V|1994:1||Bibliography of seismology. 1994 January-June|ISC:30:1:1995
J|0001|Macilwain,C.|Seismologists say Los Angeles quake sets `ominous pattern'||#NAT:367:6460:1994:211|Los Angeles+Earthquake+1994+Pattern|News|#*NORTHRIDGE94
J|0002|Anderson,D.L.|Lithosphere and flood basalts||#NAT:367:6460:1994:226|Continental lithosphere+Basalt+Shear velocity+Rock mechanics|Scientific correspondence
J|0003|Sauber,J.+Thatcher,W.+Solomon,S.C.+|Geodetic slip rate for the eastern California shear zone and the recurrence time of Mojave desert earthquakes||#NAT:367:6460:1994:264-266|Mojave Desert+Geodetic measurement+Shear zone+Recurrence||#*LANDERS92
J|0004|Baumberger,T.+Heslot,F.+Perrin,B.|Crossover from creep to inertial motion in friction dynamics||#NAT:367:6463:1994:544-545|Friction+Stick-slip+Dynamics+Creep
J|0005|Dobran,F.+Neri,A.+Todesco,M.|Assessing the pyroclastic flow hazard at Vesuvius||#NAT:367:6463:1994:551-554|Eruption+Volcano+Vesuvius+Volcanic tremor
J|0006|Satake,K.|Study of recent tsunamis sheds light on earthquakes||#EOS:75:1:1994:3|Tsunami+Run-up+Historical earthquake||#*NICARAGUA92|#*SEAOFJAPAN93|#*FLORES92
J|0007|Wuethrich,B.|California quake assessed||#EOS:75:4:1994:41|Los Angeles+Earthquake+1994+Faulting||#*NORTHRIDGE94
J|0008|Mestel,R.|`Harmless' fault strikes while Los Angeles sleeps||#NSC:-:1909:1994:6|Los Angeles+Earthquake+1994+Thrust fault|This week|#*NORTHRIDGE94
J|0009|Hecht,J.|The giant crystal at the heart of the Earth||#NSC:-:1909:1994:17|Inner core+Anisotropy+Seismic waves+Free oscillation
J|0010|Mestel,R.|Shaken Californians hunt for quake trouble spots||#NSC:-:1910:1994:4-5|Ground motion+Los Angeles+Earthquake+1994|This week|#*NORTHRIDGE94
J|0011|Davidson,K.|Waiting for the big one||#NSC:-:1918:1994:24-28|Southern California+Prediction+Earthquake+Thrust fault||#*NORTHRIDGE94|#*WHITTIER|#*COALINGA
J|0012|Wuethrich,B.|Move over, San Andreas||#NSC:-:1918:1994:29-33|Southern California+Plate tectonics+Palaeoseismogeology+Fault||#*LANDERS92
J|0013|Stiros,S.C.|Anomalous attenuation of seismic waves in the Ionian Islands, Greece||#EOS:75:10:1994:117-118|Ionian Islands+Attenuation+Anomaly+Seismogeology
J|0014|Frohlich,C.|A break in the deep||#NAT:368:6467:1994:100-101|Deep-focus earthquake+Intermediate-depth earthquake+Mechanism+Subduction zone|News and views
J|0015|Lincoln,T.|Fire, brimstone and seismicity||#NAT:368:6467:1994:102|Eruption+1993+Colombia+Seismicity|News and views
J|0016|Fischer,T.P.+Morrissey,M.M.+Calvache V.,M.L.+|Correlations between SO2 flux and long-period seismicity at Galeras volcano||#NAT:368:6467:1994:135-137|Seismicity+Volcanic tremor+Colombia+Eruption+1993
J|0017|Hickman,S.+Zoback,M.D.+Younker,L.+|Deep scientific drilling in the San Andreas fault zone||#EOS:75:12:1994:137-142|San Andreas Fault+Drilling+Deep crust+Plate boundary
J|0018|Seeber,L.|Killari: the quake that shook the world||#NSC:-:1919:1994:25-29|Intraplate earthquake+Rupture+India+1993||#*LATUR93
J|0019|Hecht,J.|Killer quake that never was||#NSC:-:1921:1994:7|Historical earthquake+1737+Casualties+Calcutta|This week
J|0020|Vidale,J.E.+Ellsworth,W.L.+Cole,A.+|Variations in rupture process with recurrence interval in a repeated small earthquake||#NAT:368:6472:1994:624-626|Small earthquake+Recurrence+Rupture+Northern California
J|0021|Anders,M.H.|Constraints on North American plate velocity from the Yellowstone hotspot deformation field||#NAT:369:6475:1994:53-55|Yellowstone+Hot spot+Plate motion+Historical seismicity
J|0022|Rundle,J.B.+Klein,W.+Turcotte,D.L.|Workshop held on natural disasters||#EOS:75:13:1994:148|Workshop+Natural disaster+Prediction+Statistics|News
J|0023|Montagner,J-P.+Romanowicz,B.+Karczewski,J-F.|A first step toward an oceanic geophysical observatory||#EOS:75:13:1994:150-151|Ocean-bottom seismometer+Seismic noise+Broadband seismology+Detection
J|0024|Van der Hilst,R.D.+Kennett,B.L.N.+Christie,D.+|Project Skippy explores the lithosphere and mantle beneath Australia||#EOS:75:15:1994:177-181|Australia+Lithosphere+Mantle+Portable station||#*SEAOFJAPAN93
J|0025|Richardson,M.D.|Investigating the coastal benthic boundary layer||#EOS:75:17:1994:201-206|Sediment+Acoustics+Reflexion study+Baltic Sea
J|0026|Massonnet,D.+Feigl,K.L.+Rossi,M.+|Radar interferometric mapping of deformation in the year after the Landers earthquake||#NAT:369:6477:1994:227-230|California+1992+Deformation+Interferometry||#*LANDERS92
J|0027|Patel,T.|Tremors shake confidence in nuclear complex||#NSC:-:1926:1994:10|Nuclear power plant+France+Seismic risk+Tremor
J|0028||Catastrophes take their toll on a crowded world||#NSC:-:1927:1994:8|Natural disaster+Casualties+Damage+Earthquake
J|0029|a-Leg 150 Shipboard Scientific Party|Sea-level and slope processes reflected off New Jersey||#EOS:75:18:1994:212-214|Seismostratigraphy+Drilling+New Jersey+Reflexion study
J|0030|Benz,H.M.+Vidale,J.E.+Mori,J.|Using regional seismic networks to study the Earth's deep interior||#EOS:75:20:1994:225-229|United States+Regional array+Seismic record+Broadband seismology||#*PERUBRAZIL90|#*ANDREANOF92A|#*LOPNOR92
J|0031|Robertson,A.H.F.+Kidd,R.B.+Ivanov,M.K.+|Probing continental collision in the Mediterranean Sea||#EOS:75:21:1994:233-239|Mediterranean+Tectonics+Seamount+Profile
J|0032|Ellsworth,W.L.|Seismologists meet "Down Under"||#EOS:75:21:1994:234-235|IASPEI+Casualties+Earthquake+Hazard||#*NORTHRIDGE94|#*LATUR93
J|0033|Revenaugh,J.+Sipkin,S.A.|Seismic evidence for silicate melt atop the 410-km mantle discontinuity||#NAT:369:6480:1994:474-476|410km discontinuity+Melt+ScS-wave+China
J|0034|Rao,P.G.|Calcutta quake||#NSC:-:1929:1994:51|Historical earthquake+1737+Calcutta+Casualties|Letter
J|0035|Blewitt,G.+Bock,Y.|Seeing California move with global positioning satellites||#EOS:75:22:1994:251|California+Plate motion+Global Positioning System+Rupture||#*LANDERS92|#*BIGBEAR92
J|0036|Romanowicz,B.+Neuhauser,D.+Bogaert,B.+|Accessing Northern California earthquake data via Internet||#EOS:75:23:1994:257-260|Northern California+Earthquake catalogue+Fault plane solution+Network
J|0037|Stump,B.W.+Riviere-Barbier,F.+Chernoby,I.+|Monitoring a test ban treaty presents scientific challenges||#EOS:75:24:1994:265-273|Test ban+Monitoring+Explosion+Discrimination
J|0038|Dixon,T.|SAR interferometry and surface change detection: workshop held||#EOS:75:24:1994:269-270|Interferometry+Workshop+Surface deformation+Radar
J|0039|Kirby,S.|Bolivian earthquake ranks as largest deep quake on record||#EOS:75:26:1994:289|Bolivia+Deep-focus earthquake+1994+Aseismic region||#*BOLIVIA94
J|0040|Holzer,T.L.|Loma Prieta damage largely attributed to enhanced ground shaking||#EOS:75:26:1994:299-301|Loma Prieta+Shaking+1989+Earthquake||#*LOMAPRIETA89
J|0041|Ellis,R.G.+Oldenburg,D.W.|Applied geophysical inversion||#GJI:116:1:1994:5-11|Inversion+Tomography+Mathematical method
J|0042|Klaeschen,D.+Rabbel,W.+Flueh,E.R.|An automated ray method for diffraction modelling in complex media||#GJI:116:1:1994:23-38|Diffraction+Edge wave+Ray tracing+Synthetic seismogram
J|0043|Donze,F.+Mora,P.+Magnier,S-A.|Numerical simulation of faults and shear zones||#GJI:116:1:1994:46-52|Fault+Fracture+Rock mechanics+Shear zone
J|0044|Maeland,E.|On the evaluation of explicit 2-D extrapolation operators||#GJI:116:1:1994:85-94|Wave field+Migration+Chebyshev method+Fourier transform
J|0045|Benites,R.+Aki,K.|Ground motion at mountains and sedimentary basins with vertical seismic velocity gradient||#GJI:116:1:1994:95-118|Ground motion+Heterogeneity+Sedimentary basin+Topography
J|0046|Yomogida,K.|Detection of anomalous seismic phases by the wavelet transform||#GJI:116:1:1994:119-130|Ground motion+Phase+Mexico+1985||#*MEXICOCITY
J|0047|Eneva,M.+Habermann,R.E.+Hamburger,M.W.|Artificial and natural changes in the rates of seismic activity: a case study of the Garm region, Tadjikistan (CIS)||#GJI:116:1:1994:157-172|Seismicity+Garm+Rate+Earthquake catalogue
J|0048|Karakaisis,G.F.|Long-term earthquake prediction along the north and east Anatolian fault zones based on the time- and magnitude-predictable model||#GJI:116:1:1994:198-204|Prediction+Faulting+Turkey+Anatolia+ISC
J|0049|Ritzwoller,M.H.+Lavely,E.M.|Long-period surface waves and mantle boundary undulations||#GJI:116:1:1994:205-216|Free oscillation+Surface wave+Synthetic seismogram+Mantle
J|0050|Henderson,J.R.+Main,I.G.+Pearce,R.G.+|Seismicity in north-eastern Brazil: fractal clustering and the evolution of the b value||#GJI:116:1:1994:217-226|Seismicity+Brazil+b-Value+Fractal dimension
J|0051|Gilbert,F.|Splitting of the free-oscillation multiplets by steady flow||#GJI:116:1:1994:227-229|Free oscillation+Splitting+Multiplet|Research note
J|0052|Gresta,S.+Marzocchi,W.+Mulargia,F.|Is there a correlation between larger local earthquakes and the end of eruptions at Mount Etna volcano, Sicily?||#GJI:116:1:1994:230-232|Local earthquake+Eruption+Mount Etna+Volcanism|Research note
J|0053|Pearce,R.G.|Review of `Fractals and chaos in geology and geophysics' by D. L. Turcotte||#GJI:116:1:1994:237-238|Fractal+Chaos+Geophysics+Review|Cambridge University Press, 1993, 221p
J|0054|Hudson,J.A.|Overall properties of anisotropic materials containing cracks||#GJI:116:2:1994:279-282|Anisotropy+Crack+Smoothing+Fracture
J|0055|Araujo,M.+Suarez,G.|Geometry and state of stress of the subducted Nazca plate beneath central Chile and Argentina: evidence from teleseismic data||#GJI:116:2:1994:283-303|Mechanism+Nazca Plate+Stress+Subduction
J|0056|Belardinelli,M.E.+Bonafede,M.|Rheology heterogeneities on fault surfaces inferred from the time history of afterslip events||#GJI:116:2:1994:349-365|Creep+Fault+Fracture+Slip
J|0057|Arvidsson,R.+Kulhanek,O.|Seismodynamics of Sweden deduced from earthquake focal mechanisms||#GJI:116:2:1994:377-392|Earthquake+Depth+Seismotectonics+Sweden
J|0058|Faber,S.+Bonjer,K-P.+Brustle,W.+|Seismicity and structural complexity of the Dinkelberg block, southern Rhine Graben||#GJI:116:2:1994:393-408|Depth+Seismicity+Rhine-Graben+Upper crust
J|0059|Geller,R.J.+Ohminato,T.|Computation of synthetic seismograms and their partial derivatives for heterogeneous media with arbitrary natural boundary conditions using the direct solution method||#GJI:116:2:1994:421-446|Synthetic seismogram+Partial derivative+Linear equation+Inversion
J|0060|Mitchell,B.J.+Xie,J-K.|Attenuation of multiphase surface waves in the Basin and Range province - III. Inversion for crustal anelasticity||#GJI:116:2:1994:468-484|Attenuation+Inversion+Surface wave+Basin & Range
J|0061|Gitterman,Y.+Shapira,A.|Spectral characteristics of seismic events off the coast of the Levant||#GJI:116:2:1994:485-497|Levant+Discrimination+Spectral characteristics+Underwater explosion|Research note
J|0062|Chapman,C.H.|Reflection/transmission coefficient reciprocities in anisotropic media||#GJI:116:2:1994:498-501|Anisotropy+Reciprocity+Reflexion coefficient+Transmission coefficient|Research note
J|0063|Brown,M.G.|A Maslov-Chapman wavefield representation for wide-angle one-way propagation||#GJI:116:3:1994:513-526|Propagation+Ray theory+Wave field+Maslov asymptotic theory
J|0064|Stump,B.W.+Reinke,R.E.+Olsen,K.H.+|Isotropic and deviatoric characterization of the Coalora nuclear explosion in Yucca Flats||#GJI:116:3:1994:538-552|1983+Underground nuclear explosion+Nevada Test Site+Seismic moment tensor
J|0065|Comte,D.+Pardo,M.+Dorbath,L.+|Determination of seismogenic interplate contact zone and crustal seismicity around Antofagasta, northern Chile using local data||#GJI:116:3:1994:553-561|Chile+Microseismicity+Mechanism+Contact
J|0066|Hamdani,Y.+Mareschal,J-C.+Arkani-Hamed,J.|Phase change and thermal subsidence of the Williston basin||#GJI:116:3:1994:585-597|Williston Basin+Refraction study+Reflexion study+Subsidence
J|0067|Le,L.H.T.+Krebes,E.S.+Quiroga-Goode,G.E.|Synthetic seismograms for SH waves in anelastic transversely isotropic medium||#GJI:116:3:1994:598-604|Anelasticity+Ray tracing+Synthetic seismogram+Viscoelasticity
J|0068|Doser,D.I.|Contrasts between source parameters of M>=5.5 earthquakes in northern Baja California and southern California||#GJI:116:3:1994:605-617|Southern California+Baja California+Source parameter+Faulting
J|0069|Randall,G.E.+Owens,T.J.|Array analysis of the large-aperture array of the 1988-89 PASSCAL Basin and Range passive-source seismic experiment||#GJI:116:3:1994:618-636|Basin & Range+Array+P-wave+Coda
J|0070|Jestin,F.+Huchon,P.+Gaulier,J.M.|The Somalia plate and the east African rift system: present-day kinematics||#GJI:116:3:1994:637-654|Plate motion+Africa+Rift+Seismicity+ISC
J|0071|Braunmiller,J.+Dahm,T.+Bonjer,K-P.|Source mechanism of the 1992 Roermond earthquake from surface-wave inversion of regional data||#GJI:116:3:1994:663-672|Earthquake+1992+Netherlands+Mechanism||#*ROERMOND92
J|0072|Oncescu,M-C.+Camelbeeck,T.+Martin,H.|Source parameters for the Roermond aftershocks of 1992 April 13 - May 2 and site spectra for P and S waves at the Belgian seismic network||#GJI:116:3:1994:673-682|Earthquake+1992+Netherlands+Aftershock||#*ROERMOND92
J|0073|Klimes,L.+Kvasnicka,M.|3-D network ray tracing||#GJI:116:3:1994:726-738|Ray tracing+Travel-times+Path+Network
J|0074|Li,Y.D.+Rabbel,W.+Wang,R.|Investigation of permeable fracture zones by tube-wave analysis||#GJI:116:3:1994:739-753|Tube wave+Vertical seismic profiling+Fracture zone+Permeability
J|0075|Beaumont,C.+Quinlan,G.|A geodynamic framework for interpreting crustal-scale seismic reflectivity patterns in compressional orogens||#GJI:116:3:1994:754-783|Crust+Reflectivity+Subduction+Finite element method
J|0076|Mao,W.J.+Panza,G.F.+Suhadolc,P.|Linearized waveform inversion of local and near-regional events for source mechanism and rupturing processes||#GJI:116:3:1994:784-798|Waveform+Inversion+Local event+Source parameter
J|0077|Sayers,C.M.|P-wave propagation in weakly anisotropic media||#GJI:116:3:1994:799-805|Anisotropy+P-wave+Elastic wave+Propagation
J|0078|Privalovskiy,N.K.+Beresnev,I.A.|Seismic noise emission induced by seismic waves||#GJI:116:3:1994:806-812|Induced seismicity+Seismic noise+Vibration+Emission|Research note
J|0079|Rodgers,A.+Wahr,J.|The trade-off between volumetric and topographic structure for seismic traveltimes: 660km topography and mantle structure||#GJI:117:1:1994:19-32|660km discontinuity+Mantle+Tomography+Chebyshev method
J|0080|Zobin,V.M.+Ivanova,E.I.|Earthquake swarms in the Kamchatka-Commander region||#GJI:117:1:1994:33-47|Swarm+Kamchatka+Source+Energy
J|0081|Fujiwara,H.+Takenaka,H.|Calculation of surface waves for a thin basin structure using a direct boundary element method with normal modes||#GJI:117:1:1994:69-91|Surface wave+Propagation+Normal mode+Lateral heterogeneity
J|0082|Wang,Y.+Houseman,G.A.|Inversion of reflection seismic amplitude data for interface geometry||#GJI:117:1:1994:92-110|Amplitude+Inversion+Reflexion study+Tomography
J|0083|Ekstrom,G.+Richards,P.G.|Empirical measurements of tectonic moment release in nuclear explosions from teleseismic surface waves and body waves||#GJI:117:1:1994:120-140|Release+Shagan River Test Site+Underground nuclear explosion+Surface wave+Radiation pattern
J|0084|Tromp,J.|Surface-wave propagation on a rotating, anisotropic Earth||#GJI:117:1:1994:141-152|Anisotropy+Rotation+Surface wave+Propagation
J|0085|Tromp,J.|A coupled local-mode analysis of surface-wave propagation in a laterally heterogeneous waveguide||#GJI:117:1:1994:153-161|Surface wave+Propagation+Lateral heterogeneity+Wave guide
J|0086|Nolte,B.+Frazer,L.N.|Vertical seismic profile inversion with genetic algorithms||#GJI:117:1:1994:162-178|Inversion+Vertical seismic profiling+Genetic algorithm+Wave field
J|0087|Woods,M.T.+Okal,E.A.|The structure of the Nazca ridge and Sala y Gomez seamount chain from the dispersion of Rayleigh waves||#GJI:117:1:1994:205-222|Crustal structure+Rayleigh wave+Dispersion+Nazca Ridge
J|0088|Hearn,T.M.+Ni,J.F.|Pn velocities beneath continental collision zones: the Turkish-Iranian Plateau||#GJI:117:2:1994:273-283|Pn-wave+Collision+Turkey+Iran+ISC
J|0089|Lomax,A.J.|The wavelength-smoothing method for approximating broad-band wave propagation through complicated velocity structures||#GJI:117:2:1994:313-334|Broadband seismology+Body wave+Synthetic seismogram+Ray tracing
J|0090|Ordaz,M.+Singh,S.K.+Arciniega,A.|Bayesian attenuation regressions: an application to Mexico City||#GJI:117:2:1994:335-344|Bayesian method+Ground motion+Attenuation+Mexico City
J|0091|Kagan,Y.Y.|Incremental stress and earthquakes||#GJI:117:2:1994:345-364|Fracture+Moment tensor+Stress+Earthquake
J|0092|Resovsky,J.S.+Ritzwoller,M.H.|Characterizing long-period seismic effects of long-wavelength elastic and anelastic models||#GJI:117:2:1994:365-393|Synthetic seismogram+Ray theory+Q+Long-period wave
J|0093|Bernabe,Y.+Fryer,D.T.+Shively,R.M.|Experimental observations of the elastic and inelastic behaviour of porous sandstones||#GJI:117:2:1994:403-418|Elasticity+Fracture+Porosity+Sandstone
J|0094|Gurrola,H.+Minster,J.B.+Owens,T.J.|The use of velocity spectrum for stacking receiver functions and imaging upper mantle discontinuities||#GJI:117:2:1994:427-440|Velocity+Stacking+Obninsk+Upper mantle
J|0095|Ward,S.N.|Constraints on the seismotectonics of the central Mediterranean from very long baseline interferometry||#GJI:117:2:1994:441-452|Seismotectonics+Mediterranean+Interferometry+Plate motion
J|0096|Sato,H.|Multiple isotropic scattering model including P-S conversions for the seismogram envelope formation||#GJI:117:2:1994:487-494|P-wave+S-wave+Scattering+Coda
J|0097|Huang,L-J.+Mora,P.|The phononic lattice solid with fluids for modelling non-linear solid-fluid interactions||#GJI:117:2:1994:529-538|Lattice+Attenuation+Compressional wave+Interactive system
J|0098|Hudson,J.A.|Overall properties of a material with inclusions or cavities||#GJI:117:2:1994:555-561|Crack+Elastodynamics+Scattering+Cavity
J|0099|Levshin,A.L.+Ritzwoller,M.H.+Ratnikova,L.I.|The nature and cause of polarization anomalies of surface waves crossing northern and central Eurasia||#GJI:117:3:1994:577-590|Eurasia+Lateral heterogeneity+Surface wave+Synthetic seismogram
J|0100|Israelsson,H.|Analysis of historical seismograms - root mean square Lg magnitudes, yields and depths of explosions at the Semipalatinsk test range||#GJI:117:3:1994:591-609|Nuclear explosion+Semipalatinsk+Magnitude+Yield
J|0101|Comte,D.+Roecker,S.W.+Suarez,G.|Velocity structure in northern Chile: evidence of subducted oceanic crust in the Nazca Plate||#GJI:117:3:1994:625-639|Velocity structure+P-wave+Chile+Nazca Plate
J|0102|Ozalaybey,S.+Savage,M.K.|Double-layer anisotropy resolved from S phases||#GJI:117:3:1994:653-664|Anisotropy+SKS-wave+Splitting+San Andreas Fault
J|0103|Zhao,S.|Theory and parameter-optimization method for inversion of the tectonophysical model||#GJI:117:3:1994:665-676|Inversion+Tectonophysics+Rupture+T'ang-shan||#*TANGSHAN
J|0104|Tsapanos,T.M.+Galanopoulos,D.+Burton,P.W.|Seismicity in the Hellenic volcanic arc: relation between seismic parameters and the geophysical fields in the region||#GJI:117:3:1994:677-694|b-Value+Hellenic arc+Hazard+Seismicity
J|0105|Zielhuis,A.+Nolet,G.|Shear-wave velocity variations in the upper mantle beneath central Europe||#GJI:117:3:1994:695-715|Europe+Mantle+Shear wave+Waveform+ISC
J|0106|Hardt,M.+Scherbaum,F.|The design of optimum networks for aftershock recordings||#GJI:117:3:1994:716-726|Aftershock+Network+Recording+Netherlands||#*ROERMOND92
J|0107|Sato,H.|Formulation of the multiple non-isotropic scattering process in 2-D space on the basis of energy-transport theory||#GJI:117:3:1994:727-732|Coda+Scattering+Seismogram+Local earthquake
J|0108|Zhou,T.+Dravinski,M.|Resonance prediction of deep sediment valleys through an eigenvalue method||#GJI:117:3:1994:749-762|Elastic wave+Resonance+Sediment+Valley
J|0109|Schultz,C.A.+Toksoz,M.N.|Enhanced backscattering of seismic waves from a highly irregular, random interface: P-SV case||#GJI:117:3:1994:783-810|Scattering+P-wave+SV-wave+Mohorovicic discontinuity
J|0110|Stiros,S.C.+Pirazzoli,P.A.+Laborel,J.+|The 1953 earthquake in Cephalonia (western Hellenic arc): coastal uplift and halotectonic faulting||#GJI:117:3:1994:834-849|1953+Hellenic arc+Uplift+Faulting
J|0111|Evans,R.L.+Sinha,M.C.+Constable,S.C.+|On the electrical nature of the axial melt zone at 13degrees N on the East Pacific Rise||#JGR:99:1:1994:577-588|East Pacific Rise+Electromagnetism+Profile+Melt
J|0112|Dragert,H.+Hyndman,R.D.+Rogers,G.C.+|Current deformation and the width of the seismogenic zone of the northern Cascadia subduction thrust||#JGR:99:1:1994:653-668|Cascadia subduction zone+Deformation+Strain+Seismicity
J|0113|Velasco,A.A.+Ammon,C.J.+Lay,T.|Recent large earthquakes near Cape Mendocino and in the Gorda plate: broadband source time functions, fault orientations, and rupture complexities||#JGR:99:1:1994:711-728|Large earthquake+Cape Mendocino+Gorda Plate+Centroid-moment tensor
J|0114|Kostoglodov,V.+Ponce,L.|Relationship between subduction and seismicity in the Mexican part of the Middle America trench||#JGR:99:1:1994:729-742|ISC+Middle America Trench+Seismicity+Subduction+Earthquake catalogue
J|0115|Wang,J.+Teng,T-L.|Surface wave profiling of the lithosphere beneath the Mojave Desert using TERRAscope data||#JGR:99:1:1994:743-750|Surface wave+Profile+Lithosphere+Mojave Desert
J|0116|Wu,R-S.|Wide-angle elastic wave one-way propagation in heterogeneous media and an elastic wave complex-screen method||#JGR:99:1:1994:751-766|Elastic wave+Propagation+Heterogeneous medium+Born theory+Scattering
J|0117|Sayers,C.M.|The elastic anisotropy of shales||#JGR:99:1:1994:767-774|Shale+Sedimentary basin+Anisotropy+P-wave
J|0118|McCall,K.R.|Theoretical study of nonlinear elastic wave propagation||#JGR:99:2:1994:2591-2600|Elastic wave+Propagation+Isotropic medium+Theory
J|0119|Dieterich,J.H.|A constitutive law for rate of earthquake production and its application to earthquake clustering||#JGR:99:2:1994:2601-2618|Seismogenesis+Clustering+Stress+Aftershock
J|0120|Ponko,S.C.+Sanders,C.O.|Inversion for P and S wave attenuation structure, Long Valley caldera, California||#JGR:99:2:1994:2619-2635|P-wave+S-wave+Attenuation+Long Valley Caldera
J|0121|Goldstein,P.+Chouet,B.|Array measurements and modeling of sources of shallow volcanic tremor at Kilauea Volcano, Hawaii||#JGR:99:2:1994:2637-2652|Volcanic tremor+Array+Source+Kilauea
J|0122|Kanasewich,E.R.+Burianyk,M.J.A.+Ellis,R.M.+|Crustal velocity structure of the Omineca Belt, southeastern Canadian Cordillera||#JGR:99:2:1994:2653-2670|Lithoprobe+Crustal structure+Velocity+Canadian Cordillera
J|0123|Kuge,K.|Rapid rupture and complex faulting of the May 12, 1990, Sakhalin deep earthquake: analysis of regional and teleseismic broadband data||#JGR:99:2:1994:2671-2685|1990+Sakhalin+Deep earthquake+Rupture+Faulting||#*SAKHALIN90
J|0124|Sipkin,S.A.+Revenaugh,J.|Regional variation of attenuation and travel time in China from analysis of multiple-ScS phases||#JGR:99:2:1994:2687-2699|Attenuation+Travel-times+China+ScS-wave
J|0125|Fournier,M.+Jolivet,L.+Huchon,P.+|Neogene strike-slip faulting in Sakhalin and the Japan Sea opening||#JGR:99:2:1994:2701-2725|Faulting+Sakhalin+Japan Sea+Focal mechanism
J|0126|Pettinga,J.R.+Wise,D.U.|Paleostress adjacent to the Alpine fault: broader implications from fault analysis near Nelson, South Island, New Zealand||#JGR:99:2:1994:2727-2736|Stress+New Zealand+Fault
J|0127|Fernandez,J.+Rundle,J.B.|Gravity changes and deformation due to a magmatic intrusion in a two-layered crustal model||#JGR:99:2:1994:2737-2746|Gravity+Intrusion+Seismic survey+Canary Islands
J|0128|Zhao,Y.+Weidner,D.J.+Ko,J.+|Perovskite at high P-T conditions: an in situ synchrotron X ray diffraction study of NaMgF3 perovskite||#JGR:99:2:1994:2871-2885|Perovskite+Pressure+Temperature+Laboratory
J|0129|Eldholm,O.+Grue,K.|North Atlantic volcanic margins: dimensions and production rates||#JGR:99:2:1994:2955-2968|North Atlantic+Volcanism+Profile+Zonation
J|0130|Johnson,H.P.+Becker,K.|An introduction to the special section on oceanic crustal evolution||#JGR:99:2:1994:2969-2971|Oceanic crust+Evolution+Velocity+Marine seismic investigation
J|0131|Moos,D.+Marion,D.|Morphology of extrusive basalts and its relationship to seismic velocities in the shallow oceanic crust||#JGR:99:2:1994:2985-2994|Velocity+Oceanic crust+Basalt+Morphology
J|0132|Geli,L.+Renard,V.+Rommevaux,C.|Ocean crust formation processes at very slow spreading centres: a model for the Mohns Ridge, near 72degreesN, based on magnetic, gravity, and seismic data||#JGR:99:2:1994:2995-3013|Oceanic crust+Spreading centre+North Atlantic+Reflexion study
J|0133|Rommevaux,C.+Deplus,C.+Patriat,P.+|Three-dimensional gravity study of the Mid-Atlantic Ridge: evolution of the segmentation between 28degrees and 29degreesN during the last 10 m.y.||#JGR:99:2:1994:3015-3029|Mid-Atlantic Ridge+Gravity+Evolution+Reflexion study
J|0134|Vera,E.E.+Diebold,J.B.|Seismic imaging of oceanic layer 2A between 9degrees30'N and 10degreesN on the East Pacific Rise from two-ship wide-aperture profiles||#JGR:99:2:1994:3031-3041|East Pacific Rise+Imaging+Profile+Upper crust
J|0135|White,D.J.+Clowes,R.M.|Seismic attenuation structure beneath the Juan de Fuca Ridge from tomographic inversion of amplitudes||#JGR:99:2:1994:3043-3056|Attenuation+Juan de Fuca+Tomography+Refraction study
J|0136|Shaw,P.R.|Age variations of oceanic crust Poisson's ratio: inversion and a porosity evolution model||#JGR:99:2:1994:3057-3066|Oceanic crust+Poisson's ratio+Porosity+Velocity
J|0137|Johnson,H.P.+Semyan,S.W.|Age variation in the physical properties of oceanic basalts: implications for crustal formation and evolution||#JGR:99:2:1994:3123-3134|Oceanic crust+Basalt+Velocity+Evolution
J|0138|Carlson,R.L.+Jacobson,R.S.|Comment on `Upper crustal structure as a function of plate age' by R. Houtz and J. Ewing||#JGR:99:2:1994:3135-3138|Comments+Oceanic crust+Structure+Velocity
J|0139|Eittreim,S.L.+Gnibidenko,H.+Helsley,C.E.+|Oceanic crustal thickness and seismic character along a central Pacific transect||#JGR:99:2:1994:3139-3145|Oceanic crust+Pacific Ocean+Reflexion study+Thickness
J|0140|Agar,S.M.|Rheological evolution of the ocean crust: a microstructural view||#JGR:99:2:1994:3175-3200|Oceanic crust+Rheology+Deformation+Microseismicity
J|0141|Anderson,W.W.+Ahrens,T.J.|An equation of state for liquid iron and implications for the Earth's core||#JGR:99:3:1994:4273-4284|Equation of state+Iron+Core+Shock wave
J|0142|Nasch,P.M.+Manghnani,M.H.+Secco,R.A.|Sound velocity measurements in liquid iron by ultrasonic interferometry||#JGR:99:3:1994:4285-4291|Iron+Compressional wave+Velocity+Ultrasonics
J|0143|Ferguson,J.F.+Cogbill,A.H.+Warren,R.G.|A geophysical-geological transect of the Silent Canyon caldera complex, Pahute Mesa, Nevada||#JGR:99:3:1994:4323-4339|Transect+Pahute Mesa+Travel-times+Waveform
J|0144|Moran,S.C.|Seismicity at Mount St. Helens, 1987-1992: evidence for repressurization of an active magmatic system||#JGR:99:3:1994:4341-4354|Seismicity+1987-1992+Mount St. Helens+Mechanism||#*MOUNTSTHELENS
J|0145|Abers,G.A.|Three-dimensional inversion of regional P and S arrival times in the east Aleutians and sources of subduction zone gravity highs||#JGR:99:3:1994:4395-4412|P-wave+S-wave+Aleutian Islands+Subduction zone
J|0146|Yuan,T.+Spence,G.D.+Hyndman,R.D.|Seismic velocities and inferred porosities in the accretionary wedge sediments at the Cascadia margin||#JGR:99:3:1994:4413-4427|Velocity+Porosity+Accretionary wedge+Cascadia Basin
J|0147|Wang,K.|Kinematic models of dewatering accretionary prisms||#JGR:99:3:1994:4429-4438|Accretionary prism+Porosity+Sediment+Velocity+Cascadia Basin
J|0148|Benes,V.+Scott,S.D.+Binns,R.A.|Tectonics of rift propagation into a continental margin: western Woodlark Basin, Papua New Guinea||#JGR:99:3:1994:4439-4455|Tectonics+Papua New Guinea+Seismicity+Mechanism
J|0149|Lamb,S.H.|Behaviour of the brittle crust in wide plate boundary zones||#JGR:99:3:1994:4457-4483|Continental crust+Deformation+Plate boundary+Aseismicity
J|0150|Ward,S.N.+Valensise,G.|The Palos Verdes terraces, California: bathtub rings from a buried reverse fault||#JGR:99:3:1994:4485-4494|Los Angeles+Uplift+Recurrence+Large earthquake
J|0151|Rey,P.F.+Fountain,D.M.+Clement,W.P.|P wave velocity across a noncoaxial ductile shear zone and its associated strain gradient: consequences for upper crustal reflectivity||#JGR:99:3:1994:4533-4548|P-wave+Shear zone+Upper crust+Reflectivity
J|0152|Tanimoto,T.+Stevenson,D.J.|Seismic constraints on a model of partial melts under ridge axes||#JGR:99:3:1994:4549-4558|Mid-ocean ridge+Melt+S-wave+Spreading
J|0153|Gladwin,M.T.+Gwyther,R.L.+Hart,R.H.G.+|Measurements of the strain field associated with episodic creep events on the San Andreas fault at San Bautista, California||#JGR:99:3:1994:4559-4565|Strain+Creep+San Andreas Fault+Fault-slip||#*LOMAPRIETA89
J|0154|Jones,C.H.+Kanamori,H.+Roecker,S.W.|Missing roots and mantle "drips": regional Pn and teleseismic arrival times in the southern Sierra Nevada and vicinity, California||#JGR:99:3:1994:4567-4601|Pn-wave+Teleseism+Sierra Nevada+Mantle
J|0155|Lonsdale,P.|Geomorphology and structural segmentation of the crest of the southern (Pacific-Antarctic) East Pacific Rise||#JGR:99:3:1994:4683-4702|Structure+Seismicity+East Pacific Rise+Morphology
J|0156|Minshull,T.A.+Singh,S.C.+Westbrook,G.K.|Seismic velocity structure at a gas hydrate reflector, offshore western Colombia, from full waveform inversion||#JGR:99:3:1994:4715-4734|Velocity structure+Reflector+Colombia+Waveform
J|0157|Embley,R.W.+Feely,R.A.+Lupton,J.E.|Introduction to special section on volcanic and hydrothermal processes on the southern Juan de Fuca Ridge||#JGR:99:3:1994:4735-4740|Volcanism+Juan de Fuca+Hydrothermy+Seismic survey
J|0158|Chadwick,W.W.+Embley,R.W.|Lava flows from a mid-1980s submarine eruption on the Cleft segment, Juan de Fuca Ridge||#JGR:99:3:1994:4761-4776|Juan de Fuca+Submarine eruption+Seismicity+1981-1987
J|0159|McDonald,M.A.+Webb,S.C.+Hildebrand,J.A.+|Seismic structure and anisotropy of the Juan de Fuca Ridge at 45degreesN||#JGR:99:3:1994:4857-4873|Refraction study+Juan de Fuca+Structure+Anisotropy
J|0160|Stevenson,J.M.+Hildebrand,J.A.+Zumberge,M.A.+|An ocean bottom gravity study of the southern Juan de Fuca Ridge||#JGR:99:3:1994:4875-4888|Juan de Fuca+Gravity+Reflexion study+Magma chamber
J|0161|Feighner,M.A.+Richards,M.A.|Lithospheric structure and compensation mechanisms of the Galapagos Archipelago||#JGR:99:4:1994:6711-6729|Galapagos+Structure+Reflexion study+Seismicity+ISC
J|0162|Hammer,P.T.C.+Dorman,L.M.+Hildebrand,J.A.+|Jasper Seamount structure: seafloor seismic refraction tomography||#JGR:99:4:1994:6731-6752|Refraction study+Baja California+Seamount+Structure
J|0163|Roth,G.+Tarantola,A.|Neural networks and inversion of seismic data||#JGR:99:4:1994:6753-6768|Inversion+Velocity+Seismogram+Neural network
J|0164|Pepke,S.L.+Carlson,J.M.+Shaw,B.E.|Prediction of large events on a dynamical model of a fault||#JGR:99:4:1994:6769-6788|Prediction+Large earthquake+Mechanics+Fault
J|0165|Hartse,H.E.+Fehler,M.C.+Aster,R.C.+|Small-scale stress heterogeneity in the Anza seismic gap, southern California||#JGR:99:4:1994:6801-6818|Anza+Gap+Focal mechanism+Stress
J|0166|Grant,L.B.+Sieh,K.E.|Paleoseismic evidence of clustered earthquakes on the San Andreas fault in the Carrizo Plain, California||#JGR:99:4:1994:6819-6841|San Andreas Fault+Clustering+Palaeoseismology+Offset
J|0167|Lees,J.M.+Lindley,G.T.|Three-dimensional attenuation tomography at Loma Prieta: inversion of t* for Q||#JGR:99:4:1994:6843-6863|Attenuation+Tomography+Loma Prieta+Aftershock||#*LOMAPRIETA89
J|0168|Miller,K.C.+Mooney,W.D.|Crustal structure and composition of the southern Foothills Metamorphic Belt, Sierra Nevada, California, from seismic data||#JGR:99:4:1994:6865-6880|Sierra Nevada+Crustal structure+Microearthquake+Depth
J|0169|Steck,L.K.+Prothero,W.A.|Crustal structure beneath Long Valley caldera from modeling of teleseismic P wave polarizations and Ps converted waves||#JGR:99:4:1994:6881-6898|Long Valley Caldera+Crustal structure+P-wave+Ps-wave
J|0170|James,D.E.+Snoke,J.A.|Structure and tectonics in the region of flat subduction beneath central Peru: crust and uppermost mantle||#JGR:99:4:1994:6899-6912|Waveform+Structure+Peru+Subduction
J|0171|Kao,H.+Chen,W-P.|The double seismic zone in Kuril-Kamchatka: the tale of two overlapping single zones||#JGR:99:4:1994:6913-6930|Kuril-Kamchatka Arc+Seismic zone+Source parameter+Waveform+ISC
J|0172|Pilliam,R.J.+Stark,P.B.|Confidence regions for mantle heterogeneity||#JGR:99:4:1994:6931-6943|Velocity structure+Mantle+Tomography+Heterogeneity+ISC
J|0173|Su,W-J.+Woodward,R.L.+Dziewonski,A.M.|Degree 12 model of shear velocity heterogeneity in the mantle||#JGR:99:4:1994:6945-6980|Mantle+Heterogeneity+Shear wave+Tomography+ISC
J|0174|Morgan,J.K.+Karig,D.E.+Maniatty,A.|The estimation of diffuse strains in the toe of the western Nankai accretionary prism: a kinematic solution||#JGR:99:4:1994:7019-7032|Nankai+Accretionary prism+Kinematics+Profile
J|0175|Cochrane,G.R.+Moore,J.C.+MacKay,M.E.+|Velocity and inferred porosity model of the Oregon accretionary prism from multichannel seismic reflection data: implications on sediment dewatering and overpressure||#JGR:99:4:1994:7033-7043|Oregon+Accretionary prism+Profile+Porosity
J|0176|Fan,G-W.+Ni,J.F.+Wallace,T.C.|Active tectonics of the Pamirs and Karakorum||#JGR:99:4:1994:7131-7160|Tectonics+Pamirs+Karakorum+Seismicity+ISC
J|0177|Barth,G.A.+Kleinrock,M.C.+Helz,R.T.|The magma body at Kilauea Iki lava lake: potential insights into mid-ocean ridge magma chambers||#JGR:99:4:1994:7199-7217|Kilauea+Seismic waves+Magma chamber+Mid-ocean ridge
J|0178|Kent,G.M.+Harding,A.J.+Orcutt,J.A.+|Uniform accretion of oceanic crust south of the Garrett transform at 14degrees15'S on the East Pacific Rise||#JGR:99:5:1994:9097-9116|Accretion+Oceanic crust+East Pacific Rise+Reflexion study
J|0179|Chian,D-P.+Louden,K.E.|The continent-ocean crustal transition across the southwest Greenland margin||#JGR:99:5:1994:9117-9135|Oceanic crust+Continental crust+Greenland+Ocean-bottom seismometer
J|0180|Holbrook,W.S.+Reiter,E.C.+Purdy,G.M.+|Deep structure of the U.S. Atlantic continental margin, offshore South Carolina, from coincident ocean bottom and multichannel seismic data||#JGR:99:5:1994:9155-9178|Deep structure+Atlantic Ocean+Reflexion study+Ocean-bottom seismometer
J|0181|Norabuena,E.O.+Snoke,J.A.+James,D.E.|Structure of the subducting Nazca Plate beneath Peru||#JGR:99:5:1994:9215-9226|Structure+Nazca Plate+Peru+P-wave
J|0182|Spencer,J.E.|A numerical assessment of slab strength during high- and low-angle subduction and implications for Laramide orogenesis||#JGR:99:5:1994:9227-9236|Slab+South Dakota+Subduction+Seismicity
J|0183|Planke,S.+Eldholm,O.|Seismic response and construction of seaward dipping wedges of flood basalts: Voring volcanic margin||#JGR:99:5:1994:9263-9278|Response+Construction+Norwegian Sea+Profile
J|0184|Planke,S.|Geophysical response of flood basalts from analysis of wire line logs: Ocean Drilling Program Site 642, Voring volcanic margin||#JGR:99:5:1994:9279-9296|Response+Norwegian Sea+Profile+Basalt
J|0185|Harris,R.N.+Chapman,D.S.|A comparison of mechanical thickness estimates from trough and seamount loading in the southeastern Gulf of Alaska||#JGR:99:5:1994:9297-9317|Alaska, Gulf of+Thickness+Oceanic lithosphere+Profile
J|0186|Barton,C.A.+Zoback,M.D.|Stress perturbations associated with active faults penetrated by boreholes: possible evidence for near-complete stress drop and a new technique for stress magnitude measurement||#JGR:99:5:1994:9373-9390|Stress+Fault+Borehole+Stress-drop
J|0187|Oikawa,J.+Ida,Y.+Yamaoka,K.|Source spectrum and source time function of volcanic tremor determined with a dense seismic network near the summit crater of Izu-Oshima volcano, Japan||#JGR:99:5:1994:9523-9532|Spectrum+Source-time function+Network+Izu-Oshima+Volcanic tremor
J|0188|Dvorak,J.J.|An earthquake cycle along the south flank of Kilauea Volcano, Hawaii||#JGR:99:5:1994:9533-9541|Earthquake cycle+Kilauea+Seismicity+1989||#*KILAUEA89
J|0189|Ray,T.W.+Anderson,D.L.|Spherical disharmonics in the Earth sciences and the spatial solutions: ridges, hotspots, slabs, geochemistry and tomography correlations||#JGR:99:5:1994:9605-9614|Correlation+Tomography+Slab+Ridge
J|0190|Humphreys,E.D.+Dueker,K.G.|Western U.S. upper mantle structure||#JGR:99:5:1994:9615-9634|Western United States+Upper mantle+Structure+P-wave+ISC
J|0191|Zhang,Z.+Schwartz,S.Y.|Seismic anisotropy in the shallow crust of the Loma Prieta segment of the San Andreas fault system||#JGR:99:5:1994:9651-9661|Anisotropy+Crust+Loma Prieta+Aftershock||#*LOMAPRIETA89
J|0192|Robinson,R.|Shallow subduction tectonics and fault interaction: the Weber, New Zealand, earthquake sequence of 1990-1992||#JGR:99:5:1994:9663-9679|Sequence+1990-1992+North Island+Tectonics||#*NISLAND90|#*NISLAND90A|#*NISLAND90B|#*NISLAND92
J|0193|Wood,W.T.+Stoffa,P.L.+Shipley,T.H.|Quantitative detection of methane hydrate through high-resolution seismic velocity analysis||#JGR:99:5:1994:9681-9695|Methane+Velocity+North Atlantic+Common midpoint
J|0194|Kendall,J-M.+Shearer,P.M.|Lateral variations in D" thickness from long-period shear wave data||#JGR:99:6:1994:11575-11590|Shear wave+D"-layer+Lateral variation+Global Digital Seismograph Network
J|0195|Grand,S.P.|Mantle shear structure beneath the Americas and surrounding oceans||#JGR:99:6:1994:11591-11621|Mantle+Shear wave+North America+South America+ISC
J|0196|Miller,D.J.+Christensen,N.I.|Seismic signature and geochemistry of an island arc: a multidisciplinary study of the Kohistan accreted terrane, northern Pakistan||#JGR:99:6:1994:11623-11642|Accretion+Kohistan+Signature+Velocity
J|0197|Estabrook,C.H.+Jacob,K.H.+Sykes,L.R.|Body wave and surface wave analysis of large and great earthquakes along the eastern Aleutian arc, 1923-1993: implications for future events||#JGR:99:6:1994:11643-11662|Great earthquake+Aleutian Arc+1923-1993+Prediction+ISC
J|0198|Brocher,T.M.+Fuis,G.S.+Fisher,M.A.+|Mapping the megathrust beneath the northern Gulf of Alaska using wide-angle seismic data||#JGR:99:6:1994:11663-11685|Alaska, Gulf of+Mapping+Profile+Crust
J|0199|Zelt,C.A.+Forsyth,D.A.|Modeling wide-angle seismic data for crustal structure: southeastern Grenville Province||#JGR:99:6:1994:11687-11704|Grenville Province+Reflexion study+Crustal structure+P-wave
J|0200|Li,Y-G.+Aki,K.+Adams,D.+|Seismic guided waves trapped in the fault zone of the Landers, California, earthquake of 1992||#JGR:99:6:1994:11705-11722|Guided wave+Fault zone+California+1992||#*LANDERS92|#*BIGBEAR92
J|0201|Glenn,L.A.+Goldstein,P.|Seismic decoupling with chemical and nuclear explosions in salt||#JGR:99:6:1994:11723-11730|Decoupling+Nuclear explosion+Chemical explosion+Salt dome
J|0202|Crampin,S.|Comment on `Crack models for a transversely isotropic medium' by C. H. Cheng and comment by C. M. Sayers||#JGR:99:6:1994:11749-11754|Comments+Crack+Isotropic medium+Anisotropy|With a reply by C. M. Sayers
J|0203|Green,D.H.+Wang,H.F.|Shear wave velocity and attenuation from pulse-echo studies of Berea sandstone||#JGR:99:6:1994:11755-11763|Shear wave+Velocity+Attenuation+Sandstone
J|0204|Campbell,A.J.+Heinz,D.L.|High-pressure acoustic wave velocities and equations of state of the alkali chlorides||#JGR:99:6:1994:11765-11774|Acoustic wave+Velocity+Equation of state+Chloride
J|0205|Julian,B.R.|Volcanic tremor: nonlinear excitation by fluid flow||#JGR:99:6:1994:11859-11877|Volcanic tremor+Excitation+Nonlinearity+Seismicity
J|0206|Westaway,R.|Present-day kinematics of the Middle East and eastern Mediterranean||#JGR:99:6:1994:12071-12090|Kinematics+Middle East+Mediterranean+Seismicity
J|0207|De Jonge,M.R.+Wortel,M.J.R.+Spakman,W.|Regional scale tectonic evolution and the seismic velocity structure of the lithosphere and upper mantle: the Mediterranean region||#JGR:99:6:1994:12091-12108|Tectonics+Velocity structure+Lithosphere+Upper mantle+Mediterranean
J|0208|Merritts,D.+Ellis,M.|Introduction to special section on tectonics and topography||#JGR:99:6:1994:12135-12141|Introduction+Tectonics+Topography+Large earthquake
J|0209|Gephart,J.W.|Topography and subduction geometry in the central Andes: clues to the mechanics of a noncollisional orogen||#JGR:99:6:1994:12279-12288|Topography+Subduction+Andes+Seismicity
J|0210|Vita-Finzi,C.+Mann,C.D.|Seismic folding in coastal south central Chile||#JGR:99:6:1994:12289-12299|Folding+Chile+Great earthquake+1960
J|0211|Yao,B-C.+Zeng,W-J.+Chen,Y-Z.+|The crustal structure in the eastern part of the northern margin of the South China Sea|In Chinese with English abstract|#AGS:37:1:1994:27-35|South China Sea+Crustal structure+High-velocity layer+Marine seismic investigation
J|0212|Yao,Z-X.+Zheng,T-Y.+Wen,L-X.|Moment tensor inversion method for determining the earthquake process by the use of P-waveform data|In Chinese with English abstract|#AGS:37:1:1994:36-44|Seismic moment tensor+Inversion+Long-period wave+Process||#*XINJIANG|#*YUNNAN88D|#*SICHUAN89|#*TAIWAN89|#*GANSU90
J|0213|Sun,X-Y.+Liu,J-Y.+Wang,R.|The simulation of coseismic and postseismic crustal deformation due to Tangshan earthquake in 1976|In Chinese with English abstract|#AGS:37:1:1994:45-55|Deformation+T'ang-shan+Earthquake+1976||#*TANGSHAN
J|0214|Huang,L-J.+Wu,R-S.|Multifrequency backscattering tomography in a vertically varying background|In Chinese with English abstract|#AGS:37:1:1994:87-100|Tomography+Imaging+Multifrequency sounding
J|0215|Liu,J-Q.+Liu,K-A.+Liu,W-G.+|The differential equation inversion of acoustic impedance profiles|In Chinese with English abstract|#AGS:37:1:1994:101-107|Inverse problem+Common depth point+Acoustic imaging+Equation
J|0216|Zhang,Y-L.+Liu,X-L.+An,H-J.+|Application of the MT repeated measurements to the medium and short term prediction of earthquakes - monitoring and studying a profile in the middle segment of Qilian Mountain by MT|In Chinese with English abstract|#AGS:37:2:1994:200-210|Magnetotellurics+Resistivity+Precursor+China
J|0217|Wen,L-X.+Yao,Z-X.|Theory and application of hybrid method seismograms|In Chinese with English abstract|#AGS:37:2:1994:211-219|Finite difference method+Synthetic seismogram+Ray theory+Simulation||#*ODAWARA90
J|0218|Zhang,Z-J.+Teng,J-W.+Wang,A-W.+|Partial differential equation of seismic wavefront in anisotropic media|In Chinese with English abstract|#AGS:37:2:1994:220-227|Anisotropic medium+Wavefront+Wave equation+Mathematical analysis
J|0219|Dong,Q-C.+Zhao,H-R.|Diffraction, converted waves and derivative wave research of anisotropic geologic body by seismic model|In Chinese with English abstract|#AGS:37:2:1994:228-238|Diffraction+Converted wave+Ultrasonic modelling+Anisotropic medium
J|0220|Yang,W-C.+Du,J-Y.|A new algorithm of seismic tomography with application to engineering detections|In Chinese with English abstract|#AGS:37:2:1994:239-244|Tomography+Algorithm+Civil engineering
J|0221|Zeng,Z-H.|Prediction ahead of the tunnel face by the seismic reflection methods|In Chinese with English abstract|#AGS:37:2:1994:268-271|Tunnelling+Reflected wave+Vertical seismic profiling|Short contribution
J|0222|Sun,W-K.+Okubo,S.|Spheroidal displacement due to point dislocations in a spherical Earth: I. Theory|In Chinese with English abstract|#AGS:37:3:1994:298-310|Theory+Love number+Spheroidal mode+Dislocation
J|0223|Li,Q.+Liu,R-F.+Du,A-L.|Seismic tomography of Xinjiang and adjacent region|In Chinese with English abstract|#AGS:37:3:1994:311-320|Tomography+Xinjiang+Lateral heterogeneity+Crust-mantle structure
J|0224|Hu,S-B.+Wang,J-Y.+Wang,Y-H.|Deep temperature and lithospheric thickness along the eastern segment of the Heishui-Quanzhou geotraverse|In Chinese with English abstract|#AGS:37:3:1994:330-337|Geotraverse+China+Temperature+Lithosphere
J|0225|Du,P-R.|18.6years seismic cycle and the preliminary exploration for its cause|In Chinese with English abstract|#AGS:37:3:1994:362-369|Earthquake cycle+Lunar periodicity+Global seismicity+Magma
J|0226|Liu,W-X.+Luan,W-G.|Diffraction pattern around singular point|In Chinese with English abstract|#AGS:37:3:1994:370-381|Diffraction+Pattern+Mathematical analysis
J|0227|Zhao,H-R.+Sun,J-Z.+Peng,Y-M.|Ultrasonic modelling research into the effect of underlying bedrock faults on seismic wave|In Chinese with English abstract|#AGS:37:3:1994:382-390|Ultrasonic modelling+Bedrock+Wave field+Geologic structure
J|0228|Shen,L-D.+Shi,G.|Effect of lithologic character, petroleum and effective overburden pressure on compressional wave and shear wave velocity|In Chinese with English abstract|#AGS:37:3:1994:391-399|Wave velocity+Overburden+Petroleum+Saturation
J|0229|Chen,B-Y.+Ma,Z-T.|New technique for 3D prestack migration|In Chinese with English abstract|#AGS:37:3:1994:400-407|Technique+Migration+Offset+Dip moveout
J|0230|Lu,Q-G.+Duan,M-C.+Li,S-X.+|Multirange autoselected seismic telemetry system|In Chinese with English abstract|#AGS:37:3:1994:408-411|Telemetering system+Equipment+Digital processing+Accuracy|Short contribution
J|0231|Jiang,M.+Lu,Q-T.+Xue,G-Q.|Researches on the crustal structures of the Tibetan Plateau by means of seismic experiment jointly conducted by Chinese and French geophysicists|In Chinese|#AGS:37:3:1994:412-413|Tibet+Research+Crustal structure|Short contribution
B|0232|#ILI1|Paulssen,H.+Visser,J.|The crustal structure in Iberia inferred from P-wave coda||#ILI2|P-wave+Coda+Crustal structure+Iberia|p3-18
B|0233|#ILI1|Paulssen,H.+Levshin,A.L.+Lander,A.V.+|Time and frequency dependent polarization analysis: anomalous surface wave observations in Iberia||#ILI2|Polarization+Iberia+Surface wave+Lateral heterogeneity|p19-38|#*PERU88|#*GUATEMALA88|#*IMPHAL88
B|0234|#ILI1|Payo,G.+Badal,J.+Nikolova,S.|First tomographic images of Iberia based on local Rayleigh wave velocity values||#ILI2|Rayleigh wave+Velocity structure+Tomography+Iberia|p39-56
B|0235|#ILI1|Badal,J.+Corchete,V.+Payo,G.+|Study of the Iberian subcrustal lithosphere and asthenosphere: methods and models||#ILI2|Iberia+Lithosphere+Asthenosphere+Velocity structure|p57-73
B|0236|#ILI1|Alsina,D.+Snieder,R.+Maupin,V.|Reconstruction of phase fronts of surface waves recorded during the ILIHA project||#ILI2|Wavefront+Surface wave+Reconstruction+Iberian Peninsula|p75-83
B|0237|#ILI1|Caselles,J.O.+Canas,J.A.+Pujades,L.+|Lateral variation of Rayleigh wave anelastic attenuation in the Iberian Peninsula from ILIHA data. Preliminary results||#ILI2|Lateral variation+Rayleigh wave+Iberian Peninsula+Attenuation|p85-101
B|0238|#ILI1|a-ILIHA DSS Group+Diaz,J.+Gallart,J.+|A deep seismic sounding investigation of lithospheric heterogeneity and anisotropy beneath the Iberian Peninsula||#ILI2|Deep seismic sounding+Iberian Peninsula+Lithosphere+Anisotropy|p105-127
B|0239|#ILI1|Diaz,J.+Hirn,A.+Gallart,J.|Anisotropy beneath the SW corner of Iberia investigated using teleseismic shear-wave and deep seismic sounding data||#ILI2|Deep seismic sounding+Anisotropy+Iberia+Teleseism|p129-147|#*SPERU91|#*FLORES91|#*ALASKA91
B|0240|#ILI1|Diaz,J.+Hirn,A.+Gallart,J.+|Evidence for azimuthal anisotropy in SW Iberia from DSS data||#ILI2|Deep seismic sounding+Iberia+Anisotropy+Azimuth|p149-166
B|0241|#ILI1|Diaz,J.+Hirn,A.+Gallart,J.|P-wave residual anomalies at the center of the ILIHA net of refraction profiles, central Spain||#ILI2|Spain+Anomaly+Refraction study+Residual+P-wave|p167-177|#*ALEUTIAN89|#*SOLOMON89
B|0242|#ILI1|Mendes-Victor,L.A.+Miranda,J.M.+Matias,L.M.|Crustal structure of western Iberia from geophysical studies||#ILI2|Iberia+Geophysical investigation+Deep seismic sounding+Crustal structure|p179-196
B|0243|#ILI1|Tellez,J.+Cordoba,D.+Matias,L.M.+|Contribution of the ILIHA-DSS profiles to the understanding of the crustal structure in the NW of Iberia||#ILI2|Iberia+Crustal structure+Profile+Deep seismic sounding|p197-213
B|0244|#ILI1|Gonzalez,A.+Cordoba,D.+Matias,L.M.+|A reanalysis of P-wave velocity models in the southwestern Iberian Peninsula-Gulf of Cadiz motivated by the ILIHA-DSS experiments||#ILI2|Iberian Peninsula+Deep seismic sounding+Velocity structure+Cadiz, G. of|p215-227
B|0245|#ILI1|Arlitt,R.+Patzwahl,R.+Zeyen,H.|1-D modelling of the lithospheric structure beneath the western Iberian Peninsula using the ILIHA-DSS data||#ILI2|Lithosphere+Iberian Peninsula+Deep seismic sounding+Modelling|p229-249
B|0246|#ILI1|Mezcua,J.+Rueda,J.|Location of earthquakes under Iberia. Consequences of the ILIHA-DSS data||#ILI2|Iberia+Location+Seismicity+Deep seismic sounding|p251-262
B|0247|#ILI1|Mueller,St.+Ansorge,J.|The structure and dynamics of the lithosphere under the western Mediterranean - an assessment of the present situation||#ILI2|Structure+Western Mediterranean+Dynamics+Lithosphere|p263-282
B|0248|#ILI1|Navarro,M.+Corchete,V.+Badal,J.+|Shallow structure of Almeria (southern Spain) from high-frequency Rayleigh-wave data||#ILI2|Shallow structure+Almeria+High frequency+Rayleigh wave|p299-309
B|0249|#ILI1|Udias,A.+Buforn,E.|Focal mechanisms and regional stress patterns in south Spain||#ILI2|Focal mechanism+Stress+Spain+Epicentre|p311-319
B|0250|#ILI1|Blanco,M.J.+Spakman,W.|Delay time tomography of the Iberian Peninsula||#ILI2|Delay+Iberian Peninsula+Tomography+High-velocity layer|p321-329
J|0251|Pearce,F.|Quakes, plates and chaos||Geogrl Mag., Lond.:66:2:1994:6|Prediction+Intraplate earthquake+Chaos+Natural disaster||#*LATUR93
J|0252|Pearce,F.|Rich suffer more than the poor||Geogrl Mag., Lond.:66:2:1994:6|Casualties+Soil+Intraplate earthquake+India||#*LATUR93
J|0253|Hutchings,C.|Digging deep into San Andreas||Geogrl Mag., Lond.:66:4:1994:6|San Andreas Fault+Borehole+Monitoring
J|0254||A peculiar geomorphic expression||Geogrl Mag., Lond.:66:4:1994:58|California+Seismology
J|0255|Mele,G.+Meloni,A.+Palangio,P.|A tectonomagnetic effect detected in central Italy||#AGF:37:1:1994:17-25|Italy+Seismomagnetic effect+Geomagnetic field+Network
J|0256|Kiratzi,A.A.|Active seismic deformation in the Italian Peninsula and Sicily||#AGF:37:1:1994:27-45|Italy+Sicily+Crustal deformation+1870-1991+ISC||#*SICILY90|#*POTENZA90|#*ADRIATIC88|#*ABRUZZO84A|#*ABRUZZO84B
J|0257|Maggio,F.+Malfanti,F.+Bertero,M.+|Comparison of inversion methods in seismic tomography: application to tectonic structures in northwestern Italy||#AGF:37:1:1994:47-70|Italy+Inversion+Tomography+Teleseism
J|0258|De Rubeis,V.+Maramai,A.+Tertulliani,A.|National borders earthquakes: an attempt at intensity maps unification||#AGF:37:1:1994:77-91|Isoseismal map+Filter+Europe+Earthquake
J|0259|Pino,N.A.|Long-period P waveform modeling of upper mantle phases in the west Mediterranean basin||#AGF:37:1:1994:109-120|Modelling+Upper mantle+Western Mediterranean+Waveform||#*ABRUZZO84A|#*VALNERINA|#*SICILY80
J|0260|Gupta,H.K.|Errata to `Seismic hazard assessment in the Alpide belt from Iran to Burma'||#AGF:37:1:1994:135|Errata+Alpide belt+Hazard+Historical earthquake
J|0261|Ringdal,F.|GSETT-3: a test of an experimental international seismic monitoring system||#AGF:37:3:1994:241-245|Nuclear test ban+Monitoring+Verification+Global Seismic Network
J|0262|North,R.G.|Canadian plans for participation in GSETT-3||#AGF:37:3:1994:247-253|Canada+Network+Broadband seismograph+Station location
J|0263|Kedrov,O.K.+Permyakova,V.E.|A new approach for three-component seismic array processing||#AGF:37:3:1994:255-266|Array+Seismic processing+Filtering+Seismic record||#*SIBERIA91
J|0264|Tarvainen,M.|The capability of three-component substation F1A1 at local and regional distances. Comparisons with FINESA and Helsinki bulletins||#AGF:37:3:1994:267-285|Station+Finland+Automatic analysis+Capability
J|0265|Kvaerna,T.|Accurate determination of phase arrival times using autoregressive likelihood estimation||#AGF:37:3:1994:287-300|Arrival time+Autoregression+Accuracy+Onset
J|0266|North,R.G.+Woodgold,C.R.D.|Automated detection and association of surface waves||#AGF:37:3:1994:301-308|Surface wave+Automatic event detector+Yellowknife+Array
J|0267|Kvaerna,T.+Ringdal,F.|Intelligent post-processing of seismic events||#AGF:37:3:1994:309-322|Automatic event detector+Seismic processing+Correction+Location
J|0268|Firbas,P.|Ray synthetic seismograms: a useful tool in the International Data Center environment||#AGF:37:3:1994:323-342|Synthetic seismogram+Ray tracing+Wavelet||#*LOPNOR92|#*WCAUCASUS91
J|0269|Romeo,G.|Seismic signals detection and classification using artificial neural networks||#AGF:37:3:1994:343-353|Neural network+Signal+Detection+Pattern recognition
J|0270|Christoskov,L.|Amplitude-distance curves of P, S and L waves in central Balkans for short and medium period seismographs||#AGF:37:3:1994:355-361|Balkans+Seismograph+Calibration+Seismic waves
J|0271|Mendi,C.D.+Husebye,E.S.|Near real time estimation of magnitudes and moments for local seismic events||#AGF:37:3:1994:365-382|Local event+Magnitude+Moment+Random vibration theory
J|0272|Harjes,H-P.+Jost,M.+Schweitzer,J.|Preliminary calibration of candidate alpha stations in the GSETT-3 network||#AGF:37:3:1994:383-396|Network+Calibration+Station+Residual
J|0273|Harjes,H-P.+Massinon,B.+Menechal,Y.+|Comparison between LDG-network and GERESS-array with respect to regional detection and location results||#AGF:37:3:1994:397-404|Network+Array+Detection+Location
J|0274|Rizescu,M.+Popescu,E.+Oancea,V.+|Lithospheric structure models applied for locating the Romanian seismic events||#AGF:37:3:1994:405-414|Romania+Lithosphere+Location+Velocity structure
J|0275|Di Maro,R.|Detection capability of the Italian network for teleseismic events||#AGF:37:3:1994:415-431|Italy+Network+Detection+Teleseism
J|0276|Tiira,T.+Tarvainen,M.|Discrimination of teleseismic events in central Asia with a local network of short period stations||#AGF:37:3:1994:433-449|Central Asia+Discrimination+Network+Short-period wave+ISC||#*KAZAKHSTAN90A|#*XIAOJIN89|#*KIRGIZIYA92|#*LOPNOR90
J|0277|Marshall,P.D.|On-site inspection for nuclear test ban verification||#AGF:37:3:1994:451-457|Verification+Nuclear test ban+Test site
J|0278|Khalequzzaman,M.D.|Recent floods in Bangladesh: possible causes and solutions||#NHZ:9:1-2:1994:65-80|Bangladesh+Flood+Earthquake||#*NINDIA91
J|0279|Yuceman,M.S.+Gulkan,P.|Seismic hazard analysis with randomly located sources||#NHZ:9:1-2:1994:215-233|Hazard+Source+Location+Ground acceleration
J|0280|Kamel,A.F.|Regional fracture analysis south latitude 29degrees N of Egypt and their influence on earthquakes||#NHZ:9:1-2:1994:235-245|Egypt+Fracture zone+Earthquake
J|0281|Stanishkova,I.+Slejko,D.|Seismic hazard of Bulgaria||#NHZ:9:1-2:1994:247-271|Hazard+Bulgaria+Seismotectonics+Seismicity+ISC
J|0282|Feldman,L.+Shapira,A.|Analysis of seismic intensities observed in Israel||#NHZ:9:3:1994:287-301|Intensity+Israel+Macroseismic data+Site response||#*DEADSEA84|#*DEADSEA
J|0283|Papadimitriou,E.E.|Long-term earthquake prediction in the North Pacific seismic zone based on the time and magnitude predictable model||#NHZ:9:3:1994:303-321|North Pacific Ocean+Prediction+Recurrence+Earthquake
J|0284|Berz,G.|The insurance industry and IDNDR: common interests and tasks||#NHZ:9:3:1994:323-332|IDNDR+Insurance+Earthquake+Preparedness
J|0285|El-Sabh,M.I.|World conference on natural disaster reduction||#NHZ:9:3:1994:333-352|Conference+IDNDR|Held in Yokohama, May 1994
J|0286|Tsukuda,T.+Wada,H.+Sakai,K.+|Aftershock distribution of the 1993 M6.6 earthquake off Noto Peninsula and its relation to tectonic features||#BER:69:1-2:1994:1-18|Earthquake+1993+Japan+Aftershock||#*NOTO93
J|0287|Tsukuda,T.+Oki,Y.|A destructive shallow small earthquake -the 1992 Tsunan earthquake of M4.5 in southern Niigata Prefecture, central Japan-||#BER:69:1-2:1994:19-38|Destructive earthquake+1992+Japan+Shallow earthquake||#*NIIGATA92
J|0288|Kato,K.+Tsuji,Y.|Estimation of fault parameters of the 1993 Hokkaido-Nansei-Oki earthquake and tsunami characteristics|In Japanese with English abstract|#BER:69:1-2:1994:39-66|Earthquake+1993+Japan+Tsunami||#*SEAOFJAPAN93
