V|1993:1||Bibliography of seismology. 1993 January-June|ISC:29:1:1994
J|0001|Melosh,H.J.|Tunguska comes down to Earth||#NAT:361:6407:1993:14-15|Atmosphere+Tunguska+Explosion+Seismic record|News and views
J|0002|Chyba,C.F.+Thomas,P.J.+Zahnle,K.J.|The 1908 Tunguska explosion: atmospheric disruption of a stony asteroid||#NAT:361:6407:1993:40-44|Atmosphere+Tunguska+Explosion+Seismic record
J|0003|Green,H.W.|The mechanism of deep earthquakes||#EOS:74:2:1993:23|Deep earthquake+Mechanism+Subduction zone+Faulting
J|0004|Wenk,H-R.|A new view of mantle structure||#EOS:74:2:1993:24-25|Mantle+Structure+Anisotropy+Convection
J|0005|Wysession,M.E.|How the core and mantle may produce mantle plumes||#EOS:74:4:1993:46|Core-mantle boundary+Mantle plume+Indonesia+Low-velocity layer
J|0006|Christensen,U.|A natural mineral filter||#NAT:361:6410:1993:303-304|Mantle convection+670km discontinuity+Geochemistry|News and views
J|0007|Bock,Y.+Agnew,D.C.+Fang,P.+|Detection of crustal deformation from the Landers earthquake sequence using continuous geodetic measurements||#NAT:361:6410:1993:337-340|Deformation+1992+Southern California+Earthquake||#*LANDERS92|#*BIGBEAR92
J|0008|Blewitt,G.+Heflin,M.B.+Hurst,K.J.+|Absolute far-field displacements from the 28 June 1992 Landers earthquake sequence||#NAT:361:6410:1993:340-342|Earthquake+1992+Southern California+Displacement||#*LANDERS92|#*BIGBEAR92
J|0009|Rymer,H.+Murray,J.B.+Brown,G.C.+|Mechanisms of magma eruption and emplacement at Mt Etna between 1989 and 1992||#NAT:361:6411:1993:439-441|Eruption+1989-1992+Mount Etna+Magma
J|0010|Wysession,M.E.|A window to the core||#NAT:361:6412:1993:495-496|Core+China+D"-layer+Underground nuclear explosion||#*LOPNOR92
J|0011|Vidale,J.E.+Benz,H.M.|Seismological mapping of fine structure near the base of the Earth's mantle||#NAT:361:6412:1993:529-532|D"-layer+Underground nuclear explosion+China+Travel-times||#*LOPNOR92
J|0012|White,R.S.|Hot and cold rifts||#EOS:74:5:1993:58|Continental margin+Rift+Hatton Bank+Crustal structure
J|0013|Kirby,S.+Hacker,B.|Earthquakes at the deep roots of arc volcanos||#EOS:74:6:1993:70|Arc+Volcano+Intermediate-depth earthquake+Subduction zone
J|0014|Tao,W.C.+O'Connell,R.J.|Deformation of a weak subducted slab and variation of seismicity with depth||#NAT:361:6413:1993:626-628|Subduction+Slab+Depth+Deformation
J|0015|Yeh,H.H.|Disaster on Flores Island||#NAT:361:6414:1993:686|Indonesia+Disaster+Tsunami|News and views|#*FLORES92
J|0016|Okal,E.A.|Predicting large tsunamis||#NAT:361:6414:1993:686-687|Tsunami+Prediction+Indonesia+Nicaragua|News and views|#*FLORES92|#*NICARAGUA92
J|0017|King,S.D.|Seeing the mantle in the round||#NAT:361:6414:1993:688-689|Mantle convection+Phase transformation+670km discontinuity+Subduction|News and views
J|0018|Tackley,P.J.+Stevenson,D.J.+Glatzmaier,G.A.+|Effects of an endothermic phase transition at 670km depth in a spherical model of convection in the Earth's mantle||#NAT:361:6414:1993:699-704|Phase transition+670km discontinuity+Mantle convection+Subduction
J|0019|Kanamori,H.+Kikuchi,M.|The 1992 Nicaragua earthquake: a slow tsunami earthquake associated with subducted sediments||#NAT:361:6414:1993:714-716|Nicaragua+1992+Slow earthquake+Tsunami||#*NICARAGUA92|#*LANDERS92
J|0020|White,R.S.|Melting and melt-movement in the Earth||#EOS:74:8:1993:85|Melting+Basalt+Microearthquake+Mantle plume
J|0021|McBride,J.H.+Hobbs,R.W.+a-STREAMERS Working Group|Deep seismic surveys in the Mediterranean Sea||#EOS:74:8:1993:87|Reflexion study+Mediterranean+Marine seismic investigation+BIRPS
J|0022|Woods,B.B.+Helmberger,D.V.|A new seismic discriminant for earthquakes and explosions||#EOS:74:8:1993:91|Discrimination+Nuclear explosion+Magnitude+Moment
J|0023|Lowry,D.|2010: America's nuclear waste odyssey||#NSC:-:1863:1993:30-33|Nuclear waste+Seismicity+Yucca Mountain
J|0024||Ripples in `earth current' may signal quakes||#NSC:-:1866:1993:8|Major earthquake+Prediction+Japan+Electrical conductivity|This week
J|0025|Blue,C.|Mantle downwelling causes continental depressions||#EOS:74:9:1993:98|Tomography+Mantle+Isostasy+Depression
J|0026|Rubin,K.+Mahoney,J.|What's on the plume channel?||#NAT:362:6416:1993:109-110|Basalt+Mid-ocean ridge+Mantle plume+Profiling|News and views
J|0027|Wetzel,L.R.+Wiens,D.A.+Kleinrock,M.C.|Evidence from earthquakes for bookshelf faulting at large non-transform ridge offsets||#NAT:362:6417:1993:235-237|Faulting+Mid-ocean ridge+Earthquake+Focal mechanism
J|0028|Lamb,S.H.|Going with the flow||#NAT:362:6418:1993:294-295|Crustal movement+Plate boundary+Strain+Asia+AEgean|News and views
J|0029|White,R.S.|Breaking up is hard to understand||#NSC:-:1867:1993:25-29|North Atlantic+Continental drift+Seismic survey+Ocean
J|0030||Quake watchers probe California's weak spot||#NSC:-:1871:1993:8|San Andreas Fault+Drilling+Pore pressure|This week
J|0031||Standing on shaky ground||#NAT:362:6419:1993:398|San Andreas Fault+Mechanism+Borehole+Drilling
J|0032||In a state of shock||#NAT:362:6419:1993:398-399|San Andreas Fault+Hazard+Probability||#*JOSHUATREE92
J|0033|Christensen-Dalsgaard,J.|Seismology makes waves||#NAT:362:6419:1993:409-410|Helioseismology+Travel-times+Acoustic wave|News and views
J|0034|Duvall,T.L.+Jefferies,S.M.+Harvey,J.W.+|Time-distance helioseismology||#NAT:362:6419:1993:430-432|Helioseismology+Travel-times+Acoustic wave
J|0035|Sammis,C.G.|No need to stick to the point||#NAT:362:6421:1993:588-589|Friction+Laboratory+Fault-slip+Nucleation|News and views
J|0036|Marone,C.+Kilgore,B.D.|Scaling of the critical slip distance for seismic faulting with shear strain in fault zones||#NAT:362:6421:1993:618-621|Gouge+Fault-slip+Laboratory+Friction
J|0037|Fink,J.|Fire and brimstone. Review of `The Lyman Hawaiian earthquake diary, 1833-1917' by M. Wyss, R. Y. Koyanagi and D. C. Cox||#NAT:362:6421:1993:660|Review+Hawaii+1833-1917+Earthquake|USGS, 1992
J|0038|Burke,K.|What the British do best. Review of `Encyclopedia of the Solid Earth Sciences' edited by P. Keary||#NAT:362:6423:1993:800|Review+Earth sciences|Blackwell, 1993, 713p
J|0039|Swanson,D.A.+Malone,S.D.+Casadevall,T.|Mitigating the hazards of Mount Rainier||#EOS:74:12:1993:133|Volcano+Hazard+Mitigation+Mount Rainier
J|0040|Buland,R.|U.S. National Seismograph Network improves earthquake monitoring||#EOS:74:12:1993:136-137|Monitoring+Network+United States+Equipment
J|0041|Satake,K.+Bourgeois,J.+Abe,K.+|Tsunami field survey of the 1992 Nicaragua earthquake||#EOS:74:13:1993:145-157|Tsunami+Earthquake+1992+Nicaragua||#*NICARAGUA92
J|0042|Michael,A.J.+Langbein,J.|Earthquake prediction lessons from Parkfield experiment||#EOS:74:13:1993:145-157|Prediction+Parkfield+Historical earthquake+Probability
J|0043|Wyss,M.+Christensen,D.+Davies,J.|Great subduction earthquake studied||#EOS:74:13:1993:148-149|Subduction zone+Great earthquake+Aleutian Arc+Kamchatka|News
J|0044|Banerjee,S.K.+Merrill,R.T.|Plan for future study of the deep Earth||#EOS:74:13:1993:149|Deep structure+Palaeomagnetism+Earth sciences+Geodynamics|News
J|0045|a-Parkfield Working Group|Parkfield: first short-term earthquake warning||#EOS:74:13:1993:152-153|Parkfield+Warning+Seismicity+Monitoring||#*PARKFIELD92
J|0046|Coghlan,A.|Quake buildings keep their bearings||#NSC:-:1873:1993:21|Building+Base isolation system|Technology
J|0047|Tilling,R.I.+Dvorak,J.J.|Anatomy of a basaltic volcano||#NAT:363:6425:1993:125-133|Volcano+Kilauea+Magmatism+Volcanic tremor
J|0048|Ellsworth,W.L.|Getting beyond numerology||#NAT:363:6426:1993:206-207|Recurrence+Parkfield+Seismicity+Prediction|News and views
J|0049|Lockner,D.A.+Byerlee,J.D.|How geometrical constraints contribute to the weakness of mature faults||#NAT:363:6426:1993:250-252|Fault+Geometry+Friction+Gouge
J|0050|Wiens,D.A.|Too hot for earthquakes?||#NAT:363:6427:1993:299-300|Cascadia subduction zone+Temperature+Friction+Seismic process|News and views
J|0051|Lucas,S.B.+Green,A.G.+Hajnal,Z.+|Deep seismic profile across a Proterozoic collision zone: surprises at depth||#NAT:363:6427:1993:339-342|Deep seismic sounding+Collision+Depth+Canada
J|0052|Bowler,S.|A brief history of Europe. Review of `A continent revealed: the European Geotraverse' edited by D. Blundell, R. Freeman and S. Mueller||#NSC:-:1876:1993:45|Review+European Geotraverse Project+Map+Geophysical investigation|Cambridge, 208p
J|0053||Inge Lehmann (1888-1993)||#EOS:74:16:1993:185|Denmark+Inner core
J|0054|a-ODP Leg 143 Shipboard Scientific Party|Examining guyots in the mid-Pacific mountains||#EOS:74:17:1993:201-206|Seamount+Ocean Drilling Programme+Western Pacific+Profile
J|0055|a-Alaska Volcano Observatory|Mt. Spurr's 1992 eruptions||#EOS:74:19:1993:217-222|Eruption+1992+Alaska+Volcanic tremor
J|0056|Ellsworth,W.L.+Zoback,M.D.|San Andreas drilling sites selected||#EOS:74:19:1993:218|Drilling+San Andreas Fault
J|0057|Bush,S.|Scientists study active volcanos||#EOS:74:20:1993:226|Volcanism+Eruption+Volcanic tremor
J|0058|Cranswick,E.+Gardner,B.+Hammond,S.+|Recording ground motions where people live||#EOS:74:21:1993:243-244|Ground motion+Sedimentary basin+Network+Monitoring||#*LOMAPRIETA89|#*MEXICOCITY|#*ARMENIA88|#*LANDERS92
J|0059|a-1992 Arctic Summer West Scientific Party|Cruise to the Chukchi Borderland, Arctic Ocean||#EOS:74:22:1993:249-254|Arctic Ocean+Oceanography+Geology+Continuous seismic profiling
J|0060|Johnson,T.C.+Kelts,K.+Lehman,J.T.+|IDEAL symposium on the East African Lakes||#EOS:74:22:1993:250-251|East Africa+Lake+Profile+Sediment|Report of a Symposium held in Jinja, February 1993
J|0061|Munoz,F.A.+Calvache,M.L.+Cortes,G.P.+|Galeras volcano: international workshop and eruption||#EOS:74:26:1993:281-287|Eruption+1993+Tremor+Colombia
J|0062|Adams,R.D.+Marza,V.I.|Crustal phases in earthquake location||#PAG:140:1:1993:1-14|Location+Crust+Phase+First arrival+ISC
J|0063|Ouchi,T.|Population dynamics of earthquakes and mathematical modeling||#PAG:140:1:1993:15-28|Mathematical model+Temporal variation+Swarm+Earth tide
J|0064|Aksenov,V.+Kozak,J.+Lokajicek,T.|Nonlinear processes in earthquake foci||#PAG:140:1:1993:29-47|Nonlinearity+Seismic process+Focus+Laboratory||#*NORTHCALIF|#*OROVILLE75|#*ARMENIA88A
J|0065|Tselentis,G-A.|Temporal variation of body wave attenuation as related to two earthquake doublets in W. Greece||#PAG:140:1:1993:49-62|Greece+Doublet+Temporal variation+Attenuation
J|0066|Hatzidimitriou,P.M.|Attenuation of coda waves in northern Greece||#PAG:140:1:1993:63-78|Coda wave+Greece+Attenuation+Q
J|0067|Sobolev,G.+Spetzler,H.+Koltsov,A.+|An experimental study of triggered stick-slip||#PAG:140:1:1993:79-94|Stick-slip+Trigger+Friction+Laboratory
J|0068|Chen,G-L.+Spetzler,H.|Complexities of rock fracture and rock friction from deformation of Westerly granite||#PAG:140:1:1993:95-121|Fracture+Laboratory+Friction+Granite
J|0069|Chen,G-L.+Spetzler,H.|Topographic characteristics of laboratory induced shear fractures||#PAG:140:1:1993:123-135|Laboratory+Fracture+Topography+Granite
J|0070|Koch,M.|Review of `Automated pattern analysis in petroleum exploration' edited by I. Palaz and S. K. Sengupta||#PAG:140:1:1993:143-146|Review+Pattern recognition+Petroleum+Exploration|Springer-Verlag, New York, 1992
J|0071|Koch,M.|Review of `Seismic modelling and pattern recognition in oil exploration' by A. Sinvhal and H. Sinvhal||#PAG:140:1:1993:146-147|Review+Pattern recognition+Oil+Exploration|Kluwer Academic Publishers, Boston, 1992
J|0072|Talwani,P.|Review of `Reservoir-induced earthquakes' by H. K. Gupta||#PAG:140:1:1993:150-154|Review+Induced seismicity+Reservoir+Water level|Elsevier, Amsterdam, 1992
J|0073|Yu,G.+Wesnousky,S.G.+Ekstrom,G.|Slip partitioning along major convergent plate boundaries||#PAG:140:2:1993:183-210|Plate boundary+Earthquake slip vector+Convergence+Arc
J|0074|Liu,X-P.+McNally,K.C.|Quantitative estimates of interplate coupling inferred from outer rise earthquakes||#PAG:140:2:1993:211-255|Subduction zone+Interplate earthquake+Coupling+Stress+ISC||#*KURIL82
J|0075|Kisslinger,C.|Seismicity in subduction zones from local and regional network observations||#PAG:140:2:1993:257-285|Seismicity+Subduction zone+Network+Wadati-Benioff zone
J|0076|Zuniga,F.R.+Gutierrez,C.+Nava,E.+|Aftershocks of the San Marcos earthquake of April 25, 1989 (MS = 6.9) and some implications for the Acapulco-San Marcos, Mexico, seismic potential||#PAG:140:2:1993:287-300|1989+Seismic potential+Aftershock+Guerrero||#*GUERRERO89
J|0077|Papadimitriou,E.E.|Long-term earthquake prediction along the western coast of South and Central America based on a time predictable model||#PAG:140:2:1993:301-316|Prediction+Probability+Central America+South America
J|0078|Comte,D.+Suarez,G.|Spatio-temporal variations of seismicity in the southern Peru and northern Chile seismic gaps||#PAG:140:2:1993:317-330|Seismic gap+Peru+Chile+Space-time distribution+Seismicity+ISC
J|0079|Houston,H.+Anderson,H.+Beck,S.L.+|The 1986 Kermadec earthquake and its relation to plate segmentation||#PAG:140:2:1993:331-364|Earthquake+Kermadec Islands+1986+Tectonics||#*KERMADEC86
J|0080|Xu,Z-Y.+Schwartz,S.Y.|Large earthquake doublets and fault plane heterogeneity in the northern Solomon Islands subduction zone||#PAG:140:2:1993:365-390|Doublet+Large earthquake+Solomon Islands+Fault plane+ISC||#*BOUGAINVILLE|#*SOLOMON75A|#*SOLOMON74A|#*SOLOMON74B
J|0081|Kiratzi,A.A.|Active deformation in the Vrancea region, Rumania||#PAG:140:3:1993:391-402|Vrancea+Deformation+Fault plane solution+Intermediate-depth earthquake||#*VRANCEA86|#*ROMANIAN
J|0082|Gupta,I.D.+Rambabu,V.|Source parameters of some significant earthquakes near Koyna dam, India||#PAG:140:3:1993:403-413|Source parameter+Significant earthquake+Koyna+Stress-drop
J|0083|Alonzo,M.L.+Bottari,A.+Caruso,V.+|Frequency dependence of site amplification factor in the Messina Strait area||#PAG:140:3:1993:415-426|Messina, Straits of+Amplification+Frequency+Spectral ratio
J|0084|Dowla,F.U.+Leach,R.R.+Glenn,L.A.+|Neural network methods in hydrodynamic yield estimation||#PAG:140:3:1993:427-454|Neural network+Yield+Hydrodynamics+Underground nuclear explosion
J|0085|Dragoni,M.+Santini,S.+Tallarico,A.|A viscoelastic shear zone model of compressional and extensional plate boundaries||#PAG:140:3:1993:471-491|Shear zone+Plate boundary+Model+Viscoelastic medium
J|0086|Lerche,I.|A probabilistic procedure to assess the uncertainty of fractal dimensions from measurements||#PAG:140:3:1993:503-517|Fractal dimension+Probability+Shear zone
J|0087|Koch,M.|Review of `Deconvolution and inverse theory: application to geophysical problems' by V. Dimri||#PAG:140:3:1993:540-543|Review+Deconvolution+Inversion+Applied geophysics|Elsevier, Amsterdam, 1992, 230p
J|0088|Fujita,M.+Nishimura,K.|Estimation of crustal structure in central and west Japan from waveform modeling of regional PL waves||#PAG:140:4:1993:569-592|PL-wave+Crustal structure+Japan+Modelling
J|0089|Papazachos,B.C.+Papaioannou,Ch.A.|Long-term earthquake prediction in the Aegean area based on a time and magnitude predictable model||#PAG:140:4:1993:593-612|Prediction+AEgean+Model+Probability
J|0090|Sharma,M.D.+Gogna,M.L.|Reflection and transmission of SH waves in an initially stressed medium consisting of a sandy layer lying over a fluid-saturated porous solid||#PAG:140:4:1993:613-628|Layered medium+SH-wave+Propagation+Interface
J|0091|Kiselev,A.P.|Ray theory of modulated body waves in inhomogeneous viscoelastic media||#PAG:140:4:1993:629-640|Ray theory+Body wave+Viscoelastic medium+Polarization
J|0092|Bottari,A.+Federico,B.+Pietrafesa,M.+|Procedure of reduction of travel-time curves of P and S waves at the focal surface||#PAG:140:4:1993:641-653|Travel-times+Seismic waves+Velocity-depth function+Tyrrhenian Sea+Japan
J|0093|Cormier,V.F.|Review of `Physics of the Earth' by F. D. Stacey||#PAG:140:4:1993:729-730|Review+Solid-earth geophysics+Seismology|Brookfield Press, Australia, 1992
J|0094|Houseman,G.A.|Review of `Continental lower crust' edited by D. M. Fountain, R. Arculus and R. W. Kay||#PAG:140:4:1993:730-733|Review+Continental crust+Lower crust|Elsevier, Amsterdam, 1992
J|0095|Koch,M.|Review of `Foundation of exploration geophysics' by J. C. D'Arnaud Gerkins||#PAG:140:4:1993:737-739|Review+Exploration+Seismics+Geophysics|Elsevier, Amsterdam, 1989
J|0096|Koch,M.|Review of `Basics of reservoir engineering' by R. Cosse||#PAG:140:4:1993:739-742|Review+Reservoir+Hydrocarbon|Editions Technip, Paris, 1993
J|0097|Koch,M.|Review of `Geohazards, natural and man-made' edited by G. J. H. McCall, D. J. C. Laming and S. C. Scott||#PAG:140:4:1993:745-748|Review+Hazard+Natural disaster|Chapman and Hall, New York, 1992
J|0098|Hughes,A.A.|Earthquake myths||Geogrl Mag., Lond.:65:1:1993:34|Trigger+Underground nuclear explosion+ISC|Points of view
J|0099|Couch,I.|An urbane solution||Geogrl Mag., Lond.:65:4:1993:20-23|Tokyo+Urban planning+Destructive earthquake
J|0100|Goldsack,B.|Great quakes: why Tokyo will have to go||Geogrl Mag., Lond.:65:4:1993:23|Major earthquake+Japan+Urban planning+Preparedness
J|0101||Inevitable, but now also long overdue?||Geogrl Mag., Lond.:65:4:1993:42|Recurrence+Southern California+Major earthquake
J|0102|Mocanu,V.+Radulescu,F.+Dinu,C.|Lithospheric structure of Romania and recent crustal movements - geodynamic connections||#RRG:35:-:1991:3-13|Lithosphere+Romania+Crustal movement+Mohorovicic discontinuity
J|0103|Ardeleanu,L.+Popescu,E.|The seismic energy released - possible precursor of the large intermediate depth events of Vrancea, Romania||#RRG:35:-:1991:15-20|Vrancea+Precursor+Intermediate-depth earthquake+Energy||#*VRANCEA86
J|0104|Ardeleanu,L.+Smalbergher,V.|Seismicity pattern of the Focsani-Rimnicu Sarat region||#RRG:35:-:1991:21-29|Space-time pattern+Vrancea+Seismicity+1977-1989
J|0105|Trifu,C-I.+Radulian,M.|A depth-magnitude catalogue of Vrancea intermediate depth microearthquakes||#RRG:35:-:1991:31-45|Earthquake catalogue+Vrancea+1974-1991+Microearthquake+Depth
J|0106|Radulescu,F.+Pompilian,A.|Twenty-five years of deep seismic soundings in Romania (1966-1990)||#RRG:35:-:1991:89-97|Deep seismic sounding+1966-1990+Romania+Refraction study
J|0107|Reiter,E.C.+Toksoz,M.N.+Purdy,G.M.|A semblance-guided median filter||#GPP:41:1:1993:15-41|Filter+Slowness+Refraction data+Vertical seismic profiling
J|0108|Reust,D.K.|Enhanced servovalve technology for seismic vibrators||#GPP:41:1:1993:43-60|Vibrator+Instrument
J|0109|Asakawa,E.+Kawanaka,T.|Seismic ray tracing using linear traveltime interpolation||#GPP:41:1:1993:99-111|Ray tracing+Travel-times+Interpolation
J|0110||Review of `Topics in the Earth sciences No 6 - deep interior of the Earth' by J. A. Jacobs, edited by T. H. Van Andel||#GPP:41:1:1993:132-133|Review+Earth sciences+Solid-earth geophysics+Tomography|Chapman and Hall, New York, 1991, 167p
J|0111||Review of `Crosswell seismology and reverse VSP' by R. A. Hardage||#GPP:41:1:1993:133-134|Review+Vertical seismic profiling+Cross-hole|Geophysical Press Ltd, 304p
J|0112||Review of `Seismic well surveying' by J-L. Mari and F. Coppens||#GPP:41:1:1993:134|Review+Vertical seismic profiling+Seismic survey+Well|Editions Technip, Paris, 1991, 128p
J|0113|Slob,E.+Ziolkowski,A.|Aspects of 1D seismic modelling using the Goupillaud principle||#GPP:41:2:1993:135-148|Modelling+Layered medium+Reflexion+Wavelet
J|0114|Kang,I.B.+McMechan,G.A.|Viscoelastic seismic response of 2D reservoir models||#GPP:41:2:1993:149-163|Synthetic seismogram+Viscoelasticity+Model+Reservoir
J|0115|Tang,X.M.+Cheng,C.H.|Borehole Stoneley wave propagation across permeable structures||#GPP:41:2:1993:165-187|Borehole+Stoneley wave+Propagation+Permeability
J|0116|Sams,M.S.+Worthington,M.H.+King,M.S.+|A comparison of laboratory and field measurements of P-wave anisotropy||#GPP:41:2:1993:189-206|Laboratory+P-wave+Anisotropy+Cross-hole
J|0117|Hildebrand,S.T.+Carroll,R.J.|Radon depth migration||#GPP:41:2:1993:229-240|Radon transform+Migration+Depth+Wave field
J|0118|Lou,M.+Crampin,S.|Modelling guided waves in cross-hole surveys in uncracked and cracked rock||#GPP:41:3:1993:241-265|Modelling+Guided wave+Cross-hole+Crack
J|0119|Posthumus,B.J.|Deghosting using a twin streamer configuration||#GPP:41:3:1993:267-286|Noise+Marine seismic investigation+Interference+Data processing
J|0120|Meredith,J.A.+Toksoz,M.N.+Cheng,C.H.|Secondary shear waves from source boreholes||#GPP:41:3:1993:287-312|Shear wave+Borehole+Tube wave+Point source
J|0121|Walden,A.T.|Simulation of realistic synthetic reflection sequences||#GPP:41:3:1993:313-321|Simulation+Reflexion
J|0122|Ass'ad,J.M.+Tatham,R.H.+McDonald,J.A.+|A physical model study of scattering of waves by aligned cracks: comparison between experiment and theory||#GPP:41:3:1993:323-339|Model+Scattering+Crack
J|0123|Helgesen,J.+Landro,M.|Estimation of elastic parameters from AVO effects in the tau-P domain||#GPP:41:3:1993:341-366|Tau-p analysis+Elastic medium+Parameters+Inversion
J|0124|Carrion,P.+Vesnaver,A.+Boehm,G.+|Aperture compensation tomography||#GPP:41:3:1993:367-380|Tomography+Compensation+Aperture
J|0125|Michelena,R.J.+Muir,F.+Harris,J.M.|Anisotropic traveltime tomography||#GPP:41:4:1993:381-412|Anisotropy+Travel-times+Inversion
J|0126|Tao,G.+King,M.S.|Porosity and pore structure from acoustic well logging data||#GPP:41:4:1993:435-451|Acoustic logging+Well+Porosity+Porous medium
J|0127|Jastram,C.+Behle,A.|Accurate finite-difference operators for modelling the elastic wave equation||#GPP:41:4:1993:453-458|Elastic wave+Modelling+Finite difference method
J|0128|Schleicher,J.+Tygel,M.+Hubral,P.|Parabolic and hyperbolic paraxial two-point traveltimes in 3D media||#GPP:41:4:1993:495-513|Propagator matrix+Travel-times+Ray+Interface
J|0129|Greenberg,M.L.+Castagna,J.P.|Errata to `Shear-wave velocity estimation in porous rocks: theoretical formulation, preliminary verification and applications'||#GPP:41:4:1993:515|Errata+Shear wave+Porous medium+Velocity
J|0130|Karner,G.D.+Driscoll,N.W.+Weissel,J.K.|Response of the lithosphere to in-plane force variations||#EPL:114:4:1993:397-416|Lithosphere+Deformation+Reflexion study+Indian Ocean+Newfoundland
J|0131|Hendrie,D.B.+Kusznir,N.J.+Hunter,R.H.|Jurassic extension estimates for the North Sea `triple junction' from flexural backstripping: implications for decompression melting models||#EPL:116:1-4:1993:113-127|North Sea+Triple junction+Extension
J|0132|Ben-Avraham,Z.+Hartnady,C.J.H.+Malan,J.A.|Early tectonic extension between the Agulhas Bank and the Falkland Plateau due to the rotation of the Lafonia microplate||#EPL:117:1-2:1993:43-58|Reflexion study+Geophysical survey+Tectonics+South Atlantic
J|0133|Mutter,C.Z.+Mutter,J.C.|Variations in thickness of layer 3 dominate oceanic crustal structure||#EPL:117:1-2:1993:295-317|Oceanic crust+Crustal thickness+Refraction study+Velocity structure
J|0134|Bean,C.J.+McCloskey,J.|Power-law random behaviour of seismic reflectivity in boreholes and its relationship to crustal deformation models||#EPL:117:3-4:1993:423-429|Reflectivity+Borehole+Fractal analysis+Chalk
J|0135|Enescu,D.+Danchiv,D.+Bala,A.|Lithosphere structure in Romania. II. Thickness of Earth's crust. Depth-dependent propagation velocity curves for the P and S waves||#SGG:30:-:1992:3-19|Lithosphere+Structure+Romania+Crustal thickness+Velocity-depth function
J|0136|Mandrescu,N.|Some data concerning seismic microzoning of Bucharest|In Romanian with English abstract|#SGG:30:-:1992:21-28|Vrancea+Microzoning+Intermediate-depth earthquake||#*VRANCEA86|#*ROMANIAN
J|0137|Raileanu,V.+Stiopol,D.+Birsan,M.+|Crustal reflection seismic profiling on a short line from NE area of Pannonian depression|In Romanian with English abstract|#SGG:30:-:1992:29-39|Deep seismic sounding+Pannonian Basin+Reflectivity+Crustal structure
J|0138|Visarion,M.|Geophysical surveys carried on by foreign companies on Romania's territory|In Romanian with English abstract|#SGG:30:-:1992:103-119|Geophysical survey+Romania+1925-1947+Prospecting
J|0139|Ye,Z-R.+Bai,W-M.+Teng,C-K.|The numerical modelling of mantle convection and its relationship to surface observations|In Chinese with English abstract|#AGS:36:1:1993:27-36|Tomography+Mantle convection+Geoid+Numerical modelling
J|0140|Sun,R-M.+Zhao,Y-L.+Mei,S-R.|Seismic tomographic image in Bohai Sea and its adjacent area|In Chinese with English abstract|#AGS:36:1:1993:44-54|Bohai+Tomography+Lithosphere+Seismicity
J|0141|Zhang,J-R.+Zhou,L-G.+Shao,X-Z.+|Investigations of the deep structures in Yang Yi geothermal field in Tibet Plateau by using converted waves of near earthquakes|In Chinese with English abstract|#AGS:36:1:1993:55-67|Deep structure+Tibet+Converted wave+Near earthquake
J|0142|Zhang,H-L.+Li,M-X.|Numerical study of acoustic field of borehole in soft formation|In Chinese with English abstract|#AGS:36:1:1993:80-86|Acoustic logging+Borehole+Numerical method
J|0143|Leng,C-B.+Yang,Y-L.+Wang,J-W.|Integrated interpretation technique for turbidite sands|In Chinese with English abstract|#AGS:36:1:1993:87-95|Seismostratigraphy+Exploration+Sand+Technique
J|0144|Guan,X-P.+Huang,J-Z.+Zhou,H-Q.|Probe the interpretation theory of steady-state Rayleigh wave method in engineering exploration|In Chinese with English abstract|#AGS:36:1:1993:96-105|Rayleigh wave+Exploration+Dispersion+Layered medium
J|0145|Yang,G-X.+Zhang,K-N.+Li,P-W.|Study of tomographic technique used in underground powerhouse area of Xiaolangdi project on the Yellow River|In Chinese with English abstract|#AGS:36:1:1993:106-112|Cross-hole+Tomography+China+Power station
J|0146|Zhao,W-J.+Nelson,K.D.+Brown,L.D.+|International interdisciplinary deep profile of Tibet and the Himalaya (INDEPTH)|In Chinese|#AGS:36:1:1993:124|Deep structure+Profile+Tibet+Himalayas
J|0147|Zhao,W-J.+Nelson,K.D.+Gao,R.+|Primary results of Project INDEPTH|In Chinese|#AGS:36:1:1993:125|Deep structure+Profile+Tibet+Himalayas
J|0148|Che,J-K.+Nelson,K.D.+Hauck,M.L.+|Project INDEPTH deep seismic data acquisition|In Chinese|#AGS:36:1:1993:126|Deep structure+Data acquisition+Tibet+Himalayas
J|0149|Zheng,T-Y.+Yao,Z-X.|Source process study of the Tangshan earthquake using the near-field records|In Chinese with English abstract|#AGS:36:2:1993:174-184|T'ang-shan+Source parameter+Earthquake+1976||#*TANGSHAN
J|0150|Chen,P-S.+Duda,S.J.|Dependence of peak acceleration and peak velocity on the environment shear stress|In Chinese with English abstract|#AGS:36:2:1993:185-194|Maximum acceleration+Shear stress+Velocity+Displacement
J|0151|Han,W-B.+Xu,Y-B.+Wang,W-E.+|The characteristics of the capacity dimension and information dimension for the seismic temporal distributions and earthquake prediction|In Chinese with English abstract|#AGS:36:2:1993:195-202|Sichuan+Prediction+Temporal distribution+Dimension
J|0152|Hao,J-Q.+Huang,P-Z.+Zhou,J-G.|The effect of cracking on remanent magnetization of rocks - its implication to earthquake prediction|In Chinese with English abstract|#AGS:36:2:1993:203-211|Prediction+Microcrack+Seismomagnetism+Rock
J|0153|Yang,W-C.|Nonlinear chaotic inversion of seismic traces: (I) theory and numerical experiments|In Chinese with English abstract|#AGS:36:2:1993:222-232|Nonlinear inversion+Chaos+Theory+Numerical method
J|0154|Li,S-X.|Sampling of radon transform and wavelet|In Chinese with English abstract|#AGS:36:2:1993:233-241|Radon transform+Wavelet+Tomography+Sampling
J|0155|Ji,Z-L.+Li,J-L.+Xiong,S-H.+|Elastic character of oil-rock and the relation with oil-gas formation|In Chinese with English abstract|#AGS:36:2:1993:242-255|Exploration+Hydrocarbon+Rock+Physical properties
J|0156|Fu,R-S.+Huang,J-H.|Mantle convection model constrained on several geophysical data|In Chinese with English abstract|#AGS:36:3:1993:297-307|Mantle convection+Geoid+Tomography+Geophysical data
J|0157|An,C-Q.+Song,Z-H.+Chen,G-Y.+|3-D shear velocity structure in north-west China|In Chinese with English abstract|#AGS:36:3:1993:317-325|Velocity structure+China+Shear wave+Tectonics
J|0158|Diao,G-L.+Yu,L-M.+Ning,J-Y.+|The body breaking characteristic of Datong earthquake swarm at 1989|In Chinese with English abstract|#AGS:36:3:1993:360-368|Datong+Swarm+1989+Focal mechanism||#*DATONG89A|#*DATONG89B|#*DATONG89C
J|0159|Yang,W-C.|Nonlinear chaotic inversion of seismic traces: II. Lyapunov exponents and attractors|In Chinese with English abstract|#AGS:36:3:1993:376-387|Nonlinear inversion+Chaos+Trace+Iterative method
J|0160|Wang,T-X.|Prestack velocity inversion of seismic data using plane wavefield downward continuation|In Chinese with English abstract|#AGS:36:3:1993:388-395|Inversion+Plane wave+Wave field+Common depth point
J|0161|Wang,M-Y.+Yuan,X-H.+Guo,Y-X.+|Diffraction seismic prospecting method|In Chinese with English abstract|#AGS:36:3:1993:396-401|Prospecting+Diffraction+Technique+Data processing
J|0162|Nechayev,Yu.V.+Rogozhin,E.A.|The lineament systems' heterogeneities of the 1988 Spitak earthquake region|In Russian|#VIS:33:-:1992:4-17|Heterogeneity+Spitak+Lineament
J|0163|Belousov,T.P.+Mukhamediev,Sh.A.|Seismotectonics and crustal tension of the south Crimea during mesokainozoic|In Russian|#VIS:33:-:1992:18-27|Crimea+Seismotectonics+Tension+Crust
J|0164|Borisov,B.A.|About unacceptable tendency to overstanding of the historical earthquakes magnitude: the example of the 1895 Krasnovodsk earthquake|In Russian|#VIS:33:-:1992:28-39|Historical earthquake+1895+Magnitude+Krasnovodsk
J|0165|Vakov,A.V.|Geometric parameters and earthquake focus magnitude by different types of displacements|In Russian|#VIS:33:-:1992:40-53|Focus+Parameters+Displacement+Magnitude
J|0166|Mirzoyev,K.M.|The recommendations on apportionment of group earthquakes|In Russian|#VIS:33:-:1992:53-57|Spatial distribution+Clustering
J|0167|Kogan,L.A.|The remarks on the occasion of estimation of seismic motion intensity and seismic scales|In Russian|#VIS:33:-:1992:57-60|Intensity+MSK-Scale
J|0168|Shteinberg,V.V.+Saks,M.V.+Molotkov,S.G.+|The new seismic data for code on aseismic building|In Russian|#VIS:33:-:1992:60-68|Building code+Aseismic design
J|0169|Chernov,Yu.K.+Sokolov,V.Yu.|Probability estimation of seismic ground motions (Fourier spectra and response spectra) for the eastern Uzbekistan|In Russian|#VIS:33:-:1992:68-73|Uzbekistan+Probability+Ground motion+Fourier spectrum
J|0170|Bugaev,E.G.|The near explosions' seismic effect estimation for the seismic microzonation purposes|In Russian|#VIS:33:-:1992:74-80|Microzoning+Explosion
J|0171|Kozhobaev,K.A.|The influence of the amplitude of disperse grounds velocity oscillations on their behaviour during earthquakes|In Russian|#VIS:33:-:1992:85-88|Amplitude+Ground
J|0172|Nikonov,A.A.|The destructive earthquakes in Iran Azerbaijan|In Russian|#VIS:33:-:1992:88-103|Destructive earthquake+Iran
J|0173|Popova,E.V.|Seismogravitational surface disturbances|In Russian|#VIS:33:-:1992:103-112|Gravitation+Surface
J|0174|Denisov,B.E.+Kilimnik,L.Sh.+Kakhnovsky,A.M.+|Development perspective of engineering seismometric automatized systems|In Russian|#VIS:33:-:1992:112-115|Engineering seismology
J|0175|Kilimnik,L.Sh.+Kakhnovsky,A.M.+Briantseva,N.V.+|Engineering seismometric observational station of nine-storey experimental large-panel house in Bishkek with sliding support system|In Russian|#VIS:33:-:1992:115-117|Engineering seismology+Base isolation system+Building
J|0176|Aptikaeva,O.I.|Quality parameter's space-time variations in the "Garm polygone" region|In Russian|#VIS:33:-:1992:117-122|Garm+Q+Space-time distribution
J|0177|Pedone,R.+Lombardo,P.+Diamantidis,D.|Seismotectonic regionalization of the Red Sea area and its application to seismic risk analysis||#NHZ:5:3:1992:233-247|Seismic risk+Red Sea+Regionalization+Seismotectonics
J|0178|Papoulia,J.E.+Slejko,D.|Cautious neotectonic hypotheses for assessing the seismic hazard in northeastern Italy||#NHZ:5:3:1992:249-268|Italy+Hazard+Neotectonics+Ground acceleration
J|0179|Huber,A.+Dragoni,M.|The historic and artistic heritage facing the earthquake risk: the Italian case||#NHZ:5:3:1992:269-278|Seismic risk+Italy+Historic building+Monument
J|0180|Chubarov,L.B.+Shokin,Yu.I.+Simonov,K.V.|Using numerical modelling to evaluate tsunami hazard near the Kuril Island||#NHZ:5:3:1992:293-318|Kuril Islands+Numerical modelling+Tsunami+Hazard
J|0181|Nikonov,A.A.|Abnormal animal behaviour as a precursor of the 7 December 1988 Spitak, Armenia, earthquake||#NHZ:6:1:1992:1-10|Animal behaviour+Precursor+Spitak+Earthquake+1988||#*ARMENIA88
J|0182|Tertulliani,A.+Anzidei,M.+Maramai,A.+|Macroseismic study of the Potenza (southern Italy) earthquake of 5 May 1990||#NHZ:6:1:1992:25-38|Macroseismicity+1990+Earthquake+Southern Italy||#*POTENZA90
J|0183|De Crook,Th.+Egozcue,J.J.|Comparison of two methods for seismic hazard assessment in a low-seismicity area||#NHZ:6:1:1992:39-49|Hazard+Northern Europe+Zoning+Algorithm
J|0184|Zobin,V.M.+Gordeev,E.I.+Bakhtiarov,V.F.+|Seismic hazard monitoring in Kamchatka and its applications to the M = 6.6 earthquake of 6 October 1987||#NHZ:6:1:1992:51-70|Monitoring+Earthquake+1987+Kamchatka||#*KAMCHATKA87A
J|0185|Dimova,S.+Georgiev,V.|Numerical algorithm for the dynamic analysis of base-isolated structures with dry friction||#NHZ:6:1:1992:71-86|Dynamic analysis+Base isolation system+Friction+Algorithm
J|0186|Murty,T.S.|Review of `Tsunami hazard: a practical guide for tsunami hazard reduction' edited by E. N. Bernard||#NHZ:6:1:1992:88-89|Review+Hazard+Tsunami|Kluwer Academic Publishers, Dordrecht, 1991, 326p
J|0187|Stillwell,H.D.|Natural hazards and disasters in Latin America||#NHZ:6:2:1992:131-159|Latin America+Destructive earthquake+Casualties+Natural disaster||#*MEXICOCITY
J|0188|Yucemen,M.S.|Seismic hazard maps for Jordan and vicinity||#NHZ:6:3:1992:201-226|Map+Jordan+Seismic risk+Frequency-magnitude relation
J|0189|Pelinovsky,E.N.+Mazova,R.Kh.|Exact analytical solutions of nonlinear problems of tsunami wave run-up on slopes with different profiles||#NHZ:6:3:1992:227-249|Tsunami+Run-up+Coast
J|0190|De Rubeis,V.+Gasparini,C.+Tosi,P.|Statistical comparison of geophysical parameters and seismicity in central Italy||#NHZ:7:1:1993:25-39|Seismicity+Italy+Geophysical data
J|0191|Kijko,A.+Skordas,E.+Wahlstrom,R.+|Maximum likelihood estimation of seismic hazard for Sweden||#NHZ:7:1:1993:41-57|Maximum likelihood+Hazard+Sweden+Magnitude
J|0192|Rahimi,M.|An examination of behavior and hazards faced by physically disabled people during the Loma Prieta earthquake||#NHZ:7:1:1993:59-82|Hazard+Loma Prieta+Behaviour+Vulnerability||#*LOMAPRIETA89
J|0193|Papadopoulos,G.A.|On some problems about testing stochastic models of the earthquake time series||#NHZ:7:2:1993:99-108|Stochastic model+Time series+AEgean+Interval
J|0194|Glowacka,E.|Probabilistic seismic hazard evaluation in underground mines||#NHZ:7:2:1993:121-132|Hazard+Coal mine+Rockburst+Induced seismicity
J|0195|Peruzza,L.+Slejko,D.|Some aspects of seismic hazard assessment when comparing different approaches||#NHZ:7:2:1993:133-153|Hazard+Italy+Assessment+Attenuation
J|0196|Tavakoli,B.+Tavakoli,S.|Estimating the vulnerability and loss functions of residential buildings||#NHZ:7:2:1993:155-171|1990+Iran+Earthquake+Damage||#*MANJIL90
J|0197|Karnik,V.+Klima,K.|Epicentre maps of the Mediterranean area (1901-1985)||#NHZ:7:2:1993:173-185|Map+1901-1985+Mediterranean+Epicentre+ISC|Research note
J|0198|Alexander,D.|Aetiology of the Thera eruption and its effects||#NHZ:7:2:1993:187-189|Natural disaster+Eruption+Mediterranean+Historical earthquake|Comment
J|0199|Sukhtankar,R.K.+Pandian,R.S.+Guha,S.K.|Seismotectonic studies of the coastal areas of India, Pakistan, Bangladesh, and Burma||#NHZ:7:3:1993:201-210|Seismotectonics+Coast+India+Geophysical data
J|0200|Papazachos,B.C.|Long-term prediction of intermediate depth earthquakes in the southern Aegean region based on a time-predictable model||#NHZ:7:3:1993:211-218|Prediction+Intermediate-depth earthquake+AEgean+Recurrence
J|0201|Riguzzi,F.+Tertulliani,A.|Re-evaluation of minor events: the examples of the 1895 and 1909 Rome earthquakes||#NHZ:7:3:1993:219-235|Rome+Historical earthquake+Intensity+Local earthquake
J|0202|Talandier,J.|French Polynesia Tsunami Warning Centre (CPPT)||#NHZ:7:3:1993:237-256|Polynesia+Tsunami+Warning+Network
