.|Earthquake disaster reduction handbook||1992:Tsukuba, Japan:Building Research Institute|Handbook+Earthquake catalogue+Building code+Prediction|304p
A|1057||Earthquake disaster reduction technology||1992:Tsukuba, Japan:Building Research Institute|Proceedings+Mitigation+Disaster+Earthquake engineering|512p. Supplement 67p. Proceedings of the IDNDR Symposium held in Tsukuba, December 1992
A|1057||Earthquake disaster reduction technology||1992:Tsukuba, Japan:Building Research Institute|Proceedings+Mitigation+Disaster+Earthquake engineering|512p. Supplement 67p. Proceedings of the IDNDR Symposium held in Tsukuba, December 1992