J|0289|Tsuji,Y.+Kato,K.+Satake,A.|Heights and damage of the tsunami of the 1993 Hokkaido Nansei-Oki earthquake in the residential areas on the coast of the Hokkaido mainland|In Japanese with English abstract|#BER:69:1-2:1994:67-106|Earthquake+1993+Japan+Tsunami||#*SEAOFJAPAN93
J|0290||Editorial||#TRN:6:1:1994:2|California+Earthquake+Buried fault+Recurrence|Preface|#*NORTHRIDGE94|#*NINDIA91
J|0291|Pavlides,S.+Caputo,R.|The North Aegean region: a tectonic paradox?||#TRN:6:1:1994:37-44|AEgean+Seismotectonics+Geodynamics+Fault
J|0292|Biella,G.+De Franco,R.+Demartin,M.+|Geophysical interpretation of a high-resolution seismic refraction profile in the northern Apennines||#TRN:6:1:1994:45-53|Apennines+Refraction study+Gravimetric data+Upper crust
J|0293|Meyer,B.+Lacassin,R.+Brulhet,J.+|The Basel 1356 earthquake: which fault produced it?||#TRN:6:1:1994:54-63|Historical earthquake+1356+Basel+Fault
J|0294|Anzidei,M.|GPS surveys in eastern Nepal||#TRN:6:1:1994:82-89|Global Positioning System+Nepal+Seismotectonics+Crustal movement+ISC
J|0295|Thakur,V.C.+Kumar,S.|Seismotectonics of the 20 October 1991 Uttarkashi earthquake in Garhwal, Himalaya, North India||#TRN:6:1:1994:90-94|Earthquake+1991+India+Seismotectonics||#*NINDIA91
J|0296|Kumar,S.+Mahajan,A.K.|The Uttarkashi earthquake of 20 October 1991: field observations||#TRN:6:1:1994:95-99|Earthquake+1991+India+Field work||#*NINDIA91
J|0297|Wahlstrom,R.+Grunthal,G.|Seismicity and seismotectonic implications in the southern Baltic Sea area||#TRN:6:2:1994:149-157|Baltic Sea+Seismicity+Seismotectonics+1600-1985
J|0298|Atakan,K.+Lindholm,C.D.+Havskov,J.|Earthquake swarm in Steigen, northern Norway: an unusual example of intraplate seismicity||#TRN:6:2:1994:180-194|Swarm+Norway+Intraplate seismicity+1992
J|0299|Yuen,D.A.+Cadek,O.P.+Boehler,R.+|Large cold anomalies in the deep mantle and mantle instability in the Cretaceous||#TRN:6:3:1994:238-245|Anomaly+Mantle+Temperature+Tomography
J|0300|Pasquale,V.+Verdoya,M.+Chiozzi,P.|Types of crust beneath the Ligurian Sea||#TRN:6:3:1994:255-266|Ligurian Sea+Oceanic crust+Heat flow+Crustal structure
J|0301|Camelbeeck,T.+Van Eck,T.|The Roer Valley Graben earthquake of 13 April 1992 and its seismotectonic setting||#TRN:6:3:1994:291-300|Earthquake+1992+Netherlands+Seismotectonics||#*ROERMOND92
J|0302|Trifonov,V.G.+Klerkx,J.+Theunissen,K.|The Roermond earthquake of 13 April 1992, the Netherlands: geological aspects||#TRN:6:3:1994:301-305|Earthquake+1992+Netherlands+Geology||#*ROERMOND92
J|0303|Boatwright,J.|Regional propagation characteristics and source parameters of earthquakes in northeastern North America||#BSA:84:1:1994:1-15|Propagation+Source parameter+North America+Earthquake||#*NEWBRUNSWICK2|#*SAGUENAY88|#*BLUEMOUNT|#*NORTHOHIO|#*NQUEBEC89
J|0304|Seekins,L.C.+Boatwright,J.|Ground motion amplification, geology, and damage from the 1989 Loma Prieta earthquake in the city of San Francisco||#BSA:84:1:1994:16-30|Earthquake+1989+Loma Prieta+Damage||#*LOMAPRIETA89
J|0305|Saikia,C.K.|Modeling of strong ground motions from the 16 September 1978 Tabas, Iran, earthquake||#BSA:84:1:1994:31-46|Earthquake+1978+Tabas+Modelling||#*TABAS
J|0306|Saikia,C.K.+Dreger,D.S.+Helmberger,D.V.|Modeling of energy amplification recorded within Greater Los Angeles using irregular structure||#BSA:84:1:1994:47-61|Modelling+Amplification+Los Angeles+Nuclear explosion||#*CAMEMBERT|#*MAST|#*STRAIT|#*BILLET|#*POOL
J|0307|Liu,H-P.+Warrick,R.E.+Westerlund,R.E.+|In situ measurement of seismic shear-wave absorption in the San Francisco Holocene Bay Mud by the pulse-broadening method||#BSA:84:1:1994:62-75|Shear wave+Absorption+San Francisco Bay+Soil
J|0308|Gibbs,J.F.+Boore,D.M.+Joyner,W.B.+|The attenuation of seismic shear waves in Quaternary alluvium in Santa Clara Valley, California||#BSA:84:1:1994:76-90|Shear wave+Attenuation+Santa Clara+Alluvium||#*LOMAPRIETA89|#*COYOTE|#*MORGAN
J|0309|Zhao,L-S.+Helmberger,D.V.|Source estimation from broadband regional seismograms||#BSA:84:1:1994:91-104|Source+Broadband seismology+Seismogram+Array||#*SANGABRIEL91|#*CALIFNEV92|#*LVINING90
J|0310|Langston,C.A.|An integrated study of crustal structure and regional wave propagation for southeastern Missouri||#BSA:84:1:1994:105-118|Crustal structure+Propagation+Missouri+Focal mechanism||#*NEWMADRID90|#*NEWMADRID91
J|0311|Zhang,T.+Lay,T.|Analysis of short-period regional phase path effects associated with topography in Eurasia||#BSA:84:1:1994:119-132|Eurasia+Topography+Path+Regional phase+Underground nuclear explosion
J|0312|Dvorak,J.J.+Klein,F.W.+Swanson,D.A.|Relaxation of the south flank after the 7.2-magnitude Kalapana earthquake, Kilauea Volcano, Hawaii||#BSA:84:1:1994:133-141|Earthquake+1975+Hawaii+Volcano||#*HILO|#*HILO2|#*KILAUEA76|#*KILAUEA79|#*KILAUEA83
J|0313|Cessaro,R.K.|Sources of primary and secondary microseisms||#BSA:84:1:1994:142-148|Microseism+Source+Storm+Map
J|0314|Kruger,F.|Sediment structure at GRF from polarization analysis of P waves of nuclear explosions||#BSA:84:1:1994:149-170|Nuclear explosion+P-wave+Polarization+Sedimentary cover||#*KAZAKHSTAN84|#*KAZAKHSTAN82|#*GAZLI3
J|0315|Stacey,R.|New finite-difference methods for free surfaces with a stability analysis||#BSA:84:1:1994:171-184|Finite difference method+Elastic medium+Mathematical analysis+Stability
J|0316|Dai,N.+Vafidis,A.+Kanasewich,E.R.|Composite absorbing boundaries for the numerical simulation of seismic waves||#BSA:84:1:1994:185-191|Absorbing boundary+Numerical method+Seismic waves+Synthetic seismogram
J|0317|Clements,D.L.+Larsson,A.|A note on surface motion of inhomogeneous alluvial valleys due to incident plane SH waves||#BSA:84:1:1994:192-201|SH-wave+Alluvium+Valley+Equation of motion
J|0318|Shtivelman,V.+Loewenthal,D.|Estimation of source characteristics using plane wave decomposition||#BSA:84:1:1994:202-208|Plane wave+Decomposition+Source+Signature
J|0319|Michael-Leiba,M.O.+Love,D.+McCue,K.+|The Uluru (Ayers Rock), Australia earthquake of 28 May 1989||#BSA:84:1:1994:209-214|Earthquake+1989+Australia+Fault plane solution+ISC|Short note|#*AYERSROCK89
J|0320|Scholz,C.H.|A reappraisal of large earthquake scaling||#BSA:84:1:1994:215-218|Large earthquake+Scaling+Rupture length+Moment|Short note|#*LOMAPRIETA89|#*LANDERS92|#*MACQUARIE89|#*ALASKA287
J|0321|Savage,J.C.|Empirical earthquake probabilities from observed recurrence intervals||#BSA:84:1:1994:219-221|Probability+Recurrence+Statistical method+California|Short note
J|0322|Rodgers,P.W.|Self-noise spectra for 34 common electromagnetic seismometer/preamplifier pairs||#BSA:84:1:1994:222-228|Seismometer+Instrument+Signal-to-noise ratio+Spectrum|Short note
J|0323|Bolt,B.A.+Hjortenberg,E.|Memorial essay Inge Lehmann (1888-1993)||#BSA:84:1:1994:229-233|Obituary+Inner core+Travel-times
J|0324|Person,W.J.|Seismological notes - March-April 1993||#BSA:84:1:1994:234-238|Earthquake+1993
J|0325|Grant,L.B.+Donnellan,A.|1855 and 1991 surveys of the San Andreas: implications for fault mechanics||#BSA:84:2:1994:241-246|San Andreas Fault+1855+1991+Geodetic survey
J|0326|Nadeau,R.+Antolik,M.+Johnson,P.A.+|Seismological studies at Parkfield III: microearthquake clusters in the study of fault-zone dynamics||#BSA:84:2:1994:247-263|Parkfield+Fault zone+Clustering+Microearthquake
J|0327|Okamoto,T.|Location of shallow subduction-zone earthquakes inferred from teleseismic body waveforms||#BSA:84:2:1994:264-268|Location+Shallow earthquake+Subduction zone+Waveform
J|0328|Mendoza,C.+Hartzell,S.H.+Monfret,T.|Wide-band analysis of the 3 March 1985 central Chile earthquake: overall source process and rupture history||#BSA:84:2:1994:269-283|Earthquake+1985+Chile+Seismic process||#*SANANTONIO
J|0329|Cormier,V.F.+Su,W-J.|Effects of three-dimensional crustal structure on the estimated slip history and ground motion of the Loma Prieta earthquake||#BSA:84:2:1994:284-294|Earthquake+1989+Loma Prieta+Crustal structure||#*LOMAPRIETA89
J|0330|Chiarabba,C.+Malagnini,L.+Amato,A.|Three-dimensional velocity structure and earthquake relocation in the Alban Hills volcano, central Italy||#BSA:84:2:1994:295-306|Velocity structure+Italy+Volcano+Swarm
J|0331|Li,Y-G.+Teng,T-L.+Henyey,T.L.|Shear-wave splitting observations in the northern Los Angeles Basin, Southern California||#BSA:84:2:1994:307-323|Shear wave splitting+Los Angeles+Basin+Epicentre||#*UPLAND90|#*SANGABRIEL91
J|0332|Xie,X-B.+Lay,T.|The excitation of Lg waves by explosions: a finite-difference investigation||#BSA:84:2:1994:324-342|Lg-wave+Explosion+Finite difference method+Excitation
J|0333|Goldstein,P.+Denny,M.D.+Haul,T.+|On-site seismic yield (OSSY) estimates for BRISTOL based on nuclear to chemical explosion spectral ratios and yield scaling||#BSA:84:2:1994:343-349|Yield+Nuclear explosion+Chemical explosion+Spectral ratio
J|0334|Taylor,S.R.|False alarms and mine seismicity: an example from the Gentry Mountain mining region, Utah||#BSA:84:2:1994:350-358|Mining+Utah+Seismicity+Discrimination
J|0335|Bakun,W.H.+Fischer,F.G.+Jensen,E.G.+|Early warning system for aftershocks||#BSA:84:2:1994:359-365|Warning+Aftershock+California+Alarm system||#*LOMAPRIETA89
J|0336|Earle,P.S.+Shearer,P.M.|Characterization of global seismograms using an automatic-picking algorithm||#BSA:84:2:1994:366-376|Pick+Algorithm+Arrival time+Phase+ISC
J|0337|Abercrombie,R.E.|Regional bias in estimates of earthquake MS due to surface-wave path effects||#BSA:84:2:1994:377-382|Moment-magnitude relation+Surface wave+Path+Regional study+ISC
J|0338|Fah,D.+Suhadolc,P.+Mueller,St.+|A hybrid method for the estimation of ground motion in sedimentary basins: quantitative modelling for Mexico City||#BSA:84:2:1994:383-399|Earthquake+1985+Mexico City+Modelling||#*MEXICOCITY
J|0339|Atkinson,G.M.+Somerville,P.G.|Calibration of time history simulation methods||#BSA:84:2:1994:400-414|Time history+Calibration+Simulation+Ground motion||#*SAGUENAY88|#*MONTLAURIER90|#*CHARLEVOIX90|#*OTTAWA83
J|0340|Abe,K.|Instrumental magnitudes of historical earthquakes, 1892 to 1898||#BSA:84:2:1994:415-425|Historical earthquake+1892-1898+Magnitude+Instrument
J|0341|Papazachos,B.C.+Papadimitriou,E.E.+Karakaisis,G.F.+|An application of the time- and magnitude-predictable model for the long-term prediction of strong shallow earthquakes in the Japan area||#BSA:84:2:1994:426-437|Shallow earthquake+Japan+Prediction+Probability
J|0342|Tarbeyev,Yu.V.+Krivtsov,Ye.P.+Sinelnikov,A.Ye.+|A new method for absolute calibration of high-sensitivity accelerometers and other graviinertial devices||#BSA:84:2:1994:438-443|Calibration+Accelerometer+Instrument+Accuracy
J|0343|Weichert,D.H.|Omak Rock and the 1872 Pacific northwest earthquake||#BSA:84:2:1994:444-450|Earthquake+1872+Washington State+Boulder|Short note
J|0344|Lay,T.+Ritsema,J.+Ammon,C.J.+|Rapid source-mechanism analysis of the April 29, 1993 Cataract Creek (MW = 5.3), northern Arizona earthquake||#BSA:84:2:1994:451-457|Earthquake+1993+Arizona+Focal mechanism|Short note|#*CATARACT93|#*CATARACT93A
J|0345|Thurber,C.H.+Quin,H.R.+Saleh,R.|Catalog of locations of nuclear explosions at Balapan, Kazakhstan, 1965 to 1985||#BSA:84:2:1994:458-461|Catalogue+Nuclear explosion+Kazakhstan+1965-1985|Short note
J|0346|Frankel,A.|Implications of felt area-magnitude relations for earthquake scaling and the average frequency of perceptible ground motion||#BSA:84:2:1994:462-465|Earthquake+Magnitude+Felt+Ground motion|Short note
J|0347|DePolo,C.M.|The maximum background earthquake for the Basin and Range Province, western North America||#BSA:84:2:1994:466-472|Maximum earthquake+Magnitude+Basin & Range+Surface deformation|Short note
J|0348|Kijko,A.|Seismological outliers: L1 or adaptive Lp norm application||#BSA:84:2:1994:473-477|Location+Statistical method+Data processing+Inversion|Short note
J|0349|Gouin,P.|About the first earthquake reported in Canadian history||#BSA:84:2:1994:478-483|Historical earthquake+Canada|Short note
J|0350|Zare,M.+Moinfar,A.A.|Comment on `The Rudbar-Tarom earthquake of 20 June 1990 in NW Persia: preliminary field and seismological observations, and its tectonic significance' by M. Berberian, M. Qorashi, J. A. Jackson, K. Priestley and T. Wallace||#BSA:84:2:1994:484-485|Comments+Destructive earthquake+1990+Iran||#*MANJIL90
J|0351|Prentice,C.S.+Schwartz,D.P.|Errata to `Re-evaluation of 1906 surface faulting, geomorphic expression, and seismic hazard along the San Andreas fault in the southern Santa Cruz Mountains'||#BSA:84:2:1994:486|Errata+1906+San Andreas Fault+Surface deformation
J|0352|Seekins,L.C.+Boatwright,J.|Errata to `Ground motion amplification, geology, and damage from the 1989 Loma Prieta earthquake in the city of San Francisco'||#BSA:84:2:1994:487-490|Errata+Earthquake+1989+Loma Prieta
J|0353|Person,W.J.|Seismological notes - May-June 1993||#BSA:84:2:1994:491-496|Earthquake+1993
J|0354||Introduction to the 1992 Landers, California, earthquake sequence||#BSA:84:3:1994:497-498|Introduction+Earthquake+1992+California||#*LANDERS92|#*JOSHUATREE92|#*BIGBEAR92
J|0355|Johnson,A.M.+Fleming,R.W.+Cruikshank,K.M.|Shear zones formed along long, straight traces of fault zones during the 28 June 1992 Landers, California, earthquake||#BSA:84:3:1994:499-510|Earthquake+1992+Landers+Shear zone||#*LANDERS92
J|0356|Arrowsmith,J.R.+Rhodes,D.D.|Original forms and initial modifications of the Galway Lake Road scarp formed along the Emerson fault during the 28 June 1992 Landers, California, earthquake||#BSA:84:3:1994:511-527|Earthquake+1992+Landers+Surface deformation||#*LANDERS92
J|0357|Sowers,J.M.+Unruh,J.R.+Lettis,W.R.+|Relationship of the Kickapoo fault to the Johnson Valley and Homestead Valley faults, San Bernardino County, California||#BSA:84:3:1994:528-536|Surface deformation+Faulting+Southern California+Gravity||#*LANDERS92
J|0358|Unruh,J.R.+Lettis,W.R.+Sowers,J.M.|Kinematic interpretation of the 1992 Landers earthquake||#BSA:84:3:1994:537-546|Earthquake+1992+Landers+Kinematics||#*LANDERS92
J|0359|Lazarte,C.A.+Bray,J.D.+Johnson,A.M.+|Surface breakage of the 1992 Landers earthquake and its effect on structures||#BSA:84:3:1994:547-561|Earthquake+1992+Landers+Surface deformation||#*LANDERS92
J|0360|Lund,L.V.|Lifeline performance in the Landers and Big Bear (California) earthquakes of 28 June 1992||#BSA:84:3:1994:562-572|Earthquake+1992+Southern California+Public services||#*LANDERS92|#*BIGBEAR92
J|0361|Campbell,K.W.+Bozorgnia,Y.|Empirical analysis of strong ground motion from the 1992 Landers, California, earthquake||#BSA:84:3:1994:573-588|Earthquake+1992+Landers+Strong motion||#*LANDERS92
J|0362|Cramer,C.H.+Darragh,R.B.|Peak accelerations from the 1992 Landers and Big Bear, California, earthquakes||#BSA:84:3:1994:589-595|Earthquake+1992+California+Maximum acceleration||#*LANDERS92|#*BIGBEAR92
J|0363|Qu,J.+Teng,T-L.+Wang,J.|Modeling of short-period surface-wave propagation in Southern California||#BSA:84:3:1994:596-612|Southern California+Modelling+Surface wave+Propagation||#*LANDERS92
J|0364|Frankel,A.|Dense array recordings in the San Bernardino Valley of Landers-Big Bear aftershocks: basin surface waves, Moho reflections, and three-dimensional simulations||#BSA:84:3:1994:613-624|Array+Aftershock+Seismic recording+Southern California||#*BIGBEAR92B|#*BIGBEAR92C|#*BIGBEAR92D|#*LANDERS92A
J|0365|Hudnut,K.W.+Bock,Y.+Cline,M.+|Co-seismic displacements of the 1992 Landers earthquake sequence||#BSA:84:3:1994:625-645|Earthquake+1992+Landers+Displacement||#*LANDERS92
J|0366|Freymueller,J.+King,N.E.+Segall,P.|The co-seismic slip distribution of the Landers earthquake||#BSA:84:3:1994:646-659|Earthquake+1992+Landers+Slip||#*LANDERS92
J|0367|Johnson,H.O.+Agnew,D.C.+Hudnut,K.W.|Extremal bounds on earthquake movement from geodetic data: application to the Landers earthquake||#BSA:84:3:1994:660-667|Earthquake+1992+Landers+Geodetic measurement||#*LANDERS92|#*BIGBEAR92
J|0368|Wald,D.J.+Heaton,T.H.|Spatial and temporal distribution of slip for the 1992 Landers, California, earthquake||#BSA:84:3:1994:668-691|Earthquake+1992+Landers+Slip||#*LANDERS92
J|0369|Cohee,B.P.+Beroza,G.C.|Slip distribution of the 1992 Landers earthquake and its implications for earthquake source mechanics||#BSA:84:3:1994:692-712|Earthquake+1992+Landers+Slip||#*LANDERS92
J|0370|Dreger,D.S.|Investigations of the rupture process of the 28 June 1992 Landers earthquake utilizing TERRAscope||#BSA:84:3:1994:713-724|Earthquake+1992+Landers+Rupture||#*LANDERS92
J|0371|Abercrombie,R.E.+Mori,J.|Local observations of the onset of a large earthquake: 28 June 1992 Landers, California||#BSA:84:3:1994:725-734|Earthquake+1992+Landers+Onset||#*LANDERS92
J|0372|Velasco,A.A.+Ammon,C.J.+Lay,T.|Empirical Green function deconvolution of broadband surface waves: rupture directivity of the 1992 Landers, California (MW = 7.3), earthquake||#BSA:84:3:1994:735-750|Earthquake+1992+Landers+Deconvolution||#*LANDERS92
J|0373|Hara,T.+Geller,R.J.|Anomalously large near-field Rayleigh waves excited by the 1992 Landers, California, earthquake||#BSA:84:3:1994:751-760|Earthquake+1992+Landers+Rayleigh wave||#*LANDERS92
J|0374|Hough,S.E.+Ben-Zion,Y.+Leary,P.C.|Fault-zone waves observed at the southern Joshua Tree earthquake rupture zone||#BSA:84:3:1994:761-767|Aftershock+Southern California+Fault zone+Spectrum||#*JOSHUATREE92|#*LANDERS92
J|0375|Wyatt,F.K.+Agnew,D.C.+Gladwin,M.T.|Continuous measurements of crustal deformation for the 1992 Landers earthquake sequence||#BSA:84:3:1994:768-779|Earthquake+1992+Landers+Crustal deformation||#*LANDERS92
J|0376|Shen,Z-K.+Jackson,D.D.+Feng,Y-J.+|Postseismic deformation following the Landers earthquake, California, 28 June 1992||#BSA:84:3:1994:780-791|Earthquake+1992+Landers+Deformation||#*LANDERS92
J|0377|Johnston,M.J.S.+Mueller,R.J.+Sasai,Y.|Magnetic field observations in the near-field of the 28 June 1992 MW 7.3 Landers, California, earthquake||#BSA:84:3:1994:792-798|Earthquake+1992+Landers+Magnetic field||#*LANDERS92
J|0378|Johnston,M.J.S.+Linde,A.T.+Agnew,D.C.|Continuous borehole strain in the San Andreas fault zone before, during, and after the 28 June 1992, MW 7.3 Landers, California, earthquake||#BSA:84:3:1994:799-805|Earthquake+1992+Landers+San Andreas Fault||#*LANDERS92
J|0379|Bodin,P.+Bilham,R.+Behr,J.+|Slip triggered on Southern California faults by the 1992 Joshua Tree, Landers, and Big Bear earthquakes||#BSA:84:3:1994:806-816|Earthquake+1992+Southern California+Trigger||#*LANDERS92|#*BIGBEAR92|#*JOSHUATREE92
J|0380|Hough,S.E.|Southern surface rupture associated with the M 7.3 1992 Landers, California, earthquake||#BSA:84:3:1994:817-825|Earthquake+1992+Landers+Surface deformation||#*LANDERS92
J|0381|Behr,J.+Bilham,R.+Bodin,P.+|Eureka Peak fault afterslip following the 28 June 1992 Landers earthquake||#BSA:84:3:1994:826-834|Earthquake+1992+Landers+Slip||#*LANDERS92
J|0382|Bodin,P.+Gomberg,J.|Triggered seismicity and deformation between the Landers, California, and Little Skull Mountain, Nevada, earthquakes||#BSA:84:3:1994:835-843|Earthquake+Seismicity+Western United States+Triggering||#*LANDERS92|#*CALIFNEV92
J|0383|Gomberg,J.+Bodin,P.|Triggering of the MS = 5.4 Little Skull Mountain, Nevada, earthquake with dynamic strains||#BSA:84:3:1994:844-853|Earthquake+1992+Western United States+Triggering||#*CALIFNEV92
J|0384|Roquemore,G.R.+Simila,G.W.|Aftershocks from the 28 June 1992 Landers earthquake: northern Mojave desert to the Coso Volcanic Field, California||#BSA:84:3:1994:854-862|Aftershock+1992+Western United States+Seismicity||#*LANDERS92
J|0385|Anderson,J.G.+Brune,J.N.+Louie,J.N.+|Seismicity in the western Great Basin apparently triggered by the Landers, California, earthquake, 28 June 1992||#BSA:84:3:1994:863-891|Seismicity+Triggering+Great Basin+1992||#*LANDERS92
J|0386|Jones,L.M.|Foreshocks, aftershocks, and earthquake probabilities: accounting for the Landers earthquake||#BSA:84:3:1994:892-899|Probability+Aftershock+Foreshock+Western United States||#*LANDERS92|#*JOSHUATREE92|#*BIGBEAR92
J|0387|Wiemer,S.+Wyss,M.|Seismic quiescence before the Landers (M = 7.5) and Big Bear (M = 6.5) 1992 earthquakes||#BSA:84:3:1994:900-916|Earthquake+1992+Southern California+Quiescence||#*LANDERS92|#*BIGBEAR92
J|0388|Hauksson,E.|State of stress from focal mechanisms before and after the 1992 Landers earthquake sequence||#BSA:84:3:1994:917-934|Sequence+Stress+Focal mechanism+Southern California||#*LANDERS92|#*BIGBEAR92|#*JOSHUATREE92
J|0389|King,G.C.P.+Stein,R.S.+Lin,J.|Static stress changes and the triggering of earthquakes||#BSA:84:3:1994:935-953|Stress+Triggering+San Andreas Fault+Earthquake||#*LANDERS92|#*BIGBEAR92|#*JOSHUATREE92
J|0390|Sipkin,S.A.|Errata to `Display and assessment of earthquake focal mechanisms by vector representation'||#BSA:84:3:1994:954|Errata+Focal mechanism+Graphical representation+Seismic moment tensor
J|0391|Joyner,W.B.+Boore,D.M.|Errata to `Methods for regression analysis of strong-motion data'||#BSA:84:3:1994:955-956|Errata+Strong-motion analysis+Statistical method+Regression
J|0392|Person,W.J.|Seismological notes - July-August 1993||#BSA:84:3:1994:957-962|Earthquake+1993
J|0393|Johnson,J.M.+Tanioka,Y.+Ruff,L.J.+|The 1957 great Aleutian earthquake||#PAG:142:1:1994:1-28|Great earthquake+1957+Aleutian Arc+Source parameter||#*ANDREANOF
J|0394|Christensen,D.H.+Beck,S.L.|The rupture process and tectonic implications of the great 1964 Prince William Sound earthquake||#PAG:142:1:1994:29-53|Great earthquake+1964+Prince William Sound+Rupture+ISC
J|0395|Holdahl,S.R.+Sauber,J.|Coseismic slip in the 1964 Prince William Sound earthquake: a new geodetic inversion||#PAG:142:1:1994:55-82|Great earthquake+1964+Prince William Sound+Dip-slip
J|0396|Bufe,C.G.+Nishenko,S.P.+Varnes,D.J.|Seismicity trends and potential for large earthquakes in the Alaska-Aleutian region||#PAG:142:1:1994:83-99|Seismicity+Large earthquake+Aleutian Arc+Seismic potential
J|0397|Ruff,L.J.+Miller,A.D.|Rupture process of large earthquakes in the northern Mexico subduction zone||#PAG:142:1:1994:101-171|Large earthquake+Subduction zone+Mexico+Rupture+ISC||#*MEXICOCITY|#*MEXICOCITY2|#*MICHOACAN|#*PETATLAN|#*COLIMA73A|#*COLIMA73
J|0398|McCaffrey,R.|Global variability in subduction thrust zone-forearc systems||#PAG:142:1:1994:173-224|Subduction zone+Thrust fault+Forearc+Global tectonics
J|0399|Barrientos,S.E.|Large thrust earthquakes and volcanic eruptions||#PAG:142:1:1994:225-237|Eruption+Large earthquake+1960+Chile
J|0400|Nagahama,H.|Self-affine growth pattern of earthquake rupture zones||#PAG:142:2:1994:263-271|Fault zone+Earthquake+Rupture+Growth
J|0401|Boadu,F.K.+Long,L.T.|Statistical distribution of natural fractures and the possible physical generating mechanism||#PAG:142:2:1994:273-293|Fracture+Stress+Generation+Fractal distribution
J|0402|Wysession,M.E.+Shore,P.J.|Visualization of whole mantle propagation of seismic shear energy using normal mode summation||#PAG:142:2:1994:295-310|Propagation+Shear wave+Mantle+Synthetic seismogram
J|0403|Uarov,V.F.|The upper mantle structure of the Yakutian kimberlite province, eastern Russia||#PAG:142:2:1994:311-318|Upper mantle+Yakutiya+Kimberlite+Structure
J|0404|Chadha,R.K.|Excitation of T waves in the Indian Ocean between Srilanka and southern India||#PAG:142:2:1994:319-328|T-wave+Indian Ocean+Converted wave+Wave guide||#*INDIANOCEAN90|#*NICOBAR90
J|0405|Kobayashi,Y.|Effect of basal guided waves on landslides||#PAG:142:2:1994:329-346|Guided wave+Landslide+Wave theory
J|0406|Stillitani,E.+Teramo,A.+Bottari,A.|The Grandori model: anisotropic formulation and its application in the plotting of seismic hazard maps||#PAG:142:2:1994:347-364|Hazard+Anisotropy+Map+Macroseismic data+Southern Italy||#*FERRUZANO|#*REGGIOCALAB75
J|0407|Nava,F.A.|Review of `Rockbursts and seismicity in mines' edited by R. P. Young||#PAG:142:2:1994:407-409|Review+Rockburst+Mine+Seismicity
J|0408|Cochard,A.+Madariaga,R.|Dynamic faulting under rate-dependent friction||#PAG:142:3-4:1994:419-445|Faulting+Friction+Elastodynamics+Asperity
J|0409|Pisarenko,D.+Mora,P.|Velocity weakening in a dynamical model of friction||#PAG:142:3-4:1994:447-466|Asperity+Elastodynamics+Friction+Model
J|0410|McGarr,A.|Some comparisons between mining-induced and laboratory earthquakes||#PAG:142:3-4:1994:467-489|Induced earthquake+Mining+Laboratory+Stick-slip
J|0411|Sornette,D.+Miltenberger,P.+Vanneste,C.|Statistical physics of fault patterns self-organized by repeated earthquakes||#PAG:142:3-4:1994:491-527|Statistical method+Pattern+Recurrence+Fault
J|0412|Main,I.G.+Henderson,J.R.+Meredith,P.G.+|Self-organised criticality and fluid-rock interactions in the brittle field||#PAG:142:3-4:1994:529-543|Critical phenomenon+Fluid+Rock+b-Value
J|0413|Henderson,J.R.+Main,I.G.+Maclean,C.+|A fracture-mechanical cellular automaton model of seismicity||#PAG:142:3-4:1994:545-565|Seismicity+Seismogenesis+Fracture+Model
J|0414|De Bremaecker,J-C.+Wei,K.|The propagation of a single shear crack: a displacement discontinuity model||#PAG:142:3-4:1994:567-585|Shear+Crack+Boundary element method+Propagation
J|0415|Kanaori,Y.+Kawakami,S.+Yairi,K.|Seismotectonics of the median tectonic line in southwest Japan: implications for coupling among major fault systems||#PAG:142:3-4:1994:589-607|Seismotectonics+Japan+Coupling+Historical earthquake
J|0416|Bruhn,R.L.+Parry,W.T.+Yonkee,W.A.+|Fracturing and hydrothermal alteration in normal fault zones||#PAG:142:3-4:1994:609-644|Fault zone+Fracturing+Hydrothermy+Rock mechanics
J|0417|Sibson,R.H.|An assessment of field evidence for `Byerlee' friction||#PAG:142:3-4:1994:645-662|Fault zone+Friction+Upper crust+Geometry
J|0418|Evans,J.P.+Langrock,H.|Structural analysis of the Brigham City-Weber segment boundary zone, Wasatch normal fault, Utah: implications for fault growth and structure||#PAG:142:3-4:1994:663-685|Wasatch Fault+Fault plane+Stress+Kinematics
J|0419|Ma,X.Q.+Kusznir,N.J.|Coseismic and postseismic subsurface displacements and strains for a vertical strike-slip fault in a three-layer elastic medium||#PAG:142:3-4:1994:687-709|Layered medium+Subsurface+Strike-slip+Fault
J|0420|Kato,N.+Yamamoto,K.+Hirasawa,T.|Microfracture processes in the breakdown zone during dynamic shear rupture inferred from laboratory observation of near-fault high-frequency strong motion||#PAG:142:3-4:1994:713-734|Microfracture+Rupture+Strong motion+High frequency
J|0421|Anooshehpoor,A.+Brune,J.N.|Frictional heat generation and seismic radiation in a foam rubber model of earthquakes||#PAG:142:3-4:1994:735-747|Model+Earthquake+Radiation+Heat
J|0422|Scott,D.R.+Lockner,D.A.+Byerlee,J.D.+|Triaxial testing of Lopez fault gouge at 150 MPa mean effective stress||#PAG:142:3-4:1994:749-775|Rock mechanics+Stress+Gouge+Laboratory
J|0423|Sammis,C.G.+Steacy,S.J.|The micromechanics of friction in a granular layer||#PAG:142:3-4:1994:777-794|Granular medium+Mechanics+Friction+Model
J|0424|Nagahama,H.+Nakamura,N.|Application of the Pi theorem to the wear rate of gouge formation in frictional sliding of rocks||#PAG:142:3-4:1994:795-808|Gouge+Friction+Rock+Stress
A|0425|Marshall,P.D.+Porter,D.+Young,J.B.+|Analysis of short-period seismograms from explosions at the Novaya Zemlya test site in Russia|Report No. O 2/94|1994:Aldermaston, Berks:AWE|Novaya Zemlya+Explosion+Short-period wave+Seismogram+ISC|140p|#*NOVZEM73|#*NOVZEM73A|#*NOVZEM74|#*NOVZEM75
J|0426|Wang,B-Q.+Huang,H-M.+Fan,H-S.|The study and application of PTR algorithm on recognizing various structure samples||#ASS:7:1:1994:1-13|Pattern recognition+Structure+Algorithm+Prediction
J|0427|Li,Q-Z.+Yu,L-M.+Wang,J-Y.+|Grouping occurrences being the fundamental feature of the strong earthquakes in Chinese mainland||#ASS:7:1:1994:15-22|China+Strong earthquake+Space-time distribution+Occurrence
J|0428|Javaherian,A.|The optimum source-time function for generating finite-difference synthetic seismograms||#ASS:7:1:1994:23-31|Synthetic seismogram+Source-time function+Finite difference method+Spectrum
J|0429|Wang,S-Y.+Xu,Z-H.+Yu,Y-X.+|Relocation of microearthquakes in Beijing and its northwest neighbouring area||#ASS:7:1:1994:33-41|Beijing+Microearthquake+Hypocentre+Error
J|0430|Zhang,Z-L.|Interaction among fractures and stress field computation of fracture systems||#ASS:7:1:1994:43-54|Fracture+Stress field+Finite element method+Boundary element method
J|0431|Xie,X-S.+Ruan,X-P.|Mechanical analysis of en echelon structure and its significance of controlling earthquakes||#ASS:7:1:1994:55-65|Earthquake+Geologic structure+Fracturing+Mechanism
J|0432|Zhu,H-C.+Tao,Z-Y.|State of in situ stress in different rocks||#ASS:7:1:1994:67-83|Stress+Rock+Young's modulus+Lithology
J|0433|Diao,G-L.+Yu,L-M.+Li,Q-Z.|Variation of stress field in the source region around a strong shock: an example||#ASS:7:1:1994:85-92|Focal mechanism+Stress field+Precursor+Sequence||#*HAWAII
J|0434|Lu,Z-L.+Zhuang,Z.+Fu,Z-W.+|Analysis of the rising and sinking movement of the crust in Qinghai-Xizang Plateau, China||#ASS:7:1:1994:105-115|Tibet+Velocity structure+S-wave+Crustal movement
J|0435|Wang,C-Y.+Lou,H.+Song,Y-Q.|Database system for deep seismic sounding||#ASS:7:1:1994:117-125|Deep seismic sounding+Data base+Software
J|0436|Liao,Z-P.+Yang,G.|Finite element simulation of steady state SH wave motion||#ASS:7:1:1994:127-139|Finite element method+Simulation+SH-wave+Wave motion
J|0437|Jin,X.+Liao,Z-P.|The statistical laws of strong seismic motion phase characteristics||#ASS:7:1:1994:141-147|Strong-motion record+Phase velocity+Propagation+Statistical method
J|0438|Li,S-B.+Liu,Q-Y.+Shen,L-R.|A real-time algorithm for broadband high-dynamic seismic data compression||#ASS:7:1:1994:149-158|Algorithm+Seismic recording+Data processing+Broadband seismology
J|0439|Zhang,W.+King,C-Y.|Measurement of radon gas on major faults in California, USA||#ASS:7:1:1994:159-165|California+Radon+Fault
J|0440|Wang,M.+Zhang,L-Q.+Wang,P-D.|The fault plane of the 1991, Datong-Yanggao, Shanxi, China, MS=5.8 earthquake||#ASS:7:1:1994:167-172|Earthquake+1991+Datong+Fault plane|Research note|#*DATONG89A|#*DATONG91
J|0441|Chen,P-S.|Catalogue of earthquakes (June-August, 1993)||#ASS:7:1:1994:173-175|Earthquake catalogue+1993
J|0442|Zheng,S-H.+Gao,Y.|Azimuthal anisotropy in lithosphere on the Chinese mainland from observations of SKS at CDSN||#ASS:7:2:1994:177-186|SKS-wave+Anisotropy+Lithosphere+China||#*FIJI90A|#*VANUATU88
J|0443|Wu,Z-L.+Chen,Y-T.+Ni,J-C.+|Moment tensor inversion of near-source broadband data||#ASS:7:2:1994:187-199|Inversion+Moment tensor+Broadband seismology+Local event||#*LUQUAN
J|0444|Cheng,W-Z.+Chen,T-C.|Complex time-space spreading and focal mechanism of the 1989 Batang earthquake swarm (MS=6.7)||#ASS:7:2:1994:201-208|Earthquake+1989+Sichuan+Focal mechanism||#*SICHUAN89
J|0445|Yu,W-X.+Zhou,R-Q.+Hou,X-Y.+|Seismogenic mechanism of the Lancang and Gengma earthquakes||#ASS:7:2:1994:209-216|Earthquake+1988+Yunnan+Seismogenesis||#*YUNNAN88A|#*YUNNAN88B
J|0446|Wang,C-Y.+Wang,X-L.+Yan,Q-Z.|Three dimensional velocity structure beneath the Kunming Telemetered Seismic Network||#ASS:7:2:1994:217-226|Velocity structure+Yunnan+Local earthquake+Ray tracing
J|0447|Zhang,C.+Chen,L-W.+Zhao,G-G.+|Study of the segmentation of active fault by the boundary element method - analysis of the Xianshuihe fault zone||#ASS:7:2:1994:227-234|Segmentation+Boundary element method+Fault zone+Xianshuihe
J|0448|Lu,Y-Z.+Lu,Y-J.|Cellular automation model of faults and algorithmic complexity||#ASS:7:2:1994:235-244|Seismic process+Model+Fault+Lattice
J|0449|Hua,Z-X.+Liang,J.+Ma,Y-S.+|Temporal variations of coda Q-1 associated with the Dahaituoshan, Beijing, earthquake of 1990||#ASS:7:2:1994:263-272|Local earthquake+Temporal variation+Coda+Beijing||#*BEIJING90
J|0450|Zhao,Z.+Ding,Z-F.+Yi,G-X.+|Location of Tibetan earthquakes - a nonlinear approach by a simplex optimized technique||#ASS:7:2:1994:273-281|Earthquake+Location+Tibet+Technique||#*HIMALAYA89|#*TIBET91
J|0451|Xue,S-Z.+Wen,X-M.+Dong,Y-D.+|A new method for earthquake prediction by earth-resistivity measurements||#ASS:7:2:1994:291-299|Resistivity+Prediction+Anomaly+Inversion||#*YUNNAN88A|#*YUNNAN88B|#*TANGSHAN|#*XIAOJIN89
J|0452|Cao,H-X.+Qian,S-Q.+Lu,Z.|Experimental study of ultralong wave band for electro-magnetic signals and acoustic emission during rock fracture||#ASS:7:2:1994:301-308|Fracture+Acoustic emission+Rock+Electromagnetic emission
J|0453|Wang,L-Q.+Li,S-Y.|An aquifer model with a parameter characterizing the inhomogeneity of media||#ASS:7:2:1994:309-319|Porous medium+Water level+Precursor+Well
J|0454|Lin,Y-W.|Fault-weakening effect of reservoir temperature of hot spring and its influence on seismic activities||#ASS:7:2:1994:321-330|Hot spring+Temperature+Activity+Seismic potential|Discussion
J|0455|Feng,D-Y.+Ouchi,T.|New indexes and methods in earthquake prediction research||#ASS:7:2:1994:331-342|Prediction+Seismicity+Method|Review
J|0456|Gao,S-X.+Song,L-P.|A documental database of papers in Chinese seismological journals (English edition)||#ASS:7:2:1994:343-345|Data base+Computer
J|0457|Chen,P-S.|Catalogue of earthquakes (September-November, 1993)||#ASS:7:2:1994:347-349|Earthquake catalogue+1993
J|0458|Meadows,M.A.+Winterstein,D.F.|Seismic detection of a hydraulic fracture from shear-wave VSP data at Lost Hills Field, California||#GPS:59:1:1994:11-26|Vertical seismic profiling+Fracturing+Shear wave+California
J|0459|Rector,J.W.+Lazaratos,S.K.+Harris,J.M.+|Multidomain analysis and wavefield separation of cross-well seismic data||#GPS:59:1:1994:27-35|Cross-hole+Domain analysis+Imaging+Separation
J|0460|Moriya,H.+Nagano,K.+Niitsuma,H.|Precise source location of AE doublets by spectral matrix analysis of triaxial hodogram||#GPS:59:1:1994:36-45|Hodogram+Location+Acoustic emission+Matrix method
J|0461|Tutuncu,A.N.+Podio,A.L.+Sharma,M.M.|An experimental investigation of factors influencing compressional- and shear-wave velocities and attenuations in tight gas sandstones||#GPS:59:1:1994:77-86|Sandstone+Velocity+Attenuation+Frequency domain
J|0462|Mavko,G.+Jizba,D.|The relation between seismic P- and S-wave velocity dispersion in saturated rocks||#GPS:59:1:1994:87-92|Dispersion+Rock+Velocity+Pore fluid
J|0463|Ross,C.P.+Beale,P.L.|Seismic offset balancing||#GPS:59:1:1994:93-101|AVO+Reflexion+Sand+Common midpoint
J|0464|Block,L.V.+Cheng,C.H.+Fehler,M.C.+|Seismic imaging using microearthquakes induced by hydraulic fracturing||#GPS:59:1:1994:102-112|Imaging+Microearthquake+Fracturing+Fluid injection
J|0465|Chen,G.+Zhou,H-W.|Boundary element modeling of nondissipative and dissipative waves||#GPS:59:1:1994:113-118|Boundary element method+Dissipation+Acoustic wave+SH-wave
J|0466|Perelberg,A.I.+Hornbostel,S.C.|Applications of seismic polarization analysis||#GPS:59:1:1994:119-130|Polarization+Data analysis+Ellipticity+Direction
J|0467|Boulfoul,M.+Watts,D.R.|Separation and enhancement of split S-waves on multicomponent shot records from the BIRPS WISPA experiment||#GPS:59:1:1994:131-139|Shear wave splitting+Shot+BIRPS+Wavelet
J|0468|Duncan,G.+Beresford,G.|Slowness adaptive f-k filtering of prestack seismic data||#GPS:59:1:1994:140-147|Frequency-wavenumber analysis+Stack+Filtering+Slowness
J|0469|Sun,J.|Geometrical ray theory: edge-diffracted rays and their traveltimes (second-order approximation of the traveltimes)||#GPS:59:1:1994:148-155|Ray theory+Travel-times+Diffraction+Mathematical analysis
J|0470|Hatherly,P.J.+Urosevic,M.+Lambourne,A.+|A simple approach to calculating refraction statics corrections||#GPS:59:1:1994:156-160|Reflexion+Refraction+Statics+Shot|Short note
J|0471|Sorin,V.|Nonuniqueness of velocity determination for one type of layered model||#GPS:59:1:1994:161-164|Layered medium+Velocity+Common midpoint+Refractor|Short note
J|0472|Lerche,I.|Review of `Stress regimes in the lithosphere' by T. Engelder||#GPS:59:1:1994:166-167|Review+Lithosphere+Stress+Strain|Princeton University Press, 1993, 457p
J|0473|Kessler,D.+Chan,W-K.|Errata to `DMO velocity analysis with Jacubowicz's dip-decomposition method'||#GPS:59:1:1994:167|Errata+Dip moveout+Velocity+Decomposition
J|0474|MacBeth,C.D.+Zeng,X.+Yardley,G.S.+|Interpreting data matrix asymmetry in near-offset, shear-wave VSP data||#GPS:59:2:1994:176-191|Vertical seismic profiling+Shear wave splitting+Matrix method+Polarization
J|0475|Mukerji,T.+Mavko,G.|Pore fluid effects on seismic velocity in anisotropic rocks||#GPS:59:2:1994:233-244|Pore fluid+Velocity+Anisotropic medium+Rock
J|0476|Remy,J-M.+Bellanger,M.+Homand-Etienne,F.|Laboratory velocities and attenuation of P-waves in limestones during freeze-thaw cycles||#GPS:59:2:1994:245-251|P-wave+Velocity+Attenuation+Limestone
J|0477|Mavko,G.+Nolen-Hoeksema,R.|Estimating seismic velocities at ultrasonic frequencies in partially saturated rocks||#GPS:59:2:1994:252-258|Velocity+Saturation+Rock+Ultrasonics
J|0478|Jarchow,C.M.+Catchings,R.D.+Lutter,W.J.|Large-explosive source, wide recording aperture, seismic profiling on the Columbia Plateau, Washington||#GPS:59:2:1994:259-271|Columbia Plateau+Profiling+Explosion seismology+Seismic survey
J|0479|Faria,E.L.+Stoffa,P.L.|Traveltime computation in transversely isotropic media||#GPS:59:2:1994:272-281|Travel-times+Fermat's principle+Anisotropy+Grid
J|0480|Faria,E.L.+Stoffa,P.L.|Finite-difference modeling in transversely isotropic media||#GPS:59:2:1994:282-289|Modelling+Finite difference method+Anisotropy+Grid
J|0481|Krebes,E.S.+Quiroga-Goode,G.E.|A standard finite-difference scheme for the time-domain computation of anelastic wavefields||#GPS:59:2:1994:290-296|Finite difference method+Time domain+Anelasticity+Equation of motion
J|0482|Thore,P.D.+De Bazelaire,E.+Ray,M.P.|The three-parameter equation: an efficient tool to enhance the stack||#GPS:59:2:1994:297-308|Stack+Moveout+Noise+Interval velocity
J|0483|Levin,F.K.|Reflection point behavior in transversely isotropic solids||#GPS:59:2:1994:309-314|Anisotropy+Reflexion+Ray tracing+Plane wave
J|0484|Landrum,R.A.+Brook,R.A.+Sallas,J.J.|Polarity convention for vibratory source/recording systems||#GPS:59:2:1994:315-322|Vibrator+Polarity+Vibroseis+Seismic recording|Special report
J|0485|Kendall,C.|Review of `Ruptures of major earthquakes and active deformation in Mongolia and its surroundings' by I. Baljinnyam, A. Bayasgalan, B. A. Borisov et al||#GPS:59:2:1994:325|Review+Major earthquake+Mongolia+Rupture|Geological Society of America, Boulder, 1993, 62p
J|0486|Kendall,C.|Review of `Tsunamis in the world' by S. Tinti||#GPS:59:2:1994:326-327|Review+Tsunami+Global seismology+Mitigation|Kluwer Academic Publishers, Dordrecht, 1993, 229p
J|0487|Buoro,A.B.+Silva,J.B.C.|Ambiguity analysis of well-log data||#GPS:59:3:1994:336-344|Well-log+Inverse problem+Parameters+Analysis
J|0488|Tura,M.A.C.+Greaves,R.J.+Beydoun,W.B.|Crosswell seismic reflection/diffraction tomography: a reservoir characterization application||#GPS:59:3:1994:351-361|Cross-hole+Tomography+Reservoir+Seismic exploration
J|0489|Leveille,J.P.+Nerf,R.B.|Static delays in acoustic logging||#GPS:59:3:1994:362-370|Acoustic logging+Delay+Borehole
J|0490|Black,R.A.+Steeples,D.W.+Miller,R.D.|Migration of shallow seismic reflection data||#GPS:59:3:1994:402-410|Reflexion data+Migration+Shallow structure+Velocity
J|0491|Vernik,L.|Predicting lithology and transport properties from acoustic velocities based on petrophysical classification of siliciclastics||#GPS:59:3:1994:420-427|Rock+Porosity+Acoustic medium+Velocity
J|0492|Dvorkin,J.+Nolen-Hoeksema,R.+Nur,A.|The squirt-flow mechanism: macroscopic description||#GPS:59:3:1994:428-438|Viscoelastic medium+Mechanism+Sandstone+Pore fluid
J|0493|Whitcombe,D.N.|Fast model building using demigration and single-step ray migration||#GPS:59:3:1994:439-449|Migration+Exploration+Model+Depth
J|0494|Rosenbaum,J.H.|Synthetic seismograms for a long spread of seismometer stations||#GPS:59:3:1994:450-463|Synthetic seismogram+Response+Model+Layered medium
J|0495|Tessmer,E.+Kosloff,D.|3-D elastic modeling with surface topography by a Chebychev spectral method||#GPS:59:3:1994:464-473|Propagation+Topography+Wave field+Chebyshev method
J|0496|Musgrove,F.W.|Time-variant statics corrections during interpretation||#GPS:59:3:1994:474-483|Statics+Interpretation+Stack+Common midpoint
J|0497|Chang,C-H.+Gardner,G.H.F.+McDonald,J.A.|A physical model of shear-wave propagation in a transversely isotropic solid||#GPS:59:3:1994:484-487|Anisotropic medium+Propagation+Shear wave+Model|Short note
J|0498|Kendall,C.|Review of `Geological evolution of the Red Sea' by R. G. Coleman||#GPS:59:3:1994:491|Review+Red Sea+Evolution+Geology|1993
J|0499|Sheriff,R.R.|Review of `Tales of the Earth: paroxysms and perturbations of the blue planet' by C. Officer and J. Page||#GPS:59:3:1994:491-492|Review+Earth sciences+Earthquake|Oxford University Press, 1993, 225p
J|0500|Amundsen,L.+Mittet,R.|Estimation of phase velocities and Q-factors from zero-offset, vertical seismic profile data||#GPS:59:4:1994:500-517|Vertical seismic profiling+Zero offset+Phase velocity+Q
J|0501|Gibson,R.L.|Radiation from seismic sources in cased and cemented boreholes||#GPS:59:4:1994:518-533|Radiation+Down-hole source+Borehole+Synthetic seismogram
J|0502|Vernik,L.|Hydrocarbon-generation-induced microcracking of source rocks||#GPS:59:4:1994:555-563|Velocity+Microcrack+Shale+Ultrasonics
J|0503|Von Seggern,D.|Depth-imaging resolution of 3-D seismic recording patterns||#GPS:59:4:1994:564-576|Acoustic imaging+Resolution+Seismic survey+Pattern
J|0504|Jin,S.+Madariaga,R.|Nonlinear velocity inversion by a two-step Monte Carlo method||#GPS:59:4:1994:577-590|Monte Carlo method+Nonlinear inversion+Reflexion data+Velocity
J|0505|Phadke,S.+Kapotas,S.+Dai,N.+|Migration of P-wave reflection data in transversely isotropic media||#GPS:59:4:1994:591-596|Migration+P-wave+Reflexion data+Anisotropy
J|0506|Chang,W-F.+McMechan,G.A.|3-D elastic prestack, reverse-time depth migration||#GPS:59:4:1994:597-609|Reverse-time migration+Imaging+Reflector+Stack
J|0507|Artley,C.+Hale,D.|Dip-moveout processing for depth-variable velocity||#GPS:59:4:1994:610-622|Dip moveout+Common midpoint+Velocity+Depth
J|0508|Saatcilar,R.+Canitez,N.|The lattice filter in ground-roll suppression||#GPS:59:4:1994:623-631|Ground roll+Filter+Lattice+Reflexion
J|0509|Cao,S.+Greenhalgh,S.A.|Finite-difference solution of the eikonal equation using an efficient, first-arrival, wavefront tracking scheme||#GPS:59:4:1994:632-643|Finite difference method+Eikonal equation+First arrival+Wavefront
J|0510|Carcione,J.M.|Wavefronts in dissipative anisotropic media||#GPS:59:4:1994:644-657|Wavefront+Anisotropic medium+Dissipation+Velocity
J|0511|Michelena,R.J.|Elastic constants of transversely isotropic media from constrained aperture traveltimes||#GPS:59:4:1994:658-667|Anisotropy+Travel-times+P-wave+SV-wave
J|0512|Harbert,W.|Review of `Handbook of geophysical exploration at sea, hydrocarbons' and `Handbook of geophysical exploration at sea, hard minerals' by R. A. Geyer||#GPS:59:4:1994:685|Review+Exploration+Marine geophysical investigation|CRC Press, 1992, 473p & 520p
J|0513|Campbell,A.E.|Review of `Geological and geophysical evidence for deep subduction of continental crust beneath the Pamir' by V. S. Burtman and P. Molnar||#GPS:59:4:1994:685-686|Subduction+Continental crust+Earthquake+Pamir|Geological Society of America, Boulder, 1993, 76p
J|0514|Dickens,T.A.|Diffraction tomography for crosswell imaging of nearly layered media||#GPS:59:5:1994:694-706|Tomography+Layered medium+Cross-hole+Diffraction
J|0515|Kim,J.S.+Moon,W.M.+Lodha,G.+|Imaging of reflection seismic energy for mapping shallow fracture zones in crystalline rocks||#GPS:59:5:1994:753-765|Imaging+Fracture zone+Rock+Reflexion data
J|0516|Wilson,W.G.+Laidlaw,W.G.+Vasudevan,K.|Residual statics estimation using the genetic algorithm||#GPS:59:5:1994:766-774|Genetic algorithm+Statics+Residual+Imaging
J|0517|Blangy,J.P.|AVO in transversely isotropic media - an overview||#GPS:59:5:1994:775-781|Anisotropy+AVO+Gas sand+Shale
J|0518|Hildebrand,S.T.+McMechan,G.A.|1-D seismic inversion of dual wavefield data: part I, nonuniqueness and stability||#GPS:59:5:1994:782-788|Inversion+Wave field+Impedance+Interval velocity
J|0519|Hildebrand,S.T.+McMechan,G.A.|1-D seismic inversion of dual wavefield data: part II, a Gulf of Mexico example||#GPS:59:5:1994:789-800|Inversion+Wave field+Mexico, G. of+Impedance
J|0520|Rietveld,W.E.A.+Berkhout,A.J.|Prestack depth migration by means of controlled illumination||#GPS:59:5:1994:801-809|Migration+Stack+Shot+Depth
J|0521|Gray,S.H.+May,W.P.|Kirchhoff migration using eikonal equation traveltimes||#GPS:59:5:1994:810-817|Migration+Eikonal equation+Travel-times+Depth
J|0522|VanDecar,J.C.+Snieder,R.|Obtaining smooth solutions to large, linear, inverse problems||#GPS:59:5:1994:818-829|Inverse problem+Tomography+Smoothing+Velocity-depth function
J|0523|Ross,W.S.|The velocity-depth ambiguity in seismic traveltime data||#GPS:59:5:1994:830-843|Travel-times+Velocity-depth function+Reflexion+Perturbation
J|0524|Riahi,M.A.+Juhlin,C.|3-D interpretation of reflected arrival times by finite-difference techniques||#GPS:59:5:1994:844-849|Finite difference method+Arrival time+Reflexion+Velocity-depth function|Short note
J|0525|Kendall,C.|Review of `Carbonate concepts from the Maldives, Indian Ocean' by E. G. Purdy and G. T. Bertram||#GPS:59:5:1994:853-854|Review+Seismostratigraphy+Indian Ocean+Carbonate|AAPG, Tulsa, 1993, 56p
J|0526|Campbell,A.E.|Review of `Recent evolution and seismicity of the Mediterranean region' by E. Boschi, E. Mantovani and A. Morelli||#GPS:59:5:1994:855-856|Review+Evolution+Seismicity+Mediterranean
J|0527|Zahradnik,J.+O'Leary,P.+Sochacki,J.S.|Finite-difference schemes for elastic waves based on the integration approach||#GPS:59:6:1994:928-937|Finite difference method+Elastic wave+Integration+Synthetic seismogram
J|0528|Sacchi,M.D.+Velis,D.R.+Cominguez,A.H.|Minimum entropy deconvolution with frequency-domain constraints||#GPS:59:6:1994:938-945|Spectrum+Minimum entropy+Deconvolution+Frequency domain
J|0529|Bishop,T.N.+Nunns,A.G.|Correcting amplitude, time, and phase mis-ties in seismic data||#GPS:59:6:1994:946-953|Correction+Seismic survey+Least squares+Algorithm
J|0530|Bruno,M.S.+Winterstein,D.F.|Some influences of stratigraphy and structure on reservoir stress orientation||#GPS:59:6:1994:954-962|S-wave+Stress+Orientation+Reservoir
J|0531|Blonk,B.+Herman,G.C.|Inverse scattering of surface waves: a new look at surface consistency||#GPS:59:6:1994:963-972|Scattering+Surface wave+Model+Inverse problem
J|0532|Yilmaz,O.+Taner,M.T.|Discrete plane-wave decomposition by least-mean-square-error method||#GPS:59:6:1994:973-982|Decomposition+Plane wave+Statistical method+Slant stack
J|0533|Castle,R.J.|A theory of normal moveout||#GPS:59:6:1994:983-999|Theory+Moveout+Common midpoint+Layered medium
J|0534|Beresnev,I.A.+Johnson,P.A.|Elastic-wave stimulation of oil production: a review of methods and results||#GPS:59:6:1994:1000-1017|Elastic wave+Oil+Water level+Earthquake
J|0535|Kendall,C.|Review of `Development geology reference manual' by D. Morton-Thompson and A. M. Woods||#GPS:59:6:1994:1018-1019|Review+Geology+Exploration|AAPG, Tulsa, 1993, 550p
J|0536|Kendall,C.|Review of `Laramide basement deformation in the Rocky Mountain foreland of the western United States' edited by C. J. Schmidt, R. B. Chase and E. A. Erslev||#GPS:59:6:1994:1019|Review+Western United States+Basement+Deformation|Geological Society of America, Boulder, 1993, 365p
J|0537|Kendall,C.|Review of `Structural traps VIII, treatise of petroleum geology, atlas of oil and gas fields' compiled by N. H. Foster and E. A. Beaumont||#GPS:59:6:1994:1021|Review+Trap+Stratigraphy+Map|AAPG, Tulsa, 1993, 328p
J|0538|Agee,C.B.|Petrology of the mantle transition zone||#ARE:21:-:1993:19-41|Petrology+Mantle+Transition zone+Velocity
J|0539|Le Pichon,X.+Henry,P.+Lallemant,S.|Accretion and erosion in subduction zones: the role of fluids||#ARE:21:-:1993:307-331|Subduction zone+Fluid+Accretionary wedge+Tectonics
J|0540|Jackson,I.|Progress in the experimental study of seismic wave attenuation||#ARE:21:-:1993:375-406|Attenuation+Anelasticity+Laboratory+Rock mechanics
J|0541|Kalinin,V.A.+Bayuk,I.O.|Thermodynamical constraints on effective elastic moduli of anisotropic rocks|In Russian|#RFZ:-:1:1994:10-17|Anisotropy+Rock+Thermodynamics+Elastic modulus
J|0542|Erteleva,O.O.+Yunga,S.L.+Danilova,M.A.|Numerous fault-plane solutions for earthquakes in the Kopet-Dag area|In Russian|#RFZ:-:1:1994:47-55|Fault plane solution+Kopet-Dag+1988+Turkmeniya
J|0543|Skovorodkin,Yu.P.+Guseva,T.V.+Sigalov,B.A.+|Geophysical observations of aftershocks of the April 29, 1991, Caucasus earthquake|In Russian|#RFZ:-:1:1994:56-69|1991+Caucasus+Destructive earthquake+Aftershock||#*WCAUCASUS91
J|0544|Morozova,L.I.|The effect of clouds on nuclear explosions|In Russian|#RFZ:-:1:1994:89-90|Nuclear explosion+Atmosphere+Kazakhstan|Scientific communication
J|0545|Sobolev,G.A.+Zavyalov,A.D.+Sedova,E.N.|Ethical code in earthquake prediction|In Russian|#RFZ:-:1:1994:91-93|Prediction+Code+Map|Chronicle
J|0546|Gubin,I.Ye.+Balakina,L.M.|The first monograph on sea-bottom seismology|In Russian|#RFZ:-:1:1994:94-96|Review+Ocean-bottom seismograph+Seismology|A book review
J|0547|Mashinsky,E.I.|Quasimicroplastic processes and nonlinear seismic|In Russian|#RFZ:-:2:1994:3-9|Plasticity+Process+Nonlinear wave+Seismics
J|0548|Nikonov,A.A.|Pronounced earthquakes and seismic potential of the Caucasus Mineral'nikh Vod (by microseismic data)|In Russian|#RFZ:-:2:1994:10-18|Seismic potential+Strong earthquake+Caucasus+Microseismic data
J|0549|Gershenzon,N.I.+Gokhberg,M.B.|On the origin of anomalous ultra-low frequency geomagnetic field disturbances prior to Loma Prieta earthquake (California)|In Russian|#RFZ:-:2:1994:19-24|Loma Prieta+Geomagnetic field+Low frequency+Anomaly||#*LOMAPRIETA89
J|0550|Epinat'eva,A.M.|A physical meaning of seismic velocities defined by different methods and techniques and possibility of their utilization for the interpretation. A review|In Russian|#RFZ:-:2:1994:33-38|Physical properties+Seismic waves+Velocity+Interpretation|Scientific communication
J|0551|Zaslavsky,Yu.M.|Load with a cyclic displacement of the interactive point as a source of seismic waves-harmonics|In Russian|#RFZ:-:2:1994:53-56|Displacement+Point source+Seismic waves+Harmonic analysis|Scientific communication
J|0552|Panfilof,V.S.|Hydrothermal phenomena in seismic genesis|In Russian|#RFZ:-:2:1994:79-87|Hydrothermy+Seismogenesis+Induced seismicity+Dam|Letter to the editor
J|0553|Yakovlev,A.P.+Aleshin,V.A.|Studying monochromatic components of high-frequency seismic noise|In Russian|#RFZ:-:3:1994:3-19|High frequency+Seismic noise+Strain+Deformation
J|0554|Voytov,G.I.+Dobrovolsky,I.P.|Chemical and carbon-isotopic instabilities of fluxes of natural gases in seismic regions|In Russian|#RFZ:-:3:1994:20-31|Isotope+Instability+Seismic zone+Gas
J|0555|Kim,V.P.+Khechay,V.V.+Illich-Svitych,P.V.|On a possible ionospheric earthquake precursor|In Russian|#RFZ:-:3:1994:37-40|Ionosphere+Precursor+Earthquake
J|0556|Belousov,T.P.|Relief paleodislocations in the Pleistocene zone of the Racha, South Caucasus, 1991 earthquake|In Russian|#RFZ:-:3:1994:41-48|1991+Caucasus+Damaging earthquake+Palaeorift|Scientific communication|#*WCAUCASUS91
J|0557|Enman,S.V.+Popov,O.E.|Periodicities in ground movements from geodetic data (the Garm Test Site)|In Russian|#RFZ:-:3:1994:49-55|Ground motion+Geodetic measurement+Garm+Movement|Scientific communication
J|0558|Shamina,O.G.+Palenov,A.M.+Tkachenko,V.S.+|Amplitude-frequency characteristics of a mantle medium with growing cracks|In Russian|#RFZ:-:3:1994:56-62|Mantle+Crack+Amplitude+Frequency|Scientific communication
J|0559|Yepinatyeva,A.M.+Goloshubin,G.M.+Ibrayev,V.I.+|New potentialities for studying velocity structures in seismic prospecting|In Russian|#RFZ:-:3:1994:63-71|Velocity structure+Seismic prospecting|Scientific communication
J|0560|Baranova,V.V.+Grachev,A.F.+Kalashnikova,I.V.+|Geodynamic zoning and seismicity of North China|In Russian|#RFZ:-:4:1994:3-11|Geodynamics+Seismicity+North China+Zoning
J|0561|Kuzin,I.P.|On the problem of velocity inhomogeneity of the Benioff zone|In Russian|#RFZ:-:4:1994:12-24|Benioff zone+Velocity+Inhomogeneity+Kuril-Kamchatka Arc
J|0562|Gonchar,V.V.|Experience of studying seismicity in the phase space: case study of the Kamchatka seismic zone|In Russian|#RFZ:-:4:1994:25-33|Seismicity+Phase+Kamchatka+Seismic zone
J|0563|Al-Yazjeen,T.+Yanovskaya,T.B.|Peculiarities of seismicity and seismic regime in Jordan|In Russian|#RFZ:-:4:1994:34-40|Seismicity+Seismic process+Jordan+Dead Sea
J|0564|Kalinnikov,I.I.+Matyunin,V.P.+Nyunina,N.A.|A property of weakly damped torsion balance with a vertical suspension filament|In Russian|#RFZ:-:4:1994:41-54|Torsion+Seismometer+Theory
J|0565|Kondorskaya,N.V.+Ngo Thi Li+Neviadomsky,Ya.|On determination of main source parameters for earthquakes of North Vietnam|In Russian|#RFZ:-:4:1994:68-72|Source parameter+Vietnam+Magnitude+Velocity structure|Scientific communication
J|0566|Bondar',A.L.+Vykalyuk,S.V.+Serebryakova,L.I.+|Regularities of vertical movements of the Earth's surface in the region of the Crimea nuclear power plant construction|In Russian|#RFZ:-:4:1994:73-77|Vertical movement+Surface+Crimea+Nuclear power plant|Scientific communication
J|0567|Nazarov,V.E.|Seismoacoustic tomography of the parameter of dissipative non-linear behavior|In Russian|#RFZ:-:4:1994:82-85|Seismoacoustics+Tomography+Dissipation+Nonlinearity|Scientific communication
J|0568|Grigoryants,B.V.|A new aspect of solving the problem of seismicity|In Russian|#RFZ:-:4:1994:88-96|Seismicity+Caspian Sea+Krasnovodsk+Turkmeniya|Discussion
J|0569|Antonova,L.V.+Aptikayev,F.F.+Krestnikov,V.N.+|Evaluation of seismic activity from rock fracturing examination|In Russian|#RFZ:-:5:1994:3-10|Seismicity+Rock+Fracturing+Tadzhikistan+Kirgiziya
J|0570|Zubkov,S.I.+Sekerzh-Zen'kovich,S.Ya.+Sekerzh-Zen'kovich,D.S.|Occurrence time of strain precursor as related to earthquake magnitude and epicentral distance|In Russian|#RFZ:-:5:1994:27-31|Strain+Precursor+Magnitude+Distance
J|0571|Storchak,D.A.+Tatevosyan,R.E.+Shebalin,N.V.|On the intermediate depth seismicity at the opposite ends of the Himalayan Arc|In Russian|#RFZ:-:5:1994:32-41|Intermediate-depth earthquake+Himalayas+Seismicity
J|0572|Tertyshnikov,A.V.|Ozone effects of seismicity in the Caucasus back-area|In Russian|#RFZ:-:5:1994:53-61|Ozone+Seismicity+Caucasus
J|0573|Zimenkov,S.V.+Nazarov,V.E.|Non-linear propagation of acoustic waves in rocks|In Russian|#RFZ:-:5:1994:62-64|Nonlinearity+Propagation+Acoustic wave+Rock
J|0574|Guglielmi,A.V.+Levshenko,V.T.|Earthquake generated electromagnetic signals|In Russian|#RFZ:-:5:1994:65-70|Electromagnetic emission+Earthquake+Prediction
J|0575|Nikonov,A.A.|The catastrophic earthquake in Mangyshlak|In Russian|#RFZ:-:5:1994:71-74|Mangyshlak+Destructive earthquake+1208|Scientific communication
J|0576|Dobrovolsky,I.P.|Seismic efficiency of a tectonic earthquake|In Russian|#RFZ:-:5:1994:87-90|Efficiency+Earthquake+Tectonics|Scientific communication
J|0577|Dmitriyeva,L.A.+Isanina,E.V.|New potentialities of the method of converted waves for studying the crustal structure|In Russian|#RFZ:-:5:1994:91-93|Crustal structure+Converted wave|Scientific communication
J|0578|Rykov,A.V.+Marchenkov,A.Yu.+Ulomov,I.V.|Wide-band digital record of the India, 9.30.1993, earthquake|In Russian|#RFZ:-:5:1994:94-96|Broadband seismograph+Digital recording+India+1993+Destructive earthquake|Letter to the editor|#*LATUR93
J|0579|Berdichevsky,M.N.|Content geoelectrical research in Russia|In Russian|#RFZ:-:6:1994:4-22|Russia+Geoelectricity+Prospecting+Profile
J|0580|Gorodnitsky,A.M.|Review of `Introduction to marine geophysics' by E. M. Litvinov|In Russian|#OKN:34:3:1994:476|Review+Marine geophysical investigation|Nedra Publishers, St Petersburg, 1993, 185p