J|0203|Smith,M.S.+Shepherd,J.B.|Preliminary investigations of the tsunami hazard of Kick'em Jenny submarine volcano||#NHZ:7:3:1993:257-277|Submarine volcano+Tsunami+Hazard+Lesser Antilles
J|0204|Vasseva,E.|Nonlinear dynamic analysis of reinforced concrete frames||#NHZ:7:3:1993:279-290|Reinforced concrete+Dynamic analysis+Frame+Nonlinearity
J|0205|Braun,T.+Ripepe,M.|Interaction of seismic and air waves recorded at Stromboli volcano||#GRL:20:1:1993:65-68|Air wave+Seismic waves+Volcano+Explosion
J|0206|Vazquez-Contreras,A.+Booth,D.C.+Zuniga,F.R.+|Seismic anisotropy in the Guerrero gap, Mexico: preliminary results||#GRL:20:1:1993:69-72|Anisotropy+Guerrero+Shear wave splitting+Seismic gap
J|0207|Sambridge,M.S.+Snieder,R.|The applicability of ray perturbation theory to mantle tomography||#GRL:20:1:1993:73-76|Perturbation theory+Tomography+Mantle+ISC+Ray tracing
J|0208|Mirkin,G.+Vasudevan,K.+Cook,F.A.+|A comparison of several cooling schedules for simulated annealing implemented on a residual statics problem||#GRL:20:1:1993:77-80|Algorithm+Statics+Data processing+Common depth point
J|0209|Langbein,J.+Quilty,E.+Breckenridge,K.|Sensitivity of crustal deformation instruments to changes in secular rate||#GRL:20:2:1993:85-88|Instrument+Deformation+Filter+Signal-to-noise ratio
J|0210|Jin,S.+Madariaga,R.|Background velocity inversion with a genetic algorithm||#GRL:20:2:1993:93-96|Nonlinear inversion+Algorithm+Reflexion study
J|0211|Ammon,C.J.+Velasco,A.A.+Lay,T.|Rapid estimation of rupture directivity: application to the 1992 Landers (MS = 7.4) and Cape Mendocino (MS = 7.2), California earthquakes||#GRL:20:2:1993:97-100|Earthquake+California+Rupture+Directivity||#*LANDERS92|#*JOSHUATREE92|#*PETROLIA92A|#*HONEYDEW91
J|0212|Forte,A.M.+Peltier,W.R.+Dziewonski,A.M.+|Dynamic surface topography: a new interpretation based upon mantle flow models derived from seismic tomography||#GRL:20:3:1993:225-228|Topography+Mantle+Geoid+Isostasy
J|0213|Honda,H.+Yomogida,K.|Periodic magma movement in the conduit with a barrier: a model for the volcanic tremor||#GRL:20:3:1993:229-232|Volcanic tremor+Magma+Model
J|0214|Campbell,A.+Heinz,D.L.|An amorphous phase on the anorthite Hugoniot||#GRL:20:3:1993:237-240|Pressure+Compressional wave+Velocity
J|0215|Clarke,T.J.+Silver,P.G.|Estimation of crustal Poisson's ratio from broad band teleseismic data||#GRL:20:3:1993:241-244|Continental crust+Poisson's ratio+Broadband seismology+Single-station method
J|0216|Gheitanchi,M.R.+Kikuchi,M.+Mizoue,M.|Teleseismic interpretation of the 1968 Dasht-e Bayaz, NE Iran, earthquake||#GRL:20:3:1993:245-248|Destructive earthquake+1968+Iran+Source parameter
J|0217|Tada,T.+Shimazaki,K.+Tsuboi,S.|Analysis of short-period P waves from the 1989 Macquarie Ridge earthquake using a broadband array in Japan||#GRL:20:4:1993:269-272|Short-period wave+1989+Earthquake+Macquarie Ridge||#*MACQUARIE89
J|0218|Giardini,D.+Boschi,E.+Palombo,B.|Moment tensor inversion from MedNet data (2) regional earthquakes of the Mediterranean||#GRL:20:4:1993:273-276|Seismic moment tensor+Inversion+Mediterranean+MEDNET||#*VRANCEA90|#*SICILY90
J|0219|Patton,H.J.+Walter,W.R.|Regional moment: magnitude relations for earthquakes and explosions||#GRL:20:4:1993:277-280|Moment magnitude+Nuclear explosion+Discrimination+Regional phase
J|0220|Petersen,N.V.+Gossler,J.+Kind,R.+|Precursors to SS and structure of transition zone of the north-western Pacific||#GRL:20:4:1993:281-284|Precursor+Transition zone+Northwest Pacific+SH-wave
J|0221|Song,X-D.+Helmberger,D.V.|Effect of velocity structure in D" on PKP phases||#GRL:20:4:1993:285-288|Velocity structure+D" region+PKP-wave+Differential travel-times
J|0222|Shankland,T.J.+Johnson,P.A.+Hopson,T.M.|Elastic wave attenuation and velocity of Berea sandstone measured in the frequency domain||#GRL:20:5:1993:391-394|Sandstone+Elastic wave+Velocity+Attenuation
J|0223|Hori,S.+Fukao,Y.+Suda,N.+|Local network observation of the Earth's free oscillations: apparent centroid of the 1989 Macquarie Ridge earthquake||#GRL:20:5:1993:395-398|Free oscillation+Earthquake+1989+Macquarie Ridge||#*MACQUARIE89
J|0224|Thurber,C.H.+Quin,H.R.+Richards,P.G.|Accurate locations of nuclear explosions in Balapan, Kazakhstan, 1987 to 1989||#GRL:20:5:1993:399-402|Location+Nuclear explosion+Test site+1987-1989
J|0225|Walter,W.R.|Source parameters of the June 29, 1992 Little Skull Mountain earthquake from complete regional waveforms at a single station||#GRL:20:5:1993:403-406|Source parameter+1992+Earthquake+Nevada||#*CALIFNEV92
J|0226|Lundgren,P.R.+Kornreich Wolf,S.+Protti,M.+|GPS measurements of crustal deformation associated with the 22 April 1991, Valle de la Estrella, Costa Rica earthquake||#GRL:20:5:1993:407-410|Deformation+Earthquake+Costa Rica+1991||#*COSTARICA91
J|0227|Katsumata,K.+Tsukada,S.+Ogino,I.+|Linear array data gathering for microearthquake observation: survey of mid-crustal reflectors||#GRL:20:5:1993:411-414|Microearthquake+Reflector+Crustal structure+Japan
J|0228|Hooft,E.E.+Detrick,R.S.|The role of density in the accumulation of basaltic melts at mid-ocean ridges||#GRL:20:6:1993:423-426|East Pacific Rise+Velocity structure+Density+Melt
J|0229|Trifu,C-I.+Urbancic,T.I.+Young,R.P.|Non-similar frequency-magnitude distribution for M < 1 seismicity||#GRL:20:6:1993:427-430|Rockburst+b-Value+Frequency-magnitude relation+Induced seismicity
J|0230|Riegel,S.A.+Fujita,K.+Koz'min,B.M.+|Extrusion tectonics of the Okhotsk plate, northeast Asia||#GRL:20:7:1993:607-610|Plate tectonics+Northeast Asia+Focal mechanism+Plate boundary||#*ESIBERIA76
J|0231|Argus,D.F.+Lyzenga,G.A.|Constraints on interseismic deformation at Japan Trench from VLBI data||#GRL:20:7:1993:611-614|Japan Trench+Plate motion+Deformation+Geodetic measurement
J|0232|Lutter,W.J.+Trehu,A.M.+Nowack,R.L.|Application of 2-D travel-time inversion of seismic refraction data to the mid-continent rift beneath Lake Superior||#GRL:20:7:1993:615-618|Travel-times+Inversion+Lake Superior+Refraction data
J|0233|Gohl,K.+Hawman,R.B.+Smithson,S.B.|Wide-angle reflection studies of the crust and Moho beneath the Archean gneiss terrane of southern Minnesota||#GRL:20:7:1993:619-622|Reflexion study+Minnesota+Crustal structure+Mohorovicic discontinuity
J|0234|Murray,M.H.+Savage,J.C.+Lisowski,M.+|Coseismic displacements: 1992 Landers, California, earthquake||#GRL:20:7:1993:623-626|Displacement+1992+Earthquake+California||#*LANDERS92
J|0235|Montagner,J-P.+Romanowicz,B.|Degrees 2, 4, 6 inferred from seismic tomography||#GRL:20:7:1993:631-634|Tomography+Aspherical Earth structure+Mantle+Spherical harmonics
J|0236|Shaw,B.E.|Moment spectra in a simple model of an earthquake fault||#GRL:20:8:1993:643-646|Fault+Model+Moment+Spectrum
J|0237|Campillo,M.+Archuleta,R.J.|A rupture model for the 28 June 1992 Landers, California, earthquake||#GRL:20:8:1993:647-650|Rupture+California+1992+Earthquake||#*LANDERS92
J|0238|Kahle,H-G.+Muller,M.V.+Mueller,S.+|The Kephalonia transform fault and the rotation of the Apulian platform: evidence from satellite geodesy||#GRL:20:8:1993:651-654|Transform fault+Ionian Sea+Geodesy+Crustal movement||#*KEFALLINIA
J|0239|Chatelain,J-L.+Guillier,B.+Gratier,J-P.|Unfolding the subducting plate in the central New Hebrides island arc: geometrical argument for detachment of part of the downgoing slab||#GRL:20:8:1993:655-658|Seismic gap+New Hebrides+Slab+Subduction
J|0240|Bussy,M.+Montagner,J-P.+Romanowicz,B.|Tomographic study of upper mantle attenuation in the Pacific Ocean||#GRL:20:8:1993:663-666|Upper mantle+Pacific Ocean+Tomography+Attenuation
J|0241|Majtenyi,S.I.+Foster,E.L.|Correction to `Propagation velocity of shockwaves and pressure waves in soil and rock'||#GRL:20:8:1993:765|Errata+Shock wave+Velocity+Propagation+P-wave
J|0242|Petersen,N.V.+Vinnik,L.P.+Kosarev,G.L.+|Sharpness of the mantle discontinuities||#GRL:20:9:1993:859-862|Mantle+Discontinuity+Transition zone+Waveform
J|0243|Ide,S.+Imamura,F.+Yoshida,Y.+|Source characteristics of the Nicaraguan tsunami earthquake of September 2, 1992||#GRL:20:9:1993:863-866|Source parameter+Earthquake+1992+Nicaragua||#*NICARAGUA92
J|0244|Katsumata,K.|Seismic transmission survey: application to real data from microearthquakes||#GRL:20:9:1993:867-870|Microearthquake+Converted wave+Discontinuity+Honshu||#*TOKYO92
J|0245|Yuen,D.A.+Cadek,O.+Chopelas,A.+|Geophysical inferences of thermal-chemical structures in the lower mantle||#GRL:20:9:1993:899-902|Lower mantle+Thermal structure+Heterogeneity+Pacific+Africa
J|0246|Kilgore,B.D.+Blanpied,M.L.+Dieterich,J.H.|Velocity dependent friction of granite over a wide range of conditions||#GRL:20:10:1993:903-906|Granite+Friction+Stick-slip
J|0247|Shaw,B.E.|Generalized Omori law for aftershocks and foreshocks from a simple dynamics||#GRL:20:10:1993:907-910|Foreshock+Aftershock+Dynamics+Space-time distribution+Omori's power law
J|0248|Pingue,F.+De Natale,G.|Fault mechanism of the 40 seconds subevent of the 1980 Irpinia (southern Italy) earthquake from levelling data||#GRL:20:10:1993:911-914|Focal mechanism+Earthquake+1980+Italy||#*CAMPANIA
J|0249|Alsina,D.+Snieder,R.+Maupin,V.|A test of the great circle approximation in the analysis of surface waves||#GRL:20:10:1993:915-918|Surface wave+Wavefront+Iberia+Azimuth
J|0250|Glenn,L.A.|Comparing U.S. and Russian experience with cavity decoupling in salt||#GRL:20:10:1993:919-922|Underground nuclear explosion+Cavity+Salt
J|0251|Luschen,E.+Sobolev,S.+Werner,U.+|Fluid reservoir (?) beneath the KTB drillbit indicated by seismic shear-wave observations||#GRL:20:10:1993:923-926|Drilling+Reflector+Reservoir+Shear wave
J|0252|Sylvester,A.G.|Investigation of nearfield postseismic slip following the Mw 7.3 Landers earthquake sequence of 28 June 1992, California||#GRL:20:11:1993:1079-1082|Earthquake+California+1992+Slip
J|0253|Zhao,D-P.+Kanamori,H.|The 1992 Landers earthquake sequence: earthquake occurrence and structural heterogeneities||#GRL:20:11:1993:1083-1086|California+Earthquake+1992+Heterogeneity||#*LANDERS92
J|0254|Li,Y-P.+Toksoz,M.N.|Study of the source process of the 1992 Colombia MS=7.3 earthquake with the empirical Green's function method||#GRL:20:11:1993:1087-1090|Colombia+1992+Source-time function+Earthquake||#*COLOMBIA92A|#*COLOMBIA92B
J|0255|Du,Y.+Aydin,A.|The maximum distortional strain energy density criterion for shear fracture propagation with applications to the growth paths of en echelon faults||#GRL:20:11:1993:1091-1094|Fault+Strain+Fracture
J|0256|Silver,P.G.+Meyer,R.P.+James,D.E.|Intermediate-scale observations of the Earth's deep interior from the APT89 transportable teleseismic experiment||#GRL:20:12:1993:1123-1126|Earth structure+Array+Portable station+Core-mantle boundary
J|0257|Silver,P.G.+Kaneshima,S.|Constraints on mantle anisotropy beneath Precambrian North America from a transportable teleseismic experiment||#GRL:20:12:1993:1127-1130|North America+Shear wave splitting+SKS-wave+SKKS-wave
J|0258|Bokelmann,G.H.R.+Silver,P.G.|The Caribbean anomaly: short-wavelength lateral heterogeneity in the lower mantle||#GRL:20:12:1993:1131-1134|Caribbean+Lower mantle+Lateral heterogeneity+Travel-times
J|0259|Silver,P.G.+Bina,C.R.|An anomaly in the amplitude ratio of SKKS/SKS in the range 100-108degrees from portable seismic data||#GRL:20:12:1993:1135-1138|Anomaly+SKKS-wave+SKS-wave+Amplitude
J|0260|Munson,C.G.+Thurber,C.H.+Li,Y-P.|Observation of shear wave splitting on the southeast flank of Mauna Loa volcano, Hawaii||#GRL:20:12:1993:1139-1142|Shear wave splitting+Mauna Loa+Volcano+Microearthquake
J|0261|Yoshioka,N.+Kikuchi,M.|Visco-elastic response of joints to transmission waves||#GRL:20:12:1993:1143-1146|Joint+Rock+Viscoelastic solid+Transmission coefficient
J|0262|Pribnow,D.+Williams,C.F.+Burkhardt,H.|Well log-derived estimates of thermal conductivity in crystalline rocks penetrated by the 4-km deep KTB Vorbohrung||#GRL:20:12:1993:1155-1158|Thermal conductivity+Well-log+Rock+Wave velocity
J|0263|Teisseyre,R.+Czechowski,Z.|Unified earthquake premonitory and rebound theory||#APL:41:1:1993:1-16|Rebound+Creep+Sequence+Stress
J|0264|Rozluski,C.P.+Yukutake,T.|Preliminary analysis of magneto-telluric and seismic activity in the Chuba District, Japan||#APL:41:1:1993:17-26|Magnetotellurics+Japan+Activity+Electromagnetic wave
J|0265|Chattopadhyay,A.+Keshari,A.|Generation of G-type seismic waves||#APL:41:1:1993:27-35|Interface+G-wave+Propagation+Low-velocity layer
J|0266|Teisseyre,R.+Wiejacz,P.|Earthquake sequences: stress diagrams||#APL:41:2:1993:85-99|Sequence+Stress+Energy+Pattern
J|0267|Lasocki,S.|Weibull distribution as a model for sequences of seismic events induced by mining||#APL:41:2:1993:101-111|Induced seismicity+Mining tremor+Sequence+Model
A|0268|Li,Q-L.+Song,R.+Chen,J-B.+|Summary catalog of Chinese earthquakes of different historical periods 780 B.C.-1984 A.D.|In Chinese with English abstract|1991:Beijing:State Seismological Bureau|China+Earthquake catalogue+780 B.C.-1984 A.D.+Historical seismicity
J|0269|Gladkov,A.A.+Sidorin,A.Ya.|Automatic digital memory station for autonomous recording of geophysical process and earthquakes|In Russian|#SMP:23:-:1992:16-21|Automatic recording+Geophysics+Apparatus
J|0270|Kovalle,G.|Piezoelectrical seismic sensor based on polymeric films|In Russian|#SMP:23:-:1992:21-26|Sensor+Piezoelectric effect+Instrumentation
J|0271|Bashilov,I.P.+Davydov,A.A.+Hromov,E.Ju.|Analyser of seismic signals|In Russian|#SMP:23:-:1992:26-29|Analysis+Signal+Apparatus
J|0272|Senin,L.N.|Kompandem analogue-digital transformer, using delta-modulation for recording seismic signals|In Russian|#SMP:23:-:1992:30-32|Seismic recording+Digital recording+Instrumentation
J|0273|Fremd,V.M.+Ulomov,I.V.+Mezhberg,V.G.+|Functional series of three-component piezo-accelerometers TAPhi|In Russian|#SMP:23:-:1992:33-35|Accelerometer+Instrumentation
J|0274|Mardirosyan,G.H.|Measurer of seismic waves periods|In Russian|#SMP:23:-:1992:35-38|Instrument
J|0275|Freedman,A.A.+Rybalka,A.T.+Alexandrov,A.P.+|Set of hybrid-film microcircuits for seismotelemetry with frequency modulation|In Russian|#SMP:23:-:1992:38-43|Telemetry+Instrumentation
J|0276|Bazanov,B.E.+Glazov,A.V.+Kakhnovsky,A.M.+|Base accelerograph TsA3-3 for engineer-seismometric service stations|In Russian|#SMP:23:-:1992:43-47|Accelerograph
J|0277|Lin'kov,E.M.|Superlong-period horizontal seismometric channel|In Russian|#SMP:23:-:1992:48-54|Instrumentation
J|0278|Rykov,A.V.+Marchenkov,A.Ju.|Feedback seismometer based on example of the Wieland seismometer|In Russian|#SMP:23:-:1992:54-58|Seismometer+Instrument
J|0279|Dobrinsky,V.I.+Lisin,A.M.|About acoustic method of three-component seismometer orientation finding|In Russian|#SMP:23:-:1992:58-63|Acoustics+Seismometer+Orientation
J|0280|Smirnov,Ju.N.|Nonisochronical pendulum as the base for the measurement of accelerations|In Russian|#SMP:23:-:1992:63-65|Measurement+Acceleration
J|0281|Tokmakov,V.A.+Trapeznikov,N.L.|Wide-band velocimeter based on serial seismometer|In Russian|#SMP:23:-:1992:66-70|Broadband seismology+Seismometer
J|0282|Mysh,A.G.+Potapov,O.A.|Impulse and frequency-temporal characteristics of seismosensors|In Russian|#SMP:23:-:1992:81-86|Sensor+Frequency response+Impulse
J|0283|Zheleznyak,T.K.|Influence of seismometer and correcting element parameters correlation on frequency characteristics|In Russian|#SMP:23:-:1992:89-91|Seismometer+Frequency response
J|0284|Aranovich,Z.I.+Negrebetsky,S.A.+Serova,O.A.|The estimation of recorded earthquakes minimal energy class Kmin(Delta) according to data of recording by digital complexes "Gelati-Pusk" in the "start-stop" mode|In Russian|#SMP:23:-:1992:92-97|Energy+Digital recording
J|0285|Fremd,V.M.|Apparatus-methodical basis of dams seismic monitoring|In Russian|#SMP:23:-:1992:97-101|Monitoring+Dam+Apparatus
J|0286|Chistyakov,V.A.|Apparatus finding of seismometric devices metrological characteristics|In Russian|#SMP:23:-:1992:101-111|Apparatus
J|0287|Kapustjan,N.K.+Troitsky,P.A.|About schemes of operative seismic monitoring on AES sites|In Russian|#SMP:23:-:1992:112-116|Monitoring
J|0288|Valiasis,T.N.+Stylianidis,K.C.+Penelis,G.G.|Hysteresis model for weak brick masonry infills in R/C frames under lateral reversals||#EEE:7:1:1993:3-9|Hysteresis+Frame+Masonry structure+Earthquake engineering
J|0289|Tomazevic,M.+Apih,V.|The strengthening of stone-masonry walls by injecting the masonry-friendly grouts||#EEE:7:1:1993:10-20|Masonry structure+Earthquake engineering+Historic building+Mitigation
J|0290|Corsanego,A.+Gavarini,C.|Evolutionary seismic vulnerability of historic buildings||#EEE:7:1:1993:21-28|Vulnerability+Historic building+Italy
J|0291|Lee,V.W.+Karl,J.|On deformations near a circular underground cavity subjected to incident plane P waves||#EEE:7:1:1993:29-36|Deformation+Cavity+P-wave+Diffraction
J|0292|Caillot,V.+Bard,P-Y.|Magnitude, distance and site dependent spectra from Italian accelerometric data||#EEE:7:1:1993:37-48|Spectrum+Site+Magnitude+Distance
J|0293|Grunthal,G.+Musson,R.M.W.+Schwarz,J.+|The European macroseismic scale (MSK-92)||#EEE:7:1:1993:49|MSK-Scale+European Seismological Commission
J|0294|Akbar,N.+Dvorkin,J.+Nur,A.|Relating P-wave attenuation to permeability||#GPS:58:1:1993:20-29|Permeability+Attenuation+P-wave+Pore fluid
J|0295|Yu,G.+Vozoff,K.+Durney,D.W.|The influence of confining pressure and water saturation on dynamic elastic properties of some Permian coals||#GPS:58:1:1993:30-38|Coal+Elastic medium+Pressure+Saturation
J|0296|Knapp,R.W.|Energy distribution in wavelets and implications on resolving power||#GPS:58:1:1993:39-46|Wavelet+Energy+Resolution
J|0297|Black,J.L.+Schleicher,K.L.+Zhang,L.|True-amplitude imaging and dip moveout||#GPS:58:1:1993:47-66|Dip moveout+Imaging+Amplitude+Dipping reflector
J|0298|McCormack,M.D.+Zaucha,D.E.+Dushek,D.W.|First-break refraction event picking and seismic data trace editing using neural networks||#GPS:58:1:1993:67-78|Neural network+Seismic processing+Pick+Trace
J|0299|Dong,Z-X.+McMechan,G.A.|3-D prestack migration in anisotropic media||#GPS:58:1:1993:79-90|Anisotropic medium+Migration+Finite difference method+Extrapolation
J|0300|Lafond,C.F.+Levander,A.R.|Migration moveout analysis and depth focussing||#GPS:58:1:1993:91-100|Moveout+Migration+Ray tracing+Heterogeneous medium
J|0301|Landro,M.+Zaalberg-Metselaar,G.+Owren,B.+|Modeling of water-gun signatures||#GPS:58:1:1993:101-109|Water gun+Signature+Modelling+Shock wave
J|0302|Carcione,J.M.|Seismic modeling in viscoelastic media||#GPS:58:1:1993:110-120|Modelling+Viscoelastic medium+Equation of motion+Propagation
J|0303|Chen,H-W.+McMechan,G.A.|3-D physical modeling and pseudospectral simulation of seismic common-source data volumes||#GPS:58:1:1993:121-133|Modelling+Simulation+Salt+Imaging
J|0304|Zimmerman,L.J.+Chen,S.T.|Comparison of vertical seismic profiling techniques||#GPS:58:1:1993:134-140|Vertical seismic profiling+Borehole+Geophone+Hydrophone
J|0305|Owen,T.E.+Parra,J.O.|Comparison of high-resolution wax-embedded and pneumatically coupled borehole seismic detectors||#GPS:58:1:1993:141-153|Borehole+Instrument+Vertical seismic profiling+Detector
J|0306|Spencer,C.+Thurlow,G.+Wright,J.+|A vibroseis reflection seismic survey at the Buchans Mine in central Newfoundland||#GPS:58:1:1993:154-166|Newfoundland+Vibroseis+Seismic survey+Reflexion study+Mine
J|0307|O'Connell,J.K.+Kohli,M.+Amos,S.|Bullwinkle: a unique 3-D experiment||#GPS:58:1:1993:167-176|Seismic survey+Mexico, G. of+Salt+Prospecting
J|0308|Scales,J.A.|On the use of localization theory to characterize elastic wave propagation in randomly stratified 1-D media||#GPS:58:1:1993:177-179|Elastic wave+Propagation+Sonic log+Exploration|Short note
J|0309|Tango,G.G.|Review of `Seismic anisotropy in the Earth' by V. Babuska and M. Cora||#GPS:58:1:1993:180|Review+Anisotropy+Seismology+Geophysics|Kluwer Academic Publishers, Norwell and Dordrecht, 1991, 231p
J|0310|Zhou,H-W.|Review of `Seismic prospecting for sedimentary formations' by G. N. Gogonenkov||#GPS:58:1:1993:180-181|Review+Prospecting+Sediment|A. A. Balkema, Rotterdam, 1990, 219p
J|0311|Harbert,W.|Review of `Geology and geophysics of continental margins' edited by J. S. Watkins, F. Zhiqiang and K. J. McMillen||#GPS:58:1:1993:182-183|Review+Continental margin+Geology+Geophysics|AAPG Memoir 53, Tulsa, 1992, 419p
J|0312|Mosher,C.C.|Review of `Exploration seismic tomography: fundamentals' by R. R. Stewart||#GPS:58:1:1993:183|Review+Exploration+Tomography|SEG, Tulsa, 1991, 189p
J|0313|Mosher,C.C.|Review of `Dip moveout processing' by D. Hale||#GPS:58:1:1993:183|Review+Dip moveout+Seismic processing|SEG, Tulsa, 1991, 81p
J|0314|Murphy,W.+Reischer,A.+Hsu,K.|Modulus decomposition of compressional and shear velocities in sand bodies||#GPS:58:2:1993:227-239|Sand+Porosity+Bulk modulus+Decomposition
J|0315|Li,X-Y.+Crampin,S.|Linear-transform techniques for processing shear-wave anisotropy in four-component seismic data||#GPS:58:2:1993:240-256|Shear wave splitting+Seismic processing+Vertical seismic profiling+Transform
J|0316|Hale,D.+Artley,C.|Squeezing dip moveout for depth-variable velocity||#GPS:58:2:1993:257-264|Dip moveout+Velocity-depth function+Dipping reflector+Seismic processing
J|0317|Sena,A.G.+Toksoz,M.N.|Kirchhoff migration and velocity analysis for converted and nonconverted waves in anisotropic media||#GPS:58:2:1993:265-276|Anisotropic medium+Kirchhoff method+Migration+Converted wave+Velocity
J|0318|Nautiyal,A.+Gray,S.H.+Whitmore,N.D.+|Stability versus accuracy for an explicit wavefield extrapolation operator||#GPS:58:2:1993:277-283|Extrapolation+Wave field+Seismic processing+Stability+Accuracy
J|0319|Coultrip,R.L.|High-accuracy wavefront tracing traveltime calculation||#GPS:58:2:1993:284-292|Accuracy+Wavefront+Travel-times+Ray tracing
J|0320|Worley,S.C.|The geometry of reflection||#GPS:58:2:1993:293-297|Geometry+Reflexion+Dipping reflector
J|0321|Kendall,C.|Review of `Neotectonics of North America' edited by D. B. Slemmons, E. R. Engdahl, M. D. Zoback and D. B. Blackwell||#GPS:58:2:1993:307|Review+North America+Neotectonics+Seismicity+Map|Geological Society of America Inc., Boulder, 1992, 508p
J|0322|Kendall,C.|Review of `The dynamic Earth: an introduction to physical geology' by B. J. Skinner and S. C. Porter||#GPS:58:2:1993:307-308|Review+Geology+Geophysics+Earth sciences|Wiley, New York, 1992, 570p
J|0323|McCormack,M.D.+Zaucha,D.E.+Dushek,D.W.|Errata to `First-break refraction event picking and seismic data trace editing using neural networks'||#GPS:58:2:1993:315-318|Errata+Neural network+Trace+Seismic processing+Pick
J|0324|Gist,G.A.+Thompson,A.H.+Katz,A.J.+|Wave velocities in sandstones from elastic network simulations||#GPS:58:3:1993:334-343|Wave velocity+Sandstone+Elastic medium+Porosity+Simulation
J|0325|Blangy,J.P.+Strandenes,S.+Moos,D.+|Ultrasonic velocities in sands - revisited||#GPS:58:3:1993:344-356|Consolidation+Sand+Ultrasonic wave+Velocity
J|0326|Avedik,F.+Renard,V.+Allenou,J.P.+|"Single bubble" air-gun array for deep exploration||#GPS:58:3:1993:366-382|Airgun+Exploration+Array+Deep seismic sounding+Marine seismic source
J|0327|Cary,P.W.+Lorentz,G.A.|Four-component surface consistent deconvolution||#GPS:58:3:1993:383-392|Deconvolution+Filtering+Common depth point+Offset
J|0328|Lynn,W.+MacKay,S.+Beasley,C.J.|Efficient migration through complex water-bottom topography||#GPS:58:3:1993:393-398|Migration+Imaging+Sea floor
J|0329|DuBose,J.B.|Practical steps toward realizing the potential of Monte Carlo automatic statics||#GPS:58:3:1993:399-407|Statics+Monte Carlo method+Common midpoint+Stack
J|0330|Jannaud,L.R.+Adler,P.M.+Jacquin,C.G.|Spectral analysis and inversion of experimental codas||#GPS:58:3:1993:408-418|Spectral analysis+Inversion+Coda+Cross-hole
J|0331|Barnes,A.E.|Instantaneous spectral bandwidth and dominant frequency with applications to seismic reflection data||#GPS:58:3:1993:419-428|Reflexion data+Bandwidth+Frequency+Trace
J|0332|Cary,P.W.+Eaton,D.W.S.|A simple method for resolving large converted-wave (P-SV) statics||#GPS:58:3:1993:429-433|Converted wave+Statics+Common midpoint+Stack|Short note
J|0333|Mendel,J.M.|Discussion on `Why don't we measure seismic signatures?' by A. Ziolkowski||#GPS:58:3:1993:441-447|Comments+Signature+Deconvolution+Seismogram|With a series of replies and responses
J|0334|McCormack,M.D.|Review of `Exploration geophysics of the shallow subsurface' by H. R. Burger||#GPS:58:3:1993:449-450|Review+Exploration+Geophysics+Subsurface|Prentice-Hall, New Jersey, 1992, 489p
J|0335|Kendall,C.|Review of `Stratigraphic traps III, treatise of petroleum geology, atlas of oil and gas fields' edited by N. H. Foster and E. Beaumont||#GPS:58:3:1993:451-457|Review+Trap+Stratigraphy+Map|AAPG, Tulsa, 1992, 445p
J|0336|Bouchon,M.|A numerical simulation of the acoustic and elastic wavefields radiated by a source on a fluid-filled borehole embedded in a layered medium||#GPS:58:4:1993:475-481|Wave field+Borehole+Layered medium+Numerical method
J|0337|Dvorkin,J.+Nur,A.|Dynamic poroelasticity: a unified model with the squirt and the Biot mechanisms||#GPS:58:4:1993:524-533|Poroelasticity+Biot theory+Mechanism+Rock
J|0338|Martinez,R.D.|Wave propagation effects on amplitude variation with offset measurements: a modeling study||#GPS:58:4:1993:534-543|Modelling+Offset+Amplitude+Synthetic seismogram
J|0339|Mallick,S.|A simple approximation to the P-wave reflection coefficient and its implication in the inversion of amplitude variation with offset data||#GPS:58:4:1993:544-552|Reflexion coefficient+P-wave+Inversion+Approximation
J|0340|Liu,C-H.+Stock,J.M.|Quantitative determination of uncertainties in seismic refraction prospecting||#GPS:58:4:1993:553-563|Prospecting+Refracted wave+Error+Modelling
J|0341|Geoltrain,S.+Brac,J.|Can we image complex structures with first-arrival traveltime?||#GPS:58:4:1993:564-575|Imaging+First arrival+Travel-times+Migration
J|0342|Kneib,G.+Kerner,C.|Accurate and efficient seismic modeling in random media||#GPS:58:4:1993:576-588|Modelling+Propagation+Heterogeneous medium+Algorithm
J|0343|Lines,L.|Ambiguity in analysis of velocity and depth||#GPS:58:4:1993:596-597|Velocity+Depth+Offset+Pick|Short note
J|0344|Harbert,W.|Review of `The BIRPS atlas, deep seismic reflection profiles around the British Isles' by S. Klemperer and R. Hobbs||#GPS:58:4:1993:600-601|Review+BIRPS+Marine seismic investigation+British Isles|Cambridge University Press, Cambridge, 1991, 124p
J|0345|Sheriff,R.E.|Review of `Giant oil and gas fields of the decade 1978-1988' edited by M. T. Halbouty||#GPS:58:4:1993:601|Review+1978-1988+Gas field+Oil field|AAPG Memoir 54, Tulsa, 1992, 526p
J|0346|Iverson,W.P.|Review of `Reservoir geophysics' edited by R. E. Sheriff||#GPS:58:4:1993:602-603|Review+Reservoir+Seismic prospecting+Geophysics|SEG, Tulsa, 1992, 419p
J|0347|Tsai,J.|Review of `Interpretation of 3-dimensional seismic data' by A. R. Brown||#GPS:58:4:1993:603-604|Review+Interpretation+Data processing+Reservoir|AAPG Memoir 42, Tulsa, 1991, 341p
J|0348|Rechtien,R.D.+Hambacker,K.L.+Ballard,R.F.|A high-frequency sparker source for the borehole environment||#GPS:58:5:1993:660-669|Sparker+Borehole+Marine seismic investigation+Instrument
J|0349|De Nicolao,A.+Drufuca,G.+Rocca,F.|Eigenvalues and eigenvectors of linearized elastic inversion||#GPS:58:5:1993:670-679|Eigenvector+Inversion+Linearization+Elastic medium
J|0350|Helbig,K.|Longitudinal directions in media of arbitrary anisotropy||#GPS:58:5:1993:680-691|Propagation+Polarization+Anisotropic medium+Direction
J|0351|Hubral,P.+Schleicher,J.+Tygel,M.|Three-dimensional primary zero-offset reflections||#GPS:58:5:1993:692-702|Zero offset+Propagator matrix+Reflector+Fresnel zone+Ray tracing
J|0352|Hubral,P.+Schleicher,J.+Tygel,M.+|Determination of Fresnel zones from traveltime measurements||#GPS:58:5:1993:703-712|Fresnel zone+Travel-times+Common midpoint+Zero offset
J|0353|Al-Eqabi,G.I.+Herrmann,R.B.|Ground roll: a potential tool for constraining shallow shear-wave structure||#GPS:58:5:1993:713-719|Ground roll+Shallow structure+Shear wave+Refraction study
J|0354|Zhou,H-W.|Traveltime tomography with a spatial-coherency filter||#GPS:58:5:1993:720-726|Tomography+Filter+Cross-hole+Iterative method
J|0355|Williamson,P.R.+Worthington,M.H.|Resolution limits in ray tomography due to wave behavior: numerical experiments||#GPS:58:5:1993:727-735|Resolution+Tomography+Ray tracing+Cross-hole
J|0356|Shapiro,S.A.+Zien,H.|The O'Doherty-Anstey formula and localization of seismic waves||#GPS:58:5:1993:736-740|Seismic waves+Layered medium+Multiple scattering+O'Doherty-Anstey effect|Short note
J|0357|Gendzwill,D.J.+Brehm,R.|High-resolution seismic reflections in a potash mine||#GPS:58:5:1993:741-748|High resolution+Mine+Reflexion study+Geophone
J|0358|Eaton,D.W.S.|Discussion on `Ultrasonic velocity and anisotropy of hydrocarbon source rocks' by L. Vernik and A. Nur||#GPS:58:5:1993:758-759|Comments+Ultrasonic wave+Anisotropy+Velocity+Shale|With a reply by the authors
J|0359|Tango,G.G.|Review of `Joint interpretation of geophysical and geological data applied to lithospheric studies' edited by P. Giese, D. Roeder, and R. Nicolich||#GPS:58:5:1993:760-762|Review+Interpretation+Lithosphere+Geophysical data|Kluwer Academic Publishers, Norwell and Dordrecht, 1991, 265p
J|0360|Tango,G.G.|Review of `Statistical applications in the Earth sciences' edited by F. Agterberg and G. Bonham-Carter||#GPS:58:5:1993:760-762|Review+Statistical method+Earth sciences|Geological Survey of Canada, Ottawa and Calgary, 1990, 594p
J|0361|Tango,G.G.|Review of `Geophysical inversion' edited by J. B. Bednar, L. R. Lines, R. H. Stolt and A. B. Weglein||#GPS:58:5:1993:762-764|Review+Inversion+Mathematical geophysics|Society of Industrial and Applied Mathematics, Philadelphia, 1992, 463p
J|0362|Lefeuvre,F.+Turpening,R.+Caravana,C.+|Vertical open fractures and shear-wave velocities derived from VSPs, full waveform acoustic logs, and televiewer data||#GPS:58:6:1993:818-834|Vertical seismic profiling+Velocity+Borehole+Propagator matrix
J|0363|Trantham,E.C.|Minimum uncertainty filters for pulses||#GPS:58:6:1993:853-862|Pulse+Wiener filter+Ricker wavelet
J|0364|Eastwood,J.|Temperature-dependent propagation of P- and S-waves in Cold Lake oil sands: comparison of theory and experiment||#GPS:58:6:1993:863-872|Temperature+Oil sand+Velocity+P-wave
J|0365|Versteeg,R.J.|Sensitivity of prestack depth migration to the velocity model||#GPS:58:6:1993:873-882|Migration+Imaging+Sensitivity+Model
J|0366|Kim,K.Y.+Wrolstad,K.H.+Aminzadeh,F.|Effects of transverse isotropy on P-wave AVO for gas sands||#GPS:58:6:1993:883-888|Gas sand+P-wave+Anisotropic medium+Reflectivity
J|0367|Anderson,N.L.+Cederwall,D.A.|Westhazel General Petroleums Pool: case history of a salt-dissolution trap in west-central Saskatchewan, Canada||#GPS:58:6:1993:889-897|Trap+Saskatchewan+Salt+Exploration
J|0368|Butler,K.E.+Russell,R.D.|Subtraction of powerline harmonics from geophysical records||#GPS:58:6:1993:898-903|Power-line+Noise+Seismoelectric effect|Short note
J|0369|Blair,D.P.|Discussion on `A waveform inversion technique for measuring elastic wave attenuation in cylindrical bars' by X. M. Tang||#GPS:58:6:1993:904-916|Comments+Elastic wave+Attenuation+Inversion|With a reply by the author
J|0370|Burnett,R.C.|Errata to `Seismic amplitude anomalies and AVO analyses at Mestena Grande Field, Jim Hogg Co., Texas'||#GPS:58:6:1993:916|Errata+Anomaly+Amplitude+Texas
J|0371|Savage,J.C.|The Parkfield prediction fallacy||#BSA:83:1:1993:1-6|Parkfield+Prediction+Recurrence+Probability
J|0372|Kagan,Y.Y.|Statistics of characteristic earthquakes||#BSA:83:1:1993:7-24|Characteristic earthquake+Statistical method+Size
J|0373|Bowman,J.R.+Kennett,B.L.N.|The velocity structure of the Australian shield from seismic travel times||#BSA:83:1:1993:25-37|Australian Shield+Travel-times+Velocity structure+Modelling+ISC
J|0374|Foulger,G.R.+Julian,B.R.|Non-double-couple earthquakes at the Hengill-Grensdalur volcanic complex, Iceland: are they artifacts of crustal heterogeneity?||#BSA:83:1:1993:38-52|Iceland+Heterogeneity+Volcanic complex+Non-double couple
J|0375|Gupta,I.N.+Lynnes,C.S.+Wagner,R.A.|An array study of the effects of a known local scatterer on regional phases||#BSA:83:1:1993:53-63|Regional phase+Scattering+Array+NORESS||#*NORWAY86
J|0376|Scott-Phillips,W.+Kinoshita,S.+Fujiwara,H.|Basin-induced Love waves observed using the strong-motion array at Fuchu, Japan||#BSA:83:1:1993:64-84|Japan+Love wave+Sedimentary basin+Strong-motion array||#*YAMANASHI2|#*SAITAMA88
J|0377|Moczo,P.+Bard,P-Y.|Wave diffraction, amplification and differential motion near strong lateral discontinuities||#BSA:83:1:1993:85-106|Lateral heterogeneity+SH-wave+Diffracted wave+Amplification||#*YUNNAN
J|0378|Zahradnik,J.+Moczo,P.+Hron,F.|Testing four elastic finite difference schemes for behavior at discontinuities||#BSA:83:1:1993:107-129|Discontinuity+Finite difference method+Synthetic seismogram+Elastic wave
J|0379|Dahlen,F.A.|Single-force representation of shallow landslide sources||#BSA:83:1:1993:130-143|Landslide+Thrust fault+Shallow structure+Source
J|0380|Smith,K.D.+Priestley,K.F.|Aftershock stress release along active fault planes of the 1984 Round Valley, California, earthquake sequence applying a time-domain stress drop method||#BSA:83:1:1993:144-159|1984+Round Valley+Sequence+Stress-drop||#*ROUNDVALLEY
J|0381|Smith,A.T.|Discrimination of explosions from simultaneous mining blasts||#BSA:83:1:1993:160-179|Discrimination+Underground nuclear explosion+Mining tremor+Signature
J|0382|Cichowicz,A.|An automatic S-phase picker||#BSA:83:1:1993:180-189|Pick+S-wave+Automatic analyser+Algorithm
J|0383|Willoughby,D.F.+Orcutt,J.A.+Horwitt,D.|A microprocessor-based ocean-bottom seismometer||#BSA:83:1:1993:190-217|Ocean-bottom seismometer+Instrumentation+Apparatus+Digital recording
J|0384|Yu,G.+Anderson,J.G.+Siddharthan,R.|On the characteristics of nonlinear soil response||#BSA:83:1:1993:218-244|Nonlinear response+Soil+Spectral ratio+Strong-motion record
J|0385|Henke,W.+Henke,R.|Laboratory evaluation of in situ geotechnical torsional cylindrical impulse shear test for earthquake resistant design||#BSA:83:1:1993:245-263|Earthquake-resistant design+Laboratory+Sand+Shear
J|0386|Kanamori,H.|Locating earthquakes with amplitude: application to real-time seismology||#BSA:83:1:1993:264-268|Earthquake location+Amplitude+Seismology+California|Short note|#*LANDERS92|#*BIGBEAR92|#*JOSHUATREE92|#*LOMAPRIETA89
J|0387|Rodbell,D.T.+Schweig,E.S.|The record of seismically induced liquefaction on late Quaternary terraces in northwestern Tennessee||#BSA:83:1:1993:269-278|Liquefaction+Tennessee+Recurrence+Time history|Short note
J|0388|Wennerberg,L.|Multiple-scattering interpretations of coda-Q measurements||#BSA:83:1:1993:279-290|Multiple scattering+Coda+Q+Interpretation|Short note
J|0389|Sharma,M.D.+Vashisth,A.|Comment on `Reflection and refraction of seismic waves incident obliquely at the boundary of liquid-saturated porous solid' by S. Hajra and A. Mukhopadhyay||#BSA:83:1:1993:291-294|Comments+Interface+Porous medium+Reflexion+Refraction
J|0390|Hutton,L.K.+Jones,L.M.|Local magnitudes and apparent variations in seismicity rates in Southern California||#BSA:83:2:1993:313-329|Seismicity+Southern California+Local magnitude+1932-1990
J|0391|Kanamori,H.+Mori,J.+Hauksson,E.+|Determination of earthquake energy release and ML using TERRAscope||#BSA:83:2:1993:330-346|Energy+Local magnitude+Southern California+Stress-drop||#*LANDERS92|#*JOSHUATREE92|#*SCALIFORNIA90|#*SANGABRIEL91
J|0392|Fenoglio,M.A.+Fraser-Smith,A.C.+Beroza,G.C.+|Comparison of ultra-low frequency electromagnetic signals with aftershock activity during the 1989 Loma Prieta earthquake sequence||#BSA:83:2:1993:347-357|Aftershock+1989+Loma Prieta+Geomagnetic field||#*LOMAPRIETA89
J|0393|Zeng,Y.+Aki,K.+Teng,T-L.|Source inversion of the 1987 Whittier Narrows earthquake, California, using the isochron method||#BSA:83:2:1993:358-377|Whittier Narrows+1987+Earthquake+Seismic process||#*WHITTIER
J|0394|Urbancic,T.I.+Young,R.P.|Space-time variations in source parameters of mining-induced seismic events with M < 0||#BSA:83:2:1993:378-397|Source parameter+Mining tremor+Spatial variation+Temporal variation
J|0395|Bent,A.L.+Cassidy,J.F.|The January 1992 Franklin Lake, Northwest Territories, earthquake sequence||#BSA:83:2:1993:398-415|Earthquake+1992+Northwest Territories+Source parameter||#*FRANKLIN92
J|0396|Bjarnason,I.Th.+Cowie,P.+Anders,M.H.+|The 1912 Iceland earthquake rupture: growth and development of a nascent transform system||#BSA:83:2:1993:416-435|Iceland+1912+Earthquake+Rupture
J|0397|Cornell,C.A.+Wu,S-C.+Winterstein,S.R.+|Seismic hazard induced by mechanically interactive fault segments||#BSA:83:2:1993:436-449|Hazard+Segmentation+Fault+Recurrence
J|0398|Nava,F.A.+Espindola,V.H.|Seismic hazard assessment through semi-estochastic simulation||#BSA:83:2:1993:450-468|Hazard+Mexico+Seismic gap+Recurrence
J|0399|Joyner,W.B.+Boore,D.M.|Methods for regression analysis of strong-motion data||#BSA:83:2:1993:469-487|Strong-motion analysis+Statistical method+Regression+Maximum likelihood
J|0400|Leach,R.R.+Dowla,F.U.+Vergino,E.S.|Yield estimation using bandpass-filtered seismograms: preliminary results using neural networks with mb(Pn), short-time, long-time, and coda energy measurements||#BSA:83:2:1993:488-508|Yield+Neural network+Underground nuclear explosion+Coda
J|0401|Ammon,C.J.+Vidale,J.E.|Tomography without rays||#BSA:83:2:1993:509-528|Tomography+Inversion+Travel-times+Technique
J|0402|Le,L.H.T.|On Cagniard's problem for a qSH line source in transversely isotropic media||#BSA:83:2:1993:529-541|Cagniard's technique+Line source+Pulse+Half-space
J|0403|Mangino,S.G.+Zandt,G.+Ammon,C.J.|The receiver structure beneath Mina, Nevada||#BSA:83:2:1993:542-560|Nevada+Velocity structure+Broadband seismology+Response
J|0404|Rodgers,P.W.|Maximizing the signal-to-noise ratio of the electromagnetic seismometer: the optimum coil resistance, amplifier characteristics, and circuit||#BSA:83:2:1993:561-582|Electromagnetic seismometer+Signal-to-noise ratio+Instrumentation
J|0405|Hill,D.P.|A note on ambient pore pressure, fault-confined pore pressure, and apparent friction||#BSA:83:2:1993:583-586|Pore pressure+Friction|Short note
J|0406|Atkinson,G.M.|Notes on ground motion parameters for eastern North America: duration and H/V ratio||#BSA:83:2:1993:587-596|Ground motion+Eastern North America+Duration|Short note
J|0407|Kovach,R.L.+Beroza,G.C.|Seismic potential from reverse faulting on the San Francisco peninsula||#BSA:83:2:1993:597-602|Seismic potential+San Francisco+Faulting+Focal mechanism|Short note
J|0408|Tselentis,G-A.|Shallow attenuation in the west Corinth-Patras rift, Greece||#BSA:83:2:1993:603-609|Attenuation+Greece+Microearthquake|Short note
J|0409|Grant,L.B.+Sieh,K.E.|Stratigraphic evidence for seven meters of dextral slip on the San Andreas fault during the 1857 earthquake in the Carrizo Plain||#BSA:83:3:1993:619-635|San Andreas Fault+1857+Earthquake+Slip
J|0410|Cassidy,J.F.+Bent,A.L.|Source parameters of the 29 May and 5 June, 1940 Richardson Mountains, Yukon Territory, earthquakes||#BSA:83:3:1993:636-659|Source parameter+1940+Earthquake+Yukon Territory
J|0411|Ruud,B.O.+Lindholm,C.D.+Husebye,E.S.|An exercise in automating seismic record analysis and network bulletin production||#BSA:83:3:1993:660-679|Automatic analysis+Seismic record+Network+Pick
J|0412|Jackson,S.M.+Wong,I.G.+Carpenter,G.S.+|Contemporary seismicity in the eastern Snake River Plain, Idaho based on microearthquake monitoring||#BSA:83:3:1993:680-695|Seismicity+Idaho+Microearthquake+Monitoring
J|0413|Stefansson,R.+Bodvarsson,R.+Slunga,R.+|Earthquake prediction research in the south Iceland seismic zone and the SIL project||#BSA:83:3:1993:696-716|Prediction+Iceland+Seismic zone+Microearthquake||#*ICELAND87
J|0414|Thurber,C.H.+Atre,S.R.|Three-dimensional Vp/Vs variations along the Loma Prieta rupture zone||#BSA:83:3:1993:717-736|Loma Prieta+PASSCAL+Velocity ratio+Inversion
J|0415|Ammon,C.J.+Zandt,G.|Receiver structure beneath the southern Mojave Block, California||#BSA:83:3:1993:737-755|Mojave+Velocity structure+Model+Source parameter
J|0416|Bostock,M.G.+VanDecar,J.C.+Snieder,R.|Modeling teleseismic P-wave propagation in the upper mantle using a parabolic approximation||#BSA:83:3:1993:756-779|Upper mantle+Modelling+P-wave+Wave equation
J|0417|Saikia,C.K.|Estimated ground motion in Los Angeles due to MW = 7 earthquake on the Elysian thrust fault||#BSA:83:3:1993:780-810|Ground motion+Los Angeles+Simulation+Thrust fault||#*WHITTIER|#*LOMAPRIETA89|#*WHITTIER87A
J|0418|Kanamori,H.+Jennings,P.C.+Singh,S.K.+|Estimation of strong ground motions in Mexico City expected for large earthquakes in the Guerrero seismic gap||#BSA:83:3:1993:811-829|Strong motion+Mexico City+Seismic gap+Simulation||#*MEXICOCITY|#*MEXICOCITY2|#*MICHOACAN86|#*GUERRERO89
J|0419|Helmberger,D.V.+Dreger,D.S.+Stead,R.+|Impact of broadband seismology on the understanding of strong motions||#BSA:83:3:1993:830-850|Strong motion+Broadband seismology+Strong-motion array+Velocity structure||#*SANGABRIEL91
J|0420|Mayeda,K.|mb(LgCoda): a stable single station estimator of magnitude||#BSA:83:3:1993:851-861|Single-station method+Magnitude+Nuclear explosion+Coda
J|0421|Williams,R.A.+King,K.W.+Tinsley,J.C.|Site response estimates in Salt Lake Valley, Utah, from borehole seismic velocities||#BSA:83:3:1993:862-889|Borehole+Utah+Site response+Velocity
J|0422|Kang,I.B.+McMechan,G.A.|Effects of viscoelasticity on seismic wave propagation in fault zones, near-surface sediments, and inclusions||#BSA:83:3:1993:890-906|Viscoelasticity+Propagation+Fault zone+Sediment
J|0423|Jongmans,D.+Campillo,M.|The response of the Ubaye Valley (France) for incident SH and SV waves: comparison between measurements and modeling||#BSA:83:3:1993:907-924|Alps+Valley+Site response+Refraction study
J|0424|Papadopoulos,G.A.+Lefkopoulos,G.|Magnitude-distance relations for liquefaction in soil from earthquakes||#BSA:83:3:1993:925-938|Liquefaction+Soil+Magnitude+Distance||#*ALKION3|#*MAGNISIA|#*THESSALONIKI|#*IONIAN88
J|0425|Zuniga,F.R.|Frictional overshoot and partial stress drop. Which one?||#BSA:83:3:1993:939-944|Friction+Stress-drop+Fault|Short note|#*LOMAPRIETA89|#*MEXICOCITY|#*GUERRERO89
J|0426|Given,H.K.+Fels,J-F.|Site characteristics and ambient ground noise at IRIS/IDA stations AAK (Ala-Archa, Kyrgyzstan) and TLY (Talaya, Russia)||#BSA:83:3:1993:945-953|Site+Noise+Kirghizstan+Russia|Short note
J|0427|Liu,J.+Lerche,I.+Wei,Z.|Analysis of the Kodiak Shelf Basin using 1D and 2D fluid flow/compaction models||#TRN:5:1:1993:40-51|Kodiak+Marine geophysical investigation+Profile+Sedimentary basin
J|0428|Mjelde,R.+Sellevoll,M.A.+Shimamura,H.+|Ocean bottom seismographs used in a crustal study of an area covered with flood-basalt off Lofoten, N. Norway||#TRN:5:1:1993:76-84|Norway+Ocean-bottom seismograph+Refraction study+Crustal structure
J|0429|Ambraseys,N.N.+Adams,R.D.|Seismicity of the Cyprus region||#TRN:5:1:1993:85-94|Cyprus+Seismicity+1890-1990+Historical earthquake+ISC
J|0430|Panza,G.F.|Review of `The mechanics of earthquakes and faulting' by C. H. Scholz||#TRN:5:1:1993:101-102|Review+Mechanics+Faulting+Earthquake
J|0431|Panza,G.F.+Prozorov,A.G.+Pazzi,G.|Extension of global creepex definition (Ms-mb) to local studies (Md-ML): the case of the Italian region||#TRN:5:2:1993:150-156|Italy+Frequency+Magnitude+Heat flow
J|0432|Schlich,R.+Rotstein,Y.+Schaming,M.|Dipping basement reflectors along volcanic passive margins - new insight using data from the Kerguelen Plateau||#TRN:5:2:1993:157-163|Dipping reflector+Passive margin+Kerguelen Islands+Reflexion study
J|0433|Schindler,C.|The MARMARA Poly-Project: tectonics and recent crustal movements revealed by space-geodesy and their interaction with the circulation of groundwater, heat flow and seismicity in northwestern Turkey||#TRN:5:2:1993:164-173|Turkey+Seismicity+Tectonics+Crustal movement
J|0434|Trifonov,V.G.+Bayractutan,M.S.+Karakhanyan,A.S.+|The Erzincan earthquake of 13 March 1992 in eastern Turkey: tectonic aspects||#TRN:5:2:1993:184-189|Earthquake+Turkey+1992+Tectonics||#*ERZINCAN92
J|0435|Barka,A.+Eyidogan,H.|The Erzincan earthquake of 13 March 1992 in eastern Turkey||#TRN:5:2:1993:190-194|Earthquake+Turkey+1992+Aftershock+ISC||#*ERZINCAN92|#*ERZINCAN92A
J|0436|Gudmundsson,A.|On the structure and formation of fracture zones||#TRN:5:3:1993:215-224|Oceanic fracture+Fracture zone+Mid-ocean ridge
J|0437|Clausen,O.R.+Korstgard,J.A.|Tertiary tectonic evolution along the Arne-Elin Trend in the Danish Central Trough||#TRN:5:3:1993:233-243|Evolution+Tectonics+North Sea+Marine seismic investigation
J|0438|Prentice,C.S.+Mann,P.+Taylor,F.W.+|Paleoseismicity of the North American-Caribbean plate boundary (Septentrional fault), Dominican Republic||Geology:21:1:1993:49-52|Palaeoseismicity+Caribbean+Fault+Historical earthquake
J|0439|Nicolas,A.+Freydier,C.+Godard,M.+|Magma chambers at oceanic ridges: how large?||Geology:21:1:1993:53-56|Magma chamber+Oceanic ridge+Low-velocity layer+Melt
J|0440|Hauser,E.C.|Grenville foreland thrust belt hidden beneath the eastern U.S. midcontinent||Geology:21:1:1993:61-64|Thrust belt+COCORP+Eastern North America+Dipping reflector
J|0441|Wellner,R.W.+Ashley,G.M.+Sheridan,R.E.|Seismic stratigraphic evidence for a submerged middle Wisconsin barrier: implications for sea-level history||Geology:21:2:1993:109-112|Reflexion study+Seismostratigraphy+Sea level+New Jersey
J|0442|Salisbury,M.H.+Keen,C.E.|Listric faults imaged in ocean crust||Geology:21:2:1993:117-120|Oceanic crust+Deep seismic sounding+Nova Scotia+Listric fault
J|0443|Zoback,M.D.+Beroza,G.C.|Evidence for near-frictionless faulting in the 1989 (M 6.9) Loma Prieta, California, earthquake and its aftershocks||Geology:21:2:1993:181-185|Aftershock+Loma Prieta+1989+Fault plane||#*LOMAPRIETA89
J|0444|Parsons,T.+Thompson,G.A.|Does magmatism influence low-angle normal faulting?||Geology:21:3:1993:247-250|Normal fault+Magmatism+Fault plane
J|0445|Pavlis,T.L.+Serpa,L.F.+Keener,C.|Role of seismogenic processes in fault-rock development: an example from Death Valley, California||Geology:21:3:1993:267-270|Seismogenesis+Fault+California
J|0446|Gudlaugsson,S.T.|Large impact crater in the Barents Sea||Geology:21:4:1993:291-294|Barents Sea+Crater+Marine seismic investigation
J|0447|Byerlee,J.D.|Model for episodic flow of high-pressure water in fault zones before earthquakes||Geology:21:4:1993:303-306|Fault zone+Water pressure+Trigger+Cycle
J|0448|Rusby,R.I.+Searle,R.C.|Intraplate thrusting near the Easter microplate||Geology:21:4:1993:311-314|Microplate+Thrust fault+Nazca Plate+GLORIA+ISC
J|0449|Lees,J.M.+Nicholson,C.|Three-dimensional tomography of the 1992 southern California earthquake sequence: constraints on dynamic earthquake rupture?||Geology:21:5:1993:387-390|Tomography+1992+California+Sequence||#*LANDERS92|#*BIGBEAR92|#*JOSHUATREE92
J|0450|Scholz,C.A.+Johnson,T.C.+McGill,J.W.|Deltaic sedimentation in a rift valley lake: new seismic reflection data from Lake Malawi (Nyasa), East Africa||Geology:21:5:1993:395-398|Seismostratigraphy+Sedimentation+Lake Malawi
J|0451|Rushmer,T.|Experimental high-pressure granulites: some applications to natural mafic xenolith suites and Archean granulite terranes||Geology:21:5:1993:411-414|Wave velocity+Granulite+Crust-mantle boundary
J|0452|Nelson,K.D.+Baird,D.J.+Walters,J.J.+|Trans-Hudson oregon and Williston basin in Montana and North Dakota: new COCORP deep-profiling results||Geology:21:5:1993:447-450|COCORP+Williston Basin+Dipping reflector+Trans-Hudson Orogen
J|0453|Cohen,A.S.+Soreghan,M.J.+Scholz,C.A.|Estimating the age of formation of lakes: an example from Lake Tanganyika, East African Rift system||Geology:21:6:1993:511-514|Age+Lake+East African Rift+Reflexion study
J|0454|Coffin,M.F.+Eldholm,O.|Scratching the surface: estimating dimensions of large igneous provinces||Geology:21:6:1993:515-518|Crustal thickness+Basalt+High velocity+Dimension
J|0455|Tomek,C.+Hall,J.|Subducted continental margin imaged in the Carpathians of Czechoslovakia||Geology:21:6:1993:535-538|Reflexion data+Carpathians+Continental margin+Subduction zone
J|0456|Sheridan,R.E.+Musser,D.L.+Glover,L.+|Deep seismic reflection data of EDGE U.S. mid-Atlantic continental-margin experiment: implications for Appalachian sutures and Mesozoic rifting and magmatic underplating||Geology:21:6:1993:563-567|Deep seismic sounding+Continental margin+Virginia+Dipping reflector
J|0457|Boschi,E.+Pantosti,D.+Slejko,D.+|Introduction to the volume||#AGF:36:1:1993:1-5|Introduction+Irpinia+1980+Earthquake||#*CAMPANIA
J|0458|Amato,A.+Selvaggi,G.|Aftershock location and P-velocity structure in the epicentral region of the 1980 Irpinia earthquake||#AGF:36:1:1993:3-15|Earthquake+Irpinia+1980+Velocity structure||#*CAMPANIA
J|0459|Giardini,D.|Teleseismic observation of the November 23 1980, Irpinia earthquake||#AGF:36:1:1993:17-25|Earthquake+Irpinia+1980+Teleseism+ISC||#*CAMPANIA
J|0460|Pingue,F.+De Natale,G.+Briole,P.|Modeling of the 1980 Irpinia earthquake source: constraints from geodetic data||#AGF:36:1:1993:27-40|Earthquake+Irpinia+1980+Geodetic measurement||#*CAMPANIA
J|0461|Pantosti,D.+Valensise,G.|Source geometry and long-term behavior of the 1980, Irpinia earthquake fault based on field geologic observations||#AGF:36:1:1993:41-49|Earthquake+Irpinia+1980+Normal fault||#*CAMPANIA
J|0462|Westaway,R.|Fault rupture geometry for the 1980 Irpinia earthquake: a working hypothesis||#AGF:36:1:1993:51-69|Earthquake+Irpinia+1980+Rupture+ISC||#*CAMPANIA|#*CAMPANIA80A
J|0463|Bernard,P.+Zollo,A.+Trifu,C-I.+|Details of the rupture kinematics and mechanisms of the 1980 Irpinia earthquake: new results and remaining questions||#AGF:36:1:1993:71-80|Earthquake+Irpinia+1980+Kinematics||#*CAMPANIA
J|0464|Sirovich,L.+Chiaruttini,C.|The influence of source complexity on the polarization and azimuthal radiation of S-waves, and a simplified synthesis of the macroseismic field||#AGF:36:1:1993:81-91|Earthquake+Irpinia+1980+S-wave||#*CAMPANIA
J|0465|Vaccari,F.+Harbaglia,P.+Suhadolc,P.+|The Irpinia (Italy) 1980 earthquake: waveform modelling of accelerometric data and macroseismic considerations||#AGF:36:1:1993:93-108|Earthquake+Irpinia+1980+Waveform||#*CAMPANIA
J|0466|Cocco,M.+Pacor,F.|Space-time evolution of the rupture process from the inversion of strong-motion waveforms||#AGF:36:1:1993:109-130|Earthquake+1980+Rupture||#*CAMPANIA
J|0467|Sirovich,L.+Del Grosso,A.|State-of-the-art in seismic microzonation, advances in Italy from 1980 to the present||#AGF:36:1:1993:133-143|Microzoning+Italy+Site effect
J|0468|Gurpinar,A.|Damage versus ground acceleration correlations during the November 23 1980, Irpinia earthquake||#AGF:36:1:1993:145-147|Earthquake+Irpinia+1980+Damage||#*CAMPANIA
J|0469|Corsanego,A.+Gavarini,C.|Ten years of research into the seismic vulnerability of constructions in Italy||#AGF:36:1:1993:149-156|Italy+Vulnerability+Research+Building
J|0470|D'Agostino,S.+Viggiani,C.|Seismic protection and conservation of the monumental heritage||#AGF:36:1:1993:157-168|Protection+Mitigation+Earthquake engineering+Historic building
J|0471|Slejko,D.|Considerations on the seismic risk||#AGF:36:1:1993:169-175|Risk+Hazard+Mitigation
J|0472|Stucchi,M.|Historical seismology and seismic hazard||#AGF:36:1:1993:177-189|Hazard+Microseismic data+History+Earthquake catalogue
J|0473|Grandori,G.|A methodology for the falsification of local-seismic-hazard analysis||#AGF:36:1:1993:191-197|Hazard+Seismic zone+Modelling+Error
J|0474|Mayer-Rosa,D.+Slejko,D.+Zonno,G.|Assessment of seismic hazard for the Sannio-Matese area, Southern Italy (project "TERESA")||#AGF:36:1:1993:199-209|Southern Italy+Hazard+Zoning
J|0475|Corsanego,A.|Seismic risk assessment on the urban and regional scale in Italy: some examples||#AGF:36:1:1993:211-218|Seismic risk+Italy+Mitigation
J|0476|Thier,H.D.+Midoro,V.|Seismic education: two experiences compared||#AGF:36:1:1993:219-224|Preparedness+California+Italy
J|0477|Alessio,G.+Esposito,E.+Gorini,A.+|Identification of seismogenic areas in the southern Apennines, Italy||#AGF:36:1:1993:227-235|Apennines+Historical seismicity+Zoning+Isoseismal||#*CAMPANIA|#*ABRUZZO84A|#*ABRUZZO84B
J|0478|Azzara,R.+Basili,A.+Beranzoli,L.+|The seismic sequence of Potenza (May 1990)||#AGF:36:1:1993:237-243|Earthquake+Southern Italy+1990+Sequence||#*POTENZA90|#*CAMPANIA
J|0479|Bousquet,J.C.+Grellet,B.+Sauret,B.|Neotectonic setting of the Benevento area: comparison with the epicentral zone of the Irpinia earthquake||#AGF:36:1:1993:245-251|Neotectonics+Southern Italy+Microzoning+Fault||#*CAMPANIA
J|0480|Brunamonte,F.+Michetti,A.M.+Serva,L.+|Seismic hazard evaluation in central Italy: preliminary results of the Rieti Basin project||#AGF:36:1:1993:253-262|Hazard+Italy+Palaeoseismicity
J|0481|D'Amato Avanzi,G.+Puccinelli,A.+Trivellini,M.|Slope stability maps in areas of particular seismic interest: a short report on the researches in Garfagnana and Lunigiana (Tuscany)||#AGF:36:1:1993:263-270|Hazard+Landslide+Italy+Slope
J|0482|Del Prete,M.|Examples of mudslides hazard in the southern Apennines (Italy)||#AGF:36:1:1993:271-276|Hazard+Apennines+Landslide||#*CAMPANIA
J|0483|Galadini,F.+Messina,P.|Characterization of the recent tectonics of the Upper Sangro River Valley (Abruzzi Apennine, central Italy)||#AGF:36:1:1993:277-285|Seismotectonics+Italy+Quaternary||#*ABRUZZO84A|#*ABRUZZO84B
J|0484|Luongo,G.+Marturano,A.+Rinaldis,V.|Macroseismic data: present limits and future possibilities||#AGF:36:1:1993:293-299|Macroseismic data+Southern Italy+Earthquake+Attenuation||#*CAMPANIA
J|0485|Moroni,A.+Bellettati,D.+Chignola,E.+|The earthquakes of 1834 in the northern Apennines||#AGF:36:1:1993:301-308|Apennines+Earthquake+1834+Damage
J|0486|Nardi,A.+Salvi,S.|Landsat synthetic stereo interpretation for morphostructural analysis in the Irpinia area||#AGF:36:1:1993:309-319|Landsat+Irpinia+Morphostructure+Fault||#*CAMPANIA
J|0487|Pantosti,D.+D'Addezio,G.+Cinti,F.R.|Paleoseismological evidence of repeated large earthquakes along the 1980 Irpinia earthquake fault||#AGF:36:1:1993:321-330|Irpinia+Large earthquake+Palaeoseismology+Recurrence||#*CAMPANIA
J|0488|Pochini,A.+Allagosta,M.|Monitoring sample landslides in seismic areas: Camporaghena in Lunigiana||#AGF:36:1:1993:331-336|Hazard+Landslide+Seismic zone+Italy
J|0489|Scalera,G.+Favali,P.+Smriglio,G.+|Seismic hazard in Irpinia and considerations about the seismogenic area||#AGF:36:1:1993:337-343|Irpinia+Hazard+Isoseismal+Zonation
J|0490|Valensise,G.|Summary of contributions on the 23 November 1980, Irpinia earthquake||#AGF:36:1:1993:345-351|Irpinia+Earthquake+1980+Bibliography||#*CAMPANIA
J|0491|Jackson,J.|Relations between faulting and continuous deformation on the continents||#AGF:36:2:1993:3-11|AEgean Sea+Faulting+Continental crust+Tectonics
J|0492|Thatcher,W.|The earthquake cycle and its role in the long-term deformation of the continental lithosphere||#AGF:36:2:1993:13-24|Earthquake cycle+Continental lithosphere+Deformation+Shear strain
J|0493|Belardinelli,M.E.+Bonafede,M.|Modelling afterslip processes on a strike-slip fault in the framework of a non-singular crack theory||#AGF:36:2:1993:25-36|Strike-slip+Modelling+Creep+California
J|0494|Dragoni,M.|The brittle-ductile transition in tectonic boundary zones||#AGF:36:2:1993:37-44|Tectonics+Plate boundary+Ductility+Transition
J|0495|Anderson,H.+Zhang,J.|Coseismic slip in the mantle: evidence from the 1989 Macquarie Ridge earthquake||#AGF:36:2:1993:45-53|Earthquake+Macquarie Ridge+1989+Source parameter||#*MACQUARIE89
J|0496|Reston,T.J.|The extension of the lithosphere north of Scotland||#AGF:36:2:1993:55-61|Scotland+Deep seismic sounding+Extension+Lithosphere
J|0497|Ron,H.+Nur,A.+Aydin,A.|Stress field rotation or block rotation: an example from the Lake Mead fault system||#AGF:36:2:1993:65-73|Lake Mead+Stress field+Block+Rotation
J|0498|Beranzoli,L.+Giardini,D.+Boschi,E.|Determination of source parameters using broad-band seismograms||#AGF:36:2:1993:181-189|Source parameter+Broadband seismology+MEDNET+Modelling||#*SUDAN90|#*MANJIL90|#*SICILY90|#*SAKHALIN90
J|0499|Achilli,V.+Anzidei,M.+Baldi,P.+|TYRGEONET: a global positioning system geodetic network for the geodynamical survey of the Italian peninsula||#AGF:36:2:1993:191-200|Global Positioning System+Italy+Geodetic survey+Geodynamics
J|0500|Amato,A.+Alessandrini,B.+Cimini,G.+|Active and remnant subducted slabs beneath Italy: evidence from seismic tomography and seismicity||#AGF:36:2:1993:201-214|Italy+Slab+Tomography+Seismicity
J|0501|Hatzfeld,D.|Geodynamics of the Aegean: a microseismotectonic approach||#AGF:36:2:1993:215-218|AEgean+Geodynamics+Seismotectonics+Focal mechanism
J|0502|Argnani,A.+Favali,P.+Frugoni,F.+|Foreland deformational pattern in the southern Adriatic Sea||#AGF:36:2:1993:229-247|Adriatic+Deformation+Marine seismic investigation+Seismicity
J|0503|Lowe,C.+Ranalli,G.|Density, temperature, and rheological models for the southeastern Canadian Cordillera: implications for its geodynamic evolution||#CJS:30:1:1993:77-93|Canadian Cordillera+Density+Temperature+Transect
J|0504|Shilts,W.W.+Rappol,M.+Blais,A.|Errata to `Evidence of late and postglacial seismic activity in the Temiscouata-Madawaska Valley, Quebec - New Brunswick, Canada'||#CJS:30:1:1993:201|Errata+Canada+Activity+Profiling
J|0505|Monger,J.W.H.|Canadian Cordilleran tectonics: from geosynclines to crustal collage||#CJS:30:2:1993:209-231|Canadian Cordillera+Tectonics+Crustal structure
J|0506|Davis,E.E.+Currie,R.G.|Geophysical observations of the northern Juan de Fuca Ridge system: lessons in sea-floor spreading||#CJS:30:2:1993:278-300|Sea-floor spreading+Juan de Fuca+Reflexion study+Seismicity
J|0507|Syvitski,J.P.M.|Glaciomarine environments in Canada: an overview||#CJS:30:2:1993:354-371|Canada+Ice sheets+Sediment+Reflexion study
J|0508|Basham,P.W.+Newitt,L.R.|A historical summary of Geological Survey of Canada studies of earthquake seismology and geomagnetism||#CJS:30:2:1993:372-390|History+Geomagnetism+Earthquake+Zoning
J|0509|Mackay,J.R.|The sound and speed of ice-wedge cracking, Arctic Canada||#CJS:30:3:1993:509-518|Icequake+Canada+Crack+Sound
J|0510|Hein,F.J.+Syvitski,J.P.M.+Dredge,L.A.+|Quaternary sedimentation and marine placers along the North Shore, Gulf of St. Lawrence||#CJS:30:3:1993:553-574|Sedimentation+St. Lawrence+Reflexion study+Isopach
J|0511|Zhu,C.+Hajnal,Z.|Tectonic development of the northern Williston basin: a seismic interpretation of an east-west regional profile||#CJS:30:3:1993:621-630|Williston Basin+Reflexion study+Profile+Tectonics
J|0512|Spence,G.D.+Asudeh,I.|Seismic velocity structure of the Queen Charlotte Basin beneath Hecate Strait||#CJS:30:4:1993:787-805|Velocity structure+Queen Charlotte Islands+Seismic survey+Transform fault
J|0513|Solheim,L.P.+Peltier,W.R.|Mantle phase transitions and layered convection||#CJS:30:5:1993:881-892|Phase transition+670km discontinuity+400km discontinuity+Mantle convection
J|0514|Lyatsky,H.V.+Haggart,J.W.|Petroleum exploration model for the Queen Charlotte Basin area, offshore British Columbia||#CJS:30:5:1993:918-927|Queen Charlotte Islands+Exploration+Petroleum+Reflexion study
J|0515|Zelt,B.C.+Ellis,R.M.+Clowes,R.M.|Crustal velocity structure in the eastern Insular and southernmost Coast belts, Canadian Cordillera||#CJS:30:5:1993:1014-1027|Velocity structure+Canadian Cordillera+Refraction study+Modelling
J|0516|Tralli,D.M.+Tajima,F.|Seismology and space-based geodesy||Adv. Geophys.:34:-:1993:35-91|Seismology+Geodesy+Deformation+Strain
J|0517|Feng,D-Y.+Lin,M-Z.+Gu,J-P.+|Comprehensive applications of fuzzy set theory and grey system theory to earthquake prediction||#ASS:6:1:1993:1-10|Fuzzy mathematics+Prediction+Cluster analysis+China
J|0518|Zhuang,K-Y.+Wang,W.+Huang,B-S.+|Representation and acquisition of knowledge in expert system for earthquake prediction on personal computer (ESEP/PC)||#ASS:6:1:1993:11-18|Expert system+Prediction+Personal computer
J|0519|Zhu,L-R.+Zhou,S-Y.+Wang,H-T.+|Research on seismic information dimension||#ASS:6:1:1993:19-27|Fractal+Seismicity+China+Dimension||#*YUNNAN88A|#*YUNNAN88B|#*XINJIANG|#*TANGSHAN
J|0520|An,Z-W.+Wang,L-Y.+Yao,D-H.+|The chaotic characteristics in seismogenic process||#ASS:6:1:1993:29-37|Chaos+Seismogenesis+Dimension
J|0521|Sun,W-F.+Gu,H-D.|Magnitude-frequency distribution of earthquake sequence with independent process||#ASS:6:1:1993:39-47|Frequency-magnitude relation+Sequence+China
J|0522|Huang,F-M.+Chen,X-Q.|Discussion on the generalized affected field of large earthquakes||#ASS:6:1:1993:49-58|Large earthquake+Fault+China+Stress
J|0523|Wang,M.+Wang,P-D.|Focal mechanism and seismic tectonics of the 1989 Datong-Yanggao earthquake||#ASS:6:1:1993:59-69|Datong+1989+Earthquake+Focal mechanism||#*DATONG89A|#*DATONG89B|#*NECHINA89
J|0524|Xiao,W-W.+Huang,Q.+Wang,R-J.|Distribution and fractal characteristics of stress drop in different seismic regions||#ASS:6:1:1993:71-79|Fractal+Stress-drop+China+Seismic zone||#*LULONG82|#*SONGPAN|#*SONGPAN3|#*WUSHI87
J|0525|Cai,J-G.+Tang,J.+Xu,Z-Y.|Spatial fractal dimension DS and its application in earthquake prediction||#ASS:6:1:1993:81-90|Fractal dimension+Prediction+Yunnan+Precursor||#*YUNNAN88A|#*YUNNAN88B|#*LUQUAN|#*PUER79
J|0526|Zhao,W-M.+Jin,Y-L.+Ren,Q-W.|Accurate hypocenter determination and seismogenic tectonics of the 1988 Lingwu earthquake sequences in Ningxia, China||#ASS:6:1:1993:91-99|Sequence+1988+Ningxia+Hypocentre
J|0527|Zhu,C-X.+Zheng,X-S.+Zhu,L-R.|The efficiency values of earthquake prediction methods||#ASS:6:1:1993:101-109|Prediction+Efficiency+Statistical method
J|0528|Wu,Z-H.+Wang,S-Y.+Yu,Y-X.|Inversion of stress direction data by finite element analysis to obtain plate boundary forces||#ASS:6:1:1993:111-122|Stress+Plate boundary+Direction+Finite element method
J|0529|Li,X-C.|Effects of preseismic fault slip on the occurrence of 1976 Tangshan event||#ASS:6:1:1993:123-128|Fault-slip+1976+T'ang-shan+Earthquake||#*TANGSHAN
J|0530|Zhao,Z.|A method for determining focal depths from data of a local seismographic network||#ASS:6:1:1993:129-136|Depth+Local earthquake+Network+Hypocentre
J|0531|Sun,Y.+Zheng,S-H.+Mei,S-R.|Studies on coda Q values of Tangshan aftershocks||#ASS:6:1:1993:137-144|T'ang-shan+Coda+Q+Aftershock
J|0532|Zhang,Q-X.+Zhang,M-C.|Observation and research of seismo-electromagnetic emission for moderate and violent earthquakes in Yunnan area||#ASS:6:1:1993:165-173|Yunnan+Electromagnetic emission+Precursor+Moderate earthquake||#*YUNNAN88A|#*YUNNAN88B
J|0533|Jiang,B-Q.|Correlation between magnetic storms and earthquakes||#ASS:6:1:1993:175-180|Magnetic storm+Cross-correlation function+Earthquake+Trigger
J|0534|Wang,X-D.+Guan,H-P.|Relationship between earth resistivity precursors of an earthquake and geological environment of an observatory||#ASS:6:1:1993:181-189|Precursor+Resistivity+Station+Geology||#*TANGSHAN|#*SONGPAN|#*DATONG89C
J|0535|Zhan,Z-J.+Gao,J-T.+Hu,R-S.+|Geomagnetic observation and its result before and after underground nuclear explosion||#ASS:6:1:1993:191-197|Underground nuclear explosion+Geomagnetic field+Seismomagnetic effect
J|0536|Geng,N-G.+Hao,J-S.+Li,J-H.+|The relation between ratio of wave velocity and hydrostatic pressure||#ASS:6:1:1993:209-216|Wave velocity+Physical properties+Pressure+Rock
J|0537|Zhang,C.+Chen,L-W.+Tang,W-N.|Modelling on factors controlling instable behavior of the 1976 Tangshan earthquake||#ASS:6:1:1993:217-222|Instability+1976+Earthquake+T'ang-shan|Research note|#*TANGSHAN
J|0538|Huang,Z-X.+Gao,D-Z.|Curie boundary and seismic activity trend in Shanghai and adjacent regions||#ASS:6:1:1993:223-225|Shanghai+Activity+Curie point|Research note
J|0539|Yuan,M.|Deformation anomalies of several earthquakes and preliminary study of earthquake prediction||#ASS:6:1:1993:227-230|Prediction+Deformation+Anomaly|Research note|#*GANSU87|#*QINGHAI86|#*LINGWU84
J|0540|Hua,C-C.+Zheng,J-H.+Liu,D-F.|Gravity anomaly of the 1989 Datong-Yanggao earthquake group||#ASS:6:1:1993:231-234|Gravity+1989+Datong+Anomaly|Research note
J|0541|Chen,Y-J.+Yang,X-X.+Zhao,J-M.|Preseismic geotemperature micro-variation and fault creep||#ASS:6:1:1993:235-238|Creep+Temperature+Precursor|Research note|#*DATONG89C
J|0542|Zhao,C-P.|The long term high temperature and low pressure phenomena of surface air layer before strong earthquakes in Yunnan Province||#ASS:6:1:1993:239-243|Strong earthquake+Yunnan+Precursor+Atmospheric pressure|Research note|#*YUNNAN88A|#*YUNNAN88B|#*LUQUAN|#*PUER79
J|0543|Chen,P-S.|Catalogue of earthquakes (March-May, 1992)||#ASS:6:1:1993:245-248|Earthquake catalogue+1992
J|0544|Zeng,R-S.+Zhu,J-S.+Zhou,B.+|Three-dimensional seismic velocity structure of the Tibetan Plateau and its eastern neighboring areas with implications to the model of collision between continents||#ASS:6:2:1993:251-260|Velocity structure+Tibet+Continental convergence+Model
J|0545|Zeng,R-S.+Sun,W-G.|Seismicity and focal mechanism in Tibetan Plateau and its implications to lithospheric flow||#ASS:6:2:1993:261-287|Tibet+Seismicity+Focal mechanism+Earthquake catalogue||#*BIHAR88|#*YUNNAN88A|#*YUNNAN88B|#*IMPHAL88
J|0546|Chen,G-Y.+Zeng,R-S.+Wu,F.T.+|The phase velocities of Rayleigh waves and the lateral variation of lithospheric structure in Tibetan Plateau||#ASS:6:2:1993:289-297|Phase velocity+Rayleigh wave+Tibet+Structure
J|0547|Zhao,Z.+Zeng,R-S.|The P and S wave velocity structure of the crust and upper mantle beneath the Tibetan Plateau||#ASS:6:2:1993:299-304|Velocity structure+Tibet+Crust+Upper mantle
J|0548|Zhu,L-P.+Zeng,R-S.+Wu,F.T.+|Preliminary study of crust-upper mantle structure of the Tibetan Plateau by using broadband teleseismic body waveforms||#ASS:6:2:1993:305-316|Tibet+Crust+Upper mantle+Velocity structure
J|0549|Ding,Z-F.+Zeng,R-S.+Wu,F.T.|The Pn wave velocities and the relief of Moho in the Tibetan Plateau||#ASS:6:2:1993:317-325|Pn-wave+Mohorovicic discontinuity+Tibet+Wave velocity+ISC
J|0550|Wang,E-F.+Chen,X-B.+Zhu,S-P.|Shear wave splitting and polarization anomaly with deep seismic sounding data||#ASS:6:2:1993:327-334|Shear wave splitting+Deep seismic sounding+Polarization+China
J|0551|Li,S-Y.+Chen,Y-T.|On the propagation of an in-plane shear fault with super-S-wave velocity||#ASS:6:2:1993:335-341|Shear fault+S-wave+Crack+Propagation
J|0552|Han,W-B.+Wang,H.+Zeng,J.+|Studies of early comprehensive judgment on seismic tendency after a moderate or strong earthquake||#ASS:6:2:1993:343-351|Pattern recognition+Earthquake+Sequence+Prediction
J|0553|Zhou,J-Y.+Chen,Y-T.+Ni,J-C.+|Determination of source-time function of intermediate and small earthquakes from empirical Green's functions||#ASS:6:2:1993:353-363|Source-time function+Green's function+Moderate earthquake+Small earthquake||#*LUQUAN
J|0554|Zheng,S-H.+Suzuki,Z.|Moment tensors of earthquakes in and near the Tibetan Plateau and their scaling law||#ASS:6:2:1993:365-377|Moment tensor+Tibet+Scaling+Focal mechanism||#*NEPAL|#*SONGPAN|#*SONGPAN2|#*YUNNAN
J|0555|Chen,P-S.+Peng,K-Z.+Chen,H-T.+|Determination of moment magnitude from acceleration spectrum||#ASS:6:2:1993:379-387|Moment magnitude+Spectrum+Acceleration+Aftershock+ISC||#*XINJIANG
J|0556|Shang,Y-Q.+Wang,S-T.+Chen,H-W.|The principle of discrete element method and its application in the study of regional tectonic stability||#ASS:6:2:1993:389-395|Stability+Tectonics+Fault zone+Block
J|0557|Zhang,Z-L.+Wang,H-Q.|A model of nonuniform fracture system for Lancang-Gengma earthquake sequence and elasto-plastic computation method||#ASS:6:2:1993:397-408|Fracture+Sequence+Yunnan+1988||#*YUNNAN88A|#*YUNNAN88B
J|0558|Song,Z-H.+Chen,G-Y.+An,C-Q.+|Distribution characteristics of Rayleigh wave group velocity in China mainland and its adjacent sea areas||#ASS:6:2:1993:409-416|Group velocity+China+Rayleigh wave+Map
J|0559|Zhang,J-R.+Shao,X-Z.+Goa,W-A.|The separation and parameter determination of PS converted phases in deep sounding by converted waves of earthquakes||#ASS:6:2:1993:417-425|Converted wave+Deep seismic sounding+PS-wave+Polarization
J|0560|Wan,Z-Q.+Zhao,H-R.+Peng,Y-M.+|The effect of underlying geological structures on the propagation of seismic waves||#ASS:6:2:1993:427-435|Geologic structure+Propagation+Bedrock+Energy
J|0561|Gao,M-T.+Pan,H.|Random field characteristics of seismic zoning map||#ASS:6:2:1993:437-445|Zoning+Map+Field+China
J|0562|Zhuo,Y-R.|Preliminary study of the uppermost P wave velocity structure beneath central Asia||#ASS:6:2:1993:447-453|Upper mantle+Velocity structure+Central Asia+P-wave
J|0563|Liu,R-F.+Chen,P-S.+Li,Q.|Three-dimensional velocity images in Yunnan and its neighboring district||#ASS:6:2:1993:455-462|Yunnan+Tomography+Lateral heterogeneity+Velocity structure
J|0564|Zheng,Z-Z.+Hu,J-B.|Instantaneous spectrum analysis and its application in estimation of earthquake tendency||#ASS:6:2:1993:465-473|Spectral analysis+North China+Prediction+Hazard
J|0565|Chen,Y-F.+Tao,S-F.|The temporal-spatial evolutionary features of the seismic phases in the North China Block and the greater North China||#ASS:6:2:1993:475-483|North China+Precursor+Activity+Atmosphere
J|0566|Chen,Z-Y.+Du,X-Q.+Xu,D-H.+|The observation and research on pre-earthquake electromagnetic radiation information||#ASS:6:2:1993:485-494|Precursor+Electromagnetic field+Moderate earthquake+Anomaly
J|0567|Gao,S-Y.+Ding,S.|A laboratory study of teleseismic Pn waves||#ASS:6:2:1993:511-516|Pn-wave+Teleseism+Layer+Laboratory
J|0568|Xu,S-X.|Method of prediction of earthquake by using seismicity||#ASS:6:2:1993:517-533|Seismicity+Prediction+Method+Precursor|Review
J|0569|Yu,S-J.|The ellipse-projection and two-step regression method for intensity attenuation law||#ASS:6:2:1993:541-548|Regression+China+Intensity+Attenuation|Research note
J|0570|Hou,J-J.+Liu,X-D.+You,X-Z.+|The characteristics of surface deformation grouping of the active strike slip fault system and earthquake activity in western Guangxi, China||#ASS:6:2:1993:549-553|Surface deformation+Strike-slip+China+Fault zone|Research note
J|0571|Chen,P-S.|Catalogue of earthquakes (June-August, 1992)||#ASS:6:2:1993:557-560|Earthquake catalogue+1992
J|0572|Momoi,T.|The waves excited near the free surface in the half-infinite nonlinear-elastic isotropic medium|With Japanese abstract|#BER:68:1:1993:1-22|Coupled mode+Reflected wave+Nonlinearity+Mathematical analysis
J|0573|Abe,K.+Abe,K.+Tsuji,Y.+|Field survey of the Nicaragua earthquake and tsunami of September 2, 1992|In Japanese with English abstract|#BER:68:1:1993:23-70|Earthquake+1992+Nicaragua+Tsunami||#*NICARAGUA92
J|0574|Tsuji,Y.+Hino,T.|Damage and inundation height of the 1792 Shimabara landslide tsunami along the coast of Kumamoto Prefecture|In Japanese with English abstract|#BER:68:2:1993:91-176|Landslide+Tsunami+1792+Kyushu
J|0575|Bhadauria,Y.S.+Arora,S.K.+Kumar,V.|Measurement and interpretation of vibration response of a concrete pedestal cast over bedrock||#BIT:30:1:1993:1-17|Concrete+Vibration+Isolation+Frequency response
J|0576|Trifunac,M.D.|An example of computing MLSM for the Dharamshala earthquake of 1986 in India||#BIT:30:1:1993:19-25|Local magnitude+1986+India+Earthquake||#*DHARMSALA86
J|0577|Manicka Selvam,V.K.+Jayasree,K.|A note on modal analysis||#BIT:30:1:1993:27-33|Building+Shear mode+Earthquake engineering
J|0578|Prabhakar,N.|Discussion on `Proposed draft for IS:4326 on ductile detailing of reinforced concrete structures' by M. S. Medhekar, S. K. Jain and A. S. Arya||#BIT:30:1:1993:35-38|Comments+Reinforced concrete+Building code+Earthquake engineering|With a reply by one of the authors
J|0579|Bapat,A.+Kulkarni,U.A.|Discussion on `On estimation of local magnitude (ML) of Dharamshala earthquake of 1986 using strong motion array data' by S. K. Jain, V. N. Singh and R. Chander||#BIT:30:1:1993:39-41|Comments+India+1986+Earthquake+Local magnitude|With a reply by the authors|#*DHARMSALA86
J|0580||Earthquakes in and around India for the period from October to December 1991||#BIT:30:1:1993:43-45|Earthquake catalogue+1991+India
J|0581|Jangid,R.S.+Datta,T.K.|Seismic response of structure isolated by R-FBI system||#BIT:30:2:1993:47-60|Base isolation system+Structural response