J|0581|Grad,M.+Tripolsky,A.A.|Structure of the Ukrainian Shield. Part 3: seismic and petrological models of the crust||#APL:42:1:1994:23-44|Ukrainian Shield+Crustal structure+Model+Deep seismic sounding
J|0582|Droste,Z.+Gadomska,B.+Maj,S.|Professor Jozef Hordejuk (1929-1993) and his scientific activity in seismology||#APL:42:1:1994:75-80|Obituary+Seismology+Mine tremor+Earthquake engineering
J|0583|Gibowicz,S.J.+Wiejacz,P.|A search for the source non-shearing components of seismic events induced in Polish coal mines||#APL:42:2:1994:81-110|Coal mine+Source+Moment tensor+Induced seismicity
J|0584|Finnie,G.|A stationary model for time-dependent seismic hazard in mining||#APL:42:2:1994:111-118|Mining+Hazard+Model+South Africa
J|0585|Czechowski,Z.+Teisseyre,R.+Yamashita,T.|Theory of the earthquake premonitory and fracture rebound processes: evolution of stresses||#APL:42:2:1994:119-135|Theory+Fracturing+Stress+Seismic process
J|0586|Kharitonov,O.M.+Tripolsky,A.A.|Stratification of the upper lithosphere of the Ukrainian Shield by seismic sounding data||#APL:42:2:1994:137-148|Deep seismic sounding+Ukrainian Shield+Stratification+Upper lithosphere
J|0587|Bala,M.|Effect of water and gas saturation in layers on elastic parameters of rocks and reflection coefficients of waves||#APL:42:2:1994:149-158|Elastic medium+Saturation+Reflexion coefficient+Physical properties
J|0588|Bondarenko,V.I.+Rashidov,V.A.+Seliverstov,N.I.+|Submarine volcano west of Paramushir Island|In Russian with English abstract|#VSM:-:1:1994:13-18|Seismoacoustics+Profile+Submarine volcano+Kuril-Kamchatka Arc
J|0589|Kardanova,O.F.+Dubrovskaya,I.K.|State of Stary Kikhpinych crater during 1980-1989|In Russian with English abstract|#VSM:-:1:1994:19-33|Volcanic tremor+Kamchatka+1980-1989+Water
J|0590|Khachay,O.A.|On the study of a statistical association between tectonic activity and solar activity using methods from the mathematical theory of entropy|In Russian with English abstract|#VSM:-:1:1994:45-51|Tectonics+Solar activity+Seismicity+Entropy
J|0591|Levchenko,O.V.+Ostrovsky,A.A.|Seismic seafloor observations: a study of "anomalous" intraplate seismicity in the northeastern Indian Ocean|In Russian with English abstract|#VSM:-:1:1994:52-62|Ocean-bottom seismograph+Indian Ocean+Intraplate seismicity+Deep seismic sounding
J|0592|Khatkevich,Yu.M.|On intermediate-term prediction of earthquakes felt in the town of Petropavlovsk-Kamchatsky|In Russian with English abstract|#VSM:-:1:1994:63-67|Prediction+Petropavlovsk-Kamchatskii+Macroseismicity+Groundwater
J|0593|Bourmin,V.Yu.|New approach to determination of hypocenter's parameters for far earthquakes|In Russian with English abstract|#VSM:-:1:1994:68-79|Hypocentre+Teleseism+Computational seismology+Velocity
J|0594|Kolyasnikov,Yu.A.|Discussion on `On the nature of tsunami-generating earthquakes' by L. I. Lobkovsky|In Russian|#VSM:-:1:1994:85-87|Comments+Tsunami+Earthquake
J|0595|Leonov,V.L.+Ivanov,V.V.|Earthquakes of the Karymsky volcanic center and their relation to tectonics|In Russian with English abstract|#VSM:-:2:1994:24-40|Volcano+Kamchatka+Tremor+Tectonics
J|0596|Kopylova,G.N.+Sugrobov,V.M.+Khatkevich,Yu.M.|Variations in the regime of springs and hydrogeological boreholes in the Petropavlovsk polygon (Kamchatka) related to earthquakes|In Russian with English abstract|#VSM:-:2:1994:53-70|Petropavlovsk+1986-1992+Earthquake+Groundwater
J|0597|Bondarenko,V.I.+Dubrovsky,V.N.|Geophysical researches of the R/V "Vulkanolog" in the area of Raoul Island, Kermadec arc|In Russian with English abstract|#VSM:-:2:1994:76-85|Kermadec Islands+Marine geophysical investigation+Profile+Caldera
J|0598|Vikulin,A.V.|On the nature of Australian earthquakes|In Russian with English abstract|#VSM:-:2:1994:99-108|Australia+Macroseismic data+Spatial distribution+Temporal distribution
J|0599|Bourmin,V.Yu.+Akhmetyev,V.M.|Errors of location near earthquakes and efficient seismological networks|In Russian with English abstract|#VSM:-:2:1994:109-128|Near earthquake+Location+Network+Tadzhikistan
J|0600|Kopylova,G.N.|Features of hydrochemical regime variation of a thermal spring influenced by volcano-tectonic activation of Karymsky volcano|In Russian with English abstract|#VSM:-:3:1994:50-55|Kamchatka+Volcano+Tremor+Groundwater
J|0601|Kargopol'tsev,A.A.+Andreeva,E.Yu.+Yashchuk,V.V.|Routine seismic sounding of the Avachinsky Gulf in Kamchatka|In Russian with English abstract|#VSM:-:3:1994:56-70|Sounding+Kamchatka+Forecast+Large earthquake
J|0602|Mel'nikov,Yu.Yu.|Calculation of Kamchatka earthquake coordinates with computer. Shortcomings and advantages of the program GIPO-77 and practice of its application|In Russian with English abstract|#VSM:-:3:1994:71-89|Kamchatka+Earthquake+Location+Computer program
J|0603|Yaroshevich,M.I.+Feofilaktov,V.D.+Yakhryushin,V.N.|On seismic estimates of some tropical cyclone characteristics|In Russian with English abstract|#VSM:-:3:1994:90-97|Microseism+Storm+Location+Strength
J|0604|Kluev,V.A.+Lipson,A.G.+Toporov,Yu.P.+|Is the increase of the neutron background in Moscow the consequence of earthquake in Romania in May 30, 1990?|In Russian|#VSM:-:3:1994:106-108|Radiation+Moscow+1990+Romania+Major earthquake|Brief communication|#*VRANCEA90
J|0605|Touhei,T.+Ohmachi,T.|Modal analysis of a dam-foundation system based on an FE-BE method in the time domain||#EES:23:1:1994:1-15|Time domain+Dam+Foundation+Earthquake engineering
J|0606|Koh,C.G.+Mahatma,S.+Wang,C.M.|Theoretical and experimental studies on rectangular liquid dampers under arbitrary excitations||#EES:23:1:1994:17-31|Damper+Liquid+Vibration+Aseismic design
J|0607|Mork,K.J.|Response analysis of reinforced concrete structures under seismic excitation||#EES:23:1:1994:33-48|Reinforced concrete+Structural response+Frame+Computer program
J|0608|Tung,A.T.Y.+Wong,F.S.+Dong,W.|Prediction of the spatial distribution of the Modified Mercalli Intensity using neural networks||#EES:23:1:1994:49-62|Spatial distribution+Neural network+Modified Mercalli intensity+Prediction
J|0609|Venkataramana,K.|Earthquake response of tension-leg-platforms in steady currents||#EES:23:1:1994:63-74|Dynamic response+Soil-structure interaction+Offshore structure
J|0610|Correnza,J.C.+Hutchinson,G.L.+Chandler,A.M.|Effect of transverse load-resisting elements on inelastic earthquake response of eccentric-plan buildings||#EES:23:1:1994:75-89|Inelasticity+Building+Dynamic response+Ground motion
J|0611|Wolf,J.P.+Meek,J.W.|Insight on 2D- versus 3D-modelling of surface foundations via strength-of-materials solutions for soil dynamics||#EES:23:1:1994:91-112|Soil dynamics+Foundation+Modelling
J|0612|Liu,W-M.|Discussion on `Partial eigensolution of damped structural systems by Arnoldi's method' by H. C. Chen||#EES:23:1:1994:113-115|Comments+Dynamic analysis+Damping+Algorithm|Short communication with a reply by the author
J|0613|De la Llera,J.C.+Chopra,A.K.|Accidental torsion in buildings due to stiffness uncertainty||#EES:23:2:1994:117-136|Building code+Torsion+Stiffness
J|0614|Udwadia,F.E.+Kumar,R.|Iterative methods for non-classically damped dynamic systems||#EES:23:2:1994:137-152|Iterative method+Numerical analysis+Damping+Dynamic response
J|0615|Makris,N.|Soil-pile interaction during the passage of Rayleigh waves: an analytical solution||#EES:23:2:1994:153-167|Rayleigh wave+Soil-structure interaction+Pile+Mathematical analysis
J|0616|Song,C-M.+Wolf,J.P.|Dynamic stiffness of unbounded medium based on damping-solvent extraction||#EES:23:2:1994:169-181|Stiffness+Damping+Dynamic analysis+Finite element method
J|0617|Miura,K.+Kaynia,A.M.+Masuda,K.+|Dynamic behaviour of pile foundations in homogeneous and non-homogeneous media||#EES:23:2:1994:183-192|Pile+Dynamic response+Foundation+Inhomogeneity
J|0618|Liou,G-S.|Dynamic stiffness matrices for two circular foundations||#EES:23:2:1994:193-210|Dynamic analysis+Matrix+Stiffness+Foundation
J|0619|Pantelides,C.P.+Behr,R.A.|Dynamic in-plane racking tests of curtain wall glass elements||#EES:23:2:1994:211-228|Damage+Building+Glass+Laboratory
J|0620|Wolf,J.P.+Song,C-M.|Dynamic-stiffness matrix of unbounded soil by finite-element multi-cell cloning||#EES:23:3:1994:233-250|Finite element method+Soil dynamics+Stiffness+Matrix
J|0621|Makris,N.|Complex-parameter Kelvin model for elastic foundations||#EES:23:3:1994:251-264|Dynamic response+Foundation+Model+Parameters
J|0622|Makris,N.|The imaginary counterpart of recorded motions||#EES:23:3:1994:265-273|Complex system+Ground motion+Model
J|0623|Veletsos,A.S.+Younan,A.H.|Dynamic soil pressures on rigid vertical walls||#EES:23:3:1994:275-301|Dynamic response+Pressure+Wall+Soil-structure interaction
J|0624|Cheng,M.+Popplewell,N.|Neural network for earthquake selection in structural time history analysis||#EES:23:3:1994:303-319|Neural network+Time history+Structural response+Earthquake
J|0625|Luco,J.E.+De Barros,F.C.P.|Dynamic displacements and stresses in the vicinity of a cylindrical cavity embedded in a half-space||#EES:23:3:1994:321-340|Cavity+Half-space+Dynamic response+Cylinder
J|0626|Meek,J.W.+Wolf,J.P.|Material damping for lumped-parameter models of foundations||#EES:23:4:1994:349-362|Foundation+Model+Damping+Viscoelasticity
J|0627|Aprile,A.+Benedetti,A.+Trombetti,T.|On non-linear dynamic analysis in the frequency domain: algorithms and applications||#EES:23:4:1994:363-388|Frequency domain+Algorithm+Dynamic analysis+Nonlinear response
J|0628|Trifunac,M.D.|Fourier amplitude spectra of strong motion acceleration: extension to high and low frequencies||#EES:23:4:1994:389-411|Strong motion+Fourier spectrum+Low frequency+High frequency
J|0629|Economou,S.N.+Fardis,M.N.|Uniform reliability safety format for seismic design of reinforced concrete structures||#EES:23:4:1994:413-431|Reinforced concrete+Safety+Aseismic design+Flexure
J|0630|Loh,C-H.+Jean,W-Y.+Penzien,J.|Uniform-hazard response spectra - an alternative approach||#EES:23:4:1994:433-445|Spectrum+Earthquake-resistant design+Hazard+Probability
J|0631|Benedetti,D.+Gentile,C.|Identification of modal quantities from two earthquake responses||#EES:23:4:1994:447-462|Structural response+Building+Mode+Parameters||#*WHITTIER|#*CAMPANIA
J|0632|Ambraseys,N.N.+Srbulov,M.|Attenuation of earthquake-induced ground displacements||#EES:23:5:1994:467-487|Earthquake+Strong motion+Displacement+Attenuation
J|0633|Manzocchi,G.M.E.+Chryssanthopoulos,M.+Elasnashi,A.S.|An analytical solution for the probabilistic response of SDOF non-linear random systems subjected to variable amplitude cyclic loading||#EES:23:5:1994:489-506|Hysteresis+Loading+Nonlinear response+Earthquake-resistant design
J|0634|Vidic,T.+Fajfar,P.+Fischinger,M.|Consistent inelastic design spectra: strength and displacement||#EES:23:5:1994:507-521|Design+Spectrum+Inelasticity+Ductility
J|0635|Fajfar,P.+Vidic,T.|Consistent inelastic design spectra: hysteretic and input energy||#EES:23:5:1994:523-537|Design+Spectrum+Inelasticity+Ductility
J|0636|Schmitendorf,W.E.+Jabbari,F.+Yang,J.N.|Robust control techniques for buildings under earthquake excitation||#EES:23:5:1994:539-552|Building+Control+Aseismic design+Civil engineering
J|0637|Luco,J.E.+De Barros,F.C.P.|Seismic response of a cylindrical shell embedded in a layered viscoelastic half-space. I: formulation||#EES:23:5:1994:553-567|Cylinder+Half-space+Response+Viscoelastic medium
J|0638|De Barros,F.C.P.+Luco,J.E.|Seismic response of a cylindrical shell embedded in a layered viscoelastic half-space. II: validation and numerical results||#EES:23:5:1994:569-580|Cylinder+Half-space+Response+Viscoelastic medium
J|0639|Beresnev,I.A.+Wen,K-L.+Yeh,Y.T.|Source, path and site effects on dominant frequency and spatial variation of strong ground motion recorded by SMART1 and SMART2 arrays in Taiwan||#EES:23:6:1994:583-597|Site effect+Ground motion+Array+Taiwan
J|0640|Wen,K-L.|Non-linear soil response in ground motions||#EES:23:6:1994:599-608|Ground motion+Earthquake+Taiwan+Soil+Nonlinear response
J|0641|Smith,H.A.+Wu,W-H.+Borja,R.I.|Structural control considering soil-structure interaction effects||#EES:23:6:1994:609-626|Soil-structure interaction+Control+Structure
J|0642|Rodriguez,M.|A measure of the capacity of earthquake ground motions to damage structures||#EES:23:6:1994:627-643|Ground motion+Damage+Building+Parameters
J|0643|Veletsos,A.S.+Younan,A.H.|Dynamic soil pressures on rigid cylindrical vaults||#EES:23:6:1994:645-669|Cylinder+Pressure+Dynamic response+Shaking
J|0644|Guan,F.+Novak,M.|Transient response of a group of rigid strip surface foundations||#EES:23:6:1994:671-685|Foundation+Half-space+Response+Numerical analysis
J|0645|Tso,W.K.|Discussion on `Inelastic seismic response of code-designed multistorey frame buildings with regular asymmetry' by X. N. Duan and A. M. Chandler||#EES:23:6:1994:687-689|Comments+Frame+Structural response+Asymmetry+Building code|Short communication with a reply by the authors
J|0646|Emmi,P.C.+Horton,C.A.|The benefits of a seismic retrofit program for commercial unreinforced masonry structures: Salt Lake County, Utah||Earthq. Spectra:9:1:1993:1-10|Masonry structure+Utah+Building code+Risk
J|0647|Emmi,P.C.+Horton,C.A.|A GIS-based assessment of earthquake property damage and casualty risk: Salt Lake County, Utah||Earthq. Spectra:9:1:1993:11-33|Utah+Risk+Damage+Casualties
J|0648|French,S.P.|Public property damage and emergency response costs: comparing the Loma Prieta and Whittier Narrows earthquakes||Earthq. Spectra:9:1:1993:35-54|Earthquake+Damage+Building+Public works||#*LOMAPRIETA89|#*WHITTIER
J|0649|Grigorian,M.|On the dynamic analysis of regular shear structures||Earthq. Spectra:9:1:1993:55-66|Dynamic analysis+Building+Shear+Mathematical analysis
J|0650|Maragakis,E.+Saiidi,M.+Abdel-Ghaffar,S.|Response of R/C buildings during the 1987 Whittier Narrows earthquake||Earthq. Spectra:9:1:1993:67-95|Structural response+Earthquake+1987+Whittier Narrows||#*WHITTIER
J|0651|Thenhaus,P.C.+Hanson,S.L.+Effendi,I.+|Pilot studies of seismic hazard and risk in north Sulawesi Province, Indonesia||Earthq. Spectra:9:1:1993:97-120|Indonesia+Hazard+Risk+Seismicity+ISC||#*MINAHASSA90
J|0652|Uang,C-M.|An evaluation of two-level seismic design procedure||Earthq. Spectra:9:1:1993:121-135|Earthquake+Design+Building code+Structural response
J|0653|Wallace,J.W.+Moehle,J.P.|An evaluation of ductility and detailing requirements of bearing wall buildings using data from the March 3, 1985, Chile earthquake||Earthq. Spectra:9:1:1993:137-156|Earthquake+1985+Chile+Building||#*SANANTONIO
J|0654|Bender,B.K.+Perkins,D.M.|Treatment of parameter uncertainty and variability for a single seismic hazard map||Earthq. Spectra:9:2:1993:165-195|Hazard+Map+Parameters+Accuracy
J|0655|Hays,W.W.+Anderson,W.W.+Bufe,C.G.+|The National Earthquake Hazards Reduction Program (NEHRP): postearthquake investigations||Earthq. Spectra:9:2:1993:197-207|Hazard+Damaging earthquake+Mitigation+Seismology
J|0656|Hodder,A.P.W.+Graham,M.Z.|Earthquake microzoning from soil properties||Earthq. Spectra:9:2:1993:209-231|Microzoning+Soil+New Zealand+Damaging earthquake||#*EDGECUMBE
J|0657|Miranda,E.|Evaluation of seismic design criteria for highway bridges||Earthq. Spectra:9:2:1993:233-250|Bridge+Earthquake-resistant design+Loma Prieta+Code||#*LOMAPRIETA89
J|0658|Schneider,J.F.+Silva,W.J.+Stark,C.|Ground motion model for the 1989 M 6.9 Loma Prieta earthquake including effects of source, path, and site||Earthq. Spectra:9:2:1993:251-287|Ground motion+Loma Prieta+1989+Earthquake||#*LOMAPRIETA89
J|0659|Steidl,J.H.|Variation of site response at the UCSB dense array of portable accelerometers||Earthq. Spectra:9:2:1993:289-302|Site response+Array+Aftershock+Southern California||#*LANDERS92B|#*LANDERS92C|#*LANDERS92D
J|0660|Hanson,R.D.|Supplemental damping for improved seismic performance||Earthq. Spectra:9:3:1993:319-334|Damping+Performance+Building+Response
J|0661|Aiken,I.D.+Nims,D.K.+Whittaker,A.S.+|Testing of passive energy dissipation systems||Earthq. Spectra:9:3:1993:335-370|Dissipation+Laboratory+Damping+Earthquake-resistant design
J|0662|Chang,K.C.+Soong,T.T.+Lai,M.L.+|Viscoelastic dampers as energy dissipation devices for seismic applications||Earthq. Spectra:9:3:1993:371-387|Viscoelastic damping+Dissipation+Structural response+Earthquake-resistant design
J|0663|Bergman,D.M.+Hanson,R.D.|Viscoelastic mechanical damping devices tested at real earthquake displacements||Earthq. Spectra:9:3:1993:389-417|Viscoelastic damping+Displacement+Dynamic response+Earthquake-resistant design
J|0664|Lobo,R.F.+Bracci,J.M.+Shen,K.L.+|Inelastic response of R/C structures with viscoelastic braces||Earthq. Spectra:9:3:1993:419-446|Reinforced concrete+Braced+Viscoelastic damping+Dynamic analysis
J|0665|Cherry,S.+Filiatrault,A.|Seismic response control of buildings using friction dampers||Earthq. Spectra:9:3:1993:447-466|Damper+Friction+Building+Structural response
J|0666|Nims,D.K.+Richter,P.J.+Bachman,R.E.|The use of the energy dissipating restraint for seismic hazard mitigation||Earthq. Spectra:9:3:1993:467-489|Mitigation+Hazard+Hysteresis+Damper
J|0667|Grigorian,C.E.+Yang,T-S.+Popov,E.P.|Slotted bolted connection energy dissipators||Earthq. Spectra:9:3:1993:491-504|Dissipation+Friction+Aseismic design+Structural dynamics
J|0668|Tsai,K-C.+Chen,H-W.+Hong,C-P.+|Design of steel triangular plate energy absorbers for seismic-resistant construction||Earthq. Spectra:9:3:1993:505-528|Earthquake-resistant design+Steel frame+Pseudodynamic test+Stiffness
J|0669|Pinelli,J-P.+Craig,J.I.+Goodno,B.J.+|Passive control of building response using energy dissipating cladding connections||Earthq. Spectra:9:3:1993:529-546|Control+Structural response+Design+Building
J|0670|Pall,A.+Vezina,S.+Proulx,P.+|Friction-dampers for seismic control of Canadian Space Agency Headquarters||Earthq. Spectra:9:3:1993:547-557|Damper+Aseismic design+Structural response+Frame
J|0671|Perry,C.L.+Fierro,E.A.+Sedarat,H.+|Seismic upgrade in San Francisco using energy dissipation devices||Earthq. Spectra:9:3:1993:559-579|San Francisco+Earthquake-resistant design+Building+Braced||#*LOMAPRIETA89
J|0672|Martinez-Romero,E.|Experiences on the use of supplementary energy dissipators on building structures||Earthq. Spectra:9:3:1993:581-625|Building+Mexico City+Mitigation+Earthquake-resistant design
J|0673|Scholl,R.E.|Fundamental design issues for supplemental damping applications||Earthq. Spectra:9:3:1993:627-636|Damping+Building+Spectrum+Earthquake-resistant design
J|0674|Fah,D.+Iodice,C.+Suhadolc,P.+|A new method for the realistic estimation of seismic ground motion in megacities: the case of Rome||Earthq. Spectra:9:4:1993:643-668|Rome+Ground motion+Earthquake+1915
J|0675|Field,E.H.+Jacob,K.H.|Monte-Carlo simulation of the theoretical site response variability at Turkey Flat, California, given the uncertainty in the geotechnically derived input parameters||Earthq. Spectra:9:4:1993:669-701|Site response+California+Prediction+Amplitude
J|0676|Hu,S-P.|Seismic design of buildings in China||Earthq. Spectra:9:4:1993:703-737|China+Building code+Earthquake-resistant design
J|0677|Jain,S.K.+Das,S.|Analysis of strong motion records from Uttarkashi earthquake for assessment of code provisions for different seismic zones||Earthq. Spectra:9:4:1993:739-754|Zoning+India+1991+Earthquake||#*NINDIA91
J|0678|Kakaliagos,A.K.+Bouwkamp,J.G.|Tests on steel and composite beam-to-column connections strength and stiffness aspects||Earthq. Spectra:9:4:1993:755-780|Steel+Building+Beam+Column
J|0679|Park,R.+Rodriguez,M.E.+Dekker,D.R.|Assessment and retrofit of a reinforced concrete bridge pier for seismic resistance||Earthq. Spectra:9:4:1993:781-801|Reinforced concrete+Bridge+Earthquake-resistant design+Vulnerability
J|0680|Pezeshk,S.+Chang,T.S.+Yiak,K.C.+|Seismic vulnerability evaluation of bridges in Memphis and Shelby County, Tennessee||Earthq. Spectra:9:4:1993:803-816|Bridge+Vulnerability+New Madrid+Preparedness
J|0681|Pincheira,J.A.|Design strategies for the seismic retrofit of reinforced concrete frames||Earthq. Spectra:9:4:1993:817-842|Frame+Reinforced concrete+Earthquake-resistant design+Building
J|0682|Popov,E.P.+Yang,T-S.+Grigorian,C.E.|New directions in structural seismic designs||Earthq. Spectra:9:4:1993:843-875|Steel frame+Building code+Spectrum+Design||#*LANDERS92|#*LOMAPRIETA89|#*MEXICOCITY|#*SALVADOR86
J|0683|Rabinowitz,N.+Steinberg,D.M.+Leonard,G.|When does seismic hazard jump?||Earthq. Spectra:9:4:1993:877-883|Hazard+Parameters+Probability|Technical note
J|0684|Viksne,A.+Wood,C.+Copeland,D.|Bureau of Reclamation strong motion instrumentation program||Earthq. Spectra:9:4:1993:885-887|Strong motion+Instrumentation+Western United States+Station location|Technical note|#*LOMAPRIETA89|#*COALINGA
J|0685|Zembaty,Z.+Boffi,G.|Effect of rotational seismic ground motion on dynamic response of slender towers||#EEE:8:1:1994:3-11|Ground motion+Dynamic response+Tower+Rotation
J|0686|Succarieh,M.F.+Elgamal,A-W.|A model for computation of seismic large displacements in earth structures: applications||#EEE:8:1:1994:12-21|Model+Displacement+Dynamic analysis+Dam
J|0687|Succarieh,M.F.+Elgamal,A-W.+Lin,J.I.|A model for computation of seismic large displacements in earth structures: formulation and verification||#EEE:8:1:1994:22-30|Model+Displacement+Dynamic analysis+Structural response
J|0688|Al-Brahim,A.M.|Free vibration of membrane dams||#EEE:8:1:1994:31-37|Vibration+Dam
J|0689|Trifunac,M.D.|Similarity of strong motion earthquakes in California||#EEE:8:1:1994:38-48|California+Strong motion+Earthquake+Parameters
J|0690||Review of `Introduction to elastic wave propagation' by A Bedford and D. S. Drumheller||#EEE:8:1:1994:51|Review+Elastic wave+Propagation+Nonlinearity|John Wiley & Sons Ltd., Chichester, 1994, 297p
J|0691|Sugiyama,Y.|Neotectonics of southwest Japan due to the right-oblique subduction of the Philippine Sea plate||#GFN:33:1:1994:53-76|Neotectonics+Japan+Subduction+Plate-boundary earthquake+Historical earthquake
J|0692|Khutorskoy,M.D.+Delgado-Argote,L.A.+Fernandez,R.+|Tectonics of the offshore Manzanillo and Tecpan basins, Mexican Pacific, from heat flow, bathymetric and seismic data||#GFN:33:1:1994:161-185|Tectonics+Basin+Marine geophysical investigation+Mexico
J|0693|Singh,S.K.+Pacheco,J.F.|Magnitude determination of Mexican earthquakes||#GFN:33:2:1994:189-198|Mexico+Magnitude scale+Earthquake+Energy
J|0694|Yamamoto,J.|Seismicity of the Clarion fracture zone and its possible tectonic implications|In Spanish with English abstract|#GFN:33:2:1994:199-209|Seismicity+Mexico+Fracture zone+1984-1986+ISC
J|0695|Nava,F.A.+Garcia-Arthur,R.E.|Obtaining station corrections for local seismological networks; corrections for the RESCO network of Colima|In Spanish with English abstract|#GFN:33:2:1994:211-221|Station correction+Network+Colima+Location
J|0696|Segura,F.+Havskov,J.|The new Nicaraguan seismic network||#GFN:33:2:1994:223-233|Network+Nicaragua+Station location+Seismicity
J|0697|Guterman,V.G.+Khasan,Y.M.|Possible mechanism of preparing intensive shallow-foci earthquakes|In Russian with English abstract|#GFZ:16:1:1994:22-29|Mechanism+Shallow-focus earthquake+Mantle upwelling+Magma
J|0698|Lossovsky,E.K.|Studies of uniqueness of solving an inverse kinematic problem of refraction by the mean velocity method|In Russian with English abstract|#GFZ:16:1:1994:29-35|Refraction+Velocity+Kinematics+Inverse problem
J|0699|Belinsky,I.V.+Danilenko,V.A.+Mikulak,S.V.|Pulse disturbance in a medium with initial stress|In Russian with English abstract|#GFZ:16:1:1994:72-77|Wave motion+Explosion+Stress+Numerical analysis|Scientific communication
J|0700|Burachovich,T.K.+Gordienko,V.V.+Kulik,S.N.+|Tectonosphere of south Cis-Carpathians|In Russian with English abstract|#GFZ:16:2:1994:46-56|Carpathians+Geophysical investigation+Deep structure+Electrical conductivity
J|0701|Lebedev,T.S.+Korchin,V.A.+Burtny,P.A.|Petrovelocity models of the Earth's crust of the south-Ukrainian NPP area and some adjacent territories|In Russian with English abstract|#GFZ:16:3:1994:24-38|Crustal structure+Ukrainian Shield+Profile+Velocity
J|0702|Malitsky,D.V.|Recurrent method of solving the inverse dynamic problem of seismic exploration in a vertically inhomogeneous horizontally stratified medium|In Russian with English abstract|#GFZ:16:3:1994:61-66|Exploration+Inverse problem+Layered medium+Mathematical analysis|Scientific communication
J|0703|Zheng,X.+Vere-Jones,D.|Further applications of the stochastic stress release model to historical earthquake data||#TCT:229:1-2:1994:101-121|Historical earthquake+Stochastic model+China+Iran+Japan+Stress
J|0704|Doser,D.I.+Yarwood,D.R.|Deep crustal earthquakes associated with continental rifts||#TCT:229:1-2:1994:123-131|Deep crust+Continental rift+Earthquake+Focal mechanism||#*ERUSSIA89|#*YAKUTSK89|#*UTAH89
J|0705|Yoshioka,S.+Yabuki,T.+Sagiya,T.+|Interplate coupling in the Kanto district, central Japan, deduced from geodetic data inversion and its tectonic implications||#TCT:229:3-4:1994:181-200|Kanto+Geodetic measurement+Seismotectonics+Plate interaction
J|0706|Pirazzoli,P.A.+Stiros,S.C.+Arnold,M.+|Episodic uplift deduced from Holocene shorelines in the Perachora Peninsula, Corinth area, Greece||#TCT:229:3-4:1994:201-209|Corinth, G. of+Uplift+Holocene+Historical seismicity
J|0707|Alavi,M.|Tectonics of the Zagros orogenic belt of Iran: new data and interpretations||#TCT:229:3-4:1994:211-238|Tectonics+Iran+Epicentre+Geology
J|0708|Grad,M.+Luosto,U.|Seismic velocities and Q-factors in the uppermost crust beneath the SVEKA profile in Finland||#TCT:230:1-2:1994:1-18|SVEKA+Velocity structure+Upper crust+Q+Finland
J|0709|Mokhtar,T.A.+Al-Saeed,M.M.|Shear velocity structures of the Arabian Peninsula||#TCT:230:1-2:1994:105-125|Shear wave+Velocity structure+Arabia+Crust||#*SIRAN86
J|0710|Singh,D.D.|Shear wave velocity structure over the eastern Indian subcontinent||#TCT:230:1-2:1994:127-134|India+Shear wave+Velocity structure+Crust
J|0711|Ben-Avraham,Z.|Review of `Tectonics and seismic sequence stratigraphy' edited by G. D. Williams and A. Dobb||#TCT:230:1-2:1994:141|Review+Tectonics+Seismostratigraphy
J|0712|Hippolyte,J-C.+Angelier,J.+Roure,F.|A major geodynamic change revealed by Quaternary stress patterns in the southern Apennines (Italy)||#TCT:230:3-4:1994:199-210|Apennines+Stress+Focal mechanism+Quaternary||#*CAMPANIA
J|0713|Morinaga,H.+Yonezawa,T.+Adachi,Y.+|The possibility of inferring paleoseismicity from paleomagnetic dating of speleothems, western Japan||#TCT:230:3-4:1994:241-248|Palaeoseismicity+Japan+Palaeomagnetism+Limestone
J|0714|Milano,G.+Vilardo,G.+Luongo,G.|Continental collision and basin opening in southern Italy: a new plate subduction in the Tyrrhenian Sea?||#TCT:230:3-4:1994:249-264|Tyrrhenian Sea+Seismicity+1985-1990+Subduction+ISC
J|0715|Demetrescu,C.+Andreescu,M.|On the thermal regime of some tectonic units in a continental collision environment in Romania||#TCT:230:3-4:1994:265-276|Intermediate-depth earthquake+Romania+Thermal structure+Tectonics
J|0716|Gee,D.G.+Lobkowicz,M.+Singh,S.|Late Caledonian extension in the Scandinavian Caledonides - the Roragen Detachment revisited||#TCT:231:1-3:1994:139-155|Caledonides+Extension+Orogeny+Reflexion study
J|0717|Lillie,R.J.+Bielik,M.+Babuska,V.+|Gravity modelling of the lithosphere in the eastern Alpine-western Carpathian-Pannonian Basin region||#TCT:231:4:1994:215-235|Europe+Lithosphere+Crustal thickness+Gravity modelling
J|0718|Frost,B.R.+Bucher,K.|Is water responsible for geophysical anomalies in the deep continental crust? A petrological perspective||#TCT:231:4:1994:293-309|Water+Deep crust+Petrology+Anomaly
J|0719|Muco,B.|Focal mechanism solutions for Albanian earthquakes for the years 1964-1988||#TCT:231:4:1994:311-323|Albania+Focal mechanism+1964-1988+Earthquake||#*ALBANIA88|#*MONTENEGRAN
J|0720|Goleby,B.R.+Drummond,B.J.+Korsch,R.J.+|Review of recent results from continental deep seismic profiling in Australia||#TCT:232:1-4:1994:1-12|Australia+Deep seismic sounding+Basin+Exploration
J|0721|Levander,A.R.+Fuis,G.S.+Wissinger,E.S.+|Seismic images of the Brooks Range fold and thrust belt, Arctic Alaska, from an integrated seismic reflection/refraction experiment||#TCT:232:1-4:1994:13-30|Alaska+Velocity structure+Reflexion study+Refraction study
J|0722|Hall,J.+Quinlan,G.|A collisional crustal fabric pattern recognised from seismic reflection profiles of the Appalachian/Caledonide orogen||#TCT:232:1-4:1994:31-42|Appalachians+Caledonides+Reflexion study+Crust
J|0723|Marillier,F.+Hall,J.+Hughes,S.+|Lithoprobe East onshore-offshore seismic refraction survey - constraints on interpretation of reflection data in the Newfoundland Appalachians||#TCT:232:1-4:1994:43-58|Appalachians+Reflexion data+Seismic survey+Lithoprobe
J|0724|Gallart,J.+Vidal,N.+Danobeitia,J.J.+|Lateral variations in the deep crustal structure at the Iberian margin of the Valencia trough imaged from seismic reflection methods||#TCT:232:1-4:1994:59-75|Reflexion study+Valencia Trough+Lateral variation+Deep crust
J|0725|Garcia-Duenas,V.+Banda,E.+Torne,M.+|A deep seismic reflection survey across the Betic Chain (southern Spain): first results||#TCT:232:1-4:1994:77-89|Betic Cordillera+Crustal structure+Mohorovicic discontinuity+Deep seismic sounding
J|0726|Perez-Estaun,A.+Pulgar,J.A.+Banda,E.+|Crustal structure of the external variscides in northwest Spain from deep seismic reflection profiling||#TCT:232:1-4:1994:91-118|Crustal structure+Spain+Variscides+Deep seismic sounding
J|0727|Beaumont,C.+Fullsack,P.+Hamilton,J.|Styles of crustal deformation in compressional orogens caused by subduction of the underlying lithosphere||#TCT:232:1-4:1994:119-132|Crustal deformation+Subduction+Orogeny+Model
J|0728|Lie,J.E.+Husebye,E.S.|Simple-shear deformation of the Skagerrak lithosphere during the formation of the Oslo Rift||#TCT:232:1-4:1994:133-141|Skagerrak+Oslo Rift+Lithosphere+Marine seismic investigation
J|0729|Lewry,J.F.+Hajnal,Z.+Green,A.G.+|Structure of a Paleoproterozoic continent-continent collision zone: a LITHOPROBE seismic reflection profile across the Trans-Hudson Orogen, Canada||#TCT:232:1-4:1994:143-160|Trans-Hudson Orogen+Continental collision+Profile+Lithoprobe
J|0730|Lucas,S.B.+White,D.J.+Hajnal,Z.+|Three-dimensional collisional structure of the Trans-Hudson Orogen, Canada||#TCT:232:1-4:1994:161-178|Trans-Hudson Orogen+Continental collision+Reflexion study+Structure
J|0731|Lindsey,G.+Snyder,D.|Pre-critical wide-angle reflections from the Baltic shield: evidence for a 1.8 Ga subduction complex||#TCT:232:1-4:1994:179-194|BABEL+Baltic Shield+Dipping reflector+Subduction
J|0732|Clement,W.P.+Carbonell,R.+Smithson,S.B.|Shear-wave splitting in the lower crust beneath the Archean crust of southwest Greenland||#TCT:232:1-4:1994:195-210|Shear wave splitting+Greenland+Lower crust+Anisotropy
J|0733|Boyd,N.K.+Smithson,S.B.|Seismic profiling of Archean crust: crustal structure in the Morton block, Minnesota River Valley subprovince||#TCT:232:1-4:1994:211-224|Minnesota+Profiling+Crustal structure+Mohorovicic discontinuity
J|0734|Warner,M.+Spaargaren,B.+Jones,R.+|High-resolution images of the lower crust: deep seismic reflections from 15 to 180 Hz||#TCT:232:1-4:1994:225-237|High resolution+Lower crust+England+Deep seismic sounding
J|0735|Deemer,S.J.+Hurich,C.A.|The reflectivity of magmatic underplating using the layered mafic intrusion analog||#TCT:232:1-4:1994:239-255|Reflectivity+Underplating+Norway+Magma
J|0736|Beaudoin,B.C.|Lower-crustal deformation during terrane dispersion along strike-slip faults||#TCT:232:1-4:1994:257-266|Strike-slip+Lower crust+Alaska+California
J|0737|Holliger,K.+Levander,A.R.+Carbonell,R.+|Some attributes of wavefields scattered from Ivrea-type lower crust||#TCT:232:1-4:1994:267-279|Ivrea+Wave field+Lower crust+Scattering
J|0738|Levander,A.R.+Hobbs,R.W.+Smith,S.K.+|The crust as a heterogeneous "optical" medium, or "crocodiles in the mist"||#TCT:232:1-4:1994:281-297|Common midpoint+Crust+Velocity+Heterogeneous medium
J|0739|Barnes,A.E.|Moho reflectivity and seismic signal penetration||#TCT:232:1-4:1994:299-307|North America+Reflectivity+Mohorovicic discontinuity+Depth
J|0740|Long,R.E.+Matthews,P.A.+Graham,D.P.|The nature of crustal boundaries: combined interpretation of wide-angle and normal-incidence seismic data||#TCT:232:1-4:1994:309-318|Reflexion data+Boundary+Crust+Incidence, Angle of
J|0741|Morgan,J.V.+Hadwin,M.+Warner,M.R.+|The polarity of deep seismic reflections from the lithospheric mantle: evidence for a relict subduction zone||#TCT:232:1-4:1994:319-328|Polarity+Deep seismic sounding+Upper mantle+Scotland
J|0742|Rabbel,W.|Seismic anisotropy at the Continental Deep Drilling Site (Germany)||#TCT:232:1-4:1994:329-341|Anisotropy+Drilling+Germany+Vertical seismic profiling
J|0743|Luschen,E.|Crustal "bright spots" and anisotropy from multi-component P- and S-wave measurements in southern Germany||#TCT:232:1-4:1994:343-354|Anisotropy+Germany+Bright spot+Vertical seismic profiling
J|0744|Steentoft,H.+Rabbel,W.|Seismic mapping of the Marmousi data set with the common reflecting element method (CRE method)||#TCT:232:1-4:1994:355-363|Imaging+Stacking+Inversion+Reflexion data
J|0745|Marthelot,J-M.+Siliqi,R.+Bitri,A.+|Three-dimensional imaging of the crust using a sparse land acquisition grid: the ECORS 2.5-D experiment||#TCT:232:1-4:1994:365-377|Imaging+Deep crust+Grid+Pyrenees
J|0746|Carbonell,R.+Clement,W.P.+Smithson,S.B.|Joint P- and S-wave velocity determination from reflected PP, SS and converted PS/SP phases from large aperture seismic reflection measurements||#TCT:232:1-4:1994:379-389|Converted wave+Velocity-depth function+Inversion+Reflected wave
J|0747|Levato,L.+Sellami,S.+Epard,J-L.+|The cover-basement contact beneath the Rawil axial depression (western Alps): true amplitude seismic processing, petrophysical properties, and modelling||#TCT:232:1-4:1994:391-409|Seismic processing+Western Alps+Basement depth+Reflexion data
J|0748|Fountain,D.M.+Boundy,T.M.+Austrheim,H.+|Eclogite-facies shear zones - deep crustal reflectors?||#TCT:232:1-4:1994:411-424|Deep crust+Reflector+Shear zone+Velocity
J|0749|McBride,J.H.+Henstock,T.J.+White,R.S.+|Seismic reflection profiling in deep water: avoiding spurious reflectivity at lower-crustal and upper-mantle traveltimes||#TCT:232:1-4:1994:425-435|Marine seismic investigation+Travel-times+Multiple reflexion+BIRPS
J|0750|Vasudevan,K.+Cook,F.A.|Residual statics estimation in crustal reflection profiling using the simulated annealing search technique - an ensemble approach||#TCT:232:1-4:1994:437-450|Statics+Profiling+Imaging+Crust
J|0751|Thompson,R.N.+Gibson,S.A.|Magmatic expression of lithospheric thinning across continental rifts||#TCT:233:1-2:1994:41-68|Thinning+Lithosphere+Magmatism+Continental rift
J|0752|Senechal,G.+Thouvenot,F.|Seismic diffraction from the North Pyrenean fault: a depth-migrated line-drawing of the ECORS profile||#TCT:233:1-2:1994:83-89|Diffraction+Pyrenees+Profile+ECORS
J|0753|Li,D-S.+Zheng,Z-B.+Wang,B-H.|Research into the multifractal of earthquake spatial distribution||#TCT:233:1-2:1994:91-97|Spatial distribution+Earthquake+Fractal analysis+North China||#*TANGSHAN
J|0754|Zhao,Y.+Qian,F.|Geoelectric precursors to strong earthquakes in China||#TCT:233:1-2:1994:99-113|China+Strong earthquake+Precursor+Geoelectricity||#*TANGSHAN
J|0755|Bellier,O.+Sebrier,M.|Relationship between tectonism and volcanism along the Great Sumatran Fault Zone deduced by SPOT image analyses||#TCT:233:3-4:1994:215-231|Tectonics+Volcanism+Fault zone+Sumatra
J|0756|Hasegawa,A.+Yamamoto,A.|Deep, low-frequency microearthquakes in or around seismic low-velocity zones beneath active volcanoes in northeastern Japan||#TCT:233:3-4:1994:233-252|Microearthquake+Low velocity+Volcano+Japan
J|0757|Mezcua,J.+Rueda,J.|Earthquake relative location based on waveform similarity||#TCT:233:3-4:1994:253-263|Location+Aftershock+Explosion seismology+Waveform
J|0758|Oda,H.+Senna,N.|Regional variation in surface wave group velocities in the Philippine Sea||#TCT:233:3-4:1994:265-277|Surface wave+Group velocity+Philippine Sea+Source parameter+ISC
J|0759|Ostrovsky,A.A.+Flueh,E.R.+Luosto,U.|Deep seismic structure of the Earth's crust along the Baltic Sea profile||#TCT:233:3-4:1994:279-292|Deep structure+Baltic Sea+Crust+Profile
J|0760|Stavrakakis,G.N.+Latoussakis,J.|A successful prediction of a strong earthquake in the southwestern Hellenic arc by means of the algorithm M8||#TCT:233:3-4:1994:315-320|Prediction+Strong earthquake+Hellenic arc+Algorithm||#*CRETE92A
J|0761|Mart,Y.|Ptolemais basin: the tectonic origin of a Senonian marine basin underneath the southeastern Mediterranean Sea||#TCT:234:1-2:1994:5-17|Mediterranean+Basin+Tectonics+Reflexion study
J|0762|Kempler,D.+Garfunkel,Z.|Structures and kinematics in the northeastern Mediterranean: a study of an irregular plate boundary||#TCT:234:1-2:1994:19-32|Plate tectonics+Mediterranean+Kinematics+Reflexion study
J|0763|Lallemant,S.+Truffert,C.+Jolivet,L.+|Spatial transition from compression to extension in the western Mediterranean Ridge accretionary complex||#TCT:234:1-2:1994:33-52|Mediterranean+Accretionary complex+Marine seismic investigation+Geologic structure
J|0764|Suarez,G.+Garcia-Acosta,V.+Gaulon,R.|Active crustal deformation in the Jalisco block, Mexico: evidence for a great historical earthquake in the 16th century||#TCT:234:1-2:1994:117-127|Historical earthquake+16th century+Crustal deformation+Mexico
J|0765|Peacock,D.C.P.+Zhang,X.|Field examples and numerical modelling of oversteps and bends along normal faults in cross-section||#TCT:234:1-2:1994:147-167|Normal fault+Numerical modelling+England+Bend
J|0766|Zuniga,F.R.+Diaz,L.E.|Coda attenuation in the area of El Chichon volcano, Chiapas, Mexico||#TCT:234:3:1994:247-258|Coda wave+Mexico+Q+Attenuation
J|0767|Alvarez-Marron,J.+Perez-Estaun,A.|Comment on `Reconstitution of east-facing Variscan nappes between the Grand Banks of Newfoundland and Spain' by J. P. Lefort, H. G. Miller and R. Wiseman||#TCT:234:3:1994:259-263|Comments+Grand Banks+Spain+Reflector
J|0768|Johnson,P.R.+Zietz,I.+Thomas,W.A.|Possible Neoproterozoic-early Paleozoic grabens in Mississippi, Alabama, and Tennessee||Geology:22:1:1994:11-14|Graben+Reflexion study+Geophysical investigation+Southeastern United States
J|0769|Paulsen,T.+Marshak,S.|Cratonic weak zone in the U.S. continental interior: the Dakota-Carolina corridor||Geology:22:1:1994:15-18|United States+Seismic zone+Reflectivity+Continental crust
J|0770|Kelley,J.T.+Dickson,S.M.+Belknap,D.F.+|Giant sea-bed pockmarks: evidence for gas escape from Belfast Bay, Maine||Geology:22:1:1994:59-62|Gas+Maine+Sea floor+Earthquake
J|0771|Johnson,S.Y.+Potter,C.J.+Armentrout,J.M.|Origin and evolution of the Seattle fault and Seattle basin, Washington||Geology:22:1:1994:71-74|Fault+Washington State+Reflexion data+Basin
J|0772|Holliger,K.+Levander,A.R.|Structure and seismic response of extended continental crust: stochastic analysis of the Strona-Ceneri and Ivrea zones, Italy||Geology:22:1:1994:79-82|Italy+Continental crust+Synthetic seismogram+Velocity-depth function
J|0773|Brodie,J.+White,N.|Sedimentary basin inversion caused by igneous underplating: northwest European continental shelf||Geology:22:2:1994:147-150|Sedimentary basin+Continental shelf+Northwest Europe+Profile
J|0774|Carver,G.A.+Jayko,A.S.+Valentine,D.W.+|Coastal uplift associated with the 1992 Cape Mendocino earthquake, northern California||Geology:22:3:1994:195-198|Earthquake+1992+Cape Mendocino+Uplift||#*PETROLIA92A
J|0775|Myers,S.C.+Beck,S.L.|Evidence for a local crustal root beneath the Santa Catalina metamorphic core complex, Arizona||Geology:22:3:1994:223-226|Crustal thickness+Arizona+Mohorovicic discontinuity+Velocity structure
J|0776|Pandolfi,J.M.+Best,M.M.R.+Murray,S.P.|Coseismic event of May 15, 1992, Huon Peninsula, Papua New Guinea: comparison with Quaternary tectonic history||Geology:22:3:1994:239-242|Earthquake+1992+Papua New Guinea+Tectonics||#*HUON92
J|0777|Vogt,P.R.+Crane,K.+Sundvor,E.+|Methane-generated(?) pockmarks on young, thickly sedimented oceanic crust in the Arctic: Vestnesa ridge, Fram strait||Geology:22:3:1994:255-258|Arctic Ocean+Epicentre+Sea floor+Reflexion study
J|0778|Fisher,D.M.+Gardner,T.W.+Marshall,J.S.+|Kinematics associated with late Cenozoic deformation in central Costa Rica: western boundary of the Panama microplate||Geology:22:3:1994:263-266|Focal mechanism+Kinematics+Costa Rica+Deformation
J|0779|Savage,J.C.|Comment on `Evidence for near-frictionless faulting in the 1989 (M 6.9) Loma Prieta, California, earthquake and its aftershock' by M. D. Zoback and G. C. Beroza||Geology:22:3:1994:278-280|Comments+Loma Prieta+1989+Aftershock|With a reply by the authors|#*LOMAPRIETA89
J|0780|Hummon,C.+Schneider,C.L.+Yeats,R.S.+|Wilshire fault: earthquakes in Hollywood?||Geology:22:4:1994:291-294|Los Angeles+Buried fault+Slip+Seismic potential
J|0781|Sutherland,R.|Displacement since the Pliocene along the southern section of the Alpine fault, New Zealand||Geology:22:4:1994:327-330|Seismic potential+New Zealand+Fault+Slip
J|0782|Kruger,J.M.+Johnson,R.A.|Raft model of crustal extension: evidence from seismic reflection data in southeast Arizona||Geology:22:4:1994:351-354|Arizona+Reflexion data+Extension+Crust
J|0783|Holliger,K.+Levander,A.R.|Lower crustal reflectivity modeled by rheological controls on mafic intrusions||Geology:22:4:1994:367-370|Reflectivity+Lower crust+Rheology+Deep seismic sounding
J|0784|Niemi,T.M.+Ben-Avraham,Z.|Evidence for Jericho earthquakes from slumped sediments of the Jordan River delta in the Dead Sea||Geology:22:5:1994:395-398|Reflexion study+Dead Sea+Earthquake+1927
J|0785|Vogt,P.R.+Crane,K.+Sundvor,E.|Deep Pleistocene iceberg plowmarks on the Yermak Plateau: sidescan and 3.5 kHz evidence for thick calving ice fronts and a possible marine ice sheet in the Arctic Ocean||Geology:22:5:1994:403-406|Side-scan sonar+Arctic Ocean+Ice+Bathymetry
J|0786|Shipley,T.H.+Moore,G.F.+Bangs,N.L.+|Seismically inferred dilatancy distribution, northern Barbados Ridge decollement: implications for fluid migration and fault strength||Geology:22:5:1994:411-414|Barbados+Dilatancy+Seismic survey+Fault
J|0787|Cartwright,J.A.|Episodic basin-wide fluid expulsion from geopressured shale sequences in the North Sea basin||Geology:22:5:1994:447-450|Seismic survey+North Sea+Shale+Faulting
J|0788|Van der Hilst,R.D.+Mann,P.|Tectonic implications of tomographic images of subducted lithosphere beneath northwestern South America||Geology:22:5:1994:451-454|Tomography+South America+Upper mantle+Slab
J|0789|MacKay,M.E.+Jarrard,R.D.+Westbrook,G.K.+|Origin of bottom-simulating reflectors: geophysical evidence from the Cascadia accretionary prism||Geology:22:5:1994:459-462|Vertical seismic profiling+Velocity+Reflector+Cascadia subduction zone
J|0790|Lawton,D.C.+Spratt,D.A.+Hopkins,J.C.|Tectonic wedging beneath the Rocky Mountain foreland basin, Alberta, Canada||Geology:22:6:1994:519-522|Alberta+Reflexion study+Wedge+Tectonics
J|0791|Berberian,M.+Qorashi,M.|Coseismic fault-related folding during the south Golbaf earthquake of November 20, 1989, in southeast Iran||Geology:22:6:1994:531-534|Iran+1989+Earthquake+Folding||#*GOLBAF89|#*GOLBAF
J|0792|Bombolakis,E.G.|Applicability of critical-wedge theories to foreland belts||Geology:22:6:1994:535-538|Wedge+Fault-slip+Deformation+Upper crust
J|0793|Sartori,R.+Torelli,L.+Zitellini,N.+|Eastern segment of the Azores-Gibraltar line (central-eastern Atlantic): an oceanic plate boundary with diffuse compressional deformation||Geology:22:6:1994:555-558|Plate boundary+Focal mechanism+North Atlantic+Marine seismic investigation
J|0794|Schreurs,G.|Experiments on strike-slip faulting and block rotation||Geology:22:6:1994:567-570|Laboratory+San Andreas Fault+Shear+Strike-slip
J|0795|Seno,T.+Saito,A.|Recent East African earthquakes in the lower crust||#EPL:121:1-2:1994:125-136|East Africa+Earthquake+Lower crust+1978-1987+ISC||#*ZAIRE81|#*YEMEN|#*ZAIRE83|#*ZAIRE84|#*ETHIOPIA87
J|0796|Nakakuki,T.+Sato,H.+Fujimoto,H.|Interaction of the upwelling plume with the phase and chemical boundary at the 670 km discontinuity: effects of temperature-dependent viscosity||#EPL:121:3-4:1994:369-384|670km discontinuity+Viscosity+Mantle plume
J|0797|Cadek,O.P.+Yuen,D.A.+Steinbach,V.+|Lower mantle thermal structure deduced from seismic tomography, mineral physics and numerical modelling||#EPL:121:3-4:1994:385-402|Lower mantle+Thermal structure+Tomography+Numerical modelling
J|0798|Keen,C.E.+Courtney,R.C.+Dehler,S.A.+|Decompression melting at rifted margins: comparison of model predictions with the distribution of igneous rocks on the eastern Canadian margin||#EPL:121:3-4:1994:403-416|Canada+Melting+Continental margin+High-velocity layer
J|0799|Bown,J.W.+White,R.S.|Variation with spreading rate of oceanic crustal thickness and geochemistry||#EPL:121:3-4:1994:435-449|Seismics+Crustal thickness+Oceanic basin+Spreading centre
J|0800|Straub,C.+Kahle,H-G.|Global Positioning System (GPS) estimates of crustal deformation in the Marmara Sea region, northwest Anatolia||#EPL:121:3-4:1994:495-502|Global Positioning System+Crustal deformation+Marmara Sea+Earthquake
J|0801|Ben-Avraham,Z.+Niemi,T.M.+Hartnady,C.J.H.|Mid-Tertiary changes in deep ocean circulation patterns in the Natal Valley and Transkei basin, southwest Indian Ocean||#EPL:121:3-4:1994:639-646|Reflexion study+Southwest Indian Ocean+Topography|Express letter
J|0802|Gubbins,D.+Barnicoat,A.+Cann,J.|Seismological constraints on the gabbro-eclogite transition in subducted oceanic crust||#EPL:122:1-2:1994:89-101|High-velocity layer+Low-velocity layer+Subduction zone+Pacific plate+ISC
J|0803|Cazenave,A.+Thoraval,C.|Mantle dynamics constrained by degree 6 surface topography, seismic tomography and geoid: inference on the origin of the South Pacific Superswell||#EPL:122:1-2:1994:207-219|Geoid+Tomography+Mantle+South Pacific
J|0804|Bird,R.T.+Pockalny,R.A.|Late Cretaceous and Cenozoic seafloor and oceanic basement roughness: spreading rate, crustal age and sediment thickness correlations||#EPL:123:1-4:1994:239-254|Sea-floor spreading+Basement+Roughness+Sediment
J|0805|Anderson,D.L.|The sublithospheric mantle as the source of continental flood basalts; the case against the continental lithosphere and plume head reservoirs||#EPL:123:1-4:1994:269-280|Basalt+Mantle plume+Low-velocity layer+Continental lithosphere
J|0806|Nicolas,A.+Achauer,U.+Daignieres,M.|Rift initiation by lithospheric rupture||#EPL:123:1-4:1994:281-298|Rupture+Lithosphere+East African Rift+Tomography
J|0807|Srivastava,H.N.+Bhattacharya,S.N.+Sinha Ray,K.C.|Strange attractor dimension as a new measure of seismotectonics around Koyna reservoir, India||#EPL:124:1-4:1994:57-62|Seismotectonics+Koyna+Fractal dimension+Earthquake
J|0808|Ji,S-C.+Zhao,P-L.|Layered rheological structure of subducting oceanic lithosphere||#EPL:124:1-4:1994:75-94|Oceanic lithosphere+Layered medium+Subduction+Seismicity
J|0809|Kropotkin,P.N.+Yefremov,V.N.|New evidence of plate tectonics theory|In Russian with English abstract|#GTK:-:1:1994:16-24|Plate tectonics+Tomography+Geodetic measurement+Mid-ocean ridge
J|0810|Belyakov,S.L.|Lower Permian paleostructural units of the Timan-Pechora region|In Russian with English abstract|#GTK:-:1:1994:38-48|Seismic survey+Common depth point+Pechora+Geologic structure
J|0811|Pilipenko,A.I.|Tectonic delamination of oceanic crust of deep-water basins|In Russian with English abstract|#GTK:-:1:1994:49-61|Seismic survey+Oceanic crust+Brazil Basin+Mid-Atlantic Ridge
J|0812|Antipov,M.P.+Belyakov,S.L.+Pushcharovskii,Yu.M.+|On tectonics of perioceanic basins|In Russian with English abstract|#GTK:-:1:1994:62-73|Tectonics+Oceanic basin+Seismic survey+Spreading
J|0813|Imaev,V.S.+Imaeva,L.P.+Koz'min,B.M.+|Active faults and modern geodynamic of the Yakutiya seismic belts|In Russian with English abstract|#GTK:-:2:1994:59-71|Fault+Geodynamics+Yakutiya+Seismicity
J|0814|Ivanov,S.N.|Possible nature of the major seismic boundaries in continental Earth crust|In Russian with English abstract|#GTK:-:3:1994:3-11|Boundary+Continental crust+Deformation+Detachment
J|0815|Khain,V.Ye.+Lobkovsky,L.I.|Conditions of existence of the residual mantle seismicity of the Alpine belt in Eurasia|In Russian with English abstract|#GTK:-:3:1994:12-20|Mantle+Seismicity+Alpide belt+Himalayas
J|0816|Chekunov,A.V.+Pustovitenko,B.G.+Kul'chitsky,V.Ye.|Seismicity and depth tectonics of the Black Sea depression and its framing|In Russian with English abstract|#GTK:-:3:1994:44-48|Seismicity+Tectonics+Black Sea+Crust
J|0817|Obukhov,A.N.|Gravity geodynamics of intermontane depressions in central Asia|In Russian with English abstract|#GTK:-:3:1994:77-89|Gravity+Geodynamics+Seismic survey+Fergana
J|0818|Tyapkin,Yu.K.|Optimized estimates of a complicated model of the multichannel seismic record with statistic and deterministic regularization|In Russian with English abstract|#GGS:35:1:1994:128-135|Seismic record+Iterative method+Algorithm+Data analysis
J|0819|Kulagin,A.V.|Analytical sedimentation model as a key to explain differences of seismic facies configurations|In Russian with English abstract|#GGS:35:1:1994:136-142|Seismostratigraphy+Sedimentation+Model
J|0820|Klyuchevskii,A.V.|Dynamic parameters of the aftershock foci of the Baikal seismic zone|In Russian with English abstract|#GGS:35:2:1994:109-116|Source parameter+Aftershock+Baikal+Seismic zone+1968-1990
J|0821|Glebov,A.F.|Polarization of quasicompressional and quasishear waves in anisotropic medium|In Russian with English abstract|#GGS:35:2:1994:117-128|Anisotropic medium+Polarization+Eigenvector+Seismic waves
J|0822|Fomel,S.B.|Recurrent formulas for derivatives of a CDP travel-time curve|In Russian with English abstract|#GGS:35:2:1994:129-137|Formula+Travel-times+Curve+Common depth point
J|0823|Markov,M.G.+Yumatov,A.Yu.|The effect of probe position in borehole on wave parameters received by treating acoustic log data|In Russian with English abstract|#GGS:35:2:1994:138-142|Borehole+Acoustic logging+P-wave+S-wave
J|0824|Puzyrev,N.N.+Garin,V.P.|Relationship between integral kinematic parameters for a vertically inhomogeneous medium|In Russian with English abstract|#GGS:35:3:1994:80-90|Inhomogeneous medium+Kinematics+Reflected wave+Model
J|0825|Bliznetsov,M.T.|Common excitation array method for analysis of wave field in the area of the Uralian superdeep borehole SG-4|In Russian with English abstract|#GGS:35:3:1994:91-102|Borehole+Wave field+Seismic prospecting+Urals
J|0826|Karakin,A.V.+Kuznetsov,O.L.+Mukhamediev,Sh.A.|Calculation procedure for stress tensor in rock massifs: theoretical principles|In Russian with English abstract|#GGS:35:3:1994:106-118|Stress+Tensor+Rock+Focal mechanism
J|0827|Timofeev,V.Yu.+Panin,S.F.+Sarycheva,Yu.K.+|Investigation of Earth surface tilts and strains in the Baikal rift zone (st. Talaya)|In Russian with English abstract|#GGS:35:3:1994:119-129|Prediction+Tilt+Strain+Baikalian Rift
J|0828|Kolesnikov,Yu.I.+Ignatov,A.Yu.|Physical modeling of the acoustic wave fields in a borehole with radial inhomogeneity|In Russian with English abstract|#GGS:35:3:1994:137-143|Acoustic wave+Borehole+Modelling+Wave field
J|0829|Potapov,V.A.|Experimentally estimated limit of the plasto-elastic stage of rock deformation|In Russian with English abstract|#GGS:35:4:1994:91-98|Rock+Elastoplasticity+Hazard
J|0830|Fomel,S.B.|Estimation of convergence of iterative algorithm for determining a layer model of a medium from CDP method data|In Russian with English abstract|#GGS:35:4:1994:99-111|Seismic prospecting+Iterative method+Layered medium+Common depth point
J|0831|Krylov,S.V.+Ten,E.N.|Estimation of strength of crystalline rocks according to data of depth seismic sounding at P- and S-waves|In Russian with English abstract|#GGS:35:5:1994:20-30|Deep seismic sounding+Strength+Rock+Baikalian Rift
J|0832|Kulakov,I.Yu.+Tychkov,S.A.+Keselman,S.I.|3D-structure of the upper mantle of the southern mountain framing of the Siberian Platform according to data of teleseismic tomography|In Russian with English abstract|#GGS:35:5:1994:31-48|Siberian platform+Upper mantle+Tomography+Velocity structure
J|0833|Sibiryakov,B.P.+Zaikin,A.L.|Multiple seismic and applied geodynamics in petroleum-bearing regions|In Russian with English abstract|#GGS:35:5:1994:49-55|Stress field+Petroleum+Geodynamics+Sounding
J|0834|Goldin,S.V.+Kurdyukova,T.V.|On calculation of additional component of seismic body waves|In Russian with English abstract|#GGS:35:5:1994:56-67|Body wave+Mathematical analysis+Ray theory+Interface
J|0835|Sharafutdinov,V.A.|Quasi-isotropic approximation in dynamic elasticity and some problems of geotomography|In Russian with English abstract|#GGS:35:5:1994:68-82|Tomography+Seismic waves+Anisotropic medium+Inverse problem
J|0836|Druzhinin,A.B.|Seismic modelling by scalar wave beam method|In Russian with English abstract|#GGS:35:5:1994:83-102|Modelling+Beam+Interface+Body wave
J|0837|Grechka,V.Yu.|Study of propagation of SH-waves in an exponentially inhomogeneous medium|In Russian with English abstract|#GGS:35:5:1994:103-112|Inhomogeneous medium+SH-wave+Propagation+Wave field
J|0838|Fomel,S.B.|Method of velocity continuation in the problem of temporal seismic migration|In Russian with English abstract|#GGS:35:5:1994:113-126|Migration+Data processing+Velocity+Algorithm
J|0839|Voronina,T.A.+Cheverda,V.A.|An optimization approach to VSP data processing|In Russian with English abstract|#GGS:35:5:1994:127-139|Vertical seismic profiling+Data processing
J|0840|Tygel,M.|On convergence of the NMO power series of reflection travel-times for horizontally-stratified medium|In Russian with English abstract|#GGS:35:5:1994:140-149|Layered medium+Travel-times+Reflected wave
J|0841|Gik,L.D.+Brylkin,Yu.L.+Orlov,Yu.A.+|Application of physical models to study of rock fracturing effect on a seismic wavefield|In Russian with English abstract|#GGS:35:5:1994:150-160|Wave field+Model+Fracturing+Rock
J|0842|Yushin,V.I.|Features of nonlinear interaction of surface seismic vibrator with the ground|In Russian with English abstract|#GGS:35:5:1994:161-166|Vibrator+Nonlinear response+Soil dynamics
J|0843|Ohtaki,T.+Kaneshima,S.|Continuous high velocity aseismic zone beneath the Izu-Bonin arc||#GRL:21:1:1994:1-4|Izu-Bonin+Aseismic region+High-velocity layer+Residual+ISC
J|0844|Fischer,K.M.+Yang,X-P.|Anisotropy in Kuril-Kamchatka subduction zone structure||#GRL:21:1:1994:5-8|Anisotropy+Subduction zone+Kuril-Kamchatka Arc+Shear wave splitting
J|0845|Kuge,K.+Lay,T.|Data-dependent non-double-couple components of shallow earthquake source mechanisms: effects of waveform inversion instability||#GRL:21:1:1994:9-12|Shallow earthquake+Non-double couple+Centroid-moment tensor+Focal mechanism
J|0846|Sato,T.+Koresawa,S.+Shiozu,Y.+|Microseismicity of back-arc rifting in the middle Okinawa Trough||#GRL:21:1:1994:13-16|Microseismicity+Okinawa Trough+Rifting+Ocean-bottom seismometer
J|0847|Tatsumi,Y.+Ito,K.+Goto,A.|Elastic wave velocities in isochemical granulite and amphibolite: origin of a low-velocity layer at the slab/mantle wedge interface||#GRL:21:1:1994:17-20|Low-velocity layer+Interface+Laboratory+Elastic wave
J|0848|Faul,U.H.+Toomey,D.R.+Waff,H.S.|Intergranular basaltic melt is distributed in thin, elongated inclusions||#GRL:21:1:1994:29-32|Melt+Basalt+Velocity+Inclusion
J|0849|Wang,K.+Rogers,G.C.|An explanation for the double seismic layers north of the Mendocino triple junction||#GRL:21:1:1994:121-124|Cape Mendocino+Triple junction+Dipping layer+Seismicity||#*PETROLIA92A
J|0850|Sturkell,E.+Sigmundsson,F.+Einarsson,P.+|Strain accumulation 1986-1992 across the Reykjanes Peninsula plate boundary, Iceland, determined from GPS measurements||#GRL:21:2:1994:125-128|Strain+Reykjanes+Global Positioning System+1986-1992