J|0582|Srivastava,H.N.|National and international status of seismological observations over last 25 years||#BIT:30:2:1993:61-76|Observational seismology+History+Network+India
J|0583||Earthquakes in and around India for the period from January to March 1992||#BIT:30:2:1993:77-79|Earthquake catalogue+1992+India
J|0584|Humar,J.L.+Xia,H.|Dynamic response analysis in the frequency domain||#EES:22:1:1993:1-12|Frequency domain+Dynamic analysis+Damping+Response
J|0585|Garevski,M.A.+Severn,R.T.|Damping and response measurement on a small-scale model of a cable-stayed bridge||#EES:22:1:1993:13-29|Bridge+Damping+Response+Model
J|0586|Wolf,J.P.+Paronesso,A.|One-dimensional modelling of the non-linear far field in soil-structure-interaction analysis||#EES:22:1:1993:31-49|Soil-structure interaction+Modelling+Field+Wavefront
J|0587|Yamaguchi,H.+Harnpornchai,N.|Fundamental characteristics of multiple tuned mass dampers for suppressing harmonically forced oscillations||#EES:22:1:1993:51-62|Damper+Oscillation+Suppression
J|0588|Chen,H.C.|Partial eigensolution of damped structural systems by Arnoldi's method||#EES:22:1:1993:63-74|Dynamic analysis+Damping+Algorithm
J|0589|Lin,J-S.|Engineering equivalent linear analysis of soils in the frequency domain||#EES:22:1:1993:75-88|Soil dynamics+Frequency domain+Linear system
J|0590|Yang,Y-B.+Huang,W-H.|Seismic response of light equipment in torsional buildings||#EES:22:2:1993:113-128|Torsion+Building+Structural response
J|0591|Loh,C-H.+Chung,S-T.|A three-stage identification approach for hysteretic systems||#EES:22:2:1993:129-150|Hysteresis+Structural response+Pseudodynamic test
J|0592|Harichandran,R.S.|An efficient, adaptive algorithm for large-scale random vibration analysis||#EES:22:2:1993:151-165|Algorithm+Earthquake engineering+Structural response+Bridge
J|0593|Papageorgiou,A.S.+Kim,J.|Propagation and amplification of seismic waves in 2-D valleys excited by obliquely incident P- and SV-waves||#EES:22:2:1993:167-182|Caracas Valley+P-wave+SV-wave+Amplification
J|0594|Wolf,J.P.+Meek,J.W.|Cone models for a soil layer on a flexible rock half-space||#EES:22:3:1993:185-193|Half-space+Dynamic analysis+Interface+Soil
J|0595|Touhei,T.+Ohmachi,T.|A FE-BE method for dynamic analysis of dam-foundation-reservoir systems in the time domain||#EES:22:3:1993:195-209|Time domain+Dam+Dynamic analysis+Hydrodynamics
J|0596|Agrawal,A.K.+Fujino,Y.+Bhartia,B.K.|Instability due to time delay and its compensation in active control of structures||#EES:22:3:1993:211-224|Instability+Delay+Damping+Structural response
J|0597|Cheung,Y.K.+Tham,L.G.+Lei,Z.X.|Wave propagation in layered media by time domain BEM||#EES:22:3:1993:225-244|Propagation+Layered medium+Time domain+Boundary element method
J|0598|De Stefano,M.+Faella,G.+Ramasco,R.|Inelastic response and design criteria of plan-wise asymmetric systems||#EES:22:3:1993:245-259|Asymmetry+Building+Structural response+Design||#*FRIULI|#*CAMPANIA
J|0599|Lin,T-W.+Hone,C-C.|Base isolation by free rolling rods under basement||#EES:22:3:1993:261-273|Base isolation system+Building+Friction+Structural response
J|0600|Trifunac,M.D.|Errata to `How to model amplification of strong earthquake ground motions by local soil and geologic site conditions'||#EES:22:3:1993:275|Errata+Amplification+Strong motion+Soil+Site
J|0601|Sanchez-Sesma,F.J.+Ramos-Martinez,R.+Campillo,M.|An indirect boundary element method applied to simulate the seismic response of alluvial valleys for incident P, S and Rayleigh waves||#EES:22:4:1993:279-295|Boundary element method+Valley+Rayleigh wave+Seismic waves
J|0602|Inaudi,J.A.+Kelly,J.M.|Hybrid isolation systems for equipment protection||#EES:22:4:1993:297-313|Isolation+Earthquake-resistant design+Protection
J|0603|Elnashai,A.S.+Elghazouli,A.Y.|Performance of composite steel/concrete members under earthquake loading. Part I: analytical model||#EES:22:4:1993:315-345|Loading+Steel+Concrete+Dynamic analysis
J|0604|Elghazouli,A.Y.+Elnashai,A.S.|Performance of composite steel/concrete members under earthquake loading. Part II: parametric studies and design considerations||#EES:22:4:1993:347-368|Loading+Steel+Concrete+Earthquake-resistant design
J|0605|Farrar,C.R.+Baker,W.E.|Experimental assessment of low-aspect-ratio, reinforced concrete shear wall stiffness||#EES:22:5:1993:373-387|Wall+Reinforced concrete+Stiffness+Shake table
J|0606|Hao,H.|Arch responses to correlated multiple excitations||#EES:22:5:1993:389-404|Arch+Ground motion+Dynamic response+Earthquake engineering
J|0607|Betti,R.+Abdel-Ghaffar,A.M.+Niazy,A.S.|Kinematic soil-structure interaction for long-span cable-supported bridges||#EES:22:5:1993:415-430|Soil-structure interaction+Bridge+Kinematics+Seismic waves||#*WHITTIER
J|0608|Duan,X.N.+Chandler,A.M.|Inelastic seismic response of code-designed multistorey frame buildings with regular asymmetry||#EES:22:5:1993:431-445|Frame+Structural response+Asymmetry+Building code
J|0609|Chandler,A.M.+Duan,X.N.|A modified static procedure for the design of torsionally unbalanced multistorey frame buildings||#EES:22:5:1993:447-462|Frame+Torsion+Building code+Statics||#*MEXICOCITY|#*SANFERNANDO
J|0610|Villaverde,R.+Koyama,L.A.|Damped resonant appendages to increase inherent damping in buildings||#EES:22:6:1993:491-507|Damping+Building+Earthquake-resistant design||#*LOMAPRIETA89|#*MEXICOCITY
J|0611|Elnashai,A.S.+Izzuddin,B.A.|Modelling of material non-linearities in steel structures subjected to transient dynamic loading||#EES:22:6:1993:509-532|Loading+Steel+Structural dynamics+Modelling
J|0612|Tso,W.K.+Zhu,T.J.+Heidebrecht,A.C.|Seismic energy demands on reinforced concrete moment-resisting frames||#EES:22:6:1993:533-545|Reinforced concrete+Energy+Frame+Ground motion
J|0613|Maison,B.F.|Discussion on `An investigation of earthquake induced pounding between adjacent buildings' by S. A. Anagnostopoulos and K. V. Spiliopoulos||#EES:22:6:1993:547-550|Comments+Impact+Building+Structural response|With a reply by the authors
J|0614|Clough,R.W.|Review of `Reduction of vibrations' by G. B. Warburton||#EES:22:6:1993:551-553|Review+Structural response+Earthquake-resistant design+Vibration
J|0615|Ligorria,J.P.+Ponce,L.|Crustal structure of the Tehuantepec Isthmus, Mexico, using converted waves|In Spanish with English abstract|#GFN:32:1:1993:89-98|Crustal thickness+Q+Mexico+Converted wave
J|0616|Chavez-Perez,S.|Seismic modelling of the Mexico City basin|In Spanish with English abstract|#GFN:32:1:1993:111-130|Mexico City+Modelling+Basin+Finite difference method
J|0617|Acosta,J.+Huerta,C.+Mendoza,L.+|Modelling of the seismic response in the subsoil of Mexico City examined by depth|In Spanish with English abstract|#GFN:32:1:1993:131-152|Response+Mexico City+Soil+Depth
J|0618|Chekunov,A.V.+Tripolsky,A.A.+Kalyuzhnaya,L.T.|Lithosphere of Precambrian shields of the northern global hemisphere by seismic data|In Russian with English abstract|#GFZ:15:1:1993:3-23|Lithosphere+Shield+Heterogeneous medium+Deep seismic sounding
J|0619|Kharitonov,O.M.+Sannikova,N.P.+Tripolsky,A.A.|Stratification of the Earth's crust of the Ukrainian Shield by seismic data|In Russian with English abstract|#GFZ:15:1:1993:35-46|Ukrainian Shield+Crust+Upper mantle+Stratification
J|0620|Kotinsky,A.S.|Analytical solution of the direct wave equations (generalization for a case of stations not lying on the sphere surfaces)|In Russian with English abstract|#GFZ:15:1:1993:87-96|Hypocentre+Isotropic medium+Mathematical analysis+Source|Scientific communication
J|0621|Chekunov,A.V.+Starostenko,V.I.+Krasovsky,S.S.+|Geotransect Euro-8 (FU-3)|In Russian with English abstract|#GFZ:15:2:1993:3-32|Geotransect+Lithosphere+Geophysical investigation+Europe
J|0622|Gutsalyuk,V.M.+Osadchii,A.P.+Venger,A.I.|Experimental studies of the low-frequency Lamb-Stoneley waves in the cased hole|In Russian with English abstract|#GFZ:15:2:1993:60-68|Lamb wave+Stoneley wave+Low frequency+Down-hole source
J|0623|Timoshin,Yu.V.+Semeneva,S.G.+Lysynchuk,V.M.+|Seismological model of the section of sedimentary rocks including hydrocarbon deposits|In Russian with English abstract|#GFZ:15:2:1993:77-84|Hydrocarbon+Sedimentary cover+Seismic prospecting+Physical properties|Scientific communication
J|0624|Tyapkin,Yu.K.+Shatilo,A.P.+Starostenko,E.V.|Iteration algorithm of L1 and L2 optimal estimates of phase characteristics of seismic signal by means of the recording trispect|In Russian with English abstract|#GFZ:15:2:1993:85-92|Wavelet+Algorithm+Phase+Iterative method|Scientific communication
J|0625|Geiko,V.S.|Conditional correctness of unidimensional kinematic problem of seismics. 1.|In Russian with English abstract|#GFZ:15:3:1993:27-50|Seismics+Kinematics+Mathematical analysis
J|0626|Charitonov,O.M.|Review of `Fundamental generalizations of seismic methods' by N. N. Puzyrev|In Russian|#GFZ:15:3:1993:95-96|Review+Seismological practice|Reviews
J|0627|Krylov,S.V.+Mishen'kina,Z.R.+Kulchinskii,Yu.V.+|Characteristics of seismoactive lithosphere for the northeastern Baikal region on the basis of data of detailed works by deep seismic shooting at P- and S-waves|In Russian with English abstract|#GGS:34:1:1993:110-119|Deep seismic sounding+Baikalian Rift+Elastic medium+Fault
J|0628|Zhirova,N.V.+Mandelbaum,M.M.+Morozova,G.M.+|Geoelectrical characteristics of seismogenic structure in the Baikal prediction testing ground|In Russian with English abstract|#GGS:34:1:1993:133-144|Baikal+Structure+Geoelectricity+Upper crust
J|0629|Sibiryakov,B.P.|Microplasticity of grain media and its effect on seismic waves|In Russian with English abstract|#GGS:34:2:1993:93-102|Absorption+Plasticity+Granular medium+Seismic waves
J|0630|Ushakov,G.D.+Ushakov,M.G.|Experimental study of dilation wave scattering at the rough surface|In Russian with English abstract|#GGS:34:2:1993:103-111|Interface+Scattering+Reflexion coefficient+Seismic waves
J|0631|Aizenberg,A.M.|Special function of eddy diffusion equation in the 3D inhomogeneous medium|In Russian with English abstract|#GGS:34:2:1993:112-119|Wave equation+Inhomogeneous medium+Attenuation+Boundary condition
J|0632|Kolesnikov,Yu.I.+Ignatov,A.Yu.|Technique of regular noise wave suppression on seismic records|In Russian with English abstract|#GGS:34:2:1993:137-140|Noise+Suppression+Seismic record+Technique
J|0633|Perestoronin,A.N.+Sinyakova,T.B.|Plane and volume shear deformations of geological media (according to experimental data)|In Russian with English abstract|#GGS:34:3:1993:71-78|Shear+Modelling+Deformation+Tectonophysics
J|0634|Goloshubin,G.M.+Yanovskaya,T.B.|Solution to the inverse kinematic problem in the (tau-p) region for transversal isotropic media|In Russian with English abstract|#GGS:34:3:1993:79-85|Isotropic medium+Travel-times+Tau-p method+Reflected wave
J|0635|Stovas,A.M.|Analysis of dip-moveout transformation in terms of discontinuity theory|In Russian with English abstract|#GGS:34:3:1993:86-92|Dip moveout+Dynamics+Transformation
J|0636|Chernyak,V.S.+Lambin,P.D.|PS-wave travel-time curve equation for an inclined reflecting interface|In Russian with English abstract|#GGS:34:3:1993:93-101|PS-wave+Travel-times+Stacking+Interface
J|0637|Shlyakhter,Ye.S.|Structural features of the Lower- and Middle-Jurassic sediments according to seismic data and their petroleum potential in the south-eastern West-Siberian Plate|In Russian with English abstract|#GGS:34:4:1993:13-18|Petroleum+West Siberia+Sediment+Structure
J|0638|Bolshakov,Yu.Ya.+Danilova,I.V.+Cherepanova,M.Yu.|Factors of oil control in the Ob petroleum accumulation area|In Russian with English abstract|#GGS:34:4:1993:37-44|Oil field+Porosity+Trap+Permeability
J|0639|Aizenberg,A.M.|A system of irregular fundamental solutions for wave equation in a 3-D inhomogeneous medium|In Russian with English abstract|#GGS:34:4:1993:119-127|Wave equation+Inhomogeneous medium+Attenuation+Wave field
J|0640|Vilyaev,A.V.+Malakhova,T.P.|Study of rock temperature variations in connection with seismic forecast|In Russian with English abstract|#GGS:34:4:1993:128-133|Temperature+Prediction+Depth+Borehole
J|0641|Surkov,V.S.+Morsin,P.I.|Density inhomogeneity of the Earth's crust and upper mantle of Siberia|In Russian with English abstract|#GGS:34:6:1993:119-130|Siberia+Inhomogeneity+Deep seismic sounding+Crust+Upper mantle
J|0642|Klyuchevskii,A.V.|Dynamical parameters of aftershock foci of the north-Mongolian earthquake|In Russian with English abstract|#GGS:34:6:1993:136-141|Aftershock+Mongolia+Focus+Parameters||#*MONGOLIA89
J|0643|Tsvang,S.L.+Pinsky,V.I.+Husebye,E.S.|Enhanced seismic source discrimination using NORESS recordings from Eurasian events||#GJI:112:1:1993:1-14|Discrimination+NORESS+Eurasia+Pattern recognition+ISC
J|0644|Paulssen,H.+Visser,J.+Nolet,G.|The crustal structure from teleseismic P-wave coda - I. Method||#GJI:112:1:1993:15-25|Crustal structure+Coda+Teleseism+P-wave
J|0645|Visser,J.+Paulssen,H.|The crustal structure from teleseismic P-wave coda - II. Application to data of the NARS array in western Europe and comparison with deep seismic sounding data||#GJI:112:1:1993:26-38|Crustal structure+NARS+Deep seismic sounding+Coda
J|0646|Kendall,J-M.+Thomson,C.J.|Seismic modelling of subduction zones with inhomogeneity and anisotropy - I. Teleseismic P-wavefront tracking||#GJI:112:1:1993:39-66|Subduction zone+Modelling+Anisotropy+Ray tracing
J|0647|Madrid,J.A.+Traslosheros,J.C.V.|Joint determination of velocity structure and depth of discontinuities||#GJI:112:1:1993:74-80|Velocity structure+Depth+Discontinuity+Travel-times
J|0648|Li,X-D.+Tanimoto,T.|Waveforms of long-period body waves in a slightly aspherical Earth model||#GJI:112:1:1993:92-102|Waveform+Body wave+Earth model+Long-period wave
J|0649|Roth,M.+Korn,M.|Single scattering theory versus numerical modelling in 2-D random media||#GJI:112:1:1993:124-140|Scattering+Numerical modelling+Coda+Acoustic wave
J|0650|Sato,H.|Energy transportation in one- and two-dimensional scattering media: analytic solutions of the multiple isotropic scattering model||#GJI:112:1:1993:141-146|Energy+Multiple scattering+Coda+Mathematical analysis
J|0651|Morelli,A.+Dziewonski,A.M.|Body wave traveltimes and a spherically symmetric P- and S-wave velocity model||#GJI:112:2:1993:178-194|Body wave+Travel-times+Earth model+Velocity+ISC
J|0652|Tromp,J.+Dahlen,F.A.|Variational principles for surface wave propagation on a laterally heterogeneous Earth - III. Potential representation||#GJI:112:2:1993:195-209|Surface wave+Lateral heterogeneity+Frequency domain+Mathematical analysis
J|0653|Schwartz,S.Y.+Lay,T.|Complete PP-waveform modelling for determining crust and upper mantle structure||#GJI:112:2:1993:210-224|PP-wave+Crustal structure+Upper mantle+North America+ISC
J|0654|Friederich,W.+Wielandt,E.+Stange,S.|Multiple forward scattering of surface waves: comparison with an exact solution and Born single-scattering methods||#GJI:112:2:1993:264-275|Multiple scattering+Surface wave+Born theory+Wave field
J|0655|Trampert,J.+Cara,M.+Frogneux,M.|SH propagator matrix and QS estimates from borehole- and surface-recorded earthquake data||#GJI:112:2:1993:290-299|Propagator matrix+SH-wave+Down-hole recording+Rhine-Graben+Q
J|0656|Snyder,D.B.|Review of `The Australian lithosphere' edited by B. Drummond||#GJI:112:2:1993:302|Review+Australia+Lithosphere|Geological Society of Australia, Sydney, 1991
J|0657|a-BABEL Working Group|Integrated seismic studies of the Baltic shield using data in the Gulf of Bothnia region||#GJI:112:3:1993:305-324|Baltic Shield+Reflexion+Marine seismic investigation+BABEL
J|0658|a-BABEL Working Group|Deep seismic reflection/refraction interpretation of crustal structure along BABEL profiles A and B in the southern Baltic Sea||#GJI:112:3:1993:325-343|Baltic Sea+BABEL+Crustal structure+Deep seismic sounding
J|0659|Hamilton,D.A.+Mereu,R.F.|2-D tomographic imaging across the North American mid-continent rift system||#GJI:112:3:1993:344-358|Mid-continent rift+North America+Tomography+GLIMPCE
J|0660|Yao,D-H.+Zhou,X-X.|One-way elastic wave reverse-time migration||#GJI:112:3:1993:381-384|Elastic wave+Reverse-time migration+Imaging
J|0661|Koch,M.|Simultaneous inversion for 3-D crustal structure and hypocentres including direct, refracted and reflected phases - I. Development, validation and optimal regularization of the method||#GJI:112:3:1993:385-412|Crustal structure+Inversion+Hypocentre+Ray tracing
J|0662|Koch,M.|Simultaneous inversion for 3-D crustal structure and hypocentres including direct, refracted and reflected phases - II. Application to the northern Rhine Graben/Rhenish Massif region, Germany||#GJI:112:3:1993:413-428|Crustal structure+Inversion+Hypocentre+Rhine-Graben
J|0663|Koch,M.|Simultaneous inversion for 3-D crustal structure and hypocentres including direct, refracted and reflected phases - III. Application to the southern Rhine Graben seismic region, Germany||#GJI:112:3:1993:429-447|Crustal structure+Inversion+Hypocentre+Rhine-Graben
J|0664|Okamoto,T.|Effects of sedimentary structure and bathymetry near the source on teleseismic P waveforms from shallow subduction zone earthquakes||#GJI:112:3:1993:471-480|Waveform+Kuril Trench+Java+Sedimentary cover
J|0665|Mikumo,T.+Miyatake,T.|Dynamic rupture processes on a dipping fault, and estimates of stress drop and strength excess from the results of waveform inversion||#GJI:112:3:1993:481-496|Stress-drop+Rupture+1961+Japan
J|0666|Ambeh,W.B.+Lynch,L.L.|Coda Q in the eastern Caribbean, West Indies||#GJI:112:3:1993:507-516|Caribbean+Q+Lateral variation+Frequency
J|0667|Westaway,R.|Comment on two recent teleseismic waveform inversion articles by Taymaz et al||#GJI:112:3:1993:538-543|Comments+Seismogram+Teleseism+Inversion+ISC|With a reply by the authors
J|0668|Zang,A.|Finite element study on the closure of thermal microcracks in feldspar/quartz-rocks - I. Grain-boundary cracks||#GJI:113:1:1993:17-31|Microcrack+Rock+Wave velocity+Finite element method
J|0669|Zang,A.|Finite element study on the closure of thermal microcracks in feldspar/quartz-rocks - II. Intra-, transgranular and mixed cracks||#GJI:113:1:1993:32-44|Microcrack+Rock+Finite element method+Wave velocity
J|0670|Wielandt,E.|Propagation and structural interpretation of non-plane waves||#GJI:113:1:1993:45-53|Propagation+Surface wave+Phase velocity+Acoustic wave
J|0671|Korn,M.|Determination of site-dependent scattering Q from P-wave coda analysis with an energy-flux model||#GJI:113:1:1993:54-72|Coda+P-wave+Site effect+Lithosphere
J|0672|Berrocal,J.+Fernandes,C.+Bueno,A.+|Seismic activity in Monsuaba (State of Rio de Janeiro), Brazil, between 1988 December and 1989 February||#GJI:113:1:1993:73-82|Brazil+1988-1989+Microearthquake+Intraplate seismicity
J|0673|Gomez,J.B.+Pacheco,A.F.+Segui Santonja,A.J.|Statistical model for the stick-slip behaviour of faults||#GJI:113:1:1993:115-123|Stick-slip+Fault+Asperity+Fracture
J|0674|Portsmouth,I.R.+Worthington,M.H.+Kerner,C.C.|A field study of seismic attenuation in layered sedimentary rocks - I. VSP data||#GJI:113:1:1993:124-134|Attenuation+Vertical seismic profiling+Q+Sedimentary rock
J|0675|Portsmouth,I.R.+Worthington,M.H.+Neep,J.P.|A field study of seismic attenuation in layered sedimentary rocks - II. Crosshole data||#GJI:113:1:1993:135-143|Attenuation+Cross-hole+Q+Sedimentary rock
J|0676|Vinnik,L.P.+Kind,R.|Ellipticity of teleseismic S-particle motion||#GJI:113:1:1993:165-174|S-wave+Anisotropy+Particle motion+Ellipticity
J|0677|Kendall,J-M.+Thomson,C.J.|Maslov ray summation, pseudo-caustics, Lagrangian equivalence and transient seismic waveforms||#GJI:113:1:1993:186-214|Maslov asymptotic theory+Caustic+Ray theory+Wavefront
J|0678|Emmerich,H.+Zwielich,J.+Muller,G.|Migration of synthetic seismograms for crustal structures with random heterogeneities||#GJI:113:1:1993:225-238|Migration+Synthetic seismogram+Crustal structure+Heterogeneity
J|0679|Tromp,J.+Dahlen,F.A.|Surface wave propagation in a slowly varying anisotropic waveguide||#GJI:113:1:1993:239-249|Surface wave+Anisotropy+Wave guide+Ray tracing
J|0680|Garnero,E.J.+Helmberger,D.V.+Burdick,L.J.|Preliminary observations from the use of US-Soviet Joint Seismic Program data to model upper mantle triplications beneath Asia||#GJI:113:1:1993:252-259|Upper mantle+Asia+JSP+Stacking|Research note
J|0681|Taymaz,T.|The source parameters of the Cubukdag (W. Turkey) earthquake of 1986 October 11||#GJI:113:1:1993:260-267|Source parameter+Turkey+Earthquake+1986|Research note|#*TURKEY86
J|0682|Gajewski,D.|Radiation from point sources in general anisotropic media||#GJI:113:2:1993:299-317|Point source+Anisotropic medium+Radiation pattern+Numerical modelling
J|0683|Lecomte,I.|Finite difference calculation of first traveltimes in anisotropic media||#GJI:113:2:1993:318-342|Anisotropic medium+First arrival+Finite difference method+qP-wave
J|0684|Rutty,M.J.+Greenhalgh,S.A.|The correlation of seismic events on multicomponent data in the presence of coherent noise||#GJI:113:2:1993:343-358|Noise+Correlation+Event+Coherency
J|0685|Rhoades,D.A.+Evison,F.F.|Long-range earthquake forecasting based on a single predictor with clustering||#GJI:113:2:1993:371-381|Forecast+Clustering+Hazard+Swarm
J|0686|Glahn,A.+Granet,M.+a-Rhine Graben Teleseismic Group|Southern Rhine Graben: small-wavelength tomographic study and implications for the dynamic evolution of the graben||#GJI:113:2:1993:399-418|P-wave+Tomography+Rhine-Graben+Velocity structure
J|0687|Vasco,D.W.|Degeneracy, singularity and multiple solutions in geophysical inversion||#GJI:113:2:1993:434-448|Inverse problem+Location+Mathematical geophysics
J|0688|Mateos,J.L.+Flores,J.+Novaro,O.+|Resonant response models for the Valley of Mexico - II. the trapping of horizontal P waves||#GJI:113:2:1993:449-462|Mexico City+Resonance+Trap+P-wave||#*GUERRERO89
J|0689|Coates,R.T.+Charrette,E.E.|A comparison of single scattering and finite difference synthetic seismograms in realizations of 2-D elastic random media||#GJI:113:2:1993:463-482|Scattering+Finite difference method+Synthetic seismogram+Elastic medium
J|0690|Liu,E.+Crampin,S.+Queen,J.H.+|Behaviour of shear waves in rocks with two sets of parallel cracks||#GJI:113:2:1993:509-517|Shear wave splitting+Rock+Crack+Velocity
J|0691|Murphy,J.R.|Comment on `Q for short-period P waves: is it frequency dependent?' by A. Douglas||#GJI:113:2:1993:535-542|Comments+Q+P-wave+Frequency+Deconvolution|With a reply by the author
J|0692|Joswig,M.+Schulte-Theis,H.|Master-event correlations of weak local earthquakes by dynamic waveform matching||#GJI:113:3:1993:562-574|Local earthquake+Master-event location+Correlation+Cluster analysis
J|0693|Rochester,M.G.+Peng,Z.R.|The Slichter modes of the rotating Earth: a test of the subseismic approximation||#GJI:113:3:1993:575-585|Free oscillation+Core+Boundary
J|0694|Vasco,D.W.+Pulliam,R.J.+Johnson,L.R.|Formal inversion of ISC arrival times for mantle P-velocity structure||#GJI:113:3:1993:586-606|Inversion+Arrival time+Velocity structure+Mantle+ISC
J|0695|Singh,S.C.+McKenzie,D.|Layering in the lower crust||#GJI:113:3:1993:622-628|Lower crust+Layer+Reflector+Deep seismic sounding
J|0696|Pollitz,F.F.+Hennet,C.G.|Analysis of Rayleigh wave refraction from three-component seismic spectra||#GJI:113:3:1993:629-650|Refraction+Surface wave+Spectrum+Coherence||#*CASPIANSEA86|#*KURIL86|#*KAZAKHSTAN85
J|0697|Stutzmann,E.+Montagner,J-P.|An inverse technique for retrieving higher mode phase velocity and mantle structure||#GJI:113:3:1993:669-683|Inversion+Phase velocity+Mantle+Surface wave
J|0698|Poupinet,G.+Souriau,A.+Jenatton,L.|A test on the Earth's core-mantle boundary structure with antipodal data: example of Fiji-Tonga earthquakes recorded in Tamanrasset, Algeria||#GJI:113:3:1993:684-692|Core-mantle boundary+PKP-wave+PKIKP-wave+Fiji+ISC||#*FIJI90
J|0699|Pascal,G.P.+Mauffret,A.+Patriat,P.|The ocean-continent boundary in the Gulf of Lion from analysis of expanding spread profiles and gravity modelling||#GJI:113:3:1993:701-726|Profile+Continental boundary+Mediterranean+Marine seismic investigation
J|0700|Ogata,Y.+Katsura,K.|Analysis of temporal and spatial heterogeneity of magnitude frequency distribution inferred from earthquake catalogues||#GJI:113:3:1993:727-738|Earthquake catalogue+Frequency-magnitude relation+Japan+Space-time distribution
J|0701|Guadagno,F.M.+Nunziata,C.|Seismic velocities of fractured carbonate rocks (southern Apennines, Italy)||#GJI:113:3:1993:739-746|Carbonate+Velocity+Apennines+Fracture
J|0702|Seber,D.+Barazangi,M.+Chaimov,T.A.+|Upper crustal velocity structure and basement morphology beneath the intracontinental Palmyride fold-thrust belt and north Arabian platform in Syria||#GJI:113:3:1993:752-766|Velocity structure+Upper crust+Seismic survey+Syria
J|0703|Cerveny,V.+De Castro,M.A.|Application of dynamic ray tracing in the 3-D inversion of seismic reflection data||#GJI:113:3:1993:776-779|Ray tracing+Inversion+Reflexion data|Research note
J|0704|Posgay,K.|Formation of the crust-mantle boundary in the previous upper mantle|With Hungarian and Russian abstracts|#GPT:37:4:1993:243-251|Crust-mantle boundary+Pannonian Basin+Geotraverse+Deep seismic sounding
J|0705|Neidell,N.S.+Landwer,W.R.+Smith,M.|Seismic imaging of porosity and hydrocarbon in consolidated formations|With Hungarian and Russian abstracts|#GPT:37:4:1993:265-277|Imaging+Porosity+Hydrocarbon+Seismic prospecting
J|0706|Dyment,J.+Bano,M.|`Pull up' and `push down' effects in seismic reflection: a useful constraint|With Hungarian and Russian abstracts|#GPT:37:4:1993:279-295|Reflexion study+Constraint+Salt dome+Sedimentary basin
J|0707|Maeland,E.|Velocity estimation by zero-offset migration in a layered medium|With Hungarian and Russian abstracts|#GPT:38:1:1993:3-18|Migration+Zero offset+Layered medium+Velocity
J|0708|Melankholina,Ye.N.|Tectonic settings of active margins of the western Pacific|In Russian with English abstract|#GTK:-:1:1993:79-95|Active margin+Western Pacific+Tectonics
J|0709|Mel'nikov,A.I.|New approach to complex analyses of problems of fault in lithosphere. Review of `Fault formation in lithosphere. Slip-strike zones' by S. I. Sherman, K. G. Seminsky et al|In Russian|#GTK:-:1:1993:106-107|Review+Fault+Lithosphere+Strike-slip
J|0710|Zorin,Yu.A.+Belichenko,V.G.+Turutanov,Ye.Kh.+|Central Siberian-Mongolia transect|In Russian with English abstract|#GTK:-:2:1993:3-19|Siberia+Transect+Geotectonics
J|0711|Yel'nikov,I.N.|Fault tectonics of the Tyrrhenian Sea acoustic basement|In Russian with English abstract|#GTK:-:2:1993:54-63|Tyrrhenian Sea+Fault+Tectonics+Basement
J|0712|Khok,J.+Miller,Yu.V.|Recent methods used in kinematic analysis of the faults developed in the conditions of low-temperature metamorphism|In Russian|#GTK:-:2:1993:73-76|Fault+Kinematics+Metamorphism+White Sea|In brief
J|0713|Guseva,T.V.+Lukk,A.A.+Trapeznikov,Yu.A.+|Geodynamics of the territory of Garma polygon (Tadjikistan) from the results of light ranging|In Russian with English abstract|#GTK:-:3:1993:47-54|Geodynamics+Tadzhikistan+Geodetic measurement+Focal mechanism
J|0714|Rowe,M.M.+Gettrust,J.F.|Fine structure of methane hydrate-bearing sediments on the Blake Outer Ridge as determined from deep-tow multichannel seismic data||#JGR:98:1:1993:463-473|Marine seismic investigation+Atlantic Ocean+Sediment+Fine structure
J|0715|Lockner,D.A.|Room temperature creep in saturated granite||#JGR:98:1:1993:475-487|Granite+Creep+Rock mechanics+Laboratory
J|0716|Frohlich,C.+Davis,S.D.|Teleseismic b values; or, much ado about 1.0||#JGR:98:1:1993:631-644|b-Value+Magnitude+Earthquake catalogue+Centroid-moment tensor+ISC
J|0717|Twiss,R.J.+Souter,B.J.+Unruh,J.R.|The effect of block rotations on the global seismic moment tensor and the patterns of seismic P and T axes||#JGR:98:1:1993:645-674|Moment tensor+Block+Rotation+Kinematics
J|0718|Cheng,C.H.|Crack models for a transversely isotropic medium||#JGR:98:1:1993:675-684|Crack+Model+Isotropic medium+Anisotropy
J|0719|Fisk,M.D.+McCartor,G.D.|Fluctuation analysis of elastic waves in random media via phase screen simulations||#JGR:98:1:1993:685-697|Elastic wave+Propagation+Scattering+Synthetic seismogram
J|0720|Pulliam,R.J.+Vasco,D.W.+Johnson,L.R.|Tomographic inversions for mantle P wave velocity structure based on the minimization of l2 and l1 norms of International Seismological Centre travel time residuals||#JGR:98:1:1993:699-734|Tomography+P-wave+Mantle+Station correction+ISC
J|0721|Glennon,M.A.+Chen,W-P.|Systematics of deep-focus earthquakes along the Kuril-Kamchatka arc and their implications on mantle dynamics||#JGR:98:1:1993:735-769|Deep-focus earthquake+Kuril-Kamchatka Arc+Mantle+Dynamics+ISC
J|0722|Chester,F.M.+Evans,J.P.+Biegel,R.L.|Internal structure and weakening mechanisms of the San Andreas fault||#JGR:98:1:1993:771-786|San Andreas Fault+Structure+Mechanism+Seismicity
J|0723|Savage,J.C.+Lisowski,M.|Inferred depth of creep on the Hayward fault, central California||#JGR:98:1:1993:787-793|Creep+Depth+Hayward Fault+Seismicity
J|0724|Madden,T.R.+LaTorraca,G.A.+Park,S.K.|Electrical conductivity variations around the Palmdale section of the San Andreas fault zone||#JGR:98:1:1993:795-808|Electrical conductivity+Palmdale+Seismicity+San Andreas Fault
J|0725|Koizumi,N.|Frequency dependence of the groundwater discharge at an artesian well as recognized from tidal fluctuation records||#JGR:98:1:1993:825-835|Groundwater+Japan+Earth tide+Prediction
J|0726|Minshull,T.A.+Singh,S.C.|Shallow structure of oceanic crust in the western North Atlantic from seismic waveform inversion and modeling||#JGR:98:2:1993:1777-1792|Crustal structure+North Atlantic+Waveform+Inversion
J|0727|Gao,L.S.+Poirier,J.P.+Aki,K.|Attenuation due to partial melting: an experimental study on a model system, using the lab coda method||#JGR:98:2:1993:1853-1860|Laboratory+Q+Attenuation+Model
J|0728|Kisslinger,C.|The stretched exponential function as an alternative model for aftershock decay rate||#JGR:98:2:1993:1913-1921|Aftershock+Decay+Relaxation+Sequence
J|0729|Posadas,A.M.+Vidal,F.+De Miguel,F.+|Spatial-temporal analysis of a seismic series using the principal components method: the Antequera series, Spain, 1989||#JGR:98:2:1993:1923-1932|Spatial analysis+Sequence+Spain+1989
J|0730|Glenn,L.A.|Energy-density effects on seismic decoupling||#JGR:98:2:1993:1933-1942|Energy+Density+Decoupling+Underground explosion
J|0731|Pulliam,R.J.+Stark,P.B.|Bumps on the core-mantle boundary: are they facts or artifacts?||#JGR:98:2:1993:1943-1955|Core-mantle boundary+Tomography+PKP-wave+PcP-wave+ISC
J|0732|Stark,P.B.+Hengartner,N.W.|Reproducing Earth's kernel: uncertainty of the shape of the core-mantle boundary from PKP and PcP travel times||#JGR:98:2:1993:1957-1971|Core-mantle boundary+PKP-wave+PcP-wave+Travel-times+ISC
J|0733|Ding,X-Y.+Grand,S.P.|Upper mantle Q structure beneath the East Pacific Rise||#JGR:98:2:1993:1973-1985|Upper mantle+Q+East Pacific Rise+Surface wave
J|0734|Campillo,M.+Feignier,B.+Bouchon,M.+|Attenuation of crustal waves across the Alpine range||#JGR:98:2:1993:1987-1996|Attenuation+Crust+Alps+Lg-wave
J|0735|Beghoul,N.+Barazangi,M.+Isacks,B.L.|Lithospheric structure of Tibet and western North America: mechanisms of uplift and a comparative study||#JGR:98:2:1993:1997-2016|Lithosphere+Tibet+North America+Uplift+ISC
J|0736|Tichelaar,B.W.+Ruff,L.J.|Depth of seismic coupling along subduction zones||#JGR:98:2:1993:2017-2037|Subduction zone+Depth+Coupling+Large earthquake+ISC
J|0737|Hyndman,R.D.+Wang,K.|Thermal constraints on the zone of major thrust earthquake failure: the Cascadia subduction zone||#JGR:98:2:1993:2039-2060|Cascadia subduction zone+Thermal model+Thrust+Failure
J|0738|Symes,W.W.|A differential semblance criterion for inversion of multioffset seismic reflection data||#JGR:98:2:1993:2061-2073|Reflexion study+Offset+Inversion+Propagation
J|0739|Larsen,S.C.+Agnew,D.C.+Hager,B.H.|Strain accumulation in the Santa Barbara channel: 1970-1988||#JGR:98:2:1993:2119-2133|Strain+California+1970-1988+Seismicity||#*SANTABARBARA
J|0740|Ben-Zion,Y.+Rice,J.R.+Dmowska,R.|Interaction of the San Andreas fault creeping segment with adjacent great rupture zones and earthquake recurrence at Parkfield||#JGR:98:2:1993:2135-2144|San Andreas Fault+Creep+Rupture+Recurrence
J|0741|Savage,J.C.+Lisowski,M.+Prescott,W.H.+|Deformation from 1973 to 1987 in the epicentral area of the 1959 Hebgen Lake, Montana, earthquake (MS = 7.5)||#JGR:98:2:1993:2145-2153|Deformation+Hebgen Lake+1959+Geodetic survey
J|0742|Abers,G.A.+Ekstrom,G.+Marlow,M.S.+|Bering Sea earthquake of February 21, 1991: active faulting along the Bering shelf edge||#JGR:98:2:1993:2155-2165|Bering Sea+Major earthquake+1991+Faulting+ISC||#*BERINGSEA91
J|0743|Seront,B.+Mainprice,D.+Christensen,N.I.|A determination of the three-dimensional seismic properties of anorthosite: comparison between values calculated from the petrofabric and direct laboratory measurements||#JGR:98:2:1993:2209-2221|Laboratory+Velocity+Anorthosite+Lattice
J|0744|Lonsdale,P.+Dieu,J.+Natland,J.|Posterosional volcanism in the Cretaceous part of the Hawaiian hotspot trail||#JGR:98:3:1993:4081-4098|Reflexion study+Hawaiian Islands+Hot spot+Volcanism
J|0745|Ferguson,I.J.+Westbrook,G.K.+Thomas,G.P.|Heat flow and thermal models of the Barbados Ridge accretionary complex||#JGR:98:3:1993:4121-4142|Heat flow+Barbados+Reflexion study+Accretionary complex
J|0746|Henstock,T.J.+Woods,A.W.+White,R.S.|The accretion of oceanic crust by episodic sill intrusion||#JGR:98:3:1993:4143-4161|Refraction study+Accretion+Oceanic crust+Intrusion
J|0747|Cannat,M.|Emplacement of mantle rocks in the seafloor at mid-ocean ridges||#JGR:98:3:1993:4163-4172|Mid-ocean ridge+Velocity+Mantle+Rock
J|0748|Rovetta,M.R.|A similarity model of incremental fracture growth in submarine hydrothermal systems||#JGR:98:3:1993:4173-4182|Microearthquake+East Pacific Rise+Fracture+Hydrothermy
J|0749|Bonaccorso,A.+Davis,P.M.|Dislocation modelling of the 1989 dike intrusion into the flank of Mount Etna, Sicily||#JGR:98:3:1993:4261-4268|Seismicity+1989+Etna+Eruption
J|0750|Gasparik,T.|The role of volatiles in the transition zone||#JGR:98:3:1993:4287-4299|Velocity+Transition zone+Mantle+Phase change
J|0751|Zhao,D-P.+Hasegawa,A.|P wave tomographic imaging of the crust and upper mantle beneath the Japan Islands||#JGR:98:3:1993:4333-4353|P-wave+Tomography+Japan arc+Crustal structure
J|0752|Rowan,L.R.+Clayton,R.W.|The three-dimensional structure of Kilauea volcano, Hawaii, from travel time tomography||#JGR:98:3:1993:4355-4375|P-wave+Tomography+Kilauea+Structure
J|0753|Odegaard,E.+Doornbos,D.J.|Seismic diffraction tomography of array data||#JGR:98:3:1993:4377-4388|Tomography+Diffraction+Array+Velocity structure
J|0754|Zhang,Z.+Lay,T.|Investigation of upper mantle discontinuities near northwestern Pacific subduction zones using precursors to sSH||#JGR:98:3:1993:4389-4405|sS-wave+Precursor+Northwest Pacific+Subduction zone
J|0755|Cassidy,J.F.+Ellis,R.M.|S wave velocity structure of the northern Cascadia subduction zone||#JGR:98:3:1993:4407-4421|S-wave+Velocity structure+Cascadia subduction zone+Broadband seismograph
J|0756|McCaffree,C.L.+Christensen,N.I.|Shear wave properties and seismic imaging of mylonite zones||#JGR:98:3:1993:4423-4435|Shear wave+Imaging+Mylonite+Appalachian Mts.
J|0757|Kosarev,G.L.+Petersen,N.V.+Vinnik,L.P.|Receiver functions for the Tien Shan analog broadband network: contrasts in the evolution of structures across the Talasso-Fergana fault||#JGR:98:3:1993:4437-4448|Tien Shan+Crustal structure+Broadband seismograph+Fault
J|0758|Walter,W.R.+Brune,J.N.|Spectra of seismic radiation from a tensile crack||#JGR:98:3:1993:4449-4459|Crack+Spectrum+Radiation+Model
J|0759|Harris,R.A.+Day,S.M.|Dynamics of fault interaction: parallel strike-slip faults||#JGR:98:3:1993:4461-4472|Dynamics+Fault+Strike-slip+Interactive system
J|0760|Gomberg,J.S.|Correction to `Seismicity and shear strain in the southern Great Basin of Nevada and California'||#JGR:98:3:1993:4473-4476|Errata+Great Basin+Seismicity+Shear strain+Yucca Mts.
J|0761|Segall,P.+Du,Y.|How similar were the 1934 and 1966 Parkfield earthquakes?||#JGR:98:3:1993:4527-4538|Parkfield+Earthquake+1934+1966
J|0762|Westaway,R.|Correction to `Seismic moment summation for historical earthquakes in Italy: tectonic implications'||#JGR:98:3:1993:4539|Errata+Moment+Historical earthquake+Italy+Tectonics
J|0763|Snay,R.A.+Holdahl,S.R.|Introduction to modeling crustal deformation||#JGR:98:3:1993:4541-4542|Introduction+Crust+Deformation+Seismicity
J|0764|Roth,F.|Deformations in a layered crust due to a system of cracks: modeling the effects of dike injections or dilatancy||#JGR:98:3:1993:4543-4551|Deformation+Layered medium+Crust+Crack
J|0765|Satake,K.|Depth distribution of coseismic slip along the Nankai trough, Japan, from joint inversion of geodetic and tsunami data||#JGR:98:3:1993:4553-4565|Depth+Slip+Nankai+Great earthquake
J|0766|Williams,C.R.+Arnadottir,T.|Coseismic deformation and dislocation models of the 1989 Loma Prieta earthquake derived from Global Positioning System measurements||#JGR:98:3:1993:4567-4578|Loma Prieta+1989+Deformation+Global Positioning System||#*LOMAPRIETA89
J|0767|Phipps Morgan,J.+Chen,Y.J.|The genesis of oceanic crust: magma injection, hydrothermal circulation, and crustal flow||#JGR:98:4:1993:6283-6297|Oceanic crust+Reflexion study+East Pacific Rise+Magma
J|0768|Cudrak,C.F.+Clowes,R.M.|Crustal structure of Endeavour Ridge Segment, Juan de Fuca Ridge, from a detailed seismic refraction survey||#JGR:98:4:1993:6329-6349|Crustal structure+Juan de Fuca+Refraction study+Ocean-bottom seismometer
J|0769|Munschy,M.+Rotstein,Y.+Schlich,R.+|Structure and tectonic setting of the 77degreesE and 75degreesE grabens, Kerguelen Plateau, south Indian Ocean||#JGR:98:4:1993:6367-6382|Kerguelen Islands+Structure+Tectonics+Profile
J|0770|Atkinson,C.+Cook,J.M.|Effect of loading rate on crack propagation under compressive stress in a saturated porous material||#JGR:98:4:1993:6383-6395|Loading+Crack+Stress+Porous medium
J|0771|Kanamori,H.+Ekstrom,G.+Dziewonski,A.M.+|Seismic radiation by magma injection: an anomalous seismic event near Tori Shima, Japan||#JGR:98:4:1993:6511-6522|Radiation+Torishima-Kinkai+1984+Magma||#*TORISHIMA
J|0772|Stickney,M.C.+Sprenke,K.F.|Seismic events with implosional focal mechanisms in the Coeur d'Alene mining district, northern Idaho||#JGR:98:4:1993:6523-6528|Rockburst+Idaho+Focal mechanism+Velocity structure
J|0773|Fukuyama,E.+Mikumo,T.|Dynamic rupture analysis: inversion for the source process of the 1990 Izu-Oshima, Japan, earthquake (M = 6.5)||#JGR:98:4:1993:6529-6542|Izu-Oshima+1990+Source+Rupture||#*IZUOSHIMA90
J|0774|Castillo,D.A.+Ellsworth,W.L.|Seismotectonics of the San Andreas fault system between Point Arena and Cape Mendocino in Northern California: implications for the development and evolution of a young transform||#JGR:98:4:1993:6543-6560|San Andreas Fault+Northern California+Seismotectonics+Transform fault
J|0775|Pantosti,D.+Schwartz,D.P.+Valensise,G.|Paleoseismology along the 1980 surface rupture of the Irpinia fault: implications for earthquake recurrence in the southern Apennines, Italy||#JGR:98:4:1993:6561-6577|Irpinia+1980+Palaeoseismology+Recurrence||#*CAMPANIA
J|0776|Kocaoglu,A.H.+Long,L.T.|Tomographic inversion of Rg wave group velocities for regional near-surface velocity structure||#JGR:98:4:1993:6579-6587|Tomography+Rg-wave+Velocity structure+Alabama
J|0777|Delprat-Jannaud,F.+Lailly,P.|Ill-posed and well-posed formulations of the reflection travel time tomography problem||#JGR:98:4:1993:6589-6605|Tomography+Reflexion study+Travel-times+Theory
J|0778|Bjarnason,I.Th.+Menke,W.+Flovenz,O.G.+|Tomographic image of the mid-Atlantic plate boundary in southwestern Iceland||#JGR:98:4:1993:6607-6622|Tomography+Profile+Iceland+Crustal structure
J|0779|Gohl,K.+Smithson,S.B.|Structure of Archean crust and passive margin of southwest Greenland from seismic wide-angle data||#JGR:98:4:1993:6623-6638|Greenland+Crustal structure+Reflexion study+Rifting
J|0780|Gomberg,J.S.|Tectonic deformation in the New Madrid seismic zone: inferences from map view and cross-sectional boundary element models||#JGR:98:4:1993:6639-6664|New Madrid+Deformation+Seismicity+Tectonics
J|0781|Harris,R.A.+Day,S.M.|Correction to `Dynamics of fault interaction: parallel strike-slip faults'||#JGR:98:4:1993:6665|Errata+Dynamics+Fault+Strike-slip+Interactive system
J|0782|DeMets,C.|Earthquake slip vectors and estimates of present-day plate motions||#JGR:98:4:1993:6703-6714|Slip+Plate motion+Focal mechanism+Vector
J|0783|Avouac,J.P.+Tapponnier,P.+Bai,M.+|Active thrusting and folding along the northern Tien Shan and Late Cenozoic rotation of the Tarim relative to Dzungaria and Kazakhstan||#JGR:98:4:1993:6755-6804|Tien Shan+Plate tectonics+Seismicity+Focal mechanism
J|0784|Urmos,J.+Wilkens,R.H.|In situ velocities in pelagic carbonates: new insights from Ocean Drilling Program Leg 130, Ontong Java Plateau||#JGR:98:5:1993:7903-7920|Ontong Java+Carbonate+Reflexion study+Sediment
J|0785|Spray,J.G.|Viscosity determinations of some frictionally generated silicate melts: implications for fault zone rheology at high strain rates||#JGR:98:5:1993:8053-8068|Friction+Melting+Fault zone+Viscosity
J|0786|Stark,P.B.+Nikolayev,D.I.|Toward tubular tomography||#JGR:98:5:1993:8095-8106|Tomography+Travel-times+Seismogram+Ray theory
J|0787|Dreger,D.S.+Helmberger,D.V.|Determination of source parameters at regional distances with three-component sparse network data||#JGR:98:5:1993:8107-8125|Source parameter+Regional study+Broadband seismograph+Baja California||#*LVINING90|#*BAJACAL91|#*SANGABRIEL91
J|0788|Goes,S.D.B.+Velasco,A.A.+Schwartz,S.Y.+|The April 22, 1991, Valle de la Estrella, Costa Rica (MW = 7.7) earthquake and its tectonic implications: a broadband seismic study||#JGR:98:5:1993:8127-8142|Costa Rica+1991+Large earthquake+Tectonics||#*COSTARICA91
J|0789|Rudnicki,J.W.+Yin,J.+Roeloffs,E.A.|Analysis of water level changes induced by fault creep at Parkfield, California||#JGR:98:5:1993:8143-8152|Creep+Parkfield+Prediction+Water level
J|0790|Smith,S.W.+Knapp,J.S.+McPherson,R.C.|Seismicity of the Gorda plate, structure of the continental margin, and an eastward jump of the Mendocino triple junction||#JGR:98:5:1993:8153-8171|Gorda Plate+Seismicity+Focal mechanism+Network
J|0791|Howie,J.M.+Miller,K.C.+Savage,W.U.|Integrated crustal structure across the south central California margin: Santa Lucia escarpment to the San Andreas fault||#JGR:98:5:1993:8173-8196|Crustal structure+Reflexion study+California+Plate boundary
J|0792|Mendoza,C.|Coseismic slip of two large Mexican earthquakes from teleseismic body waveforms: implications for asperity interaction in the Michoacan plate boundary segment||#JGR:98:5:1993:8197-8210|Slip+Large earthquake+Mexico+Waveform||#*MEXICOCITY2|#*MICHOACAN
J|0793|Stephenson,W.J.+Smith,R.B.+Pelton,J.R.|A high-resolution seismic reflection and gravity survey of Quaternary deformation across the Wasatch fault, Utah||#JGR:98:5:1993:8211-8223|Reflexion study+Deformation+Wasatch Fault+Shallow structure
J|0794|Garnero,E.J.+Helmberger,D.V.|Travel times of S and SKS: implications for three-dimensional lower mantle structure beneath the central Pacific||#JGR:98:5:1993:8225-8241|Pacific+S-wave+SKS-wave+Lower mantle+ISC
J|0795|Calais,E.+Mercier de Lepinay,B.|Semiquantitative modeling of strain and kinematics along the Caribbean/North America strike-slip plate boundary zone||#JGR:98:5:1993:8293-8308|Strain+Kinematics+Caribbean Plate+Plate boundary
J|0796|Henrys,S.A.+Levander,A.R.+Meltzer,A.S.|Crustal structure of the offshore southern Santa Maria Basin and Transverse Ranges, Southern California, from deep seismic reflection data||#JGR:98:5:1993:8335-8348|Crustal structure+Southern California+Reflexion study+Tectonics
J|0797|Bullard,T.F.+Lettis,W.R.|Quaternary fold deformation associated with blind thrust faulting, Los Angeles Basin, California||#JGR:98:5:1993:8349-8369|Deformation+Thrust fault+Los Angeles+Geology||#*WHITTIER
J|0798|Karato,S-I.+Rubie,D.C.+Yan,H.|Dislocation recovery in olivine under deep upper mantle conditions: implications for creep and diffusion||#JGR:98:6:1993:9761-9768|Upper mantle+Creep+Laboratory+Olivine
J|0799|Rigord,P.+Caristan,Y.+Hulin,J.P.|Analysis of porous media heterogeneities using the diffusion of pressure waves||#JGR:98:6:1993:9781-9791|Porous medium+Heterogeneity+Pressure+Laboratory
J|0800|Zhang,Y-S.+Tanimoto,T.|High-resolution global upper mantle structure and plate tectonics||#JGR:98:6:1993:9793-9823|Upper mantle+Structure+Plate tectonics+S-wave
J|0801|Dorbath,C.+Granet,M.+Poupinet,G.+|A teleseismic study of the Altiplano and the eastern Cordillera in northern Bolivia: new constraints on a lithospheric model||#JGR:98:6:1993:9825-9844|Lithosphere+Bolivia+Andes+Profile
J|0802|Reid,I.|Velocity structure of reflective lower crust beneath the Grand Banks of Newfoundland||#JGR:98:6:1993:9845-9859|Velocity structure+Lower crust+Grand Banks+Refraction study
J|0803|Hatzfeld,D.+Besnard,M.+Makropoulos,K.+|Subcrustal microearthquake seismicity and fault plane solutions beneath the Hellenic arc||#JGR:98:6:1993:9861-9870|Microseismicity+Fault plane solution+Hellenic arc+Network
J|0804|Bufe,C.G.+Varnes,D.J.|Predictive modeling of the seismic cycle of the greater San Francisco Bay region||#JGR:98:6:1993:9871-9883|Cycle+Prediction+San Francisco Bay+Seismicity||#*LOMAPRIETA89|#*COYOTE|#*MORGAN
J|0805|Rice,J.R.|Spatio-temporal complexity of slip on a fault||#JGR:98:6:1993:9885-9907|Slip+Fault+Elastodynamics+Theory
J|0806|Nishenko,S.P.+Sykes,L.R.|Comment on `Seismic gap hypothesis: ten years after' by Y. Y. Kagan and D. D. Jackson||#JGR:98:6:1993:9909-9920|Comments+Gap+Large earthquake+Hazard+Clustering|With a reply by the authors
J|0807|Douglas,A.+Marshall,P.D.+Young,J.B.|Comment on `Teleseismic P wave attenuation and nuclear explosion source functions inferred from Yellowknife array data' by K-Y. Chun, T. Zhu and G. F. West||#JGR:98:6:1993:9921-9929|Comments+P-wave+Attenuation+Nuclear explosion+Yellowknife|With a reply by the authors
J|0808|Shen,Z-K.+Jackson,D.D.|Global positioning system reoccupation of early triangulation sites: tectonic deformation of the southern Coast Ranges||#JGR:98:6:1993:9931-9946|Global Positioning System+Coast Range+Deformation+Parkfield
J|0809|Du,Y.+Aydin,A.|Stress transfer during three sequential moderate earthquakes along the central Calaveras fault, California||#JGR:98:6:1993:9947-9962|Stress+Calaveras Fault+Sequence+Moderate earthquake||#*COYOTE|#*MORGAN|#*ALUM88
J|0810|Wang,J-H.|Q values of Taiwan: a review|With Chinese abstract|#JGC:36:1:1993:15-24|Taiwan+Q+Review
J|0811|Huang,C-Y.|Bathymetric ridges and troughs in the active arc-continent collision region off southeastern Taiwan: reply and discussions||#JGC:36:1:1993:91-109|Taiwan+Bathymetry+Discussion+Fault plane solution
J|0812|Yu,H-S.+Song,G-S.|Submarine physiography around Taiwan and its relation to tectonic setting|With Chinese abstract|#JGC:36:2:1993:139-156|Marine seismic investigation+Taiwan+Tectonics+Sea floor
J|0813|Furukawa,H.+Maeda,I.|Measurements of velocity variation of rock samples under uniaxial stress by a modified transmission method||#JFH:9:3:1993:317-323|Stress+Wave velocity+Rock+Instrument
J|0814|Maeda,I.|A method of measuring local displacements with desired accuracy by using a simple transmitter||#JFH:9:3:1993:355-364|Displacement+Accuracy+Location
J|0815|Takemura,M.+Ikeura,T.+Uetake,T.|Characteristics of source spectra of moderate earthquakes in a subduction zone along the Pacific coast of the southern Tohoku District, Japan||#JPE:41:1:1993:1-19|Tohoku+Spectrum+Moderate earthquake+Subduction zone||#*FUKUSHIMA87|#*ONAHAMA87A|#*FUKUSHIMA86|#*FUKUSHIMA84
J|0816|Maruyama,T.+Fan,T-Y.|A breakdown zone model of a fault in a strip||#JPE:41:1:1993:21-39|Fault+Model+Strike-slip+Theory
J|0817|Matsumura,S.|Overestimates of earthquake prediction efficiency in a "post-prediction" state||#JPE:41:1:1993:41-43|Prediction+Precursor+Estimation+Efficiency|Letter
J|0818|Ohnaka,M.|Critical size of the nucleation zone of earthquake rupture inferred from immediate foreshock activity||#JPE:41:1:1993:45-56|Foreshock+Rupture+Nucleation+Size|Letter|#*IZUOSHIMA
J|0819|Yamasato,H.+Hamada,N.+McCreery,C.S.+|T waves associated with submarine volcanic eruptions in the Marianas observed by ocean bottom seismographs||#JPE:41:2:1993:57-74|Ocean-bottom seismograph+T-wave+Submarine eruption+Marianas
J|0820|Kuwahara,Y.+Oyagi,N.+Takahashi,H.|Topographic anisotropy of slickenside from deep borehole sample in an earthquake swarm region and its generation mechanism||#JPE:41:2:1993:75-85|Rock+Borehole+Anisotropy+Fracture
J|0821|Singh,S.J.+Rani,S.|Crustal deformation associated with two-dimensional thrust faulting||#JPE:41:2:1993:87-101|Deformation+Thrust fault+Shear stress+Shear strain
J|0822|Iidaka,T.+Obara,K.|The upper boundary of the subducting Pacific plate estimated from ScSp waves beneath the Kanto region, Japan||#JPE:41:2:1993:103-108|ScSp-wave+Pacific plate+Japan+Slab+ISC|Letter|#*SAKHALIN90
J|0823|Czechowski,Z.|A kinetic model of nucleation, propagation and fusion of cracks||#JPE:41:3:1993:127-137|Nucleation+Crack+Kinetics+Model
J|0824|Mori,S.+Goto,K.+Fukui,K.+|Spatial and temporal distribution of stresses associated with the aftershock sequence of a moderate earthquake and volcanic eruption near the Izu Peninsula, Japan||#JPE:41:3:1993:139-164|Sequence+Stress+Izu Peninsula+Focal mechanism||#*OFFIZUPEN89B
J|0825|Iwasaki,T.+Yoshii,T.+Moriya,T.+|Seismic refraction study in the Kitakami region, northern Honshu, Japan||#JPE:41:3:1993:165-188|Refraction study+Honshu+Velocity structure+Synthetic seismogram
J|0826|Ditmar,O.G.|An algorithm for tomographic processing of seismic records under assumption of smoothness of fitted function|In Russian|#RFZ:-:1:1993:7-12|Tomography+Smoothing+Imaging+Seismic record
J|0827|Zimenkov,S.V.+Nazarov,V.E.|Nonlinear acoustical effects in rock samples|In Russian|#RFZ:-:1:1993:13-18|Acoustics+Rock+Nonlinearity+Imaging
J|0828|Godzikovskaya,A.A.+Bugayevsky,A.G.+Afanasyeva,I.I.|The problem of local blasts contributions in regional earthquake catalogues|In Russian|#RFZ:-:1:1993:53-69|Blast+Regional study+Earthquake catalogue+Seismogram|Scientific communications
J|0829|Grigoryants,B.V.|Comparative characterization of views on the structural setting of the Spitak epicentral zone in Armenia|In Russian|#RFZ:-:1:1993:85-88|Spitak+1988+Earthquake+Structure|Discussion|#*ARMENIA88
J|0830|Ulomov,V.I.|The international Global Seismic Hazard Assessment Program|In Russian|#RFZ:-:1:1993:89-92|GSHAP+Hazard|Chronicle
J|0831|Rogozhin,E.A.|Detection and assessment problems of seismically hazardous areas|In Russian|#RFZ:-:1:1993:93-95|Detection+Hazard+Seismicity+Assessment|Chronicle
J|0832|Botev,E.+Yegorova,T.P.+Kozlenko,V.G.+|Velocity and density inhomogeneities in the mantle at the central part of the Balkan area|In Russian|#RFZ:-:2:1993:3-11|Mantle+Balkans+Velocity+Inhomogeneity
J|0833|Lossovsky,E.K.|Determination of Q in the Earth's crust and upper mantle from singularities of amplitude spectra of reflected waves|In Russian|#RFZ:-:2:1993:12-18|Q+Crust+Upper mantle+Reflected wave
J|0834|Kovachev,S.A.+Kuzin,I.P.+Solov'ev,S.L.|On spatial variation of microtremors in the central part of the Hellenic arc|In Russian|#RFZ:-:2:1993:53-56|Spatial distribution+Microearthquake+Hellenic arc+Ocean-bottom seismograph|Scientific communications
J|0835|Panasenko,G.D.|Major seismicity features in Fennoscandia during 1951-1985|In Russian|#RFZ:-:2:1993:57-62|Seismicity+Fennoscandia+1951-1985+Zoning|Scientific communications
J|0836|Khusamiddinov,S.S.+Rzayev,A.G.+Kolisnichenko,K.R.|Anomalous variations of natural electromagnetic VLF waves prior to the Spitak 12.07.88 earthquake|In Russian|#RFZ:-:2:1993:63-65|Spitak+1988+Earthquake+Electromagnetic wave|Scientific communications|#*ARMENIA88
J|0837|Shamina,O.G.+Palenov,A.M.+Tkachenko,V.S.|Laboratory studies of amplitude-frequency characteristics in a randomly inhomogeneous medium|In Russian|#RFZ:-:2:1993:66-72|Laboratory+Amplitude+Frequency+Inhomogeneous medium|Scientific communications
J|0838|Razin,A.V.|Propagation of a spherical acoustic delta pulse along a gas-solid interface|In Russian|#RFZ:-:2:1993:73-77|Propagation+Acoustics+Interface+Pulse|Scientific communications
J|0839|Orlov,A.L.+Razin,A.V.|Generation of elastic waves in a half-space by nonstationary surface sources|In Russian|#RFZ:-:2:1993:78-81|Generation+Elastic wave+Half-space+Source|Scientific communications
J|0840|Rogozhin,E.A.+Bogachkin,B.M.|Alpine and recent tectonics of the Racha earthquake area|In Russian|#RFZ:-:3:1993:3-11|1991+Georgia FSU+Earthquake+Tectonics||#*WCAUCASUS91
J|0841|Aref'ev,S.S.+Pletnev,K.G.+Tatevosyan,R.E.+|The Racha earthquake of 1991: results of field seismological observations|In Russian|#RFZ:-:3:1993:12-24|1991+Georgia FSU+Earthquake+Field work||#*WCAUCASUS91
J|0842|Zakharova,A.I.+Gapsatarova,I.P.+Starovoyt,O.E.+|Major source parameters of the Racha earthquake and its aftershocks|In Russian|#RFZ:-:3:1993:24-41|1991+Georgia FSU+Earthquake+Aftershock||#*WCAUCASUS91
J|0843|Balakina,L.M.|Geological implications of the Racha, April 29, 1991 earthquake and its aftershocks|In Russian|#RFZ:-:3:1993:42-52|1991+Georgia FSU+Earthquake+Geology||#*WCAUCASUS91
J|0844|Belousov,T.P.+Chichagov,V.P.|Seismic dislocations and the source nature of the Racha, South Caucasus, 1991 earthquake|In Russian|#RFZ:-:3:1993:53-63|1991+Georgia FSU+Earthquake+Dislocation||#*WCAUCASUS91
J|0845|Nechayev,Yu.V.+Rogozhin,E.A.+Bogachkin,B.M.|Cosmic evidence of specific manifestations of the Racha, 1991 earthquake in the tectonic fracturing field|In Russian|#RFZ:-:3:1993:64-69|1991+Georgia FSU+Earthquake+Tectonics||#*WCAUCASUS91
J|0846|Rogozhin,E.A.+Aref'ev,S.S.+Bogachkin,B.M.+|Comprehensive analysis of geological and seismological data and seismotectonic view of the Racha earthquake source|In Russian|#RFZ:-:3:1993:70-77|1991+Georgia FSU+Earthquake+Seismotectonics||#*WCAUCASUS91
J|0847|Latynina,L.A.+Abashidze,V.G.+Aleksandrov,M.S.+|Strain measurements in the epicentral zone of the Racha earthquake|In Russian|#RFZ:-:3:1993:78-84|1991+Georgia FSU+Earthquake+Strain||#*WCAUCASUS91
J|0848|Barabanov,V.L.+Grinevsky,A.O.|Hydrogeological observations in the Racha earthquake epicentral zone|In Russian|#RFZ:-:3:1993:85-91|1991+Georgia FSU+Earthquake+Hydrogeology||#*WCAUCASUS91
J|0849|Voytov,G.I.|Chemical and isotope instabilities of underground gas-water systems in the source region of the Racha, 4.29.1991 earthquake|In Russian|#RFZ:-:3:1993:92-97|1991+Georgia FSU+Earthquake+Geochemistry||#*WCAUCASUS91
J|0850|Reysner,G.I.|One more lesson to seismic zoning|In Russian|#RFZ:-:3:1993:109-112|Zoning+Former Soviet Union|Discussion
J|0851|Kalinin,V.A.+Bayuk,I.O.+Babayan,G.B.|Determination of elastic moduli from high pressure data on mineral fragments|In Russian|#RFZ:-:4:1993:30-37|Elastic modulus+Mineral+Velocity+Laboratory
J|0852|Aptekman,Zh.Ya.+Erteleva,O.O.|Characterization of aftershocks and movements in the Spitak earthquake zone|In Russian|#RFZ:-:4:1993:38-42|1988+Earthquake+Spitak+Aftershock||#*ARMENIA88
J|0853|Ulomov,V.I.|Seismogeodynamic activization waves and the long-term prediction of earthquakes|In Russian|#RFZ:-:4:1993:43-53|Prediction+Earthquake+Geodynamics+Deformation
J|0854|Karmaleyeva,R.M.+Le Min Kuok+Tkachev,N.B.|Measurements of surface deformations using trench geophysical stations|In Russian|#RFZ:-:4:1993:54-61|Surface deformation+Trench+Crustal movement+Measurement
J|0855|Treusov,A.V.+Aref'ev,S.S.+Borisov,B.A.|Tomographic study of the Spitak earthquake zone|In Russian|#RFZ:-:5:1993:23-27|Tomography+Spitak+1988+Earthquake||#*ARMENIA88
J|0856|Avetisov,G.P.|Some problems of dynamics of the lithosphere beneath the Laptev Sea|In Russian|#RFZ:-:5:1993:28-38|Laptev Sea+Lithosphere+Dynamics+Seismicity
J|0857|Kunin,N.Ya.+Sheykh-Zade,E.R.|Structural zoning of the Earth's crust from records of subvertical reflected waves (the USA case study)|In Russian|#RFZ:-:5:1993:39-50|Crustal structure+Zoning+United States+Reflexion study
J|0858|Duk,A.E.+Kapustyansky,S.M.+Nikolayevskii,V.N.|Interaction of seismic waves with a dilatation fault|In Russian|#RFZ:-:5:1993:51-58|Seismic waves+Dilation+Fault+Ray theory
J|0859|Pavoni,N.|Rifting of Africa and pattern of mantle convection beneath the African plate||#TCT:215:1-2:1992:35-53|Rifting+Africa+Mantle convection+Plate tectonics+Tension axis
J|0860|Milanovsky,Ye.Ye.|Aulacogens and aulacogeosynclines: regularities in setting and evolution||#TCT:215:1-2:1992:55-68|Crustal structure+Global tectonics+Evolution+Palaeorift
J|0861|Favre,P.+Stampfli,G.M.|From rifting to passive margin: the examples of the Red Sea, central Atlantic and Alpine Tethys||#TCT:215:1-2:1992:69-97|Crustal structure+Red Sea+Atlantic+Alps
J|0862|Kusznir,N.J.+Ziegler,P.A.|The mechanics of continental extension and sedimentary basin formation: a simple-shear/pure-shear flexural cantilever model||#TCT:215:1-2:1992:117-131|Sedimentary basin+Extension+Deep seismic sounding+Faulting
J|0863|Artyushkov,E.V.|Role of crustal stretching on subsidence of the continental crust||#TCT:215:1-2:1992:187-207|Reflexion study+Continental crust+Subsidence+Crustal thickness
J|0864|Ben-Avraham,Z.|Development of asymmetric basins along continental transform faults||#TCT:215:1-2:1992:209-220|Continuous seismic profiling+Transform fault+Basin+Asymmetry
J|0865|Korsch,R.J.+Wake-Dyster,K.D.+Johnstone,D.W.|Seismic imaging of Late Palaeozoic-Early Mesozoic extensional and contractional structures in the Bowen and Surat basins, eastern Australia||#TCT:215:3-4:1992:273-294|Imaging+Australia+Sedimentary basin+Reflexion study
J|0866|Mancktelow,N.S.|Neogene lateral extension during convergence in the central Alps: evidence from interrelated faulting and backfolding around the Simplonpass (Switzerland)||#TCT:215:3-4:1992:295-317|Fault zone+Switzerland+Extension+Neogene
J|0867|Njike-Kassala,J-D.+Souriau,A.+Gagnepain-Beyneix,J.+|Frequency-magnitude relationship and Poisson's ratio in the Pyrenees, in relation to earthquake distribution||#TCT:215:3-4:1992:363-369|Frequency-magnitude relation+Poisson's ratio+Pyrenees+Seismicity|Letter section
J|0868|Grieve,R.A.F.+Pesonen,L.J.|The terrestrial impact cratering record||#TCT:216:1-2:1992:1-30|Reflexion study+Crater+Low velocity+Meteorite
J|0869|Kukkonen,I.T.+Kivekas,L.+Paananen,M.|Physical properties of karnaite (impact melt), suevite and impact breccia in the Lappajarvi meteorite crater||#TCT:216:1-2:1992:111-122|Finland+Crater+Physical properties+Low velocity
J|0870|Smith,J.V.+Durney,D.W.|Experimental formation of brittle structural assemblages in oblique divergence||#TCT:216:3-4:1992:235-253|Clay+Divergence+Faulting+Rock mechanics
J|0871|Li,G.+Moelle,K.H.R.|A SEM study of conchoidal structures on fracture surfaces of sandstones||#TCT:216:3-4:1992:255-272|Crack+Sandstone+Rock mechanics
J|0872|Bodri,B.+Iizuka,S.|Thermal regime, rheology and seismicity in central Japan||#TCT:217:1-2:1993:1-9|Japan+Seismicity+Rheology+Thermal model
J|0873|Ito,K.|Cutoff depth of seismicity and large earthquakes near active volcanoes in Japan||#TCT:217:1-2:1993:11-21|Seismicity+Japan+Depth+Volcano
J|0874|Furlong,K.P.+Atkinson,S.M.|Seismicity and thermal structure along the northern San Andreas fault system, California, USA||#TCT:217:1-2:1993:23-30|Thermal structure+Seismicity+San Andreas Fault+Depth
J|0875|Pasquale,V.+Verdoya,M.+Chiozzi,P.+|Dependence of the seismotectonic regime on the thermal state in the northern Italian Apennines||#TCT:217:1-2:1993:31-41|Apennines+Seismotectonics+Geothermal field+Lithosphere
J|0876|Sugrobov,V.M.+Yanovsky,F.A.|Terrestrial heat flow, estimation of deep temperature and seismicity of the Kamchatka region||#TCT:217:1-2:1993:43-53|Heat flow+Seismicity+Kamchatka+Lithosphere
J|0877|Shimada,M.|Lithosphere strength inferred from fracture strength of rocks at high confining pressures and temperatures||#TCT:217:1-2:1993:55-64|Lithosphere+Strength+Fracture+Rock
J|0878|Karakaisis,G.F.+Mikumo,T.|Dynamic fault rupture process during the 1978 Thessaloniki earthquake, northern Greece||#TCT:217:1-2:1993:65-71|Earthquake+Thessaloniki+1978+Rupture||#*THESSALONIKI
J|0879|Gavrilenko,P.+Gueguen,Y.|Fluid overpressures and pressure solution in the crust||#TCT:217:1-2:1993:91-110|Crust+Porosity+Physical properties+Fluid pressure
J|0880|Geilikman,M.B.+Spanos,T.J.T.+Nyland,E.|Porosity diffusion in fluid-saturated media||#TCT:217:1-2:1993:111-115|Porosity+Fluid pressure+Diffusion+Saturation
J|0881|Nemcok,M.|Transition from convergence to escape: field evidence from the west Carpathians||#TCT:217:1-2:1993:117-142|Carpathians+Convergence+Reflexion study+Neotectonics
J|0882|Weijermars,R.+Jackson,M.P.A.+Vendeville,B.|Rheological and tectonic modeling of salt provinces||#TCT:217:1-2:1993:143-174|Rheology+Salt dome+Tectonics+Modelling
J|0883|Hyvernaud,O.+Reymond,D.+Talandier,J.+|Four years of automated measurements of seismic moments at Papeete using the mantle magnitude Mm: 1987-1991||#TCT:217:3-4:1993:175-193|Moment+1987-1991+Mantle magnitude+Single-station method
J|0884|Hoang-Trong,P.+Rouland,D.|Strike-slip or reverse faulting earthquake: consequences on the aftershock activity and prediction of the occurrence of large aftershocks||#TCT:217:3-4:1993:195-203|Aftershock+Prediction+Focal mechanism+Magnitude||#*ANDREANOF|#*SOUTHLAND81
J|0885|Wahlstrom,R.|Comparison of dynamic source parameters for earthquakes in different tectonic regions of the northern Cascadia subduction zone||#TCT:217:3-4:1993:205-215|Cascadia subduction zone+Source parameter+Moment+Corner frequency
J|0886|Shapira,A.+Hofstetter,A.|Source parameters and scaling relationships of earthquakes in Israel||#TCT:217:3-4:1993:217-226|Source parameter+Israel+Corner frequency+Moment
J|0887|Kondorskaya,N.V.+Zakharova,A.I.+Chepkunas,L.S.|Spectral and dynamic characteristics of strong earthquakes in the Armenia upland and adjacent areas||#TCT:217:3-4:1993:227-234|Armenia+Strong earthquake+Spectral characteristics+Magnitude||#*WCAUCASUS91|#*ERZURUM|#*ARMENIA88
J|0888|Christoskov,L.+Kireyev,I.A.+Kondorskaya,N.V.+|HMS and spectral magnitude approaches to earthquake quantification||#TCT:217:3-4:1993:235-242|Quantification+Magnitude+Asia+Spectrum
J|0889|Hatzidimitriou,P.M.+Papazachos,C.B.+Kiratzi,A.A.+|Estimation of attenuation structure and local earthquake magnitude based on acceleration records in Greece||#TCT:217:3-4:1993:243-253|Local magnitude+Greece+Attenuation+Strong-motion record||#*KEFALLINIA
J|0890|Duda,S.J.+Yanovskaya,T.B.|Spectral amplitude-distance curves for P-waves: effects of velocity and Q-distribution||#TCT:217:3-4:1993:255-265|Spectral amplitude+P-wave+Velocity+Distance
J|0891|Tikoff,B.+Fossen,H.|Simultaneous pure and simple shear: the unifying deformation matrix||#TCT:217:3-4:1993:267-283|Shear+Matrix+Deformation+Mathematical analysis
J|0892|Goodacre,A.K.+Bonham-Carter,G.F.+Agterberg,F.P.+|A statistical analysis of the spatial association of seismicity with drainage patterns and magnetic anomalies in western Quebec||#TCT:217:3-4:1993:285-305|Quebec+Seismicity+Drainage+Geomagnetic anomaly
J|0893|Heigold,P.C.+Kolata,D.R.|Proterozoic crustal boundary in the southern part of the Illinois Basin||#TCT:217:3-4:1993:307-319|Deep seismic sounding+Illinois+Proterozoic+Boundary
J|0894|Lefort,J-P.+Miller,H.G.+Wiseman,R.|Reconstitution of east-facing Variscan nappes between the Grand Banks of Newfoundland and Spain||#TCT:217:3-4:1993:331-341|Grand Banks+Spain+Reflector+Variscan
J|0895|Rikitake,T.|Review of `Advances in geophysical research, Vol. 1' edited by Institute of Geophysics, State Seismological Bureau||#TCT:217:3-4:1993:355-356|Review+Applied geophysics+Seismology+Seismomagnetic effect|Pergamon Press, Oxford, 1990, 288p|#*TANGSHAN
J|0896|Adams,R.D.|Review of `Source mechanism and seismotectonics' edited by A. Udias and E. Buforn||#TCT:217:3-4:1993:356-357|Review+Seismotectonics+Focal mechanism|Birkhauser, Basel, 1991, 200p
J|0897|Seranne,M.|Review of `The BIRPS atlas' edited by S. L. Klemperer and R. Hobbs||#TCT:217:3-4:1993:358-360|Review+BIRPS+Marine seismic investigation+British Isles|Cambridge University Press, Cambridge, 1991
J|0898|Anderson,J.G.+Ellis,M.+DePolo,C.|Earthquake rate analysis||#TCT:218:1-3:1993:1-21|Event rate+Deformation+Moment+Magnitude
J|0899|Arze,E.|Seismic design of industrial facilities||#TCT:218:1-3:1993:23-41|Building code+Chile+Aseismic design+Civil engineering
J|0900|Singh,S.K.+Ordaz,M.|Strong motion seismology in Mexico||#TCT:218:1-3:1993:43-57|Strong-motion seismology+Mexico+Network+Amplification||#*MEXICOCITY|#*MEXICOCITY2|#*GUERRERO89
J|0901|Brune,J.N.+Brown,S.+Johnson,P.A.|Rupture mechanism and interface separation in foam rubber models of earthquakes: a possible solution to the heat flow paradox and the paradox of large overthrusts||#TCT:218:1-3:1993:59-67|Heat flow+Rupture+Interface+Model
J|0902|Ohno,S.+Ohta,T.+Ikeura,T.+|Revision of attenuation formula considering the effect of fault size to evaluate strong motion spectra in near field||#TCT:218:1-3:1993:69-81|Attenuation+Spectrum+Strong motion+Distance
J|0903|Scherer,R.J.|Advancement in strong motion analysis by the use of evolutionary power spectra||#TCT:218:1-3:1993:83-91|Power spectrum+Strong-motion analysis+Seismic waves||#*MEXICOCITY|#*LOMAPRIETA89|#*NAHANNI85C
J|0904|Aki,K.|Local site effects on weak and strong ground motion||#TCT:218:1-3:1993:93-111|Site effect+Amplification+Nonlinearity+Ground motion||#*LOMAPRIETA89
J|0905|Sanchez-Sesma,F.J.+Campillo,M.|Topographic effects for incident P, SV and Rayleigh waves||#TCT:218:1-3:1993:113-125|Topography+Rayleigh wave+P-wave+SV-wave
J|0906|Sanchez-Sesma,F.J.+Perez-Rocha,L.E.+Reinoso,E.|Ground motion in Mexico City during the April 25, 1989, Guerrero earthquake||#TCT:218:1-3:1993:127-140|Ground motion+Mexico City+Earthquake+1989||#*GUERRERO89|#*GUERRERO90
J|0907|Ordaz,M.+Rosenblueth,E.+Reinoso,E.|Future ground motions in Mexico City||#TCT:218:1-3:1993:141-155|Mexico City+Ground motion+Site effect+Estimation||#*MEXICOCITY|#*GUERRERO89
J|0908|Cocco,M.+Pacor,F.|The rupture process of the 1980 Irpinia, Italy, earthquake from the inversion of strong motion waveforms||#TCT:218:1-3:1993:157-177|Seismic process+1980+Italy+Earthquake||#*CAMPANIA
J|0909|Iida,M.|Source effects on strong-motion records and resolving power of strong-motion arrays for source inversion||#TCT:218:1-3:1993:179-193|Strong-motion record+Source+Strong-motion array+Inversion||#*WHITTIER
J|0910|Somerville,P.G.|Engineering applications of strong ground motion simulation||#TCT:218:1-3:1993:195-219|Strong motion+Simulation+Spectrum+Earthquake engineering||#*LOMAPRIETA89|#*MEXICOCITY|#*SANANTONIO|#*SAGUENAY88
J|0911|Zamarbide,J.L.+Castano,J.C.|Analysis of the January 26th, 1985, Mendoza (Argentina) earthquake effects and of their possible correlation with the recorded accelerograms and soil conditions||#TCT:218:1-3:1993:221-235|Earthquake+1985+Argentina+Damage||#*MENDOZA85
J|0912|Monge,J.+Mendoza,J.|Study of the effects of tsunami on the coastal cities of the region of Tarapaca, north Chile||#TCT:218:1-3:1993:237-246|Tsunami+Chile+Coast+Damage
J|0913|Mateos,J.L.+Flores,J.+Novaro,O.+|Generation of inhomogeneous P waves in a layered medium||#TCT:218:1-3:1993:247-256|Layered medium+P-SV wave+Inhomogeneous wave+Amplification
J|0914|Donovan,N.|Relationship of seismic hazard studies to seismic codes in the United States||#TCT:218:1-3:1993:257-271|United States+Hazard+Building code+Response
J|0915|Cruz,E.+Riddell,R.+Midorikawa,S.|A study of site amplification effects on ground motions in Santiago, Chile||#TCT:218:1-3:1993:273-280|Ground motion+Amplification+Chile+Site
J|0916|Brune,J.N.|The seismic hazard at Tehri dam||#TCT:218:1-3:1993:281-286|Hazard+India+Dam+Seismic gap
J|0917|Midorikawa,S.|Semi-empirical estimation of peak ground acceleration from large earthquakes||#TCT:218:1-3:1993:287-295|Large earthquake+Maximum acceleration+Ground motion+Estimation||#*SANANTONIO
J|0918|Fujii,Y.|Vertical crustal movement in the Boso peninsula, south Kanto, Japan, as deduced from the adjustment of a geodetic network with signals||#TCT:218:4:1993:309-322|Vertical movement+Crustal movement+Geodetic survey+Japan
J|0919|Console,R.+Di Giovambattista,R.+Favali,P.+|Seismicity of the Adriatic microplate||#TCT:218:4:1993:343-354|Seismicity+Adriatic+Microplate+Joint hypocentre determination
J|0920|Maltezou,F.+Loucoyannakis,M.|Geophysical evidence for the subsurface distribution and mode of emplacement of ophiolites in the eastern Rhodope region, N. Greece||#TCT:218:4:1993:355-365|Geophysical data+Subsurface+Greece+Reflexion study
J|0921|Kayal,J.R.+De,R.+Chakraborty,P.|Microearthquakes at the main boundary thrust in eastern Himalaya and the present-day tectonic model||#TCT:218:4:1993:375-381|Himalayas+Microseismicity+Tectonics+Focal mechanism|Letter|#*NINDIA91
J|0922|Beslier,M-O.+Ask,M.+Boillot,G.|Ocean-continent boundary in the Iberia Abyssal Plain from multichannel seismic data||#TCT:218:4:1993:383-393|Iberia+Continental boundary+Marine seismic investigation+Reflector|Letter
J|0923|Clowes,R.M.|Variations in continental crustal structure in Canada from LITHOPROBE seismic reflection and other data||#TCT:219:1-3:1993:1-27|Canada+Lithoprobe+Crustal structure+Continental crust
J|0924|Jones,A.G.|Electromagnetic images of modern and ancient subduction zones||#TCT:219:1-3:1993:29-45|Subduction zone+Conductivity+Imaging+Magnetotellurics
J|0925|Miller,K.C.|Crustal structure along the strike of the offshore Santa Maria basin, California||#TCT:219:1-3:1993:57-69|California+Crustal structure+Offshore+Reflexion study
J|0926|Green,A.G.+Levato,L.+Valasek,P.+|Characteristic reflection patterns in the southeast Canadian Cordillera, northern Appalachians and Swiss Alps||#TCT:219:1-3:1993:71-92|Reflexion study+Swiss Alps+Deep crust+North America
J|0927|Levato,L.+Pruniaux,B.+Burri,M.+|Processing and preliminary results of NFP/PNR20 seismic reflection profiles from the western Swiss Alps||#TCT:219:1-3:1993:93-107|Swiss Alps+Reflexion study+Vertical seismic profiling+Crustal structure
J|0928|Favali,P.+Funiciello,R.+Mattietti,G.+|An active margin across the Adriatic Sea (central Mediterranean Sea)||#TCT:219:1-3:1993:109-117|Active margin+Adriatic+Seismicity+Tectonics
J|0929|Lie,J.E.+Husebye,E.S.|Seismic imaging of upper crustal basement faults in the Skagerrak Sea||#TCT:219:1-3:1993:119-128|Upper crust+Skagerrak+Basement+Reflexion study
J|0930|Korja,A.+Korja,T.+Luosto,U.+|Seismic and geoelectric evidence for collisional and extensional events in the Fennoscandian Shield - implications for Precambrian crustal evolution||#TCT:219:1-3:1993:129-152|Fennoscandia+Deep seismic sounding+Crust+Evolution
J|0931|Poupinet,G.+Mantyniemi,P.+Luosto,U.+|A teleseismic study of the lithospheric structure across the Ladoga-Bothnian Bay zone in Finland||#TCT:219:1-3:1993:153-161|Lithosphere+Travel-times+SVEKA+Velocity
J|0932|Von Huene,R.+Scholl,D.W.|The return of sialic material to the mantle indicated by terrigeneous material subducted at convergent margins||#TCT:219:1-3:1993:163-175|Subduction+Convergent margin+Mantle+Sediment
J|0933|Finlayson,D.M.|Crustal architecture across Phanerozoic Australia along the Eromanga-Brisbane geoscience transect: evolution and analogues||#TCT:219:1-3:1993:191-211|Geotransect+Australia+Crust+Deep seismic sounding
J|0934|Wu,G-J.+Xiao,X-C.+Li,T-D.+|Lithospheric structure and evolution of the Tibetan Plateau: the Yadong-Golmud geoscience transect||#TCT:219:1-3:1993:213-221|Geotransect+Lithosphere+Structure+Tibet
J|0935|Nyblade,A.A.+Pollack,H.N.|Can differences in heat flow between east and southern Africa be easily interpreted?: implications for understanding regional variability in continental heat flow||#TCT:219:4:1993:257-272|Heat flow+Africa+Wave velocity+Regional study
J|0936|Huang,W.|Morphologic patterns of stream channels on the active Yishi fault, southern Shandong Province, eastern China: implications for repeated great earthquakes in the Holocene||#TCT:219:4:1993:283-304|Great earthquake+Holocene+Fault+Shandong
J|0937|Xu,X-W.+Ma,X-Y.+Deng,Q-D.|Neotectonic activity along the Shanxi rift system, China||#TCT:219:4:1993:305-325|Neotectonics+Shanxi+Continental rift+Deep seismic sounding
J|0938|Khan,A.A.+Agarwal,B.N.P.|The crustal structure of western Bangladesh from gravity data||#TCT:219:4:1993:341-353|Bangladesh+Crustal structure+Gravity+Geologic structure
J|0939|Liakopoulou,F.+Pearce,R.G.+Main,I.G.|Errata to `Source mechanisms of recent earthquakes in the Hellenic arc from broadband data'||#TCT:219:4:1993:356-357|Errata+Focal mechanism+Hellenic arc+Broadband seismology
J|0940|Puspito,N.T.+Yamanaka,Y.+Miyatake,T.+|Three-dimensional P-wave velocity structure beneath the Indonesian region||#TCT:220:1-4:1993:175-192|P-wave+Velocity structure+Indonesia+Seismicity+ISC
J|0941|Buddin,T.S.+Stimpson,I.G.+Williams,G.D.|North Chilean forearc tectonics and Cenozoic plate kinematics||#TCT:220:1-4:1993:193-203|Chile+Plate tectonics+Seismotectonics+Cenozoic+ISC
J|0942|Gudmundsson,A.+Brynjolfsson,S.+Jonsson,M.T.|Structural analysis of a transform fault-rift zone junction in north Iceland||#TCT:220:1-4:1993:205-221|Fracture zone+Transform fault+Iceland+Surface deformation
J|0943|Taboada,A.+Bousquet,J.C.+Philip,H.|Coseismic elastic models of folds above blind thrusts in the Betic Cordilleras (Spain) and evaluation of seismic hazard||#TCT:220:1-4:1993:223-241|Betic Cordillera+Hazard+Fold-and-thrust belt+Fault
J|0944|Sawaf,T.+Al-Saad,D.+Gebran,A.+|Stratigraphy and structure of eastern Syria across the Euphrates depression||#TCT:220:1-4:1993:267-281|Syria+Stratigraphy+Reflexion study+Geotransect
J|0945|Stiros,S.C.|Kinematics and deformation of central and southwestern Greece from historical triangulation data and implications for the active tectonics of the Aegean||#TCT:220:1-4:1993:283-300|Greece+Tectonics+Geodetic survey+Seismicity
J|0946|Papazachos,B.C.+Panagiotopoulos,D.G.|Normal faults associated with volcanic activity and deep rupture zones in the southern Aegean volcanic arc||#TCT:220:1-4:1993:301-308|AEgean+Fracture zone+Volcanism+Historical earthquake+Normal fault||#*ALKION2|#*ALKION3
J|0947|Karnik,V.+Klima,K.|Magnitude-frequency distribution in the European-Mediterranean earthquake regions||#TCT:220:1-4:1993:309-323|Frequency-magnitude relation+Earthquake catalogue+Europe+Mediterranean+1901-1985
J|0948|Plomerova,J.+Payo,G.+Babuska,V.|Teleseismic P-residual study in the Iberian Peninsula||#TCT:221:1:1993:1-12|Iberian Peninsula+Residual+P-wave+Lithosphere
J|0949|Blanco,M.J.+Spakman,W.|The P-wave velocity structure of the mantle below the Iberian Peninsula: evidence for subducted lithosphere below southern Spain||#TCT:221:1:1993:13-34|Iberian Peninsula+Velocity structure+Slab+Mantle
J|0950|a-ILIHA DSS Group|A deep seismic sounding investigation of lithospheric heterogeneity and anisotropy beneath the Iberian Peninsula||#TCT:221:1:1993:35-51|Deep seismic sounding+Iberian Peninsula+Lithosphere+Heterogeneity
J|0951|Banda,E.+Gallart,J.+Garcia-Duenas,V.+|Lateral variation of the crust in the Iberian Peninsula: new evidence from the Betic Cordillera||#TCT:221:1:1993:53-66|Iberian Peninsula+Lateral variation+Crust+Seismic survey
J|0952|Surinach,E.+Marthelot,J-M.+Gallart,J.+|Seismic images and evolution of the Iberian crust in the Pyrenees||#TCT:221:1:1993:67-80|Pyrenees+Crust+Reflexion study+Refraction study
J|0953|Tellez,J.+Matias,L.M.+Cordoba,D.+|Structure of the crust in the schistose domain of Galicia-Tras-os-Montes (NW Iberian Peninsula)||#TCT:221:1:1993:81-93|Crust+Iberian Peninsula+Refraction study+Reflexion study