J|0851|Burov,E.B.+Houdry,F.+Diament,M.+|A broken plate beneath the North Baikal rift zone revealed by gravity modelling||#GRL:21:2:1994:129-132|Baikalian Rift+Gravity modelling+Plate+Geophysical investigation
J|0852|Gaherty,J.B.+Hager,B.H.|Compositional vs. thermal buoyancy and the evolution of subducted lithosphere||#GRL:21:2:1994:141-144|Model+Slab+Lithosphere+Subduction
J|0853|Kaneshima,S.+Hirahara,K.+Ohtaki,T.|Seismic structure near the inner core-outer core boundary||#GRL:21:2:1994:157-160|Core+Boundary+Differential travel-times+P-wave
J|0854|Johnson,P.A.+McCall,K.R.|Observation and implications of nonlinear elastic wave response in rock||#GRL:21:3:1994:165-168|Rock+Elastic wave+Nonlinear response+Equation of motion
J|0855|Hatzfeld,D.|On the shape of the subducting slab beneath the Peloponnese, Greece||#GRL:21:3:1994:173-176|Slab+Shape+Peloponnesus+Seismicity+ISC
J|0856|Gee,J.+Kent,D.V.|Variations in layer 2A thickness and the origin of the central anomaly magnetic high||#GRL:21:4:1994:297-300|East Pacific Rise+Thickness+Geomagnetic anomaly+Layer
J|0857|Kendall,J-M.|Teleseismic arrivals at a mid-ocean ridge: effects of mantle melt and anisotropy||#GRL:21:4:1994:301-304|Anisotropy+Mid-ocean ridge+Melt+Teleseism
J|0858|Yang,X-P.+Fischer,K.M.|Constraints on North Atlantic upper mantle anisotropy from S and SS phases||#GRL:21:4:1994:309-312|S-wave+SS-wave+North Atlantic+Upper mantle+Anisotropy
J|0859|Savage,J.C.|Probability of one or more M >= 7 earthquakes in Southern California in 30 years||#GRL:21:4:1994:313-315|Probability+Southern California+Large earthquake+Statistical method
J|0860|Chun,K-Y.+Liu,J.+Zhu,T.+|Abnormal Lg coda Q in Beijing area||#GRL:21:4:1994:317-320|Lg-wave+Coda+Q+Beijing
J|0861|Christeson,G.L.+Wilcock,W.S.D.+Purdy,G.M.|The shallow attenuation structure of the fast-spreading East Pacific Rise near 9degrees30'N||#GRL:21:5:1994:321-324|Attenuation+East Pacific Rise+Shallow structure+Q
J|0862|Woodward,R.L.+Dziewonski,A.M.|Comparisons of seismic heterogeneity models and convective flow calculations||#GRL:21:5:1994:325-328|Mantle convection+Heterogeneity+Model+Tomography
J|0863|Argus,D.F.+Lyzenga,G.A.|Site velocities before and after the Loma Prieta and Gulf of Alaska earthquakes determined from VLBI||#GRL:21:5:1994:333-336|Site response+Earthquake+Interferometry+Movement||#*LOMAPRIETA89|#*ALASKA88|#*ALASKA187|#*ALASKA287
J|0864|Keiswetter,D.+Black,R.A.+Steeples,D.W.|Mapping bedrock beneath glacial till using CDP seismic reflection methods||#GRL:21:6:1994:453-456|Common depth point+Bedrock+Reflexion study+Iowa
J|0865|Vinnik,L.P.+Krishna,V.G.+Kind,R.+|Shear wave splitting in the records of the German Regional Seismic Network||#GRL:21:6:1994:457-460|Shear wave splitting+Mantle+Central Europe+Anisotropy
J|0866|Duffy,T.S.+Ahrens,T.J.|The temperature sensitivity of elastic wave velocity at high pressure: new results for molybdenum||#GRL:21:6:1994:473-476|Temperature+Elastic wave+Velocity+High pressure
J|0867|Larson,K.M.+Lisowski,M.|Strain accumulation in the Shumagin Islands: results of initial GPS measurements||#GRL:21:6:1994:489-492|Shumagin Islands+Strain+Global Positioning System+Seismic gap||#*SHUMAGIN93
J|0868|Goff,J.A.+Holliger,K.+Levander,A.R.|Modal fields: a new method for characterization of random seismic velocity heterogeneity||#GRL:21:6:1994:493-496|Velocity+Heterogeneity+Lithosphere+Statistical method
J|0869|Lu,Z.+Wyss,M.+Tytgat,G.+|Aftershocks of the 13 May 1993 Shumagin Alaska earthquake||#GRL:21:6:1994:497-500|Aftershock+1993+Shumagin Islands+b-Value||#*SHUMAGIN93|#*SHUMAGIN93A|#*SHUMAGIN93B|#*SHUMAGIN87|#*SHUMAGIN
J|0870|Benz,H.M.+McCarthy,J.|Evidence for an upper mantle low velocity zone beneath the southern Basin and Range-Colorado Plateau transition zone||#GRL:21:7:1994:509-512|Upper mantle+Basin & Range+Low-velocity layer+Profile
J|0871|Cummins,P.R.+Geller,R.J.+Hatori,T.+|DSM complete synthetic seismograms: SH, spherically symmetric, case||#GRL:21:7:1994:533-536|Synthetic seismogram+Mathematical analysis+Algorithm+Technique
J|0872|Le Bas,T.P.+Mason,D.C.|Suppression of multiple reflections in GLORIA sidescan sonar imagery||#GRL:21:7:1994:549-552|Multiple reflexion+GLORIA+Side-scan sonar+Suppression
J|0873|Pelayo,A.M.+Stein,S.+Stein,C.A.|Estimation of oceanic hydrothermal heat flux from heat flow and depths of midocean ridge seismicity and magma chambers||#GRL:21:8:1994:713-716|Seismicity+Magma chamber+Mid-ocean ridge+Heat flow
J|0874|Kido,M.+Seno,T.|Dynamic topography compared with residual depth anomalies in oceans and implications for age-depth curves||#GRL:21:8:1994:717-720|Topography+Depth+Ocean+Anomaly
J|0875|Zeng,Y.+Anderson,J.G.+Yu,G.|A composite source model for computing realistic synthetic strong ground motions||#GRL:21:8:1994:725-728|Large earthquake+Strong motion+Synthetic seismogram+Source-time function||#*GUERRERO89|#*MEXICOCITY
J|0876|Kobayashi,R.+Nakanishi,I.|Application of genetic algorithms to focal mechanism determination||#GRL:21:8:1994:729-732|Genetic algorithm+Focal mechanism+Large earthquake+Japan||#*KUSHIRO93|#*SEAOFJAPAN93
J|0877|Johnson,J.M.+Satake,K.|Rupture extent of the 1938 Alaskan earthquake as inferred from tsunami waveforms||#GRL:21:8:1994:733-736|Earthquake+Alaska+1938+Tsunami
J|0878|Virk,H.S.+Singh,B.|Radon recording of Uttarkashi earthquake||#GRL:21:8:1994:737-740|Radon+Earthquake+1991+India||#*NINDIA91
J|0879|Patton,H.J.+Walter,W.R.|Correction to `Regional moment: magnitude relations for earthquakes and explosions'||#GRL:21:8:1994:743|Errata+Moment magnitude+Nuclear explosion+Discrimination
J|0880|Nihei,K.T.+Myer,L.R.+Cook,N.G.W.+|Effects of non-welded interfaces on guided SH-waves||#GRL:21:9:1994:745-748|SH-wave+Guided wave+Interface+Half-space
J|0881|Neuberg,J.+Luckett,R.+Ripepe,M.+|Highlights from a seismic broadband array on Stromboli volcano||#GRL:21:9:1994:749-752|Volcano+Array+Broadband seismometer+Eruption
J|0882|Keith,M.L.|Comment on `Dynamic surface topography: a new interpretation based on mantle flow models derived from seismic tomography' by A. M. Forte, W. R. Peltier, A. M. Dziewonski and R. L. Woodward||#GRL:21:9:1994:845-846|Comments+Topography+Mantle+Geoid
J|0883|Hara,T.+Geller,R.J.|The geological origin of long wavelength lateral heterogeneity at depths of 300 - 400km||#GRL:21:10:1994:907-910|Lateral heterogeneity+S-wave+Seismogeology+Long wave
J|0884|Wu,R-S.+Xu,Z-Y.+Li,X-P.|Heterogeneity spectrum and scale-anisotropy in the upper crust revealed by the German Continental Deep-Drilling (KTB) Holes||#GRL:21:10:1994:911-914|Well-log+Heterogeneity+Upper crust+Spectrum
J|0885|Yoshida,A.+Maeda,K.+Takayama,H.|Spatiotemporal patterns of clustered and non-clustered seismic activity in the Shin-etsu and Tokai regions, central Japan||#GRL:21:10:1994:915-918|Space-time pattern+Clustering+Japan+Seismicity
J|0886|Boerner,D.E.+Milkereit,B.+Naldrett,A.J.|Introduction to the Special Section on the Lithoprobe Sudbury Project||#GRL:21:10:1994:919-922|Introduction+Sudbury structure+Lithoprobe
J|0887|Salisbury,M.H.+Iuliucci,R.+Long,C.|Velocity and reflection structure of the Sudbury Structure from laboratory measurements||#GRL:21:10:1994:923-926|Velocity+Sudbury structure+Laboratory+Reflexion study
J|0888|Milkereit,B.+White,D.J.+Green,A.G.|Towards an improved seismic imaging technique for crustal structures: the Lithoprobe Sudbury experiment||#GRL:21:10:1994:927-930|Sudbury structure+Lithoprobe+Imaging+Crustal structure
J|0889|Milkereit,B.+Green,A.G.+Wu,J.J.+|Integrated seismic and borehole geophysical study of the Sudbury Igneous Complex||#GRL:21:10:1994:931-934|Borehole+Sudbury structure+Geophysical investigation+Reflexion study
J|0890|White,D.J.+Milkereit,B.+Wu,J.J.+|Seismic reflectivity of the Sudbury Structure North Range from borehole logs||#GRL:21:10:1994:935-938|Sudbury structure+Reflectivity+Geophysical investigation+Well-log
J|0891|Miao,X.+Moon,W.M.+Milkereit,B.+|Three component vertical seismic profiling (VSP) experiment in the Sudbury Basin||#GRL:21:10:1994:939-942|Sudbury structure+Vertical seismic profiling+Velocity structure+Logging
J|0892|Tanioka,Y.+Satake,K.+Ruff,L.J.|Fault parameters and tsunami excitation of the May 13, 1993, Shumagin Islands earthquake||#GRL:21:11:1994:967-970|Earthquake+Shumagin Islands+1993+Source parameter||#*SHUMAGIN93
J|0893|Leary,P.C.+Abercrombie,R.E.|Frequency dependent crustal scattering and absorption at 5-160 Hz from coda decay observed at 2.5 km depth||#GRL:21:11:1994:971-974|Coda+Absorption+Scattering+Frequency
J|0894|Duquesnoy,Th.+Barrier,E.+Kasser,M.+|Detection of creep along the Philippine Fault: first results of geodetic measurements on Leyte island, central Philippine||#GRL:21:11:1994:975-978|Philippines+Creep+Fault+Geodetic measurement
J|0895|Hunten,D.M.+Hoffmann,W.F.+Sprague,A.L.|Jovian seismic waves and their detection||#GRL:21:11:1994:1091-1094|Detection+Planet+Seismic waves+Propagation
J|0896|Deming,D.|Prospects for Jovian seismological observations following the impact of comet Shoemaker-Levy 9||#GRL:21:11:1994:1095-1098|Planet+Compressional wave+Propagation+Wavefront
J|0897|Savage,J.C.+Lisowski,M.|Strain accumulation north of Los Angeles, California, as a function of time, 1977-1992||#GRL:21:12:1994:1173-1176|Los Angeles+Strain+1977-1992+Monitoring
J|0898|Furukawa,Y.|Two types of deep seismicity in subducting slabs||#GRL:21:12:1994:1181-1184|Slab+Deep earthquake+Subduction zone+Temperature+ISC
J|0899|Peacock,S.+McCann,C.+Sothcott,J.+|Seismic velocities in fractured rocks: an experimental verification of Hudson's theory||#GPP:42:1:1994:27-80|Velocity+Polarization+Crack+Marble
J|0900|Szaraniec,E.|Comment on `Aspects of 1D seismic modelling using the Goupillaud principle' by E. Slob and A. Ziolkowski||#GPP:42:1:1994:81-87|Comments+Modelling+Reflexion+Wavelet|With a reply by the authors
J|0901|Loewenthal,D.|Comment on `Aspects of 1D seismic modelling using the Goupillaud principle' by E. Slob and A. Ziolkowski||#GPP:42:1:1994:89-92|Comments+Modelling+Reflexion+Wavelet|With a reply by the authors
J|0902|Ferber,R-G.|Migration to multiple offset and velocity analysis||#GPP:42:2:1994:99-112|Stack+Migration+Offset+Velocity
J|0903|Best,A.I.+McCann,C.+Sothcott,J.|The relationship between the velocities, attenuations and petrophysical properties of reservoir sedimentary rocks||#GPP:42:2:1994:151-178|Laboratory+Sedimentary rock+Velocity+Physical properties
J|0904|Shih,R-C.+Levander,A.R.|Layer-stripping reverse-time migration||#GPP:42:3:1994:211-227|Reverse-time migration+Layered medium+Common midpoint+Profile
J|0905|Spagnolini,U.|Compound events decomposition and the interaction between AVO and velocity information||#GPP:42:3:1994:241-259|AVO+Decomposition+Velocity+Interface
J|0906|Martin,J.E.+Bacon,C.W.M.|Errata to `Simultaneous vibroseis recording'||#GPP:42:3:1994:275-276|Errata+Vibroseis+Borehole+Seismic recording
J|0907|Cheng,N.+Zhu,Z.+Cheng,C.H.+|Experimental and finite difference modelling of borehole Mach waves||#GPP:42:4:1994:303-319|Finite difference method+Borehole+Modelling+Down-hole source
J|0908|Nielsen,P.+If,F.+Berg,P.+|Using the pseudospectral technique on curved grids for 2D acoustic forward modelling||#GPP:42:4:1994:321-341|Modelling+Interface+Grid+Acoustic wave
J|0909|Jastram,C.+Tessmer,E.|Elastic modelling on a grid with vertically varying spacing||#GPP:42:4:1994:357-370|Modelling+Elastic wave+Grid+Interface
J|0910|Sipkin,S.A.+Needham,R.E.|Moment-tensor solutions estimated using optimal filter theory: global seismicity, 1992||#PEP:82:1:1994:1-7|Moment tensor+Global seismicity+1992|Letter section
J|0911|Dziewonski,A.M.+Ekstrom,G.+Salganik,M.P.|Centroid-moment tensor solutions for January-March 1993||#PEP:82:1:1994:9-17|Centroid-moment tensor+1993|Letter section
J|0912|Iidaka,T.+Obara,K.|Shear-wave polarization anisotropy in the upper mantle from a deep earthquake||#PEP:82:1:1994:19-25|Shear wave+Anisotropy+Upper mantle+Deep-focus earthquake+ISC||#*SAKHALIN90
J|0913|Iannaccone,G.+Zollo,A.+De Matteis,R.+|Rupture characterization of a low magnitude earthquake of central Apennines (Italy)||#PEP:82:2:1994:157-165|Rupture+Small earthquake+Aftershock+1984+Apennines||#*ABRUZZO84A|#*ABRUZZO84B
J|0914|Godano,C.+Del Pezzo,E.+De Martino,S.|Dependence of the apparent seismic quality factor on epicentral distance: an interpretation in terms of fractal structure of the seismic medium||#PEP:82:3-4:1994:271-276|Q+Distance+Fractal dimension+Scattering
J|0915|Dziewonski,A.M.+Ekstrom,G.+Salganik,M.P.|Centroid-moment tensor solutions for April-June 1993||#PEP:83:1:1994:1-11|Centroid-moment tensor+1993|Letter section
J|0916|Mocquet,A.+Fukao,Y.|On the recovery of seismic source parameters at low frequencies||#PEP:83:1:1994:41-56|Source parameter+Low frequency+Centroid-moment tensor+Synthetic seismogram
J|0917|Girardin,N.+Rotwain,I.|Diagnosis of the time of increased probability of earthquakes of magnitude 5.5 or greater in the Lesser Antillean arc||#PEP:83:1:1994:57-65|Pattern+Seismicity+Lesser Antilles+Prediction+ISC
J|0918|Karakaisis,G.F.|Long-term earthquake prediction in Iran based on the time- and magnitude-predictable model||#PEP:83:2:1994:129-145|Prediction+Iran+Seismogenic zone+Recurrence+Magnitude+ISC
J|0919|Dziewonski,A.M.+Ekstrom,G.+Salganik,M.P.|Centroid-moment tensor solutions for July-September 1993||#PEP:83:3-4:1994:165-174|Centroid-moment tensor+1993|Letter section
J|0920|Bostock,M.G.+VanDecar,J.C.|The influence of crust and upper-mantle heterogeneity on short-period waveform distortion||#PEP:83:3-4:1994:225-247|Crust+Upper mantle+Heterogeneity+Waveform+Distortion
J|0921|Kebede,F.+Kulhanek,O.|Spatial and temporal variations of b-values along the East African rift system and the southern Red Sea||#PEP:83:3-4:1994:249-264|b-Value+East African Rift+Red Sea+Spatial variation+Temporal variation
J|0922|Huang,W-C.+Ekstrom,G.+Okal,E.A.+|Application of the CMT algorithm to analog recordings of deep earthquakes||#PEP:83:3-4:1994:283-297|Centroid-moment tensor+Deep-focus earthquake+Historical earthquake+Analog record
J|0923|Mahdavian,A.+Sasatani,T.|Spectral shape of acceleration at high frequencies: attenuation and site effect||#JFH:9:4:1994:415-427|High frequency+Spectrum+Acceleration+Hokkaido
J|0924|Keen,C.E.+Potter,P.+Srivastava,S.P.|Deep seismic reflection data across the conjugate margins of the Labrador Sea||#CJS:31:1:1994:192-205|Labrador Sea+Deep seismic sounding+Continental margin+Crust
J|0925|Frisch,T.+Dawes,P.R.|Discussion on `A seismic reflection study of northern Baffin Bay: implication for tectonic evolution' by H. R. Jackson, K. Dickie and F. Marillier||#CJS:31:1:1994:219-222|Comments+Baffin Bay+Reflexion study+Tectonics|With a reply by the authors
J|0926|Habbane,M.|Discussion on `Quaternary sedimentation and marine placers along the North Shore, Gulf of St Lawrence' by F. J. Hein, J. P.M. Syvitski, L. A. Dredge and B. F. Long||#CJS:31:1:1994:222-225|Comments+Sedimentation+St Lawrence, G. of+Reflexion study|With a reply by the authors
J|0927|Ludden,J.|The Abitibi-Grenville Lithoprobe transect seismic reflection results. Part I: the western Grenville Province and Pontiac Subprovince||#CJS:31:2:1994:227-228|Introduction+Lithoprobe+Reflexion study+Grenville Province
J|0928|Forsyth,D.A.+Milkereit,B.+Davidson,A.+|Seismic images of a tectonic subdivision of the Grenville Orogen beneath Lakes Ontario and Erie||#CJS:31:2:1994:229-242|Great Lakes+Tectonics+Reflexion study+Deep structure
J|0929|Zelt,C.A.+Forsyth,D.A.+Milkereit,B.+|Seismic structure of the Central Metasedimentary Belt, southern Grenville Province||#CJS:31:2:1994:243-254|Seismic survey+Grenville Province+Velocity structure+Dipping reflector
J|0930|Forsyth,D.A.+Milkereit,B.+Zelt,C.A.+|Deep structure beneath Lake Ontario: crustal-scale Grenville subdivisions||#CJS:31:2:1994:255-270|Lake Ontario+Deep structure+Marine seismic investigation+Shear zone
J|0931|Benn,K.+Miles,W.+Ghassemi,M.R.+|Crustal structure and kinematic framework of the northwestern Pontiac Subprovince, Quebec: an integrated structural and geophysical study||#CJS:31:2:1994:271-281|Quebec+Crustal structure+Geophysical investigation+Reflexion study
J|0932|Kellett,R.L.+Barnes,A.E.+Rive,M.|The deep structure of the Grenville Front: a new perspective from western Quebec||#CJS:31:2:1994:282-292|Deep structure+Reflexion study+Magnetotellurics+Grenville Province
J|0933|White,D.J.+Easton,R.M.+Culshaw,N.G.+|Seismic images of the Grenville Orogen in Ontario||#CJS:31:2:1994:293-307|Reflexion study+Grenville Province+Crustal structure+Geology
J|0934|King,L.H.|Proposed Younger Dryas glaciation of the eastern Scotian Shelf||#CJS:31:2:1994:401-417|Seismostratigraphy+Glacier+Nova Scotia+Profile
J|0935|Mitchelmore,M.D.+Cook,F.A.|Inversion of the Proterozoic Wernecke basin during tectonic development of the Racklan Orogen, northwest Canada||#CJS:31:3:1994:447-457|Northwest Territories+Reflexion study+Geophysical data+Tectonics
J|0936|White,D.J.+Lucas,S.B.+Hajnal,Z.+|Paleo-Proterozoic thick-skinned tectonics: Lithoprobe seismic reflection results from the eastern Trans-Hudson Orogen||#CJS:31:3:1994:458-469|Trans-Hudson Orogen+Lithoprobe+Reflexion study+Tectonics
J|0937|Gipp,M.R.|Late Wisconsinan deglaciation of Emerald Basin, Scotian Shelf||#CJS:31:3:1994:554-566|Seismostratigraphy+Glacier+Nova Scotia+Isopach
J|0938|Gibb,R.A.+Hinze,W.J.+Thomas,M.D.|Potential field studies of continental rifts - the Great Lakes region: introduction||#CJS:31:4:1994:617-618|Introduction+Continental rift+Great Lakes+Geophysical investigation
J|0939|Mariano,J.+Hinze,W.J.|Structural interpretation of the Midcontinental Rift in eastern Lake Superior from seismic reflection and potential-field studies||#CJS:31:4:1994:619-628|Reflexion study+Continental rift+Lake Superior+Marine geophysical investigation
J|0940|Samson,C.+West,G.F.|Detailed basin structure and tectonic evolution of the Midcontinent Rift System in eastern Lake Superior from reprocessing of GLIMPCE deep reflection seismic data||#CJS:31:4:1994:629-639|Deep seismic sounding+Continental rift+Lake Superior+GLIMPCE
J|0941|Manson,M.L.+Halls,H.C.|Post-Keweenawan compressional faults in the eastern Lake Superior region and their tectonic significance||#CJS:31:4:1994:640-651|Lake Superior+Fault+Tectonics+Geophysical data
J|0942|Sexton,J.L.+Henson,H.|Interpretation of seismic reflection and gravity profile data in western Lake Superior||#CJS:31:4:1994:652-660|Lake Superior+Marine geophysical investigation+Reflexion study+Gravity
J|0943|Mariano,J.+Hinze,W.J.|Gravity and magnetic models of the Midcontinent Rift in eastern Lake Superior||#CJS:31:4:1994:661-674|Gravity modelling+Lake Superior+Continental rift+Geophysical data
J|0944|Teskey,D.J.+Thomas,M.D.|Three dimensional magnetic modelling of the Midcontinent Rift beneath central Lake Superior||#CJS:31:4:1994:675-681|Continental rift+Lake Superior+Seismic survey+Aeromagnetic study
J|0945|Thomas,M.D.+Teskey,D.J.|An interpretation of gravity anomalies over the Midcontinental Rift, Lake Superior, constrained by GLIMPCE seismic and aeromagnetic data||#CJS:31:4:1994:682-697|Bouguer anomaly+Continental rift+Lake Superior+GLIMPCE
J|0946|Wiseman,R.+Miller,H.G.|Interpretation of gravity and magnetic data from southwestern Newfoundland and their correlation with Lithoprobe East seismic lines 89-11 and 89-12||#CJS:31:6:1994:881-890|Newfoundland+Reflexion study+Geophysical data+Lithoprobe
J|0947|Lowe,C.+Horner,R.B.+Mortensen,J.K.+|New geophysical data from the northern Cordillera: preliminary interpretations and implications for the tectonics and deep geology||#CJS:31:6:1994:891-904|Canadian Cordillera+Geophysical data+Tectonics+Geology
J|0948|Forsyth,D.A.+Argyle,M.+Okulitch,A.+|New seismic, magnetic, and gravity constraints on the crustal structure of the Lincoln Sea continent-ocean transition||#CJS:31:6:1994:905-918|Crustal structure+Continental margin+Lincoln Sea+Marine seismic investigation
J|0949|Lay,T.|Seismological constraints on the velocity structure and fate of subducting lithospheric slabs: 25 years of progress||Adv. Geophys.:35:-:1994:1-185|Velocity structure+Slab+Tomography+Anomaly+ISC||#*BONIN82
J|0950|Pollitz,F.F.+Sacks,I.S.|Fault model of the 1891 Nobi earthquake from historic triangulation and leveling||#JPE:42:1:1994:1-43|Faulting+1891+Honshu+Large earthquake
J|0951|Tsuboi,S.+Abe,K.+Ishikawa,Y.|Determination of fault plane solutions for small earthquakes in Japan||#JPE:42:1:1994:45-67|Small earthquake+Japan+Fault plane solution+1987
J|0952|Watanabe,T.+Kurita,K.|Simultaneous measurements of the compressional-wave velocity and the electrical conductivity in a partially molten material||#JPE:42:1:1994:69-87|Electrical conductivity+Velocity+Compressional wave+Laboratory
J|0953|Singh,S.J.+Punia,M.|A note on the effect of the free surface on the elastic deformation due to a long dip-slip fault||#JPE:42:1:1994:88-95|Deformation+Dip-slip+Fault+Half-space
J|0954|Koyama,J.|General description of the complex faulting process and some empirical relations in seismology||#JPE:42:2:1994:103-148|Seismology+Faulting+Seismic process+Large earthquake
J|0955|Rikitake,T.|Nature of macro-anomaly precursory to an earthquake||#JPE:42:2:1994:149-163|Precursor+Distance+Animal behaviour+Underground water
J|0956|Singh,S.J.+Rani,S.|Lithospheric deformation associated with two-dimensional strike-slip faulting||#JPE:42:3:1994:197-220|Deformation+Strike-slip+Faulting+Mathematical analysis
J|0957|Miyamachi,H.|A method for determination of the three-dimensional seismic velocity structure from local earthquake data||#JPE:42:3:1994:237-260|Local earthquake+Velocity structure+Arrival time+Inverse problem
J|0958||Preliminary report from the Northridge, California earthquake of January 17, 1994||#NCE:8:1:1994:1|Earthquake+Southern California+1994+Damage||#*NORTHRIDGE94
J|0959|Soong,T.T.|Seismic retrofit using viscoelastic dampers||#NCE:8:1:1994:2-3|Damper+Mitigation+Building+Santa Clara
J|0960|Isenberg,J.|A-level alert at Parkfield, California||#NCE:8:1:1994:3-4|Parkfield+Warning+Monitoring+Creep||#*PARKFIELD93
J|0961|Gaus,M.P.+Kim,S.H.+Ren,S.|Seismic hazard identification for bridges using GIS technology||#NCE:8:1:1994:4-7|Hazard+Bridge+Vulnerability+Graphical representation
J|0962||Retrofit of historic San Francisco courthouse is underway||#NCE:8:1:1994:9-10|San Francisco+Mitigation+Historic building+Base isolation system
J|0963||Review of `Reconnaissance report of damage to historic monuments in Cairo, Egypt following the October 12, 1992 Dahshur earthquake' by D. Sykora, D. Look, G. Croci et al||#NCE:8:1:1994:19|Review+Earthquake+1992+Egypt|NCEER Technical Report 93-0016, August 1993, 172p
J|0964||Review of `The island of Guam earthquake of August 8, 1993' by S. W. Swan and S. K. Harris||#NCE:8:1:1994:19|Review+Earthquake+1993+Guam|NCEER Technical Report 93-0017, September 1993, 66p|#*MARIANAS93
J|0965||Review of `Engineering aspects of the October 12, 1992 Egyptian earthquake' by A. W. Elgamel, M. Amer, K. Adalier and A. Abdul-Fadl||#NCE:8:1:1994:19-20|Review+Earthquake+1992+Egypt|NCEER Technical Report 93-0018, October 1993, 100p
J|0966|O'Rourke,T.D.+Palmer,M.C.|Earthquake performance of gas transmission pipelines during the Northridge earthquake||#NCE:8:2:1994:1-5|Pipeline+Southern California+Performance+Earthquake||#*NORTHRIDGE94
J|0967|O'Rourke,M.|Water system damage during the Northridge earthquake||#NCE:8:2:1994:6-8|Damage+Public works+Earthquake+Southern California||#*NORTHRIDGE94
J|0968|Buckle,I.G.+Friedland,I.M.+Cooper,J.D.|A seismic retrofitting manual for highway bridges||#NCE:8:2:1994:9-14|Mitigation+Bridge
J|0969|Gergely,P.+White,R.N.+Mosalam,K.M.|Evaluation and modeling of infilled frames||#NCE:8:2:1994:15-17|Frame+Wall+Modelling+Loading
J|0970||Review of `Hokkaido Nansei-oki, Japan earthquake of July 12, 1993' by P. I. Yanev and C. R. Scawthorn||#NCE:8:2:1994:26|Review+Earthquake+1993+Japan|NCEER Technical Report 93-0023, December 1993, 140p
J|0971|Lawson,J.E.+Luza,K.V.|Oklahoma earthquakes, 1993||Okla. Geol. Notes:54:2:1994:57-68|Oklahoma+Earthquake catalogue+1993
J|0972|Hasegawa,Y.+Yamazaki,F.+Inoue,Y.|Seismic activity in the Far-East region off Sanriku|In Japanese with English abstract|#QJS:57:1-4:1994:1-12|Sanriku+Sequence+Earthquake+Activity||#*SANRIKU92A|#*SANRIKU92B
J|0973|Ando,K.+Wada,I.|The relationship between volcanic activity at Izu-Oshima and the associated seismic activity|In Japanese|#QJS:57:1-4:1994:13-21|Izu-Oshima+Activity+Volcanism
J|0974|Yoshimura,M.|The relation between geological structure and the intensity distribution of seismic activity occurring on October 31, 1983 in the central part of Tottori Prefecture|In Japanese|#QJS:57:1-4:1994:23-32|Geologic structure+Activity+1983+Japan
J|0975|Coffin,M.F.+Eldholm,O.|Large igneous provinces: crustal structure, dimensions, and external consequences||#RGS:32:1:1994:1-36|Geologic structure+High-velocity layer+Mantle upwelling+Dipping reflector
J|0976|Cook,F.A.+Varsek,J.L.|Orogen-scale decollements||#RGS:32:1:1994:37-60|Deep seismic sounding+Orogeny+Fault zone+Fold-and-thrust belt
J|0977|Montagner,J-P.|Can seismology tell us anything about convection in the mantle?||#RGS:32:2:1994:115-137|Mantle convection+Tomography+S-wave+Anisotropy+ISC
J|0978|O'Connell,R.+Shankland,T.|Obituary - Francis Birch (1903-1992)||#QJR:35:2:1994:223-224|Obituary+Geophysics
J|0979|Matsunaga,Y.+Sakurai,H.+Morita,T.+|Annual report on strong-motion earthquake records in Japanese ports (1992 & 1993)|With Japanese abstract|#TNP:-:776:1994:1-390|Earthquake+Japan+1992-1993+Strong-motion record
J|0980|Matsunaga,Y.+Sakurai,H.+Morita,T.+|Strong-motion earthquake records on the 1993 Kushiro-Oki earthquake in port areas|With Japanese abstract|#TNP:-:777:1994:1-245|Strong-motion record+1993+Japan+Earthquake||#*KUSHIRO93|#*KUSHIRO93A
J|0981|Matsunaga,Y.+Sakurai,H.+Motrita,T.+|Strong-motion earthquake records on the 1993 Hokkaido-Nansei-Oki earthquake in port areas|With Japanese abstract|#TNP:-:778:1994:1-267|Strong-motion record+1993+Japan+Earthquake||#*SEAOFJAPAN93|#*SEAOFJAPAN93A
J|0982|McBride,J.H.+England,R.W.|Deep seismic reflection structure of the Caledonian orogenic front west of Shetland||#JGL:151:1:1994:9-16|Deep seismic sounding+Caledonian+Dipping reflector+Crustal structure
J|0983|Stoker,M.S.+Leslie,A.B.+Scott,W.D.+|A record of late Cenozoic stratigraphy, sedimentation and climate change from the Hebrides Slope, NE Atlantic Ocean||#JGL:151:2:1994:235-249|Seismostratigraphy+North Atlantic+Cenozoic+Sedimentation
J|0984|Weaver,P.P.E.+Masson,D.G.+Kidd,R.B.|Slumps, slides and turbidity currents - sea-level change and sedimentation in the Canary Basin||Geoscientist:4:1:1994:14-16|Side-scan sonar+Sedimentation+Canary Islands+Sea level
J|0985||Italian earthquake||Geoscientist:4:2:1994:3|Intermediate-depth earthquake+Southern Italy+1994|Geonews|#*SITALY94
J|0986|England,R.W.|BIRPS experiments in 1993||Geoscientist:4:3:1994:2-3|BIRPS+Deep seismic sounding+North Sea|Geonews
J|0987|Brown,C.|Tectonic interpretation of regional conductivity anomalies||Survs Geophys.:15:2:1994:123-157|Electrical conductivity+Refraction data+Anomaly+Tectonics
J|0988|Tarits,P.|Electromagnetic studies of global geodynamic processes||Survs Geophys.:15:2:1994:209-238|Electrical conductivity+Mantle+670km discontinuity+Electromagnetic data
J|0989|Kolar,P.|Energy of selected events of 1985/86 West-Bohemian earthquake swarm||#SGE:38:1:1994:23-36|Energy+1985-1986+Swarm+Bohemia
J|0990|Colic,K.+Petrovic,S.+Sunkel,H.+|Similarities of and differences between three mountain belts at the border of the Pannonian Basin due to the behaviour of the Mohorovicic discontinuity||#SGE:38:2:1994:131-139|Geoid+Mohorovicic discontinuity+Pannonian Basin+Mountain
J|0991|Klimes,L.|Kinematic hypocentre determination using the paraxial ray approximation||#SGE:38:2:1994:140-156|Hypocentre+Travel-times+Inverse problem+Ray tracing
J|0992|Hrabe,J.|Paraxial ray theory in general coordinates||#SGE:38:2:1994:157-167|Ray theory+Eikonal equation+Mathematical method
J|0993|Boskova,J.+Smilauer,J.+Triska,P.+|Anomalous behaviour of plasma parameters as observed by the Intercosmos 24 satellite prior to the Iranian earthquake of 20 June 1990||#SGE:38:2:1994:213-220|Precursor+Ionosphere+1990+Iran+Earthquake||#*MANJIL90|#*MANJIL90A
J|0994|Ferrini,M.|Initiatives of the Regione Toscana, Italy, for seismic prevention||STOP Disasters:-:18:1994:28-29|Italy+Mitigation+Vulnerability
J|0995|Huang,B-S.|Estimation of source parameters by the inversion of near source strong motion wave forms||#TAO:5:1:1994:11-26|Source parameter+Inversion+Strong-motion record+Moment tensor||#*TAIWAN92
J|0996|Lu,M-T.+Hu,C-H.+Shih,R-C.|Characteristics of P and SH waves in shallow seismic reflection surveys in the Putai area||#TAO:5:1:1994:27-42|Seismic survey+P-wave+SH-wave+Shallow structure
J|0997|Chen,A.T.+Nakamura,Y.+Wu,L-W.|Ocean bottom seismograph: instrumentation and experimental technique||#TAO:5:1:1994:109-119|Ocean-bottom seismograph+Instrumentation+Technique|Note and correspondence
J|0998|Wang,C-Y.+Chen,G-P.+Jong,D-T.|The detection of active faults on Taiwan using shallow reflection seismics||#TAO:5:2:1994:277-293|Seismics+Taiwan+Fault+Earthquake
J|0999|Huang,B-S.+Yeh,Y.T.|Near-source ground motion of a propagating rupture fault from the finite element modeling||#TAO:5:2:1994:295-311|Finite element method+Ground motion+Rupture+Propagation
J|1000|McCalpin,J.P.|Reevaluation of Holocene faulting at the Kaysville site, Weber segment of the Wasatch fault zone, Utah||Tectonics:13:1:1994:1-16|Palaeoseismology+Wasatch Fault+Faulting+Holocene
J|1001|Abers,G.A.+McCaffrey,R.|Active arc-continent collision: earthquakes, gravity anomalies, and fault kinematics in the Huon-Finisterre collision zone, Papua New Guinea||Tectonics:13:2:1994:227-245|Collision+Papua New Guinea+Shallow-focus earthquake+Gravity+ISC||#*HUON92|#*NEWGUINEA87
J|1002|Harrison,R.W.+Schultz,A.|Strike-slip faulting at Thebes Gap, Missouri and Illinois: implications for New Madrid tectonism||Tectonics:13:2:1994:246-257|Seismicity+New Madrid+Strike-slip+Tectonics
J|1003|Wheeler,W.H.+Rosendahl,B.R.|Geometry of the Livingstone Mountains Border Fault, Nyasa (Malawi) Rift, East Africa||Tectonics:13:2:1994:303-312|Reflexion data+Geometry+East African Rift+Fault
J|1004|Echtler,H.P.+Luschen,E.+Mayer,G.|Lower crustal thinning in the Rhine graben: implications for recent rifting||Tectonics:13:2:1994:342-353|Thinning+Rhine-Graben+Rifting+Profile
J|1005|Speece,M.A.+Frost,B.R.+Smithson,S.B.|Precambrian basement structure and Laramide deformation revealed by seismic reflection profiling in the Laramie Mountains, Wyoming||Tectonics:13:2:1994:354-366|Wyoming+Basement+Profiling+Fault zone
J|1006|Stephenson,R.A.+Coflin,K.C.+Lane,L.S.+|Crustal structure and tectonics of the southeastern Beaufort Sea continental margin||Tectonics:13:2:1994:389-400|Beaufort Sea+Continental margin+Crustal structure+Tectonics
J|1007|Geist,E.L.+Scholl,D.W.|Large-scale deformation related to the collision of the Aleutian Arc with Kamchatka||Tectonics:13:3:1994:538-560|Deformation+Aleutian Arc+Kamchatka+Earthquake
J|1008|Jones,D.L.+Graymer,R.+Wang,C.+|Neogene transpressive evolution of the California Coast Ranges||Tectonics:13:3:1994:561-574|Seismicity+Coast Range+Evolution+San Andreas Fault
J|1009|Manning,A.H.+Bartley,J.M.|Postmylonitic deformation in the Raft River metamorphic core complex, northwestern Utah: evidence of a rolling hinge||Tectonics:13:3:1994:596-612|Fault plane+Utah+Deformation
J|1010|Florendo,F.F.|Tertiary arc rifting in northern Luzon, Philippines||Tectonics:13:3:1994:623-640|Luzon+Profile+Rifting+Tertiary
J|1011|Nodder,S.D.|Characterizing potential offshore seismic sources using high-resolution geophysical and seafloor sampling programs: an example from Cape Egmont fault zone, Taranaki shelf, New Zealand||Tectonics:13:3:1994:641-658|New Zealand+Seismic potential+Marine seismic source+Historical seismicity
J|1012|Masek,J.G.+Isacks,B.L.+Fielding,E.J.|Rift flank uplift in Tibet: evidence for a viscous lower crust||Tectonics:13:3:1994:659-667|Tibet+Lower crust+Viscosity+Graben
J|1013|Schweig,E.S.|A wake-up call from Northridge||Nat. Haz. Observer:18:4:1994:3-4|New Madrid+Southern California+Seismic zone+Preparedness||#*NORTHRIDGE94
J|1014||Review of `Preliminary report on the seismological and engineering aspects of the January 17, 1994 Northridge earthquake' edited by J. P. Moehle||Nat. Haz. Observer:18:4:1994:16|Review+Los Angeles+1994+Earthquake|EERC, Richmond, California, 1994, 87p|#*NORTHRIDGE94
J|1015||Review of `The practice of earthquake hazard assessment' edited by R. K. McGuire||Nat. Haz. Observer:18:4:1994:16|Review+Hazard+IDNDR+Map|IASPEI, 1993, 290p
J|1016||Review of `Northridge earthquake, January 17, 1994: preliminary reconnaissance report' edited by J. F. Hall||Nat. Haz. Observer:18:5:1994:13|Review+Los Angeles+1994+Earthquake|EERI, Oakland, California, 1994, 112p|#*NORTHRIDGE94
J|1017|Evison,F.F.+Rhoades,D.A.|The precursory earthquake swarm in New Zealand: hypothesis tests||#NEZ:36:-:1993:51-60|Swarm+New Zealand+Precursor+Earthquake||#*DSOUND89
J|1018|Anderson,H.+Beanland,S.+Blick,G.H.+|The 1986 May 23 Inangahua, New Zealand, earthquake: an integrated geological, geodetic, and seismological source model||#NEZ:37:-:1994:59-86|1968+New Zealand+Seismicity+Earthquake
J|1019|Forrest,S.|Supercomputers to predict earthquakes?||Parallelogram:-:57:1994:15-17|Computer+Prediction+Stick-slip+Earthquake
J|1020|Satake,K.|Study of recent tsunamis sheds light on earthquakes||Earth in Space:6:5:1994:7|Tsunami+Hazard+Submarine earthquake||#*NICARAGUA92|#*FLORES92|#*SEAOFJAPAN93
A|1021||Proceedings of the International Workshop on Strong Motion Data - Vol. 1||1994:Yokosuka, Japan:Port and Harbour Research Institute|Proceedings+Strong motion+Network+Observational seismology+Station location+Data acquisition|Meeting held at Menlo Park, December 1993. 257p|#*SANANTONIO|#*KUSHIRO93|#*LOMAPRIETA89|#*WHITTIER|#*SUPERSTITION87
A|1022||Proceedings of the International Workshop on Strong Motion Data - Vol. 2||1994:Yokosuka, Japan:Port and Harbour Research Institute|Proceedings+Strong motion+Attenuation+Earthquake+Spectrum|Meeting held at Menlo Park, December 1993. 489p|#*NINDIA91|#*SEAOFJAPAN93|#*LUZON90A|#*KUSHIRO93|#*HONSHU87
J|1023|Bolt,B.A.|Selection of design earthquake||Hydropower & Dams:1:3:1994:41-45|Design+Earthquake+Dam+Ground motion||#*NORTHRIDGE94|#*LOMAPRIETA89
J|1024|Finn,W.D.L.+Gillon,M.D.+Yogendrakumar,M.+|Simulation of the seismic response of the Matahina dam||Hydropower & Dams:1:3:1994:45-48|Dam+Simulation+Structural response+Dynamic analysis||#*EDGECUMBE
J|1025|Dungar,R.|Complexity, uncertainty and realism in the seismic safety evaluation of concrete dams: linear analysis||Hydropower & Dams:1:3:1994:49-60|Safety+Dam+Modelling+Linearity
A|1026|Martins,I.+Mendes-Victor,L.A.|Seismic activity in the west part of Iberian Peninsula. Energetics and return periods|In Portugese with English abstract|1993:Lisbon:Instituto Nacional de Meteorologia e Geofisica|Iberian Peninsula+Activity+Gutenberg & Richter+Recurrence|Publication No.20, 14p
A|1027|Baljinnyam,I.+Bayasgaian,A.+Borisov,B.A.+|Ruptures of major earthquakes and active deformation in Mongolia||1993:Boulder:Geological Society of America|Major earthquake+Mongolia+Rupture+Deformation|Memoir No.181, 106p
J|1028||International Association of Seismology and Physics of the Earth's Interior - 27th General Assembly||Chron. U.G.G.I.:-:221:1994:66-102|IASPEI+Symposium|Held at Wellington, New Zealand, January 1994
J|1029|Bormann,P.|Seismotectonics and seismic hazard of Germany in the European context||#BIT:31:2:1994:55-89|Seismotectonics+Hazard+Germany+Seismicity||#*SWABIAN|#*ROERMOND92|#*WGERMANY89
J|1030|Basu,S.+Kumar,A.+Chandra,B.|Noise cancellation in records of digital accelerograph through adaptive filter||#BIT:31:2:1994:91-115|Accelerograph+Noise+Filter+Digital recording
J|1031|Wang,J-H.+Chen,K-C.+Lee,T-Q.|Depth distribution of shallow earthquakes in Taiwan|With Chinese abstract|#JGC:37:2:1994:125-142|Depth+Taiwan+Shallow earthquake+Transition zone
J|1032|Ujszaszi,K.+Vakarcs,G.|Sequence stratigraphic analysis in the south Transdanubian region, Hungary|With Hungarian abstract|#GPT:38:2-3:1994:69-87|Pannonian Basin+Seismostratigraphy+Sequence+Sea level
J|1033|Gaertner,H.+Fesser,K.H.+Kustermann,W.+|Reflection seismic surveys for oil and gas exploration in north-east Germany|With Hungarian abstract|#GPT:38:2-3:1994:89-110|Seismic survey+Germany+Oil field+Gas field
J|1034|Othman,A.A.A.|Seismic signal analysis in partially fluid saturated media|With Hungarian abstract|#GPT:38:2-3:1994:111-134|Velocity+Water+Saturation+Porous medium
J|1035|Singh,V.P.+Shanker,D.|Flow of the Tibetan plateau and tectonics along the Burmese arc|With Hungarian abstract|#GPT:38:2-3:1994:135-149|Tectonics+Seismicity+Tibet+Burmese arc+ISC||#*BURMAINDIA84|#*BURMAINDIA77
J|1036|Bruland,L.|Comparison of the Karhunen-Loeve stack with the conventional stack|With Hungarian abstract|#GPT:38:4:1994:239-249|Karhunen-Loeve transform+Stacking+Noise
J|1037|Tatom,F.B.|Seismic detection of tornadoes||#EQV:24:5:1993:222-234|Detection+Vibration+Seismic noise+Atmospheric storm
J|1038|Person,W.J.|Earthquakes September-October 1993||#EQV:24:5:1993:235-239|Earthquake+1993+Casualties
J|1039|Ewart,J.W.+Murray,T.L.+Lockhart,A.B.+|Preventing volcanic catastrophe: the U.S. international volcano disaster assistance program||#EQV:24:6:1993:270-291|Monitoring+Eruption+Natural disaster+1985
J|1040|Person,W.J.|Earthquakes November-December 1993||#EQV:24:6:1993:292-295|Earthquake+1993+Casualties
J|1041|Papadimitriou,E.E.|Focal mechanism along the convex side of the Hellenic Arc||#BGT:35:140:1993:401-426|Focal mechanism+Hellenic arc+Large earthquake+Seismotectonics||#*MED82|#*KEFALLINIA|#*KEFALLINIA83|#*CRETE84
J|1042|Benouar,D.|The Melouza (Algeria) earthquake of 21 February 1960||#BGT:35:140:1993:427-435|Earthquake+1960+Algeria+Damage
J|1043|Bernabini,M.+Montrasio,A.+Nicolich,R.|CROP central Alps seismic profile||#BGT:35:140:1993:468-472|Alps+Profile+CROP+Geologic structure
J|1044||Review of `Siting in earthquake zone' by J. G. Z. Q. Wang and K. T. Law||#BGT:35:140:1993:473|Review+Seismic zone+Hazard+Site|A.A. Balkema, Rotterdam, 1994, 115p
J|1045||Review of `Earthquake resistant construction and design' edited by S. A. Savidis||#BGT:35:140:1993:473|Review+Earthquake-resistant design+Construction|A.A. Balkema, Rotterdam, 1994, 2 vols., 1163p
J|1046|Zhang,G-M.+Zhang,Y-X.+Shi,Y-L.|Studies of the numerical simulation on seismic precursory complexity||#JEP:3:1:1994:1-18|Complexity+Precursor+Simulation+Numerical method||#*TANGSHAN|#*IZUOSHIMA
J|1047|Kedrov,O.K.|Teleseismic method of estimating the yields of underground nuclear explosions taking into account the spectral-time characteristics of the P-coda||#JEP:3:1:1994:19-50|Underground nuclear explosion+Yield+Spectrum+Coda
J|1048|Ding,J-H.+Huang,X-X.+Xing,R-Y.+|Research on the geomagnetic low-point method of earthquake prediction||#JEP:3:1:1994:51-65|Prediction+Geomagnetic anomaly+Spatial distribution+Precursor||#*XIAOJIN89|#*DATONG89A|#*DATONG89B
J|1049|Kuznetsova,K.I.+Osokina,D.N.|Aseismic movement along a tectonic rupture before an earthquake occurrence||#JEP:3:1:1994:67-78|Strong earthquake+Rupture+Stress+Creep
J|1050|Zhang,Z-S.|On earthquake prediction by crustal deformation monitoring method in China||#JEP:3:1:1994:79-98|Prediction+Crustal deformation+China+Monitoring||#*LUHUO|#*DAOFU|#*TANGSHAN|#*HAICHENG
J|1051|Chigariov,N.V.|Predicting future states of the environment and catastrophes||#JEP:3:1:1994:99-108|Catastrophe+Prediction+Stress+Seismogenesis
J|1052|Fan,Y.|The characteristics of seismic activities before Lancang-Gengma large earthquakes||#JEP:3:1:1994:109-118|Large earthquake+1988+Yunnan+Seismicity||#*YUNNAN88A|#*YUNNAN88B
J|1053|Yushin,V.I.+Geza,N.I.+Velinsky,V.V.+|Vibro-seismic monitoring in the Baikal region||#JEP:3:1:1994:119-134|Baikal+Monitoring+Vibrator+Precursor
J|1054|He,X.|Deformation anomalies before the 1988 Lancang-Gengma large earthquakes||#JEP:3:1:1994:135-145|1988+Large earthquake+Yunnan+Precursor||#*YUNNAN88A|#*YUNNAN88B
J|1055|Gambourtsev,A.G.|Some ideas concerning the evolution in time of a geological environment and its monitoring||#JEP:3:1:1994:147-152|Monitoring+Time series+Lithosphere
B|1056||#FSS1||Shakhramanian,M.A.|The conceptual issues of the creation and development of the Federal Seismological Observations System as a Branch of Russia's system for emergencies warning and fighting||#FSS2|Observational seismology+Russia+Safety|No.1, p19-21
B|1057||#FSS1||Starovoit,O.Ye.|Seismological network of the Russian Academy of Sciences||#FSS2|Network+Russia+Instrumentation+Seismograph station|No.1, p22-29
B|1058||#FSS1||Starovoit,O.Ye.+Zakharova,A.I.+Gabsatarova,I.P.|Seismic situation in the northern Caucasus as of March 1994||#FSS2|Caucasus+1994+Earthquake+Historical seismicity|No.1, p30-36|#*WCAUCASUS91|#*ECAUCASUS92
B|1059||#FSS1||Ulomov,V.I.|Seismic zoning of the territory of Russia||#FSS2|Russia+Zoning+Hazard+Map|No.1, p37-46
B|1060||#FSS1||Strakhov,V.N.+Ulomov,V.I.+Gvishiani,A.D.|Global Seismic Hazard Assessment (GSHAP) International Program||#FSS2|GSHAP+Hazard|No.1, p47-49
B|1061||#FSS1||Slavina,L.B.|Seismic regime and possible zones of originating earthquakes on the territory of Daghestan and adjacent areas||#FSS2|Caucasus+Seismic zone+Seismicity|No.2, p17-22
B|1062||#FSS1||Rogozhin,Ye.A.|The analysis of the tendency of seismic activation on the north Caucasus as applied to the estimation of seismic hazard of the Stavropol Land||#FSS2|Caucasus+Risk|No.2, p23-26
B|1063||#FSS1||Nikonov,A.A.|Earthquakes of the past and seismic hazard of the Stavropol' Land||#FSS2|Hazard+Caucasus|No.2, p27-30
B|1064||#FSS1||Starovoit,O.Ye.+Chernobay,I.P.|Participation of Russia in international seismic observation projects||#FSS2|IRIS+Digital recording+Russia+Seismograph station|No.2, p31-37
B|1065||#FSS1||Kondorskaya,N.V.|Participation of the Russian Academy of Sciences in the work of international seismological organizations||#FSS2|International Seismological Centre+IASPEI+ISOP+Russia|No.2, p38-43
B|1066||#FSS1||Tiupkin,Yu.S.|The participation of Russia in fundamental investigations of the program "International Decade for Natural Disaster Reduction"||#FSS2|IDNDR+Russia|No.2, p44-47
B|1067||#FSS1||Keilis-Borok,V.I.+Ismail-Zadeh,A.T.|Participation of IIEP RAS in international research cooperation for natural disaster reduction||#FSS2|Natural disaster+Prediction+IDNDR+Seismology|No.2, p48-50
B|1068||#FSS1||Gvishiani,A.D.+Zhizhin,M.N.+Strakhov,V.N.|European-Mediterranean Seismological Centre within the Natural Disasters Warning System in the Open Partial Agreement (OPA) at the Council of Europe||#FSS2|Europe+Mediterranean+Warning+Natural disaster|No.2, p51-57
B|1069||#FSS1||Strakhov,V.N.+Pokhotelov,O.A.+Gladyshev,V.A.+|Russian-French "DEMETER" project: satellite electromagnetic plasma monitoring of seismic activity||#FSS2|Monitoring+Precursor+Electromagnetic emission+Satellite|No.2, p58-59
B|1070||#FSS1||Sidorin,A.Ya.|The contribution of seismology into the arms race||#FSS2|Nuclear test ban+Seismology+Verification+Yield|No.2, p60-64
B|1071||#FSS1||Shakhramanian,M.A.+Strakhov,V.N.+Starovoit,O.Ye.+|On participation of the Russian Federation in TESSEG-3||#FSS2|Nuclear explosion+Monitoring|No.2, p65-68
B|1072||#FSS1||Solodilov,L.N.+Konovalov,Yu.F.|On cooperation in the field of deep earth studies in view of the new approach to the earthquake prediction problem||#FSS2|Prediction+CIS+Deep structure+Map|No.2, p69-74|#*ARMENIA88
V|1994:2||Bibliography of seismology. 1994 July-December|ISC:30:2:1996
J|0001|Swinbanks,D.|Earthquake `forecasters' face their critics in Japan||#NAT:370:6484:1994:9|Japan+Prediction+Radon+Research|News
J|0002|Vidale,J.E.|A snapshot of whole mantle flow||#NAT:370:6484:1994:16-17|Mantle+Slab+Velocity+Subduction|News and views
J|0003|Gubbins,D.|Geo-exploration. Review of `Earth sounding analysis: processing versus inversion' by J. F. Claerbout||#NAT:370:6486:1994:190|Review+Data processing+Inversion+Seismic exploration|Blackwell Scientific, 1992, 304p
J|0004|Detrick,R.S.+Collins,J.A.+Stephen,R.A.+|In situ evidence for the nature of the seismic layer 2/3 boundary in oceanic crust||#NAT:370:6487:1994:288-290|Oceanic crust+Velocity-depth function+Ocean Drilling Programme+Eastern Pacific
J|0005|Hellweg,P.+Seidl,D.+Brotopuspito,K.S.+|Team investigates activity at Mt. Semeru, Java, volcano||#EOS:75:28:1994:313-317|Java+1994+Eruption+Seismicity
J|0006|Wakefield,J.|Academe defends its role in Test Ban Treaty monitoring||#EOS:75:28:1994:313-314|Test ban+Monitoring+Network+Array
J|0007|Holbrook,W.S.+Klemperer,S.L.|Deep seismic imaging workshop probes future of the science||#EOS:75:28:1994:316|Workshop+Deep seismic sounding+Continental margin+Imaging
J|0008|Wakefield,J.|Surprisingly destructive tsunamis challenge conventional wisdom||#EOS:75:29:1994:322-323|Tsunami+Run-up+Coast+Hazard||#*JAVA94
J|0009|England,R.W.|Seismic reflection profiling to expand knowledge of U.K. shelf||#EOS:75:29:1994:324-327|BIRPS+Marine seismic investigation+North Sea+Rockall Trough
J|0010|Detrick,R.S.+Humphris,S.E.|Exploration of global oceanic ridge system unfolds||#EOS:75:29:1994:325-326|Mid-ocean ridge+Marine geophysical investigation+Oceanic mantle+Ocean-bottom seismometer
J|0011|Bonatti,E.+Ligi,M.+Gasperini,L.+|Imaging crustal uplift, emersion, and subsidence at the Vema Fracture Zone||#EOS:75:32:1994:371-372|Mid-Atlantic Ridge+Fracture zone+Marine seismic investigation+Oceanic crust
J|0012|Savage,M.K.|Anisotropy and rift systems||#NAT:371:6493:1994:105-106|Continental rift+Shear wave splitting+Anisotropy+Upper mantle|News and views
J|0013|Gao,S.+Davis,P.M.+Liu,H.+|Seismic anisotropy and mantle flow beneath the Baikal rift zone||#NAT:371:6493:1994:149-151|Baikalian Rift+Anisotropy+Upper mantle+SKS-wave
J|0014|Yardley,B.W.D.+Valley,J.W.|How wet is the Earth's crust||#NAT:371:6494:1994:205-206|Crust+Water+Reflector+Drilling|News and views
J|0015|Vidale,J.E.|A mystery in the mantle||#NAT:371:6495:1994:288|Mantle+Deep structure+Subduction zone+920km discontinuity|News and views
J|0016|Kawakatsu,H.+Niu,F.|Seismic evidence for a 920-km discontinuity in the mantle||#NAT:371:6495:1994:301-305|920km discontinuity+Mantle+Subduction zone+Deep structure
J|0017|Hickman,S.+Sibson,R.H.+Bruhn,R.L.|Conference explores mechanical involvement of fluids in faulting||#EOS:75:37:1994:426-428|Faulting+Fluid+Mechanics+Hydrology
J|0018|Mestel,R.|Future quakes could rock world economy||#NSC:-:1940:1994:4|Damaging earthquake+California+Loss+Casualties|This week
J|0019|Menon,S.|Quake leaves its mark on tree rings||#NSC:-:1941:1994:7|Biological activity+Occurrence+1991+India|This week|#*NINDIA91
J|0020|Redfern,M.|Lost ocean found deep in the Earth||#NSC:-:1941:1994:16|Western Pacific+Mantle+Cross section+Tethys Sea|Science
J|0021|Holder,A.|Caught in a quake||#NSC:-:1944:1994:48|Earthquake+Wave motion+Building+California|Letter to the editor|#*NORTHRIDGE94
J|0022|Linde,A.T.+Sacks,I.S.+Johnston,M.J.S.+|Increased pressure from rising bubbles as a mechanism for remotely triggered seismicity||#NAT:371:6496:1994:408-410|Gas bubble+Aftershock+Trigger+Long Valley Caldera||#*LANDERS92
J|0023|Shearer,P.M.|Imaging Earth's seismic response at long periods||#EOS:75:39:1994:449-452|IDA+Long-period seismograph+Response+Stacking
J|0024|Wakefield,J.|Fault finding in Utah puts longstanding theories on the line||#EOS:75:40:1994:459-460|Utah+Normal fault+Dipping reflector+Reflexion study
J|0025|Swinbanks,D.|Japanese earthquake tests disaster warning networks||#NAT:371:6498:1994:549|Warning+Earthquake+1994+Hokkaido+Tsunami|News|#*HOKKAIDO94
J|0026|Tyburczy,J.A.|No stones left unturned. Review of `Introduction to the physics of rocks' by Y. Gueguen and V. Palciauskas||#NAT:371:6499:1994:667-668|Review+Rock mechanics+Physical properties+Crust|Princeton University Press, 1994, 294p
J|0027|Hadfield,P.|Crucial minutes shaved off quake warning||#NSC:-:1947:1994:7|Tsunami+Earthquake+1994+Hokkaido+Warning|This week|#*HOKKAIDO94|#*SEAOFJAPAN
J|0028|Smythe,D.K.+Smithson,S.B.+Gillen,C.+|Project images crust, collects seismic data in world's largest borehole||#EOS:75:41:1994:473-476|Borehole+Continental crust+Common depth point+Kola Peninsula
J|0029||Earthquake and emergence||#EOS:75:41:1994:474|Hazard+Health+Earthquake+Biological activity|In brief|#*LATUR93|#*NORTHRIDGE94
J|0030|Jeanloz,R.+Hemley,R.J.|Thermoelasticity of perovskite: an emerging consensus||#EOS:75:41:1994:476-477|Perovskite+Thermoelasticity+Lower mantle+Shear modulus
J|0031|Herzig,P.+Hannington,M.+McInnes,B.+|Submarine volcanism and hydrothermal venting studied in Papua, New Guinea||#EOS:75:44:1994:513-516|Papua New Guinea+Submarine volcano+Seismic zone+Marine geophysical investigation
J|0032|Swinbanks,D.|Tsunami experts left high and dry||#NAT:372:6501:1994:3|Kuril Islands+Tsunami+Earthquake+1994|News|#*HOKKAIDO94
J|0033|Stein,M.+Hofmann,A.W.|Mantle plumes and episodic crustal growth||#NAT:372:6501:1994:63-68|Growth+Continental crust+Mantle plume+Subduction zone
J|0034|Schultz,A.|Limits to knowledge. Review of `Geophysical inverse theory' by R. L. Parker||#NAT:372:6502:1994:142|Review+Inverse problem+Nonlinear inversion+Backus-Gilbert theory|Princeton University Press, 1994, 386p
J|0035|Davis,T.L.+Namson,J.S.|A balanced cross-section of the 1994 Northridge earthquake, Southern California||#NAT:372:6502:1994:167-169|Southern California+Earthquake+Thrust fault+1994||#*NORTHRIDGE94
J|0036|Hogrefe,A.+Rubie,D.C.+Sharp,T.G.+|Metastability of enstatite in deep subducting lithosphere||#NAT:372:6504:1994:351-353|Subduction zone+Deep-focus earthquake+Upper mantle+Enstatite
J|0037|Yeh,H.+Liu,P.+Briggs,M.+|Propagation and amplification of tsunamis at coastal boundaries||#NAT:372:6504:1994:353-355|Earthquake+1992+Tsunami+Indonesia||#*FLORES92
J|0038|Hadfield,P.|Earthquake theory up in the air||#NSC:-:1953:1994:11|Atmospheric pressure+Trigger+Japan+Philippine Sea|This week
J|0039|Wiens,D.A.+McGuire,J.J.+Shore,P.J.+|A deep earthquake aftershock sequence and implications for the rupture mechanism of deep earthquakes||#NAT:372:6506:1994:540-543|Deep earthquake+1994+Tonga+Sequence||#*FIJI94
J|0040|Forsyth,D.W.+Chave,A.D.|Experiment investigates magma in the mantle beneath mid-ocean ridges||#EOS:75:46:1994:537-540|Ocean-bottom seismometer+Marine geophysical investigation+Mid-ocean ridge+East Pacific Rise
J|0041||Thrust sheet model may explain Pacific Northwest quake hazards||#EOS:75:47:1994:545|Thrust sheet+Model+Reflexion data+Puget Sound
J|0042|Coffin,M.F.+Karner,G.D.+Falvey,D.A.|Research cruise yields new details of Macquarie Ridge complex||#EOS:75:48:1994:561-564|Macquarie Ridge+Marine geophysical investigation+Reflexion data+Deformation||#*MACQUARIE89
J|0043|Jeanloz,R.+Romanowicz,B.|Hot action at the core-mantle boundary||#EOS:75:48:1994:563|Core-mantle boundary+Workshop+Heterogeneity+Wave velocity
J|0044|Holmes,R.|Big crunch looms for northern India||#NSC:-:1956:1994:6|Large earthquake+Himalayas+Plate motion+Warning|This week
J|0045|Holmes,R.|Long-distance shocks rumble test-ban cheats||#NSC:-:1956:1994:9|Test ban+Explosion seismology+Discrimination+Monitoring|This week
J|0046||Doubts over quake||#NSC:-:1956:1994:12|Earthquake+1994+Los Angeles+Building|In brief|#*NORTHRIDGE94
J|0047|Rodgers,P.|All shook up...||#NSC:-:1957:1994:18-19|Earthquake engineering+Stiffness+Building+Mitigation|Technology
J|0048|Wiens,D.A.+McGuire,J.J.+Shore,P.J.+|Correction to `A deep earthquake aftershock sequence and implications for the rupture mechanism of deep earthquakes'||#NAT:372:6507:1994:709|Errata+Deep earthquake+Sequence+Tonga
J|0049|Houston,H.|Deep quakes shake up debate||#NAT:372:6508:1994:724-725|Deep earthquake+Aftershock+Focal mechanism+Fault plane|News and views|#*BOLIVIA94|#*FIJI94
J|0050|Kesson,S.E.+Fitz Gerald,J.D.+Shelley,J.M.G.|Mineral chemistry and density of subducted basaltic crust at lower-mantle pressures||#NAT:372:6508:1994:767-769|Slab+Density+Basalt+Transition zone
J|0051|Udias,A.+Buforn,E.|Seismotectonics of the Mediterranean region||Adv. Geophys.:36:-:1994:121-217|Seismotectonics+Mediterranean+Historical seismicity+Focal mechanism
J|0052|Neugebauer,J.|Closing-up structures, alternatives to pull-apart basins; the effect of bends in the North Anatolian Fault, Turkey||#TRN:6:4:1994:359-365|Fault+Anatolia+Bend+Earthquake
J|0053|Serva,L.|Ground effects in intensity scales||#TRN:6:4:1994:414-416|Intensity+Ground+Fracture||#*CAMPANIA
J|0054|Wong,H.K.+Panin,N.+Dinu,C.+|Morphology and post-Chaudian (Late Pleistocene) evolution of the submarine Danube fan complex||#TRN:6:5:1994:502-511|Black Sea+Sediment+Seismostratigraphy+Evolution
J|0055|Woo,G.|Seismic area zones: myth or reality?||#TRN:6:5:1994:535-536|Seismic zone+Hazard+Fault+Space-time distribution
J|0056|Spadini,G.+Wezel,F-C.|Structural evolution of the `41st parallel zone': Tyrrhenian Sea||#TRN:6:6:1994:552-562|Evolution+Tyrrhenian Sea+Marine seismic investigation+Gravity
J|0057|Benouar,D.+Aoudia,A.+Maouche,S.+|The 18 August 1994 Mascara (Algeria) earthquake - a quick-look report||#TRN:6:6:1994:634-638|Damaging earthquake+Algeria+1994+Focal mechanism||#*MASCARA94
J|0058|Squires,L.J.+Stoffa,P.L.+Cambois,G.|Borehole transmission tomography for velocity plus statics||#GPS:59:7:1994:1028-1036|Statics+Tomography+Borehole+Travel-times
J|0059|Sinha,B.K.+Norris,A.N.+Chang,S-K.|Borehole flexural modes in anisotropic formations||#GPS:59:7:1994:1037-1052|Borehole+Anisotropy+Perturbation+Propagation
J|0060|Kurkjian,A.L.+Coates,R.T.+White,J.E.+|Finite-difference and frequency-wavenumber modeling of seismic monopole sources and receivers in fluid-filled boreholes||#GPS:59:7:1994:1053-1064|Borehole+Fluid+Sensor+Modelling
J|0061|Rowbotham,P.S.+Goulty,N.R.|Wavefield separation by 3-D filtering in crosshole seismic reflection processing||#GPS:59:7:1994:1065-1071|Cross-hole+Wave field+Filtering+Reflexion data
J|0062|Gist,G.A.|Interpreting laboratory velocity measurements in partially gas-saturated rocks||#GPS:59:7:1994:1100-1109|Velocity+Laboratory+Rock+Gas
J|0063|Moser,T.J.|Migration using the shortest-path method||#GPS:59:7:1994:1110-1120|Path+Migration+Travel-times+Offset
J|0064|Whitcombe,D.N.+Carroll,R.J.|The application of map migration to 2-D migrated data||#GPS:59:7:1994:1121-1132|Migration+Map+Correction+Amplitude
J|0065|Zhou,B-Z.+Greenhalgh,S.A.|Linear and parabolic tau-p transforms revisited||#GPS:59:7:1994:1133-1149|Tau-p transform+Deconvolution+Exploration+Mathematical method
J|0066|Mohan,N.L.+Anand Babu,L.|A note on 2-D Hartley transform||#GPS:59:7:1994:1150-1155|Hartley transform+Data processing|Short note
J|0067|McBride,J.H.+Hobbs,R.W.+Henstock,T.J.+|On the "wraparound" multiple problem of recording seismic reflections in deep water||#GPS:59:7:1994:1160-1165|Multiple reflexion+Water+Common midpoint+Sediment|Short note
J|0068|Roksandic,M.M.|Discussion on `An integrated surface and borehole seismic case study: Fort St. John Graben area, Alberta, Canada' by R. C. Hinds, R. Kuzminski, N. L. Anderson and B. R. Richards||#GPS:59:7:1994:1171-1172|Comments+Vertical seismic profiling+Alberta+Borehole|With a reply by the authors
J|0069|Payne,M.A.|Looking ahead with vertical seismic profiles||#GPS:59:8:1994:1182-1191|Vertical seismic profiling+Well-log+Depth+Impedance
J|0070|Akbar,N.+Mavko,G.+Nur,A.+|Seismic signatures of reservoir transport properties and pore fluid distribution||#GPS:59:8:1994:1222-1236|Pore fluid+Signature+Reservoir+Viscoelastic medium
J|0071|Simmons,J.L.+Backus,M.M.|AVO modeling and the locally converted shear wave||#GPS:59:8:1994:1237-1248|AVO+Modelling+Converted wave+Shear wave
J|0072|Reilly,J.M.|Wireline shear and AVO modeling: application to AVO investigations of the Tertiary, U.K. central North Sea||#GPS:59:8:1994:1249-1260|AVO+North Sea+Modelling+Exploration