J|0954|Sarrate,J.+Canas,J.A.+Pujades,L.+|Shallow structure of part of northwestern Iberia from short-period Rayleigh-wave observations||#TCT:221:1:1993:95-105|Shallow structure+Rayleigh wave+Iberia+Short-period wave
J|0955|Payo,G.+De Ancos,E.+Badal,J.|Short period surface waves in the Iberian region. Part I. Group-velocity contours||#TCT:221:1:1993:107-110|Iberia+Surface wave+Short-period wave+Group velocity|Extended abstract
J|0956|Paulssen,H.+Visser,J.|The crustal structure in Iberia inferred from P-wave coda||#TCT:221:1:1993:111-123|Crustal structure+Iberia+Coda+P-wave
J|0957|Pena,J.A.+Vidal,F.+Posadas,A.M.+|Space clustering properties of the Betic-Alboran earthquakes in the period 1962-1989||#TCT:221:1:1993:125-134|Clustering+1962-1989+Spain+Earthquake
J|0958|Rousset,D.+Bayer,R.+Guillon,D.+|Structure of the southern Rhine Graben from gravity and reflection seismic data (ECORS-DEKORP program)||#TCT:221:2:1993:135-153|Rhine-Graben+Reflexion study+Bouguer anomaly+Structure
J|0959|Malod,J.A.+Murillas,J.+Kornprobst,J.+|Oceanic lithosphere at the edge of a Cenozoic active continental margin (northwestern slope of Galicia Bank, Spain)||#TCT:221:2:1993:195-206|Reflexion study+Oceanic lithosphere+Galicia+Continental margin
J|0960|Yamazaki,T.+Murakami,F.+Saito,E.|Mode of seafloor spreading in the northern Mariana Trough||#TCT:221:2:1993:207-222|Sea-floor spreading+Marianas+Reflexion study+Marine geophysical investigation
J|0961|Delouis,B.+Haessler,H.+Cisternas,A.+|Stress tensor determination in France and neighbouring regions||#TCT:221:3-4:1993:413-437|France+Stress+Focal mechanism+1965-1989
J|0962|Rouby,D.+Cobbold,P.R.+Szatmari,P.+|Least-squares palinspastic restoration of regions of normal faulting - application to the Campos basin (Brazil)||#TCT:221:3-4:1993:439-452|Campos basin+Least squares+Normal fault+Block
J|0963|Li,S-C.+Salisbury,M.H.|Shear-wave velocities, anisotropy and splitting in high-grade mylonites||#TCT:221:3-4:1993:453-473|Shear wave splitting+Velocity+Anisotropy+Mylonite
J|0964|Assumpcao,M.+Araujo,M.|Effect of the Altiplano-Puna plateau, South America, on the regional intraplate stresses||#TCT:221:3-4:1993:475-496|South America+Intraplate stress+Focal mechanism+Earthquake||#*CATAMARCA89|#*CATAMARCA83|#*LARIOJA79|#*MENDOZA77
J|0965|Basile,C.+Mascle,J.+Popoff,M.+|The Ivory Coast-Ghana transform margin: a marginal ridge structure deduced from seismic data||#TCT:222:1:1993:1-19|Ivory Coast+Transform margin+Oceanic ridge+Seismic survey
J|0966|Mjelde,R.+Sellevoll,M.A.|Seismic anisotropy inferred from wide-angle reflections off Lofoten, Norway, indicative of shear-aligned minerals in the upper mantle||#TCT:222:1:1993:21-32|Anisotropy+Norway+Upper mantle+Marine seismic investigation
J|0967|Dumont,J.F.|Lake patterns as related to neotectonics in subsiding basins: the example of the Ucamara Depression, Peru||#TCT:222:1:1993:69-78|Lake+Neotectonics+Peru+Focal mechanism
J|0968|Suleiman,A.S.+Doser,D.I.+Yarwood,D.R.|Source parameters of earthquakes along the coastal margin of West Africa and comparisons with earthquakes in other coastal margin settings||#TCT:222:1:1993:79-91|Source parameter+Continental margin+West Africa+Earthquake+ISC||#*GUINEA|#*ZAIRE81
J|0969|Rikitake,T.+Oshiman,N.+Hayashi,M.|Macro-anomaly and its application to earthquake prediction||#TCT:222:1:1993:93-106|Precursor+Anomaly+Prediction+Large earthquake||#*MIYAGIKEN|#*IZUOSHIMA
J|0970|Ji,S.+Salisbury,M.H.+Hanmer,S.|Petrofabric, P-wave anisotropy and seismic reflectivity of high-grade tectonites||#TCT:222:2:1993:195-226|P-wave+Reflectivity+Anisotropy+Rock
J|0971|Zanchi,A.+Angelier,J.|Seismotectonics of western Anatolia: regional stress orientation from geophysical and geological data||#TCT:222:2:1993:259-274|Seismotectonics+Anatolia+Stress+Shallow earthquake
A|0972|Ohno,S.+Ohta,T.+Ikeura,T.+|Revision of attenuation formula considering the effect of fault size to evaluate strong motion spectra in near field||1993:Tokyo:Kajima Technical Research Institute Kajima Corporation|Strong motion+California+1940-1989+Major earthquake|48p. KaTRI Report No. 94. Appendix|#*LOMAPRIETA89|#*COALINGA|#*IMPERIAL|#*SANFERNANDO|#*MORGAN
J|0973|Khater,M.|Reconnaissance report on the Cairo, Egypt earthquake of October 12, 1992||#NCE:7:1:1993:1-6|Earthquake+1992+Cairo+Field work||#*CAIRO92
J|0974|Isenberg,J.|Pipeline data obtained from recent A-level alert at Parkfield, California||#NCE:7:1:1993:7-8|Parkfield+Pipeline+Monitoring||#*PARKFIELD92
J|0975|Jacob,K.|Seismic vulnerability of New York State: code implications for buildings, bridges and municipal landfill facilities||#NCE:7:2:1993:4-5|Vulnerability+New York State+Building code+Earthquake engineering
J|0976|Gergely,P.|Incorporation of seismic considerations in the New York State building code||#NCE:7:2:1993:5|New York State+Building code+Earthquake-resistant design
J|0977|Tsai,C.S.+Lee,G.C.|A new design of viscoelastic energy dissipators||#NCE:7:2:1993:6-9|Viscoelastic damping+Building+Earthquake-resistant design
J|0978|Levchenko,O.V.+Milanovsky,V.E.+Popov,A.A.|A sediment thickness map and tectonics of the distal Bengal Fan|In Russian with English abstract|#OKN:33:2:1993:269-275|Bengal Fan+Sediment+Tectonics+Reflexion study
J|0979|Sokolov,S.Yu.|Some perspectives of increasing of penetration and resolution in deep seismic sounding of the ocean|In Russian with English abstract|#OKN:33:2:1993:294-298|Deep seismic sounding+Ocean+Resolution+Airgun
J|0980|Zhdanov,M.A.+Levchenko,D.G.+Solov'ev,S.L.|On the measurement of ocean bottom seismic noise in the frequency range of 0.01-10Hz (north Aegean trough)|In Russian with English abstract|#OKN:33:2:1993:299-303|Seismic noise+Ocean-bottom seismometer+Low frequency+AEgean
J|0981|Amick,D.C.|Temporal characteristics of several large earthquake sources in the central and southeastern United States||Okla. Geol. Notes:53:1:1993:37-38|Large earthquake+United States+Temporal variation+Prehistoric earthquake|Abstract only
J|0982|Lawson,J.E.+Luza,K.V.|Oklahoma earthquakes, 1992||Okla. Geol. Notes:53:2:1993:51-62|Oklahoma+Earthquake catalogue+1992
J|0983|Sipkin,S.A.+Needham,R.E.|Moment-tensor solutions estimated using optimal filter theory: global seismicity, 1991||#PEP:75:4:1993:199-204|Moment tensor+Global seismicity+1991|Letter section
J|0984|Kuge,K.+Kawakatsu,H.|Significance of non-double couple components of deep and intermediate-depth earthquakes: implications from moment tensor inversion of long-period seismic waves||#PEP:75:4:1993:243-266|Long-period wave+Deep earthquake+Intermediate-depth earthquake+Non-double couple
J|0985|Zhou,Y.+McNally,K.C.+Lay,T.|Analysis of the 1986 Mt. Lewis, California, earthquake: preshock sequence-mainshock-aftershock sequence||#PEP:75:4:1993:267-288|California+1986+Earthquake+Sequence||#*MTLEWIS86
J|0986|Ye,Z-R.+Teng,C-K.+Bai,W-M.|A mantle convection model to fit in with the surface observations||#PEP:76:1-2:1993:35-41|Mantle convection+Anomaly+Numerical method+Geoid
J|0987|Velasco,A.A.+Lay,T.+Zhang,J.|Long-period surface wave inversion for source parameters of the 18 October 1989 Loma Prieta earthquake||#PEP:76:1-2:1993:43-66|Loma Prieta+1989+Earthquake+Source parameter||#*LOMAPRIETA89
J|0988|Mochizuki,E.|Spherical harmonic analysis in terms of line integral||#PEP:76:1-2:1993:97-101|Spherical harmonics+Lateral heterogeneity+Sensitivity+Phase velocity
J|0989|Mohan,G.+Rai,S.S.+Panza,G.F.|Errata to `Seismic heterogeneities in the Indian lithosphere'||#PEP:76:1-2:1993:103|Errata+Heterogeneity+India+Lithosphere+Rayleigh wave
J|0990|Castro,R.R.+Munguia,L.|Attenuation of P and S waves in the Oaxaca, Mexico, subduction zone||#PEP:76:3-4:1993:179-187|Attenuation+Oaxaca+Subduction zone+P-wave+S-wave
J|0991|Zharikov,A.V.+Pek,A.A.+Lebedev,E.B.+|The effects of water fluid at temperatures up to 850degreesC and pressure of 300 MPa on porosity and permeability of amphibolite||#PEP:76:3-4:1993:219-227|Velocity+Pore fluid+Rock
J|0992|Galea,P.|Upper mantle anisotropy in the S.W. Pacific from earthquake travel-time analysis||#PEP:76:3-4:1993:229-239|Travel-times+Upper mantle+Anisotropy+Southwest Pacific
J|0993|Polimenakos,L.C.|Search for a seasonal trend in earthquake occurrence in the Hellenic Arc||#PEP:76:3-4:1993:253-258|Hellenic arc+Seasonal variation+Intermediate-depth earthquake+Occurrence
J|0994|Bina,C.R.+Kumazawa,M.|Thermodynamic coupling of phase and chemical boundaries in planetary interiors||#PEP:76:3-4:1993:329-341|Planet+Phase transition+Boundary+Thermodynamics
J|0995|Gershenzon,N.I.+Gokhberg,M.B.+Yunga,S.L.|On the electromagnetic field of an earthquake focus||#PEP:77:1-2:1993:13-19|Electromagnetic field+Focus+Dipole source+Earthquake
J|0996|Yoshino,T.+Tomizawa,I.+Sugimoto,T.|Results of statistical analysis of low-frequency seismogenic EM emissions as precursors to earthquakes and volcanic eruptions||#PEP:77:1-2:1993:21-31|Precursor+Electromagnetic emission+Eruption+Equipment
J|0997|Takahashi,K.+Fujinawa,Y.|Locating source regions of precursory seismo-electric fields and the mechanism generating electric field variations||#PEP:77:1-2:1993:33-38|Source+Precursor+Electric field+Location
J|0998|Gregori,G.P.|Geoelectromagnetism and geodynamics: `corona discharge' from volcanic and geothermal areas||#PEP:77:1-2:1993:39-63|Electromagnetism+Geodynamics+Core-mantle boundary+Solid-earth geophysics
J|0999|Parrot,M.+Achache,J.+Berthelier,J.J.+|High-frequency seismo-electromagnetic effects||#PEP:77:1-2:1993:65-83|High frequency+Ionosphere+Electromagnetic emission+Acoustic wave
J|1000|Kopytenko,Yu.A.+Matiashvili,T.G.+Voronov,P.M.+|Detection of ultra-low-frequency emissions connected with the Spitak earthquake and its aftershock activity, based on geomagnetic pulsations data at Dusheti and Vardzia observatories||#PEP:77:1-2:1993:85-95|Spitak+Electromagnetic emission+Precursor+Caucasus||#*ARMENIA88|#*HONSHU80
J|1001|Hayakawa,M.+Yoshino,T.+Morgounov,V.A.|On the possible influence of seismic activity on the propagation of magnetospheric whistlers at low latitudes||#PEP:77:1-2:1993:97-108|Magnetosphere+Activity
J|1002|Dea,J.Y.+Hansen,P.M.+Boerner,W-M.|Long-term ELF background noise measurements, the existence of window regions, and applications to earthquake precursor emission studies||#PEP:77:1-2:1993:109-125|Noise+Electromagnetic emission+Precursor+Ionosphere||#*WATSONVILLE91|#*UPLAND90
J|1003|Hayakawa,M.+Tomizawa,I.+Ohta,K.+|Direction finding of precursory emissions associated with earthquakes: a proposal||#PEP:77:1-2:1993:127-135|Precursor+Radio emission+Ionosphere+Direction
J|1004|Dziewonski,A.M.+Ekstrom,G.+Salganik,M.P.|Centroid-moment tensor solutions for January-March 1992||#PEP:77:3-4:1993:143-150|1992+Centroid-moment tensor|Letter section
J|1005|Dziewonski,A.M.+Ekstrom,G.+Salganik,M.P.|Centroid-moment tensor solutions for April-June 1992||#PEP:77:3-4:1993:151-163|1992+Centroid-moment tensor|Letter section
J|1006|Wang,S-Z.|Net-like earthquake distribution and plastic-flow network in central and eastern Asia||#PEP:77:3-4:1993:177-188|Asia+Shallow earthquake+Intraplate deformation+Plasticity
J|1007|Roudil,P.+Souriau,A.|Liquid core structure and PKP station anomalies derived from PKP(BC) propagation times||#PEP:77:3-4:1993:225-236|PKP-wave+Core+Station correction+Residual+ISC
J|1008|Hrouda,F.+Pros,Z.+Wohlgemuth,J.|Development of magnetic and elastic anisotropies in slates during progressive deformation||#PEP:77:3-4:1993:251-265|Velocity+Anisotropy+Slate+Deformation
J|1009|Ramesh,D.S.+Srinagesh,D.+Rai,S.S.+|High-velocity anomaly under the Deccan volcanic province||#PEP:77:3-4:1993:285-296|High velocity+Deccan+Anomaly+Travel-times
J|1010|Wei,B-Z.+Chung,W-Y.|Regional waveform constraints on the source parameters of the Xunwu, China, earthquake of 2 August 1987, with implications for mid-plate seismotectonics||#PEP:78:1-2:1993:57-68|Earthquake+1987+Source parameter+China+ISC||#*XUNWU87A|#*YELLOWSEA|#*LIYANG
J|1011|Zhao,L-S.+Helmberger,D.V.|Source retrieval from broadband regional seismograms: Hindu Kush region||#PEP:78:1-2:1993:69-95|Seismogram+Hindu Kush+Source+Velocity structure+ISC||#*AFGHAN89|#*AFGHAN90|#*KASHMIR90
J|1012|Doser,D.I.+Rodriguez,J.|The seismicity of Chihuahua, Mexico, and the 1928 Parral earthquake||#PEP:78:1-2:1993:97-104|Seismicity+Mexico+1928+Earthquake
J|1013|Del Pezzo,E.+De Martino,S.+Parrinello,M.T.+|Seismic site amplification factors in Campi Flegrei, southern Italy||#PEP:78:1-2:1993:105-117|Campi Flegrei+Site effect+Amplification+Spectral ratio
J|1014|Tarantola,A.|Review of `Deconvolution and inverse theory: application to geophysical problems' by V. Dimri||#PEP:78:1-2:1993:154|Review+Deconvolution+Inversion+Applied geophysics|Elsevier, Amsterdam, 1992, 230p
J|1015|Forte,A.M.|Mantle arithmetic||Physics Wld:6:4:1993:34-35|Mantle+Eurasia+Gravity+Velocity
J|1016|Miyamura,J.|Hypocenters of explosive earthquakes observed at Tokachi-dake volcano associated with the 1988-1989 eruptions|In Japanese with English abstract|#QJS:56:1-4:1993:1-7|Hypocentre+1988-1989+Eruption+Japan
J|1017|a-Earthquake and Tsunami Observation Division|Errata to `Tsunamis observed in Japan from 1986 through 1990'|In Japanese|#QJS:56:1-4:1993:35|Errata+Tsunami+Japan+1986-1990
J|1018|Normark,W.R.+Posamentier,H.+Mutti,E.|Turbidite systems: state of the art and future directions||#RGS:31:2:1993:91-116|Turbidite+Reflexion study+Sea floor
J|1019|Park,S.K.+Johnston,M.J.S.+Madden,T.R.+|Electromagnetic precursors to earthquakes in the ULF band: a review of observations and mechanisms||#RGS:31:2:1993:117-132|Electromagnetic emission+Precursor+Review+Mechanism||#*TANGSHAN|#*LOMAPRIETA89
J|1020|Vyskocil,V.+Burda,M.+Bielik,M.+|Further density models of the western Carpathians|With Russian abstract|#CGS:22:-:1992:81-91|Density+Carpathians+Deep structure+Profile
J|1021|Tanaka,S.+Hamaguchi,H.|Travel times and velocities in the outer core based on the global observations of SmKS seismic phases||#TGJ:34:2:1993:55-87|Travel-times+Outer core+SmKS-wave+Velocity
J|1022|Mauro,A.|Seismic vulnerability reduction. Common goals and targets: multiple issues to consider||STOP Disasters:-:12:1993:2-3|IDNDR+Vulnerability|Editorial
J|1023|Touliatis,P.|The traditional aseismic techniques and the everlasting principles they reveal||STOP Disasters:-:12:1993:4-5|Aseismic design+Wooden house+Greece
J|1024|Pomonis,A.+Coburn,A.+Spence,R.|Seismic vulnerability, mitigation of human casualties and guidelines for low-cost earthquake resistant housing||STOP Disasters:-:12:1993:6-7|Casualties+Mitigation+Earthquake-resistant design+Vulnerability
J|1025|Noji,E.K.|The role of epidemiology in seismic vulnerability reduction. An interdisciplinary approach||STOP Disasters:-:12:1993:10-11|Preparedness+Vulnerability+Casualties+Mitigation
J|1026|Bussi,B.|Veterinary action in case of earthquakes||STOP Disasters:-:12:1993:12-13|Health+Mitigation
J|1027|Ferrigni,F.+Helly,B.+Rideaud,A.+|ATLAS of local seismic cultures||STOP Disasters:-:12:1993:1-8|Aseismic design+Historic building+Map+Mitigation|Inside supplement
J|1028|Costa,G.|Reduction of seismic vulnerability||STOP Disasters:-:12:1993:14|Mitigation+Vulnerability
J|1029|Castellano,M.+Milano,G.|Italy-Egypt scientific co-operation. The Egyptian earthquake, 12 October 1992||STOP Disasters:-:12:1993:15|Egypt+1992+Earthquake+Damage||#*CAIRO92
J|1030|Smith,E.|Seismic hazard and risk mitigation in New Zealand||STOP Disasters:-:12:1993:16-17|Hazard+Risk+Mitigation+New Zealand
J|1031|Ergunay,O.|Seismic risk reduction and disaster management strategies in eastern Turkey||STOP Disasters:-:12:1993:18|Risk+Turkey+Vulnerability+Hazard
J|1032|Bernard,E.N.|Tsunamis||STOP Disasters:-:12:1993:19-20|Tsunami+Hazard+Mitigation+Warning
J|1033|Lognonne,P.+Mosser,B.|Planetary seismology||Survs Geophys.:14:3:1993:239-302|Seismology+Planet+Moonquake+Velocity
J|1034|Wang,S-Z.|Study on seismogenic probabilities of potential hypocenter regions in the central Qinghai-Tibet plateau using a tectonophysical method|In Chinese and English|#SMG:15:1:1993:1-20|Probability+Tectonophysics+Qinghai+Tibet
J|1035|Zhang,C.+Chen,L-W.+Zhao,G-G.|Boundary element modelling of formation mechanism of some characteristic geomorphology of the Xianshuihe fault zone|In Chinese with English abstract|#SMG:15:1:1993:21-27|Geomorphology+Boundary element method+Fault zone+Xianshuihe
J|1036|Jiang,X-Q.+Wang,G-X.+Li,D-C.|Application of pattern recognition to determination of potential seismic sources in Liaoning Province and its adjacent areas|In Chinese with English abstract|#SMG:15:1:1993:51-56|Pattern recognition+Liaoning+Seismic potential
J|1037|Li,J-L.+Chao,H-T.|The southern Yellow Sea Ms 5.3 earthquake of Jan.23, 1992|In Chinese with English abstract|#SMG:15:1:1993:57-60|Earthquake+1992+Yellow Sea+Focal mechanism||#*YELLOWSEA92
J|1038|Yin,G-X.+Tang,Y.|Petrology evidence for seismic event in geologic history - with an example of seismite in the sediment of Late Jurassic lakes in the Emei Mountains, Sichuan Province|In Chinese with English abstract|#SMG:15:1:1993:61-65|Petrology+Seismite+Sichuan+Historical seismicity
J|1039|Hu,S-B.+Wang,J-Y.|Relationship between maximum focal depth of earthquake and surface heat flow in Fujian and Taiwan regions|In Chinese|#SMG:15:1:1993:66-68|Depth+Heat flow+Fujian+Taiwan|Scientific note
J|1040|Zhang,P-R.+Wang,J-H.+Sun,F-M.|Hydrogen - a sensitive element to predictable earthquake|In Chinese with English abstract|#SMG:15:1:1993:69-77|Hydrogen+Prediction+Precursor+Groundwater||#*NINGHE2|#*NINGHE|#*NECHINA89|#*DATONG91
J|1041|Cheng,J-Y.+Yang,Z.|Regression analysis of mortality and the ratio of collapsing houses by Tangshan earthquake|In Chinese with English abstract|#SMG:15:1:1993:82-87|Building+T'ang-shan+Casualties||#*TANGSHAN
J|1042|Ren,J-W.+Li,P.|The characteristics of surface faulting of 1850 earthquake in Xichang, Sichuan|In Chinese with English abstract|#SMG:15:2:1993:97-106|Historical earthquake+1850+Sichuan+Faulting
J|1043|Zheng,J-D.|Karakorum fault and Taxkorgan seismic deformation zone|In Chinese and English|#SMG:15:2:1993:107-116|Karakorum+Seismic zone+Deformation+Fault
J|1044|Xia,H-K.+Lei,Q-Q.+Xu,D-M.+|The characteristics and activity of the Chaeryong River fault zone in Korea and its relation to earthquake|In Chinese with English abstract|#SMG:15:2:1993:117-122|Fault zone+Korea+Activity
J|1045|Zhang,J-G.+Wang,L-M.+Xu,Y-J.+|Analysis of property of the medium under the deep seismic source environment along Red River fault|In Chinese with English abstract|#SMG:15:2:1993:131-137|Source parameter+Spectral analysis+Rock mechanics+Fault+Yunnan
J|1046|Zhang,Y-N.+Li,B.|Preliminary study of wave velocity (Vp) in the rocks in the deep crust in the northern Hebei Province|In Chinese|#SMG:15:2:1993:138|Wave velocity+Deep crust+Hebei|Scientific note
J|1047|An,O.+Gau,G-B.|Measurement of paleotectonic residual stress field in Xianshuihe fault zone and its control on large earthquakes|In Chinese with English abstract|#SMG:15:2:1993:139-147|Fault zone+Large earthquake+Xianshuihe+Stress
J|1048|Gu,Z-J.|The characteristics of dehydrated amphibolite and the heterogeneity of the low velocity layer|In Chinese|#SMG:15:2:1993:164-166|Heterogeneity+Low-velocity layer+Rock mechanics|Scientific note
J|1049|Shao,X-Z.+Gu,Z-H.+Zhang,J-R.|Investigation of crust structure in Fuzhou area by means of converted waves of earthquakes|In Chinese with English abstract|#SMG:15:2:1993:174-180|Crustal structure+Fuzhou+Converted wave
J|1050|Hu,H-X.|Explosion investigation of the shallow faults and the velocity distribution along the top boundary of the basement in Yunnan Province|In Chinese with English abstract|#SMG:15:2:1993:181-185|Deep seismic sounding+Basement+Pg-wave+Yunnan+Velocity structure
J|1051|Yao,D-Q.|Determination of sand soil liquefaction under complex site condition|In Chinese with English abstract|#SMG:15:2:1993:186-192|Liquefaction+Site
J|1052|Urban,L.+Cichowicz,A.+Vaccari,F.|Computation of analytical partial derivatives of phase and group velocities for Rayleigh waves with respect to structural parameters||#SGE:37:1:1993:14-36|Rayleigh wave+Group velocity+Phase velocity+Mathematical analysis
J|1053|Hanus,V.+Vanek,J.|Seismically active fracture zones related to the western segment of the Hellenic subduction||#SGE:37:1:1993:37-64|Fracture zone+Historical earthquake+AEgean+Subduction zone+ISC
J|1054|Jansky,J.+Kvasnicka,M.|Interference amplitude curves of short period PKP waves||#SGE:37:2:1993:151-158|PKP-wave+Interference+Short-period wave+Amplitude
J|1055|Tobyas,V.|Relations for local magnitude at seismic station Berggiesshubel||#SGE:37:2:1993:159-167|Local magnitude+Sg-wave+Central Europe+Blast
J|1056|Huang,H-C.+Chiu,H-C.|Site resonance observed at Yan-Liau station in Hualien, Taiwan||#TAO:4:1:1993:1-16|Resonance+Hualien+Polarization+Site effect
J|1057|Shin,T-C.|The calculation of local magnitude from the simulated Wood-Anderson seismograms of the short-period seismograms in the Taiwan area||#TAO:4:2:1993:155-170|Local magnitude+Taiwan+Seismogram+Wood-Anderson seismograph
J|1058|Chung,Y-C.+Craig,H.|Lead-210 in Southern California groundwaters||#TAO:4:2:1993:237-242|Groundwater+Southern California+Radon
J|1059|Holt,W.E.+Haines,A.J.|Velocity fields in deforming Asia from the inversion of earthquake-related strains||Tectonics:12:1:1993:1-20|Strain+Asia+Plate motion+Focal mechanism
J|1060|Bol,A.J.+Roeske,S.M.|Strike-slip faulting and block rotation along the contact fault system, eastern Prince William Sound, Alaska||Tectonics:12:1:1993:49-62|Refraction study+Strike-slip+Faulting+Prince William Sound
J|1061|Smalley,R.+Pujol,J.+Regnier,M.+|Basement seismicity beneath the Andean Precordillera thin-skinned thrust belt and implications for crustal and lithospheric behavior||Tectonics:12:1:1993:63-76|Basement+Seismicity+Thrust belt+Andes
J|1062|Byrne,D.E.+Wang,W-H.+Davis,D.M.|Mechanical role of backstops in the growth of forearcs||Tectonics:12:1:1993:123-144|Subduction zone+Forearc basin+Numerical modelling+Laboratory
J|1063|Yarnold,J.C.+Johnson,R.A.+Sorenson,L.S.|Identification of multiple generations of crosscutting "domino-style" faults: insights from seismic modeling||Tectonics:12:1:1993:159-168|Reflexion study+Faulting+Upper crust+Synthetic seismogram
J|1064|Ringenbach,J.C.+Pinet,N.+Stephan,J.F.+|Structural variety and tectonic evolution of strike-slip basins related to the Philippine fault system, northern Luzon, Philippines||Tectonics:12:1:1993:187-203|Strike-slip+Luzon+Tectonics+Geology
J|1065|Szymanski,D.L.+Christensen,N.I.|The origin of reflections beneath the Blue Ridge-Piedmont allochthon: a view through the Grandfather Mountain window||Tectonics:12:1:1993:265-278|Reflexion study+Velocity+Appalachians+Physical properties
J|1066|Varsek,J.L.+Cook,F.A.+Clowes,R.M.+|Lithoprobe crustal reflection structure of the southern Canadian Cordillera 2: Coast Mountains transect||Tectonics:12:2:1993:334-360|Reflexion study+Crust+Canadian Cordillera+Transect
J|1067|Bartok,P.E.|Prebreakup geology of the Gulf of Mexico-Caribbean: its relation to Triassic and Jurassic rift systems of the region||Tectonics:12:2:1993:441-459|Reflexion study+Geology+Mexico, G. of+Caribbean
J|1068|Reston,T.J.|Evidence for extensional shear zones in the mantle, offshore Britain, and their implications for the extension of the continental lithosphere||Tectonics:12:2:1993:492-506|Britain+Mantle+Shear zone+Deep seismic sounding
J|1069|Rey,P.|Seismic and tectonometamorphic characters of the lower continental crust in Phanerozoic areas: a consequence of post-thickening extension||Tectonics:12:2:1993:580-590|Continental crust+Lower crust+Reflector+Phanerozoic
J|1070|Bassi,G.+Keen,C.E.+Potter,P.|Contrasting styles of rifting: models and examples from the eastern Canadian margin||Tectonics:12:3:1993:639-655|Rifting+Canada+Reflectivity+Thinning
J|1071|Lin,C.H.+Roecker,S.W.|Deep earthquakes beneath central Taiwan: mantle shearing in an arc-continent collision||Tectonics:12:3:1993:745-755|Deep earthquake+Taiwan+Mantle+Focal mechanism
J|1072|Harjono,H.+Sebrier,M.+Diament,M.|Correction and addition to `Seismicity of the Sunda Strait: evidence for crustal extension and volcanologic implications'||Tectonics:12:3:1993:787-790|Errata+Sunda Strait+Seismicity+Extension
J|1073|Brooks,M.+Hillier,B.V.+Miliorizos,M.|New seismic evidence for a major geological boundary at shallow depth, N Devon||#JGL:150:1:1993:131-135|Marine seismic investigation+Bristol Channel+Boundary+High-velocity layer
J|1074|Chadwick,R.A.+Evans,D.J.+Holliday,D.W.|The Maryport fault: the post-Caledonian tectonic history of southern Britain in microcosm||#JGL:150:2:1993:247-250|Reflexion study+Britain+Tectonics+Evolution
J|1075|Chadwick,R.A.|Aspects of basin inversion in southern Britain||#JGL:150:2:1993:311-322|Britain+Basin+Reflexion study+Seismogeology
J|1076|Williams,G.D.+Eaton,G.P.|Stratigraphic and structural analysis of the Late Palaeozoic-Mesozoic of NE Wales and Liverpool Bay: implications for hydrocarbon prospectivity||#JGL:150:3:1993:489-499|Hydrocarbon+England+Reflexion study+Offshore
J|1077|Underhill,J.R.+Brodie,J.A.|Structural geology of Easter Ross, Scotland: implications for movement on the Great Glen fault zone||#JGL:150:3:1993:515-527|Reflexion study+Scotland+Fault zone+Seismogeology
J|1078|Van Andel,T.H.+Perissoratis,C.+Rondoyanni,T.|Quaternary tectonics of the Argolikos Gulf and adjacent basins, Greece||#JGL:150:3:1993:529-539|Marine seismic investigation+Greece+Basin+Neotectonics
J|1079|Casula,G.+Carcione,J.M.|Generalized mechanical model analogies of linear viscoelastic behaviour||#BGT:34:136:1992:235-256|Model+Viscoelastic solid+Creep+Propagation
J|1080|Zaman,F.D.+Asghar,S.+Ahmad,M.|Spectral representation of a Love-type operator||#BGT:34:136:1992:257-271|Operator+SH-wave+Layer+Spectral characteristics
J|1081|De Cillia,C.+Fais,S.+Porcu,A.+|Geostructural features of the middle Tirso Valley from seismic reflection data||#BGT:34:136:1992:273-286|Sardinia+Seismogeology+Reflexion data
J|1082||The Big One moves a step closer||Nat. Haz. Observer:17:3:1993:5|Probability+Southern California+Hazard+Fault
J|1083|Kunreuther,H.|Combining insurance with hazard mitigation to reduce disaster losses||Nat. Haz. Observer:17:4:1993:1-3|Insurance+Mitigation+Disaster+Hazard
J|1084|Ouahiba,B.|Restoration technology for earthquake damaged buildings in Algeria||#IIS:27:-:1993:1-12|Building+Algeria+Damage
J|1085|Vougioukas,E.A.|Restoration technology for earthquake damaged buildings in Greece||#IIS:27:-:1993:25-40|Greece+Building+Damage
J|1086|Euscatigue Asencios,M.+Torres Cabrejos,R.+Cuadra Linan,C.+|Advances in seismic research of adobe houses||#IIS:27:-:1993:41-52|Clay+Masonry structure+Pseudodynamic test+Building
J|1087|Qian,J-D.|Seismic risk assessment in China||#IIS:27:-:1993:53-72|Seismic risk+China+Strong motion+Zonation
J|1088|Gutierrez,C.I.|Seismic risk assessment in Colombia||#IIS:27:-:1993:73-84|Seismic risk+Colombia+Seismicity+Network
J|1089|Hussein,A.I.|Seismic risk assessment in Egypt||#IIS:27:-:1993:85-95|Seismic risk+Egypt+Network+Intensity||#*CAIRO92|#*ASWAN
J|1090|Hamid,A.|Seismic risk assessment in Indonesia||#IIS:27:-:1993:97-119|Seismic risk+Indonesia+Historical seismicity+Map
J|1091|Naderzadeh,A.|Seismotectonic, earthquake fault-hazard and seismic risk assessment of new towns and urban areas in Iran (case study of Hashtgerd)||#IIS:27:-:1993:121-135|Iran+Seismic risk+Ground motion+Seismotectonics
J|1092|Khan,S.H.|Seismic risk assessment and mitigation in Pakistan with especial reference to soil conditions and building types in Balochistan||#IIS:27:-:1993:137-154|Seismic risk+Mitigation+Pakistan+Building
J|1093|Mirabelles,V.A.|Seismic risk assessment in the Philippines||#IIS:27:-:1993:155-169|Seismic risk+Philippines+Seismicity+Natural disaster||#*LUZON90A|#*PINATUBO91A|#*PINATUBO91B|#*MINDANAO92A|#*MINDANAO92B
J|1094|Yilmaz,R.|The global tectonics and the strong motion network of Turkiye||#IIS:27:-:1993:171-185|Turkey+Global tectonics+Strong motion+Network||#*ERZINCAN92|#*DOGANSEHIR2|#*DOGANSEHIR1|#*ERZURUM
J|1095|Ouahiba,B.|Technology transfer on earthquake disaster reduction between Japan and Algeria||#IIS:27:-:1993:187-197|Algeria+Seismic risk+Mitigation+Disaster
J|1096|Moroni,M.O.|Technology transfer on earthquake disaster reduction between Japan and Chile||#IIS:27:-:1993:199-211|Tsunami+Chile+Bridge+Natural disaster||#*SANANTONIO|#*SANANTONIO85A|#*SANANTONIO85B
J|1097|Qian,J-D.|Technology transfer on earthquake disaster reduction between Japan and China||#IIS:27:-:1993:213-227|China+Aseismic design+Damaging earthquake+Casualties||#*XINJIANG
J|1098|Gutierrez,C.I.|Some research needs and the Japanese cooperation for seismic disaster reduction in Colombia||#IIS:27:-:1993:229-232|Colombia+Research+Preparedness
J|1099|Hussein,A.I.|Technology transfer on earthquake disaster reduction between Japan and Egypt||#IIS:27:-:1993:233-238|Egypt+Network+Historical earthquake
J|1100|Vougioukas,E.A.|Technology transfer on earthquake disaster reduction between Japan and Greece||#IIS:27:-:1993:239-245|Greece+Microzoning
J|1101|Hamid,A.|Technology transfer on earthquake disaster prediction between Japan and Indonesia||#IIS:27:-:1993:247-261|Indonesia+Shallow earthquake+Seismicity+Map
J|1102|Naderzadeh,A.|Technology transfer on earthquake disaster reduction between Japan and Iran||#IIS:27:-:1993:263-270|Iran+IDNDR+Preparedness
J|1103|Khan,S.H.|Technology transfer on earthquake disaster reduction between Japan and Pakistan||#IIS:27:-:1993:271-274|Pakistan+Preparedness
J|1104|Yilmaz,R.|Earthquake disaster prevention center||#IIS:27:-:1993:281-290|Turkey+Building+Vulnerability+Disaster
J|1105|Takizawa,H.|An overview of earthquake-resistant design standards in Latin-American countries||#IIS:27:-:1993:301-329|Latin America+Building code+Aseismic design
B|1106|e*Yanagi,T.+Okada,H.+Ohta,K.|Unzen Volcano the 1990-1992 eruption||Shimizu,H.+Umakoshi,K.+Matsuwo,N.+|Seismological observations of Unzen Volcano before and during the 1990-1992 eruption||1992:Fukuoka, Japan:The Nishinippon and Kyushu University Press|Eruption+Volcano+Seismicity+Japan+1990-1992|p38-43
B|1107|e*Yanagi,T.+Okada,H.+Ohta,K.|Unzen Volcano the 1990-1992 eruption||Suzuki,S.|Seismological comparison in eruptive activity between Mt. Unzen and Mt. Usu||1992:Fukuoka, Japan:The Nishinippon and Kyushu University Press|Japan+Volcano+Eruption+Seismicity|p49-55
J|1108|Lerner-Lam,A.L.+a-RMF Field Party|PASSCAL meets the Rocky Mountain front||IRIS Newsl.:12:1:1993:1-11|PASSCAL+Array+United States+Phase velocity
J|1109|Ekstrom,G.|Rapid earthquake analysis at Harvard||IRIS Newsl.:12:1:1993:4-6|Source parameter+Centroid-moment tensor+Automatic analysis+Hypocentre||#*SANDWICH93
J|1110|Nolet,G.|A Volksseismometer?||IRIS Newsl.:12:1:1993:10-11|Seismometer+Broadband seismology+Instrument
J|1111|Van Eck,T.+Ahorner,L.+Paulssen,H.|The earthquake of the century in northwestern Europe: the Roermond, The Netherlands, earthquake of April 13, 1992||#EQV:24:1:1993:15-26|Intraplate earthquake+1992+Netherlands+Isoseismal map||#*ROERMOND92
J|1112|Thenhaus,P.C.+Celebi,M.+Sharp,R.V.|The October 12, 1992, Dahshur, Egypt, earthquake||#EQV:24:1:1993:27-42|Damaging earthquake+Egypt+1992+Damage||#*CAIRO92
J|1113|Person,W.J.|Earthquakes November-December 1992||#EQV:24:1:1993:43-48|Earthquake+1992+Casualties
J|1114|Person,W.J.|Earthquakes January-February 1993||#EQV:24:1:1993:49-54|Earthquake+1993+Casualties
J|1115|McGimsey,G.|Volcanic activity in Alaska: September 1991-September 1992||#EQV:24:2:1993:60-73|Alaska+1991-1992+Seismicity+Volcanic tremor
J|1116|Machette,M.+Crone,A.|Geologic investigations of Australian earthquakes: paleoseismicity and the recurrence of surface faulting in the stable regions of continents||#EQV:24:2:1993:74-85|Australia+Palaeoseismicity+Recurrence+Surface deformation||#*MARRYAT|#*TENNANT188|#*TENNANT288|#*TENNANT388|#*LATUR93
J|1117|Wong,I.G.+Hemphill-Haley,M.+Salah-Mars,S.|The Scotts Mills, Oregon, earthquake on March 25, 1993||#EQV:24:2:1993:86-92|Oregon+1993+Earthquake+Damage||#*SCOTTSMILLS93|#*KLAMATH93B|#*KLAMATH93A
J|1118|Person,W.J.|Earthquakes March-April 1993||#EQV:24:2:1993:93-99|Earthquake+1993+Casualties
A|1119|a-Australian Geological Survey Organisation|Earthquakes in the Canberra region||1993:Canberra:AGSO|Canberra+Epicentre+Isoseismal map+Hazard|7p
J|1120||AGSO's marine geoscience & petroleum geology program promoting petroleum exploration of the North West Shelf||AUS.GEO News:-:15:1993:4-5|Exploration+Marine seismic investigation+Petroleum+Australia
J|1121|Exon,N.F.|Christmas Island research cruise defines offshore resource potential||AGSO Res. Newsl.:-:18:1993:12|Marine seismic investigation+Indian Ocean+Reflector+Offshore
J|1122|Willcox,B.+Colwell,J.|New model for evolution of the Gippsland Basin||AGSO Res. Newsl.:-:18:1993:13-14|Australia+Evolution+Basin+Marine seismic investigation
A|1123|e*Iyer,H.M.+Hirahara,K.|Seismic tomography theory and practice||1993:London:Chapman and Hall|Tomography+Seismology+Research|848p
A|1124|e*Hernandez Lucendo,M.C.|Planned Spanish-French ECORS-Pyrenees|Part French, part Spanish|1992:Madrid:Repsol Exploracion|ECORS+Pyrenees+Profile+Reflexion study|137p
A|1125|e*Grunthal,G.+Musson,R.M.W.+Schwarz,J.+|European Macroseismic Scale 1992 (Up-dated MSK-scale)||1993:Luxembourg:Centre Europeen de Geodynamique et de Seismologie|MSK-Scale+Europe+1992+Intensity|Vol.7, 79p
B|1126||Science Progress||Douglas,A.|Plate tectonics and seismological methods of test ban verification||1992:Oxford:76|Plate tectonics+Test ban+Verification+Magnitude|p67-79
A|1127|Gupta,H.K.|Reservoir-induced earthquakes||1992:Amsterdam:Elsevier|Induced seismicity+Reservoir+Dam+Global seismicity|364p
A|1128|Browitt,C.W.A.+Walker,A.B.|UK earthquake monitoring 1992/93||1993:Edinburgh:British Geological Survey|Monitoring+United Kingdom+1992-1993+Map|Technical Report WL/93/08|#*ROERMOND92
V|1993:2||Bibliography of seismology. 1993 July-December|ISC:29:2:1995
J|0001|Prescott,W.H.|Seeing earthquakes from afar||#NAT:364:6433:1993:100-101|Deformation+Radar+Interferometry+Remote sensing|News and views
J|0002|Nataf,H-C.+VanDecar,J.C.|Seismological detection of a mantle plume?||#NAT:364:6433:1993:115-120|Mantle plume+Hot spot+Canada+Travel-times+ISC
J|0003|Massonnet,D.+Rossi,M.+Carmona,C.+|The displacement field of the Landers earthquake mapped by radar interferometry||#NAT:364:6433:1993:138-142|Displacement+Radar+Interferometry+Southern California+Remote sensing||#*LANDERS92|#*BIGBEAR92
J|0004|Richards,P.G.|Testing the test-ban treaty||#NAT:364:6434:1993:188-189|Nuclear test ban+Verification+Underground nuclear explosion+Monitoring|News and views
J|0005|Langmuir,C.H.|Deep thoughts on the mantle||#NAT:364:6434:1993:191-192|Mantle+Petrology+Tomography+Temperature|News and views
J|0006|Humler,E.+Thirot,J.L.+Montagner,J-P.|Global correlations of mid-ocean-ridge basalt chemistry with seismic tomographic images||#NAT:364:6434:1993:225-228|Mid-ocean ridge+Basalt+Tomography+Temperature
J|0007|Swinbanks,D.|Earthquake exposes gaps in seismic network||#NAT:364:6435:1993:271|Network+Damaging earthquake+Tsunami+Japan Sea|News|#*SEAOFJAPAN|#*SEAOFJAPAN93
J|0008|Swinbanks,D.|No major changes in earthquake prediction||#NAT:364:6435:1993:271|Prediction+Tsunami+Japan Sea|News|#*SEAOFJAPAN93
J|0009|Tilling,R.I.+Lipman,P.W.|Lessons in reducing volcano risk||#NAT:364:6435:1993:277-280|Risk+Eruption+Personal computer+Seismic processing|Commentary
J|0010|Wright,C.|Structure near the mantle's base||#NAT:364:6435:1993:294|D"-layer+P-wave+Velocity structure+Path|Letter to the editor
J|0011|a-ODP Leg 147 Shipboard Scientific Party|Pacific lower crustal and shallow mantle sections recovered||#EOS:74:27:1993:297-307|Pacific Ocean+Ocean Drilling Programme+Oceanic crust+Mantle
J|0012|Henyey,T.+Stern,T.+Molnar,P.|Continent-continent collision in southern Alps studied||#EOS:74:28:1993:316-317|New Zealand+Continental convergence+Workshop+Plate boundary
J|0013|Cermak,V.|Geophysical research in Czech Republic||#EOS:74:30:1993:337-342|Czechoslovakia+Seismology+Geophysics+Research
J|0014|Swinbanks,D.|Japanese go it alone with earthquake prediction||#NAT:364:6436:1993:370|Prediction+Earthquake cycle+Ocean-bottom seismograph|News
J|0015|Mutter,J.C.|Margins declassified||#NAT:364:6436:1993:393-394|Passive margin+Reflector+Dipping layer+Hot spot|News and views
J|0016|Holbrook,W.S.+Keleman,P.B.|Large igneous province on the US Atlantic margin and implications for magmatism during continental breakup||#NAT:364:6436:1993:433-436|Velocity structure+Dipping layer+Continental margin+Atlantic
J|0017|Hadfield,P.|Surprise quake hit Japan's `blind spot'||#NSC:-:1883:1993:7|Tsunami+Japan+1993+Large earthquake|This week|#*SEAOFJAPAN93
J|0018|Ruff,L.J.|Learning from the whispers||#NAT:364:6438:1993:576-577|Triggering+California+Earthquake|News and views|#*LANDERS92|#*PETROLIA92A
J|0019|Gurnis,M.|Phanerozoic marine inundation of continents driven by dynamic topography above subducting slabs||#NAT:364:6438:1993:589-593|Dynamics+Topography+Subduction+Plate tectonics
J|0020|Stixrude,L.+Cohen,R.E.|Stability of orthorhombic MgSiO3 perovskite in the Earth's lower mantle||#NAT:364:6438:1993:613-616|Perovskite+Lower mantle+Stability+Discontinuity
J|0021|Phipps Morgan,J.+Chen,Y.J.|Dependence of ridge-axis morphology on magma supply and spreading rate||#NAT:364:6439:1993:706-708|Mid-ocean ridge+Magma+Spreading+Crustal thickness
J|0022|Klemperer,S.L.|Getting down. Review of `A continent revealed: the European geotraverse' edited by D. Blundell, R. Freeman and S. Mueller||#NAT:364:6440:1993:769|Review+European Geotraverse Project+Imaging+Crust|Cambridge University Press, 1992, 275p
J|0023|Lamontagne,M.+Graham,D.F.|Remote sensing looks at an intraplate earthquake surface rupture||#EOS:74:32:1993:353-357|Remote sensing+1989+Quebec+Surface deformation||#*UNGAVA89
J|0024|Yeh,H.+Imamura,F.+Synolakis,C.E.+|The Flores Island tsunamis||#EOS:74:33:1993:369-373|Tsunami+Indonesia+Earthquake+1992||#*FLORES92
J|0025|White,M.C.|Guam shaken by large quake||#EOS:74:33:1993:370|Marianas+Earthquake+1993+Damage||#*MARIANAS93
J|0026|Nakanishi,I.+Kodaira,S.+Kobayashi,R.+|The 1993 Japan Sea earthquake: quake and tsunamis devastate small town||#EOS:74:34:1993:377-379|Tsunami+Large earthquake+1993+Japan||#*SEAOFJAPAN93
J|0027|Tanioka,Y.+Ruff,L.J.+Satake,K.|The 1993 Japan Sea earthquake: unusual rupture process of the Japan Sea earthquake||#EOS:74:34:1993:377-380|Rupture+1993+Japan+Large earthquake||#*SEAOFJAPAN93
J|0028|Vidale,J.E.+Houston,H.|The depth dependence of earthquake duration and implications for rupture mechanisms||#NAT:365:6441:1993:45-47|Depth+Duration+Rupture+Mechanism
J|0029|Jeanloz,R.|The mantle in sharper focus||#NAT:365:6442:1993:110-111|Mantle+Reflexion+Discontinuity+Phase transition
J|0030|Benz,H.M.+Vidale,J.E.|Sharpness of upper-mantle discontinuities determined from high-frequency reflections||#NAT:365:6442:1993:147-150|Upper mantle+Reflexion+Discontinuity+P'P'-wave
J|0031|Hencher,S.|Damage limitation in the earthquake zone. Review of `Earthquake protection' by A. Coburn and R. Spence||#NSC:-:1890:1993:47-48|Review+Protection+Mitigation|Wiley, 355p
J|0032|Bowler,S.|Earthquakes and volcanoes||#NSC:-:1891:1993:1-4|Seismology+Volcanology+Prediction|Inside science No. 64
J|0033|Fox,B.|Quake alarm||#NSC:-:1892:1993:20|Japan+Radiation+Monitoring+Precursor|Patents
J|0034|Kennett,B.L.N.|Imaging Earth. Review of `Seismic tomography' edited by H. M. Iyer and K. Hirahara||#NAT:365:6444:1993:306|Review+Tomography+Least squares+Imaging|Chapman and Hall, 1993, 842p
J|0035|a-Hokkaido Tsunami Survey Group|Tsunami devastates Japanese coastal region||#EOS:74:37:1993:417-432|Tsunami+1993+Japan Sea+Earthquake||#*SEAOFJAPAN93
J|0036|Fuchs,K.|Uniform seismic data recording format explored||#EOS:74:37:1993:421|International Lithosphere Programme+IASPEI+Data acquisition+Recording