J|0073|Landro,M.+Langhammer,J.+Sollie,R.+|Source signature determination from ministreamer data||#GPS:59:8:1994:1261-1269|Marine seismic source+Signature+Airgun+Wave field
J|0074|Bracalari,M.+Salusti,E.|On a nonlinear autoregressive method applied to geophysical signals||#GPS:59:8:1994:1270-1277|Autoregression+Volcanic tremor+Sea level+Crustal movement
J|0075|Lutter,W.J.+Catchings,R.D.+Jarchow,C.M.|An image of the Columbia Plateau from inversion of high-resolution seismic data||#GPS:59:8:1994:1278-1289|High resolution+Columbia Plateau+Inversion+Image
J|0076|Tsvankin,I.+Thomsen,L.|Nonhyperbolic reflection moveout in anisotropic media||#GPS:59:8:1994:1290-1304|Moveout+Anisotropic medium+Reflexion+Layered medium
J|0077|Granser,H.|Shot gather DMO in the double log domain||#GPS:59:8:1994:1305-1307|Dip moveout+Shot+Frequency-wavenumber analysis+Domain|Short note
J|0078|Chang,C-H.+Gardner,G.H.F.+McDonald,J.A.|Errata to `A physical model of shear wave propagation in a transversely isotropic solid'||#GPS:59:8:1994:1311|Errata+Anisotropic medium+Propagation+Shear wave
J|0079|Bishop,T.N.+Nunns,A.G.|Errata to `Correcting amplitude, time, and phase mis-ties in seismic data'||#GPS:59:8:1994:1311|Errata+Correction+Seismic survey+Least squares
J|0080|Peacock,S.+McCann,C.+Sothcott,J.+|Experimental measurements of seismic attenuation in microfractured sedimentary rock||#GPS:59:9:1994:1342-1351|Sedimentary rock+Attenuation+Microfracture+Ultrasonics
J|0081|Spencer,J.W.+Cates,M.E.+Thompson,D.D.|Frame moduli of unconsolidated sands and sandstone||#GPS:59:9:1994:1352-1361|Sand+Sandstone+AVO+Poisson's ratio
J|0082|Fatti,J.L.+Smith,G.C.+Vail,P.J.+|Detection of gas in sandstone reservoirs using AVO analysis: a 3-D seismic case history using the Geostack technique||#GPS:59:9:1994:1362-1376|Gas+Sandstone+AVO+Technique
J|0083|Zhou,B-Z.+Greenhalgh,S.A.|Wave-equation extrapolation-based multiple attenuation: 2-D filtering in the f-k domain||#GPS:59:9:1994:1377-1391|Frequency-wavenumber analysis+Wave equation+Attenuation+Filtering
J|0084|Pan,G.S.+Young,C.Y.+Castagna,J.P.|An integrated target-oriented prestack elastic waveform inversion: sensitivity, calibration, and application||#GPS:59:9:1994:1392-1404|Inversion+Layered medium+Sensitivity+Prospecting
J|0085|Alkhalifah,T.+Larner,K.|Migration error in transversely isotropic media||#GPS:59:9:1994:1405-1418|Anisotropic medium+Migration+Error+Velocity
J|0086|Black,J.L.+Brzostowski,M.A.|Systematics of time-migration errors||#GPS:59:9:1994:1419-1434|Migration+Error+Time+Dipping layer
J|0087|Magnier,S-A.+Mora,P.+Tarantola,A.|Finite differences on minimal grids||#GPS:59:9:1994:1435-1443|Finite difference method+Grid+Propagation+Surface wave
J|0088|Robertsson,J.O.A.+Blanch,J.O.+Symes,W.W.|Viscoelastic finite-difference modeling||#GPS:59:9:1994:1444-1456|Finite difference method+Modelling+Viscoelastic medium+Propagation
J|0089|Tarantola,A.|Discussion on `Sensitivity of reflected and transmitted seismic data' by R. Mittet and T. Houlder||#GPS:59:9:1994:1457-1460|Comments+Sensitivity+Reflexion+Transmission|With a reply by the authors
J|0090|Green,W.R.|Review of `Seismic coal exploration Part B: in-seam seismics' by L. Dresen and H. Ruter||#GPS:59:9:1994:1461|Review+Coal seam+Seismics+Exploration|Pergamon Press, Oxford, 1994, 433p
J|0091|Sheriff,R.E.|Review of `Reservoir seismology' by M. R. Gadallah||#GPS:59:9:1994:1462|Review+Reservoir+Seismology|Penwell Publishing Co., 1994, 384p
J|0092|Haldorsen,J.B.U.+Miller,D.E.+Walsh,J.J.|Multichannel Wiener deconvolution of vertical seismic profiles||#GPS:59:10:1994:1500-1511|Vertical seismic profiling+Deconvolution+Wiener filter+Signature
J|0093|De,G.S.+Winterstein,D.F.+Meadows,M.A.|Comparison of P- and S-wave velocities and Q's from VSP and sonic log data||#GPS:59:10:1994:1512-1529|Vertical seismic profiling+Sonic log+Velocity+Q
J|0094|Yamamoto,T.+Nye,T.+Kuru,M.|Porosity, permeability, shear strength: crosswell tomography below an iron foundry||#GPS:59:10:1994:1530-1541|Cross-hole+Tomography+Physical properties+Sediment
J|0095|Whitcombe,D.N.+Murray,E.H.+St. Aubin,L.A.+|The application of 3-D depth migration to the development of an Alaskan offshore oil field||#GPS:59:10:1994:1551-1560|Migration+Alaska+Offshore+Oil field
J|0096|Tygel,M.+Schleicher,J.+Hubral,P.|Pulse distortion in depth migration||#GPS:59:10:1994:1561-1569|Pulse+Distortion+Migration+Depth
J|0097|Hornby,B.E.+Schwartz,L.M.+Hudson,J.A.|Anisotropic effective-medium modeling of the elastic properties of shales||#GPS:59:10:1994:1570-1583|Anisotropy+Modelling+Shale+Elastic medium
J|0098|Linville,A.F.|Single-channel digital filter design for seismic applications||#GPS:59:10:1994:1584-1592|Filter+Least squares+Time domain+Design
J|0099|Deng,H.L.|Acoustic-wave propagation in thin-layered media with steep reflectors||#GPS:59:10:1994:1593-1604|Layered medium+Dipping reflector+Acoustic wave+Propagation
J|0100|Rommel,B.E.|Approximate polarization of plane waves in a medium having weak transverse isotropy||#GPS:59:10:1994:1605-1612|Plane wave+Polarization+Anisotropic medium
J|0101|Marion,D.+Mukerji,T.+Mavko,G.|Scale effects on velocity dispersion: from ray to effective medium theories in stratified media||#GPS:59:10:1994:1613-1619|Dispersion+Velocity+Layered medium+Theory
J|0102|Zhang,J.+McMechan,G.A.|3-D transmission tomography using wide aperture data for velocity estimation for irregular salt bodies||#GPS:59:10:1994:1620-1630|Tomography+Aperture+Salt+Velocity
J|0103|Aldridge,D.F.|Linearization of the eikonal equation||#GPS:59:10:1994:1631-1632|Eikonal equation+Linearization|Short note
J|0104|Campbell,A.E.|Review of `The Tancheng-Lujiang wrench fault system' edited by X. Jiawei||#GPS:59:10:1994:1633|Review+China+Fault+Geology|John Wiley & Sons Ltd., Chichester, 1993, 279p
J|0105|Rector,J.W.+Washbourne,J.K.|Characterization of resolution and uniqueness in crosswell direct-arrival traveltime tomography using the Fourier projection slice theorem||#GPS:59:11:1994:1642-1649|Cross-hole+Tomography+Resolution+Travel-times
J|0106|Hardage,B.A.+Levey,R.A.+Pendleton,V.+|A 3-D seismic case history evaluating fluvially deposited thin-bed reservoirs in a gas-producing property||#GPS:59:11:1994:1650-1665|Case history+Reservoir+Gas+Texas
J|0107|Withers,R.+Eggers,D.+Fox,T.+|A case study of integrated hydrocarbon exploration through basalt||#GPS:59:11:1994:1666-1679|Hydrocarbon+Basin+Exploration+Basalt
J|0108|Miller,R.D.+Pullan,S.E.+Steeples,D.W.+|Field comparison of shallow P-wave seismic sources near Houston, Texas||#GPS:59:11:1994:1713-1728|Field work+P-wave+Controlled source+Subsurface
J|0109|Johnson,D.T.|Understanding air-gun bubble behavior||#GPS:59:11:1994:1729-1734|Airgun+Signature+Air bubble
J|0110|Sain,K.+Kaila,K.L.|Inversion of wide-angle seismic reflection times with damped least squares||#GPS:59:11:1994:1735-1744|Inversion+Least squares+Reflexion+Layered medium
J|0111|Yan,P.+He,Q-D.|Modeling seismic waves in transversely isotropic media||#GPS:59:11:1994:1745-1749|Modelling+Anisotropic medium+Propagator matrix+Layered medium
J|0112|Shapiro,S.A.+Zien,H.+Hubral,P.|A generalized O'Doherty-Anstey formula for waves in finely layered media||#GPS:59:11:1994:1750-1762|Thin layer+Plane wave+Incidence, Angle of+O'Doherty-Anstey effect
J|0113|Tieman,H.J.|Investigating the velocity-depth ambiguity of reflection traveltimes||#GPS:59:11:1994:1763-1773|Velocity-depth function+Travel-times+Reflexion+Anomaly
J|0114|Dellinger,J.+Vernik,L.|Do traveltimes in pulse-transmission experiments yield anisotropic group or phase velocities?||#GPS:59:11:1994:1774-1779|Numerical modelling+Travel-times+Group velocity+Phase velocity|Short note
J|0115|Gibson,R.L.+Peng,C.|Low- and high-frequency radiation from seismic sources in cased boreholes||#GPS:59:11:1994:1780-1785|Borehole+Radiation+Source+Seismic survey|Short note
J|0116|Green,W.|Review of `An introduction to mining seismology' by S. J. Gibowicz and A. Kijko||#GPS:59:11:1994:1789|Review+Mining+Induced seismicity+Seismology|Academic Press, San Diego, 1994, 399p
J|0117|Renlie,L.|Multipole logging in a formation with stress-relief-induced anisotropy||#GPS:59:12:1994:1806-1812|Multipole source+Logging+Anisotropy+Borehole
J|0118|Kerner,C.+Harris,P.E.|Scattering attenuation in sediments modeled by ARMA processes - validation of simple Q models||#GPS:59:12:1994:1813-1826|O'Doherty-Anstey effect+Scattering+Attenuation+Sediment
J|0119|Castagna,J.P.+Smith,S.W.|Comparison of AVO indicators: a modeling study||#GPS:59:12:1994:1849-1855|AVO+Modelling+Gas sand+Reflexion coefficient
J|0120|Berni,A.J.|Remote sensing of seismic vibrations by laser Doppler interferometry||#GPS:59:12:1994:1856-1867|Remote sensing+Interferometry+Laser+Vibration
J|0121|Zhao,H.+Ursin,B.+Amundsen,L.|Frequency-wavenumber elastic inversion of marine seismic data||#GPS:59:12:1994:1868-1881|Inversion+Frequency-wavenumber analysis+Marine seismic investigation+Layered medium
J|0122|Ristow,D.+Ruhl,T.|Fourier finite-difference migration||#GPS:59:12:1994:1882-1893|Migration+Finite difference method+Fourier analysis+Dipping reflector
J|0123|Mittet,R.|Implementation of the Kirchhoff integral for elastic waves in staggered-grid modeling schemes||#GPS:59:12:1994:1894-1901|Elastic wave+Kirchhoff integral+Boundary condition+Grid
J|0124|Amundsen,L.|The propagator matrix related to the Kirchhoff-Helmholtz integral in inverse wavefield extrapolation||#GPS:59:12:1994:1902-1910|Kirchhoff-Helmholtz integral+Propagator matrix+Wave field+Mathematical analysis
J|0125|Carcione,J.M.|The wave equation in generalized coordinates||#GPS:59:12:1994:1911-1919|Wave equation+Coordinates+Numerical method+Lamb's problem
J|0126|Amundsen,L.+Reitan,A.|Transformation from 2-D to 3-D wave propagation for horizontally layered media||#GPS:59:12:1994:1920-1926|Propagation+Transformation+Point source+Line source|Short note
J|0127|White,R.S.+McBride,J.H.+Henstock,T.J.+|Internal structure of a spreading segment of Mesozoic oceanic crust||Geology:22:7:1994:597-600|Marine seismic investigation+Oceanic crust+Sea-floor spreading+North Atlantic
J|0128|Barker,D.H.N.+Austin,J.A.|Crustal diapirism in Bransfield Strait, West Antarctica: evidence for distributed extension in marginal-basin formation||Geology:22:7:1994:657-660|Antarctica+Diapirism+Faulting+Marine seismic investigation
J|0129|O'Reilly,S.Y.+Griffin,W.L.|Comment on `Moho and petrologic crust-mantle boundary coincide under southeastern Australia' by D. M. Finlayson, A. J. Owen, D. W. Johnstone and K. D. Wyke-Dyster||Geology:22:7:1994:666-668|Comments+Crust-mantle boundary+Australia+Mohorovicic discontinuity
J|0130|Poag,C.W.+Powars,D.S.+Poppe,L.J.+|Meteoroid mayhem in Ole Virginny: source of the North American tektite strewn field||Geology:22:8:1994:691-694|Reflexion data+Crater+Chesapeake Bay+Meteorite
J|0131|Li,Z-X.|Collision between the North and South China blocks: a crustal-detachment model for suturing in the region east of the Tanlu fault||Geology:22:8:1994:739-742|Deep seismic sounding+Aeromagnetic study+China+Tectonics
J|0132|Anders,M.H.+Christie-Blick,N.|Is the Sevier Desert reflection of west-central Utah a normal fault?||Geology:22:9:1994:771-774|Dipping reflector+Utah+Borehole+Normal fault
J|0133|Van der Velden,A.J.|Displacement of the Lewis thrust sheet in southwestern Canada: new evidence from seismic reflection data||Geology:22:9:1994:819-822|Reflexion data+Canada+Displacement+Thrust fault
J|0134|Lin,S.+Van Staal,C.R.+Dube,B.|Promontory-promontory collision in the Canadian Appalachians||Geology:22:10:1994:897-900|Canadian Appalachians+Collision+Tectonics+Fault
J|0135|Phillips,S.+Bustin,R.M.+Lowe,L.E.|Earthquake-induced flooding of a tropical coastal peat swamp: a modern analogue for high-sulfur coals?||Geology:22:10:1994:929-932|Subsidence+1991+Earthquake+Central America||#*COSTARICA91
J|0136|Abbott,D.+Drury,R.+Smith,W.H.F.|Flat to steep transition in subduction style||Geology:22:10:1994:937-940|Crustal thickness+Thermal history+Subduction+Mantle
J|0137|Lang,H.R.|Comment on `Wilshire fault: earthquakes in Hollywood?' by C. Hummon, C. L. Schneider, R. S. Yeats et al||Geology:22:10:1994:959-960|Comments+Los Angeles+Buried fault+Mapping|With a reply by the authors
J|0138|Tobin,H.J.+Moore,J.C.+Moore,G.F.|Fluid pressure in the frontal thrust of the Oregon accretionary prism: experimental constraints||Geology:22:11:1994:979-982|Fluid pressure+Accretionary prism+Oregon+Reflector
J|0139|Zandt,G.+Velasco,A.A.+Beck,S.L.|Composition and thickness of the Altiplano crust, Bolivia||Geology:22:11:1994:1003-1006|Earthquake+1993+Bolivia+Crustal structure||#*JUJUY93A|#*JUJUY93B|#*JUJUY93C
J|0140|Wesnousky,S.G.+Jones,C.H.|Oblique slip, slip partitioning, spatial and temporal changes in the regional stress field, and the relative strength of active faults in the Basin and Range, western United States||Geology:22:11:1994:1031-1034|Basin & Range+Fault+Slip+Stress
J|0141|Pratt,B.R.|Seismites in the Mesoproterozoic Altyn Formation (Belt Supergroup), Montana: a test for tectonic control of peritidal carbonate cyclicity||Geology:22:12:1994:1091-1094|Seismite+Montana+Subsidence+Cycle
J|0142|Cashman,P.H.+Ellis,M.A.|Fault interaction may generate multiple slip vectors on a single fault surface||Geology:22:12:1994:1123-1126|Fault-slip+Vector+Nevada+Model||#*LOMAPRIETA89|#*CHALFANT|#*CALIFNEV92
J|0143|Lin,S.+Van Staal,C.R.+Dube,B.|Correction to `Promontory-promontory collision in the Canadian Appalachians'||Geology:22:12:1994:1153|Errata+Canadian Appalachians+Collision+Tectonics
J|0144|Hestholm,S.O.+Ruud,B.O.|2D finite-difference elastic wave modelling including surface topography||#GPP:42:5:1994:371-390|Finite difference method+Elastic wave+Modelling+Topography
J|0145|Hanitzsch,C.+Schleicher,J.+Hubral,P.|True-amplitude migration of 2D synthetic data||#GPP:42:5:1994:445-462|Migration+Stack+Kirchhoff method+Imaging
J|0146|Mazzotti,A.+Melis,A.M.+Ravagnan,G.+|AVO signatures of actual and synthetic reflections from different petrophysical targets||#GPP:42:5:1994:463-476|AVO+Reflexion+Petrophysics+Signature
J|0147|De Bazelaire,E.+Viallix,J.R.|Normal moveout in focus||#GPP:42:5:1994:477-499|Moveout+Interval velocity+Aperture+Equation
J|0148|Deluchi,L.|Comment on `Simultaneous vibroseis recording' by J. E. Martin and C. W. M. Bacon||#GPP:42:5:1994:521-524|Comments+Vibroseis+Seismic recording+Seismic survey|With a reply by one of the authors
J|0149|Sams,M.S.+Williamson,P.R.|Backus averaging, scattering and drift||#GPP:42:6:1994:541-564|Sonic log+Layered medium+Scattering+Modelling
J|0150|Symes,W.W.+Kern,M.|Inversion of reflection seismograms by differential semblance analysis: algorithm structure and synthetic examples||#GPP:42:6:1994:565-614|Inversion+Seismogram+Reflexion+Layered medium
J|0151|Balch,A.H.+Erdemir,C.|Sign-change correction for prestack migration of P-S converted wave reflections||#GPP:42:6:1994:637-663|Converted wave+Migration+Reflexion+Correction
J|0152|Sollid,A.+Arntsen,B.|Cost-effective 3D one-pass depth migration||#GPP:42:7:1994:755-776|Migration+Extrapolation+Wave field+Mathematical method
J|0153|Peng,C-B.+Cheng,C.H.+Toksoz,M.N.|Cased borehole effects on downhole seismic measurements||#GPP:42:7:1994:777-811|Borehole+Down-hole recording+Incidence, Angle of+Elastic wave
J|0154|Lile,O.B.+Backe,K.R.+Elvebakk,H.+|Resistivity measurements on the sea bottom to map fracture zones in the bedrock underneath sediments||#GPP:42:7:1994:813-824|Resistivity+Fracture zone+Sea floor+Low velocity
J|0155|Schoenberg,M.|Transversely isotropic media equivalent to thin isotropic layers||#GPP:42:8:1994:885-915|Thin layer+Isotropic medium+Decomposition+Mathematical analysis
J|0156|Horne,S.+MacBeth,C.D.|Inversion for seismic anisotropy using genetic algorithms||#GPP:42:8:1994:953-974|Anisotropy+Inversion+Genetic algorithm+Vertical seismic profiling
J|0157|Eckhardt,W.|Velocity model updating using image gathers||#GPP:42:8:1994:975-986|Model+Velocity+Image+Migration
J|0158|Sleep,N.H.+Blanpied,M.L.|Ductile creep and compaction: a mechanism for transiently increasing fluid pressure in mostly sealed fault zones||#PAG:143:1-3:1994:9-40|Creep+Fluid pressure+Fault zone+Mechanism
J|0159|Sleep,N.H.|Grain size and chemical controls on the ductile properties of mostly frictional faults at low-temperature hydrothermal conditions||#PAG:143:1-3:1994:41-60|Grain size+Fault zone+Fluid pressure+Ductility
J|0160|Mora,P.+Place,D.|Simulation of the frictional stick-slip instability||#PAG:143:1-3:1994:61-87|Stick-slip+Friction+Model+Seismodynamics
J|0161|Yamashita,T.+Umeda,Y.|Earthquake rupture complexity due to dynamic nucleation and interaction of subsidiary faults||#PAG:143:1-3:1994:89-116|Rupture+Complexity+Bright spot+Crack
J|0162|Germanovich,L.N.+Salganik,R.L.+Dyskin,A.V.+|Mechanism of brittle fracture of rock with pre-existing cracks in compression||#PAG:143:1-3:1994:117-149|Fracture+Crack+Rock+Mechanism
J|0163|Dunning,J.+Douglas,B.+Miller,M.+|The role of the chemical environment in frictional deformation: stress corrosion cracking and comminution||#PAG:143:1-3:1994:151-178|Friction+Stress+Crack+Geochemistry
J|0164|Antonellini,M.+Aydin,A.+Pollard,D.D.+|Petrophysical study of faults in sandstone using petrographic image analysis and X-ray computerized tomography||#PAG:143:1-3:1994:181-201|Sandstone+Petrophysics+Imaging+Porosity
J|0165|An,L-J.+Sammis,C.G.|Particle size distribution of cataclastic fault materials from Southern California: a 3-D study||#PAG:143:1-3:1994:203-227|Southern California+Fault+Granular medium+Fractal dimension
J|0166|Dieterich,J.H.+Kilgore,B.D.|Direct observation of frictional contacts: new insights for state-dependent properties||#PAG:143:1-3:1994:283-302|Friction+Stick-slip+Contact+Rock mechanics
J|0167|Wang,W.+Scholz,C.H.|Micromechanics of the velocity and normal stress dependence of rock friction||#PAG:143:1-3:1994:303-315|Friction+Velocity+Rock mechanics+Stress
J|0168|Reinen,L.A.+Weeks,J.D.+Tullis,T.E.|The frictional behavior of lizardite and antigorite serpentinites: experiments, constitutive models, and implications for natural faults||#PAG:143:1-3:1994:317-358|Friction+Serpentinite+Fault+Rock mechanics
J|0169|Marone,C.+Cox,S.J.D.|Scaling of rock friction constitutive parameters: the effects of surface roughness and cumulative offset on friction of gabbro||#PAG:143:1-3:1994:359-385|Friction+Rock mechanics+Laboratory
J|0170|Gu,Y-J.+Wong,T-F.|Development of shear localization in simulated quartz gouge: effect of cumulative slip and gouge particle size||#PAG:143:1-3:1994:387-423|Gouge+Shear+Slip+Friction
J|0171|David,C.+Wong,T-F.+Zhu,W-L.+|Laboratory measurement of compaction-induced permeability change in porous rocks: implications for the generation and maintenance of pore pressure excess in the crust||#PAG:143:1-3:1994:425-456|Laboratory+Pore pressure+Crust+Permeability
J|0172|King,C-Y.|Earthquake mechanism and predictability shown by a laboratory fault||#PAG:143:1-3:1994:457-482|Mechanism+Earthquake+Laboratory+Prediction
J|0173|Hueckel,T.+Peano,A.+Pellegrini,R.|A thermo-plastic constitutive law for brittle-plastic behavior of rocks at high temperatures||#PAG:143:1-3:1994:483-511|High temperature+Rock mechanics+Physical properties
J|0174|Fah,D.+Suhadolc,P.|Application of numerical wave-propagation techniques to study local soil effects: the case of Benevento (Italy)||#PAG:143:4:1994:513-536|Italy+Numerical modelling+Ground motion+Site response
J|0175|Lerche,I.|Offset dependent amplitudes: fault curvature effects and dip move-out corrections||#PAG:143:4:1994:537-562|Offset+Dip moveout+Curvature+Amplitude
J|0176|Vavrycuk,V.|Energy balance of simple elastodynamic sources||#PAG:143:4:1994:563-586|Elastodynamics+Energy+Source+Elastic wave
J|0177|Hatzidimitriou,P.M.|Scattering and anelastic attenuation of seismic energy in northern Greece||#PAG:143:4:1994:587-601|Greece+Scattering+Attenuation+Coda Q
J|0178|Latoussakis,J.+Drakatos,G.|A quantitative study of some aftershock sequences in Greece||#PAG:143:4:1994:603-616|Greece+Aftershock+Sequence+Shallow earthquake||#*KEFALLINIA88A|#*KEFALLINIA88B|#*VOLOS85|#*AKARNANIA81A|#*AKARNANIA81B
J|0179|Magri,L.+Mucciarelli,M.+Albarello,D.|Estimates of site seismicity rates using ill-defined macroseismic data||#PAG:143:4:1994:617-632|Macroseismic data+Hazard+Site+Seismicity
J|0180|Brun,J.L.+Gomez,J.B.|A four-parameter, two degree-of-freedom block-spring model: effect of the driver velocity||#PAG:143:4:1994:633-653|Model+Chaos+Pattern+Plate tectonics
J|0181|Kolar,P.|Simultaneous determination of the source mechanism and the seismic wave energy||#PAG:143:4:1994:655-671|Mechanism+Energy+Swarm+Bohemia
J|0182|Carrara,E.+Pece,R.+Roberti,N.|Geoelectrical and seismic prospections in hydrogeology: model and master curves for the evaluation of porosity and water saturation||#PAG:143:4:1994:729-751|Seismic prospecting+Hydrogeology+Vertical electric sounding+Porosity
J|0183|Nava,A.J.|Review of `Earthquakes' by B. Bolt||#PAG:143:4:1994:753-754|Review+Earthquake+Seismology|W. H. Freeman & Co., 1993
J|0184|Solomatov,V.S.+Stevenson,D.J.|Can sharp seismic discontinuities be caused by non-equilibrium phase transformations?||#EPL:125:1-4:1994:267-279|Phase transformation+410km discontinuity+660km discontinuity
J|0185|Gohl,K.+Smithson,S.B.|Seismic wide-angle study of accreted Proterozoic crust in southeastern Wyoming||#EPL:125:1-4:1994:293-305|Wyoming+Crust+Reflexion study+Velocity structure
J|0186|Curray,J.R.|Sediment volume and mass beneath the Bay of Bengal||#EPL:125:1-4:1994:371-383|Seismostratigraphy+Bengal, Bay of+Isopach+Sediment
J|0187|Luis,J.F.+Miranda,J.M.+Galdeano,A.+|The Azores triple junction evolution since 10 Ma from an aeromagnetic survey of the Mid-Atlantic Ridge||#EPL:125:1-4:1994:439-459|Azores+Faulting+Aeromagnetic study+Mid-Atlantic Ridge||#*AZORES
J|0188|Suetnova,E.I.+Carbonell,R.+Smithson,S.B.|Bright seismic reflections and fluid movement by porous flow in the lower crust||#EPL:126:1-3:1994:161-169|Lower crust+Reflexion study+Fluid+Mathematical model
J|0189|Yoneda,A.+Spetzler,H.|Temperature fluctuation and thermodynamic properties in Earth's lower mantle: an application of the complete travel time equation of state||#EPL:126:4:1994:369-377|Temperature+Lower mantle+Equation of state+Depth
J|0190|Pedersen,H.A.+Campillo,M.+Balling,N.|Changes in the lithospheric structure across the Sorgenfrei-Tornquist zone inferred from dispersion of Rayleigh waves||#EPL:128:1-2:1994:37-46|Baltic Shield+Lithosphere+Phase velocity+Structure||#*OSHIMA86|#*ANDREANOF863
J|0191|King,G.+Oppenheimer,D.+Amelung,F.|Block versus continuum deformation in the western United States||#EPL:128:3-4:1994:55-64|Block+Western United States+Deformation+Seismicity||#*LOMAPRIETA89|#*COYOTE|#*MORGAN
J|0192|Stiros,S.C.+Marangou,L.+Arnold,M.|Quaternary uplift and tilting of Amorgos Island (southern Aegean) and the 1956 earthquake||#EPL:128:3-4:1994:65-76|Earthquake+1956+AEgean+Uplift
J|0193|Barth,G.A.|Plate boundary geometry to Moho depths within the 9degrees03'N and 12degrees54'N overlapping spreading centers of the East Pacific Rise||#EPL:128:3-4:1994:99-112|East Pacific Rise+Marine seismic investigation+Spreading centre+Mohorovicic discontinuity
J|0194|Romanowicz,B.|Anelastic tomography: a new perspective on upper mantle thermal structure||#EPL:128:3-4:1994:113-121|Tomography+Upper mantle+Thermal structure+Q
J|0195|Zhang,S-X.+Yuen,D.A.|Dynamical influences on the moment of inertia tensor from lateral viscosity variations inferred from seismic tomographic models||#EPL:128:3-4:1994:123-134|Tomography+Dynamics+Viscosity+Moment of inertia
J|0196|Ekstrom,G.|Anomalous earthquakes on volcano ring-fault structures||#EPL:128:3-4:1994:707-712|Shallow earthquake+Volcano+Non-double couple+Anomaly|Express letter|#*TORISHIMA
J|0197|Wang,Z.M.+Street,R.L.+Woolery,E.W.|Qs estimation for unconsolidated sediments using first-arrival SH wave critical refractions||#JGR:99:7:1994:13543-13551|Q+Sediment+SH-wave+Layered medium
J|0198|Zamora,M.+Sartoris,G.+Chelini,W.|Laboratory measurements of ultrasonic wave velocities in rocks from the Campi Flegrei volcanic system and their relation to other field data||#JGR:99:7:1994:13553-13561|Ultrasonics+Laboratory+Campi Flegrei+Rock
J|0199|Wolfe,C.J.+McNutt,M.K.+Detrick,R.S.|The Marquesas archipelagic apron: seismic stratigraphy and implications for volcano growth, mass wasting, and crustal underplating||#JGR:99:7:1994:13591-13608|Marquesas Islands+Stratigraphy+Profile+Underplating
J|0200|Carbotte,S.M.+Macdonald,K.C.|Comparison of seafloor tectonic fabric at intermediate, fast, and super fast spreading ridges: influence of spreading rate, plate motions, and ridge segmentation on fault patterns||#JGR:99:7:1994:13609-13631|East Pacific Rise+Ecuador+Fault+Profile
J|0201|Hughes,S.+Hall,J.+Luetgert,J.H.|The seismic velocity structure of the Newfoundland Appalachian orogen||#JGR:99:7:1994:13633-13653|Velocity structure+Newfoundland+Reflexion study+Refraction study
J|0202|McNamara,D.E.+Owens,T.J.+Silver,P.G.+|Shear wave anisotropy beneath the Tibetan Plateau||#JGR:99:7:1994:13655-13665|Shear wave+Anisotropy+Tibet+Digital recording
J|0203|Wysession,M.E.+Bartko,L.+Wilson,J.B.|Mapping the lowermost mantle using core-reflected shear waves||#JGR:99:7:1994:13667-13684|Lower mantle+ScS-wave+Digital recording+Southwest Pacific
J|0204|Kagan,Y.Y.+Jackson,D.D.|Long-term probabilistic forecasting of earthquakes||#JGR:99:7:1994:13685-13700|Forecast+Seismic moment tensor+Probability+Focal mechanism
J|0205|Rhoades,D.A.+Van Dissen,R.J.+Dowrick,D.J.|On the handling of uncertainties in estimating the hazard of rupture on a fault segment||#JGR:99:7:1994:13701-13712|Rupture+Fault+Hazard+Mojave+Wellington
J|0206|Shearer,P.M.|Global seismic event detection using a matched filter on long-period seismograms||#JGR:99:7:1994:13713-13725|Detection+Filter+Long-period seismogram+IDA
J|0207|Vasco,D.W.+Johnson,L.R.+Pulliam,R.J.+|Robust inversion of IASP91 travel time residuals for mantle P and S velocity structure, earthquake mislocations, and station corrections||#JGR:99:7:1994:13727-13755|Travel-times+P-wave+S-wave+Velocity structure+Station correction+ISC
J|0208|Savage,J.C.+Lisowski,M.+Svarc,J.L.|Postseismic deformation following the 1989 (M = 7.1) Loma Prieta, California, earthquake||#JGR:99:7:1994:13757-13765|Deformation+Loma Prieta+1989+Earthquake||#*LOMAPRIETA89
J|0209|Du,Y.+Segall,P.+Gao,H.|Dislocations in inhomogeneous media via a moduli perturbation approach: general formulation and two-dimensional solutions||#JGR:99:7:1994:13767-13779|Dislocation+Inhomogeneous medium+Fault+Perturbation theory||#*LOMAPRIETA89|#*KILAUEA89
J|0210|Wei,K.+De Bremaecker,J-C.|Fracture growth under compression||#JGR:99:7:1994:13781-13790|Fault+Growth+Compression+Strain
J|0211|Whiting,B.M.+Karner,G.D.+Driscoll,N.W.|Flexural and stratigraphic development of the west Indian continental margin||#JGR:99:7:1994:13791-13811|Flexure+Stratigraphy+India+Focal mechanism
J|0212|Jackson,M.+Bilham,R.|Constraints on Himalayan deformation inferred from vertical velocity fields in Nepal and Tibet||#JGR:99:7:1994:13897-13912|Himalayas+Deformation+Nepal+Tibet+Microseismicity
J|0213|Thomas,J-C.+Chauvin,A.+Gapais,D.+|Paleomagnetic evidence for Cenozoic block rotations in the Tadjik depression (Central Asia)||#JGR:99:8:1994:15141-15160|Palaeomagnetism+Rotation+Tadzhikistan+Seismicity
J|0214|Reid,I.D.|Crustal structure of a nonvolcanic rifted margin east of Newfoundland||#JGR:99:8:1994:15161-15180|Crustal structure+Newfoundland+Refraction study+Ocean-bottom seismometer
J|0215|Wessel,J.K.+Fryer,P.+Wessel,P.+|Extension in the northern Mariana inner forearc||#JGR:99:8:1994:15181-15203|Forearc basin+Extension+Marianas+Reflexion study
J|0216|Hu,G.+Menke,W.+Powell,C.A.|Polarization tomography for P wave velocity structure in southern California||#JGR:99:8:1994:15245-15256|Velocity structure+P-wave+Tomography+Southern California+Polarization
J|0217|Powell,C.A.+Mitchell,B.T.|Relative array analysis of the southern California lithosphere||#JGR:99:8:1994:15257-15275|P-wave+Polarization+Lithosphere+Southern California
J|0218|Whitman,D.|Moho geometry beneath the eastern margin of the Andes, northwest Argentina, and its implications to the effective elastic thickness of the Andean foreland||#JGR:99:8:1994:15277-15289|P-wave+Moho topography+Argentina+Thickness
J|0219|Gross,S.J.+Kisslinger,C.|Stress and the spatial distribution of seismicity in the central Aleutians||#JGR:99:8:1994:15291-15303|Stress+Seismicity+Spatial distribution+Aleutian Islands
J|0220|Jolly,A.D.+Page,R.A.+Power,J.A.|Seismicity and stress in the vicinity of Mount Spurr volcano, south central Alaska||#JGR:99:8:1994:15305-15318|Mount Spurr+Alaska+Seismicity+Focal mechanism
J|0221|Gao,S.+Davis,P.M.+Liu,H.+|Asymmetric upwarp of the asthenosphere beneath the Baikal rift zone, Siberia||#JGR:99:8:1994:15319-15330|Asthenosphere+Baikalian Rift+Digital recording+Teleseism
J|0222|Zhu,H.+Ebel,J.E.|Tomographic inversion for the seismic velocity structure beneath northern New England using seismic refraction data||#JGR:99:8:1994:15331-15357|Tomography+Velocity structure+New England+Refraction study
J|0223|Durrheim,R.J.+Mooney,W.D.|Evolution of the Precambrian lithosphere: seismological and geochemical constraints||#JGR:99:8:1994:15359-15374|Evolution+Lithosphere+P-wave+S-wave
J|0224|Got,J-L.+Frechet,J.+Klein,F.W.|Deep fault plane geometry inferred from multiplet relative relocation beneath the south flank of Kilauea||#JGR:99:8:1994:15375-15386|Fault plane+Image+Swarm+Kilauea
J|0225|Papadimitriou,E.E.+Papazachos,B.C.|Time dependent seismicity in the Indonesian region||#JGR:99:8:1994:15387-15398|Indonesia+Seismicity+Time dependence+Magnitude+ISC
J|0226|Yu,Y.+Park,J.|Hunting for azimuthal anisotropy beneath the Pacific Ocean region||#JGR:99:8:1994:15399-15421|Anisotropy+Pacific Ocean+Lateral variation+Surface wave
J|0227|Segall,P.+Grasso,J-R.+Mossop,A.|Poroelastic stressing and induced seismicity near the Lacq gas field, southwestern France||#JGR:99:8:1994:15423-15438|Poroelasticity+Induced seismicity+Trigger+Lacq oilfield
J|0228|Zhou,H-W.|Rapid three-dimensional hypocentral determination using a master station method||#JGR:99:8:1994:15439-15455|Hypocentre+Estimation+Station+Southern California
J|0229|Kuge,K.+Lay,T.|Systematic non-double-couple components of earthquake mechanisms: the role of fault zone irregularity||#JGR:99:8:1994:15457-15467|Non-double couple+Mechanism+Fault zone+Moment
J|0230|Flanagan,M.P.+Wiens,D.A.|Radial upper mantle attenuation structure of inactive back arc basins from differential shear wave measurements||#JGR:99:8:1994:15469-15485|Upper mantle+Attenuation+Back-arc basin+Shear wave
J|0231|Oda,H.+Isoda,S.+Inouye,Y.+|Elastic constants and anelastic properties of an anisotropic periclase sphere as determined by the resonant sphere technique||#JGR:99:8:1994:15517-15527|Splitting+Free oscillation+Elasticity+Anisotropy
J|0232|Erskine,D.+Nellis,W.J.+Weir,S.T.|Shock wave profile study of tuff from the Nevada Test Site||#JGR:99:8:1994:15529-15537|Shock wave+Profile+Tuff+Nevada Test Site
J|0233|Yoshioka,N.|Elastic behavior of contacting surfaces under normal loads: a computer simulation using three-dimensional surface topographies||#JGR:99:8:1994:15549-15560|Elasticity+Contact+Load+Transmission
J|0234|Tedesco,D.|Chemical and isotopic gas emissions at Campi Flegrei: evidence for an aborted period of unrest||#JGR:99:8:1994:15623-15631|Campi Flegrei+Chemistry+Gas+Seismicity
J|0235|Travis,C.J.+Nunn,J.A.|Stratigraphic architecture of extensional basins: insights from a numerical model of sedimentation in evolving half grabens||#JGR:99:8:1994:15653-15666|Stratigraphy+Extension+Profile+Mojave Desert
J|0236|Zhong,S-J.+Gurnis,M.|Controls on trench topography from dynamic models of subducted slabs||#JGR:99:8:1994:15683-15695|Dynamics+Subduction+Fault+Finite element method
J|0237|King,S.D.|Introduction to the special section on the transition zone||#JGR:99:8:1994:15779-15782|Introduction+Transition zone+Seismology+Mantle convection
J|0238|Tong,C.+Gudmundsson,O.+Kennett,B.L.N.|Shear wave splitting in refracted waves returned from the upper mantle transition zone beneath northern Australia||#JGR:99:8:1994:15783-15797|Shear wave splitting+Refracted wave+Transition zone+Australia
J|0239|Nolet,G.+Zielhuis,A.|Low S velocities under the Tornquist-Teisseyre zone: evidence for water injection into the transition zone by subduction||#JGR:99:8:1994:15813-15820|S-wave+Water+Europe+Transition zone
J|0240|Lundgren,P.R.+Giardini,D.|Isolated deep earthquakes and the fate of subduction in the mantle||#JGR:99:8:1994:15833-15842|Deep earthquake+Subduction+Mantle+Focal mechanism+ISC
J|0241|Bock,G.|Synthetic seismogram images of upper mantle structure: no evidence for a 520-km discontinuity||#JGR:99:8:1994:15843-15851|Image+Synthetic seismogram+Upper mantle+Discontinuity
J|0242|Bina,C.R.+Helffrich,G.|Phase transition Clapeyron slopes and transition zone seismic discontinuity topography||#JGR:99:8:1994:15853-15860|Phase transition+Transition zone+Topography+Discontinuity
J|0243|Solheim,L.P.+Peltier,W.R.|Phase boundary deflections at 660-km depth and episodically layered isochemical convection in the mantle||#JGR:99:8:1994:15861-15875|660km discontinuity+Mantle convection+Phase+Boundary
J|0244|Tackley,P.J.+Stevenson,D.J.+Glatzmaier,G.A.+|Effects of multiple phase transitions in a three-dimensional spherical model of convection in Earth's mantle||#JGR:99:8:1994:15877-15901|Phase transition+Mantle convection+Transition zone+Model
J|0245|Uhira,K.+Yamasato,H.+Takeo,M.|Source mechanism of seismic waves excited by pyroclastic flows observed at Unzen volcano, Japan||#JGR:99:9:1994:17757-17773|Mechanism+Eruption+Mount Unzen+Flow
J|0246|Uhira,K.+Takeo,M.|The source of explosive eruptions of Sakurajima volcano, Japan||#JGR:99:9:1994:17775-17789|Eruption+Explosion+Source+Sakurajima Volcano
J|0247|Jin,A.+Mayeda,K.+Adams,D.+|Separation of intrinsic and scattering attenuation in southern California using TERRAscope data||#JGR:99:9:1994:17835-17848|Attenuation+Scattering+Broadband seismograph+Southern California
J|0248|Zhou,H-W.+Wang,H.|A revisit to P wave travel time statics at teleseismic stations||#JGR:99:9:1994:17849-17862|P-wave+Travel-times+Statics+Station+ISC
J|0249|Adler,L.+Nagy,P.B.|Measurement of acoustic surface waves on fluid-filled porous rocks||#JGR:99:9:1994:17863-17869|Acoustics+Surface wave+Porous medium+Rock
J|0250|Holbrook,W.S.+Purdy,G.M.+Sheridan,R.E.+|Seismic structure of the U.S. Mid-Atlantic continental margin||#JGR:99:9:1994:17871-17891|Velocity structure+Marine seismic investigation+Atlantic Ocean+United States
J|0251|Kedar,S.+Watada,S.+Tanimoto,T.|The 1989 Macquarie Ridge earthquake: seismic moment estimation from long-period free oscillations||#JGR:99:9:1994:17893-17907|Free oscillation+Moment+Macquarie Ridge+1989||#*MACQUARIE89
J|0252|Gudmundsson,O.|Comment on `Tomographic image of the Mid-Atlantic plate boundary in southwestern Iceland' by I. T. Bjarnason, W. Menke, O. G. Flovenz, and D. Caress||#JGR:99:9:1994:17909-17917|Comments+Tomography+Profile+Iceland+Crustal structure|With a reply by the authors
J|0253|Li,Y-G.+Aki,K.+Adams,D.+|Correction to `Seismic guided waves trapped in the fault zone of the Landers, California, earthquake of 1992'||#JGR:99:9:1994:17919|Errata+Guided wave+Fault zone+California+1992||#*LANDERS92
J|0254|Christeson,G.L.+Purdy,G.M.+Fryer,G.J.|Seismic constraints on shallow crustal emplacement processes at the fast spreading East Pacific Rise||#JGR:99:9:1994:17957-17973|Refraction study+Ocean-bottom seismometer+East Pacific Rise+Crustal structure
J|0255|Katzman,R.+Holbrook,W.S.+Paull,C.K.|Combined vertical-incidence and wide-angle seismic study of a gas hydrate zone, Blake Ridge||#JGR:99:9:1994:17975-17995|Marine seismic investigation+Gas+North Atlantic+United States
J|0256|Zeyen,H.+Fernandez,M.|Integrated lithospheric modeling combining thermal, gravity, and local isostasy analysis: application to the NE Spanish Geotransect||#JGR:99:9:1994:18089-18102|Spain+Geotransect+Lithosphere+Profile
J|0257|Savage,J.C.+Lisowski,M.+Gross,W.K.+|Strain accumulation near Yucca Mountain, Nevada, 1983-1993||#JGR:99:9:1994:18103-18107|Yucca Mountain+1983-1993+Seismicity+Waste dump||#*CALIFNEV92
J|0258|Savage,J.C.+Lisowski,M.+King,N.E.+|Strain accumulation along the Laguna Salada fault, Baja California, Mexico||#JGR:99:9:1994:18109-18116|Strain+Baja California+1978-1991+Seismicity
J|0259|Reches,Z.+Lockner,D.A.|Nucleation and growth of faults in brittle rocks||#JGR:99:9:1994:18159-18173|Nucleation+Growth+Fault+Rock
J|0260|Zebker,H.A.+Rosen,P.A.+Goldstein,R.M.+|On the derivation of coseismic displacement fields using differential radar interferometry: the Landers earthquake||#JGR:99:10:1994:19617-19634|Displacement+Interferometry+Landers+1992||#*LANDERS92
J|0261|Kissling,E.+Ellsworth,W.L.+Eberhart-Phillips,D.+|Initial reference models in local earthquake tomography||#JGR:99:10:1994:19635-19646|Local earthquake+Tomography+Model+Loma Prieta||#*LOMAPRIETA89
J|0262|Shearer,P.M.|Constraints on inner core anisotropy from PKP(DF) travel times||#JGR:99:10:1994:19647-19659|Inner core+Anisotropy+PKP-wave+Travel-times+ISC
J|0263|Beisser,M.+Gillard,D.+Wyss,M.|Inversion for source parameters from sparse data sets: test of the method and application to the 1951 (M=6.9) Kona, Hawaii, earthquake||#JGR:99:10:1994:19661-19678|Source parameter+1951+Hawaii+Earthquake||#*HAWAII
J|0264|Taylor,B.+Crook,K.+Sinton,J.|Extensional transform zones and oblique spreading centers||#JGR:99:10:1994:19707-19718|Spreading centre+Transform zone+Plate boundary+Focal mechanism
J|0265|King,S.D.+Hager,B.H.|Subducted slabs and the geoid 1. Numerical experiments with temperature-dependent viscosity||#JGR:99:10:1994:19843-19852|Subduction zone+Slab+Geoid+Viscosity
J|0266|Christensen,U.R.+Hofmann,A.W.|Segregation of subducted oceanic crust in the convecting mantle||#JGR:99:10:1994:19867-19884|Oceanic crust+Subduction+Mantle convection+D"-layer
J|0267|Humphreys,E.D.+Weldon,R.J.|Deformation across the western United States: a local estimate of Pacific-North American transform deformation||#JGR:99:10:1994:19975-20010|Deformation+Western United States+Faulting+Seismicity
J|0268|Rybicki,K.R.|Shear stress on a vertical strike-slip fault in a layered medium due to tectonic loading: San Andreas fault system||#JGR:99:10:1994:20011-20021|Shear stress+Strike-slip+Layered medium+San Andreas Fault
J|0269|Wang,C-Y.+Hwang,W-T.+Cochrane,G.R.|Tectonic dewatering and mechanics of protothrust zones: example from the Cascadia accretionary margin||#JGR:99:10:1994:20043-20050|Cascadia subduction zone+Mechanics+Seismic survey+Pore pressure
J|0270|Davies,J.H.+Thornton,A.+Stevenson,D.J.|Correction to `Physical model of source region of subduction zone volcanics' by J. H. Davies and D. J. Stevenson||#JGR:99:10:1994:20059|Errata+Subduction zone+Source+Magmatism+Thermal model
J|0271|King,G.C.P.+Bailey,G.N.+Sturdy,D.A.|Active tectonics and human survival strategies||#JGR:99:10:1994:20063-20078|Tectonics+Greece+Seismicity+Topography
J|0272|Locke,W.W.+Meyer,G.A.|A 12,000-year record of vertical deformation across the Yellowstone caldera margin: the shorelines of Yellowstone Lake||#JGR:99:10:1994:20079-20094|Yellowstone+Deformation+Hebgen Lake+Topography
J|0273|Byrd,J.O.D.+Smith,R.B.+Geissman,J.W.|The Teton fault, Wyoming: topographic signature, neotectonics, and mechanisms of deformation||#JGR:99:10:1994:20095-20122|Wyoming+Neotectonics+Topography+Deformation||#*BORAH
J|0274|Lowry,A.R.+Smith,R.B.|Flexural rigidity of the Basin and Range-Colorado Plateau-Rocky Mountain transition from coherence analysis of gravity and topography||#JGR:99:10:1994:20123-20140|Basin & Range+Gravity+Topography+P-wave
J|0275|Anderson,R.S.|Evolution of the Santa Cruz Mountains, California, through tectonic growth and geomorphic decay||#JGR:99:10:1994:20161-20179|Evolution+San Andreas Fault+Mountain+Tectonics
J|0276|Burgmann,R.+Arrowsmith,J.R.+Dumitru,T.A.+|Rise and fall of the southern Santa Cruz Mountains, California, from fission tracks, geomorphology, and geodesy||#JGR:99:10:1994:20181-20202|Mountain+San Andreas Fault+Geodesy+Loma Prieta||#*LOMAPRIETA89
J|0277|Westaway,R.|Evidence for dynamic coupling of surface processes with isostatic compensation in the lower crust during active extension of western Turkey||#JGR:99:10:1994:20203-20223|Turkey+Coupling+Lower crust+Seismicity
J|0278|Gomberg,J.+Ellis,M.|Topography and tectonics of the central New Madrid seismic zone: results of numerical experiments using a three-dimensional boundary element program||#JGR:99:10:1994:20299-20310|New Madrid+Topography+Tectonics+Seismic zone
J|0279|Miller,D.E.+Spencer,C.|An exact inversion for anisotropic moduli from phase slowness data||#JGR:99:11:1994:21651-21657|Inversion+Anisotropy+Slowness+Vertical seismic profiling
J|0280|Miller,D.E.+Leaney,S.+Borland,W.H.|An in situ estimation of anisotropic elastic moduli for a submarine shale||#JGR:99:11:1994:21659-21665|Anisotropy+Shale+Vertical seismic profiling+Layered medium
J|0281|Platzman,E.S.+Platt,J.P.+Tapirdamaz,C.+|Why are there no clockwise rotations along the North Anatolian fault zone?||#JGR:99:11:1994:21705-21715|Anatolia+Rotation+Fault plane solution+Major earthquake
J|0282|Lizarralde,D.+Holbrook,W.S.+Oh,J.|Crustal structure across the Brunswick magnetic anomaly, offshore Georgia, from coincident ocean bottom and multi-channel seismic data||#JGR:99:11:1994:21741-21757|Marine seismic investigation+Georgia+North Atlantic+Crustal structure
J|0283|Bonatti,E.+Ligi,M.+Gasperini,L.+|Transform migration and vertical tectonics at the Romanche fracture zone, equatorial Atlantic||#JGR:99:11:1994:21779-21802|Mid-Atlantic Ridge+Marine seismic investigation+Transform zone+Tectonics
J|0284|Arnadottir,T.+Segall,P.|The 1989 Loma Prieta earthquake imaged from inversion of geodetic data||#JGR:99:11:1994:21835-21855|Loma Prieta+1989+Imaging+Geodetic measurement||#*LOMAPRIETA89
J|0285|Forte,A.M.+Woodward,R.L.+Dziewonski,A.M.|Joint inversions of seismic and geodynamic data for models of three-dimensional mantle heterogeneity||#JGR:99:11:1994:21857-21877|Mantle+Heterogeneity+Inversion+Shear wave
J|0286|Volant,P.+Grasso,J-R.|The finite extension of fractal geometry and power law distribution of shallow earthquakes: a geomechanical effect||#JGR:99:11:1994:21879-21889|Shallow earthquake+Spatial distribution+Frequency-magnitude relation+Lacq oilfield
J|0287|Pollitz,F.F.|Surface wave scattering from sharp lateral discontinuities||#JGR:99:11:1994:21891-21909|Surface wave+Scattering+Lateral inhomogeneity+Theory
J|0288|Revenaugh,J.+Sipkin,S.A.|Mantle discontinuity structure beneath China||#JGR:99:11:1994:21911-21927|China+Mantle+Discontinuity+ScS-wave
J|0289|Zhang,T-R.+Schwartz,S.Y.+Lay,T.|Multivariate analysis of waveguide effects on short-period regional wave propagation in Eurasia and its application in seismic discrimination||#JGR:99:11:1994:21929-21945|Wave guide+Eurasia+Discrimination+Lg-wave
J|0290|Kanamori,H.+Mori,J.+Harkrider,D.G.|Excitation of atmospheric oscillations by volcanic eruptions||#JGR:99:11:1994:21947-21961|Rayleigh wave+Eruption+Atmospheric pressure+Excitation
J|0291|Farra,V.+Madariaga,R.+Virieux,J.|Comment on `The ambiguity in ray perturbation theory' by R. Snieder and M. Sambridge||#JGR:99:11:1994:21963-21970|Comments+Ray theory+Travel-times+Perturbation+Tomography|With a reply by the authors
J|0292|Peltzer,G.+Hudnut,K.W.+Feigl,K.L.|Analysis of coseismic surface displacement gradients using radar interferometry: new insights into the Landers earthquake||#JGR:99:11:1994:21971-21981|Landers+Displacement+Interferometry+1992||#*LANDERS92
J|0293|Reches,Z.+Schubert,G.+Anderson,C.|Modeling of periodic great earthquakes on the San Andreas fault: effects of nonlinear crustal rheology||#JGR:99:11:1994:21983-22000|Modelling+Great earthquake+San Andreas Fault+Rheology
J|0294|Klepeis,K.A.|The Magallanes and Deseado fault zones: major segments of the South American-Scotia transform plate boundary in southernmost South America, Tierra del Fuego||#JGR:99:11:1994:22001-22014|Tierra del Fuego+Plate boundary+Focal mechanism+Fault zone
J|0295|Finn,C.+Kimura,G.+Suyehiro,K.|Introduction to the special section Northeast Japan: a case history of subduction||#JGR:99:11:1994:22137-22145|Introduction+Northeast Japan+Subduction+Velocity structure
J|0296|Iwasaki,T.+Yoshii,T.+Moriya,T.+|Precise P and S wave velocity structures in the Kitakami massif, Northern Honshu, Japan, from a seismic refraction experiment||#JGR:99:11:1994:22187-22204|Northeast Japan+Refraction study+Crustal structure+Velocity
J|0297|Hasegawa,A.+Horiuchi,S.+Umino,N.|Seismic structure of the northeastern Japan convergent margin: a synthesis||#JGR:99:11:1994:22295-22311|Northeast Japan+Structure+Seismicity+Convergent margin||#*MIYAGI
J|0298|Zhao,D-P.+Hasegawa,A.+Kanamori,H.|Deep structure of Japan subduction zone as derived from local, regional, and teleseismic events||#JGR:99:11:1994:22313-22329|Subduction zone+Japan+Deep structure+P-wave
J|0299|Suyehiro,K.+Nishizawa,A.|Crustal structure and seismicity beneath the forearc off northeastern Japan||#JGR:99:11:1994:22331-22347|Crustal structure+Seismicity+Northeast Japan+Marine seismic investigation
J|0300|Von Huene,R.+Klaeschen,D.+Cropp,B.+|Tectonic structure across the accretionary and erosional parts of the Japan Trench margin||#JGR:99:11:1994:22349-22361|Tectonics+Japan Trench+Reflexion study+Accretionary prism
J|0301|Okubo,Y.+Matsunaga,T.|Curie point depth in northeast Japan and its correlation with regional thermal structure and seismicity||#JGR:99:11:1994:22363-22371|Northeast Japan+Heat flow+Thermal structure+Seismicity
J|0302|Nolet,G.+Grand,S.P.+Kennett,B.L.N.|Seismic heterogeneity in the upper mantle||#JGR:99:12:1994:23753-23766|Upper mantle+Heterogeneity+Tomography+Waveform+ISC
J|0303|Ding,X-Y.+Grand,S.P.|Seismic structure of the deep Kurile subduction zone||#JGR:99:12:1994:23767-23786|Structure+Kuril Islands+Subduction zone+P-wave+ISC
J|0304|Smith,G.P.+Gubbins,D.+Mao,W.J.|Fast P wave propagation in subducted Pacific lithosphere: refraction from the plate||#JGR:99:12:1994:23787-23800|P-wave+Propagation+Tonga+Subduction
J|0305|Arnott,S.K.+Foulger,G.R.|The Krafla spreading segment, Iceland 1. Three-dimensional crustal structure and the spatial and temporal distribution of local earthquakes||#JGR:99:12:1994:23801-23825|Iceland+Local earthquake+Spatial distribution+Temporal distribution
J|0306|Arnott,S.K.+Foulger,G.R.|The Krafla spreading segment, Iceland 2. The accretionary stress cycle and nonshear earthquake focal mechanisms||#JGR:99:12:1994:23827-23842|Iceland+Local earthquake+Focal mechanism+Volcanism
J|0307|Verdonck,D.+Zandt,G.|Three-dimensional crustal structure of the Mendocino triple junction region from local earthquake travel times||#JGR:99:12:1994:23843-23858|Crustal structure+Mendocino fracture zone+Triple junction+Local earthquake
J|0308|Shih,X.R.+Chun,K-Y.+Zhu,T.|Attenuation of 1-6s Lg waves in Eurasia||#JGR:99:12:1994:23859-23874|Attenuation+Lg-wave+Eurasia+Digital recording
J|0309|Kang,I.B.+McMechan,G.A.|Separation of intrinsic and scattering Q based on frequency-dependent amplitude ratios of transmitted waves||#JGR:99:12:1994:23875-23885|Q+Frequency response+Amplitude+P-wave+S-wave
J|0310|McCall,K.R.+Guyer,R.A.|Equation of state and wave propagation in hysteretic nonlinear elastic materials||#JGR:99:12:1994:23887-23897|Equation of state+Propagation+Elastic medium+Nonlinearity
J|0311|Krebes,E.S.+Le,L.H.T.|Inhomogeneous plane waves and cylindrical waves in anisotropic anelastic media||#JGR:99:12:1994:23899-23919|Inhomogeneous wave+Plane wave+Anisotropy+Anelastic medium
J|0312|Johnson,H.O.+Agnew,D.C.+Wyatt,F.K.|Present-day crustal deformation in southern California||#JGR:99:12:1994:23951-23974|Crustal deformation+Southern California+Geodetic measurement+Seismicity
J|0313|Gilbert,L.E.+Scholz,C.H.+Beavan,J.|Strain localization along the San Andreas fault: consequences for loading mechanisms||#JGR:99:12:1994:23975-23984|Strain+San Andreas Fault+Loading+Relaxation
J|0314|McBride,J.H.|Structure of a continental strike-slip fault from deep seismic reflection: Walls Boundary fault, northern British Caledonides||#JGR:99:12:1994:23985-24005|Reflexion study+Fault+Scotland+BIRPS
J|0315|Chen,S.F.+Wilson,C.J.L.+Deng,Q-D.+|Active faulting and block movement associated with large earthquakes in the Min Shan and Longmen Mountains, northeastern Tibetan Plateau||#JGR:99:12:1994:24025-24038|Large earthquake+Tibet+Faulting+Block
J|0316|Toomey,D.R.+Solomon,S.C.+Purdy,G.M.|Tomographic imaging of the shallow crustal structure of the East Pacific Rise at 9degrees30'N||#JGR:99:12:1994:24135-24157|Marine seismic investigation+Crustal structure+East Pacific Rise+Tomography
J|0317|Klaeschen,D.+Belykh,I.+Gnibidenko,H.+|Structure of the Kuril Trench from seismic reflection records||#JGR:99:12:1994:24173-24188|Reflexion study+Kuril Trench+Structure+Large earthquake
J|0318|Eittreim,S.L.|Transition from continental to oceanic crust on the Wilkes-Adelie margin of Antarctica||#JGR:99:12:1994:24189-24205|Antarctica+Reflexion study+Continental crust+Oceanic crust
J|0319|Vernik,L.+Hickman,S.+Lockner,D.A.|Ultrasonic velocities in cores from the Kola superdeep well and the nature of subhorizontal seismic reflections||#JGR:99:12:1994:24209-24219|Ultrasonics+Kola Peninsula+Borehole+Reflexion
J|0320|Singh,S.C.+Minshull,T.A.|Velocity structure of a gas hydrate reflector at Ocean Drilling Program site 889 from a global seismic waveform inversion||#JGR:99:12:1994:24221-24233|Reflexion study+Velocity structure+Waveform+Vancouver Island
J|0321|McGuire,A.V.|Southern Basin and Range province crust-mantle boundary: evidence from gabbroic xenoliths, Wikieup, Arizona||#JGR:99:12:1994:24263-24273|Basin & Range+Crust-mantle structure+Reflexion study+COCORP
J|0322|Kay,S.M.+Coira,B.+Viramonte,J.|Young mafic back arc volcanic rocks as indicators of continental lithospheric delamination beneath the Argentine Puna plateau, central Andes||#JGR:99:12:1994:24323-24339|Argentina+Central Andes+Subduction zone+Gap+Volcanism
J|0323|Huang,Z-X.+Chen,H.+Wang,G-H.+|Surface wave polarizations and lateral heterogeneities of the lithosphere in China|In Chinese with English abstract|#AGS:37:4:1994:456-468|China+Surface wave+Polarization+Lateral heterogeneity
J|0324|Jin,Z-M.+Ji,S-C.+Jin,S-Y.|Lattice preferred orientation of olivines and seismic anisotropy in the upper mantle|In Chinese with English abstract|#AGS:37:4:1994:469-477|Lattice+Olivine+Anisotropy+Upper mantle
J|0325|Zheng,T-Y.+Yao,Z-X.|Seismic moment tensor of the Taiwan, China earthquakes and its tectonic significances|In Chinese with English abstract|#AGS:37:4:1994:478-486|Taiwan+Seismic moment tensor+Earthquake+Tectonics||#*HUALIEN86|#*HUALIEN90A|#*HUALIEN90B|#*TAIWAN89|#*TAIWAN91
J|0326|Liu,Y-B.+Li,Y-M.+Wu,R-S.|Seismic wave propagation in transversely isotropic porous media|In Chinese with English abstract|#AGS:37:4:1994:499-514|Porous medium+Propagation+Dispersion+Attenuation
J|0327|Zhou,H-B.+Zhang,G-Q.|Accurate calculation of first-arrival traveltime in the complex areas|In Chinese with English abstract|#AGS:37:4:1994:515-520|Eikonal equation+First arrival+Travel-times+Head wave
J|0328|Fu,L-Y.+Mou,Y-G.|Boundary element method for elastic wave forward modeling|In Chinese with English abstract|#AGS:37:4:1994:521-529|Elastic wave+Boundary element method+Modelling+Wave field
J|0329|Zhou,H-Q.|The formation and recognition of hidden strata traps|In Chinese with English abstract|#AGS:37:4:1994:530-542|Hidden layer+Slant stack+Refraction+Layered medium
J|0330|Zheng,Y.+Teng,J-W.|Study of the fine structure of the upper mantle in the Shuixian-Qidong area at east part of China|In Chinese with English abstract|#AGS:37:4:1994:553-558|East China+Velocity structure+Upper mantle+Low-velocity layer+Profile|Short contribution
J|0331|Wang,C-Y.+Zhang,X-K.+Wu,Q-J.+|Seismic evidence of detachment in North China Basin|In Chinese with English abstract|#AGS:37:5:1994:613-620|Detachment+North China Basin+Deep seismic sounding+Profile
J|0332|Lin,B-H.+Li,D-P.+Bai,W-M.+|The character of seismic source and FEM modelling for 1988 Lanchang-Gengma earthquake|In Chinese with English abstract|#AGS:37:5:1994:621-632|Earthquake+1988+Yunnan+Modelling||#*YUNNAN88A|#*YUNNAN88B|#*YUNNAN88C|#*YUNNAN88D|#*BURMA89
J|0333|Shi,X-J.+Xu,H-M.+Wan,Y-Z.+|The characteristic of rock fracture under simulated tide force - laboratory study on the theory of loading and unloading response ratio|In Chinese with English abstract|#AGS:37:5:1994:633-637|Laboratory+Loading+Rock+Response
J|0334|Li,A-B.+Ma,L-Y.|Effects of frequency and temperature on shear velocity and QS in sandstone|In Chinese with English abstract|#AGS:37:5:1994:653-658|Sandstone+Frequency+Temperature+Velocity+Q
J|0335|Liu,Z-P.+Wu,X-W.+Chu,Z-H.|Laboratory study of acoustic parameters of rock|In Chinese with English abstract|#AGS:37:5:1994:659-666|Parameters+Rock+Laboratory+Velocity
J|0336|He,Q-D.+Yan,P.|A F-K domain algorithm of 2-D Green's function in TIM|In Chinese with English abstract|#AGS:37:5:1994:667-672|Green's function+Algorithm+Domain analysis+Wave equation
J|0337|Yin,F.+Wang,J-S.|A study of inverse scattering tomography in time domain by maximum entropy|In Chinese with English abstract|#AGS:37:5:1994:673-681|Time domain+Tomography+Maximum entropy+Scattering
J|0338|Huang,J-L.+Liu,J-Q.+Ouyang,D-J.+|Study of seismic tomography in engineering geophysics prospecting|In Chinese with English abstract|#AGS:37:5:1994:682-687|Tomography+Seismic prospecting+Data processing+Engineering seismology
J|0339|Yuan,X-C.+Xu,M-C.+Wang,Q-H.+|Eastern Qinling seismic reflection profiling|In Chinese with English abstract|#AGS:37:6:1994:749-758|Profiling+Reflexion study+Crustal structure
J|0340|Zhang,X-K.+Yang,Y-C.+Zhao,P.+|Three-dimensional seismic transmission experiment in the Luanxian earthquake region of North China: tomographic determination of the upper and middle crust structure|In Chinese with English abstract|#AGS:37:6:1994:759-766|Velocity structure+Tomography+Array+North China
J|0341|Yin,X-C.+Chen,X-Z.+Song,Z-P.+|The load-unload response ratio theory: a new approach to earthquake prediction|In Chinese with English abstract|#AGS:37:6:1994:767-775|Prediction+Response+Nonlinearity
J|0342|Wang,Z-H.|Equivalent prestack migration by constant velocity stack, DMO and poststack migration|In Chinese with English abstract|#AGS:37:6:1994:795-803|Migration+Stack+Dip moveout
J|0343|Jin,S-W.+Chen,B-Y.+Ma,Z-T.|Three-dimensional wave equation forward modelling by the finite difference method|In Chinese with English abstract|#AGS:37:6:1994:811-818|Borehole+Model+Anisotropy+Acoustic logging
J|0344|Liu,H.|The possibility of high resolution detection for subsurface oil, gas and water by means of natural electromagnetic field|In Chinese with English abstract|#AGS:37:6:1994:828-835|Seismoelectric effect+Electromagnetic field+Subsurface+Porous medium|Discussion
J|0345|Shao,X-Z.+Zhang,J-R.|Preliminary results of study of deep structures in Tarim Basin by the method of converted waves of earthquakes|In Chinese|#AGS:37:6:1994:836|Tarim Basin+Deep structure+Converted wave|Research note
J|0346|Hanka,W.+Kind,R.|The GEOFON Program||IRIS Newsl.:13:1:1994:1-4|Broadband seismology+Network+Seismograph station+GEOFON
J|0347|Rozhkov,R.|The Moscow IRIS Data Analysis Center||IRIS Newsl.:13:1:1994:5-7|IRIS+Data analysis+Seismograph station
J|0348|Norabuena,E.O.+Given,H.|NNA: a brief history of the seismographic station at Nana, Peru||IRIS Newsl.:13:1:1994:8-9|History+Seismograph station+Peru
J|0349|Given,H.|IDA update||IRIS Newsl.:13:1:1994:11-12|IDA+Equipment+Seismograph station