J|0037|Kradolfer,U.|Automating the exchange of earthquake information||#EOS:74:39:1993:442-445|Data management+Location+Strong earthquake+Digital recording
J|0038|Crampin,S.|Do you know of an isolated swarm of small earthquakes?||#EOS:74:40:1993:451-460|Swarm+Intraplate seismicity+Precursor|Section news
J|0039|a-ODP Leg 149 Shipboard Scientific Party|ODP drills the west Iberia rifted margin||#EOS:74:40:1993:454-455|Ocean Drilling Programme+Iberia+Continental margin+Rift
J|0040|Scholz,C.A.+Klitgord,K.D.+Hutchinson,D.R.+|Results of 1992 seismic reflection experiment in Lake Baikal||#EOS:74:41:1993:465-470|Reflexion study+Baikal+Seismic survey+Sedimentary cover
J|0041|Brown,W.|Chinese test site forced into public view||#NSC:-:1893:1993:5|Lop Nor Test Site+Underground nuclear explosion+Drilling+Satellite photography
J|0042|Bowler,S.|Did reservoir trigger Indian earthquake?||#NSC:-:1894:1993:5|Trigger+Intraplate earthquake+1993+India||#*LATUR93
J|0043||`Fake test'||#NSC:-:1894:1993:12|Chemical explosion+Nevada Test Site+Discrimination|In brief
J|0044|Jeanloz,R.|Mixed up over the mantle||#NSC:-:1895:1993:35-38|Mantle convection+Tomography+Layered medium+Composition
J|0045|Maddox,J.|India's latest earthquake||#NAT:365:6446:1993:476|India+Intraplate earthquake+1993+Destruction|Opinion|#*LATUR93
J|0046|Abbott,A.|Nations urged to unite on drilling costs||#NAT:365:6446:1993:482|San Andreas Fault+Drilling+Borehole+Germany|News
J|0047|Wysession,M.E.|Velocities in the mantle||#NAT:365:6446:1993:498|Mantle+P-wave+Velocity|Scientific correspondence
J|0048|Morgan,J.P.+Shearer,P.M.|Seismic constraints on mantle flow and topography of the 660-km discontinuity: evidence for whole-mantle convection||#NAT:365:6446:1993:506-511|660km discontinuity+Mantle+Tomography+Constraint
J|0049|Jayaraman,K.S.|India seeks to learn the lessons of the Maharashtra earthquake||#NAT:365:6447:1993:593|Intraplate earthquake+1993+India+Aseismic region|News|#*LATUR93
J|0050|Zoback,M.D.+Apel,R.+Baumgartner,J.+|Upper-crustal strength inferred from stress measurements to 6 km depth in the KTB borehole||#NAT:365:6447:1993:633-635|Germany+Borehole+Stress
J|0051|Smith,D.K.+Cann,J.R.|Building the crust at the Mid-Atlantic Ridge||#NAT:365:6448:1993:707-715|Mid-Atlantic Ridge+Oceanic crust+Submarine volcano+Bathymetry|Review article
J|0052|Linde,A.T.+Agustsson,K.+Sacks,I.S.+|Mechanism of the 1991 eruption of Hekla from continuous borehole strain monitoring||#NAT:365:6448:1993:737-740|Eruption+1991+Iceland+Strain
J|0053|Lipman,P.W.|Natural hazards. Review of `Earthquakes and volcanic eruptions: a handbook on risk assessment' by H. Tiedemann||#NAT:365:6449:1993:795|Review+Risk+Eruption+Earthquake|Swiss Reinsurance Company, Zurich, 1992, 951p
J|0054|Ballhaus,C.|A question of reduction||#NAT:366:6451:1993:112-113|Petrology+410km discontinuity+Upper mantle+Transition zone|News and views
J|0055|Cann,J.R.+Walker,C.|Breaking new ground on the ocean floor||#NSC:-:1897:1993:24-29|Mid-ocean ridge+Plate tectonics+Geomagnetism+Mechanism
J|0056|Adams,R.D.|Missing quakes||#NSC:-:1897:1993:50|Global seismicity|Letter to the editor
J|0057|Bowler,S.|Destruction on the grand scale. Review of `Earthshock: climate, complexity and the forces of nature' by A. Robinson||#NSC:-:1899:1993:48|Review+Catastrophe+Natural disaster|Thames and Hudson, 304p
J|0058|a-ODP Leg 148 Shipboard Scientific Party|ODP Leg 148 barely misses deepest layer||#EOS:74:43:1993:489-494|Ocean Drilling Programme+Refraction study+Oceanic crust+Eastern Pacific
J|0059|Simon,R.|A personal memoir of Inge Lehmann (1888-1993)||#EOS:74:44:1993:511-512|Lg-wave+Inner core+Memorial|Section news
J|0060|Segall,P.|Earth in motion. Review of `Fault mechanics and transport properties of rocks' edited by B. Evans and T-F. Wong||#NAT:366:6452:1993:222|Review+Rock mechanics+Faulting+Vertical seismic profiling|Academic, 1992, 524p
J|0061|Yeats,R.S.|Converging more slowly||#NAT:366:6453:1993:299-301|Tectonics+Convergence+Ventura Basin+Focal mechanism
J|0062|Donnellan,A.+Hager,B.H.+King,R.W.|Discrepancy between geological and geodetic deformation rates in the Ventura basin||#NAT:366:6453:1993:333-336|Deformation+Ventura Basin+Convergence+Focal mechanism
J|0063|Zucca,J.|DOE non-proliferation experiment includes seismic data||#EOS:74:45:1993:527|Underground explosion+Nevada Test Site+Test ban+IRIS
J|0064|Mockler,S.B.|Russian volcano erupts with little warning||#EOS:74:46:1993:537-539|Kamchatka+Eruption+1993+Volcanic tremor
J|0065||Underwater eruption providing rare opportunities||#EOS:74:46:1993:537-542|Submarine eruption+Juan de Fuca+Geophysical investigation+1993
J|0066|Malin,P.E.|Are future short-term warnings of volcanic eruptions possible?||#EOS:74:46:1993:540-541|Eruption+Volcanic tremor+Iceland+1991
J|0067|Wuethrich,B.|Waiting for Parkfield to quake||#EOS:74:47:1993:553-554|Parkfield+Warning+Prediction
J|0068|Taylor,S.R.+Kamm,J.R.|Numerical modeling for underground nuclear test monitoring||#EOS:74:47:1993:556-558|Monitoring+Numerical modelling+Underground nuclear explosion+Symposium
J|0069|Zhao,W-J.+Nelson,K.D.+a-Project INDEPTH Team|Deep seismic reflection evidence for continental underthrusting beneath southern Tibet||#NAT:366:6455:1993:557-559|Tibet+Underthrust+Deep seismic sounding+Continental crust
J|0070|Masters,T.G.|Core models ring true||#NAT:366:6456:1993:629-630|Inner core+Anisotropy+Model+Free oscillation|News and views
J|0071|Sleep,N.H.|Upwelling beneath ocean ridges||#NAT:366:6456:1993:635-636|Mid-ocean ridge+Mantle upwelling+Strain+Anisotropy|News and views
J|0072|Blackman,D.K.+Orcutt,J.A.+Forsyth,D.W.+|Seismic anisotropy in the mantle beneath an oceanic spreading centre||#NAT:366:6456:1993:675-677|Anisotropy+Ocean-bottom seismograph+Mantle upwelling+Mid-Atlantic Ridge
J|0073|Tromp,J.|Support for anisotropy of the Earth's inner core from free oscillations||#NAT:366:6456:1993:678-681|Inner core+Free oscillation+Anisotropy+PKIKP-wave
J|0074|Cooper,R.F.+Fredrich,J.T.+Green,D.J.+|Symposium probes materials science approaches in geophysics||#EOS:74:50:1993:590-591|Geophysical medium+Lithosphere+Symposium+Rock mechanics
J|0075|Shearer,P.M.|Imaging Earth's upper mantle||#EOS:74:51:1993:602|Imaging+Upper mantle+Discontinuity+Deep-focus earthquake
J|0076|Zoback,M.L.+Burke,K.|Lithospheric stress patterns: a global view||#EOS:74:52:1993:609-618|Global tectonics+Lithosphere+Stress+Map
J|0077|Kiernan,V.|Secret blasts revive test-ban debate||#NSC:-:1904:1993:4-5|Verification+Nuclear test ban+Test site+Underground nuclear explosion|This week
A|0078|Paulay,T.|Simplicity and confidence in seismic design||1993:Chichester:John Wiley|Earthquake engineering+Aseismic design+Ductility+Strength|68p
A|0079|e*McGuire,R.K.|The practice of earthquake hazard assessment||1993:Denver:IASPEI|Hazard+Global seismicity+IASPEI|284p
J|0080|Hicks,N.|Into the live lava lab||Geogrl Mag., Lond.:65:10:1993:37-39|Volcano+Japan+Eruption+Volcanic tremor
J|0081||Big bang: countdown to an eruption||Geogrl Mag., Lond.:65:10:1993:40-41|Eruption+Monitoring+Volcanic tremor+Sakurajima Volcano
J|0082|Bhattacharyya,J.+Shearer,P.M.+Masters,T.G.|Inner core attenuation from short-period PKP(BC) versus PKP(DF) waveforms||#GJI:114:1:1993:1-11|Inner core+Attenuation+PKP-wave+Waveform
J|0083|Gregersen,S.+Vaccari,F.|Lg-wave modelling for the North Sea||#GJI:114:1:1993:76-80|Lg-wave+North Sea+Theoretical seismogram+Continental crust
J|0084|Gibson,R.L.+Toksoz,M.N.+Batini,F.|Ray-Born modelling of fracture-zone reflections in the Larderello geothermal field||#GJI:114:1:1993:81-90|Vertical seismic profiling+Italy+Geothermal field+Born inversion
J|0085|Schultz,C.A.+Toksoz,M.N.|Enhanced backscattering of seismic waves from a highly irregular, random interface: SH case||#GJI:114:1:1993:91-102|Scattering+Seismic waves+Random interface+SH-wave
J|0086|Astrom,K.+Lund,C-E.|Explosion-generated short-period surface wave dispersion and noise studies along linear seismic arrays in southern Sweden||#GJI:114:1:1993:103-115|Baltic Shield+Crustal structure+Rayleigh wave+Dispersion
J|0087|Mjelde,R.+Sellevoll,M.A.+Shimamura,H.+|Crustal structure beneath Lofoten, N. Norway, from vertical incidence and wide-angle seismic data||#GJI:114:1:1993:116-126|Reflexion study+Norway+Crustal structure+Ocean-bottom seismograph
J|0088|Sun,Y.|Ray tracing in 3-D media by parameterized shooting||#GJI:114:1:1993:145-155|Ray tracing+Controlled source+Isotropic medium+Sampling
J|0089|Yoshimoto,K.+Sato,H.+Ohtake,M.|Frequency-dependent attenuation of P and S waves in the Kanto area, Japan, based on the coda-normalization method||#GJI:114:1:1993:165-174|Attenuation+Kanto+Lithosphere+Scattering
J|0090|Nolet,G.+Moser,T.J.|Teleseismic delay times in a 3-D Earth and a new look at the S discrepancy||#GJI:114:1:1993:185-195|Earth model+Lower mantle+S-wave+Travel-times
J|0091|Livelybrooks,D.|Review of `Geophysical interpretation using integral equations' by L. Eskola||#GJI:114:1:1993:221|Review+Geophysics+Integral equation+Modelling|Chapman & Hall, London, 1992, 191p
J|0092|Chiou,S-J.+Bolt,B.A.|Seismic wave slowness-vector estimation from broad-band array data||#GJI:114:2:1993:234-248|Array+Broadband seismology+Slowness+High resolution
J|0093|Durek,J.J.+Ritzwoller,M.H.+Woodhouse,J.H.|Constraining upper mantle anelasticity using surface wave amplitude anomalies||#GJI:114:2:1993:249-272|Upper mantle+Surface wave+Attenuation+Anelasticity
J|0094|Eaton,D.W.S.|Finite difference traveltime calculation for anisotropic media||#GJI:114:2:1993:273-280|Anisotropy+Eikonal equation+Finite difference method+Travel-times
J|0095|Moore,B.J.|Analytical solutions for the ray perturbation in depth-varying media||#GJI:114:2:1993:281-288|Ray theory+Perturbation+Tomography+Boundary value
J|0096|Dey,S.C.+Kennett,B.L.N.+Bowman,J.R.+|Variations in upper mantle structure under northern Australia||#GJI:114:2:1993:304-310|Australia+Lateral heterogeneity+P-wave+SV-wave
J|0097|Wang,Z.+Dahlen,F.A.+Tromp,J.|Surface wave caustics||#GJI:114:2:1993:311-324|Surface wave+Lateral heterogeneity+Caustic+Propagation
J|0098|Got,J-L.+Frechet,J.|Origins of amplitude variations in seismic doublets: source or attenuation process?||#GJI:114:2:1993:325-340|Attenuation+Coda+Source+Doublet
J|0099|Truffert,C.+Chamot-Rooke,N.+Lallemant,S.+|The crust of the Western Mediterranean Ridge from deep seismic data and gravity modelling||#GJI:114:2:1993:360-372|Mediterranean+Crust+Gravity+Profile+ISC
J|0100|Shapiro,S.A.+Kneib,G.|Seismic attenuation by scattering: theory and numerical results||#GJI:114:2:1993:373-391|Attenuation+Finite difference method+Scattering+Wave field
J|0101|Godano,C.+Salerno,M.|The chaoticity degree of the Campi Flegrei seismicity, southern Italy||#GJI:114:2:1993:392-398|Chaos+Campi Flegrei+Microearthquake+Seismicity
J|0102|Michelini,A.|Testing the reliability of VP/VS anomalies in traveltime tomography||#GJI:114:2:1993:405-410|Fault zone+Tomography+P-wave+S-wave|Research note
J|0103|Young,J.B.+Aichele,H.+Presgrave,B.W.|Region name conventions in the Flinn-Engdahl regionalization scheme||#GJI:114:2:1993:411-413|Flinn-Engdahl code+Global seismology+Regionalization+Seismicity|Research note
J|0104|Ruud,B.O.+Husebye,E.S.+Hestholm,S.O.|Rg observations from four continents: inverse- and forward-modelling experiments||#GJI:114:3:1993:465-472|Rg-wave+Phase velocity+Lateral inhomogeneity+Inversion
J|0105|Yu,Y.+Park,J.|Upper mantle anisotropy and coupled-mode long-period surface waves||#GJI:114:3:1993:473-489|Anisotropy+Free oscillation+Upper mantle+Surface wave
J|0106|Zhang,S.+Christensen,U.|Some effects of lateral viscosity variations on geoid and surface velocities induced by density anomalies in the mantle||#GJI:114:3:1993:531-547|Geoid+Mode+Coupling+Tomography
J|0107|Stevens,J.L.+McLaughlin,K.L.+Shkoller,B.+|2-D axisymmetric calculations of surface waves generated by an explosion in an island, mountain and sedimentary basin||#GJI:114:3:1993:548-560|Explosion seismology+Sedimentary basin+Surface wave+Nevada Test Site
J|0108|Sun,W.+Okubo,S.|Surface potential and gravity changes due to internal dislocations in a spherical Earth - I. Theory for a point dislocation||#GJI:114:3:1993:569-592|Dislocation+Gravity+Sphere+Point source
J|0109|Cao,S.+Greenhalgh,S.A.|Calculation of the seismic first-break time field and its ray path distribution using a minimum traveltime tree algorithm||#GJI:114:3:1993:593-600|Travel-times+Ray theory+Model+Eikonal equation
J|0110|Tura,M.A.C.+Johnson,L.R.|A stable method for linearized inversion of elastic parameters||#GJI:115:1:1993:1-13|Elastic wave+Inverse problem+Isotropic medium+Scattering
J|0111|Helffrich,G.R.+Stein,S.|Study of the structure of the slab-mantle interface using reflected and converted seismic waves||#GJI:115:1:1993:14-40|Body wave+Converted wave+Ray tracing+Subduction zone
J|0112|Baker,C.+Jackson,J.A.+Priestley,K.F.|Earthquakes on the Kazerun Line in the Zagros Mountains of Iran: strike-slip faulting within a fold-and-thrust belt||#GJI:115:1:1993:41-61|Zagros Mountains+Waveform+Strike-slip+Fold-and-thrust belt
J|0113|Lei,X-L.+Nishizawa,O.+Kusunose,K.|Band-limited heterogeneous fractal structure of earthquakes and acoustic-emission events||#GJI:115:1:1993:79-84|Acoustic emission+Fractal dimension+Microcrack+Fault zone
J|0114|Cao,S.+Muirhead,K.J.|Finite difference modelling of Lg blockage||#GJI:115:1:1993:85-96|Attenuation+Continental margin+Lg-wave+Synthetic seismogram
J|0115|Mjelde,R.+Sellevoll,M.A.|Possible shallow crustal shear wave anisotropy off Lofoten, Norway, inferred from three-component ocean-bottom seismographs||#GJI:115:1:1993:159-167|Continental margin+Anisotropy+Ocean-bottom seismograph+Norwegian Sea
J|0116|Houard,S.+Nataf,H-C.|Laterally varying reflector at the top of D" beneath northern Siberia||#GJI:115:1:1993:168-182|Mantle+Discontinuity+P-wave+Siberia+ISC
J|0117|Weber,M.|P- and S-wave reflections from anomalies in the lowermost mantle||#GJI:115:1:1993:183-210|Body wave+Core-mantle boundary+D"-layer+Lateral inhomogeneity
J|0118|Korneev,V.A.+Johnson,L.R.|Scattering of elastic waves by a spherical inclusion - I. Theory and numerical results||#GJI:115:1:1993:230-250|Elastic wave+Diffraction+Scattering+Sphere
J|0119|Korneev,V.A.+Johnson,L.R.|Scattering of elastic waves by a spherical inclusion - II. Limitations of asymptotic solutions||#GJI:115:1:1993:251-263|Diffraction+Elastic wave+Scattering+Sphere
J|0120|Van der Hilst,R.D.+Engdahl,E.R.+Spakman,W.|Tomographic inversion of P and pP data for aspherical mantle structure below the northwest Pacific region||#GJI:115:1:1993:264-302|Northwest Pacific+Tomography+P-wave+pP-wave+ISC
J|0121|Leveque,J-J.+Rivera,L.+Wittlinger,G.|On the use of the checker-board test to assess the resolution of tomographic inversions||#GJI:115:1:1993:313-318|Inverse problem+Resolution+Tomography+Structure|Research note
J|0122|Jupe,A.|How well are principal stress axes constrained by non-unique fault plane solution data?||#GJI:115:1:1993:319-322|Focal mechanism+Seismicity+Stress+Double couple|Research note
J|0123|Minshull,T.A.|Poisson's ratio of a seaward-dipping reflector series, Hatton Bank||#GJI:115:1:1993:332-335|Hatton Bank+Reflexion study+Shear wave+Dipping reflector|Research note
J|0124|Michelini,A.|Velocity model inversion using parametric curves||#GJI:115:2:1993:337-343|Inversion+Crust+Velocity+Tomography
J|0125|Geist,E.L.+Fisher,M.A.+Scholl,D.W.|Large-scale deformation associated with ridge subduction||#GJI:115:2:1993:344-366|Deformation+Subduction+New Hebrides+Focal mechanism
J|0126|Main,I.G.+Sammonds,P.R.+Meredith,P.G.|Application of a modified Griffith criterion to the evolution of fractal damage during compressional rock failure||#GJI:115:2:1993:367-380|Rock mechanics+Seismicity+Crack+Fractal system
J|0127|Plomerova,J.+Babuska,V.+Dorbath,C.+|Deep lithospheric structure across the Central African shear zone in Cameroon||#GJI:115:2:1993:381-390|Cameroon+Gravity+Lithosphere+P-wave
J|0128|Chen,X-F.|A systematic and efficient method of computing normal modes for multilayered half-space||#GJI:115:2:1993:391-409|Lg-wave+Rg-wave+Half-space+Normal mode
J|0129|Failly,M.+Singh,S.C.+Hobbs,R.W.|Lower crustal reflectivity from waveform inversion||#GJI:115:2:1993:410-420|Lower crust+Reflectivity+Waveform+Atlantic Ocean
J|0130|Clarke,T.J.|The complete ordered ray expansion - I. Calculation of synthetic seismograms||#GJI:115:2:1993:421-434|Body wave+Synthetic seismogram+Theoretical seismology+Propagation
J|0131|Clarke,T.J.|The complete ordered ray expansion - II. Multiphase body wave tomography||#GJI:115:2:1993:435-444|Body wave+Inversion+Theoretical seismology+Propagation
J|0132|Wapenaar,C.P.A.|Kirchhoff-Helmholtz downward extrapolation in a layered medium with curved interfaces||#GJI:115:2:1993:445-455|Inversion+Kirchhoff-Helmholtz integral+Modelling+Wave field
J|0133|Snieder,R.+Spencer,C.|A unified approach to ray bending, ray perturbation and paraxial ray theories||#GJI:115:2:1993:456-470|Bending+Ray theory+Tomography+Velocity
J|0134|Neele,F.+VanDecar,J.C.+Snieder,R.|A formalism for including amplitude data in tomographic inversions||#GJI:115:2:1993:482-496|Ray theory+Perturbation+Amplitude+Tomography
J|0135|Hamburger,M.W.+Swanson,W.A.+Popandopulo,G.A.|Velocity structure and seismicity of the Garm region, central Asia||#GJI:115:2:1993:497-511|Crustal structure+Seismicity+Pamir+Tien Shan
J|0136|Tromp,J.+Dahlen,F.A.|Maslov theory for surface wave propagation on a laterally heterogeneous Earth||#GJI:115:2:1993:512-528|Surface wave+Lateral heterogeneity+Caustic+Maslov asymptotic theory
J|0137|McCloskey,J.|A hierarchical model for earthquake generation on coupled segments of a transform fault||#GJI:115:2:1993:538-551|b-Value+Seismicity+Transform fault+Generation
J|0138|Roth,M.+Muller,G.+Snieder,R.|Velocity shift in random media||#GJI:115:2:1993:552-563|Ray theory+Perturbation+Travel-times+Velocity
J|0139|Grad,M.+Guterch,A.+Janik,T.|Seismic structure of the lithosphere across the zone of subducted Drake plate under the Antarctic plate, West Antarctica||#GJI:115:2:1993:586-600|Deep seismic sounding+Drake Passage+Antarctic+Subduction zone
J|0140|Grechka,V.Yu.+Obolentseva,I.R.|Geometrical structure of shear wave surfaces near singularity directions in anisotropic media||#GJI:115:3:1993:609-616|Anisotropy+Shear wave+Propagation+Geometry
J|0141|Willemann,R.J.|Cluster analysis of seismic moment tensor orientations||#GJI:115:3:1993:617-634|Cluster analysis+Statistics+Focal mechanism+Moment tensor
J|0142|Christova,C.+Nikolova,S.B.|The Aegean region: deep structures and seismological properties||#GJI:115:3:1993:635-653|AEgean+P-wave+Seismicity+Velocity+ISC
J|0143|Hara,T.+Tsuboi,S.+Geller,R.J.|Inversion for laterally heterogeneous upper mantle S-wave velocity structure using iterative waveform inversion||#GJI:115:3:1993:667-698|Waveform+Inversion+Upper mantle+S-wave
J|0144|Geller,R.J.+Hara,T.|Two efficient algorithms for iterative linearized inversion of seismic waveform data||#GJI:115:3:1993:699-710|Earth structure+Waveform+Inversion+Synthetic seismogram
J|0145|Vasco,D.W.+Johnson,L.R.+Majer,E.L.|Ensemble inference in geophysical inverse problems||#GJI:115:3:1993:711-728|Inverse problem+Nonlinear inversion+Tomography+Cross-hole
J|0146|Zhao,L.+Dahlen,F.A.|Asymptotic eigenfrequencies of the Earth's normal modes||#GJI:115:3:1993:729-758|Interference+Free oscillation+Normal mode+Eigenfrequency
J|0147|Wittlinger,G.+Herquel,G.+Nakache,T.|Earthquake location in strongly heterogeneous media||#GJI:115:3:1993:759-777|Location+Probability+Heterogeneous medium+Lacq oilfield
J|0148|Das,S.|The Macquarie Ridge earthquake of 1989||#GJI:115:3:1993:778-798|1989+Macquarie Ridge+Aftershock+Source||#*MACQUARIE89
J|0149|Hatzfeld,D.+Besnard,M.+Makropoulos,K.+|Microearthquake seismicity and fault-plane solutions in the southern Aegean and its geodynamic implications||#GJI:115:3:1993:799-818|Microearthquake+Seismicity+AEgean+Fault plane solution
J|0150|Chazalon,A.+Campillo,M.+Gibson,R.L.+|Crustal wave propagation anomaly across the Pyrenean Range. Comparison between observations and numerical simulations||#GJI:115:3:1993:829-838|Lg-wave+Pyrenees+Synthetic seismogram+Propagation
J|0151|Su,L.+Park,J.+Yu,Y.|Born seismograms using coupled free oscillations: the effects of strong coupling and anisotropy||#GJI:115:3:1993:849-862|Anisotropy+Free oscillation+Perturbation+Surface wave
J|0152|Correig,A.M.+Vila,J.|On the frequency contents of local events: source or path effect?||#GJI:115:3:1993:863-877|Canary Islands+Local event+Scattering+Source
J|0153|Shearer,P.M.|Global mapping of upper mantle reflectors from long-period SS precursors||#GJI:115:3:1993:878-904|SS-wave+Upper mantle+Reflector+Discontinuity
J|0154|Winter,T.+Avouac,J.P.+Lavenu,A.|Late Quaternary kinematics of the Pallantanga strike-slip fault (central Ecuador) from topographic measurements of displaced morphological features||#GJI:115:3:1993:905-920|Ecuador+Strike-slip+Topography+1797
J|0155|Okubo,S.|Reciprocity theorem to compute the static deformation due to a point dislocation buried in a spherically symmetric earth||#GJI:115:3:1993:921-928|Point source+Dislocation+Deformation+Reciprocity
J|0156|Sebundandi,Ch.+Toint,Ph-L.|Non-linear optimization for seismic traveltime tomography||#GJI:115:3:1993:929-940|Cross-hole+Tomography+Travel-times+Least squares
J|0157|Rodgers,A.+Wahr,J.|Inference of core-mantle boundary topography from ISC PcP and PKP traveltimes||#GJI:115:3:1993:991-1011|Core-mantle boundary+Tomography+PcP-wave+PKP-wave+ISC
J|0158|Der,Z.A.+Baumgardt,D.R.+Shumway,R.H.|The nature of particle motion in regional seismograms and its utilization for phase identification||#GJI:115:3:1993:1012-1024|Kola Peninsula+Array+Seismogram+Phase identification
J|0159|Anderson,H.J.+Webb,T.H.+Jackson,J.A.|Focal mechanisms of large earthquakes in the South Island of New Zealand: implications for the accommodation of Pacific-Australia plate motion||#GJI:115:3:1993:1032-1054|New Zealand+Focal mechanism+Seismotectonics+Large earthquake
J|0160|Vasco,D.W.+Majer,E.L.|Wavepath traveltime tomography||#GJI:115:3:1993:1055-1069|Inversion+Tomography+Cross-hole+California
J|0161|Zhao,L-S.+Xie,J.|Lateral variations in compressional velocities beneath the Tibetan Plateau from Pn traveltime tomography||#GJI:115:3:1993:1070-1084|Tibet+Tomography+Mantle+Pn-wave
J|0162|Reyners,M.+Cowan,H.|The transition from subduction to continental collision: crustal structure in the North Canterbury region, New Zealand||#GJI:115:3:1993:1124-1136|Collision+Crustal structure+New Zealand+Subduction
J|0163|Moore,B.J.|Simple analytical Green's functions for ray perturbations in layered media||#GJI:115:3:1993:1137-1142|Ray theory+Perturbation+Layered medium+Green's function
J|0164|Barruol,G.+Mainprice,D.|3-D seismic velocities calculated from lattice-preferred orientation and reflectivity of a lower crustal section: examples of the Val Sesia section (Ivrea zone, northern Italy)||#GJI:115:3:1993:1169-1188|Ivrea+Anisotropy+Crustal structure+Reflexion study
J|0165|Takayama,H.|Comment on `Evaluating the statistical validity beyond chance of `VAN' earthquake precursors' by F. Mulargia and P. Gasperini||#GJI:115:3:1993:1197-1201|Comments+Precursor+Statistics+Prediction+Electromagnetic field|With a reply by the author
J|0166|Crossley,D.J.+Rochester,M.G.|Comment on `Numerical calculation of modes of oscillation of the Earth's core' by D. E. Smylie, X. Jiang, B. J. Brennan and K. Sato||#GJI:115:3:1993:1202-1207|Comments+Numerical analysis+Core+Oscillation+Mode|With a reply by the authors and a rebuttal
J|0167|Michelini,A.|Errata to `Testing the reliability of VP/VS anomalies in traveltime tomography'||#GJI:115:3:1993:1209|Errata+Fault zone+Tomography+P-wave+S-wave
J|0168|Xiong,S-B.+Zheng,Y.+Yin,Z-X.+|The 2-D structure and its tectonic implications of the crust in the Lijiang--Pan-Zhihua--Zhehai region|In Chinese with English abstract|#AGS:36:4:1993:434-444|Crustal structure+China+Low-velocity layer+High-velocity layer
J|0169|Wang,C-Y.+Wang,G-M.+Lin,Z-Y.+|A study on fine crustal structure in Xingtai earthquake area based on deep seismic reflection profiling|In Chinese with English abstract|#AGS:36:4:1993:445-452|Crustal structure+Xingtai+Deep seismic sounding+Profile
J|0170|Zhao,Y-H.+Huang,J-F.+Wang,R.|SEM study of fracture development in compressed marble specimen and implications for earthquake precursors|In Chinese with English abstract|#AGS:36:4:1993:453-462|Fracture+Marble+Precursor+Groundwater
J|0171|Fong,R.+Tao,Y-L.|A non-block consistent model in seismo-gravity inversion|In Chinese with English abstract|#AGS:36:4:1993:463-475|Inversion+Model+Gravity+Density
J|0172|Luan,W-G.|Singularity analysis of scattering in a homogeneous medium|In Chinese with English abstract|#AGS:36:4:1993:489-509|Scattering+Homogeneous medium+Mathematical analysis+Kirchhoff integral
J|0173|Zhao,Z-F.|A fitting solution for wave equation modelling and migration|In Chinese with English abstract|#AGS:36:4:1993:510-518|Wave equation+Modelling+Migration+Numerical method
J|0174|Zhang,Z-J.+He,Q-D.+Xu,Z-X.|The absorption of artificial boundary reflection in 2-D transversely isotropic media with FDM-elastic wavefields modelling|In Chinese with English abstract|#AGS:36:4:1993:519-527|Absorbing boundary+Modelling+Reflexion+Finite difference method
J|0175|Li,N.+Li,Y-D.+Chang,T.|Interactive intelligent well logs correlation|In Chinese with English abstract|#AGS:36:4:1993:537-543|Well-log+Correlation+Signal|Short contribution
J|0176|Liu,Q-Y.+Li,Z-M.+Shen,L-R.+|GDS-1000 general portable digital seismic observation system|In Chinese with English abstract|#AGS:36:5:1993:600-608|Portable station+Equipment+Digital recording+Broadband seismograph
J|0177|Shao,X-Z.+Zhang,J-R.+Zhang,S-Y.+|Study of deep structures in Xingtai earthquake area by method of converted waves of earthquakes|In Chinese with English abstract|#AGS:36:5:1993:609-620|Xingtai+Converted wave+Deep structure+Velocity structure
J|0178|Zuo,Z-R.+Wu,J-P.+Wu,Z-L.|Standardization calibration of the mantle wave magnitude and observations|In Chinese with English abstract|#AGS:36:5:1993:621-632|Mantle magnitude+Rayleigh wave+Calibration+Saturation
J|0179|Wu,C-Z.+Jiao,L-X.+Wang,Q-S.+|Features of gravity field in Pamir surroundings and study on crustal structure|In Chinese with English abstract|#AGS:36:5:1993:633-642|Pamir+Gravity+Crustal thickness
J|0180|Chen,J.+Zhao,Z-F.+Zhang,S-L.|15degrees finite difference wave equation cascade migration using fitting method|In Chinese with English abstract|#AGS:36:5:1993:651-656|Wave equation+Finite difference method+Migration
J|0181|Yang,F-S.|The analytical solutions of seismograms in tau-P domain for arbitrary point-source and AVO analysis|In Chinese with English abstract|#AGS:36:5:1993:657-664|Seismogram+Point source+Tau-p method+Velocity
J|0182|Yao,D-Z.+Zhou,X-X.|Elastic wave reverse time migration of longitudinal and transverse wave separate imagery|In Chinese with English abstract|#AGS:36:5:1993:665-673|Reverse-time migration+Elastic wave+Longitudinal wave+Transverse wave
J|0183|Li,P-W.|Additive mass method measured dynamically foundation bearing capacity|In Chinese with English abstract|#AGS:36:5:1993:683-687|Vibration+Foundation+Soil dynamics
J|0184|Fu,R-S.+Huang,J-H.+Liu,W-Z.|Seismic tomography: internal heterogeneity of mantle and its geodynamical inferences|In Chinese with English abstract|#AGS:36:6:1993:740-752|Tomography+Mantle+Heterogeneity+Density
J|0185|Lu,Z-X.+Xia,H-K.|Geoscience transect from Dong Ujimqinqi, Nei Mongol, to Donggou, Liaoning, China|In Chinese with English abstract|#AGS:36:6:1993:765-772|Geotransect+Geotectonics+China
J|0186|Wan,M-H.+Wang,J-L.+Wu,J-S.+|The study of integrate geophysics in Jurong-Changzhou, Jiangsu Province|In Chinese with English abstract|#AGS:36:6:1993:791-797|Jiangsu+Geophysical investigation+Trap
J|0187|Sun,S-H.+Liu,X-Y.|Generalized cokriging of porosity prediction from seismic data|In Chinese with English abstract|#AGS:36:6:1993:798-804|Porosity+Gas sand+Fuyu+Kriging
J|0188|Helgesen,J.+Kolb,P.|Multi-offset acoustic inversion of a laterally invariant medium: application to real data||#GPP:41:5:1993:517-533|Offset+Inversion+Layered medium+Reflexion coefficient
J|0189|Sorin,V.+Keydar,S.+Landa,E.|3D kinematic inversion from a set of line profiles||#GPP:41:5:1993:535-550|Inversion+Profile+Kinematics+Layered medium
J|0190|Normark,E.|Residual statics estimation by stack-power maximization in the frequency domain||#GPP:41:5:1993:551-563|Statics+Frequency domain+Common midpoint+Stack
J|0191|Normark,E.+Mosegaard,K.|Residual statics estimation: scaling temperature schedules using simulated annealing||#GPP:41:5:1993:565-578|Statics+Common midpoint+Stack+Temperature
J|0192|Leggett,M.+Goulty,N.R.+Kragh,J.E.|Study of traveltime and amplitude time-lapse tomography using physical model data||#GPP:41:5:1993:599-619|Travel-times+Tomography+Model+Fluid injection
J|0193|Dietrich,M.+Cohen,J.K.|Migration to zero offset (DMO) for a constant velocity gradient: an analytical formulation||#GPP:41:5:1993:621-643|Zero offset+Migration+Mathematical analysis+Gradient
J|0194|Maeland,E.|On the construction of the 3D band-limited extrapolation operator in the space frequency domain||#GPP:41:5:1993:645-658|Operator+Extrapolation+Frequency-space domain+Response
J|0195|Landa,E.+Thore,P.+Reshef,M.|Model-based stack: a method for constructing an accurate zero-offset section for complex overburdens||#GPP:41:6:1993:661-670|Overburden+Stack+Model+Zero offset
J|0196|Monk,D.J.|Wave-equation multiple suppression using constrained gross-equalization||#GPP:41:6:1993:725-736|Wave equation+Water+Attenuation+Stack
J|0197|Langhammer,J.+Landro,M.|Temperature effects on airgun signatures||#GPP:41:6:1993:737-750|Temperature+Airgun+Signature+Marine seismic source
J|0198|Zhou,B.+Greenhalgh,S.A.+Zhe,J.|Numerical seismogram computations for inhomogeneous media using a short, variable length convolutional differentiator||#GPP:41:6:1993:751-766|Wave equation+Inhomogeneous medium+Numerical method+Seismogram
J|0199|Berg,P.+If,F.+Nielsen,P.+|Diffraction by a wedge in an acoustic constant density medium||#GPP:41:7:1993:803-831|Diffraction+Wedge+Acoustic medium+Plane wave
J|0200|Li,X-Y.+Crampin,S.|Approximations to shear-wave velocity and moveout equations in anisotropic media||#GPP:41:7:1993:833-857|Anisotropic medium+Moveout+Shear wave+Velocity
J|0201|Li,X-Y.+Crampin,S.|Variation of reflection and transmission coefficients with crack strike and crack density in anisotropic media||#GPP:41:7:1993:859-882|Crack+Shear wave splitting+Reflexion coefficient+Transmission coefficient
J|0202|Peng,C-B.+Cheng,C.H.+Toksoz,M.N.|Borehole effects on downhole seismic measurements||#GPP:41:7:1993:883-912|Borehole+Down-hole recording+Fluid+Frequency
J|0203|Kurtulus,C.|Seismic stratigraphy in high resolution shallow marine seismic data of the Gemlik Gulf||#GPP:41:7:1993:913-925|Seismostratigraphy+High resolution+Marine seismic investigation+Marmara Sea
J|0204|Rowbotham,P.S.+Goulty,N.R.|Imaging capability of cross-hole seismic reflection surveys||#GPP:41:7:1993:927-941|Imaging+Cross-hole+Seismic survey+Dip
J|0205|Martin,J.E.|Simultaneous vibroseis recording||#GPP:41:8:1993:943-967|Vibroseis+Borehole+Distributed surface source+Seismic recording
J|0206|Amundsen,L.+Arntsen,B.+Mittet,R.|Depth imaging of offset vertical seismic profile data||#GPP:41:8:1993:1009-1031|Imaging+Depth+Offset+Vertical seismic profiling
J|0207|Zeng,X.+MacBeth,C.D.|Algebraic processing techniques for estimating shear-wave splitting in near-offset VSP data: theory||#GPP:41:8:1993:1033-1066|Shear wave splitting+Offset+Vertical seismic profiling+Processing
J|0208|De Bruin,J.A.|Comment on `Secondary shear waves from source boreholes' by J. A. Meredith, M. N. Toksoz and C. H. Cheng||#GPP:41:8:1993:1067-1072|Comments+Shear wave+Borehole+Tube wave|With a reply by the authors
J|0209|Chen,H-Y.+Hu,Y-X.|Stochastic spatial analysis of earthquake sequence||#ASS:6:3:1993:561-569|Spatial distribution+Statistical method+North China+Clustering
J|0210|Wang,C-Y.+Wang,X-L.+Yan,Q-Z.|Preliminary study of multiple event location on the Kunming Telemetry Seismic Network||#ASS:6:3:1993:571-582|Network+Station correction+Kunming+Earthquake location
J|0211|Fang,S-D.+Chen,P-S.|Inversion of waveform from the data of six moderate strong earthquakes in Chinese mainland to seismic moment tensors and source mechanism||#ASS:6:3:1993:583-592|China+Seismic moment tensor+Inversion+Source parameter||#*GANSU90|#*DATONG89A|#*DATONG89B|#*YUNNAN88A|#*YUNNAN88B
J|0212|Chen,P-S.+Duda,S.J.|Dependence of the energy released during earthquake on ambient shear stress||#ASS:6:3:1993:593-600|Shear stress+Energy+Spectrum+Dislocation
J|0213|Zhang,D-H.|Numerical analysis model of horizontal displacement of active faults||#ASS:6:3:1993:601-608|Fault+Displacement+Numerical analysis+Geodetic measurement
J|0214|Du,X-L.+Xiong,J-G.+Guan,H-M.|Boundary integration equation method to scattering of plane SH-waves||#ASS:6:3:1993:609-618|SH-wave+Scattering+Boundary element method+Frequency domain
J|0215|Fu,Z-W.+Zhuang,Z.+Lu,Z-L.+|Three dimensional structure of the crust and upper mantle beneath the south China area from long period surface waves||#ASS:6:3:1993:619-629|Crustal structure+Upper mantle+China+Surface wave
J|0216|He,Z-Q.|Shallow velocity structure in Lucan-Fanxian profile||#ASS:6:3:1993:631-639|Shallow structure+China+Rayleigh wave+Velocity structure
J|0217|Gong,S-W.+Wang,Q-L.+Lin,J-H.|Study of dislocation model and evolution characteristics of vertical deformation field of Gonghe MS=6.9 earthquake||#ASS:6:3:1993:641-648|Earthquake+1990+China+Deformation||#*GONGHE90
J|0218|Liu,X-H.+Zhou,Y-S.|Regional variations in abrupt-change sequence of georesistivity and its application in earthquake prediction||#ASS:6:3:1993:649-662|Prediction+Resistivity+Strong earthquake+Precursor||#*SONGPAN|#*XIAOJIN89|#*YUNNAN88A|#*YUNNAN88B
J|0219|Du,X-B.+Zhao,H-Y.+Chen,B-Z.|On the relation of the imminent sudden change in earth resistivity to the active fault and earthquake generating stress field||#ASS:6:3:1993:663-673|Resistivity+Fault+Stress field+China||#*XIAOJIN89|#*TANGSHAN|#*LUHUO|#*YUNNAN88A|#*YUNNAN88B
J|0220|Zhang,Y-L.+An,H-J.+Liu,X-L.+|Research on amplitude spectrum of precursory electromagnetic radiation associated with the impending great earthquake of Gonghe in Qinghai Province||#ASS:6:3:1993:675-683|Electromagnetic field+Precursor+Magnetotellurics+Great earthquake||#*GONGHE90
J|0221|Wang,L-Q.+Li,S-Y.|A probable mechanism of the water level subsidence in wells as a precursor of an earthquake event||#ASS:6:3:1993:685-696|Precursor+Water level+Well+Mechanism||#*TANGSHAN|#*IZUOSHIMA|#*HAICHENG
J|0222|Wang,H-S.|Intelligent determination of peak ground motion parameters based on intensity assessed by artificial neural network||#ASS:6:3:1993:705-712|Ground motion+Intensity+Neural network
J|0223|Gao,M-T.|Seismic hazard analysis for a spatial linearly distributed system||#ASS:6:3:1993:713-719|Hazard+Linear system
J|0224|Chi,S-L.|Trial results of YRY-2 shallow borehole strainmeter at eight observation sites in North China||#ASS:6:3:1993:731-737|Strainmeter+North China+Borehole+Earth tide
J|0225|Zou,Q-J.|Earthquake prediction decision and risk matrix||#ASS:6:3:1993:739-747|Prediction+Seismic risk+Matrix method+Probability
J|0226|Zang,S-X.|Seismological study on the structure of the Earth's deep interior||#ASS:6:3:1993:749-759|Deep structure+Global seismology+Tomography+Discontinuity|Review paper
J|0227|Zhang,M-Z.|A new area for earthquake resistant engineering: the control of seismic responses of structures||#ASS:6:3:1993:761-768|Earthquake-resistant design+Structural response+Control+Base isolation system|Review paper
J|0228|Zhang,B-C.+Chen,R.+Li,H.+|Relationship between seismicity and water injection in Ziliujing anticline||#ASS:6:3:1993:769-774|Fluid injection+Induced seismicity+China+Hydrofracture|Research note
J|0229|Cai,Y-D.+Gan,J-R.+Yao,L-S.|Application of the neural network approach in the comprehensive prediction of earthquakes||#ASS:6:3:1993:775-779|Prediction+Neural network+Yunnan+Expert system|Research note
J|0230|Yang,Z-R.|Study of anomaly patterns of the ground tilt before two strong earthquakes||#ASS:6:3:1993:781-787|Tilt+Strong earthquake+Pattern+Anomaly|Research note|#*ALMAATA90|#*XINJIANG91
J|0231|Zhang,S-Q.|Review of `Full wave phase analysis' by H-R. Zhao, J-Z. Sun, W-B. Tang and Y-M. Peng||#ASS:6:3:1993:795-797|Review+Wave field+Elastic wave+Phase|Seismological Press, 1991
J|0232|Chen,P-S.|Catalogue of earthquakes (September-November, 1992)||#ASS:6:3:1993:799-802|Earthquake catalogue+1992
J|0233|Chen,P-S.+Duda,S.J.|Spectral magnitude and seismic radiated energy computed from CDSN records||#ASS:6:4:1993:803-811|Spectral magnitude+Energy+Source parameter+Corner frequency||#*AFAR89B
J|0234|Ito,H.M.+Wakayama,A.+Hoshiba,M.+|A fuzzy information processing system of seismic data||#ASS:6:4:1993:813-821|Fuzzy mathematics+Data processing+Precursor+Software
J|0235|Li,D-S.+Zhou,H-L.|On the crust structure near focus and the far-field body wave synthetic seismograms||#ASS:6:4:1993:823-832|Crustal structure+Synthetic seismogram+Focus+Body wave||#*HAICHENG
J|0236|Hua,Z-X.+Ma,Y-S.+Gao,L-S.|Site amplification effect of coda waves in West Yunnan Experimental Site||#ASS:6:4:1993:833-841|Coda wave+Amplification+Yunnan+Site effect
J|0237|Xie,F-R.+Zhu,J-Z.+Liang,H-Q.+|Basic characteristics of recent tectonic stress field in southwest China||#ASS:6:4:1993:843-855|Stress field+China+Fault
J|0238|Xu,Q.+Chen,G-D.+Wang,J-A.+|Mathematical simulation of geotemperature field and thermal stress field in Sanjiang region of Yunnan||#ASS:6:4:1993:857-866|Thermal stress+Temperature+Yunnan+Fault zone
J|0239|Lin,Z-Y.+Hu,H-X.+Zhang,W-B.+|The preliminary interpretation of deep seismic sounding in western Yunnan||#ASS:6:4:1993:867-881|Deep seismic sounding+Yunnan+Velocity structure+Crustal thickness
J|0240|Zhao,G-M.+Gao,C-B.+Chou,J-J.+|Basement structure and Yalu River fault belt in Dandong region||#ASS:6:4:1993:883-891|Basement+Shallow structure+Geophysical investigation+Liaoning
J|0241|Yao,L-X.+Yu,X-J.+Wang,J.+|Study of the Q-value in and around Minle Basin||#ASS:6:4:1993:893-902|Q+Precursor+Hexi+Basin
J|0242|Jiang,C.+Feng,D-Y.+Tian,S.+|On the analysis of self similarity of earthquake sequence and its application in earthquake prediction||#ASS:6:4:1993:903-911|Sequence+Prediction+Time series+China
J|0243|Chen,Z-L.+Zhou,S-Y.|The chaotic attractor of the precursory field of the seismogenic system and its fractal dimension||#ASS:6:4:1993:913-921|Fractal dimension+Chaos+Seismogenesis+Space-time distribution
J|0244|An,Z-W.+Wang,L-Y.+Chen,Y.+|Exploring nonlinear characteristics in seismogenic process||#ASS:6:4:1993:923-930|Seismogenesis+Nonlinearity+Power spectrum+Large earthquake
J|0245|Hu,P.+Li,W.+Yang,P-C.|The application of the method of reconstruction a phase space with higher dimensions to the study of seismic processes and earthquake prediction||#ASS:6:4:1993:931-937|Prediction+Seismic process+Chaos+Seismodynamics
J|0246|Zhao,L-F.+Dong,B-Z.+Niu,X.+|Research on geomagnetic tectonic characteristics of the crust in Haicheng seismic area||#ASS:6:4:1993:949-958|Haicheng+Crustal structure+Aeromagnetic study+Geomagnetic study||#*HAICHENG
J|0247|Fan,S-Q.+Su,S-H.+Li,N.|Study of the characteristics of earthquake precursory anomalies of He and H2 Beijing No. 2 Cotton Mill well and their relation with earthquakes||#ASS:6:4:1993:959-969|Precursor+Well+Beijing+Gas||#*DATONG91|#*DATONG89A|#*DATONG89B|#*NECHINA89
J|0248|Geng,N-G.+Cui,C-Y.+Deng,M-D.|The remote sensing observation in experiments of rock failure and the beginning of remote sensing rock mechanics||#ASS:6:4:1993:971-980|Remote sensing+Failure+Rock mechanics+Infrared