J|0350|Harvey,D.+Hansen,R.|Contributions of IRIS data to nuclear monitoring||IRIS Newsl.:13:2:1994:1-6|Monitoring+IRIS+JSP+Network
J|0351|Wallace,T.C.|Chinese nuclear test - June, 1994||IRIS Newsl.:13:2:1994:6|Nuclear explosion+Lop Nor Test Site+1994||#*LOPNOR94
J|0352|Vernon,F.L.|The Kyrgyz seismic network||IRIS Newsl.:13:2:1994:7-8|Network+Central Asia+Epicentre||#*NORTHRIDGE94|#*KIRGIZIYA92
J|0353|Pavlis,G.L.+Al-Shukri,H.J.+Mahdi,H.+|JSP arrays and networks in central Asia||IRIS Newsl.:13:2:1994:9-12|Array+JSP+Network+Central Asia||#*TIBET93
J|0354|Wagner,G.S.|Analysis of multidimensional JSP data||IRIS Newsl.:13:2:1994:13-16|JSP+Data analysis+Eigenvector+Broadband seismology
J|0355|Abers,G.A.|The Caucasus network||IRIS Newsl.:13:2:1994:16-17|Caucasus+Network+JSP
J|0356|Wallace,T.C.+a-NPE Team|A broadband seismic profile of the non-proliferation experiment||IRIS Newsl.:13:2:1994:18-19|Chemical explosion+Nevada Test Site+Discrimination+Crustal thickness||#*NEVADA93
J|0357|North,R.G.+Beverley,K.|The Canadian National Seismograph Network||IRIS Newsl.:13:2:1994:20-22|Canada+Network+Equipment+Data acquisition
J|0358|Woodward,R.L.|Evaluation of instrument responses made (relatively) simple!||IRIS Newsl.:13:2:1994:23-24|Software+Instrument+Data analysis
J|0359|Beck,S.L.+Silver,P.G.+Zandt,G.+|Across the Andes and along the Altiplano: a passive seismic experiment||IRIS Newsl.:13:3:1994:1-3|Andes+Deep-focus earthquake+Crustal thickness+Altiplano||#*BOLIVIA94
J|0360|Silver,P.G.|Scientific ALliance for South America (SALSA)||IRIS Newsl.:13:3:1994:5|Instrumentation+South America+SALSA
J|0361|Given,H.|IDA update||IRIS Newsl.:13:3:1994:6-7|IDA
J|0362|Park,J.|The IRIS Consortium - the year in review||IRIS A. Rep.:-:-:1994:2|IRIS
J|0363|Simpson,D.W.|The IRIS Consortium - ten years of service to national and international seismology||IRIS A. Rep.:-:-:1994:3|IRIS
J|0364|Ahern,T.|Data Management System||IRIS A. Rep.:-:-:1994:4-7|Data management
J|0365|Fowler,J.|PASSCAL||IRIS A. Rep.:-:-:1994:8-9|PASSCAL
J|0366|Butler,R.|Global Seismographic Network||IRIS A. Rep.:-:-:1994:10-11|Global Seismic Network+IRIS
J|0367|Van der Vink,G.E.|Joint Seismic Program||IRIS A. Rep.:-:-:1994:12-13|JSP
A|0368|Ambraseys,N.N.+Melville,C.P.+Adams,R.D.|The seismicity of Egypt, Arabia and the Red Sea||1994:Cambridge:Cambridge University Press|Historical seismicity+Earthquake catalogue+184 B.C.-1992 A.D.+Egypt+Red Sea+Arabia|181p
A|0369|Gupta,H.K.|Latur earthquake||1994:Bangalore:Geological Society of India|Destructive earthquake+1993+India+Damage|Memoir No.35, 149p|#*LATUR93
J|0370|Wiejacz,P.|An attempt to determine tectonic stress patterns in Poland||#APL:42:3:1994:169-176|Stress+Poland+Map+Induced seismicity
J|0371|Jost,M.L.+Jost,O.|A temporary decrease of induced seismicity in the Lubin copper mining district, Poland, observed at the GERESS array, Germany||#APL:42:3:1994:177-182|Induced seismicity+Poland+Mining+GERESS
J|0372|Cichy,A.+Mortimer,Z.|2-D dilatancy failure modelling of the rock mass near mining excavations||#APL:42:3:1994:183-190|Dilatancy+Rock+Failure+Mining
J|0373|Ernst,T.+Teisseyre,R.+Meloni,A.+|Magneto-telluric studies in the central Appenines, 1992-1993||#APL:42:3:1994:209-228|Apennines+1992-1993+Seismicity+Magnetotellurics
J|0374|Duda,S.J.+Yanovskaya,T.B.|Preface to special issue on Magnitude Calibrating Functions||#APL:42:4:1994:245-246|Introduction+Magnitude+Calibration
J|0375|Cerveny,V.+Jansky,J.|P and PKP ray amplitude-distance curves||#APL:42:4:1994:247-272|P-wave+PKP-wave+Amplitude+Ray
J|0376|Solov'ev,S.L.+Kovachev,S.A.|On the determination of local magnitudes of near earthquakes from OBS observations||#APL:42:4:1994:273-280|Local magnitude+Near earthquake+Ocean-bottom seismograph+Calibration
J|0377|Yanovskaya,T.B.+Duda,S.J.|Q(T) for short periods from broadband observations of P-waves||#APL:42:4:1994:281-292|P-wave+Q+Short-period wave+Broadband seismology
J|0378|Duda,S.J.+Yanovskaya,T.B.|Calibrating functions for P-wave spectral magnitudes||#APL:42:4:1994:293-306|P-wave+Spectral magnitude+Calibration+Gutenberg & Richter||#*WCAUCASUS91|#*ANDREANOF90
J|0379|Kondorskaya,N.V.+Kireyev,I.A.+Theophylactov,V.+|Test of P-wave spectral magnitude calibrating functions||#APL:42:4:1994:307-314|P-wave+Spectral magnitude+Calibration+Period||#*BERINGSEA91|#*NINDIA91|#*ALASKA91
J|0380|Roslov,Yu.V.|Program for amplitude spectrum treatment and analysis||#APL:42:4:1994:315-319|Spectrum+Computer program+Magnitude+P-wave||#*ANDREANOF
J|0381|Benouar,D.|Materials for the investigation of the seismicity of Algeria and adjacent regions during the twentieth century||#AGF:37:4:1994:459-860|Seismicity+Algeria+Earthquake catalogue+1900-1990||#*ALGERIA89|#*ALGERIA85|#*ELASNAM
J|0382|Balducci,O.+Bigazzi,G.+Cioni,R.+|Monitoring 222Rn in soil gas of Garfagnana (Tuscany) aimed at earthquake prediction||#AGF:37:5:1994:861-881|Radon+Prediction+Tuscany+Seismicity
J|0383|Alessandrini,B.+Cattaneo,M.+Demartin,M.+|A simple P-wave polarization analysis: its application to earthquake location||#AGF:37:5:1994:883-897|Location+Polarization+P-wave+Ray tracing
J|0384|Brancolini,G.+Casula,G.+De Cillia,C.+|Seismic modeling of two depositional systems||#AGF:37:5:1994:899-912|Modelling+Subsurface+Sediment
J|0385|Megna,A.+Morelli,A.|Determination of Moho depth and dip beneath MEDNET station AQU by analysis of broadband receiver functions||#AGF:37:5:1994:913-928|Dip+Apennines+Mohorovicic discontinuity+Crustal thickness
J|0386|Tosi,P.+De Rubeis,V.+Papadimitriou,E.E.+|Statistical study of epicentre alignment in the broader Aegean area||#AGF:37:5:1994:939-948|AEgean+Seismicity+Statistical method+Lineament
J|0387|Cimini,G.B.+Chiarabba,C.+Amato,A.+|Large teleseismic P-wave residuals observed at the Alban Hills volcano, central Italy||#AGF:37:5:1994:969-988|Italy+Teleseism+Residual+Volcano
J|0388|Bottero,A.+Cansi,Y.+Massinon,B.|Automatic processing of seismic events recorded on a mini-array. Signal analysis combined with neural networks||#AGF:37:5:1994:989-996|Automatic processing+Array+Neural network+Signal
J|0389|Maramai,A.+Tertulliani,A.|Some events in central Italy: are they all tsunamis? A revision for the Italian tsunami catalog||#AGF:37:5:1994:997-1008|Tsunami+Italy+Catalogue+Historical earthquake
J|0390|Tinti,S.+Gavagni,I.+Piatanesi,A.|A finite-element numerical approach for modeling tsunamis||#AGF:37:5:1994:1009-1026|Modelling+Tsunami+Finite element method+Numerical method
J|0391|Dziewonski,A.M.|The FDSN: history and objectives||#AGF:37:5:1994:1039-1041|Global Digital Seismograph Network+GEOSCOPE+IRIS
J|0392|Jepsen,D.|The Australian National Seismograph Network||#AGF:37:5:1994:1042-1044|Network+Australia
J|0393|North,R.G.|The Canadian National Seismograph Network||#AGF:37:5:1994:1045-1048|Canada+Network+Data acquisition+Equipment
J|0394|Chen,Y.T.+Mu,Q.D.+Zhou,G.W.|The China Digital Seismograph Network||#AGF:37:5:1994:1049-1053|China+Network
J|0395|Roult,G.+Montagner,J-P.|The GEOSCOPE Program||#AGF:37:5:1994:1054-1059|GEOSCOPE
J|0396|Hanka,W.+Kind,R.|The GEOFON Program||#AGF:37:5:1994:1060-1065|GEOFON+Broadband seismology+Network+Seismograph station
J|0397|Boschi,E.+Morelli,A.|The MEDNET Program||#AGF:37:5:1994:1066-1070|MEDNET+Network
J|0398|Dost,B.|The ORFEUS Data Center||#AGF:37:5:1994:1071-1074|Data acquisition
J|0399|Butler,R.|The IRIS Global Seismographic Network||#AGF:37:5:1994:1075-1077|IRIS+Global Seismic Network
J|0400|Engdahl,E.R.|The Working Group I on siting plans||#AGF:37:5:1994:1078-1098|Station location+Broadband seismology+Global Digital Seismograph Network+Map
J|0401|Dost,B.|The Working Group III on data exchange||#AGF:37:5:1994:1099-1102|Data acquisition
J|0402|Ahern,T.|The FDSN Archive at the IRIS Data Management Center||#AGF:37:5:1994:1103-1112|Data base+IRIS+Data management
J|0403|Morelli,C.|Current knowledge on the crustal properties of Italy||#AGF:37:5:1994:1113-1130|Deep crust+Italy+Deep seismic sounding+Geophysical survey
J|0404|Bella,F.+Bella,R.+Biagi,P.F.+|Artificial and natural electromagnetic signals revealed during two years in the Amare cave (central Italy)||#AGF:37:5:1994:1131-1136|Electromagnetic emission+Italy+Precursor
J|0405|Di Bello,G.+Lapenna,V.+Satriano,C.+|Self-potential time series analysis in a seismic area of the Southern Apennines: preliminary results||#AGF:37:5:1994:1137-1148|Time series+Apennines+Electrotelluric field+Precursor
J|0406||Significant continental tremors documented in latest Australian seismological report||AUS.GEO News:-:24:1994:5|Rockburst+1991+Australia+Tremor
J|0407||The Cessnock (NSW) earthquake of 6 August 1994||AUS.GEO News:-:24:1994:9|Earthquake+1994+New South Wales||#*CESSNOCK94
J|0408||A collaborative offshore survey boosts petroleum exploration in the Philippines||AUS.GEO News:-:25:1994:14|Offshore+Petroleum+Philippines+Seismic survey
J|0409||Mapping of continental and oceanic crust west and south of Tasmania||AGSO Res. Newsl.:-:21:1994:5-7|Tasmania+Geophysical survey+Mapping+Crust
J|0410||Vulcan sub-basin, Timor Sea. Clues to the structural reactivation and migration history from the recognition of hydrocarbon seepage indicators||AGSO Res. Newsl.:-:21:1994:8-11|Timor Sea+Hydrocarbon+Basin+Geophysical investigation
J|0411|Huang,W-Q.+Li,W-X.+Cao,X-F.|Research on the completeness of earthquake data in the Chinese mainland (I) - North China||#ASS:7:3:1994:351-359|North China+Historical earthquake+Earthquake catalogue+Time series
J|0412|Jin,X-S.+Dai,Y-H.+Zhao,J.+|The application of seismic data with different precision in the determination of seismicity parameters||#ASS:7:3:1994:361-368|Maximum likelihood+Seismicity+North China+Earthquake catalogue
J|0413|Wang,Z-G.+Sun,P-Q.+Gao,J-C.+|Rediscussion on the seismic regime network||#ASS:7:3:1994:369-377|Prediction+Precursor+Earthquake+Seismic zone
J|0414|Du,X-B.+Yan,Z-D.+Zou,M-W.|Process of source dynamics of the Jingtai earthquake (M=6.2)||#ASS:7:3:1994:379-388|Earthquake+1990+China+Resistivity||#*GANSU90|#*SONGPAN|#*SONGPAN2|#*SONGPAN3
J|0415|Li,S-Y.+Chen,Y-T.|Static solution of a crack degenerated from dynamic solution of a propagating crack||#ASS:7:3:1994:389-395|Crack+Dynamics+Rupture+Propagation
J|0416|Javaherian,A.|Grid dispersion in generating finite-differences synthetic seismograms||#ASS:7:3:1994:397-407|Synthetic seismogram+Grid+Dispersion+P-SV wave
J|0417|Li,X-C.|Promoting effects of 1975 Haicheng foreshocks on the occurrence of the mainshock||#ASS:7:3:1994:409-414|Foreshock+Haicheng+1975+Earthquake||#*HAICHENG
J|0418|Zhou,S-Y.+Wu,Y.+Wang,R-B.+|Research of pattern dynamics parameters of crustal deformation field in seismogenic process||#ASS:7:3:1994:427-432|Seismogenesis+Pattern+Dynamics+Crustal deformation
J|0419|Yi,X-F.+Shi,Y-Q.|The historic evolution of Zhouyuan and the newest activity of the great Wei River fault||#ASS:7:3:1994:433-439|Weihe Basin+Evolution+Activity+Fault
J|0420|Gao,M-T.|Expected magnitude and distance of potential source area and the estimating method||#ASS:7:3:1994:441-446|Seismic potential+Magnitude+Distance+Hazard
J|0421|Liu,C-H.+Liu,Y-G.+Zhang,J.|Self-affine fractal features of earthquake time series before and after moderate earthquakes||#ASS:7:3:1994:447-456|Moderate earthquake+Fractal dimension+Time series+China||#*TANGSHAN|#*SONGPAN|#*HAICHENG|#*YELLOWSEA|#*LIYANG
J|0422|Chen,P-F.|Investigations of the seismomagnetic effect in the geomagnetic diurnal variations||#ASS:7:3:1994:457-464|Seismomagnetic effect+Geomagnetic field+Great earthquake||#*TANGSHAN|#*LIYANG|#*YELLOWSEA
J|0423|Zhao,H-Y.|The pattern characteristics of the tendency variations of earth resistivity and its relation to earthquakes||#ASS:7:3:1994:465-474|Resistivity+Pattern+Earthquake+China||#*TANGSHAN|#*SONGPAN|#*YUNNAN88A|#*YUNNAN88B
J|0424|Zheng,Z-B.|Certainty factors of earthquake precursory anomaly evidences CF(E)||#ASS:7:3:1994:475-479|Precursor+Expert system+Seismic gap+Certainty
J|0425|Jiang,J-C.+Chen,H.+Xu,M-L.+|Quantitative study on characteristic parameters of acoustic behavior habits in budgerigars (Melopsittacus undulafus)||#ASS:7:3:1994:481-488|Animal behaviour+Precursor+Biological activity
J|0426|Zhou,J-C.+Han,K-L.+Lu,Y.|The Beijing network of digital geomagnetic pulsation observatories||#ASS:7:3:1994:489-494|China+Network+Prediction+Geomagnetic variation
J|0427|Du,X-X.+Zhang,C-S.|Study on determination of average stress tensor in Shaanxi region by using small earthquake data||#ASS:7:3:1994:495-499|Stress+Small earthquake+Tensor+Shaanxi|Research note
J|0428|Tian,Y-H.+Wang,P-D.|Acceleration record and characteristics of ground motion at an epicentral distance of 200 km||#ASS:7:3:1994:501-505|Ground motion+Local earthquake+1991+Datong|Research note|#*DATONG91
J|0429|Xu,D-S.|An MS=7.3 earthquake occurred in the southern part of Taiwan Strait||#ASS:7:3:1994:507-508|Large earthquake+1994+Taiwan+Loss|Brief news|#*TAIWAN94
J|0430|Chen,P-S.|Catalogue of earthquakes (December, 1993-February, 1994)||#ASS:7:3:1994:509-511|Earthquake catalogue+1993-1994
J|0431|Huang,P-H.+Su,W-J.+Chen,J-B.|Seismicity and stress field in Okinawa Trough and Ryukyu regions||#ASS:7:4:1994:513-520|Okinawa Trough+Seismicity+Stress field+Ryukyu
J|0432|Yin,Y-Q.+Du,J.|A swallow-tail type catastrophic model of earthquake process||#ASS:7:4:1994:521-528|Model+Catastrophe theory+Seismic process+Fault zone
J|0433|Huang,W-Q.+Li,W-X.+Cao,X-F.|Research on the completeness of earthquake data in the Chinese mainland (II) - the regional distribution of the beginning years of basically complete earthquake data||#ASS:7:4:1994:529-538|China+Earthquake catalogue+Map+Zoning
J|0434|Zhao,W-M.+Jin,Y-L.|An improvement on the method of the pattern recognition ICHAM and its application||#ASS:7:4:1994:539-547|Pattern recognition+Strong earthquake+China+Prediction
J|0435|Chen,P-S.+Xiao,L.+Bai,T-X.+|The environment shear stress field for the 1976 Tangshan earthquake sequence||#ASS:7:4:1994:549-557|Earthquake+1976+T'ang-shan+Shear stress||#*TANGSHAN
J|0436|Zhao,G-M.+Yao,L-Y.+Ma,S-Q.|The stress field variation caused by faulting and the prediction for seismic risk||#ASS:7:4:1994:559-566|Stress field+Faulting+Triggering+China||#*LUHUO|#*SONGPAN|#*YUNGSHAN
J|0437|Huan,W-L.+Wang,S-Y.+Song,Z-Y.|The characteristics of tectonic stress field about strike slip earthquake-generating structure in the Chinese mainland||#ASS:7:4:1994:567-575|Stress field+China+Strike-slip+Fault
J|0438|Li,H-J.+Chen,K-Y.|Focal mechanism and modern stress field along the Burmese Arc and its vicinity||#ASS:7:4:1994:577-585|Stress field+Burmese arc+Focal mechanism+Earthquake
J|0439|Wang,C-Y.+Zhang,X-K.+Lin,Z-Y.+|Characteristic of crustal structure in the Shulu fault basin and its vicinity||#ASS:7:4:1994:587-594|Crustal structure+Xingtai+Deep seismic sounding+Common depth point
J|0440|Xu,Y.+Zhu,J-S.+Liu,Z-J.+|3-D velocity images of the crust and upper mantle of the Tianshan area||#ASS:7:4:1994:595-602|Crust+Upper mantle+Tomography+Tien Shan
J|0441|Zhang,Y-L.+Liu,X-L.+An,H-J.+|Study on new optimum parameters in MT repeated survey||#ASS:7:4:1994:603-610|Magnetotellurics+Precursor+Resistivity+Qinghai
J|0442|Mao,T-E.+Yao,J-L.|The relationship between crust-mantle structural ratio and seismic activity||#ASS:7:4:1994:611-620|Crust-mantle structure+Activity+Intraplate earthquake+China+Thickness||#*HAICHENG
J|0443|Chen,J-B.+Shen,P.+Zheng,Z-Z.|Application of digital image processing to the determination of spatial distribution of earthquakes||#ASS:7:4:1994:621-628|Spatial distribution+Digital processing+Seismic gap+Clustering
J|0444|Hu,Y-X.+Chen,H-Y.|On unified analysis of uncertainty in seismic hazard assessment||#ASS:7:4:1994:629-636|Hazard+Uncertainty+Analysis
J|0445|Jin,X.+Liao,Z-P.|Theoretical research on intensity envelope function of strong ground motion||#ASS:7:4:1994:637-644|Strong motion+Intensity+Spectrum+Arrival time
J|0446|Jiang,X-D.+Zhang,W-G.|Applying artificial neural networks to achieve quantitative division of potential focal regions||#ASS:7:4:1994:645-652|Neural network+North China+Seismic potential+Pattern recognition
J|0447|Wang,J.|Probabilistic predictive model with complex remembrance||#ASS:7:4:1994:653-658|Model+Probability+Time intervals+Occurrence|Research note
J|0448|Chen,P-S.|Catalogue of earthquakes (March-May, 1994)||#ASS:7:4:1994:659-662|Earthquake catalogue+1994+1993+Epicentre
J|0449|Yoshida,M.+Chiba,H.+Hagiwara,H.+|Summary of real time processing methods for micro-earthquake automatic processing system (1981-1993)|In Japanese with English abstract|#BER:69:3:1994:121-138|Microearthquake+Automatic processing+Detection+Hypocentre
J|0450|a-Research Group for Explosion Seismology|Seismic refraction experiment in the central Japan; Agatsuma-Kanazawa profile|In Japanese with English abstract|#BER:69:3:1994:139-158|Japan+Refraction study+Profile+Attenuation
J|0451|Abe,K.+Izumiya,T.+Sunako,H.+|Height distribution of the 1993 Hokkaido Nansei-oki earthquake tsunami observed along the coast of Niigata Prefecture, Japan|In Japanese with English abstract|#BER:69:3:1994:159-175|Niigata+1993+Tsunami+Coast||#*SEAOFJAPAN93
J|0452|Kagiyama,T.|Significance of investigations on the structure of Kirishima volcanoes|In Japanese with English abstract|#BER:69:4:1994:177-188|Volcano+Kyushu+Resistivity+Seismicity
J|0453|Utada,H.+Kagiyama,T.+a-EM Research Group for Kirishima Volcano|Deep resistivity structure of Kirishima volcano|In Japanese with English abstract|#BER:69:4:1994:241-255|Volcano+Kyushu+Resistivity+Activity
J|0454|Yamamoto,K.+Ida,Y.|Three-dimensional P-wave velocity structure of Kirishima volcanoes using regional seismic events|In Japanese with English abstract|#BER:69:4:1994:257-266|Velocity structure+Kyushu+Magma+Low-velocity layer
J|0455|Oikawa,J.+Yamamoto,K.+Ida,Y.|High attenuation region of seismic waves beneath Kirishima volcanoes|In Japanese with English abstract|#BER:69:4:1994:291-307|Attenuation+Volcano+Kyushu+Seismogram
J|0456|Ando,J.+Watanabe,H.+Sakashita,S.|Study of gravity anomaly on and around Izu-Oshima volcano|In Japanese with English abstract|#BER:69:4:1994:309-350|Bouguer anomaly+Volcano+Izu-Oshima+Velocity structure
J|0457|Sakai,Y.+Minami,T.+Nakano,Y.+|Damage to buildings caused by the 1994 Northridge earthquake and earthquake response analysis by recorded strong ground motions|In Japanese with English abstract|#BER:69:4:1994:351-378|Earthquake+1994+Southern California+Damage||#*NORTHRIDGE94
J|0458|Pankaj+Moin,K.+Barthwal,G.|On single step algorithms in the solution of dynamic linear and nonlinear problems||#BIT:31:3:1994:117-139|Structural dynamics+Algorithm+Equation of motion+Mathematical analysis
J|0459|Kumar,S.+Paul,D.K.|3-D analysis of irregular buildings with rigid floor diaphragms||#BIT:31:3:1994:141-154|Building+Structural response
J|0460|Singh,M.P.+Liu,S.C.|Structural control for seismic protection of structures||#BIT:31:4:1994:155-174|Protection+Control+Earthquake engineering
J|0461|Verma,A.K.+Kumar,A.|Microearthquake activity in the environ of proposed Tipaimukh dam site, Manipur||#BIT:31:4:1994:175-186|Microearthquake+Dam+Seismic survey+India
J|0462|Jibson,R.W.+Prentice,C.S.+Borisov,B.A.+|Some observations of landslides triggered by the 29 April 1991 Racha earthquake, Republic of Georgia||#BSA:84:4:1994:963-973|Landslide+Georgia FSU+Earthquake+1991
J|0463|Wells,D.L.+Coppersmith,K.J.|New empirical relationships among magnitude, rupture length, rupture width, rupture area, and surface displacement||#BSA:84:4:1994:974-1002|Magnitude+Rupture length+Displacement+Source parameter
J|0464|Anderson,J.G.+Lei,Y.|Nonparametric description of peak acceleration as a function of magnitude, distance, and site in Guerrero, Mexico||#BSA:84:4:1994:1003-1017|Acceleration+Guerrero+Magnitude+Distance
J|0465|Hao,X-S.+Seo,K.+Samano,T.|Low damage anomaly of the 1976 Tangshan earthquake: an analysis based on the explosion ground motions||#BSA:84:4:1994:1018-1027|Damage+T'ang-shan+1976+Earthquake||#*TANGSHAN
J|0466|Hutchings,L.|Kinematic earthquake models and synthesized ground motion using empirical Green's functions||#BSA:84:4:1994:1028-1050|Kinematics+Ground motion+Green's function+Model||#*SANFERNANDO
J|0467|Lindley,G.T.|Source parameters of the 23 April 1992 Joshua Tree, California, earthquake, its largest foreshock, and aftershocks||#BSA:84:4:1994:1051-1057|Source parameter+Southern California+1992+Earthquake||#*JOSHUATREE92
J|0468|Hauksson,E.|The 1991 Sierra Madre earthquake sequence in southern California: seismological and tectonic analysis||#BSA:84:4:1994:1058-1074|Southern California+1991+Sequence+Earthquake||#*SANGABRIEL91|#*UPLAND90|#*WHITTIER|#*PASADENA88|#*SANFERNANDO
J|0469|Bent,A.L.|The 1989 (MS 6.3) Ungava, Quebec, earthquake: a complex intraplate event||#BSA:84:4:1994:1075-1088|Intraplate earthquake+1989+Quebec+Source parameter||#*UNGAVA89
J|0470|Mori,J.+Filson,J.+Cranswick,E.+|Measurements of P and S wave fronts from the dense three-dimensional array at Garni, Armenia||#BSA:84:4:1994:1089-1096|Armenia+Wavefront+Array+Slowness
J|0471|Regnier,M.+Chiu,J-M.+Smalley,R.+|Crustal thickness variation in the Andean foreland, Argentina, from converted waves||#BSA:84:4:1994:1097-1111|Crustal thickness+Argentina+Converted wave+Andes
J|0472|Liu,Z.+Wuenscher,M.E.+Herrmann,R.B.|Attenuation of body waves in the central New Madrid seismic zone||#BSA:84:4:1994:1112-1122|New Madrid+Attenuation+Body wave+Spectrum
J|0473|Woodgold,C.R.D.|Coda Q in the Charlevoix, Quebec, region: lapse-time dependence and spatial and temporal comparisons||#BSA:84:4:1994:1123-1131|Coda Q+Charlevoix+Spatial variation+Temporal variation
J|0474|Zhang,T-R.+Lay,T.|Effects of crustal structure under the Barents and Kara Seas on short-period regional wave propagation for Novaya Zemlya explosions: empirical relations||#BSA:84:4:1994:1132-1147|Crustal structure+Novaya Zemlya+Propagation+Lg-wave
J|0475|Harris,D.B.+D'Spain,G.+Goldner,A.|Regional observation of a nuclear test from a vertical hydrophone array||#BSA:84:4:1994:1148-1153|Regional study+Underground nuclear explosion+Hydrophone+Nevada Test Site||#*LOCKNEY
J|0476|Liu,Y-B.+Wu,R-S.|A comparison between phase screen, finite difference, and eigenfunction expansion calculations for scalar waves in inhomogeneous media||#BSA:84:4:1994:1154-1168|Inhomogeneous medium+Eigenfunction+Numerical method+Synthetic seismogram
J|0477|Pedersen,H.A.+Sanchez-Sesma,F.J.+Campillo,M.|Three-dimensional scattering by two-dimensional topographies||#BSA:84:4:1994:1169-1183|Scattering+Boundary element method+Topography+Synthetic seismogram
J|0478|Andrews,D.J.|Dynamic growth of mixed-mode shear cracks||#BSA:84:4:1994:1184-1198|Shear velocity+Crack+Growth+Propagation
J|0479|Sato,T.|Seismic radiation from circular cracks growing at variable rupture velocity||#BSA:84:4:1994:1199-1215|Radiation+Crack+Fault growth+Rupture velocity
J|0480|Herrero,A.+Bernard,P.|A kinematic self-similar rupture process for earthquakes||#BSA:84:4:1994:1216-1228|Kinematics+Rupture+Seismic process+Slip
J|0481|Li,Y.+Prothero,W.A.+Thurber,C.H.+|Observations of ambient noise and signal coherency on the island of Hawaii for teleseismic studies||#BSA:84:4:1994:1229-1242|Noise+Coherency+Hawaii+Teleseism
J|0482|Pavlis,G.L.+Vernon,F.L.|Calibration of seismometers using ground noise||#BSA:84:4:1994:1243-1255|Calibration+Seismometer+Noise+Frequency response
J|0483|Rydelek,P.A.+Hass,L.|On estimating the amount of blasts in seismic catalogs with Schuster's method||#BSA:84:4:1994:1256-1259|Blast+Earthquake catalogue+Statistical method|Short note
J|0484|Joyner,W.B.+Spudich,P.|Including near-field terms in the isochrone integration method for application to finite-fault or Kirchhoff boundary integral problems||#BSA:84:4:1994:1260-1265|Mathematical analysis+Green's function+Boundary integral method+Fault|Short note
J|0485|Ammon,C.J.+Lay,T.+Velasco,A.A.+|Routine estimation of earthquake source complexity: the 18 October 1992 Colombian earthquake||#BSA:84:4:1994:1266-1271|Colombia+Earthquake+1992+Complexity|Short note|#*COLOMBIA92A|#*COLOMBIA92B
J|0486|Tada,T.+Shimazaki,K.|How much does a high-velocity slab contribute to the apparent non-double-couple components in deep-focus earthquakes?||#BSA:84:4:1994:1272-1278|Non-double couple+Deep-focus earthquake+High velocity+Slab|Short note
J|0487|Tumarkin,A.G.+Archuleta,R.J.+Madariaga,R.|Scaling relations for composite earthquake models||#BSA:84:4:1994:1279-1283|Scaling+Model+Multiple event+Spectrum|Short note
J|0488|Person,W.J.|Seismological notes - September-October 1993||#BSA:84:4:1994:1284-1290|Earthquake+1993
J|0489|Ward,S.N.|A multidisciplinary approach to seismic hazard in Southern California||#BSA:84:5:1994:1293-1309|Hazard+Southern California+Map+Zoning
J|0490|Scrivner,C.W.+Helmberger,D.V.|Seismic waveform modeling in the Los Angeles basin||#BSA:84:5:1994:1310-1326|Los Angeles+Modelling+Waveform+Basin||#*WHITTIER87A|#*SANGABRIEL91
J|0491|Pitarka,A.S.+Takenaka,H.+Suetsugu,D.|Modeling strong motion in the Ashigara Valley for the 1990 Odawara, Japan, earthquake||#BSA:84:5:1994:1327-1335|Strong motion+Earthquake+1990+Japan||#*ODAWARA90
J|0492|Hartzell,S.H.+Carver,D.L.+King,K.W.|Initial investigation of site and topographic effects at Robinwood Ridge, California||#BSA:84:5:1994:1336-1349|California+Amplification+Aftershock+Slowness||#*LOMAPRIETA89
J|0493|Lermo,J.+Chavez-Garcia,F.J.|Are microtremors useful in site response evaluation?||#BSA:84:5:1994:1350-1364|Site response+Microtremor+Spectral ratio+Mexico
J|0494|Kim,W-Y.+Simpson,D.W.+Richards,P.G.|High-frequency spectra of regional phases from earthquakes and chemical explosions||#BSA:84:5:1994:1365-1386|High frequency+Spectrum+Regional phase+Chemical explosion
J|0495|Kinoshita,S.|Frequency-dependent attenuation of shear waves in the crust of the southern Kanto area, Japan||#BSA:84:5:1994:1387-1396|Shear wave+Crust+Kanto+Attenuation
J|0496|Pullammanappallil,S.K.+Louie,J.N.|A generalized simulated-annealing optimization for inversion of first-arrival times||#BSA:84:5:1994:1397-1409|First arrival+Monte Carlo method+Common depth point+Velocity structure
J|0497|Harkrider,D.G.+Stevens,J.L.+Archambeau,C.B.|Theoretical Rayleigh and Love waves from an explosion in prestressed source regions||#BSA:84:5:1994:1410-1442|Rayleigh wave+Love wave+Explosion+Double couple
J|0498|Takemiya,H.+Fujiwara,A.|SH-wave scattering and propagation analyses at irregular sites by time domain BEM||#BSA:84:5:1994:1443-1455|Time domain+Boundary element method+SH-wave+Site response
J|0499|Hisada,Y.|An efficient method for computing Green's functions for a layered half-space with sources and receivers at close depths||#BSA:84:5:1994:1456-1472|Green's function+Half-space+Layered medium+Depth
J|0500|Touhei,T.|A discrete wavenumber and normal-mode superposition method for synthetic seismograms||#BSA:84:5:1994:1473-1483|Synthetic seismogram+Normal mode+Wavenumber+Superposition
J|0501|Harmsen,S.C.|The Little Skull Mountain, Nevada, earthquake of 29 June 1992: aftershock focal mechanisms and tectonic stress field implications||#BSA:84:5:1994:1484-1505|Earthquake+1992+Nevada+Aftershock||#*CALIFNEV92
J|0502|Lamontagne,M.+Hasegawa,H.S.+Forsyth,D.A.+|The Mont-Laurier, Quebec, earthquake of 19 October 1990 and its seismotectonic environment||#BSA:84:5:1994:1506-1522|Earthquake+Quebec+1990+Seismotectonics||#*MONTLAURIER90
J|0503|Weichert,D.H.+Horner,R.B.+Evans,S.G.|Seismic signatures of landslides: the 1990 Brenda Mine collapse and the 1965 Hope rockslides||#BSA:84:5:1994:1523-1532|Landslide+Signature+1990+1965
J|0504|Singh,S.K.+Ordaz,M.|Seismic energy release in Mexican subduction zone earthquakes||#BSA:84:5:1994:1533-1550|Mexico+Subduction zone+Energy+Earthquake
J|0505|Habermann,R.E.+Creamer,F.|Catalog errors and the M8 earthquake prediction algorithm||#BSA:84:5:1994:1551-1559|Prediction+Algorithm+Error+Earthquake catalogue
J|0506|Kisslinger,C.+Kindel,B.|A comparison of seismicity rates near Adak Island, Alaska, September 1988 through May 1990 with rates before the 1982 to 1986 apparent quiescence||#BSA:84:5:1994:1560-1570|Adak+Quiescence+Seismicity+1988-1990
J|0507|Gross,S.J.+Kisslinger,C.|Tests of models of aftershock rate decay||#BSA:84:5:1994:1571-1579|Decay+Aftershock+Model+Sequence
J|0508|Fels,J-F.+Berger,J.|Parametric analysis and calibration of the STS-1 seismometer of the IRIS/IDA seismographic network||#BSA:84:5:1994:1580-1592|Network+Seismometer+Calibration+Frequency response
J|0509|Young,C.J.+Chael,E.P.+Zagar,D.A.+|Variations in noise and signal levels in a pair of deep boreholes near Amarillo, Texas||#BSA:84:5:1994:1593-1607|Texas+Signal-to-noise ratio+Borehole+Depth
J|0510|Petersen,M.D.+Wesnousky,S.G.|Fault slip rates and earthquake histories for active faults in southern California||#BSA:84:5:1994:1608-1649|Southern California+Fault zone+Slip+Historical seismicity|Review
J|0511|Bilham,R.|The 1737 Calcutta earthquake and cyclone evaluated||#BSA:84:5:1994:1650-1657|Historical earthquake+1737+Calcutta|Short note
J|0512|Sirovich,L.|A case of the influence of radiation pattern on peak accelerations||#BSA:84:5:1994:1658-1664|Radiation pattern+Earthquake+1980+Italy|Short note|#*CAMPANIA
J|0513|Nigbor,R.L.|Six-degree-of-freedom ground-motion measurement||#BSA:84:5:1994:1665-1669|Ground motion+Accelerograph+Instrumentation+Chemical explosion|Short note|#*NEVADA93
J|0514|Buchbinder,G.G.R.+Sarria,A.|A satellite-based seismic and volcanic monitoring system for Colombia||#BSA:84:5:1994:1670-1674|Colombia+Monitoring+Satellite+Volcano|Short note
J|0515|Romanowicz,B.|Comment on `A reappraisal of large earthquake scaling' by C. Scholz||#BSA:84:5:1994:1675-1678|Comments+Large earthquake+Scaling+Rupture length|With a reply by the author
J|0516|Sornette,D.+Sornette,A.|Comment on `On scaling relations for large earthquakes' by B. Romanowicz and J. B. Rundle, from the perspective of a recent nonlinear diffusion equation linking short-time deformation to long-time tectonics||#BSA:84:5:1994:1679-1684|Comments+Scaling+Large earthquake+b-Value|With a reply by the authors
J|0517|Person,W.J.|Seismological notes - November-December 1993||#BSA:84:5:1994:1687-1700|Earthquake+1993
J|0518|Hartzell,S.H.+Langer,C.J.+Mendoza,C.|Rupture histories of eastern North American earthquakes||#BSA:84:6:1994:1703-1724|Eastern North America+Earthquake+Rupture+Inversion||#*NEWBRUNSWICK|#*NAHANNI2|#*NAHANNI|#*SAGUENAY88|#*UNGAVA89
J|0519|Ma,K-F.+Kanamori,H.|Broadband waveform observation of the 28 June 1991 Sierra Madre earthquake sequence (ML = 5.8)||#BSA:84:6:1994:1725-1738|Sequence+Earthquake+1991+Southern California||#*PASADENA88|#*SANGABRIEL91
J|0520|Webb,T.H.|Spatial clustering and stress drops of foreshocks of the February 1990 Tennyson and Weber, New Zealand, earthquakes||#BSA:84:6:1994:1739-1753|Clustering+Foreshock+New Zealand+Earthquake||#*TENNYSON90A|#*NISLAND90
J|0521|Humphrey,J.R.+Anderson,J.G.|Seismic source parameters from the Guerrero subduction zone||#BSA:84:6:1994:1754-1769|Guerrero+Subduction zone+Source parameter+Earthquake
J|0522|Bouin,M-P.+Bernard,P.|Analysis of strong-motion S wave polarization of the 15 October 1979 Imperial Valley earthquake||#BSA:84:6:1994:1770-1785|Earthquake+1979+Imperial Valley+Polarization||#*IMPERIAL
J|0523|Pedersen,H.A.+Le Brun,B.+Hatzfeld,D.+|Ground-motion amplitude across ridges||#BSA:84:6:1994:1786-1800|Ridge+Ground motion+Greece+Amplification
J|0524|Kawano,M.+Matsuda,S.+Toyoda,K.+|Seismic response of three-dimensional alluvial deposit with irregularities for incident wave motion from a point source||#BSA:84:6:1994:1801-1814|Point source+Site response+Alluvium+Numerical analysis
J|0525|Margheriti,L.+Wennerberg,L.+Boatwright,J.|A comparison of coda and S-wave spectral ratios as estimates of site response in the southern San Francisco Bay area||#BSA:84:6:1994:1815-1830|Spectral ratio+San Francisco Bay+Amplification+Coda
J|0526|Yamanaka,H.+Takemura,M.+Ishida,H.+|Characteristics of long-period microtremors and their applicability in exploration of deep sedimentary layers||#BSA:84:6:1994:1831-1841|Microtremor+Exploration+Japan+Sediment
J|0527|Patane,D.+Ferrucci,F.+Gresta,S.|Spectral features of microearthquakes in volcanic areas: attenuation in the crust and amplitude response of the site at Mt. Etna, Italy||#BSA:84:6:1994:1842-1860|Mount Etna+Microearthquake+Crust+Attenuation
J|0528|Chen,K-C.+Chiu,J-M.+Yang,Y-T.|Qp-Qs relations in the sedimentary basin of the upper Mississippi embayment using converted phases||#BSA:84:6:1994:1861-1868|Sedimentary basin+Converted wave+Q+New Madrid
J|0529|Bouchon,M.+Coutant,O.|Calculation of synthetic seismograms in a laterally varying medium by the boundary element-discrete wavenumber method||#BSA:84:6:1994:1869-1881|Synthetic seismogram+Lg-wave+Lateral heterogeneity+Numerical method
J|0530|Quiroga-Goode,G.E.+Krebes,E.S.+Le,L.H.T.|Modeling viscoelastic waves: a comparison of ray theory and the finite-difference method||#BSA:84:6:1994:1882-1888|Finite difference method+Modelling+Viscoelastic medium+Ray theory
J|0531|Carbonell,R.+Smithson,S.B.|Inversion of reflected PP, SS, and converted PS/SP travel times for crustal structure||#BSA:84:6:1994:1889-1902|Travel-times+Converted wave+Reflected wave+Velocity-depth function
J|0532|Jeyakumaran,M.+Keer,L.M.|Curved slip zones in an elastic half-plane||#BSA:84:6:1994:1903-1915|Curve+Slip+Fault+Stress
J|0533|Fujii,K.|Rayleigh-wave scattering at various wedge corners: investigation in the wider range of wedge angles||#BSA:84:6:1994:1916-1924|Rayleigh wave+Wedge+Transmission coefficient+Reflexion coefficient+Scattering
J|0534|Norris,R.D.|Seismicity of rockfalls and avalanches at three Cascade Range volcanoes: implications for seismic detection of hazardous mass movements||#BSA:84:6:1994:1925-1939|Seismicity+Avalanche+Volcano+Washington State
J|0535|Wesnousky,S.G.|The Gutenberg-Richter or characteristic earthquake distribution, which is it?||#BSA:84:6:1994:1940-1959|Characteristic earthquake+Gutenberg & Richter+Southern California+Fault zone
J|0536|Wakabayashi,J.+Smith,D.L.|Evaluation of recurrence intervals, characteristic earthquakes, and slip rates associated with thrusting along the Coast Range-Central Valley geomorphic boundary, California||#BSA:84:6:1994:1960-1970|California+Recurrence+Characteristic earthquake+Slip||#*KETTLEMAN85|#*COALINGA
J|0537|Sandvol,E.A.+Hearn,T.M.|Bootstrapping shear-wave splitting errors||#BSA:84:6:1994:1971-1977|Shear wave splitting+Error+Mathematical method+Inversion
J|0538|Billings,S.D.+Sambridge,M.S.+Kennett,B.L.N.|Errors in hypocenter location: picking, model, and magnitude dependence||#BSA:84:6:1994:1978-1990|Error+Hypocentre+Location+Monte Carlo method+ISC||#*IRAN88|#*FLORES86A|#*FLORES86B|#*FLORES86C
J|0539|Babcock,J.M.+Kirkendall,B.A.+Orcutt,J.A.|Relationships between ocean bottom noise and the environment||#BSA:84:6:1994:1991-2007|Microseism+Sea floor+Noise+North Atlantic
J|0540|Wang,J-H.|On the correlation of observed Gutenberg-Richter's b value and Omori's p value for aftershocks||#BSA:84:6:1994:2008-2011|b-Value+p-Value+Aftershock+Correlation|Short note
J|0541|Baez,G.+Flores,J.+Mateos,J.L.+|Comment on `The origin of long coda observed in the lake-bed strong-motion records of Mexico City' by S. K. Singh and M. Ordaz||#BSA:84:6:1994:2015-2018|Comments+Coda+Mexico City+Strong-motion record
J|0542|Person,W.J.|Seismological notes - January-February 1994||#BSA:84:6:1994:2020-2025|Earthquake+1994
J|0543|Takeda,T.+Yamanobe,S.+Niihara,Y.|Reduction of seismic response of long-span PC cable-stayed bridge by passive dampers|In Japanese with English abstract on p9|#AKR:42:10:1994:99-102|Damper+Bridge+Structural response
J|0544|Ohbo,N.+Suzuki,K.+Zheng,J.|Evaluation of a sheet-pile-ring countermeasure against liquefaction for oil tank sites|In Japanese with English abstract on p10|#AKR:42:10:1994:109-114|Storage tank+Liquefaction+Finite element method+Mitigation
J|0545|Sawamoto,Y.+Yamada,T.|Elasto-plastic control of building vibration using fuzzy set theory (Part 3) - detailed investigation of optimum control parameters (I)|In Japanese with English abstract on p13|#AKR:42:10:1994:139-144|Fuzzy mathematics+Control+Vibration+Building
J|0546|Uchiyama,S.+Naito,Y.+Ohno,S.|Forced vibration test results of PHWR reactor building on Quaternary deposits||#AKR:42:10:1994:163-168|Nuclear power plant+Vibration+Soil-structure interaction+Damping
J|0547|Yamaya,H.+Naito,Y.+Ishibashi,T.|Influence of soil-structure interaction on system identification of buildings -investigation using two-particle models for identification method-|In Japanese with English abstract on p15|#AKR:42:10:1994:169-174|Building+Soil-structure interaction+Structural dynamics
J|0548|Kobayashi,T.+Yamaya,H.+Sasaki,T.|Forced vibration test of large-scale nuclear power plant SSI model (Part 2) -discussion of forced vibration test results after backfill-|In Japanese with English abstract on p16|#AKR:42:10:1994:175-180|Vibration+Earthquake-resistant design+Soil-structure interaction
J|0549|Yamanaka,H.+Ishida,H.+Takemura,M.+|Exploration of S-wave velocity structure of deep sediments by array measurement of long-period microtremors|In Japanese with English abstract on p16|#AKR:42:10:1994:181-186|S-wave+Velocity structure+Microtremor+Sediment
J|0550|Nozawa,T.+Takemura,M.+Yamanaka,H.+|Source characteristics of the 1923 Kanto earthquake as deduced from old strong seismograms at Gifu observatory|In Japanese with English abstract on p17|#AKR:42:10:1994:187-192|Earthquake+1923+Kanto+Source parameter
J|0551|Ishibashi,T.+Naito,Y.|System identification methods of buildings considering rocking motion of the base|In Japanese with English abstract on p18|#AKR:42:10:1994:199-203|Transfer function+Building
J|0552|a-The TRIGON Working Group|Development of hybrid mass damper (TRIGON) for high-rise buildings|In Japanese with English abstract on p18|#AKR:42:10:1994:205-210|Damper+Building
J|0553|Takahashi,T.+Ikeya,T.+Bando,K.|Numerical simulations of hypothetical earthquakes in Tokai and south Kanto areas|In Japanese with English abstract on p19|#AKR:42:10:1994:211-214|Simulation+Tsunami+Japan
J|0554|Hibiya,K.+Inaba,T.+Inou,M.+|Evaluation of hydrogeological structure by resistivity and seismic tomography|In Japanese with English abstract on p20|#AKR:42:10:1994:225-230|Tomography+Hydrogeology+Resistivity
J|0555|Kiyota,Y.+Hagiwara,T.+Tamura,H.|Estimation of dynamic deformation characteristics of soils|In Japanese with English abstract on p22|#AKR:42:10:1994:247-252|Soil-structure interaction+Soil dynamics
J|0556|Ezen,U.|Average crustal structure in surrounding region of central part of Turkey from Rayleigh wave dispersion||#IIS:28:-:1994:1-12|Crustal structure+Turkey+Rayleigh wave+Dispersion
J|0557|Garcia,R.D.|Present situation of earthquake engineering||#IIS:28:-:1994:13-31|Earthquake engineering+Argentina+Destructive earthquake+Building code
J|0558|Hiraishi,H.|Earthquake damage to buildings by the 1992 Cairo earthquake||#IIS:28:-:1994:33-57|Earthquake+1992+Cairo+Damage||#*CAIRO92
J|0559|Nakata,S.|Damage of buildings due to the Flores Island Indonesia earthquake of December 12, 1992||#IIS:28:-:1994:59-77|Earthquake+1992+Indonesia+Damage||#*FLORES92
J|0560|Tinawi,R.+Guizani,L.|Formulation of hydrodynamic pressure in cracks due to earthquakes in concrete dams||#EES:23:7:1994:699-715|Concrete+Dam+Hydrodynamics+Mathematical analysis||#*SAGUENAY88
J|0561|Benouar,D.|Magnitude-intensity and intensity-attenuation relationships for Atlas region and Algerian earthquakes||#EES:23:7:1994:717-727|Earthquake+Magnitude-intensity relation+Attenuation+Atlas Mts.+Algeria
J|0562|Chen,Y.+Ahmadi,G.|Performance of a high damping rubber bearing base isolation system for a shear beam structure||#EES:23:7:1994:729-744|Base isolation system+Damper+Beam+Earthquake engineering
J|0563|Bursi,O.S.+Shing,P-S.B.+Radakovic-Guzina,Z.|Pseudodynamic testing of strain-softening systems with adaptive time steps||#EES:23:7:1994:745-760|Pseudodynamic test+Mathematical analysis+Algorithm+Structural response
J|0564|Schneider,S.P.+Roeder,C.W.|An inelastic substructure technique for the pseudodynamic test method||#EES:23:7:1994:761-775|Pseudodynamic test+Steel frame+Technique+Inelasticity
J|0565|Wong,C.M.+Tso,W.K.|Inelastic seismic response of torsionally unbalanced systems designed using elastic dynamic analysis||#EES:23:7:1994:777-798|Torsion+Dynamic analysis+Structural response+Inelasticity
J|0566|Chang,Y.W.|Discussion on `Sloshing response of layered liquids in rigid tanks' by A. S. Veletsos and P. Shivakumar||#EES:23:7:1994:799-805|Comments+Layer+Storage tank+Liquid|Short communication with a reply by the authors
J|0567||Review of `Dynamic vibration absorbers: theory and technical applications' by B. G. Korenev and L. M. Resnikov||#EES:23:7:1994:807-808|Review+Vibration+Damper+Dynamics|Wiley, Chichester, 1993, 312p
J|0568||Review of `Introduction to elastic wave propagation' by A. Bedford and D. S. Drumheller||#EES:23:7:1994:808|Review+Propagation+Elastic wave|Wiley, Chichester, 1994, 297p
J|0569||Review of `Earthquake-resistant design with rubber' by J. M. Kelly||#EES:23:7:1994:809-810|Review+Earthquake-resistant design+Rubber|Springer-Verlag, Berlin, 1993, 134p
J|0570||Review of `Soil dynamics and geotechnical earthquake engineering' edited by P. Seco e Pinto|Proceedings of a Seminar held in Lisbon, July 1992|#EES:23:7:1994:810|Review+Soil dynamics+Earthquake engineering|A. A. Balkema, Rotterdam, 1993, 501p
J|0571|Abe,M.+Fujino,Y.|Dynamic characterization of multiple tuned mass dampers and some design formulas||#EES:23:8:1994:813-835|Frequency response+Damper+Design+Dynamic analysis
J|0572|Cunha,A.A.M.F.|The role of the stochastic equivalent linearization method in the analysis of the non-linear seismic response of building structures||#EES:23:8:1994:837-857|Nonlinear response+Building+Mathematical method+Structural dynamics
J|0573|Agbabian,M.S.+Higazy,E.M.+Abdel-Ghaffar,A.M.|Experimental observations on the seismic shear performance of RC beam-to-column connections subjected to varying axial column force||#EES:23:8:1994:859-876|Beam+Column+Earthquake engineering+Reinforced concrete||#*IMPERIAL
J|0574|Ali,H.M.+Abdel-Ghaffar,A.M.|Seismic energy dissipation for cable-stayed bridges using passive devices||#EES:23:8:1994:877-893|Bridge+Dissipation+Hysteresis+Dynamic response
J|0575|Ordaz,M.+Faccioli,E.|Site response analysis in the valley of Mexico: selection of input motion and extent of non-linear soil behaviour||#EES:23:8:1994:895-908|Site response+Mexico City+Ground motion+Clay||#*GUERRERO89|#*MEXICOCITY
J|0576|Wolf,J.P.+Meek,J.W.|Rotational cone models for a soil layer on flexible rock half-space||#EES:23:8:1994:909-925|Half-space+Soil+Rock+Dynamic response
J|0577|Takemiya,H.+Fei,G.+Sukeyasu,Y.|2-D transient soil-surface foundation interaction and wave propagation by time domain BEM||#EES:23:9:1994:931-945|Time domain+Boundary element method+Soil-structure interaction+Propagation
J|0578|De la Llera,J.C.+Chopra,A.K.|Using accidental eccentricity in code-specified static and dynamic analyses of buildings||#EES:23:9:1994:947-967|Building code+Dynamic response+Building+Torsion
J|0579|Ballio,G.+Castiglioni,C.A.|An approach to the seismic design of steel structures based on cumulative damage criteria||#EES:23:9:1994:969-986|Design+Steel+Damage+Building
J|0580|Inaudi,J.A.+Kelly,J.M.|A robust delay-compensation technique based on memory||#EES:23:9:1994:987-1001|Delay+Base isolation system+Response+Damping
J|0581|De la Llera,J.C.+Chopra,A.K.|Accidental torsion in buildings due to base rotational excitation||#EES:23:9:1994:1003-1021|Rotation+Torsion+Building+Structural response||#*WHITTIER|#*LOMAPRIETA89
J|0582|Novikova,E.I.+Trifunac,M.D.|Duration of strong ground motion in terms of earthquake magnitude, epicentral distance, site conditions and site geometry||#EES:23:9:1994:1023-1043|Duration+Strong motion+Magnitude+Distance
J|0583|Gambarotta,L.+Lagomarsino,S.|A microslip model for the seismic response analysis of drained cohesionless soil deposits||#EES:23:10:1994:1047-1067|Soil+Dynamic analysis+Site response+Model||#*TOKYO80|#*IZUHANTO2
J|0584|Chiu,H-C.+Huang,H-C.+Leu,C-L.+|Application of polarization analysis in correcting the orientation error of a downhole seismometer||#EES:23:10:1994:1069-1078|Down-hole recording+Seismometer+Polarization+Orientation||#*TAIWAN92A|#*HUALIEN92
J|0585|Wolf,J.P.+Meek,J.W.|Dynamic stiffness of foundation on layered soil half-space using cone frustrums||#EES:23:10:1994:1079-1095|Foundation+Soil+Stiffness+Half-space
J|0586|Konagai,K.+Nogami,T.|Subgrade model for transient response analysis of multiple embedded bodies||#EES:23:10:1994:1097-1114|Dynamic response+Soil-structure interaction+Time domain+Frequency domain
J|0587|Margakis,E.A.+Douglas,B.M.+Abdel-Ghaffar,S.M.|An equivalent linear finite element approach for the estimation of pile foundation stiffnesses||#EES:23:10:1994:1115-1124|Finite element method+Pile+Stiffness+Bridge
J|0588|Kuwamura,H.+Kirino,Y.+Akiyama,H.|Prediction of earthquake energy input from smoothed Fourier amplitude spectrum||#EES:23:10:1994:1125-1137|Energy+Fourier spectrum+Amplitude+Damping||#*MEXICOCITY
J|0589|Perus,I.+Fajfar,P.+Grabec,I.|Prediction of the seismic capacity of RC structural walls by non-parametric multidimensional regression||#EES:23:10:1994:1139-1155|Reinforced concrete+Wall+Regression+Modelling
J|0590|Fukuwa,N.+Matsushima,S.|Wave dispersion and optimal mass modelling for one-dimensional periodic structures||#EES:23:11:1994:1165-1180|Modelling+Dispersion+Dynamic analysis+Structural dynamics
J|0591|Wolf,J.P.+Song,C-M.|Dynamic stiffness matrix in time domain of unbounded medium by infinitesimal finite element cell method||#EES:23:11:1994:1181-1198|Finite element method+Stiffness+Matrix+Time domain
J|0592|Challa,V.R.M.+Hall,J.F.|Earthquake collapse analysis of steel frames||#EES:23:11:1994:1199-1218|Collapse+Steel frame+Hysteresis+Ground motion||#*SANFERNANDO|#*NORTHRIDGE94
J|0593|Daniell,W.E.+Taylor,C.A.|Full-scale dynamic testing and analysis of a reservoir intake tower||#EES:23:11:1994:1219-1237|Reservoir+Tower+Finite element method+Vibration
J|0594|Liu,W-M.+Novak,M.|Dynamic response of single piles embedded in transversely isotropic layered media||#EES:23:11:1994:1239-1257|Pile+Layered medium+Dynamic response+Transversely isotropic medium
J|0595|Polak,E.+Meeker,G.+Yamada,K.+|Evaluation of an active variable-damping structure||#EES:23:11:1994:1259-1274|Damping+Acceleration+Earthquake-resistant design+Dynamic response
J|0596|Nakamura,T.+Nakamura,Y.|Discussion on `Inelastic seismic response of code-designed multistorey frame buildings with regular asymmetry' by X. N. Duan and A. M. Chandler||#EES:23:11:1994:1275-1280|Comments+Frame+Structural response+Asymmetry+Building|Short communication with a reply by the authors
J|0597|Nakashima,M.+Iwai,S.+Iwata,M.+|Energy dissipation behaviour of shear panels made of low yield steel||#EES:23:12:1994:1299-1313|Steel+Building+Dissipation+Damper
J|0598|Pan,T-C.+Cui,W.|Dynamic characteristics of shear buildings on laminated rubber bearings||#EES:23:12:1994:1315-1329|Dynamic analysis+Building+Rubber+Base isolation system
J|0599|Linde,P.+Bachmann,H.|Dynamic modelling and design of earthquake-resistant walls||#EES:23:12:1994:1331-1350|Wall+Earthquake-resistant design+Modelling+Dynamic response
J|0600|Brownjohn,J.M.W.|Observations on non-linear dynamic characteristics of suspension bridges||#EES:23:12:1994:1351-1367|Bridge+Dynamic response+Nonlinearity||#*SANFERNANDO
J|0601|Tzan,S-R.+Pantelides,C.P.|Hybrid structural control using viscoelastic dampers and active control systems||#EES:23:12:1994:1369-1388|Viscoelastic damping+Control+Earthquake-resistant design+Structural response||#*SANFERNANDO|#*MEXICOCITY
J|0602|Gupta,I.D.|Defining effective peak acceleration via order statistics of acceleration peaks||#EEE:8:2:1994:3-11|Maximum acceleration+Koyna+Accelerogram+Scaling
J|0603|Al-Homoud,A.S.+Husein,A.I.+Liang,R.Y.|Seismic hazard mapping of Jordan||#EEE:8:2:1994:12-17|Hazard+Jordan+Mapping+Modified Mercalli intensity
J|0604|Limongelli,M.P.+Pezzoli,P.|Analysis of the seismic response of masonry buildings excited by a shaking table||#EEE:8:2:1994:18-30|Masonry structure+Structural response+Shake table+Damage
J|0605|Soliman,H.O.+Datta,T.K.|Response of continuous beam bridges to multiple support ground motion||#EEE:8:2:1994:31-34|Bridge+Beam+Ground motion+Structural response
J|0606|Husein,A.I.+Liang,R.Y.+Nusairat,J.H.|Performance of Karameh earth dam under earthquake loading||#EEE:8:2:1994:35-42|Dam+Jordan+Seismicity+Maximum acceleration||#*DEADSEA
J|0607|Berra,M.+Castellani,A.+Ciccotelli,S.+|Bond slip effects on reinforced concrete elements under earthquake loading||#EEE:8:3:1994:3-10|Reinforced concrete+Loading+Slip+Earthquake engineering
J|0608|Novikova,E.I.+Todorovska,M.I.+Trifunac,M.D.|Frequency dependent duration of strong earthquake ground motion on the territory of former Yugoslavia Part I: magnitude models||#EEE:8:3:1994:11-25|Yugoslavia+Ground motion+Frequency+Duration
J|0609|Novikova,E.I.+Todorovska,M.I.+Trifunac,M.D.|Frequency dependent duration of strong earthquake ground motion on the territory of former Yugoslavia Part II: local intensity models||#EEE:8:3:1994:26-37|Yugoslavia+Ground motion+Frequency+Duration
J|0610|Anderson,J.G.+Brune,J.N.+Prince,J.+|The Guerrero Accelerograph Network||#GFN:33:3:1994:341-371|Network+Guerrero+Earthquake catalogue+Seismic gap||#*GUERRERO88
J|0611|Castro,R.R.+Munguia,L.+Rebollar,C.J.+|A comparative analysis of the quality factor Q for the regions of Guerrero and Oaxaca, Mexico||#GFN:33:3:1994:373-383|Guerrero+Oaxaca+Q+S-wave
J|0612|Garcia-Abdeslem,J.+Ness,G.E.|Crustal structure of the eastern part of the Maya Terrane from magnetic anomalies and magnetic power spectrum inversion||#GFN:33:3:1994:399-420|Crustal structure+Yucatan+Geomagnetic anomaly+Power spectrum
J|0613|Gomez-Herrera,J.E.+Rodriguez-Moran,O.+Valladares-Amaro,S.+|Predicting gas- and oil-bearing Cuban ophiolite rock by applying mathematical simulation|In Spanish with English abstract|#GFN:33:3:1994:447-467|Simulation+Exploration+Ophiolite+Cuba
J|0614|Sahay,P.N.+Capri,A.Z.|Axi-symmetric eigenmodes for an elastic semi-infinite circular cylindrical rod||#GFN:33:4:1994:541-545|Eigenfunction+Propagation+Cylinder+Mathematical analysis
J|0615|Durazo,J.|Displacements within the marshy subsoil of the Mexico basin|In Spanish with English abstract|#GFN:33:4:1994:625-634|Mexico+Basin+Field work+Sediment||#*MEXICOCITY
J|0616|Narayan,J.P.+Ram,A.|Application of acoustic wave solution for the analysis of reverberation||Geofizika, Zagreb:11:-:1994:1-13|Acoustic wave+Reverberation+Reflexion+Offshore
J|0617|Mahajan,A.K.+Kumar,S.|Linear features registered on the Landsat imagery and seismic activity in the Dharamsala-Palampur region (NW Himalaya)||Geofizika, Zagreb:11:-:1994:15-25|Landsat+Activity+Himalayas+Lineament
J|0618|Grabrovec,D.+Allegretti,I.|On the digitizing of historical seismograms||Geofizika, Zagreb:11:-:1994:27-31|Seismogram+Nonlinearity+Correction+Seismic record
J|0619|Skoko,D.+Herak,M.|Seismology and physics of the Earth's interior in Croatia, 1991-1994||Geofizika, Zagreb:11:-:1994:15-18|Croatia+Seismology+Earthquake catalogue+Velocity structure|Roman pagination. Report to IASPEI, Boulder Assembly, 1995|#*KNIN86
J|0620|Malitsky,D.V.|Solution of direct 2-D problem of wave propagation theory based on recurrent method|In Russian with English abstract|#GFZ:16:4:1994:62-66|Mathematical method+Exploration+Inversion+Seismodynamics|Scientific communication
J|0621|Orovetsky,Yu.P.+Kalyuzhnaya,L.T.+Chekunov,A.V.|Spatial-genetic relation of gold mineralization with deep structure of the Ukrainian Shield|In Russian with English abstract|#GFZ:16:5:1994:3-10|Deep structure+Ukrainian Shield+Mineral+Crust
J|0622|Nesterov,V.V.+Nasonkin,V.A.+Chekhov,V.N.|Studies of ultralongperiod lithospheric deformations precursory of earthquakes|In Russian with English abstract|#GFZ:16:5:1994:17-26|Deformation+Interferometry+Precursor+Lithosphere
J|0623|Timoshin,Yu.V.+Lesnoy,G.D.|Equations of reflecting boundary on a seismic image of a 3-D elliptical anisotropic medium|In Russian with English abstract|#GFZ:16:5:1994:31-34|Imaging+Anisotropic medium+Equation+Reflexion
J|0624|Popova,O.G.+Scukin,Y.K.+Kudrina,E.E.+|Deep and velocity models of the Earth's crust and upper mantle of the Spitak earthquake focal zone 1988|In Russian with English abstract|#GFZ:16:5:1994:35-44|Deep seismic sounding+Spitak+Velocity structure+Refraction data
J|0625|Belinsky,I.V.+Danilenko,V.A.+Mikulak,S.V.|Numerical modelling of the pulse disturbance propagation processes in a prestressed elastic-plastic medium|In Russian with English abstract|#GFZ:16:5:1994:45-48|Propagation+Pulse+Elastoplasticity+Numerical modelling
J|0626|Tiapkin,Y.K.+Shatilo,A.P.+Starostenko,E.V.|Results of testing iteration algorithms of the phase characteristic of seismic signal optimal in L2 using polyspectra of record|In Russian with English abstract|#GFZ:16:5:1994:65-69|Algorithm+Iteration+Efficiency+Phase|Scientific communication
J|0627|Lossovsky,E.K.|Deep seismic frequency sounding as a method of studying dissipative features of the Earth's crust and upper mantle|In Russian with English abstract|#GFZ:16:6:1994:10-17|Layered medium+Ukrainian Shield+Reflexion+Deep seismic sounding
J|0628|Somov,V.I.|Problem of recent vertical and horizontal crustal movements in the Carpato-Dinarian region and their association with seismicity|In Russian with English abstract|#GFZ:16:6:1994:28-35|Geodetic measurement+Deformation+Balkans+Seismicity
J|0629|Ivanov,Yu.B.+Nasonkin,V.A.+Nesterov,V.V.+|Lithospheric deformation initiated by Black Sea seiches|In Russian with English abstract|#GFZ:16:6:1994:53-60|Deformation+Black Sea+Precursor+Seiche
J|0630|Goldin,S.V.|Superposition and continuation of transformations used in seismic migration|In Russian with English abstract|#GGS:35:9:1994:131-145|Migration+Transformation+Dip moveout+Seismic processing
J|0631|Fomel,S.B.|Kinetically equivalent differential operator for offset continuation of reflected wave seismograms|In Russian with English abstract|#GGS:35:9:1994:146-160|Offset+Dip moveout+Seismic processing+Operator
J|0632|Rasskazov,S.V.|Comparison of volcanism and Late Cenozoic structures of hotspots in Yellowstone and eastern Sayan|In Russian with English abstract|#GGS:35:10:1994:67-75|Sayan+Yellowstone+Faulting+Volcanism
J|0633|Pavlov,O.V.+Chernykh,E.I.+Tabulevich,V.N.|Estimates of the areas of weak seismicity where important objects are to be constructed (by example of northeastern Russia)|In Russian with English abstract|#GGS:35:10:1994:116-122|Seismicity+Northeast Asia+Hazard
J|0634|Golenetskii,S.I.+Ruzhich,V.V.+Drennova,G.F.|Earthquake of May 12(13), 1991, in the vicinity of Babushkin town and seismicity of south Baikal|In Russian with English abstract|#GGS:35:10:1994:124-132|Earthquake+1991+Baikal+Focal mechanism||#*BAIKAL91
J|0635|Solonenko,N.V.+Mel'nikova,V.I.|Mechanisms of the 1981-1990 earthquake foci in the Baikal rift zone|In Russian with English abstract|#GGS:35:11:1994:99-107|Baikalian Rift+Earthquake+Focal mechanism+1981-1990
J|0636|Diakonova,A.G.+Druzhinin,V.S.+Tiunova,A.M.+|The characteristics of the Urals Earth's crust dislocations according to electromagnetic and seismic data|In Russian with English abstract|#GGS:35:11:1994:118-125|Urals+Magnetotellurics+Deep seismic sounding+Dislocation
J|0637|Suvorov,V.D.+Yurin,Yu.A.+Parasotka,B.S.|Structure of the lower Earth's crust and upper mantle of the western part of the Yakutian diamondiferous province|In Russian with English abstract|#GGS:35:11:1994:126-133|Deep seismic sounding+Yakutiya+Crustal structure+Upper mantle
J|0638|Odintsev,V.N.|Scale effect in tensile crack growth in compressed rock|In Russian with English abstract|#GGS:35:12:1994:123-130|Rupture length+Crack+Rock mechanics
J|0639|Mashinsky,E.I.+Kochegarov,G.G.+Koksharov,V.Z.+|Experimental studies of quasimicroplasticity of rocks under compression strain|In Russian with English abstract|#GGS:35:12:1994:131-137|Rock mechanics+Plasticity+Laboratory+Seismics
J|0640|Chipizubov,A.V.|Reconstruction of seismic evolution on the Earth over the past 4 centuries|In Russian with English abstract|#GGS:35:12:1994:138-150|Historical earthquake+Global seismicity+1600-1896+Periodicity
J|0641|Chen,C-C.+Shin,T-C.|Split S waveforms observed in northern Taiwan: implications for crustal anisotropy||#GRL:21:14:1994:1491-1494|Taiwan+Anisotropy+Crust+Shear wave splitting
J|0642|Estabrook,C.H.+Bock,G.+Kind,R.|Investigation of mantle discontinuities from a single deep earthquake||#GRL:21:14:1994:1495-1498|Deep earthquake+Mantle+Discontinuity+Converted wave||#*HONSHU93
J|0643|Fujisawa,H.+Ito,E.+Ohtaka,O.+|Elastic wave velocities of high density pressure-induced amorphous GeO2||#GRL:21:14:1994:1499-1502|Elastic wave+Velocity+Quartz+Laboratory
J|0644|Feustel,A.J.+Young,R.P.|Qbeta estimates from spectral ratios and multiple lapse time window analysis: results from an underground research laboratory in granite||#GRL:21:14:1994:1503-1506|Q+Spectral ratio+Granite+Underground site
J|0645|Williams,S.D.P.+Svarc,J.L.+Lisowski,M.+|GPS measured rates of deformation in the northern San Francisco Bay region, California, 1990-1993||#GRL:21:14:1994:1511-1514|Global Positioning System+San Francisco Bay+1990-1993+Deformation
J|0646|Sandvol,E.A.+Ni,J.F.+Hearn,T.M.+|Seismic azimuthal anisotropy beneath the Pakistan Himalayas||#GRL:21:15:1994:1635-1638|Himalayas+Anisotropy+Azimuth+Shear wave splitting
J|0647|Abercrombie,R.E.+Brune,J.N.|Evidence for a constant b-value above magnitude 0 in the southern San Andreas, San Jacinto and San Miguel fault zones, and at the Long Valley caldera, California||#GRL:21:15:1994:1647-1650|b-Value+California+Fault zone+Microseismicity
J|0648|Cummins,P.R.+Geller,R.J.+Takeuchi,N.|DSM complete synthetic seismograms: P-SV, spherically symmetric, case||#GRL:21:15:1994:1663-1666|Synthetic seismogram+P-SV wave+Broadband seismology+Wave field
J|0649|Sipkin,S.A.|Rapid determination of global moment-tensor solutions||#GRL:21:16:1994:1667-1670|Seismic moment tensor+P-wave+IRIS+Data analysis||#*KERMADEC93
J|0650|Vinnik,L.P.+Romanowicz,B.+Breger,L.|Anisotropy in the center of the inner core||#GRL:21:16:1994:1671-1674|GEOSCOPE+Inner core+Anisotropy+PKP-wave+ISC
J|0651|Gorbatov,A.+Suarez,G.+Kostoglodov,V.|A double-planed seismic zone in Kamchatka from local and teleseismic data||#GRL:21:16:1994:1675-1678|Kamchatka+Seismic zone+Plane+Wadati-Benioff zone
J|0652|Pitt,A.M.+Hill,D.P.|Long-period earthquakes in the Long Valley caldera region, eastern California||#GRL:21:16:1994:1679-1682|Long-period event+California+Earthquake+Volcanism
J|0653|Leary,P.C.+Abercrombie,R.E.|Fractal fracture scattering origin of S-wave coda: spectral evidence from recordings at 2.5 Km||#GRL:21:16:1994:1683-1686|S-wave+Coda+Well-log+Origin
J|0654|Hadjicontis,V.+Mavromatou,C.|Transient electric signals prior to rock failure under uniaxial compression||#GRL:21:16:1994:1687-1690|Precursor+Electric field+Rock+Laboratory
J|0655|Waschbusch,P.J.+McNutt,M.K.|Yellowstone: a continental midplate (hot spot) swell||#GRL:21:16:1994:1703-1706|Yellowstone+Low velocity+Anomaly+Hot spot
J|0656|Yomogida,K.+Nakata,T.|Large slip velocity of the surface rupture associated with the 1990 Luzon earthquake||#GRL:21:17:1994:1799-1802|Luzon+Earthquake+1990+Fault-slip
J|0657|Jones,A.G.+Bailey,R.C.+Mareschal,M.|High-resolution electromagnetic images of conducting zones in an upthrust crustal block||#GRL:21:17:1994:1807-1810|High resolution+Dipping reflector+Kapuskasing+Conductivity
J|0658|Yamazaki,A.+Hirahara,K.|The thickness of upper mantle discontinuities, as inferred from short-period J-Array data||#GRL:21:17:1994:1811-1814|Discontinuity+Upper mantle+Thickness+Slant stack
J|0659|Wessel,P.+Bercovici,D.+Kroenke,L.W.|The possible reflection of mantle discontinuities in Pacific geoid and bathymetry||#GRL:21:18:1994:1943-1946|Geoid+Discontinuity+Pacific plate+Mantle
J|0660|Shoberg,T.+Bina,C.R.|Some effects of anisotropy on velocity contrasts between subducting lithosphere and overriding mantle||#GRL:21:18:1994:1951-1954|Anisotropy+Velocity+Subduction zone+Lithosphere
J|0661|Albarello,D.+Martinelli,G.|Piezometric levels as possible geodynamic indicators: analysis of the data from a regional deep waters monitoring network in Northern Italy||#GRL:21:18:1994:1955-1958|Northern Italy+Geodynamics+Water level+Seismicity
J|0662|Vergniolle,S.+Brandeis,G.|Origin of the sound generated by Strombolian explosions||#GRL:21:18:1994:1959-1962|Explosion+Stromboli Volcano+Sound+Gas bubble
J|0663|Kawakatsu,H.+Ohminato,T.+Ito,H.|10s-period volcanic tremors observed over a wide area in southwestern Japan||#GRL:21:18:1994:1963-1966|Japan+Volcanic tremor+Long-period wave
J|0664|Menke,W.+Levin,V.|Cold crust in a hot spot||#GRL:21:18:1994:1967-1970|Shear wave+Iceland+Temperature+Crust
J|0665|Pinar,A.+Honkura,Y.+Kikuchi,M.|Rupture process of the 1992 Erzincan earthquake and its implication for seismotectonics in eastern Turkey||#GRL:21:18:1994:1971-1974|Turkey+Earthquake+1992+Source-time function||#*ERZINCAN92
J|0666|Kim,H.J.+Park,C.H.+Hong,J.K.+|A seismic experiment in the Ulleung basin (Tsushima basin), southwestern Japan Sea (east Sea of Korea)||#GRL:21:18:1994:1975-1978|Ocean-bottom seismometer+Crustal structure+Japan Sea+Marine seismic investigation
J|0667|Smith,D.E.+Kolenkiewicz,R.+Robbins,J.W.+|Horizontal crustal motion in the central and eastern Mediterranean inferred from satellite laser ranging measurements||#GRL:21:18:1994:1979-1982|Crustal movement+Mediterranean+Satellite laser ranging+Seismicity
J|0668|Shaw,B.E.|Complexity in a spatially uniform continuum fault model||#GRL:21:18:1994:1983-1986|Complexity+Model+Fault-slip+Seismic process
J|0669|Beeler,N.M.+Tullis,T.E.+Weeks,J.D.|The roles of time and displacement in the evolution effect in rock friction||#GRL:21:18:1994:1987-1990|Rock+Friction+Laboratory+Slip
J|0670|James,T.S.+Bent,A.L.|A comparison of eastern North American seismic strain-rates to glacial rebound strain-rates||#GRL:21:19:1994:2127-2130|Eastern North America+Strain+Rebound+Ice sheets
J|0671|Tregoning,P.+Brunner,F.K.+Bock,Y.+|First geodetic measurement of convergence across the Java Trench||#GRL:21:19:1994:2135-2138|Java+Geodetic measurement+Plate motion+Subduction||#*JAVA94
J|0672|Prevot,R.+Chatelain,J-L.+Roecker,S.W.+|A shallow double seismic zone beneath the central New Hebrides (Vanuatu): evidence for fragmentation and accretion of the descending plate?||#GRL:21:19:1994:2159-2162|New Hebrides+Seismic zone+Plate boundary+Wadati-Benioff zone+ISC
J|0673|Rohr,K.M.M.|Increase of seismic velocities in upper oceanic crust and hydrothermal circulation in the Juan de Fuca plate||#GRL:21:19:1994:2163-2166|Juan de Fuca+Oceanic crust+Velocity+Reflexion study
J|0674|Helffrich,G.+Sacks,I.S.|Scatter and bias in differential PKP travel times and implications for mantle and core phenomena||#GRL:21:19:1994:2167-2170|Differential travel-times+PKP-wave+Scattering+Slab+ISC||#*NISLAND85B
J|0675|Hearn,T.M.+Rosca,A.C.+Fehler,M.C.|Pn tomography beneath the Southern Great Basin||#GRL:21:20:1994:2187-2190|Tomography+Pn-wave+Great Basin+Mohorovicic discontinuity
J|0676|Fraser-Smith,A.C.+McGill,P.R.+Helliwell,R.A.+|Ultra-low frequency magnetic field measurements in southern California during the Northridge earthquake of 17 January 1994||#GRL:21:20:1994:2195-2198|Southern California+Magnetic field+Earthquake+1994||#*NORTHRIDGE94
J|0677|Keiswetter,D.+Steeples,D.W.|Practical modifications to improve the sledgehammer seismic source||#GRL:21:20:1994:2203-2206|Reflexion study+Vibrator+Source+Plate
J|0678|Rydelek,P.A.+Pollitz,F.F.|Fossil strain from the 1811-1812 New Madrid earthquakes||#GRL:21:21:1994:2303-2306|New Madrid+Great earthquake+1811-1812+Rheology
J|0679|Goldberg,D.+Yin,C-S.|Attenuation of P-waves in oceanic crust: multiple scattering from observed heterogeneities||#GRL:21:21:1994:2311-2314|Attenuation+P-wave+Oceanic crust+Multiple scattering
J|0680|Chapman,N.R.+Hannay,D.E.|Seismic velocities of upper oceanic crust||#GRL:21:21:1994:2315-2318|Oceanic crust+Velocity+Reflexion coefficient+Marine seismic investigation
J|0681|Beaudoin,B.C.+Magee,M.+Benz,H.M.|Crustal velocity structure north of the Mendocino triple junction||#GRL:21:21:1994:2319-2322|Triple junction+Velocity structure+Northern California+Refraction study
J|0682|Sharma,M.M.+Tutuncu,A.N.|Grain contact adhesion hysteresis: a mechanism for attenuation of seismic waves||#GRL:21:21:1994:2323-2326|Attenuation+Mechanism+Granular medium+Asperity
J|0683|McCaffrey,R.|Dependence of earthquake size distributions on convergence rates at subduction zones||#GRL:21:21:1994:2327-2330|Subduction zone+Convergence+Size+Recurrence
J|0684|Sverdrup,K.A.+Schurter,G.J.+Cronin,V.S.|Relocation analysis of earthquakes near Nanga Parbat-Haramosh Massif, northwest Himalaya, Pakistan||#GRL:21:21:1994:2331-2334|Location+Himalayas+Cluster+Seismicity+ISC||#*KASHMIR92
J|0685|Kikuchi,M.+Kanamori,H.|The mechanism of the deep Bolivia earthquake of June 9, 1994||#GRL:21:22:1994:2341-2344|Bolivia+Deep-focus earthquake+1994+Mechanism||#*BOLIVIA94
J|0686|Scotti,O.+Cornet,F.H.|In-situ stress fields and focal mechanism solutions in central France||#GRL:21:22:1994:2345-2348|France+Focal mechanism+Stress field+Slip
J|0687|Lockner,D.A.+Byerlee,J.D.|Dilatancy in hydraulically isolated faults and their suppression of instability||#GRL:21:22:1994:2353-2356|Dilatancy+Fault+Laboratory+Pore pressure
J|0688|Satake,K.|Mechanism of the 1992 Nicaragua tsunami earthquake||#GRL:21:23:1994:2519-2522|Nicaragua+Earthquake+1992+Tsunami||#*NICARAGUA92
J|0689|Bodin,P.|3D geometry of the strain-field at transform plate boundaries: implications for seismic rupture||#GRL:21:23:1994:2523-2526|Plate boundary+Rupture+Shear strain+Slip
J|0690|Weber,M.|Lamellae in D" ? An alternative model for lower mantle anomalies||#GRL:21:23:1994:2531-2534|D" region+Lower mantle+Anomaly+Modelling
J|0691|Helffrich,G.+Bina,C.R.|Frequency dependence of the visibility and depths of mantle seismic discontinuities||#GRL:21:24:1994:2613-2616|Mantle+Discontinuity+Frequency+Phase transformation
J|0692|Lomax,A.+Snieder,R.|Finding sets of acceptable solutions with a genetic algorithm with application to surface wave group dispersion in Europe||#GRL:21:24:1994:2617-2620|Genetic algorithm+Surface wave+Europe+Group velocity
J|0693|Herquel,G.+Wittlinger,G.|Anisotropy at the Lacq hydrocarbon field (France) from shear-wave splitting||#GRL:21:24:1994:2621-2624|Anisotropy+Lacq oilfield+Shear wave splitting+Polarization
J|0694|Wen,K-L.+Beresnev,I.A.+Yeh,Y.T.|Nonlinear soil amplification inferred from downhole strong seismic motion data||#GRL:21:24:1994:2625-2628|Strong motion+Amplification+Down-hole recording+Nonlinearity
J|0695|Velasco,A.A.+Ammon,C.J.+Lay,T.+|Imaging a slow bilateral rupture with broadband seismic waves: the September 2, 1992 Nicaragua tsunami earthquake||#GRL:21:24:1994:2629-2632|Nicaragua+Earthquake+1992+Tsunami||#*NICARAGUA92
J|0696|Dreger,D.S.|Empirical Green's function study of the January 17, 1994 Northridge, California earthquake||#GRL:21:24:1994:2633-2636|California+Earthquake+1994+Green's function||#*NORTHRIDGE94
J|0697|Marrett,R.|Scaling of intraplate earthquake recurrence interval with fault length and implications for seismic hazard assessment||#GRL:21:24:1994:2637-2640|Intraplate earthquake+Scaling+Recurrence+Fault length
J|0698|Yin,J.M.+Cornet,F.H.|Integrated stress determination by joint inversion of hydraulic tests and focal mechanisms||#GRL:21:24:1994:2645-2648|Focal mechanism+Stress+Inversion+Monte Carlo method
J|0699|Jackson,J.A.+Haines,A.J.+Holt,W.E.|A comparison of satellite laser ranging and seismicity data in the Aegean region||#GRL:21:25:1994:2849-2852|AEgean+Satellite laser ranging+Seismicity+Strain
J|0700|Hoshiba,M.|Simulation of coda wave envelope in depth dependent scattering and absorption structure||#GRL:21:25:1994:2853-2856|Simulation+Coda wave+Q+Structure
J|0701|Painter,S.+Paterson,L.|Fractional Levy motion as a model for spatial variability in sedimentary rock||#GRL:21:25:1994:2857-2860|Sedimentary rock+Well-log+Physical properties+Heterogeneity
J|0702|Takei,Y.+Kumazawa,M.|Why have the single force and torque been excluded from seismic source models?||#GJI:118:1:1994:20-30|Force+Focal mechanism+Non-double couple+Seismic process
J|0703|Campos,J.+Madariaga,R.+Nabelek,J.+|Faulting process of the 1990 June 20 Iran earthquake from broad-band records||#GJI:118:1:1994:31-46|Iran+Earthquake+1990+Focal mechanism||#*MANJIL90
J|0704|Gibson,R.L.+Campillo,M.|Numerical simulation of high- and low-frequency Lg-wave propagation||#GJI:118:1:1994:47-56|Lg-wave+Synthetic seismogram+Ray tracing+Boundary integral method
J|0705|Weber,M.|Traveltime and amplitude anomalies at the seismic broad-band array GRF||#GJI:118:1:1994:57-74|Array+Anomaly+Site effect+Residual
J|0706|Frazer,L.N.|A pulse in a binary sediment||#GJI:118:1:1994:75-93|Sediment+Pulse+Layered medium+Multiple reflexion
J|0707|Priestley,K.F.+Baker,C.+Jackson,J.A.|Implications of earthquake focal mechanism data for the active tectonics of the south Caspian Basin and surrounding regions||#GJI:118:1:1994:111-114|Focal mechanism+Tectonics+Caspian Sea+Earthquake+ISC||#*SIAHBIL|#*CASPIANSEA86|#*MANJIL90
J|0708|Saikia,C.K.|Modified frequency-wavenumber algorithm for regional seismograms using Filon's quadrature: modelling of Lg waves in eastern North America||#GJI:118:1:1994:142-158|Lg-wave+Frequency-wavenumber analysis+Eastern North America+Seismogram||#*SAGUENAY88|#*NEWBRUNSWICK2
J|0709|Collier,J.S.+Buhl,P.+Torne,M.+|Moho and lower crustal reflectivity beneath a young rift basin: results from a two-ship, wide-aperture seismic-reflection experiment in the Valencia Trough (western Mediterranean)||#GJI:118:1:1994:159-180|Valencia Trough+Lower crust+Mohorovicic discontinuity+Marine seismic investigation
J|0710|Ma,X.Q.+Kusznir,N.J.|Effects of rigidity layering, gravity and stress relaxation on 3-D subsurface fault displacement fields||#GJI:118:1:1994:201-220|Subsurface+Layered medium+Dislocation+Theory
J|0711|Astrom,K.+Lund,C-E.|Thin superficial layer and lateral heterogeneities in southern Sweden using short-period Rayleigh-wave dispersion||#GJI:118:1:1994:231-244|Thin layer+Lateral heterogeneity+Rayleigh wave+Baltic Shield
J|0712|Randall,G.E.|Efficient calculation of complete differential seismograms for laterally homogeneous Earth models||#GJI:118:1:1994:245-254|Earth model+Synthetic seismogram+Homogeneous medium+Waveform
J|0713|Chadwick,P.+Hudson,J.A.|Preface to special issue containing papers reflecting the influence of Robert Stoneley||#GJI:118:2:1994:273|Introduction+Stoneley wave
J|0714|Chadwick,P.+Borejko,P.|Existence and uniqueness of Stoneley waves||#GJI:118:2:1994:279-284|Stoneley wave+Interface+Matrix+Wave equation
J|0715|Huang,W.+Rokhlin,S.I.|Elastic-wave scattering and Stoneley wave localization by anisotropic imperfect interfaces between solids||#GJI:118:2:1994:285-304|Stoneley wave+Interface+Scattering+Boundary condition
J|0716|Maugin,G.A.+Chevalier,Y.+Louzar,M.|Interfacial waves in the presence of areas of slip||#GJI:118:2:1994:305-316|Slip+Interface+SH-wave+Stoneley wave
J|0717|Maradudin,A.A.+Zierau,W.|Surface acoustic waves of sagittal and shear-horizontal polarizations on large-amplitude gratings||#GJI:118:2:1994:325-332|Surface wave+Acoustic wave+Polarization+Dispersion
J|0718|Van Heijst,H.J.+Snieder,R.+Nowack,R.|Resolving a low-velocity zone with surface-wave data||#GJI:118:2:1994:333-343|Surface wave+Low-velocity layer+Inverse problem+Model
J|0719|Kennett,B.L.N.|Representations of the seismic wavefield||#GJI:118:2:1994:344-357|Wave field+Seismic waves+Propagation+Mathematical analysis
J|0720|Farnell,G.W.|Acoustic reflection calculation using transfer matrices||#GJI:118:2:1994:358-368|Reflexion+Layered medium+Matrix+Acoustic wave
J|0721|Priestley,K.F.+Cipar,J.J.+Egorkin,A.V.+|Upper-mantle velocity structure beneath the Siberian platform||#GJI:118:2:1994:369-378|Upper mantle+Velocity structure+Siberian platform+Deep seismic sounding
J|0722|Babich,V.M.|Ray method of calculating the intensity of wavefronts in the case of a heterogeneous, anisotropic, elastic medium||#GJI:118:2:1994:379-383|Wavefront+Anisotropic medium+Ray+Mathematical analysis
J|0723|Wang,C-Y.+Achenbach,J.D.|Elastodynamic fundamental solutions for anisotropic solids||#GJI:118:2:1994:384-392|Green's function+Anisotropic medium+Radon transform+Mathematical analysis
J|0724|Kiselev,A.P.|Body waves in a weakly anisotropic medium - I. Plane waves||#GJI:118:2:1994:393-400|Body wave+Anisotropic medium+Plane wave+Perturbation theory
J|0725|Bostrom,A.+Johansson,M.+Svedberg,T.|Elastic wave propagation in a radially anisotropic medium||#GJI:118:2:1994:401-410|Anisotropic medium+Shear wave+Propagation+Point source
J|0726|Singh,S.J.+Punia,M.+Rani,S.|Crustal deformation due to non-uniform slip along a long fault||#GJI:118:2:1994:411-427|Crustal deformation+Slip+Fault+Half-space
J|0727|Crampin,S.|The fracture criticality of crustal rocks||#GJI:118:2:1994:428-438|Fracture+Rock+Shear wave splitting+Anisotropy
J|0728|Norris,A.N.+Sinha,B.K.+Kostek,S.|Acoustoelasticity of solid/fluid composite systems||#GJI:118:2:1994:439-446|Elasticity+Tube wave+Fluid+Interface
J|0729|Boulanger,Ph.+Hayes,M.+Trimarco,C.|Finite-amplitude plane waves in deformed Hadamard elastic materials||#GJI:118:2:1994:447-458|Plane wave+Elastic medium+Deformation+Mathematical analysis
J|0730|Green,W.A.+Green,E.R.|Wave propagation in polar elastic superlattices||#GJI:118:2:1994:459-465|Lattice+Propagation+Layered medium+Mathematical analysis
J|0731|Avdeev,D.B.+Dubrovsky,V.G.+Fainberg,E.B.+|Deep electromagnetic sounding in Turkmenia||#GJI:118:3:1994:467-484|Low-velocity layer+Magnetotellurics+Anomaly+Turkmeniya
J|0732|Singh,D.D.|Shear-wave velocity and attenuation structure beneath Antarctica determined from surface waves||#GJI:118:3:1994:515-528|Antarctica+Velocity structure+Attenuation+Shear wave+ISC
J|0733|Nakada,M.|Convective coupling between ductile lower crust and upper mantle, and its tectonic implications||#GJI:118:3:1994:579-603|Tectonics+Lower crust+Upper mantle+Convection
J|0734|Okamoto,T.|Teleseismic synthetics obtained from 3-D calculations in 2-D media||#GJI:118:3:1994:613-622|Teleseism+Lateral heterogeneity+Kuril Trench+Synthetic seismogram
J|0735|Hestholm,S.O.+Husebye,E.S.+Ruud,B.O.|Seismic wave propagation in complex crust-upper mantle media using 2-D finite-difference synthetics||#GJI:118:3:1994:643-670|Synthetic seismogram+Propagation+Lithosphere+Finite difference method
J|0736|Billings,S.D.|Simulated annealing for earthquake location||#GJI:118:3:1994:680-692|Location+Algorithm+Hypocentre+Simulated annealing||#*KAZAKHSTAN72|#*NEWCASTLE89|#*HONSHU91
J|0737|Billings,S.D.+Kennett,B.L.N.+Sambridge,M.S.|Hypocentre location: genetic algorithms incorporating problem-specific information||#GJI:118:3:1994:693-706|Genetic algorithm+Hypocentre+Location||#*KAZAKHSTAN72|#*NEWCASTLE89|#*HONSHU91
J|0738|Lei,H.+Nobes,D.C.|Resistivity structure of the underconsolidated sediments of the Cascadia Basin||#GJI:118:3:1994:717-729|Resistivity+Sediment+Cascadia Basin+Profile
J|0739|Pollitz,F.F.|Global tomography from Rayleigh and Love wave dispersion: effect of ray-path bending||#GJI:118:3:1994:730-758|Ray theory+Tomography+Surface wave+Phase velocity
J|0740|Rumpker,G.+Thomson,C.J.|Seismic-waveform effects of conical points in gradually varying anisotropic media||#GJI:118:3:1994:759-780|Anisotropic medium+Waveform+T-wave+Slowness
J|0741|Zelt,C.A.|3-D velocity structure from simultaneous traveltime inversion of in-line seismic data along intersecting profiles||#GJI:118:3:1994:795-801|Velocity structure+Profile+Intersection+Seismic survey|Research note
J|0742|Ikelle,L.T.+Yung,S.K.|An example of lateral-inhomogeneity effects on seismic traveltimes in a zero-offset VSP experiment||#GJI:118:3:1994:802-807|Vertical seismic profiling+Lateral inhomogeneity+Zero offset+Travel-times|Research note
J|0743|Tozer,D.C.|Review of `Flow and creep in the solar system: observation, "modeling" and theory' edited by D. B. Stone and S. K. Runcorn||#GJI:118:3:1994:816|Review+Earth sciences|Kluwer Academic Publishers, Dordrecht, 1993, 520p
J|0744|Horsefield,S.J.+Whitmarsh,R.B.+White,R.S.+|Crustal structure of the Goban Spur rifted continental margin, NE Atlantic||#GJI:119:1:1994:1-19|Crustal structure+North Atlantic+Continental margin+Marine geophysical investigation
J|0745|Smythe,D.K.|Geophysical evidence for ultrawide dykes of the late carboniferous quartz-dolerite swarm of northern Britain||#GJI:119:1:1994:20-30|Britain+Reflexion study+Aeromagnetic study+Dyke
J|0746|Scherbaum,F.|Modelling the Roermond earthquake of 1992 April 13 by stochastic simulation of its high-frequency strong ground motion||#GJI:119:1:1994:31-43|Modelling+Earthquake+1992+Netherlands||#*ROERMOND92
J|0747|Zhu,T.+Chun,K-Y.|Understanding finite-frequency wave phenomena: phase-ray formulation and inhomogeneity scattering||#GJI:119:1:1994:78-90|Inhomogeneous medium+Scattering+Ray+Caustic
J|0748|Hedlin,M.A.H.+Minster,J.B.+Orcutt,J.A.|Resolution of prominent crustal scatterers near the NORESS small-aperture array||#GJI:119:1:1994:101-115|NORESS+Scattering+Crust+Imaging||#*KAZAKHSTAN84B|#*MADAGASCAR85A
J|0749|Jouanne,F.+Menard,G.+Jault,D.|Present-day deformation of the French northwestern Alps/southern Jura mountains: comparison between historical triangulations||#GJI:119:1:1994:151-165|French Alps+Geodetic survey+Deformation+Seismicity
J|0750|Farra,V.+Vinnik,L.P.|Shear-wave splitting in the mantle of the Pacific||#GJI:119:1:1994:195-218|Oceanic mantle+Pacific+Shear wave splitting
J|0751|Liakopoulou-Morris,F.+Main,I.G.+Crawford,B.R.+|Microseismic properties of a homogeneous sandstone during fault nucleation and frictional sliding||#GJI:119:1:1994:219-230|b-Value+Microseismicity+Sandstone+Nucleation
J|0752|Dong,W.+Schmitt,D.P.|Simplified dynamic and static Green's functions in transversely isotropic media||#GJI:119:1:1994:231-242|Green's function+Transversely isotropic medium+Mathematical analysis+Boundary element method
J|0753|Levander,A.R.+England,R.W.+Smith,S.K.+|Stochastic characterization and seismic response of upper and middle crustal rocks based on the Lewisian gneiss complex, Scotland||#GJI:119:1:1994:243-259|Scotland+Crust+Stochastic method+Synthetic seismogram
J|0754|Rietbrock,A.+Scherbaum,F.|Acoustic imaging of earthquake sources from the Chalfant Valley, 1986, aftershock series||#GJI:119:1:1994:260-268|Acoustic imaging+1986+California+Aftershock||#*CHALFANT
J|0755|Zhu,T.+Chun,K-Y.|Complex rays in elastic and anelastic media||#GJI:119:1:1994:269-276|Complex ray+Ray tracing+Anelasticity+Asymptotic ray theory
J|0756|Gudmundsson,O.+Brandsdottir,B.+Menke,W.+|The crustal magma chamber of the Katla volcano in south Iceland revealed by 2-D seismic undershooting||#GJI:119:1:1994:277-296|Iceland+Volcano+Magma chamber+Refraction study
J|0757|Carcione,J.M.+Cavallini,F.|A rheological model for anelastic anisotropic media with applications to seismic wave propagation||#GJI:119:1:1994:338-348|Anisotropic medium+Propagation+Rheology+Viscoelasticity
J|0758|Wang,Z.+Dahlen,F.A.|JWKB surface-wave seismograms on a laterally heterogeneous Earth||#GJI:119:2:1994:381-401|Surface wave+Anomaly+Lateral heterogeneity+Perturbation theory
J|0759|Plenefisch,T.+Faber,S.+Bonjer,K-P.|Investigations of Sn and Pn phases in the area of the upper Rhine Graben and northern Switzerland||#GJI:119:2:1994:402-420|Rhine-Graben+Sn-wave+Pn-wave+Switzerland
J|0760|Bock,G.|Multiples as precursors to S, SKS and ScS||#GJI:119:2:1994:421-427|Multiple wave+Synthetic seismogram+Converted wave+Phase
J|0761|McBride,J.H.+White,R.S.+Henstock,T.J.+|Complex structure along a Mesozoic sea-floor spreading ridge: BIRPS deep seismic reflection, Cape Verde abyssal plain||#GJI:119:2:1994:453-478|Cape Verde+BIRPS+Deep seismic sounding+Dipping reflector
J|0762|Pavlov,V.M.|On non-uniqueness of the inverse problem for a seismic source - I. Treatment in terms of equivalent force||#GJI:119:2:1994:479-486|Inverse problem+Source+Uniqueness+Force
J|0763|Pavlov,V.M.|On non-uniqueness of the inverse problem for a seismic source - II. Treatment in terms of polynomial moments||#GJI:119:2:1994:487-496|Inverse problem+Source+Uniqueness+Moment
J|0764|Holliger,K.+Levander,A.R.|Seismic structure of gneissic/granitic upper crust: geological and petrophysical evidence from the Strona-Ceneri Zone (northern Italy) and implications for crustal seismic exploration||#GJI:119:2:1994:497-510|Upper crust+Northern Italy+Imaging+Stochastic model
J|0765|Boztepe,E.A.+Braile,L.W.|Kinematic inversion for the 2-D horizontal and vertical qP-wave velocities and depths to interfaces applied to the TACT seismic profile, southern Alaska||#GJI:119:2:1994:529-547|qP-wave+Interface+Profile+Alaska
J|0766|Helffrich,G.+Silver,P.G.+Given,H.|Shear-wave splitting variation over short spatial scales in continents||#GJI:119:2:1994:561-573|Shear wave splitting+IRIS+Continent+Anisotropy
J|0767|Beckers,J.+Schwartz,S.Y.+Lay,T.|The velocity structure of the crust and upper mantle under China from broad-band P and PP waveform analysis||#GJI:119:2:1994:574-594|Velocity structure+China+Crust+Upper mantle
J|0768|Scott,J.S.+Masters,T.G.+Vernon,F.L.|3-D velocity structure of the San Jacinto fault zone near Anza, California - I. P waves||#GJI:119:2:1994:611-626|Velocity structure+P-wave+California+Modelling
J|0769|Watts,A.B.|Crustal structure, gravity anomalies and flexure of the lithosphere in the vicinity of the Canary Islands||#GJI:119:2:1994:648-666|Canary Islands+Crustal structure+Lithosphere+Flexure
J|0770|Eaton,D.W.S.+Stewart,R.R.|Migration/inversion for transversely isotropic elastic media||#GJI:119:2:1994:667-683|Migration+Inversion+Transversely isotropic medium+Anisotropy
J|0771|Berryman,J.G.|Constraints on minimum velocity variance for seismic-traveltime tomography||#GJI:119:3:1994:689-692|Travel-times+Tomography+Constraint+Velocity
J|0772|Bloor,R.I.+Whaler,K.A.|The generation of near-surface-layer models from seismic reflection traveltimes||#GJI:119:3:1994:693-705|Travel-times+Reflexion data+Static correction+Subsurface
J|0773|Broberg,K.B.|Intersonic bilateral slip||#GJI:119:3:1994:706-714|Rock mechanics+Slip+Crack
J|0774|Aleksandrov,K.S.+Prodayvoda,G.T.|The study of elastic symmetry and anisotropy of elastic body waves in gneiss||#GJI:119:3:1994:715-728|Body wave+Anisotropy+Symmetry+Rock
J|0775|Tura,M.A.C.|On the linearized SH-wave inverse problem of a transversely isotropic elastic medium||#GJI:119:3:1994:729-739|Transversely isotropic medium+Inverse problem+SH-wave+Wavenumber domain
J|0776|Jiang,J.+Baird,G.R.+Blair,D.P.|Dynamic response of a half-space to a buried spherical source||#GJI:119:3:1994:753-765|Half-space+Dynamic response+Source+Surface
J|0777|Huang,L-J.+Mora,P.|The phononic lattice solid by interpolation for modelling P waves in heterogeneous media||#GJI:119:3:1994:766-778|Heterogeneous medium+Lattice+P-wave+Modelling
J|0778|Menke,W.+Brandsdottir,B.+Jakobsdottir,S.+|Seismic anisotropy in the crust at the mid-Atlantic plate boundary in south-west Iceland||#GJI:119:3:1994:783-790|Anisotropy+Crust+Mid-Atlantic Ridge+Iceland
J|0779|Iwasaki,T.+Sellevoll,M.A.+Kanazawa,T.+|Seismic refraction crustal study along the Sognefjord, south-west Norway, employing ocean-bottom seismometers||#GJI:119:3:1994:791-808|Refraction study+Norway+Ocean-bottom seismometer+Velocity structure
J|0780|Vasco,D.W.|Singularity and branching: a path-following formalism for geophysical inverse problems||#GJI:119:3:1994:809-841|Inverse problem+Tomography+Travel-times+Borehole
J|0781|Cohen,S.C.|Evaluation of the importance of model features for cyclic deformation due to dip-slip faulting||#GJI:119:3:1994:831-841|Deformation+Earthquake cycle+Dip-slip+Model
J|0782|Evans,R.L.|Constraints on the large-scale porosity and permeability structure of young oceanic crust from velocity and resistivity data||#GJI:119:3:1994:869-879|Oceanic crust+East Pacific Rise+Geophysical data+Structure
J|0783|DeMets,C.+Gordon,R.G.+Vogt,P.|Location of the Africa-Australia-India triple junction and motion between the Australian and Indian plates: results from an aeromagnetic investigation of the Central Indian and Carlsberg ridges||#GJI:119:3:1994:893-930|Triple junction+Plate motion+Aeromagnetic study+Indian Ocean+Focal mechanism
J|0784|Friederich,W.+Wielandt,E.+Stange,S.|Non-plane geometries of the seismic surface wavefields and their implications for regional surface-wave tomography||#GJI:119:3:1994:931-948|Surface wave+Tomography+Wave field+Teleseism
J|0785|Silver,P.G.+Savage,M.K.|The interpretation of shear-wave splitting parameters in the presence of two anisotropic layers||#GJI:119:3:1994:949-963|Shear wave splitting+Layer+Anisotropy+San Andreas Fault
J|0786|Gaffet,S.+Massinon,B.+Plantet,J-L.+|Modelling local seismograms of French nuclear tests in Taourirt tan Afella massif, Hoggar, Algeria||#GJI:119:3:1994:964-974|Algeria+Test site+Numerical modelling+Nuclear explosion
J|0787|MacBeth,C.D.+Liu,E.|The problem of water-column multiples for processing converted S waves in marine VSP data||#GJI:119:3:1994:999-1004|Converted wave+Marine seismic investigation+Offset+Multiple reflexion|Research note
J|0788|Berdichevsky,M.N.|Role of geoelectric methods in hydrocarbon and deep structural investigations in Russia|With Hungarian abstract|#GPT:39:1:1994:3-33|Russia+Hydrocarbon+Magnetotellurics+Deep structure
J|0789|Perfil'ev,A.S.+Peyve,A.A.+Pushcharovskii,Yu.M.+|Romanche fracture zone: composition, peculiarities of evolution, geodynamics|In Russian with English abstract|#GTK:-:4:1994:3-14|Fracture zone+Atlantic+Geodynamics+Marine geophysical investigation
J|0790|Moskalenko,V.N.+Kogan,L.I.|Sedimentary cover peculiarities in the eastern part of Azores (Khosshu Basin)|In Russian with English abstract|#GTK:-:4:1994:63-72|Sedimentary cover+Azores+Continuous seismic profiling
J|0791|Leonov,Yu.G.|The lithosphere structure in reflected waves|In Russian|#GTK:-:4:1994:85-88|Lithosphere+Structure+Reflected wave|Review
J|0792|Nikonov,A.A.|Signs of the recent tectonic activity in south-Azov and Kertch faults (Crimea)|In Russian with English abstract|#GTK:-:5:1994:16-27|Tectonics+Crimea+Displacement+Fault
J|0793|Kogan,L.I.+Murzin,R.R.+Perfil'ev,A.S.|Structure of the Hatteras abyssal plain, western Atlantic (as indicated by seismic data)|In Russian with English abstract|#GTK:-:6:1994:23-41|Crustal structure+Atlantic+Profiling+Marine seismic investigation
J|0794|Pilipenko,A.I.|Structure of aseismic ridges in the Mascarene-Australian geotraverse area (Indian Ocean)|In Russian with English abstract|#GTK:-:6:1994:42-53|Indian Ocean+Aseismic ridge+Oceanic crust+Marine seismic investigation
J|0795|Sholokhov,V.V.+Nikonov,A.A.|On the modern structure of Mangishlak|In Russian with English abstract|#GTK:-:6:1994:64-77|Structure+Seismotectonics+Mangyshlak
J|0796||Stratford earthquake||Geoscientist:4:4:1994:3|Earthquake+United Kingdom+1994|Geonews
J|0797|Simpson,B.|Notable earthquakes March-April 1994||Geoscientist:4:4:1994:9|Earthquake+1994|Geonews
J|0798|Maguire,P.K.H.+Burton,P.W.+Hobbs,R.W.|Seismology in universities and institutes in the UK||Geoscientist:4:4:1994:10-13|United Kingdom+Seismology+BIRPS+KRISP
J|0799|Evans,R.+Lee,M.|Imaging the Earth's crust - geophysics at a regional scale||Geoscientist:4:4:1994:18-20|Imaging+Geophysical investigation+Seismics+Crust
J|0800|Gordon,M.A.+Stallebrass,S.E.|Measurement of stiffness of soils and rocks using dynamic methods||Geoscientist:4:6:1994:26-28|Soil+Rock+Stiffness+Seismics
J|0801|Afroun,N.|Source time function of small earthquakes using empirical Green's function method||#IDV:30:-:1994:1-11|Source-time function+Small earthquake+Green's function+Deconvolution
J|0802|Wang,Y-B.|Effect of velocity gradient on seismic motion in sedimentary basin due to incident SV-wave: analysis in the time domain||#IDV:30:-:1994:15-27|Sedimentary basin+Time domain+SV-wave+Velocity
J|0803|Shater,A.B.A.|Three-dimensional velocity structure beneath Aswan high dam lake by using Aswan seismic network||#IDV:30:-:1994:31-42|Velocity structure+P-wave+Egypt+Dam
J|0804|Suhardjono|Relocation of aftershocks of the 1992 Flores Island earthquake in Indonesia||#IDV:30:-:1994:45-60|Indonesia+1992+Aftershock+Location||#*FLORES92
J|0805|Maida,O.S.|Seismic macrozonation and hazard analysis for Malawi||#IDV:30:-:1994:79-91|Zonation+Hazard+Map+Malawi
J|0806|Rojas,J.O.|Analysis of the peculiar swarm of low frequency earthquakes detected at Colima volcano, Mexico||#IDV:30:-:1994:95-109|Colima+Volcano+Swarm+Cross correlation
J|0807|Bajracharya,R.B.|Preliminary seismic risk evaluation of Nepal||#IDV:30:-:1994:113-127|Risk+Nepal+Maximum acceleration+Map+ISC||#*BIHAR88|#*NEPAL
J|0808|Karakisa,S.|Focal mechanisms of major earthquakes in Turkiye during the period 1964-1987||#IDV:30:-:1994:131-144|Focal mechanism+1964-1987+Turkey+ISC||#*ERZURUM|#*LAKEVAN|#*LICE
J|0809|Mahinda,K.|Study of seismic noise by STS-2 broadband digital seismograph||#IDV:30:-:1994:147-159|Broadband seismograph+Seismic noise+Digital processing+Spectral analysis||#*ZAIRE92
J|0810|Garcia,R.D.|Seismic behaviour of reinforced concrete core walls||#IDV:30:-:1994:163-176|Reinforced concrete+Wall+Structural response+Building
J|0811|Germanetti Uribe,R.|Local effects of seismic waves in the Aburra Valley||#IDV:30:-:1994:179-193|Seismic waves+Colombia+Valley+Site effect
J|0812|Wexler,L.P.|Earthquake resistant design of a 22-story steel building||#IDV:30:-:1994:197-219|Earthquake-resistant design+Steel+Building+Dynamic analysis
J|0813|Naggar,M.M.|Dams safety and earthquakes||#IDV:30:-:1994:223-244|Safety+Dam+Earthquake engineering
J|0814|Campos,D.R.|Seismic analysis of a reinforced concrete building during the San Salvador earthquake of October 10, 1986||#IDV:30:-:1994:247-259|Building+Reinforced concrete+Earthquake+El Salvador
J|0815|Hashemi,H.|Structural design of 25-story steel residential building||#IDV:30:-:1994:263-274|Design+Steel+Building+Dynamic analysis
J|0816|Ameen,M.|Seismic design analysis of reactor building of a PWR type nuclear power plant with the consideration of non-linearity of soil||#IDV:30:-:1994:277-289|Nuclear power plant+Nonlinear response+Earthquake-resistant design+Soil
J|0817|Mestas,O.R.|Nonlinear finite element analysis of confined masonry walls||#IDV:30:-:1994:293-308|Masonry structure+Wall+Finite element method+Model
J|0818|Valencia,M.F.G.|Application of precast concrete panel system for seven storey residential building in eastern Mindinao Island, Philippines||#IDV:30:-:1994:311-325|Concrete+Building code+Philippines+Dynamic analysis
J|0819|Wasan,T.|Linear and non-linear analysis on 42 stories reinforced concrete building due to static and dynamic load||#IDV:30:-:1994:329-341|Reinforced concrete+Building+Response+Load
J|0820|Javaherian,A.+Norouzian,N.|Yield estimation of Semipalatinsk nuclear explosions by the P-wave amplitude recorded in Iran|In Persian with English abstract on p1|#JES:21:1-2:1994:1-10|Yield+Underground nuclear explosion+Semipalatinsk+Formula|Persian pagination
J|0821|Javaherian,A.+Ghaemghamian,M.R.|Yield estimation of underground nuclear explosions by seismic modelling for the Iranian Plateau|In Persian with English abstract on p2|#JES:21:1-2:1994:11-25|Yield+Underground nuclear explosion+Modelling+Synthetic seismogram|Persian pagination
J|0822|Hassanzadeh,J.|Consequences of the Zagros continental collision and the evolution of the central Iranian Plateau|In Persian with English abstract on p3|#JES:21:1-2:1994:26-37|Continental collision+Iran+Upper mantle+Velocity|Persian pagination
J|0823|Sadidkhoy,A.|Determination of surface wave magnitude in frequency domain|In Persian with English abstract on p4|#JES:21:1-2:1994:38-51|Frequency domain+Surface wave+Magnitude+Spectrum|Persian pagination
J|0824|Ghassem-Al-Askari,M.K.|P-X imaging of seismic data|In Persian with English abstract on p8|#JES:21:1-2:1994:91-112|Imaging+Domain analysis+Model+Slant stack|Persian pagination
J|0825|Nabi-Bidhendi,M.|A short note on magnification curves of the ILPA (Iranian Long Period Array)|With Persian abstract on p113, Persian pagination|#JES:21:1-2:1994:9-10|Array+Borehole+Calibration+Iran|Short note
J|0826|Gheitanchi,M.R.|On the source complexity of the 1978 Tabas, north-east Iran, earthquake|With Persian abstract on p114, Persian pagination|#JES:21:1-2:1994:11-16|Earthquake+Tabas+1978+Focal mechanism|Short note|#*TABAS
J|0827|Miyamachi,H.+Kasahara,M.+Suzuki,S.+|Seismic velocity structure in the crust and upper mantle beneath northern Japan||#JPE:42:4:1994:269-301|Velocity structure+Crust+Upper mantle+Japan
J|0828|Okada,T.+Matsuzawa,T.+Matsumoto,S.+|Shear wave splitting observed in the southwestern part of Fukushima Prefecture, northeastern Japan||#JPE:42:4:1994:303-319|Shear wave splitting+Japan+Cross correlation+Anisotropy
J|0829|Umino,N.+Hasegawa,A.|Aftershock focal depths of the 1993 Hokkaido-Nansei-Oki earthquake estimated from sP depth phase at small epicentral distances||#JPE:42:4:1994:321-329|Aftershock+1993+Earthquake+Focal depth|Letter|#*SEAOFJAPAN93
J|0830|Lachet,C.+Bard,P-Y.|Numerical and theoretical investigations on the possibilities and limitations of Nakamura's technique||#JPE:42:5:1994:377-397|Noise+Spectral ratio+Numerical method+Simulation
J|0831|Kaushik,V.P.+Tomar,S.K.|Surface waves in vertically heterogeneous and transversely isotropic layer overlying a homogeneous isotropic half-space and under a uniform layer of liquid||#JPE:42:6:1994:399-409|Surface wave+Heterogeneity+Anisotropy+Liquid
J|0832|Yamashita,T.+Teisseyre,R.|Continuum theory of earthquake fracturing||#JPE:42:6:1994:425-437|Fracturing+Stress+Evolution+Theory
J|0833|Sato,H.|H2O and magmatism in island arc mantle inferred from seismic anelasticity and heat flow data||#JPE:42:6:1994:439-453|Magmatism+Upper mantle+Island arc+Temperature
J|0834|Tada,T.+Shimazaki,K.|Source directivity revealed by array analysis of short-period teleseismic body waves: the 1990 Manjil, Iran, earthquake||#JPE:42:6:1994:455-460|Destructive earthquake+Iran+1990+Source|Letter|#*MANJIL90
J|0835|Ruzaykin,A.I.|Source depth dependence of Lg wave properties|In Russian|#RFZ:-:7-8:1994:27-34|Focal depth+Source+Lg-wave
J|0836|Dorbat,L.+Aref'ev,S.S.+Borisov,B.A.|Deep seismic structure of the Spitak zone|In Russian|#RFZ:-:7-8:1994:42-52|Deep structure+Spitak
J|0837|Aptikayeva,O.I.+Kopnichev,Yu.F.+Shevchenko,V.I.|Crust and upper mantle structure and tectogenesis of the Garm test site area (Tadjikistan)|In Russian|#RFZ:-:7-8:1994:53-64|Crustal structure+Upper mantle+Garm+Test site
J|0838|Kovachev,S.A.+Kuzin,I.P.+Solov'ev,S.L.|Brief study of the Buor-Khaya Mountain, Laptev Sea seismicity using sea-bottom geophones|In Russian|#RFZ:-:7-8:1994:65-76|Seismicity+Laptev Sea+Geophone+Sea floor
J|0839|Trubetskoy,K.N.+Bronnikov,D.M.+Kuznetsov,S.V.+|Location of acoustic emission events in rock mass|In Russian|#RFZ:-:7-8:1994:77-83|Acoustic emission+Rock+Location
J|0840|Antonova,L.V.+Aptikayev,F.F.+Krestnikov,V.N.+|A method of seismic activity assessment from the number of terrace levels|In Russian|#RFZ:-:7-8:1994:84-90|Activity+Kirgiziya
J|0841|Nikonov,A.A.|On Great Caucasus strong earthquakes in the A.D. first millenium: a revision of the initial data and catalogue|In Russian|#RFZ:-:7-8:1994:107-112|Historical earthquake+Caucasus+Earthquake catalogue|Scientific communication
J|0842|Gao,S.+Davis,P.M.+Liu,H.+|Preliminary results from teleseismic tomography of the mantle beneath Lake Baikal|In Russian|#RFZ:-:7-8:1994:113-122|Baikal+Tomography+Mantle+Teleseism|Scientific communication
J|0843|Vshivtsev,A.S.+Chesnokov,E.M.|Propagation of elastic plane waves of the soliton type in a nonlinear anisotropic medium|In Russian|#RFZ:-:7-8:1994:123-125|Anisotropic medium+Plane wave+Propagation+Solitons|Scientific communication
J|0844|Ionov,A.M.|Structure of tube waves generated by a Rayleigh wave from a blast source|In Russian|#RFZ:-:7-8:1994:152-155|Tube wave+Blast+Rayleigh wave|Scientific communication
J|0845|Parkhomenko,E.I.+Topchyan,Kh.D.|Influence of the high-conductivity component on the magnitude of the seismoelectrical effect|In Russian|#RFZ:-:7-8:1994:156-161|Seismoelectric effect+Conductivity+Laboratory|Scientific communication
J|0846|Rogozhin,E.A.|Tectonic position and geological effects of the Ashkhabad 1948 earthquake|In Russian|#RFZ:-:9:1994:3-14|Earthquake+1948+Turkmeniya
J|0847|Aref'ev,S.S.+Tatevosyan,R.E.|Seismicity in the vicinity of the Spitak focal zone|In Russian|#RFZ:-:9:1994:15-28|Seismicity+Spitak
J|0848|Zvolinskii,N.V.+Karpov,I.I.+Nikitin,I.S.+|Generation of tsunami and Rayleigh waves by a harmonic two-dimensional rotation center|In Russian|#RFZ:-:9:1994:29-33|Rayleigh wave+Tsunami+Generation
J|0849|Sirotenko,D.O.+Lyakhovitskiy,F.M.|Elastic anisotropic parameters of an orthotropic geological medium|In Russian|#RFZ:-:9:1994:46-50|Anisotropy+Parameters
J|0850|Vshivtsev,A.S.+Tatarintsev,A.V.+Chesnokov,E.M.|Green functions of the wave equation in an isotropic medium|In Russian|#RFZ:-:9:1994:80-87|Green's function+Wave equation+Anisotropic medium|Scientific communication
J|0851|Moroz,Yu.F.|On search for short-term precursors of strong earthquakes in the Kamchatka low-frequency telluric field|In Russian|#RFZ:-:9:1994:88-90|Strong earthquake+Kamchatka+Precursor+Seismotelluric effect|Scientific communication
J|0852|Beresnev,I.A.|On the paper by V.S. Solov'ev containing critical analysis of studies in nonlinear seismics|In Russian|#RFZ:-:9:1994:102-108|Seismics+Nonlinearity|Discussion
J|0853|Gor'kavy,N.N.+Levitskiy,L.S.+Taydakova,T.A.+|On detection of three components in seismic activity of the Earth|In Russian|#RFZ:-:10:1994:23-32|Activity+Detection
J|0854|Gor'kavy,N.N.+Levitskiy,L.S.+Taydakova,T.A.+|On correlation of plots of the Earth's angular velocity and its time derivative with earthquake recurrence as related with their magnitude|In Russian|#RFZ:-:10:1994:33-38|Recurrence+Correlation+Magnitude+Rotation
J|0855|Belyayeva,I.Yu.+Zaitsev,V.Yu.+Ostrovskiy,L.A.+|An elastic nonlinear parameter as a significant characteristic in seismics problems|In Russian|#RFZ:-:10:1994:39-46|Seismics+Nonlinearity+Elasticity
J|0856|Damaskinskaya,E.E.+Kuksenko,V.S.+Tomilin,N.G.|A two-stage model of rock failure|In Russian|#RFZ:-:10:1994:47-52|Model+Rock+Failure
J|0857|Zubkovich,A.V.+Trapeznikov,Yu.A.+Fridman,A.M.|On anomalous features in data from the earthquake catalogue of the National Information Center, GS, U.S.A.|In Russian|#RFZ:-:10:1994:73-75|Earthquake catalogue+NEIC+Anomaly|Scientific communication
J|0858|Migunov,N.I.+Sobolev,G.A.+Khromov,A.A.|Variations in intensity and direction of the natural radio emission flux during strong earthquakes in Carpathians|In Russian|#RFZ:-:10:1994:76-80|Radio emission+Strong earthquake+Carpathians|Scientific communication
J|0859|Nikonov,A.A.|Large earthquake and seismic potential of the West Crimea (Sevastopol) source zone|In Russian|#RFZ:-:11:1994:20-31|Large earthquake+Seismic potential+Crimea
J|0860|Kiselev,A.P.+Yarovoy,V.O.|Diffraction, interference and depolarization of elastic waves. Polarization anomalies near low-contrast interface|In Russian|#RFZ:-:11:1994:32-39|Elastic wave+Interface+Polarization
J|0861|Damaskinskaya,E.E.+Kuksenko,V.S.+Tomilin,N.G.|Statistical regularities of acoustic emission indices by granite rupture|In Russian|#RFZ:-:11:1994:40-48|Acoustic emission+Granite+Rupture
J|0862|Nikolaev,V.A.|Implication of Earth's tides phases for large earthquakes|In Russian|#RFZ:-:11:1994:49-58|Earth tide+Large earthquake+Phase+Map
J|0863|Liperovskaya,E.V.+Pokhotelov,O.A.+Oleynik,M.A.+|Some effect in the ionospheric E layer prior to an earthquake|In Russian|#RFZ:-:11:1994:86-88|Ionosphere+Precursor|Scientific communication
J|0864|Grachev,A.F.|On the nature of the New Madrid zone of high seismic activity of the North American platform|In Russian|#RFZ:-:12:1994:12-23|New Madrid+Seismicity+Focal mechanism+Map
J|0865|Kovachev,S.A.+Kuzin,I.P.+Solov'ev,S.L.+|Lithosphere model implications for the distribution of micro-earthquake hypocenters as determined from sea-bottom geophone observations|In Russian|#RFZ:-:12:1994:24-33|Microearthquake+Hypocentre+Lithosphere+Model
J|0866|Burmin,V.Yu.|Optimum arrangement of seismic stations over the Earth's surface|In Russian|#RFZ:-:12:1994:34-43|Station location+Monitoring
J|0867|Belyayeva,I.Yu.+Zaitsev,V.Yu.+Sutin,A.M.|Tomography of nonlinear rock parameters in problems of seismology and seismic prospecting|In Russian|#RFZ:-:12:1994:44-51|Tomography+Seismic prospecting+Rock+Nonlinearity
J|0868|Marchuk,A.N.|New experimental potentialities in geodynamical studies and earthquake prediction|In Russian|#RFZ:-:12:1994:78-85|Prediction+Geodynamics|Scientific communication
J|0869|Kagan,Y.Y.|Distribution of incremental static stress caused by earthquakes||#NPG:1:2-3:1994:172-181|Stress+Focal mechanism+Southern California+Seismic moment tensor
J|0870|Eneva,M.|Monofractal of multifractal: a case study of spatial distribution of mining induced seismic activity||#NPG:1:2-3:1994:182-190|Induced seismicity+Fractal+Mining+Spatial distribution
J|0871|Hooge,C.+Lovejoy,S.+Schertzer,D.+|Multifractal phase transitions: the origin of self-organized criticality in earthquakes||#NPG:1:2-3:1994:191-197|Fractal+Phase transition+Scaling+Spatial distribution
J|0872|Sornette,A.+Sornette,D.+Evesque,P.|Frustration and disorder in granular media and tectonic blocks: implications for earthquake complexity||#NPG:1:4:1994:209-218|Complexity+Granular medium+Block+Crust
J|0873|Leclair,A.D.+Percival,J.A.+Green,A.G.+|Seismic reflection profiles across the central Kapuskasing uplift||#CJS:31:7:1994:1016-1026|Kapuskasing+Reflexion study+Crustal structure+Profile
J|0874|Atekwana,E.A.+Salisbury,M.H.+Verhoef,J.+|Ramp-flat geometry within the central Kapuskasing uplift? Evidence from potential field modeling results||#CJS:31:7:1994:1027-1041|Kapuskasing+Crustal structure+Gravity+Modelling
J|0875|Mareschal,M.+Kurtz,R.D.+Bailey,R.C.|A review of electromagnetic investigations in the Kapuskasing uplift and surrounding regions: electrical properties of key rocks||#CJS:31:7:1994:1042-1051|Kapuskasing+Rock+Electromagnetic data+Dipping reflector
J|0876|Salisbury,M.H.+Fountain,D.M.|The seismic velocity and Poisson's ratio structure of the Kapuskasing uplift from laboratory measurements||#CJS:31:7:1994:1052-1063|Laboratory+Velocity+Poisson's ratio+Kapuskasing
J|0877|Percival,J.A.+West,G.F.|The Kapuskasing uplift: a geological and geophysical synthesis||#CJS:31:7:1994:1256-1286|Kapuskasing+Geophysical investigation+Velocity structure+Geology
J|0878|Jackson,H.R.+Reid,I.|Crustal thickness variations between the Greenland and Ellesmere Island margins determined from seismic refraction||#CJS:31:9:1994:1407-1418|Crustal thickness+Baffin Bay+Marine seismic investigation+Ray tracing
J|0879|Wang,K.+Dragert,H.+Melosh,H.J.|Finite element study of uplift and strain across Vancouver Island||#CJS:31:10:1994:1510-1522|Vancouver Island+Earthquake cycle+Prehistoric earthquake+Surface deformation
J|0880|Rea,D.K.+Moore,T.C.+Lewis,C.F.M.+|Stratigraphy and paleolimnologic record of lower Holocene sediments in northern Lake Huron and Georgia Bay||#CJS:31:11:1994:1586-1605|Lake Huron+Water level+Stratigraphy+Reflector
J|0881|Moore,T.C.+Rea,D.K.+Mayer,L.A.+|Seismic stratigraphy of Lake Huron - Georgian Bay and postglacial lake level history||#CJS:31:11:1994:1606-1617|Seismic survey+Seismostratigraphy+Lake Huron+Water level
J|0882|Wu,J.+Milkereit,B.+Boerner,D.E.|Timing constraints on deformation history of the Sudbury Impact Structure||#CJS:31:11:1994:1654-1660|Sudbury structure+Reflexion study+History+Deformation
J|0883|Recq,M.+Le Roy,I.+Charvis,P.+|Deep structure of Mont Ross from seismic refraction (Kerguelen Islands, southern Indian Ocean)|In French with English abstract|#CJS:31:12:1994:1806-1821|Kerguelen Islands+Volcanism+High velocity+Refraction study
J|0884|Greenhouse,J.P.+Karrow,P.F.|Geological and geophysical studies of buried valleys and their fills near Elora and Rockwood, Ontario||#CJS:31:12:1994:1838-1848|Geophysical investigation+Ontario+Valley+Geologic structure
J|0885|Salel,J.F.+Seguret,M.|Late Cretaceous to Palaeogene thin-skinned tectonics of the Palmyrides belt (Syria)||#TCT:234:4:1994:265-290|Tectonics+Syria+Geophysical investigation+Profile
J|0886|Bodri,L.|Hydrological disturbances of the conductive heat flow in stable continental crust||#TCT:234:4:1994:291-304|Continental crust+Heat flow+SVEKA+Low-velocity layer
J|0887|Sahu,O.P.+Saikia,M.M.|The b value before the 6th August, 1988 India-Myanmar border region earthquake - a case study||#TCT:234:4:1994:349-354|b-Value+Earthquake+1988+India||#*IMPHAL88
J|0888|Li,P-L.+Rao,C-T.|Tectonic characteristics and evolution history of the Pearl River Mouth Basin||#TCT:235:1-2:1994:13-25|South China Sea+Basin+Tectonics+Dipping reflector
J|0889|Jiang,S-R.+Zhou,X-Z.+Huang,C-L.+|The stratigraphy, structure and evolution of Zengmu Basin||#TCT:235:1-2:1994:51-62|South China Sea+Basin+Marine seismic investigation+Seismostratigraphy
J|0890|Yu,H-S.|Structure, stratigraphy and basin subsidence of Tertiary basins along the Chinese southeastern continental margin||#TCT:235:1-2:1994:63-76|Basin+Seismostratigraphy+Continental margin+China
J|0891|Xia,K-Y.+Huang,C-L.+Jiang,S-R.+|Comparison of the tectonics and geophysics of the major structural belts between the northern and southern continental margins of the South China Sea||#TCT:235:1-2:1994:99-116|South China Sea+Tectonics+Geophysical survey+Profile
J|0892|Lee,H.K.+Schwarcz,H.P.|Criteria for complete zeroing of ESR signals during faulting of the San Gabriel fault zone, southern California||#TCT:235:4:1994:317-337|Fault zone+Southern California+Activity+Dating
J|0893|Papadimitriou,E.E.|Long-term earthquake prediction of large shallow mainshocks along the Tonga-Kermadec-New Zealand seismic zone based on a time- and magnitude-predictable model||#TCT:235:4:1994:347-350|Prediction+Seismic zone+Shallow-focus earthquake+Kermadec Islands+New Zealand+Tonga Arc
J|0894|Fuchs,K.+Nyambok,I.O.+Thompson,G.A.|Rifting of the continents: a key-project of the international lithosphere program||#TCT:236:1-4:1994:1-2|East African Rift+KRISP+Rifting+International Lithosphere Programme
J|0895|Swain,C.J.+Maguire,P.K.H.+Khan,M.A.|Geophysical experiments and models of the Kenya Rift before 1989||#TCT:236:1-4:1994:23-32|Kenya Rift+Geophysical investigation+Model+Refraction study
J|0896|Prodehl,C.+Mechie,J.+Achauer,U.+|The KRISP 90 seismic experiment - a technical review||#TCT:236:1-4:1994:33-60|KRISP+Kenya Rift+Lithosphere+Seismic survey
J|0897|Jacob,A.W.B.+Vees,R.+Braile,L.W.+|Optimization of wide-angle seismic signal-to-noise ratios and P-wave transmission in Kenya||#TCT:236:1-4:1994:61-79|KRISP+P-wave+Signal-to-noise ratio+Transmission
J|0898|Morley,C.K.|Interaction of deep and shallow processes in the evolution of the Kenya Rift||#TCT:236:1-4:1994:81-91|Magma+Crustal thickness+Kenya Rift
J|0899|Bosworth,W.+Morley,C.K.|Structural and stratigraphic evolution of the Anza rift, Kenya||#TCT:236:1-4:1994:93-115|Anza+Reflexion study+Basin+Stratigraphy
J|0900|Tongue,J.A.+Maguire,P.K.H.+Burton,P.W.|An earthquake study in the Lake Baringo basin of the central Kenya Rift||#TCT:236:1-4:1994:151-164|Kenya Rift+Local event+Focal mechanism+Tomography
J|0901|Gajewski,D.+Schulte,A.+Riaroh,D.+|Deep seismic sounding in the Turkana depression, northern Kenya Rift||#TCT:236:1-4:1994:165-178|Deep seismic sounding+Kenya Rift+KRISP+Crustal thickness
J|0902|Mechie,J.+Keller,G.R.+Prodehl,C.+|Crustal structure beneath the Kenya Rift from axial profile data||#TCT:236:1-4:1994:179-200|Crustal structure+Kenya Rift+Crustal thickness+KRISP
J|0903|Keller,G.R.+Mechie,J.+Braile,L.W.+|Seismic structure of the uppermost mantle beneath the Kenya Rift||#TCT:236:1-4:1994:201-216|Upper mantle+Kenya Rift+KRISP+Velocity structure
J|0904|Maguire,P.K.H.+Swain,C.J.+Masotti,R.+|A crustal and uppermost mantle cross-sectional model of the Kenya Rift derived from seismic and gravity data||#TCT:236:1-4:1994:217-249|Kenya Rift+Crust+Upper mantle+Model
J|0905|Braile,L.W.+Wang,B.+Daudt,C.R.+|Modeling the 2-D seismic velocity structure across the Kenya rift||#TCT:236:1-4:1994:251-269|Velocity structure+Kenya Rift+Modelling+KRISP
J|0906|Prodehl,C.+Jacob,A.W.B.+Thybo,H.+|Crustal structure on the northeastern flank of the Kenya rift||#TCT:236:1-4:1994:271-290|Crustal structure+Kenya Rift+KRISP+Mohorovicic discontinuity
J|0907|Ritter,J.R.R.+Achauer,U.|Crustal tomography of the central Kenya Rift||#TCT:236:1-4:1994:291-304|Tomography+Kenya Rift+KRISP+High velocity
J|0908|Achauer,U.+a-The KRISP Teleseismic Working Group|New ideas on the Kenya rift based on the inversion of the combined dataset of the 1985 and 1989/90 seismic tomography experiments||#TCT:236:1-4:1994:305-329|Tomography+Kenya Rift+Inversion+Velocity
J|0909|Slack,P.D.+Davis,P.M.+a-The KRISP Teleseismic Working Group|Attenuation and velocity of P-waves in the mantle beneath the East African Rift, Kenya||#TCT:236:1-4:1994:331-358|East African Rift+Mantle+Attenuation+Velocity
J|0910|Mooney,W.D.+Christensen,N.I.|Composition of the crust beneath the Kenya rift||#TCT:236:1-4:1994:391-408|Crust+Kenya Rift+Rock+Composition
J|0911|Hendrie,D.B.+Kusznir,N.J.+Morley,C.K.+|Cenozoic extension in northern Kenya: a quantitative model of rift basin development in the Turkana region||#TCT:236:1-4:1994:409-438|Kenya+Basin+Rift+Model
J|0912|Mechie,J.+Fuchs,K.+Altherr,R.|The relationship between seismic velocity, mineral composition and temperature and pressure in the upper mantle - with an application to the Kenya Rift and its eastern flank||#TCT:236:1-4:1994:453-464|Kenya Rift+Upper mantle+Velocity+Mineral
J|0913|Keller,G.R.+Prodehl,C.+Mechie,J.+|The East African rift system in the light of KRISP 90||#TCT:236:1-4:1994:465-483|East African Rift+KRISP+Deep structure+P-wave
J|0914|Barnes,P.M.|Inherited structural control from repeated Cretaceous to Recent extension in the North Mernoo fault zone, western Chatham Rise, New Zealand||#TCT:237:1-2:1994:27-46|Fault zone+New Zealand+Seismostratigraphy+Extension
J|0915|Rognvaldsson,S.Th.+Slunga,R.|Single and joint fault plane solutions for microearthquakes in south Iceland||#TCT:237:1-2:1994:73-80|Iceland+Microearthquake+Fault plane solution+Swarm
J|0916|Astrom,K.+Lund,C-E.|Short-period surface wave dispersion: noise studies and Q along seismic profiles in southern Sweden||#TCT:237:1-2:1994:87-103|Sweden+Q+Dispersion+Profile
J|0917|Puntodewo,S.S.O.+McCaffrey,R.+Calais,E.+|GPS measurements of crustal deformation within the Pacific-Australia plate boundary zone in Irian Jaya, Indonesia||#TCT:237:3-4:1994:141-153|Fault plane solution+Crustal deformation+Plate boundary+Indonesia
J|0918|Coussement,C.+Gente,P.+Rolet,J.+|The north Tanganyika hydrothermal fields, East African Rift system: their tectonic control and relationship to volcanism and rift segmentation||#TCT:237:3-4:1994:155-173|Tanganyika+Seismicity+Tectonics+Hydrothermal field
J|0919|Zhao,D-P.+Hasegawa,A.|Teleseismic evidence for lateral heterogeneities in the northeastern Japan arc||#TCT:237:3-4:1994:189-199|Teleseism+Lateral heterogeneity+Japan arc+Travel-time residual
J|0920|Aller,J.+Zeyen,H.J.+Perez-Estaun,A.+|A 2.5D interpretation of the eastern Galicia magnetic anomaly (northwestern Spain): geodynamical implications||#TCT:237:3-4:1994:201-213|Galicia+Geodynamics+Geomagnetic anomaly+Crustal structure
J|0921|Lynch,G.+Tremblay,C.|Late Devonian-Carboniferous detachment faulting and extensional tectonics in western Cape Breton Island, Nova Scotia, Canada||#TCT:238:1-4:1994:55-69|Deep seismic sounding+Faulting+Nova Scotia+Tectonics
J|0922|Tricart,P.+Torelli,L.+Argnani,A.+|Extensional collapse related to compressional uplift in the Alpine chain off northern Tunisia (central Mediterranean)||#TCT:238:1-4:1994:317-329|Reflexion study+Mediterranean+Marine geophysical investigation+Collapse
J|0923|Ji,S.+Zhao,X.+Francis,D.|Calibration of shear-wave splitting in the subcontinental upper mantle beneath active orogenic belts using ultramafic xenoliths from the Canadian Cordillera and Alaska||#TCT:239:1-4:1994:1-27|Shear wave splitting+Upper mantle+Canadian Cordillera+Alaska
J|0924|Riahi,M.A.+Lund,C-E.|Two-dimensional modelling and interpretation of seismic wide-angle data from the western Gulf of Bothnia||#TCT:239:1-4:1994:149-164|Modelling+BABEL+Velocity structure+Bothnia, G. of
J|0925|Raileanu,V.+Diaconescu,C.+Radulescu,F.|Characteristics of Romanian lithosphere from deep seismic reflection profiling||#TCT:239:1-4:1994:165-185|Romania+Lithosphere+Deep seismic sounding+Reflexion study
J|0926|Golke,M.+Cloetingh,S.+Fuchs,K.|Finite-element modelling of pull-apart basin formation||#TCT:240:1-4:1994:45-57|Strike-slip+Finite element method+Basin+Fault
J|0927|Vakarcs,G.+Vail,P.R.+Tari,G.+|Third-order Middle Miocene-Early Pliocene depositional sequences in the prograding delta complex of the Pannonian Basin||#TCT:240:1-4:1994:81-106|Profile+Pannonian Basin+Seismostratigraphy+Deposition
J|0928|Vejbaek,O.V.|Radiative heat transfer in lithospheric geodynamics: implications for asthenospheric partial melting and basin modelling concepts||#TCT:240:1-4:1994:115-131|Low-velocity layer+Thickness+Geodynamics+Heat
J|0929|Rijkers,R.H.B.+Duin,E.J.Th.|Crustal observations beneath the southern North Sea and their tectonic and geological implications||#TCT:240:1-4:1994:215-224|North Sea+Crust+Reflexion study+Mohorovicic discontinuity
J|0930|Skogseid,J.|Dimensions of the Late Cretaceous-Paleocene northeast Atlantic rift derived from Cenozoic subsidence||#TCT:240:1-4:1994:225-247|North Atlantic+Oceanic rift+Crustal structure+Continental boundary
J|0931|Artemyev,M.E.+Kaban,M.K.|Density inhomogeneities, isostasy and flexural rigidity of the lithosphere in the Transcaspian region||#TCT:240:1-4:1994:281-297|Lithosphere+Turkmeniya+Gravity+Map
J|0932|Kavoun,M.+Vinnikovskaya,O.|Seismic stratigraphy and tectonics of the northwestern Weddell Sea (Antarctica) inferred from marine geophysical surveys||#TCT:240:1-4:1994:299-341|Seismostratigraphy+Weddell Sea+Marine geophysical investigation+Tectonics
J|0933|Lay,T.|The fate of descending slabs||#ARE:22:-:1994:33-61|Slab+Mantle+Subduction+Deep earthquake||#*BONIN82
J|0934|Bukowinski,M.S.T.|Quantum geophysics||#ARE:22:-:1994:167-205|Geophysics+Mineral+Earth structure+Velocity
J|0935|Kanamori,H.|Mechanics of earthquakes||#ARE:22:-:1994:207-237|Shallow earthquake+Stress field+Mechanics+Stress-drop||#*LANDERS92|#*BIGBEAR92|#*JOSHUATREE92|#*LOMAPRIETA89
J|0936|Jackson,J.A.|Active tectonics of the Aegean region||#ARE:22:-:1994:239-271|AEgean+Tectonics+Focal mechanism+Faulting
J|0937|Scarascia,S.+Lozej,A.+Cassinis,R.|Crustal structures of the Ligurian, Tyrrhenian and Ionian Seas and adjacent onshore areas interpreted from wide-angle seismic profiles||#BGT:36:141-144:1994:5-19|Deep seismic sounding+Crustal structure+Mediterranean+Mohorovicic discontinuity
J|0938|Del Ben,A.+Finetti,I.+Mongelli,F.+|Seismic and heat flow study of the southern Adriatic basin||#BGT:36:141-144:1994:29-44|Adriatic+Heat flow+Seismostratigraphy+Reflexion study
J|0939|Perotti,C.R.+Seno,S.+Vanossi,M.|The crust-mantle boundary in the Ligurian area: geological and geodynamic implications||#BGT:36:141-144:1994:63-75|Ligurian Sea+Crust-mantle boundary+Map+Mohorovicic discontinuity
J|0940|Catalano,R.+Infuso,S.+Sulli,A.|The submerged Alpidic chain from southern Sardinia shelf to the Pelagian rifting: tectonic history||#BGT:36:141-144:1994:139-158|Profile+Mediterranean+Evolution+Tectonics
J|0941|Cavinato,G.P.+Cosentino,D.+Funiciello,R.+|Constraints and new problems for geodynamical modelling of central Italy (CROP 11 Civitavecchia-Vasto deep seismic line)||#BGT:36:141-144:1994:159-174|Constraint+Italy+Modelling+Tectonics
J|0942|D'Offizi,S.|Overall seismotectonic modelling - a powerful tool in seismic hazard analyses: two applications in central Italy and California (U.S.A.)||#BGT:36:141-144:1994:331-361|Seismotectonics+Italy+California+Seismic potential
J|0943|Augliera,P.+Bethoux,N.+Deverchere,J.+|The Ligurian Sea: new seismotectonic evidence||#BGT:36:141-144:1994:363-380|Seismotectonics+Ligurian Sea+Seismicity+Focal mechanism
J|0944|Renner,G.+Slejko,D.|Some comments on the seismicity of the Adriatic region||#BGT:36:141-144:1994:381-398|Intraplate seismicity+Adriatic+Earthquake+Focal mechanism+ISC
J|0945|Moretti,A.+Curra,M.F.+Guerra,I.|Shallow seismic activity in the southeastern Tyrrhenian Sea and along the Calabria-Lucania border, southern Italy||#BGT:36:141-144:1994:399-409|Shallow-focus earthquake+Tyrrhenian Sea+Southern Italy+Sequence
J|0946|Mantovani,E.+Albarello,D.+Babbucci,D.+|Extrusion tectonics in the central Mediterranean area||#BGT:36:141-144:1994:435-462|Deep-focus earthquake+Mediterranean+Tectonics+Evolution
J|0947|Sacchi,M.+Infuso,S.+Marsella,E.|Late Pliocene-Early Pliocene compressional tectonics in offshore Campania (eastern Tyrrhenian Sea)||#BGT:36:141-144:1994:463-482|Seismostratigraphy+Tyrrhenian Sea+Tectonics+Compression
J|0948|Bartole,R.+Brancolini,G.+De Cillia,C.+|Reprocessing of digital seismic data by means of the FX-Decon method: example from Tyrrhenian Sea||#BGT:36:141-144:1994:493-506|Tyrrhenian Sea+Digital processing+Seismic survey
J|0949||Review of `Materials of the CEC project "Review of historical seismicity in Europe". Historical investigations of European earthquakes, 1' edited by M. Stucchi||#BGT:36:141-144:1994:534|Review+Europe+Historical seismicity|CNR, Istituto di Ricerca sul Rischio Sismico, Milano, 1993, 258p
J|0950|Corrieu,V.+Ricard,Y.+Froidevaux,C.|Converting mantle tomography into mass anomalies to predict the Earth's radial viscosity||#PEP:84:1-4:1994:3-13|Geoid+Mantle+Tomography+Viscosity
J|0951|Roult,G.+Rouland,D.|Antarctica I: deep structure investigations inferred from seismology; a review||#PEP:84:1-4:1994:15-32|Antarctica+Deep structure+Review+Intraplate seismicity
J|0952|Roult,G.+Rouland,D.+Montagner,J-P.|Antarctica II: upper-mantle structure from velocities and anisotropy||#PEP:84:1-4:1994:33-57|Antarctica+Upper mantle+Structure+Phase velocity
J|0953|Wu,F.T.+Levshin,A.L.|Surface-wave group velocity tomography of East Asia||#PEP:84:1-4:1994:59-77|Tomography+East Asia+Group velocity+Surface wave
J|0954|Zhang,Y-S.+Tanimoto,T.+Stolper,E.M.|S-wave velocity, basalt chemistry and bathymetry along the Mid-Atlantic Ridge||#PEP:84:1-4:1994:79-83|S-wave+Velocity+Mid-Atlantic Ridge+Bathymetry
J|0955|Cotton,F.+Avouac,J.P.|Crustal and upper-mantle structure under the Tien Shan from surface-wave dispersion||#PEP:84:1-4:1994:95-109|Tien Shan+Surface wave+Structure+Dispersion
J|0956|Laske,G.+Masters,G.+Zurn,W.|Frequency-dependent polarization measurements of long-period surface waves and their implications for global phase-velocity maps||#PEP:84:1-4:1994:111-137|Surface wave+Polarization+Phase velocity+Map||#*ANDREANOF|#*ALASKA287|#*COLOMBIA91
J|0957|Nawab,R.+Lognonne,P.|A new technique in demodulation of normal modes||#PEP:84:1-4:1994:139-160|Normal mode+Demodulation+Multiplet+Lateral heterogeneity
J|0958|Pillet,R.+Florsch,N.+Hinderer,J.+|Performance of Wielandt-Streckeisen STS-1 seismometers in the tidal domain - preliminary results||#PEP:84:1-4:1994:161-178|Seismometer+Earth tide+GEOSCOPE+Gravity
J|0959|Romanowicz,B.|On the measurement of anelastic attenuation using amplitudes of low-frequency surface waves||#PEP:84:1-4:1994:179-191|Surface wave+Attenuation+Q+Spectrum||#*MARIANAS90|#*ECUADOR87B
J|0960|Correig,A.M.+Vila,J.|Measurement of body-wave dispersion and estimation of related attenuation from broadband stations||#PEP:84:1-4:1994:193-206|Body wave+Dispersion+Arrival time+Attenuation+ISC||#*SEAOFJAPAN|#*KURIL84
J|0961|Gudmundsson,O.+Kennett,B.L.N.+Goody,A.|Broadband observations of upper-mantle seismic phases in northern Australia and the attenuation structure in the upper mantle||#PEP:84:1-4:1994:207-226|Australia+Upper mantle+Q+Spectrum
J|0962|Souriau,A.+Poupinet,G.|Lateral variations in P velocity and attenuation in the D" layer, from diffracted P waves||#PEP:84:1-4:1994:227-234|Lateral variation+D"-layer+P-wave+Diffracted wave||#*GUERRERO89|#*NEWBRITAIN83
J|0963|Bezzeghoud,M.+Ayadi,A.+Sebai,A.+|Seismogenic zone survey by Algerian Telemetered Seismological Network; case-study of Rouina earthquake, 19 January 1992||#PEP:84:1-4:1994:235-246|Earthquake+1992+Algeria+Seismogenic zone||#*ROUINA92
J|0964|Perrot,J.+Deschamps,A.+Farra,V.+|Azimuthal distortion of the seismic focal sphere: application to earthquakes in subduction||#PEP:84:1-4:1994:247-270|Azimuth+Distortion+Source+Ray tracing||#*VRANCEA90|#*VRANCEA86
J|0965|Protti,M.+Gundel,F.+McNally,K.|The geometry of the Wadati-Benioff zone under southern Central America and its tectonic significance: results from a high-resolution local seismographic network||#PEP:84:1-4:1994:271-287|Central America+Wadati-Benioff zone+High resolution+Geometry
J|0966|Boschi,E.+Morelli,A.+Gasperini,P.|A network of multi-sensor stations for continuous monitoring of ground motion and deformation||#PEP:84:1-4:1994:289-298|Ground motion+Monitoring+Network+Italy
J|0967|Fels,J-F.|Calibration of the STS-1 seismometer; preliminary results||#PEP:84:1-4:1994:299-304|Seismometer+Calibration+Transfer function+Cross-spectral analysis
J|0968|Levchenko,D.G.+Solov'ev,S.L.+Son'kin,A.V.+|Recording of ocean-bottom seismic noise and of a strong earthquake in the Himalayas by broadband digital OBS installed on the Mid-Atlantic Ridge||#PEP:84:1-4:1994:305-320|Ocean-bottom seismograph+Mid-Atlantic Ridge+Seismic noise+Earthquake||#*NINDIA91
J|0969|Montagner,J-P.+Karczewski,J-F.+Romanowicz,B.+|The French Pilot Experiment OFM-SISMOBS: first scientific results on noise level and event detection||#PEP:84:1-4:1994:321-336|Detection+Seismic noise+Ocean-bottom seismometer+Borehole||#*CHILE92|#*HOKKAIDO92|#*TADZHIKISTAN92
J|0970|Dziewonski,A.M.+Ekstrom,G.+Salganik,M.P.|Centroid-moment tensor solutions for October-December 1993||#PEP:85:3-4:1994:215-225|Centroid-moment tensor+1993|Letter section
J|0971|Sharma,M.L.+Wason,H.R.|Occurrence of low stress drop earthquakes in the Garhwal Himalaya region||#PEP:85:3-4:1994:265-272|Stress-drop+Himalayas+Shallow-focus earthquake+Fourier spectrum
J|0972|Das,S.+Kostrov,B.V.|Diversity of the solutions of the problem of earthquake faulting inversion; application to SH waves for the great 1989 Macquarie Ridge earthquake||#PEP:85:3-4:1994:293-318|Faulting+SH-wave+Earthquake+Inverse problem||#*MEXICOCITY|#*MACQUARIE89
J|0973|Gahalaut,V.K.|Temporal variation of seismicity in a Himalayan tectonic block and the 1991 Uttarkashi earthquake, India||#PEP:85:3-4:1994:339-347|Temporal variation+Seismicity+Himalayas+Earthquake||#*NINDIA91
J|0974|Bussod,G.Y.A.+Paulssen,H.|The mantle transition zone: composition, discontinuities, dynamics||#PEP:86:1-3:1994:1-3|Transition zone+Mantle+Discontinuity+Composition|Introduction to special issue
J|0975|Ringwood,A.E.|Role of the transition zone and 660 km discontinuity in mantle dynamics||#PEP:86:1-3:1994:5-24|Transition zone+660km discontinuity+Mantle+Dynamics
J|0976|Rigden,S.M.+Gwanmesia,G.D.+Liebermann,R.C.|Elastic wave velocities of a pyrope-majorite garnet to 3 GPa||#PEP:86:1-3:1994:35-44|Elastic wave+Velocity+Laboratory+Garnet
J|0977|Kennett,B.L.N.+Gudmundsson,O.+Tong,C.|The upper-mantle S and P velocity structure beneath northern Australia from broad-band observations||#PEP:86:1-3:1994:85-98|Upper mantle+Velocity structure+Australia+Broadband seismometer
J|0978|Stutzmann,E.+Montagner,J-P.|Tomography of the transition zone from the inversion of higher-mode surface waves||#PEP:86:1-3:1994:99-115|Transition zone+Tomography+Surface wave+Velocity structure
J|0979|Lavely,E.M.+Rodgers,A.+Ritzwoller,M.H.|Can the differential sensitivity of body wave, mantle wave, and normal mode data resolve the trade-off between transition zone structure and boundary topography?||#PEP:86:1-3:1994:117-146|Sensitivity+Transition zone+Boundary+Global variation
J|0980|Van der Lee,S.+Paulssen,H.+Nolet,G.|Variability of P660s phases as a consequence of topography of the 660 km discontinuity||#PEP:86:1-3:1994:147-164|660km discontinuity+Phase+Topography+Stack
J|0981|Sipkin,S.A.+Needham,R.E.|Moment-tensor solutions estimated using optimal filter theory: global seismicity, 1993||#PEP:86:4:1994:245-252|Seismic moment tensor+Global seismicity+1993+Filter|Letter section
J|0982|Dziewonski,A.M.+Ekstrom,G.+Salganik,M.P.|Centroid-moment tensor solutions for January-March 1994||#PEP:86:4:1994:253-261|Centroid-moment tensor+1994|Letter section
J|0983|Su,L.+Park,J.|Anisotropy and the splitting of PS waves||#PEP:86:4:1994:263-276|Anisotropy+PS-wave+Splitting+Pacific||#*FIJI86|#*FIJI86A|#*FIJI93
J|0984|Greenhalgh,S.A.+Love,D.+Sinadinovski,C.|Thirty years of seismic network recording in South Australia: selected results||#PEP:86:4:1994:277-299|Seismograph station+Australia+Historical earthquake+Seismic recording
J|0985|Qu,J.+Teng,T.L.|Recursive stochastic deconvolution in the estimation of earthquake source parameters: synthetic waveforms||#PEP:86:4:1994:301-327|Source parameter+Deconvolution+Stochastic method+Waveform||#*SANGABRIEL91
J|0986|Maupin,V.|On the possibility of anisotropy in the D" layer as inferred from the polarization of diffracted S waves||#PEP:87:1-2:1994:1-32|D"-layer+Anisotropy+Polarization+S-wave
J|0987|Okal,E.A.+Bina,C.R.|The deep earthquakes of 1921-1922 in northern Peru||#PEP:87:1-2:1994:33-54|Peru+Deep earthquake+1921-1922+Seismicity+ISC||#*COLOMBIAN70|#*BOLIVIA94
J|0988|Okal,E.A.+Romanowicz,B.|On the variation of b-values with earthquake size||#PEP:87:1-2:1994:55-76|Size+b-Value+Moment-magnitude relation+Formula
J|0989|Allegre,C.J.+Le Mouel,J.L.|Introduction of scaling techniques in brittle fracture of rocks||#PEP:87:1-2:1994:85-93|Scaling+Fracture+Rock mechanics
J|0990|Yeganeh-Haeri,A.|Synthesis and re-investigation of the elastic properties of single-crystal magnesium silicate perovskite||#PEP:87:1-2:1994:111-121|Lower mantle+Perovskite+Laboratory+Acoustic medium
J|0991|Patane,G.+Frasca,A.+Agodi,A.+|Earth tides and Etnean volcanic eruptions: an attempt at correlation of the two phenomena during the 1983, 1985 and 1986 eruptions||#PEP:87:1-2:1994:123-135|Volcanic tremor+Earth tide+Mount Etna+Eruption
J|0992|Akinci,A.+Taktak,A.G.+Ergintav,S.|Attenuation of coda waves in western Anatolia||#PEP:87:1-2:1994:155-165|Attenuation+Anatolia+Coda wave+Q
J|0993|Levin,B.+Bach,M.|The impact of seismic strengthening and code related issues in restoration, renovation, and re-use of historic buildings||Earthq. Spectra:10:1:1994:3-21|Historic building+Building code+Los Angeles+Mitigation
J|0994|Pezzullo,A.|The architectural heritage of Campania: protection from and prevention of seismic hazards||Earthq. Spectra:10:1:1994:23-42|Hazard+Campania+Prevention+Historic building||#*CAMPANIA
J|0995|Comerio,M.|Design lessons in residential rehabilitation||Earthq. Spectra:10:1:1994:43-64|Earthquake-resistant design+California+Building+Mitigation||#*LOMAPRIETA89
J|0996|Hart,G.C.+Elhassan,R.M.|Seismic strengthening with minimum occupant disruption using performance based seismic design criteria||Earthq. Spectra:10:1:1994:65-79|Southern California+Building+Design
J|0997|Seigel,H.I.+Fowler,L.W.|Jackson Brewery: upgrading an historic unreinforced brick building||Earthq. Spectra:10:1:1994:81-91|Historic building+San Francisco+Earthquake-resistant design
J|0998|Jirsa,J.O.|Divergent issues in rehabilitation of existing buildings||Earthq. Spectra:10:1:1994:95-112|Loma Prieta+Mexico City+Damage+Building||#*LOMAPRIETA89|#*MEXICOCITY
J|0999|Poland,C.D.|Repair and retrofit of health care facilities||Earthq. Spectra:10:1:1994:113-123|California+Hospital+Vulnerability+Mitigation
J|1000|Wong,K.M.|High seismic economic risk buildings: recognizing a potential problem||Earthq. Spectra:10:1:1994:125-148|California+Building+Loss+Seismic risk||#*LOMAPRIETA89
J|1001|Binda,L.+Roberti,G.M.+Abbaneo,S.|The diagnosis research project||Earthq. Spectra:10:1:1994:151-170|Masonry structure+Laboratory+Damage+Research
J|1002|Modena,C.|Repair and upgrading techniques of unreinforced masonry structures utilized after the Friuli and Campania/Basilicata earthquakes||Earthq. Spectra:10:1:1994:171-184|Masonry structure+Friuli+Campania-Basilicata+Mitigation
J|1003|Gavarini,C.|Monument safety in seismic areas||Earthq. Spectra:10:1:1994:189-195|Monument+Safety+Building code
J|1004|Holmes,W.T.|Policies and standards for reoccupancy repair of earthquake-damaged buildings||Earthq. Spectra:10:1:1994:197-208|Damage+Building+Safety
J|1005|Russell,J.E.|Post earthquake reconstruction regulation by local government||Earthq. Spectra:10:1:1994:209-223|Loma Prieta+Damage+Building||#*LOMAPRIETA89
J|1006|Al-Haddad,M.+Siddiqi,G.H.+Al-Zaid,R.+|A basis for evaluation of seismic hazard and design criteria for Saudi Arabia||Earthq. Spectra:10:2:1994:231-258|Saudi Arabia+Hazard+Design+Seismotectonics
J|1007|Aspinall,W.P.+Shepherd,J.B.+Woo,G.+|Seismic ground motion hazard assessment at a site near a segmented subduction zone: the Roseau Dam, Saint Lucia, West Indies||Earthq. Spectra:10:2:1994:259-292|St. Lucia+Ground motion+Subduction zone+Hazard
J|1008|Athanassiadou,C.J.+Penelis,G.G.+Kappos,A.J.|Seismic response of adjacent buildings with similar or different dynamic characteristics||Earthq. Spectra:10:2:1994:293-317|Structural response+Building+Earthquake engineering+Structural dynamics
J|1009|Bonacci,J.F.|Design forces for drift and damage control: a second look at the substitute structure approach||Earthq. Spectra:10:2:1994:319-331|Reinforced concrete+Earthquake-resistant design+Frame+Substitute structure method
J|1010|Kawashima,K.+Hasegawa,K.|New seismic design specifications of highway bridges in Japan||Earthq. Spectra:10:2:1994:333-356|Japan+Bridge+Design+Structural response
J|1011|Miranda,E.+Bertero,V.V.|Evaluation of strength reduction factors for earthquake-resistant design||Earthq. Spectra:10:2:1994:357-379|Earthquake-resistant design+Strength+Spectrum+Inelasticity
J|1012|Rahimi,M.|Behavior of mobility-disabled people in earthquakes: a simulation experiment||Earthq. Spectra:10:2:1994:381-401|Safety+Behaviour+Simulation
J|1013|Zorapapel,G.T.+Vucetic,M.|The effects of seismic pore water pressure on ground surface motion||Earthq. Spectra:10:2:1994:403-438|Water+Ground motion+Pore pressure+Fourier spectrum||#*ELMORE87|#*SUPERSTITION87|#*HUALIEN86|#*LOMAPRIETA89
J|1014|Cohen,J.M.|Discussion of `Passive control of building response using energy dissipating cladding connections' by J. P. Pinelli, J. I. Craig, G. J. Goodno and C. C. Hsu||Earthq. Spectra:10:2:1994:439-449|Comments+Earthquake-resistant design+Control+Building|With a reply by the authors
J|1015|Field,E.H.|Discussion of `Variation of site response at the UCSB dense array of portable accelerometers' by J. H. Steidl||Earthq. Spectra:10:2:1994:451-460|Comments+Site response+Array+Accelerometer|With a reply by the author
J|1016|Diaz,O.+Mendoza,E.+Esteva,L.|Seismic ductility demands predicted by alternate models of building frames||Earthq. Spectra:10:3:1994:465-487|Building+Frame+Ductility
J|1017|Glaser,S.D.|Estimation of surface displacements due to earthquake excitation of saturated sands||Earthq. Spectra:10:3:1994:489-517|Surface deformation+Sand+Liquefaction+Pore pressure
J|1018|Harris,J.B.+Street,R.L.+Kiefer,J.D.+|Modeling site response in the Paducah, Kentucky area||Earthq. Spectra:10:3:1994:519-538|Site response+United States+SH-wave+Modelling
J|1019|MacRae,G.A.|P-Delta effects on single-degree-of-freedom structures in earthquakes||Earthq. Spectra:10:3:1994:539-568|Earthquake engineering+Hysteresis+Stiffness+Structure
J|1020|Schmid,B.L.+Nielsen,R.J.+Linderman,R.R.|Narrow plywood shear panels||Earthq. Spectra:10:3:1994:569-588|Wall+Building code+Wooden construction
J|1021|Verma,R.+Priestley,M.J.N.|Optimal trends in seismic design of single column circular reinforced concrete bridge piers||Earthq. Spectra:10:3:1994:589-614|Bridge+Reinforced concrete+Design+Column
J|1022|Borcherdt,R.D.|Estimates of site-dependent response spectra for design (methodology and justification)||Earthq. Spectra:10:4:1994:617-653|Site response+Spectrum+Design+Velocity||#*LOMAPRIETA89
J|1023|Duffey,T.A.+Farrar,C.R.+Goldman,A.|Low-rise shear wall ultimate drift limits||Earthq. Spectra:10:4:1994:655-674|Wall+Reinforced concrete+Building code
J|1024|Gentry,T.R.+Wight,J.K.|Wide beam-column connections under earthquake-type loading||Earthq. Spectra:10:4:1994:675-703|Beam+Column+Loading
J|1025|Hwang,J.S.+Sheng,L.H.+Gates,J.H.|Practical analysis of bridges on isolation bearings with bi-linear hysteresis characteristics||Earthq. Spectra:10:4:1994:705-727|Bridge+Hysteresis+Base isolation system
J|1026|McCallen,D.B.+Romstad,K.M.|Dynamic analysis of a skewed short-span, box-girder overpass||Earthq. Spectra:10:4:1994:729-755|Bridge+Dynamic analysis+Structural response+Vibration||#*PETROLIA92A
J|1027|Marsh,M.L.+Brown,C.B.|Effects of column flexural strength on the seismic response of a multiple-column bridge bent||Earthq. Spectra:10:4:1994:757-776|Column+Bridge+Structural response
J|1028|Ozaki,M.+Azuhata,T.+Takahashi,T.+|Inelastic deformation of one-story asymmetric-plan systems subjected to strong earthquake ground motions||Earthq. Spectra:10:4:1994:777-790|Inelasticity+Strong earthquake+Ground motion+Deformation
J|1029|Hwang,H.H.M.|Discussion of `Seismic vulnerability evaluation of bridges in Memphis and Selby County, Tennessee' by S. Pezeshk, T. S. Chang, K. C. Yiak and H. T. Kung||Earthq. Spectra:10:4:1994:791-796|Comments+Vulnerability+Bridge+United States|With a reply by the authors
J|1030|Ladbury,R.|Bolivian quake gives a rare glimpse of Earth's interior||Physics today:47:10:1994:17-19|Bolivia+Deep-focus earthquake+1994+Focal mechanism|Search and discovery|#*BOLIVIA94
J|1031|DeLaughter,J.E.|Detection of bias in the Oklahoma earthquake catalogue: methods and interpretation||Okla. Geol. Notes:54:4:1994:160|Earthquake catalogue+Oklahoma+Magnitude+Detection|Abstract only
J|1032|Myers,P.B.|A shallow seismic reflection study of the Meers Fault, Comanche County, Oklahoma||Okla. Geol. Notes:54:4:1994:164|Reflexion study+Oklahoma+Fault zone+Shallow structure|Abstract only
J|1033|Valderrama,M.+Nielsen,K.C.+McMechan,G.A.|Three dimensional seismic interpretation from the triangle zone between the Ouachita Mountains and Arkoma Basin, Hartshorne, OK||Okla. Geol. Notes:54:6:1994:248|Oklahoma+Reflexion data+Reflector+Thrust|Abstract only
J|1034|Nakamura,M.+Katsumata,A.+Kuwayama,T.+|On the 1993 Kushiro-Oki earthquake|In Japanese with English abstract|#QJS:58:1-2:1994:11-48|Earthquake+1993+Hokkaido+Seismicity||#*KUSHIRO93
B|1035|e*Kaminuma,K.|Proceedings of the NIPR Symposium on Antarctic Geosciences|7|Kanao,M.+Kaminuma,K.|Broad-band and wide dynamic-range seismic observations with an STS-seismograph at Syowa station, east Antarctica||1994:Tokyo:National Institute of Polar Research|Antarctica+Data acquisition+Seismograph+Observational seismology|p1-13
B|1036|e*Kaminuma,K.|Proceedings of the NIPR Symposium on Antarctic Geosciences|7|Kudo,T.+Nagao,T.|Evaluation of crustal structure and bedrock topography around Mizuho Plateau, Antarctica, based on gravity data||1994:Tokyo:National Institute of Polar Research|Crustal structure+Antarctica+Gravity+Mohorovicic discontinuity|p37-48
B|1037|e*Kaminuma,K.|Proceedings of the NIPR Symposium on Antarctic Geosciences|7|Kagami,H.|Ritscher Canyon off Breid Bay, Dronning Maud Land, east Antarctica||1994:Tokyo:National Institute of Polar Research|Antarctica+Data acquisition+Seismograph+Observational seismology|p162-175
B|1038|e*Kaminuma,K.|Proceedings of the NIPR Symposium on Antarctic Geosciences|7|Ito,K.|Detection of reflected waves from the lower crust on the Mizuho Plateau from re-analysis of JARE-21 seismic refraction data||1994:Tokyo:National Institute of Polar Research|Lower crust+Refraction data+Reflected wave+Antarctica|p178. Abstract only
J|1039|Roeloffs,E.A.+Langbein,J.O.|The earthquake prediction experiment at Parkfield, California||#RGS:32:3:1994:315-336|Parkfield+Prediction+Monitoring+San Andreas Fault||#*PARKFIELD92
J|1040|Carlson,R.W.|Mechanisms of Earth differentiation: consequences for the chemical structure of the mantle||#RGS:32:4:1994:337-361|Velocity+Mantle+Hot spot+Composition
J|1041|Buckle,I.G.+Liu,H.|Experimental determination of critical loads of elastomeric isolators at high shear strain||#NCE:8:3:1994:1-5|Base isolation system+Earthquake engineering
J|1042||Review of `The Northridge, California earthquake of January 17, 1994: general reconnaissance report' edited by J. Goltz||#NCE:8:3:1994:18|Review+California+1994+Earthquake|NCEER Technical Report 94-0005, March 1994, 224p|#*NORTHRIDGE94
J|1043||Review of `The Northridge, California earthquake of January 17, 1994: performance of highway bridges' edited by I. G. Buckle||#NCE:8:3:1994:18|Review+California+1994+Earthquake|NCEER Technical Report 94-0008, March 1994, 132p|#*NORTHRIDGE94
J|1044||Review of `The Northridge, California earthquake of January 17, 1994: performance of gas transmission pipelines' by T. D. O'Rourke and M. C. Palmer||#NCE:8:3:1994:18|Review+California+1994+Earthquake|NCEER Technical Report 94-0011, May 1994, 92p|#*NORTHRIDGE94
J|1045|Martin,G.R.+Dobry,R.|Earthquake site response and seismic code provisions||#NCE:8:4:1994:1-6|Site response+Building code
J|1046|Wen,Y.K.+Hwang,H.H.M.+Shinozuka,M.|Development of reliability-based design criteria||#NCE:8:4:1994:7-11|Earthquake-resistant design+Building+Probability+Reliability
J|1047|Chabrier,G.|New clues help uncover Jupiter's inner secrets||Physics Wld:7:8:1994:26-27|Planet+Acoustic wave+Hydrogen+Velocity
J|1048|Whaler,K.A.|Voyages into the interior. Review of `Geophysical inverse theory' by R. L. Parker||Physics Wld:7:11:1994:47-48|Review+Inverse problem+Velocity|Princeton University Press, 1994, 386p
J|1049|Fremd,V.M.|Piezoelectrical primary transformers for seismometry|In Russian|#SMP:24:-:1993:12-18|Apparatus+Seismometry+Piezoelectricity
J|1050|Belyakov,A.S.|Magnetic-spring acoustic seismometer|In Russian|#SMP:24:-:1993:18-20|Apparatus+Seismometer
J|1051|Chebrov,V.N.+Sinetsyn,V.I.+Saltykov,V.A.+|Apparatus complex for studying of seismic noise|In Russian|#SMP:24:-:1993:21-23|Seismic noise+Apparatus
J|1052|Klinov,V.V.+Krivenko,N.E.+Kolesov,S.V.|Vibro-tester for field express-control of seismic vibrator's characteristics|In Russian|#SMP:24:-:1993:23-32|Vibrator+Apparatus
J|1053|Gorjunov,B.G.+Shnirman,G.L.|Elimination borehole inclination influence on angles of seismoregistration and angular positions of pendulum balance|In Russian|#SMP:24:-:1993:33-36|Borehole+Seismic recording
J|1054|Bashilov,I.P.+Rybkin,I.S.+Opekunova,E.A.+|Digital borehole three-component seismometer|In Russian|#SMP:24:-:1993:37-41|Borehole+Seismometer+Instrument+Digital recording
J|1055|Bashilov,I.P.+Bogoslovskih,I.A.+Ginzburg,A.A.+|Handy digital seismic station and vibration measuring|In Russian|#SMP:24:-:1993:42-51|Vibration+Apparatus+Measurement
J|1056|Aranovich,Z.I.+Golubev,V.G.+Negrebetsky,S.A.+|Apparatus-program complex for main seismic station (observatories)|In Russian|#SMP:24:-:1993:52-59|Apparatus+Observatory
J|1057|Vasil'ev,V.V.|The calculation of nonlinear load characteristics of seismic receiver's figure springs|In Russian|#SMP:24:-:1993:60-67|Receiver+Nonlinearity+Instrument
J|1058|Shnirman,G.L.|Adjustment of astatized seismometers by twisting pendulous springs|In Russian|#SMP:24:-:1993:67-75|Seismometer+Instrument
J|1059|Vasil'ev,V.V.|Realization of numerical calculation method of seismic receiver's figure springs|In Russian|#SMP:24:-:1993:76-80|Receiver+Instrument
J|1060|Chistyakov,V.A.|About compensation of seismic noise|In Russian|#SMP:24:-:1993:81-84|Seismic noise+Compensation+Measurement
J|1061|Gorjunov,B.G.+Shnirman,G.L.|Electrodynamic seismotransducer with elongated pole extension|In Russian|#SMP:24:-:1993:84-86|Transducer+Instrument
J|1062|Marchenkov,A.Yu.+Smirnov,Yu.N.|About parametric oscillations of a seismic sensor|In Russian|#SMP:24:-:1993:86-90|Sensor+Oscillation+Measurement
J|1063|Marchenkov,A.Yu.+Rykov,A.V.|Modelling of a seismometer with unstable pendulum|In Russian|#SMP:24:-:1993:90-94|Modelling+Seismometer+Instrument
J|1064|Koridalin,V.E.|Oscillatory motion of sensor in liquid medium|In Russian|#SMP:24:-:1993:95-97|Sensor+Oscillation+Liquid
J|1065|Zheleznyak,T.K.+Zheleznyak,L.K.|Thermocompensation of vertical seismometer by the use of liquid|In Russian|#SMP:24:-:1993:97-100|Seismometer+Liquid
J|1066|Mysh,A.G.+Potapov,O.A.|Unlinearity of seismotransducers|In Russian|#SMP:24:-:1993:100-105|Nonlinearity+Transducer
J|1067|Mysh,A.G.|Some supplements to the theory of pendulum seismometers|In Russian|#SMP:24:-:1993:106-113|Seismometer+Instrument
J|1068|Ulomov,I.V.|The triaxial piezoseismometer inertial mass suspension way|In Russian|#SMP:24:-:1993:113-116|Piezoelectricity+Seismometer+Instrument
J|1069|Mysh,A.G.|A formula of induction seismometers|In Russian|#SMP:24:-:1993:117-120|Seismometer+Instrument
J|1070|Matsievskiy,S.A.|Analysis of the transfer function of the seismometer STS-1|In Russian|#SMP:24:-:1993:121-129|Seismometer+Transfer function
J|1071|Kovalle,G.|About reliability of a seismic system|In Russian|#SMP:24:-:1993:129-132|Reliability+Seismic recording
J|1072|Gorjunov,B.G.+Shnirman,G.L.|Position finding center of seismometer pendulum gravity|In Russian|#SMP:24:-:1993:132-134|Seismometer+Instrument
J|1073|Bashilov,I.P.+Libin,V.Ya.+Spivak,A.A.|Seismic monitoring of underground burial-place industrial drains|In Russian|#SMP:24:-:1993:134-138|Monitoring+Underground structure
J|1074|Glavatovic,B.+Radovanovic,S.+Fremd,V.M.+|PC-based seismic monitoring system|In Russian|#SMP:24:-:1993:138-145|Monitoring+Personal computer
J|1075|Kapustyan,N.K.+Magnitskaya,N.N.+Nikolaev,A.V.|Equipment specification for crustal seismic monitoring|In Russian|#SMP:24:-:1993:145-153|Equipment+Monitoring+Crust
J|1076|Bashilov,I.P.+Spivak,A.A.+Davydov,A.A.|Local seismic monitoring system of the slope phenomena in Grosio|In Russian|#SMP:24:-:1993:154-158|Monitoring+Slope
J|1077|Lewis,J.|Earthquakes and war in Algeria||STOP Disasters:-:21:1994:20|Earthquake+Algeria+History||#*ELASNAM|#*MASCARA94
J|1078|Coty,P.A.+Tao,D.S.|Innovative resources on earthquake hazards mitigation||STOP Disasters:-:22:1994:22-23|Earthquake+Hazard+Mitigation+Data base
J|1079|Christova,C.|The Aegean region - seismogenic properties of deep seismically active structures||#SGE:38:3:1994:266-285|AEgean+Deep structure+b-Value+Seismogenesis+ISC
J|1080|Sasai,Y.|Piezomagnetic fields produced by dislocation sources||Survs Geophys.:15:4:1994:363-382|Seismomagnetic effect+Dislocation+Piezomagnetic effect+Faulting
J|1081|Zurn,W.+Rydelek,P.A.|Revisiting the Phasor-Walkout method for detailed investigation of harmonic signals in time series||Survs Geophys.:15:4:1994:409-431|Time series+Data analysis+Earthquake+Volcanic tremor||#*SANANTONIO
J|1082|Popp,T.+Kern,H.|The influence of dry and water saturated cracks on seismic velocities of crustal rocks - a comparison of experimental data with theoretical model||Survs Geophys.:15:5:1994:443-465|Crack+Velocity+Crust+Pore fluid
J|1083|Kern,H.+Popp,T.+Schmidt,R.|The effect of a deviatoric stress on physical rock properties. An experimental study simulating the in-situ stress field at the KTB drilling site, Germany||Survs Geophys.:15:5:1994:467-479|Stress+Rock+Physical properties+Velocity
J|1084|Johnston,J.E.+Christensen,N.I.|Elastic constants and velocity surfaces of indurated anisotropic shales||Survs Geophys.:15:5:1994:481-494|Phase velocity+Shale+Anisotropy+Laboratory
J|1085|Cockaerts,G.+De Cooman,P.|Measuring wave propagation characteristics in artificial sand-clay mixtures||Survs Geophys.:15:5:1994:495-513|Velocity+Laboratory+Sand+Clay
J|1086|Sobolev,S.V.+Babeyko,A.Yu.|Modeling of mineralogical composition, density and elastic wave velocities in anhydrous magmatic rocks||Survs Geophys.:15:5:1994:515-544|Velocity+Composition+Modelling+Rock
J|1087|Babeyko,A.Yu.+Sobolev,S.V.+Sinelnikov,E.D.+|Calculation of elastic properties in lower part of the Kola borehole from bulk chemical compositions of core samples||Survs Geophys.:15:5:1994:545-573|Velocity+Borehole+Composition+Mineral
J|1088|Mainprice,D.+Humbert,M.|Methods of calculating petrophysical properties from lattice preferred orientation data||Survs Geophys.:15:5:1994:575-592|Physical properties+Orientation+Velocity+Anisotropy
J|1089|Burlini,L.|A model for the calculation of the seismic properties of geologic units||Survs Geophys.:15:5:1994:593-617|Anisotropy+Crust+Ivrea+Geologic structure
J|1090|Zappone,A.|Calculated and observed seismic behaviour of exposed upper mantle||Survs Geophys.:15:5:1994:619-642|Upper mantle+Anisotropy+Rock+Ivrea
J|1091|Luneva,M.+Wang,C.+Chang,Y.F.+|Numerical and physical experiments on dynamic properties of elastic body waves at the boundary with non-rigid contact between media||#TAO:5:4:1994:443-461|Body wave+Interface+Reflexion coefficient+Transmission coefficient
J|1092|Chiu,H-C.+Yeh,Y.T.+Ni,S-D.+|A new strong-motion array in Taiwan: SMART-2||#TAO:5:4:1994:463-475|Taiwan+SMART 2 array+Instrumentation+Station location||#*TAIWAN93
J|1093|Chow,J.+Lin,C-H.|Shallow seismics of recent sediments deposited in the Miaoli-Hsinchu offshore area, Taiwan||#TAO:5:4:1994:585-596|Sediment+Seismics+Taiwan+Offshore
J|1094|Ma,K-F.+Kikuchi,M.|Initial investigation of the May 24, 1994 Hualien and June 5, 1994 Nanao earthquakes||#TAO:5:4:1994:611-623|Source-time function+Earthquake+1994+Taiwan||#*HUALIEN94|#*NANAO94
J|1095|Barnes,P.M.|Continental extension of the Pacific Plate at the southern termination of the Hikurangi subduction zone: the North Mernoo fault zone, offshore New Zealand||Tectonics:13:4:1994:735-754|Reflexion data+New Zealand+Fault zone+Profile
J|1096|Bandy,W.L.+Pardo,M.|Statistical examination of the existence and relative motion of the Jalisco and southern Mexico blocks||Tectonics:13:4:1994:755-768|Lithosphere+Block+Focal mechanism+Central America+ISC
J|1097|Savage,M.K.+Li,L.+Eaton,J.P.+|Earthquake refraction profiles of the root of the Sierra Nevada||Tectonics:13:4:1994:803-817|Sierra Nevada+Earthquake+Profile+Moho||#*DURRWOOD
J|1098|Gordon,M.B.+Muehlberger,W.R.|Rotation of the Chortis block causes dextral slip on the Guayape fault||Tectonics:13:4:1994:858-872|Seismicity+Central America+Strike-slip+Rotation
J|1099|Calamita,F.+Cello,G.+Deiana,G.+|Structural styles, chronology rates of deformation, and time-space relationships in the Umbria-Marche thrust system (central Apennines, Italy)||Tectonics:13:4:1994:873-881|Apennines+Deformation+Transect+Geological data
J|1100|Holt,W.E.+Stern,T.A.|Subduction, platform subsidence, and foreland thrust loading: the late Tertiary development of Taranaki Basin, New Zealand||Tectonics:13:5:1994:1068-1092|New Zealand+Deformation+Deep seismic sounding+Plate boundary
J|1101|Protti,M.+Schwartz,S.Y.|Mechanics of back arc deformation in Costa Rica: evidence from an aftershock study of the April 22, 1991, Valle de la Estrella, Costa Rica, earthquake (Mw=7.7)||Tectonics:13:5:1994:1093-1107|Aftershock+1991+Costa Rica+Back-arc||#*COSTARICA91
J|1102|McBride,J.H.|Investigating the crustal structure of a strike-slip "step-over" zone along the Great Glen fault||Tectonics:13:5:1994:1150-1160|Crustal structure+Strike-slip+Scotland+Marine seismic investigation
J|1103|Templeton,M.E.+Smithson,S.B.|Seismic reflection profiling of the Cheyenne belt Proterozoic suture in the Medicine Bow Mountains, southeastern Wyoming: a tie to geology||Tectonics:13:5:1994:1231-1241|Profiling+Wyoming+Reflexion data+Suture
J|1104|Nodder,S.D.|Correction to `Characterizing potential offshore seismic sources using high-resolution geophysical and seafloor sampling programs: an example from Cape Egmont fault zone, Taranaki shelf, New Zealand'||Tectonics:13:5:1994:1322-1325|Errata+New Zealand+Seismic potential+Marine seismic source
J|1105|Maldonado,A.+Larter,R.D.+Aldaya,F.|Forearc tectonic evolution of the South Shetland margin, Antarctic Peninsula||Tectonics:13:6:1994:1345-1370|Antarctic+GLORIA+Profile+Marine seismic investigation
J|1106|Waldron,J.W.F.+Stockmal,G.S.|Structural and tectonic evolution of the Humber zone, western Newfoundland, 2. A regional model for Acadian thrust tectonics||Tectonics:13:6:1994:1498-1513|Appalachians+Evolution+Lithoprobe
J|1107|Melekestsev,I.V.+Kurbatov,A.V.+Pevzner,M.M.+|"Prehistoric" tsunami and large earthquakes in the Kamchatsky peninsula (Kamchatka) as shown by tephrochronological data|In Russian with English abstract|#VSM:-:4-5:1994:106-115|Tsunami+Kamchatka+Historical earthquake+Two thousand years||#*USTKAMCHAT|#*KAMCHATKA2|#*KAMCHATKA84
J|1108|Zobin,V.M.+Levina,V.I.|Dependence of energy class - magnitude correlation on stress level for earthquakes of the Kamchatka-Commander region|In Russian with English abstract|#VSM:-:4-5:1994:116-120|Kamchatka+Earthquake+Magnitude+Correlation
J|1109|Levin,B.V.+Sassorova,E.V.|Seismic wave low-frequency precursor of the earthquake preparation|In Russian with English abstract|#VSM:-:4-5:1994:128-133|Precursor+Low frequency+Pattern recognition+Russia
J|1110|Popov,A.M.+Naidich,V.I.+Khramtsov,A.A.+|Electromagnetic precursors and focal mechanism physics on the example of the Baikal area|In Russian with English abstract|#VSM:-:4-5:1994:134-143|Baikal+Focal mechanism+Precursor+Electromagnetic field
J|1111|Khavroshkin,O.B.+Tsyplakov,V.V.|Implementation of seismic emissive sonde for the recording of noise from internal deep structure|In Russian with English abstract|#VSM:-:4-5:1994:144-151|Deep structure+Seismic noise+High frequency+Method
J|1112|Bourmin,V.Yu.|Determination of velocity of propagation of seismic waves in mantle and radius Earth's core by arrival times of P- and PcP-waves|In Russian with English abstract|#VSM:-:4-5:1994:191-204|Velocity+Mantle+P-wave+PcP-wave+Core
J|1113|Ananko,M.Y.+Smirnov,V.B.|High-frequency seismic noise generation by surface wind action|In Russian with English abstract|#VSM:-:4-5:1994:205-214|High frequency+Seismic noise+Wind+Temperature
J|1114|Masson,D.G.+Cartwright,J.A.+Piheiro,L.M.+|Compressional deformation at the ocean-continent transition in the NE Atlantic||#JGL:151:4:1994:607-613|North Atlantic+Reflexion study+Continental margin+Deformation
J|1115|Macdonald,R.+Williams,L.A.+Gass,I.G.+|Tectonomagmatic evolution of the Kenya rift valley: some geological perspectives||#JGL:151:5:1994:879-888|Velocity structure+Kenya+Rift valley+Tectonomagnetism
J|1116|Brooks,M.+Miliorizos,M.+Hillier,B.V.|Deep structure of the Vale of Glamorgan, South Wales, UK||#JGL:151:6:1994:909-917|Deep structure+Wales+Seismic survey+Basement
J|1117|Smith,K.+Gatliff,R.W.+Smith,N.J.P.|Discussion on the amount of Tertiary erosion in the UK estimated using sonic velocity analysis (two papers by R. R. Hillis)||#JGL:151:6:1994:1041-1044|Comments+Sonic log+United Kingdom+Erosion|With a reply by the author
J|1118|Shteinberg,V.V.+Saks,M.V.+Aptikayev,F.F.+|Methods of seismic ground motions estimation (Handbook)|In Russian|#VIS:34:-:1993:5-94|Ground motion+Method+Data analysis
J|1119|Burtiev,R.V.+Onofrash,N.I.|About statistic methods of seismicity parameters determination|In Russian|#VIS:34:-:1993:94-97|Statistical method+Parameters
J|1120|Godzikovskaya,A.A.+Bugayevsky,A.G.+Tsibulchyk,I.D.|The Caucasus lasting seismostructures distinguished by seismological data|In Russian|#VIS:34:-:1993:98-115|Caucasus+Deep structure+Earthquake+ISC
J|1121|Nikonov,A.A.|Ejections of grounds and objects during strong earthquakes|In Russian|#VIS:34:-:1993:115-123|Strong earthquake+Surface deformation
J|1122|Jibson,R.W.+Prentice,C.S.+Philip,H.+|Ground disturbances during Racha 29.04.1991 earthquake|In Russian|#VIS:34:-:1993:123-137|Earthquake+Caucasus+1991+Surface deformation||#*WCAUCASUS91
J|1123|Belousov,T.P.|Rachi 1991 earthquake influence on decahedral building|In Russian|#VIS:34:-:1993:138-140|Earthquake+Caucasus+1991+Building||#*WCAUCASUS91
J|1124|Ovsepjan,A.A.+Grigorjan,V.G.|The results of Spitak earthquake macroseismic inspection on Spitak and Leninakan territories|In Russian|#VIS:34:-:1993:140-148|Spitak+Macroseismicity+Field work||#*ARMENIA88
J|1125|Aleshin,A.S.+Kudrjavtsev,I.A.|Seismic ground motions influence on compaction of incoherent grounds|In Russian|#VIS:34:-:1993:149-153|Ground motion+Coherency+Soil
J|1126|Duffy,T.S.|Properties of hydrogen at high pressure: implications for Jovian seismology||#YBC:93:-:1994:78-84|Planet+Seismology+High pressure+Hydrogen
J|1127|Smith,R.B.+Braile,L.W.|The Yellowstone hotspot||#JVG:61:3-4:1994:121-187|Hot spot+Yellowstone+Seismicity+Geophysical investigation
J|1128|Amato,A.+Chiarabba,C.+Cocco,M.+|The 1989-1990 seismic swarm in the Alban Hills volcanic area, central Italy||#JVG:61:3-4:1994:225-237|Swarm+1989-1990+Italy+Historical seismicity
J|1129|Ereditato,D.+Luongo,G.|Volcanic tremor wave field during quiescent and eruptive activity at Mt. Etna (Sicily)||#JVG:61:3-4:1994:239-251|Mount Etna+Volcanic tremor+Activity+Polarization
J|1130|Patane,G.+Montalto,A.+Imposa,S.+|The role of regional tectonics, magma pressure and gravitational spreading in earthquakes of the eastern sector of Mt. Etna volcano (Italy)||#JVG:61:3-4:1994:253-266|Mount Etna+Tectonics+Earthquake+Macroseismic data
J|1131|Berrino,G.|Gravity changes induced by height-mass variations at the Campi Flegrei caldera||#JVG:61:3-4:1994:293-309|Campi Flegrei+Uplift+Gravity+Seismicity
J|1132|Miller,T.P.+Chouet,B.A.|The 1989-1990 eruptions of Redoubt Volcano: an introduction||#JVG:62:1-4:1994:1-10|Eruption+Volcanic tremor+1989-1990+Alaska
J|1133|Power,J.A.+Lahr,J.C.+Page,R.A.+|Seismic evolution of the 1989-1990 eruption sequence of Redoubt Volcano, Alaska||#JVG:62:1-4:1994:69-94|Alaska+1989-1990+Eruption+Volcanic tremor
J|1134|Chouet,B.A.+Page,R.A.+Stephens,C.D.+|Precursory swarms of long-period events at Redoubt Volcano (1989-1990), Alaska: their origin and use as a forecasting tool||#JVG:62:1-4:1994:95-135|Alaska+1989-1990+Precursor+Eruption
J|1135|Lahr,J.C.+Chouet,B.A.+Stephens,C.D.+|Earthquake classification, location, and error analysis in a volcanic environment: implications for the magmatic system of the 1989-1990 eruptions at Redoubt Volcano, Alaska||#JVG:62:1-4:1994:137-151|Earthquake+1989-1990+Volcanism+Alaska
J|1136|Stephens,C.D.+Chouet,B.A.+Page,R.A.+|Seismological aspects of the 1989-1990 eruptions at Redoubt Volcano, Alaska: the SSAM perspective||#JVG:62:1-4:1994:153-182|Monitoring+1989-1990+Alaska+Eruption
J|1137|Page,R.A.+Lahr,J.C.+Chouet,B.A.+|Statistical forecasting of repetitious dome failures during the waning eruption of Redoubt Volcano, Alaska, February-April 1990||#JVG:62:1-4:1994:183-196|Precursor+Eruption+1990+Alaska
J|1138|Gardner,C.A.+Neal,C.A.+Waitt,R.B.+|Proximal pyroclastic deposits from the 1989-1990 eruption of Redoubt Volcano, Alaska - stratigraphy, distribution, and physical characteristics||#JVG:62:1-4:1994:213-250|Volcanic tremor+Eruption+1989-1990+Alaska
J|1139|Woods,A.W.+Kienle,J.|The dynamics and thermodynamics of volcanic clouds: theory and observations from the April 15 and April 21, 1990 eruptions of Redoubt Volcano, Alaska||#JVG:62:1-4:1994:273-299|Eruption+1990+Alaska+Volcanic tremor
J|1140|Cornelius,R.R.+Voight,B.|Seismological aspects of the 1989-1990 eruption at Redoubt Volcano, Alaska: the Materials Failure Forecast Method (FFM) with RSAM and SSAM seismic data||#JVG:62:1-4:1994:469-498|1989-1990+Alaska+Eruption+Volcanic tremor
J|1141|Sawada,M.|B-type and explosion earthquakes observed at Asama volcano, central Japan||#JVG:63:3-4:1994:111-128|Earthquake+Japan+Volcano+Explosion
J|1142|Mori,J.J.|Overview: the Northridge earthquake: damage to an urban environment||#EQV:25:1:1994:4-11|Earthquake+Damage+1994+Los Angeles||#*NORTHRIDGE94
J|1143|Yerkes,R.F.|The tectonic setting of the Northridge earthquake||#EQV:25:1:1994:12-17|Tectonics+Earthquake+Focal mechanism+Transverse Ranges||#*NORTHRIDGE94|#*SANGABRIEL91|#*WHITTIER|#*SANTABARBARA|#*SANFERNANDO
J|1144|Hauksson,E.+Jones,L.M.|Seismology: the Northridge earthquake and its aftershocks||#EQV:25:1:1994:18-30|Earthquake+1994+Southern California+Aftershock||#*NORTHRIDGE94|#*SANFERNANDO
J|1145|Jibson,R.W.+Harp,E.L.+Keefer,D.K.+|Landslides triggered by the Northridge earthquake||#EQV:25:1:1994:31-41|Landslide+Los Angeles+1994+Earthquake||#*NORTHRIDGE94
J|1146|Wald,D.J.+Heaton,T.H.+Wald,L.A.|Rupture analysis of the Northridge earthquake from modeling strong motion recordings||#EQV:25:1:1994:42-47|Southern California+Earthquake+Rupture+Slip||#*NORTHRIDGE94|#*LANDERS92|#*LOMAPRIETA89|#*SANFERNANDO|#*SANGABRIEL91
J|1147|Person,W.J.|Earthquakes January-February 1994||#EQV:25:1:1994:48-52|Earthquake+1994+Casualties
J|1148|Murray,M.H.+Hudnut,K.W.|Measuring regional ground deformation with the Global Positioning System||#EQV:25:2:1994:62-74|Crustal deformation+Southern California+1994+Earthquake||#*NORTHRIDGE94
J|1149|Mueller,C.|Ground motion||#EQV:25:2:1994:75-84|Ground motion+Southern California+Earthquake+1994||#*NORTHRIDGE94
J|1150|Dewey,J.W.|Intensities and isoseismals||#EQV:25:2:1994:85-93|Isoseismal+Southern California+Earthquake+1994||#*NORTHRIDGE94
J|1151|Celebi,M.+Brown,R.D.|Structural damage||#EQV:25:2:1994:94-102|Damage+Earthquake+1994+Los Angeles||#*NORTHRIDGE94
J|1152|Brown,R.D.|Lessons reaffirmed, extended, or revealed||#EQV:25:2:1994:103-106|Hazard+Southern California+1994+Earthquake||#*NORTHRIDGE94
J|1153|Person,W.J.|Earthquakes March-April 1994||#EQV:25:2:1994:107-110|Earthquake+1994+Casualties
J|1154|Gusiakov,S.+Curtis,G.|In memory of Professor Sergei Soloviev (1930-1994)||Tsunami Newsl.:26:1:1994:1-2|Obituary+Tsunami+Seismology
J|1155||Earthquake and tsunami report, December 1993 through June 1994. Three local tsunamis generated||Tsunami Newsl.:26:1:1994:3|Tsunami+Earthquake+1993-1994+Global seismicity|News events|#*JAVA94|#*BOLIVIA94|#*NORTHRIDGE94|#*COLOMBIA94|#*NANAO94|#*HALMAHERA94
J|1156||Powerful earthquake and killer tsunami hits Indonesia on June 3, 1994||Tsunami Newsl.:26:1:1994:3-4|Earthquake+1994+Tsunami+Indonesia|News events|#*JAVA94
J|1157||Earthquake jolts Los Angeles Basin, US$ 15+ billion in damage reported||Tsunami Newsl.:26:1:1994:4-5|Los Angeles+1994+Earthquake+Uplift|News events|#*NORTHRIDGE94
J|1158||Halmahera Island (Indonesia) earthquake and tsunami, January 21, 1994||Tsunami Newsl.:26:1:1994:5|Earthquake+1994+Indonesia+Tsunami|News events|#*HALMAHERA94
J|1159||Sumatra Island (Indonesia) earthquake of February 15, 1994||Tsunami Newsl.:26:1:1994:5|Earthquake+1994+Indonesia+Casualties|News events|#*SUMATERA94
J|1160|Nikitin,P.|Tsunami runup distribution in Russia||Tsunami Newsl.:26:1:1994:5|Earthquake+1993+Tsunami+Sea of Japan|News events|#*SEAOFJAPAN
J|1161|Imamura,F.|Preliminary report, 1994 East Java Indonesia earthquake and tsunami||Tsunami Newsl.:26:1:1994:13-14|Earthquake+1994+Tsunami+Indonesia|National and area reports|#*JAVA94
J|1162||Summary of Pacific Basin earthquakes||Tsunami Newsl.:26:1:1994:24|Earthquake+1993-1994+Pacific Basin
J|1163|Elsworth,Y.|Review of `GONG 1992: seismic investigation of the Sun and stars' edited by T. M. Brown||Observatory:114:1122:1994:243|Review+Helioseismology+Network+Inversion|Astronomical Society of the Pacific, San Francisco, 1993, 495p
J|1164|Czechowski,Z.|A kinetic model of the evolution of cracks|With Polish abstract|#PAA:-:262:1994:3-46|Kinetics+Crack+Model+Seismogenesis
A|1165|e*Verba,M.L.+Veresov,S.A.+Voronov,P.S.+|Geological literature USSR. Bibliographical yearbook for 1989 year|In Russian|1994:Saint Petersburg:Russian Geological Library|Bibliography+Geology+Former Soviet Union+Prospecting+Earth sciences|Volume I 435p, Volume II 511p
B|1166|e*Pustovitenko,B.G.+Drumya,A.V.+Kostyuk,O.P.+|Seismological bulletin of the western zone of the seismological observation network of the Ukraine and Moldova for 1990||Pustovitenko,B.G.+Kul'chitsky,V.Ye.+Pustovitenko,A.N.+|The peculiarities of seismicity in the Crimea-Black Sea region in 1990|In Russian|1994:Ukraine:S.I.Subbotin Institute of Geophysics|Seismicity+1990+Crimea+Black Sea|p156-162
B|1167|e*Pustovitenko,B.G.+Drumya,A.V.+Kostyuk,O.P.+|Seismological bulletin of the western zone of the seismological observation network of the Ukraine and Moldova for 1990||Kostyuk,O.P.+Rudenskaya,I.M.+Moskalenko,T.P.|The seismicity of the Carpathians in 1990|In Russian|1994:Ukraine:S.I.Subbotin Institute of Geophysics|Seismicity+1990+Carpathians+Map|p163-167
B|1168|e*Pustovitenko,B.G.+Drumya,A.V.+Kostyuk,O.P.+|Seismological bulletin of the western zone of the seismological observation network of the Ukraine and Moldova for 1990||Panteleeva,T.A.|Spectra and dynamic characteristics of earthquake focus in Crimea in 1990|In Russian|1994:Ukraine:S.I.Subbotin Institute of Geophysics|Spectrum+1990+Crimea+Dynamics|p167-179
B|1169|e*Pustovitenko,B.G.+Drumya,A.V.+Kostyuk,O.P.+|Seismological bulletin of the western zone of the seismological observation network of the Ukraine and Moldova for 1990||Mametova,N.S.+Pustovitenko,B.G.|The peculiarities of dynamic characteristics of seismic waves from industrial explosions and local earthquakes|In Russian|1994:Ukraine:S.I.Subbotin Institute of Geophysics|Explosion+Local earthquake+Dynamics|p180-187
B|1170|e*Pustovitenko,B.G.+Drumya,A.V.+Kostyuk,O.P.+|Seismological bulletin of the western zone of the seismological observation network of the Ukraine and Moldova for 1990||Knyazeva,V.S.+Korolyov,V.A.+Kostyuk,O.P.|The macroseismic data of Carpathian earthquakes of 30th and 31st of May 1990 in the territory of Ukraine|In Russian|1994:Ukraine:S.I.Subbotin Institute of Geophysics|Carpathians+1990+Macroseismic data+Isoseismal map|p188-194
J|1171|Wang,J-H.|Scaling of synthetic seismicity from a one-dimensional dissipative, dynamic lattice model||#BAS:14:-:1994:14|Scaling+Lattice+Seismicity+Model|Abstract only
J|1172|Wen,K-L.+Beresnev,I.A.+Yeh,Y.T.|High-frequency generation effect caused by nonlinear rock response in strong seismic motion propagation||#BAS:14:-:1994:17|Strong motion+Nonlinearity+High frequency+Rock|Abstract only
J|1173|Wen,K-L.+Shin,T-C.+Peng,H-Y.+|Preliminary analysis of site responses in the Taipei Basin||#BAS:14:-:1994:18|Site response+Taiwan+Basin+Network|Abstract only
J|1174|Wen,K-L.+Peng,H-Y.+Dravinski,M.|Characteristics of ground motions by 3D hemispherical basin under the incident plane waves||#BAS:14:-:1994:19|Ground motion+Basin+Plane wave+Ricker wavelet|Abstract only
J|1175|Lin,C-H.|A review of receiver function techniques for estimation of one-dimensional velocity structures||#BAS:14:-:1994:29-32|Velocity structure+Converted wave+Modelling+S-wave
J|1176|Lin,C-H.|Epicenter estimation capability of a small aperture array||#BAS:14:-:1994:33-35|Epicentre+Aperture+Array+Azimuth
B|1177|e*Buforn,E.+Udias,A.+Madariaga,R.|Focal mechanism of earthquakes|Fisica de la Tierra No.6|Udias,A.|Mechanism of earthquakes: kinematic models|In Spanish with English abstract|1994:Madrid:Cuidad University|Mechanism+Earthquake+Kinematics+Model|p11-27
B|1178|e*Buforn,E.+Udias,A.+Madariaga,R.|Focal mechanism of earthquakes|Fisica de la Tierra No.6|Madariaga,R.|Dynamic of seismic source|In Spanish with English abstract|1994:Madrid:Cuidad University|Dynamics+Source+Friction+Fault|p29-72
B|1179|e*Buforn,E.+Udias,A.+Madariaga,R.|Focal mechanism of earthquakes|Fisica de la Tierra No.6|Zahradnik,J.|Energy of earthquakes and seismic sources|In Spanish with English abstract|1994:Madrid:Cuidad University|Energy+Earthquake+Size+Seismic moment tensor|p73-111
B|1180|e*Buforn,E.+Udias,A.+Madariaga,R.|Focal mechanism of earthquakes|Fisica de la Tierra No.6|Buforn,E.|Methods for estimation of focal mechanism of earthquakes|In Spanish with English abstract|1994:Madrid:Cuidad University|Focal mechanism+Earthquake+Source+Method|p113-139
B|1181|e*Buforn,E.+Udias,A.+Madariaga,R.|Focal mechanism of earthquakes|Fisica de la Tierra No.6|Mendoza,C.|Kinematic modelling of seismic sources in a finite fault: applications|In Spanish with English abstract|1994:Madrid:Cuidad University|Source+Fault+Modelling+Earthquake|p141-156|#*UNGAVA89|#*SANANTONIO|#*PETATLAN
B|1182|e*Buforn,E.+Udias,A.+Madariaga,R.|Focal mechanism of earthquakes|Fisica de la Tierra No.6|Chavez-Garcia,F.J.+Sanchez-Sesma,F.J.+Campillo,M.+|The great Michoacan earthquake of September 1985: source, path and site effects|In Spanish with English abstract|1994:Madrid:Cuidad University|Earthquake+1985+Mexico City+Source|p157-200|#*MEXICOCITY
B|1183|e*Buforn,E.+Udias,A.+Madariaga,R.|Focal mechanism of earthquakes|Fisica de la Tierra No.6|Ruegg,J-C.|Crustal deformation and earthquakes: application to the seismic cycle study in northern Chile|In Spanish with English abstract|1994:Madrid:Cuidad University|Crustal deformation+Earthquake cycle+Chile+Global Positioning System|p201-243
A|1184|Martins,I.+Mendes-Victor,L.A.|Contribution to the medium-term earthquake prediction|In Portugese with English abstract|1994:Lisbon:Lisbon University|Prediction+Iberia+1900-1994+Earthquake catalogue|Publication No.23. 26p
A|1185|Rantucci,G.|Geological disasters in the Philippines. The July 1990 earthquake and the June 1991 eruption of Mount Pinatubo||1994:Rome:Italian Ministry of Foreign Affairs|Earthquake+1990+Luzon+Natural disaster|154p|#*LUZON90A
B|1186|Berz,G.|Schadenspiegel|Special Issue|Rauch,E.|The earthquake in Northridge, California, on 17th January 1994||1994:Munich:Munich Reinsurance Company|Southern California+1994+Earthquake+Damage|p3-13|#*NORTHRIDGE94
B|1187|Berz,G.|Schadenspiegel|Special Issue|Smolka,A.|Earthquake review 1984-1993||1994:Munich:Munich Reinsurance Company|Earthquake+Damage+1984-1993+Loss|p14-31|#*LATUR93|#*MARIANAS93|#*SEAOFJAPAN93|#*KUSHIRO93|#*FLORES92|#*CAIRO92
A|1188|Pascual,G.+Carreno,E.+Martin,A.J.|Seismic microzonation based on a system of geographical information|In Spanish|1994:Madrid:Instituto Geografico Nacional|Granada+Microzoning+Liquefaction|Technical Publication No.28. 35p
A|1189|Scherbaum,F.|Basic concepts in digital signal processing for seismologists||1994:Godalming, UK:Springer-Verlag|Digital processing+Signal+Observational seismology+Filter|158p
A|1190|e*Bucha,V.+Blizkovsky,M.|Crustal structure of the Bohemian Massif and the west Carpathians||1994:Godalming, UK:Springer-Verlag|Crustal structure+Bohemian Massif+Carpathians+Solid-earth geophysics|355p
J|1191|Bock,G.+Hanka,W.+Kind,R.|EMSC rapid source parameter determination||CSEM/EMSC Newsl.:-:6:1994:2-4|Source parameter+Earthquake+1994+Eurasia||#*MASCARA94
J|1192||EMSC strong motion database||CSEM/EMSC Newsl.:-:6:1994:5-7|Strong motion+Data base+Earthquake+Eurasia||#*ARMENIA88|#*GAZLI|#*GAZLI3
A|1193|Lomnitz,C.|Fundamentals of earthquake prediction||1994:New York:Wiley|Prediction
A|1194||Earthquake hazard and risk in the UK||1993:London:HMSO|Hazard+Risk+United Kingdom
A|1195|Hodgson,J.H.|The heavens above and the Earth beneath; a history of the Dominion observatories||1994:Ottawa:Geological Survey of Canada|History+Observatory|Part 1 193p; Part 2 257p. Open file 1945
A|1196|Marone,C.+Blanpied,M.L.|Faulting, friction, and earthquake mechanics||1994:Basel:Birkhauser Verlag AG|Faulting+Friction+Mechanics|Part 2 516p
A|1196|Marone,C.+Blanpied,M.L.|Faulting, friction, and earthquake mechanics||1994:Basel:Birkhauser Verlag AG|Faulting+Friction+Mechanics|Part 2 516p