J|0249|Feng,W.+Yang,S-T.+Zhang,Y.+|The chemical anomalous behaviours of water-marble rock system under action of ultrasound||#ASS:6:4:1993:981-992|Ultrasound+Marble+Precursor+Hydrogen
J|0250|Wen,X-Z.|Rupture segmentation and assessment of probabilities of seismic potential on the Xiaojiang fault zone||#ASS:6:4:1993:993-1004|Seismic potential+Fault zone+Yunnan+Historical earthquake
J|0251|Wang,S-B.+Bai,G-C.+Wang,G-Y.|The model of double bounds of stochastic stress in seismic risk analysis of faults||#ASS:6:4:1993:1005-1012|Seismic risk+Stochastic model+Stick-slip+Xianshuihe
J|0252|Huang,W-Q.+Jin,Y.+Cao,X-F.|Interrelation among strong earthquakes and its application in seismic hazard analysis||#ASS:6:4:1993:1013-1022|Hazard+Strong earthquake+North China+Space-time distribution
J|0253|Chen,H-Y.+Hu,Y-X.|Randomization test and its application||#ASS:6:4:1993:1023-1029|Strong earthquake+Xianshuihe+Statistical method+Space-time distribution
J|0254|Zhu,H.+Feng,H-Y.+Gao,F-C.+|SSQ-1 digital tape recording horizontal pendulum tiltmeter||#ASS:6:4:1993:1031-1039|Earth tide+Tiltmeter+Instrument
J|0255|Bai,M-X.+Wang,K-Y.+Liu,J-Y.+|The 1990 Zaisang earthquake of magnitude 7.3 in Kazakhstan||#ASS:6:4:1993:1041-1047|Strong earthquake+1990+Kazakhstan+Focal mechanism||#*ZAYSAN90|#*KAZAKHSTAN90A|#*KAZAKHSTAN90B
J|0256|Zhang,T-Z.|A non-stationary Poisson model of long term seismicity in northern China||#ASS:6:4:1993:1057-1061|Seismicity+North China+Model+Hazard|Research note
J|0257|Zhang,Z-D.+Jian,J-C.+Shi,R-H.+|Analysis of dynamic grey box for ratio of nitrogen to helium in well Liaogu-1||#ASS:6:4:1993:1075-1079|Well+Gas+Precursor+China|Research note|#*HEZE|#*XINGTAI81
J|0258|Chen,P-S.|Catalogue of earthquakes (December, 1992-May, 1993)||#ASS:6:4:1993:1081-1086|Earthquake catalogue+1992-1993
J|0259|Thomas,S.A.+Sivhed,U.+Erlstrom,M.+|Seismostratigraphy and structural framework of the SW Baltic Sea||#TRN:5:4:1993:364-374|Baltic Sea+Seismostratigraphy+Marine seismic investigation+BABEL
J|0260|Papadopoulos,G.A.|The 20 March 1992 south Aegean, Greece, earthquake (MS=5.3): possible anomalous effects||#TRN:5:4:1993:399-404|Earthquake+1992+AEgean+Anomaly||#*MILOS92
J|0261|Muir-Wood,R.|Editorial||#TRN:5:5:1993:420|Mitigation+Hazard+IDNDR+Eruption||#*LATUR93
J|0262|Chelidze,T.|Fractal damage mechanics of geomaterials||#TRN:5:5:1993:421-437|Fractal analysis+Fracturing+Rock mechanics+Acoustic emission
J|0263|Albini,P.+Gutdeutsch,R.|Historical seismology in the ESC||#TRN:5:5:1993:461-462|Historical earthquake+Seismology+Earthquake catalogue
J|0264|Monachesi,G.+Moroni,A.|Problems in assessing macroseismic intensity from historical earthquake records||#TRN:5:5:1993:463-466|Historical earthquake+Intensity+Macroseismic data+MSK-Scale
J|0265|Barbano,M.S.|Reassessing intensity of some Friuli earthquakes at the turn of the eighteenth century||#TRN:5:5:1993:467-474|Intensity+Friuli+Historical earthquake+18th century
J|0266|Vogt,J.|Further research on the historical seismicity of Tunisia||#TRN:5:5:1993:475-476|Tunisia+Historical seismicity+Earthquake catalogue+Seismic gap
J|0267|Musson,R.M.W.|Comrie: a historical Scottish earthquake swarm and its place in the history of seismology||#TRN:5:5:1993:477-480|Scotland+Swarm+Historical earthquake+1839-1846
J|0268|Albini,P.+Rodriguez de la Torre,F.|Known and unknown earthquakes through some European periodicals of the eighteenth century||#TRN:5:5:1993:481-487|18th century+Europe+Earthquake catalogue+Historical earthquake
J|0269|Bellettati,D.+Camassi,R.+Molin,D.|Fake quakes in Italy through parametric catalogues and seismological compilations: case histories and typologies||#TRN:5:5:1993:488-495|Italy+Earthquake catalogue+Historical earthquake+1000-1690
J|0270|Castelli,V.|A `cluster' of earthquakes in the Apennines at the end of XIII century||#TRN:5:5:1993:496-502|13th century+Cluster+Apennines+Earthquake catalogue+Historical earthquake
J|0271|Musson,R.M.W.|Discovery of a curious seismological monument from 19th century Scotland||#TRN:5:5:1993:513|Monument+Scotland+19th century+Historical earthquake
J|0272|Cadek,O.+Yuen,D.A.|Geodynamics workshop in the Czech Republic||#TRN:5:6:1993:573-590|Geodynamics+Workshop+Seismology+Solid-earth geophysics
J|0273|Papastamatiou,D.+Psycharis,I.|Seismic response of classical monuments - a numerical perspective developed at the Temple of Apollo in Bassae, Greece||#TRN:5:6:1993:591-601|Monument+Greece+Vulnerability+Numerical analysis
J|0274|Wiedicke,M.+Collier,J.S.|Morphology of the Valu Fa spreading ridge in the southern Lau Basin||#JGR:98:7:1993:11769-11782|Reflexion study+Lau Basin+Spreading+Morphology
J|0275|Velde,B.+Moore,D.+Badri,A.+|Fractal and length analysis of fractures during brittle to ductile changes||#JGR:98:7:1993:11935-11940|Fractal analysis+Fracture+Rock mechanics+Deformation
J|0276|McCaffrey,R.|On the role of the upper plate in great subduction zone earthquakes||#JGR:98:7:1993:11953-11966|Great earthquake+Subduction zone+Plate tectonics+Rheology
J|0277|Holliger,K.+Levander,A.R.+Goff,J.A.|Stochastic modeling of the reflective lower crust: petrophysical and geological evidence from the Ivrea zone (northern Italy)||#JGR:98:7:1993:11967-11980|Lower crust+Reflexion+Ivrea+Petrophysics
J|0278|Zheng,Y.+Aki,K.+Teng,T-L.|Mapping of the high-frequency source radiation for the Loma Prieta earthquake, California||#JGR:98:7:1993:11981-11993|Loma Prieta+1989+Radiation+High frequency||#*LOMAPRIETA89
J|0279|Hirn,A.+Lepine,J-C.+Sapin,M.|Triple junction and ridge hotspots: earthquakes, faults, and volcanism in Afar, the Azores, and Iceland||#JGR:98:7:1993:11995-12001|Triple junction+Hot spot+Afar+Azores+Iceland
J|0280|McNamara,D.E.+Owens,T.J.|Azimuthal shear wave velocity anisotropy in the Basin and Range province using Moho Ps converted phases||#JGR:98:7:1993:12003-12017|Shear wave+Anisotropy+Basin & Range+Ps-wave
J|0281|Yamashita,T.|Application of fracture mechanics to the simulation of seismicity and recurrence of characteristic earthquakes on a fault||#JGR:98:7:1993:12019-12032|Fracture+Seismicity+Recurrence+Fault
J|0282|Neele,F.+VanDecar,J.C.+Snieder,R.|The use of P wave amplitude data in a joint inversion with travel times for upper mantle velocity structure||#JGR:98:7:1993:12033-12054|P-wave+Amplitude+Upper mantle+Washington
J|0283|Stickney,M.C.+Sprenke,K.F.|Correction to `Seismic events with implosional focal mechanisms in the Coeur d'Alene mining district, northern Idaho'||#JGR:98:7:1993:12055-12056|Errata+Rockburst+Idaho+Focal mechanism+Velocity structure
J|0284|Haines,A.J.+Holt,W.E.|A procedure for obtaining the complete horizontal motions within zones of distributed deformation from the inversion of strain rate data||#JGR:98:7:1993:12057-12082|Himalayas+Surface deformation+Inversion+Strain
J|0285|Andrews,D.J.+Oppenheimer,D.H.+Lienkaemper,J.J.|The Mission link between the Hayward and Calaveras faults||#JGR:98:7:1993:12083-12095|Hayward Fault+Calaveras Fault+Seismicity+Mechanics
J|0286|Sornette,A.+Davy,P.+Sornette,D.|Fault growth in brittle-ductile experiments and the mechanics of continental collisions||#JGR:98:7:1993:12111-12139|Laboratory+Fault+Mechanics+Continental collision
J|0287|Davy,P.|On the frequency-length distribution of the San Andreas fault system||#JGR:98:7:1993:12141-12151|San Andreas Fault+Earthquake evolution+Frequency-length distribution+Fault growth
J|0288|Matthews,M.V.+Segall,P.|Estimation of depth-dependent fault slip from measured surface deformation with application to the 1906 San Francisco earthquake||#JGR:98:7:1993:12153-12163|Fault-slip+Deformation+1906+San Francisco
J|0289|Yin,Z-M.+Ranalli,G.|Determination of tectonic stress field from fault slip data: toward a probabilistic model||#JGR:98:7:1993:12165-12176|Fault-slip+Tectonics+Stress field+Model
J|0290|Wessel,P.|A reexamination of the flexural deformation beneath the Hawaiian Islands||#JGR:98:7:1993:12177-12190|Reflexion study+Hawaiian Islands+Deformation+Flexural modelling
J|0291|Su,W.+Buck,W.R.|Buoyancy effects on mantle flow under mid-ocean ridges||#JGR:98:7:1993:12191-12205|Mid-ocean ridge+Mantle upwelling+Spreading+Oceanic crust
J|0292|Olson,J.E.|Joint pattern development: effects of subcritical crack growth and mechanical crack interaction||#JGR:98:7:1993:12251-12265|Crack+Rock mechanics+Nevada+Fracture
J|0293|Morris,E.+Detrick,R.S.+Minshull,T.A.+|Seismic structure of oceanic crust in the western North Atlantic||#JGR:98:8:1993:13879-13903|Reflexion study+North Atlantic+Oceanic crust+Structure
J|0294|Tate,M.P.+White,N.+Conroy,J.J.|Lithospheric extension and magmatism in the Porcupine Basin west of Ireland||#JGR:98:8:1993:13905-13923|Porcupine Basin+Ireland+Marine seismic investigation+Extension
J|0295|Harding,A.J.+Kent,G.M.+Orcutt,J.A.|A multichannel seismic investigation of upper crustal structure at 9degreesN on the East Pacific Rise: implications for crustal accretion||#JGR:98:8:1993:13925-13944|Marine seismic investigation+East Pacific Rise+Upper crust+Accretion
J|0296|Kent,G.M.+Harding,A.J.+Orcutt,J.A.|Distribution of magma beneath the East Pacific Rise between the Clipperton transform and the 9degrees17'N Deval from forward modeling of common depth point data||#JGR:98:8:1993:13945-13969|Magma+East Pacific Rise+Marine seismic investigation+Common depth point
J|0297|Kent,G.M.+Harding,A.J.+Orcutt,J.A.|Distribution of magma beneath the East Pacific Rise near the 9degrees03'N overlapping spreading center from forward modeling of common depth point data||#JGR:98:8:1993:13971-13995|Magma+East Pacific Rise+Common depth point+Marine seismic investigation
J|0298|Marzocchi,W.+Mulargia,F.|Patterns of hot spot volcanism||#JGR:98:8:1993:14029-14039|Pattern recognition+Hot spot+Volcanism+Centroid-moment tensor
J|0299|Ben-Zion,Y.+Rice,J.R.|Earthquake failure sequences along a cellular fault zone in a three-dimensional elastic solid containing asperity and nonasperity regions||#JGR:98:8:1993:14109-14131|Sequence+Fault zone+Asperity+Numerical method
J|0300|Pacheco,J.F.+Sykes,L.R.+Scholz,C.H.|Nature of seismic coupling along simple plate boundaries of the subduction type||#JGR:98:8:1993:14133-14159|Plate boundary+Coupling+Subduction+Seismogenesis
J|0301|Guest,W.S.+Thomson,C.J.+Spencer,C.P.|Anisotropic reflection and transmission calculations with application to a crustal seismic survey from the East Greenland Shelf||#JGR:98:8:1993:14161-14184|Refraction study+Greenland+Anisotropy+Crustal structure
J|0302|Zhao,L-S.+Helmberger,D.V.|Upper mantle compressional velocity structure beneath the northwest Atlantic Ocean||#JGR:98:8:1993:14185-14196|Upper mantle+Compressional wave+Atlantic Ocean+Velocity structure
J|0303|Florence,A.L.+Miller,S.A.+Keller,C.E.|Decoupling of underground explosions by rubble-filled cavities||#JGR:98:8:1993:14197-14209|Underground explosion+Decoupling+Cavity+Yield
J|0304|Sayers,C.M.|Comment on `Crack models for a transversely isotropic medium' by C. H. Cheng||#JGR:98:8:1993:14211-14215|Comments+Crack+Model+Isotropic medium+Anisotropy|With a reply by the author
J|0305|McGill,S.F.+Sieh,K.E.|Holocene slip rate of the central Garlock fault in southeastern Searles Valley, California||#JGR:98:8:1993:14217-14231|Hazard+Slip+Garlock Fault+Holocene
J|0306|Sylvester,A.G.+Bilham,R.+Jackson,M.+|Aseismic growth of Durmid Hill, southeasternmost San Andreas fault, California||#JGR:98:8:1993:14233-14243|Aseismicity+Uplift+San Andreas Fault+Geodetic survey
J|0307|Yin,A.|Mechanics of wedge-shaped fault blocks. 1. An elastic solution for compressional wedges||#JGR:98:8:1993:14245-14256|Mechanics+Wedge+Block+Fault||#*ELASNAM
J|0308|Hyndman,R.D.+Hamilton,T.S.|Queen Charlotte area Cenozoic tectonics and volcanism and their association with relative plate motions along the northeastern Pacific margin||#JGR:98:8:1993:14257-14277|Queen Charlotte Islands+Tectonics+Plate motion+Reflexion study
J|0309|Russo,R.M.+Speed,R.C.+Okal,E.A.+|Seismicity and tectonics of the southeastern Caribbean||#JGR:98:8:1993:14299-14319|Seismicity+Tectonics+Caribbean+Focal mechanism
J|0310|Chorowicz,J.+Deffontaines,B.|Transfer faults and pull-apart model in the Rhinegraben from analysis of multisource data||#JGR:98:8:1993:14339-14351|Transverse motion+Fault+Rhine-Graben+Profiling
J|0311|Eberhart-Phillips,D.+Michael,A.J.|Three-dimensional velocity structure, seismicity, and fault structure in the Parkfield region, central California||#JGR:98:9:1993:15737-15758|Velocity structure+Seismicity+Fault+Parkfield||#*KETTLEMAN85|#*COALINGA
J|0312|Fan,G-W.+Beck,S.L.+Wallace,T.C.|The seismic source parameters of the 1991 Costa Rica aftershock sequence: evidence for a transcurrent plate boundary||#JGR:98:9:1993:15759-15778|Source parameter+1991+Costa Rica+Sequence||#*COSTARICA91
J|0313|Roecker,S.W.+Sabitova,T.M.+Vinnik,L.P.+|Three-dimensional elastic wave velocity structure of the western and central Tien Shan||#JGR:98:9:1993:15779-15795|Velocity structure+Tien Shan+P-wave+S-wave
J|0314|Kikuchi,M.+Kanamori,H.+Satake,K.|Source complexity of the 1988 Armenian earthquake: evidence for a slow after-slip event||#JGR:98:9:1993:15797-15808|1988+Armenia+Slip+Complex earthquake||#*ARMENIA88
J|0315|Hoshiba,M.|Separation of scattering attenuation and intrinsic absorption in Japan using the multiple lapse time window analysis of full seismogram envelope||#JGR:98:9:1993:15809-15824|Scattering+Attenuation+Absorption+Japan
J|0316|Suarez,G.+Comte,D.|Comment on `Seismic coupling along the Chilean subduction zone' by B. W. Tichelaar and L. J. Ruff||#JGR:98:9:1993:15825-15831|Comments+Coupling+Chile+Subduction+Large earthquake|With a reply by the authors
J|0317|Langbein,J.+Hill,D.P.+Parker,T.N.+|An episode of reinflation of the Long Valley caldera, eastern California: 1989-1991||#JGR:98:9:1993:15851-15870|Long Valley Caldera+Sequence+1989-1991+Inflation||#*MAMMOTH|#*MAMMOTH89
J|0318|Sorey,M.L.+Kennedy,B.M.+Evans,W.C.+|Helium isotope and gas discharge variations associated with crustal unrest in Long Valley caldera, California, 1989-1992||#JGR:98:9:1993:15871-15889|Long Valley Caldera+1989-1992+Seismicity+Deformation||#*MAMMOTH89
J|0319|Blacic,J.D.|Hydration swelling effects on time-dependent deformation of zeolitized tuff||#JGR:98:9:1993:15909-15917|Creep+Deformation+Tuff+Yucca Mountain
J|0320|Rubin,A.M.|Tensile fracture of rock at high confining pressure: implications for dike propagation||#JGR:98:9:1993:15919-15935|Seismicity+Dike+Hydrofracture+Pressure
J|0321|Reinen,L.A.+Weeks,J.D.|Determination of rock friction constitutive parameters using an iterative least squares inversion method||#JGR:98:9:1993:15937-15950|Friction+Fault zone+Rock+Inversion
J|0322|Egbert,G.D.+Booker,J.R.|Imaging crustal structure in southwestern Washington with small magnetometer arrays||#JGR:98:9:1993:15967-15985|Crustal structure+Washington+Seismicity+Magnetism
J|0323|Hashimoto,M.+Jackson,D.D.|Plate tectonics and crustal deformation around the Japanese Islands||#JGR:98:9:1993:16149-16166|Japan+Plate tectonics+Deformation+Seismicity
J|0324|Shemenda,A.I.|Subduction of the lithosphere and back arc dynamics: insights from physical modeling||#JGR:98:9:1993:16167-16185|Subduction+Dynamics+Seismicity+Kuril Islands
J|0325|Wolfe,C.J.+Bergman,E.A.+Solomon,S.C.|Oceanic transform earthquakes with unusual mechanisms or locations: relation to fault geometry and state of stress in the adjacent lithosphere||#JGR:98:9:1993:16187-16211|Transform fault+Oceanic crust+Mechanism+Stress+ISC
J|0326|Hopper,J.R.+Buck,W.R.|The initiation of rifting at constant tectonic force: role of diffusion creep||#JGR:98:9:1993:16213-16221|Creep+Rifting+Tectonics+Lithosphere
J|0327|Janecke,S.U.|Structures in segment boundary zones of the Lost River and Lemhi faults, east central Idaho||#JGR:98:9:1993:16223-16238|Fault+Idaho+Rupture+Segmentation||#*BORAH
J|0328|Weeks,J.D.|Constitutive laws for high-velocity frictional sliding and their influence on stress drop during unstable slip||#JGR:98:10:1993:17637-17648|High velocity+Friction+Stress-drop+Slip
J|0329|Askarpour,V.+Manghnani,M.H.+Richet,P.|Elastic properties of diopside, anorthite, and grossular glasses and liquids: a Brillouin scattering study up to 1400 K||#JGR:98:10:1993:17683-17689|Glass+Velocity+P-wave+S-wave
J|0330|Foxall,W.+Michelini,A.+McEvilly,T.V.|Earthquake travel time tomography of the southern Santa Cruz Mountains: control of fault rupture by lithological heterogeneity of the San Andreas fault zone||#JGR:98:10:1993:17691-17710|San Andreas Fault+Tomography+Rupture+Loma Prieta||#*LOMAPRIETA89
J|0331|Mori,J.|Fault plane determinations for three small earthquakes along the San Jacinto fault, California: search for cross faults||#JGR:98:10:1993:17711-17722|Fault plane solution+San Jacinto Fault+Small earthquake+Aftershock
J|0332|Pratt,T.L.+Mondary,J.F.+Brown,L.D.+|Crustal structure and deep reflector properties: wide angle shear and compressional wave studies of the midcrustal Surrency Bright Spot beneath southeastern Georgia||#JGR:98:10:1993:17723-17735|Georgia+Crustal structure+Reflector+Compressional wave
J|0333|Papadopoulos,G.A.+Skafida,H.G.+Vassiliou,I.T.|Nonlinearity of the magnitude-frequency relation in the Hellenic Arc-Trench system and the characteristic earthquake model||#JGR:98:10:1993:17737-17744|Nonlinearity+Frequency-magnitude relation+Hellenic arc+Shallow earthquake
J|0334|Lomnitz-Adler,J.|Automaton models of seismic fracture: constraints imposed by the magnitude-frequency relation||#JGR:98:10:1993:17745-17756|Fracture+Frequency-magnitude relation+Model+Dynamics
J|0335|Chastel,Y.B.+Dawson,P.R.+Wenk,H-R.+|Anisotropic convection with implications for the upper mantle||#JGR:98:10:1993:17757-17771|Anisotropy+Convection+Upper mantle+P-wave
J|0336|Becker,D.J.+Blackwell,D.|Gravity and hydrothermal modeling of the Roosevelt Hot Springs area, southwestern Utah||#JGR:98:10:1993:17787-17800|Utah+Hot spring+Reflexion study+Modelling
J|0337|Delaney,P.T.+Miklius,A.+Arnadottir,T.+|Motion of Kilauea volcano during sustained eruption from the Puu Oo and Kupaianaha vents, 1983-1991||#JGR:98:10:1993:17801-17820|Kilauea+Eruption+1983-1991+Seismicity||#*HAWAII|#*KILAUEA89
J|0338|Ebinger,C.J.+Deino,A.L.+Tesha,A.L.+|Tectonic controls on rift basin morphology: evolution of the northern Malawi (Nyasa) rift||#JGR:98:10:1993:17821-17836|Malawi+Rift+Basin+Reflexion study
J|0339|Kerr,H.G.+White,N.+Brun,J-P.|An automatic method for determining three-dimensional normal fault geometries||#JGR:98:10:1993:17837-17857|Normal fault+Geometry+Model+Reflexion study
J|0340|Scholz,C.H.+Saucier,F.J.|What do the Cajon Pass stress measurements say about stress on the San Andreas fault? Comment on `In situ stress measurements to 3.5km depth in the Cajon Pass scientific research borehole: implications for the mechanics of crustal faulting' by M. D. Zoback and J. H. Healy||#JGR:98:10:1993:17867-17873|Comments+Cajon Pass+Stress+Mechanics+Faulting|With a reply by the authors
J|0341|Neumann,G.A.+Forsyth,D.W.|The paradox of the axial profile: isostatic compensation along the axis of the Mid-Atlantic Ridge?||#JGR:98:10:1993:17891-17910|Isostasy+Mid-Atlantic Ridge+Microseismicity+Plate boundary
J|0342|Cowie,P.A.+Scholz,C.H.+Edwards,M.H.+|Fault strain and seismic coupling on mid-ocean ridges||#JGR:98:10:1993:17911-17920|Mid-ocean ridge+Coupling+Fault+Strain
J|0343|Seno,T.+Stein,S.+Gripp,A.E.|A model for the motion of the Philippine Sea plate consistent with NUVEL-1 and geological data||#JGR:98:10:1993:17941-17948|Plate motion+Philippine Sea+Slip+Large earthquake+ISC
J|0344|Cordery,M.J.+Morgan,J.P.|Convection and melting at mid-ocean ridges||#JGR:98:11:1993:19477-19503|Convection+Melting+Mid-ocean ridge+Travel-times
J|0345|Wang,X.+Cochran,J.R.|Gravity anomalies, isostasy, and mantle flow at the East Pacific Rise crest||#JGR:98:11:1993:19505-19531|East Pacific Rise+Reflexion study+Magma chamber+Gravity
J|0346|White,W.M.+McBirney,A.R.+Duncan,R.A.|Petrology and geochemistry of the Galapagos Islands: portrait of a pathological mantle plume||#JGR:98:11:1993:19533-19563|Galapagos+Seismicity+Geochemistry+Petrology
J|0347|Filmer,P.E.+McNutt,M.K.+Wolfe,C.J.|Elastic thickness of the lithosphere in the Marquesas and Society Islands||#JGR:98:11:1993:19565-19577|Marquesas Islands+Thickness+Lithosphere+Love wave
J|0348|Gillis,K.M.+Thompson,G.+Kelley,D.S.|A view of the lower crustal component of hydrothermal systems at the Mid-Atlantic Ridge||#JGR:98:11:1993:19597-19619|Lower crust+Mid-Atlantic Ridge+Hydrothermy+Focal depth
J|0349|Rutherford,M.J.+Hill,P.M.|Magma ascent rates from amphibole breakdown: an experimental study applied to the 1980-1986 Mount St Helens eruptions||#JGR:98:11:1993:19667-19685|Seismicity+Mount St. Helens+Eruption+1980-1986
J|0350|Gordeev,E.I.|Modeling of volcanic tremor as explosive point sources in a single-layered, elastic half-space||#JGR:98:11:1993:19687-19703|Modelling+Volcanic tremor+Point source+Half-space
J|0351|Wu,T-C.+Bassett,W.A.+Burnley,P.C.+|Shear-promoted phase transitions in Fe2Si04 and Mg2Si04 and the mechanism of deep earthquakes||#JGR:98:11:1993:19767-19776|Olivine+Phase transition+Deep earthquake+Deformation
J|0352|Sherman,D.M.|Equation of state, elastic properties, and stability of CaSiO3 perovskite: first principles (periodic Hartree-Fock) results||#JGR:98:11:1993:19795-19805|Perovskite+Velocity+Equation of state+Elasticity
J|0353|Green,D.H.+Cooper,R.F.|Dilatational anelasticity in partial melts: viscosity, attenuation, and velocity dispersion||#JGR:98:11:1993:19807-19817|Velocity+Attenuation+Melt+Anelasticity
J|0354|Hauksson,E.+Jones,L.M.+Hutton,L.K.+|The 1992 Landers earthquake sequence: seismological observations||#JGR:98:11:1993:19835-19858|1992+Landers+Sequence+Southern California||#*JOSHUATREE92|#*LANDERS92|#*BIGBEAR92
J|0355|Wallace,M.H.+Wallace,T.C.|The paradox of the Loma Prieta earthquake: why did rupture terminate at depth?||#JGR:98:11:1993:19859-19867|Loma Prieta+1989+Rupture+Depth||#*LOMAPRIETA89
J|0356|Romero,A.E.+McEvilly,T.V.+Majer,E.L.|Velocity structure of the Long Valley caldera from the inversion of local earthquake P and S travel times||#JGR:98:11:1993:19869-19879|Velocity structure+Long Valley Caldera+P-wave+S-wave
J|0357|Wolf,L.W.+Cipar,J.J.|Through thick and thin: a new model for the Colorado Plateau from seismic refraction data from Pacific to Arizona crustal experiment||#JGR:98:11:1993:19881-19894|Refraction study+Colorado+Crustal structure+Upper mantle
J|0358|Deverchere,J.+Houdry,F.|Seismicity, active faults and stress field of the north Muya region, Baikal rift: new insights on the rheology of extended continental lithosphere||#JGR:98:11:1993:19895-19912|Seismicity+Fault+Baikalian Rift+Continental lithosphere
J|0359|Wilcock,W.S.D.+Dougherty,M.E.+Solomon,S.C.+|Seismic propagation across the East Pacific Rise: finite difference experiments and implications for seismic tomography||#JGR:98:11:1993:19913-19932|Propagation+East Pacific Rise+Tomography+Finite difference method
J|0360|Park,J.|The sensitivity of seismic free oscillations to upper mantle anisotropy 1. Zonal symmetry||#JGR:98:11:1993:19933-19949|Free oscillation+Upper mantle+Anisotropy+Zone
J|0361|Savage,J.C.+Lisowski,M.+Murray,M.H.|Deformation from 1973 through 1991 in the epicentral area of the 1992 Landers, California, earthquake (Ms=7.5)||#JGR:98:11:1993:19951-19958|Deformation+1973-1991+Landers+1992||#*LANDERS92|#*JOSHUATREE92|#*BIGBEAR92|#*HOMESTEAD
J|0362|Furukawa,Y.|Depth of the decoupling plate interface and thermal structure under arcs||#JGR:98:11:1993:20005-20013|Interface+Subduction+Thermal structure+Focal depth+Arc
J|0363|O'Neill,B.+Bass,J.D.+Rossman,G.R.|Elastic properties of hydrogrossular garnet and implications for water in the upper mantle||#JGR:98:11:1993:20031-20037|Garnet+Elasticity+Upper mantle+Velocity
J|0364|Feigl,K.L.+Agnew,D.C.+Bock,Y.+|Space geodetic measurement of crustal deformation in central and southern California, 1984-1992||#JGR:98:12:1993:21677-21712|Geodetic measurement+Deformation+1984-1992+Southern California
J|0365|Larson,K.M.|Application of the Global Positioning System to crustal deformation measurements 3. Result from the southern California borderlands||#JGR:98:12:1993:21713-21726|Deformation+Global Positioning System+Southern California+Seismicity
J|0366|Donnellan,A.+Hager,B.H.+King,R.W.+|Geodetic measurement of deformation in the Ventura basin region, southern California||#JGR:98:12:1993:21727-21739|Geodetic measurement+Southern California+Ventura Basin+Seismicity
J|0367|Westaway,R.|Quaternary uplift of southern Italy||#JGR:98:12:1993:21741-21772|Uplift+Southern Italy+Seismicity+Field work
J|0368|Avouac,J.P.+Peltzer,G.|Active tectonics in southern Xinjiang, China: analysis of terrace riser and normal fault scarp degradation along the Hotan-Qira fault system||#JGR:98:12:1993:21773-21807|Xinjiang+Tectonics+Seismicity+Faulting
J|0369|Cowie,P.A.+Vanneste,C.+Sornette,D.|Statistical physics model for the spatiotemporal evolution of faults||#JGR:98:12:1993:21809-21821|Fault+Evolution+Model+Rupture
J|0370|Johnson,A.M.+Fleming,R.W.|Formation of left-lateral fractures within the Summit Ridge shear zone, 1989 Loma Prieta, California, earthquake||#JGR:98:12:1993:21823-21837|1989+Loma Prieta+Fracture+Mapping||#*LOMAPRIETA89
J|0371|Freymueller,J.T.+Kellogg,J.N.+Vega,V.|Plate motions in the North Andean region||#JGR:98:12:1993:21853-21863|Plate motion+Andes+Global Positioning System+Large earthquake
J|0372|Hyndman,R.D.+Wang,K.+Yuan,T.+|Tectonic sediment thickening, fluid expulsion, and the thermal regime of subduction zone accretionary prisms: the Cascadia margin off Vancouver Island||#JGR:98:12:1993:21865-21876|Cascadia subduction zone+Accretionary prism+Profile+Thermal structure
J|0373|Ten Brink,U.S.+Ben-Avraham,Z.+Bell,R.E.+|Structure of the Dead Sea pull-apart basin from gravity analyses||#JGR:98:12:1993:21877-21894|Dead Sea+Gravity+Basin+Seismicity
J|0374|Ricard,Y.+Richards,M.A.+Lithgow-Bertelloni,C.+|A geodynamic model of mantle density heterogeneity||#JGR:98:12:1993:21895-21909|Tomography+Geodynamic model+Mantle+Heterogeneity
J|0375|Schubert,G.|Introduction to special section on physical processes in geodynamics||#JGR:98:12:1993:21925-21926|Introduction+Geodynamics+Physical process+Earthquake
J|0376|Rundle,J.B.|Magnitude-frequency relations for earthquakes using a statistical mechanical approach||#JGR:98:12:1993:21943-21949|Frequency-magnitude relation+Small earthquake+Fault zone+Statistical method
J|0377|Scholz,C.H.+Dawers,N.H.+Yu,J-Z.+|Fault growth and fault scaling laws: preliminary results||#JGR:98:12:1993:21951-21961|Fault+Scaling+Crack+Growth
J|0378|Glatzmaier,G.A.+Schubert,G.|Three-dimensional spherical models of layered and whole mantle convection||#JGR:98:12:1993:21969-21976|Layered medium+Mantle convection+Slab+670km discontinuity
J|0379|Snieder,R.+Sambridge,M.S.|The ambiguity in ray perturbation theory||#JGR:98:12:1993:22021-22034|Ray theory+Travel-times+Perturbation+Tomography
J|0380|Muir-Wood,R.+King,G.C.P.|Hydrological signatures of earthquake strain||#JGR:98:12:1993:22035-22068|Hydrology+Major earthquake+Strain+Displacement
J|0381|Sanders,C.O.|Reanalysis of S-to-P amplitude ratios for gross attenuation structure, Long Valley caldera, California||#JGR:98:12:1993:22069-22079|Long Valley Caldera+Attenuation+Amplitude+P-wave+S-wave
J|0382|Nagy,G.+Murakami,H.+Hegemier,G.A.+|Experimental and analytical study of the dynamic response of low-porosity brittle rocks||#JGR:98:12:1993:22081-22094|Dynamics+Response+Rock+Propagation
J|0383|Jarchow,C.M.+Thompson,G.A.+Catchings,R.D.+|Seismic evidence for active magmatic underplating beneath the Basin and Range Province||#JGR:98:12:1993:22095-22108|Reflexion study+Basin & Range+Magma+Converted wave
J|0384|Zhao,L-S.|Lateral variations and azimuthal isotropy of Pn velocities beneath Basin and Range Province||#JGR:98:12:1993:22109-22122|Basin & Range+Isotropy+Lateral variation+Pn-wave
J|0385|Hartzell,S.H.+Langer,C.J.|Importance of model parameterization in finite fault inversions: application to the 1974 MW 8.0 Peru earthquake||#JGR:98:12:1993:22123-22134|Parameters+Fault+Inversion+Peru||#*LIMA
J|0386|Ryan,H.F.+Scholl,D.W.|Geologic implications of great interplate earthquakes along the Aleutian arc||#JGR:98:12:1993:22135-22146|Great earthquake+Geology+Aleutian Arc+Reflexion study
J|0387|Lacks,D.J.+Gordon,R.G.|Calculations of pressure-induced phase transitions in silica||#JGR:98:12:1993:22147-22155|Phase transition+Silica+670km discontinuity+Pressure
J|0388|Jansen,D.P.+Carlson,S.R.+Young,R.P.+|Ultrasonic imaging and acoustic emission monitoring of thermally induced microcracks in Lac du Bonnet granite||#JGR:98:12:1993:22231-22243|Ultrasonics+Acoustic emission+Microcrack+Granite
J|0389|Dvorak,J.J.+Dzurisin,D.|Variations in magma supply rate at Kilauea Volcano, Hawaii||#JGR:98:12:1993:22255-22268|Magma+Kilauea+1919-1984+Seismicity
J|0390|Ryan,M.P.|Neutral buoyancy and the structure of mid-ocean ridge magma reservoirs||#JGR:98:12:1993:22321-22338|Mid-ocean ridge+Magma+Profile+Velocity structure
J|0391|Mitchell,N.C.|A model for attenuation of backscatter due to sediment accumulations and its application to determine sediment thicknesses with GLORIA sidescan sonar||#JGR:98:12:1993:22477-22493|Attenuation+Sediment+GLORIA+Imaging
J|0392|Erdogan,N.+Nowack,R.L.|Slant-stack velocity analysis for one-dimensional upper mantle structure using short-period data from MAJO||#PAG:141:1:1993:1-24|Slant stack+Upper mantle+Velocity structure+Northwest Pacific
J|0393|Vorobieva,I.A.+Panza,G.F.|Prediction of the occurrence of related strong earthquakes in Italy||#PAG:141:1:1993:25-41|Strong earthquake+Italy+Prediction+Algorithm
J|0394|Delibasis,N.D.+Drakopoulos,J.C.|The Milos Island earthquake of March 20, 1992 and its tectonic significance||#PAG:141:1:1993:43-58|AEgean+1992+Earthquake+Focal mechanism||#*MILOS92
J|0395|Muco,B.+Puka,L.|Periodic features of seismic activity in Albania||#PAG:141:1:1993:59-69|Albania+Earthquake cycle+Seismicity+1801-1992+ISC
J|0396|Beltrami,H.+Mareschal,J-C.|Strange seismic attractor?||#PAG:141:1:1993:71-81|Time series+Parkfield+Chaos+1969-1987
J|0397|Martinez,M.D.+Lana,X.|Annealing algorithms in computing stress tensors: a set of numerical simulations for local stress tensor recovery||#PAG:141:1:1993:83-100|Tensor+Stress+Algorithm+Lithosphere
J|0398|Bina,C.R.|Mutually consistent estimates of upper mantle composition from seismic velocity contrasts at 400 km depth||#PAG:141:1:1993:101-109|Composition+Upper mantle+Velocity+400km discontinuity
J|0399|King,C-Y.+Zhang,W.+King,B-S.|Radon anomalies on three kinds of faults in California||#PAG:141:1:1993:111-124|Radon+Fault+California+Anomaly||#*LANDERS92
J|0400|Bella,F.+Bella,R.+Biagi,P.F.+|Automatic equipment to monitor groundwater radon||#PAG:141:1:1993:125-137|Equipment+Radon+Groundwater+Automatic analysis
J|0401|Mukerji,T.+Mavko,G.|Review of `Seismic applications of acoustic reciprocity' by J. T. Fokkema and P. M. Van den Berg||#PAG:141:1:1993:191-192|Review+Acoustic medium+Wave field+Reciprocity|Elsevier Science Publishers, 1993
J|0402|Sondergeld,C.H.+Rai,C.S.|A new exploration tool: quantitative core characterization||#PAG:141:2-4:1993:249-268|Impedance+Reflexion+Exploration+Physical properties
J|0403|Wang,H.F.|Quasi-static poroelastic parameters in rock and their geophysical applications||#PAG:141:2-4:1993:269-286|Poroelasticity+Seismicity+Hydrogeology+Rock
J|0404|Anselmetti,F.S.+Eberli,G.P.|Controls on sonic velocity in carbonates||#PAG:141:2-4:1993:287-323|Carbonate+Velocity+Porosity+Control
J|0405|Spetzler,H.A.+Yoneda,A.|Performance of the complete travel-time equation of state at simultaneous high pressure and temperature||#PAG:141:2-4:1993:379-392|Travel-times+Equation of state+High pressure+High temperature
J|0406|Grad,M.+Tripolsky,A.A.|Structure of the Ukrainian Shield. Part 1: seismic data and 1-D models||#APL:41:3:1993:177-195|Ukrainian Shield+Low-velocity layer+Deep seismic sounding+Velocity-depth function
J|0407|Lasocki,S.|Statistical prediction of strong mine tremors||#APL:41:3:1993:197-234|Mine tremor+Statistical method+Probability+Induced seismicity
J|0408|Gadomska,B.|Isoseismal distributions, focal mechanisms and other tectonic characteristics in Fennoscandian and Canadian Shields||#APL:41:3:1993:235-268|Canadian Shield+Fennoscandia+Focal mechanism+Isoseismal
J|0409|Tselentis,G-A.+Ifantis,A.|Self-potential variations with time and their possible relation with seismic activity in western Greece||#APL:41:3:1993:269-279|Greece+Precursor+Electrotelluric field+Temporal variation||#*AKHAIA92|#*KEFALLINIA92
J|0410|Grad,M.+Tripolsky,A.A.|Structure of the Ukrainian Shield. Part 2: 2-D models of the upper crust derived from P and S wave data||#APL:41:4:1993:325-336|Ukrainian Shield+Upper crust+Deep seismic sounding+Modelling
J|0411|Ifantis,A.+Tselentis,G-A.+Varotsos,P.+|Long-term variations of the Earth's electric field preceding two earthquakes in Greece||#APL:41:4:1993:337-350|Precursor+Greece+Geoelectricity+Temporal variation||#*KALAMATA|#*VOLOS85
J|0412|Wiejacz,P.|The effect of labor strike upon induced seismicity at Polkowice copper mine, Poland||#APL:41:4:1993:351-362|Induced seismicity+Mining+Poland+b-Value
J|0413|Rusiniak,L.|Laboratory studies of the water content effect on electric properties of the rock medium||#APL:41:4:1993:409-421|Laboratory+Rock+Water+Electrical properties
J|0414|Giardini,D.+Basham,P.W.|The Global Seismic Hazard Assessment Program (GSHAP)||#AGF:36:3-4:1993:3-13|GSHAP+Hazard+Natural disaster+Earthquake
J|0415|Basham,P.W.+Giardini,D.|Technical guidelines for global hazard assessment||#AGF:36:3-4:1993:15-24|GSHAP+Hazard+Earthquake catalogue+Regionalization+ISC
J|0416|Denham,D.+Smith,W.D.|Earthquake hazard assessment in the Australian southwest Pacific region. A review of the status quo||#AGF:36:3-4:1993:27-39|Southwest Pacific+Hazard+Review+Zonation
J|0417|Zhang,P-Z.|Seismic hazard assessment in continental Asia||#AGF:36:3-4:1993:41-59|Asia+Hazard+Zonation+Space-time distribution
J|0418|Gupta,H.K.|Seismic hazard assessment in the Alpide belt from Iran to Burma||#AGF:36:3-4:1993:61-82|Alpide belt+Hazard+Historical earthquake+Map||#*CACHAR|#*NINDIA91|#*IMPHAL88
J|0419|Ulomov,V.I.+Strakhov,V.+Giardini,D.|Seismic hazard assessment in northern Eurasia||#AGF:36:3-4:1993:83-92|Eurasia+Hazard+Map+Regionalization
J|0420|Mayer-Rosa,D.|Towards uniform earthquake hazard assessment in Europe||#AGF:36:3-4:1993:93-102|Europe+Hazard+Frequency-magnitude relation+Mapping
J|0421|Shedlock,K.M.|Status of seismic hazard assessment around the globe: North and South America||#AGF:36:3-4:1993:103-129|Hazard+North America+South America+Probability+Map
J|0422|Johnston,A.C.+Halchuk,S.|The seismicity data base for the Global Seismic Hazard Assessment Program||#AGF:36:3-4:1993:133-151|Historical seismicity+GSHAP+Data base+Magnitude+ISC
J|0423|Muir-Wood,R.|From global seismotectonics to global seismic hazard||#AGF:36:3-4:1993:153-168|Seismotectonics+Hazard+Global seismicity+Zonation
J|0424|Boore,D.M.+Ambraseys,N.N.|Some notes concerning prediction of ground motions for GSHAP||#AGF:36:3-4:1993:169-180|GSHAP+Ground motion+Prediction+Hazard
J|0425|McGuire,R.K.|Computations of seismic hazard||#AGF:36:3-4:1993:181-200|Hazard+Occurrence+Risk+Global seismicity
J|0426|Guidoboni,E.+Stucchi,M.|The contribution of historical records of earthquakes to the evaluation of seismic hazard||#AGF:36:3-4:1993:201-215|Hazard+Seismicity+Historical earthquake+Earthquake catalogue
J|0427|Zoback,M.L.|Utilizing in-situ stress data for seismic hazard assessment: the World Stress Map Project's contribution to GSHAP||#AGF:36:3-4:1993:217-224|Stress+Hazard+GSHAP+Map
J|0428|Trifonov,V.G.+Machette,M.N.|The World Map of Major Active Faults project||#AGF:36:3-4:1993:225-236|Fault+Map+GSHAP+Global seismology
J|0429|Pantosti,D.+Yeats,R.S.|Paleoseismology of great earthquakes of the late Holocene||#AGF:36:3-4:1993:237-257|Palaeoseismology+Great earthquake+Holocene+Historical earthquake||#*BORAH|#*CAMPANIA
J|0430|Gasparini,C.+De Rubeis,V.+Maramai,A.+|The November 23, 1980 Irpinia earthquake: an analysis with the new procedure of intensity evaluation||#AGF:36:5-6:1993:35-46|Irpinia+1980+Destructive earthquake+Macroseismic data||#*CAMPANIA
J|0431|Bjarnason,I.Th.+Menke,W.|Application of the POCS inversion method to cross-borehole imaging||#GPS:58:7:1993:941-948|Cross-hole+Imaging+Inversion+Algorithm
J|0432|Kosik,D.W.|Propagation of a nonlinear seismic pulse in an anelastic homogeneous medium||#GPS:58:7:1993:949-963|Nonlinear wave+Pulse+Anelastic medium+Propagation
J|0433|Hsu,C-J.+Schoenberg,M.|Elastic waves through a simulated fractured medium||#GPS:58:7:1993:964-977|Elastic wave+Velocity+Laboratory+Fracture
J|0434|Rosenbaum,J.H.|Reasonable choices for material constants in seismic modeling||#GPS:58:7:1993:978-986|Earth model+Layered medium+Stability+Anisotropic medium
J|0435|Fischer,R.+Lees,J.M.|Shortest path ray tracing with sparse graphs||#GPS:58:7:1993:987-996|Ray tracing+Path+Graph
J|0436|Kennett,B.L.N.|A two-layer stacking procedure to enhance converted waves||#GPS:58:7:1993:997-1001|Stacking+Converted wave+Marine seismic investigation+Velocity
J|0437|Reiter,E.C.+Purdy,G.M.+Toksoz,M.N.|2-D velocity inversion/imaging of large offset seismic data via the tau-p domain||#GPS:58:7:1993:1002-1016|Tau-p method+Inversion+Refraction data+Velocity-depth function
J|0438|Ata,E.Z.+Corrigan,D.+McMechan,G.A.+|Estimation of near-surface elastic parameters using multicomponent seismic data||#GPS:58:7:1993:1017-1029|Reflexion data+Inhomogeneous medium+Subsurface+Surface wave
J|0439|Meinardus,H.A.+Schleicher,K.L.|3-D time-variant dip moveout by the f-k method||#GPS:58:7:1993:1030-1041|Dip moveout+Common midpoint+Frequency-wavenumber analysis+Salt dome
J|0440|Lazear,G.D.|Mixed-phase wavelet estimation using fourth-order cumulants||#GPS:58:7:1993:1042-1051|Wavelet+Phase+Deconvolution+Reflectivity
J|0441|Rajan,N.S.|Discussion on `The use of the Hartley transform in geophysical applications' by R. Saatcilar, S. Ergintav and N. Canitez||#GPS:58:7:1993:1058-1060|Comments+Computational seismology+Hartley transform+Applied geophysics|With a reply by the authors
J|0442|Lerche,I.|Review of `Techniques for determining probabilities of geological events and processes' edited by R. L. Hunter and C. J. Mann||#GPS:58:7:1993:1061-1062|Review+Technique+Probability+Earth sciences|Oxford University Press, 1992, 364p
J|0443|Norris,A.N.+Sinha,B.K.|Weak elastic anisotropy and the tube wave||#GPS:58:8:1993:1091-1098|Tube wave+Anisotropy+Borehole+Velocity
J|0444|Cambois,G.+Stoffa,P.L.|Surface-consistent phase decomposition in the log/Fourier domain||#GPS:58:8:1993:1099-1111|Common midpoint+Phase+Deconvolution+Algorithm
J|0445|Schleicher,J.+Tygel,M.+Hubral,P.|3-D true amplitude finite-offset migration||#GPS:58:8:1993:1112-1126|Migration+Reflexion+Ray theory+Amplitude
J|0446|Harrison,M.P.+Stewart,R.R.|Poststack migration of P-SV seismic data||#GPS:58:8:1993:1127-1135|Migration+P-SV wave+Velocity+Diffraction
J|0447|Rekdal,T.+Doornbos,D.J.|A modified form of diffraction tomography to image boundary structures||#GPS:58:8:1993:1136-1147|Imaging+Diffraction+Tomography+Boundary
J|0448|MacKay,S.+Abma,R.|Depth-focusing analysis using a wavefront-curvature criterion||#GPS:58:8:1993:1148-1156|Curvature+Wavefront+Moveout+Depth
J|0449|Vinje,V.+Iverson,E.+Gjoystdal,H.|Traveltime and amplitude estimation using wavefront construction||#GPS:58:8:1993:1157-1166|Ray tracing+Travel-times+Amplitude+Wavefront
J|0450|Varela,C.L.+Rosa,A.L.R.+Ulrych,T.J.|Modeling of attenuation and dispersion||#GPS:58:8:1993:1167-1173|Attenuation+Dispersion+Modelling+Algorithm
J|0451|Ziolkowski,A.|Determination of the signature of a dynamite source using source scaling, part 1: theory||#GPS:58:8:1993:1174-1182|Signature+Explosion seismology+Source+Scaling
J|0452|Ziolkowski,A.+Bokhorst,K.|Determination of the signature of a dynamite source using source scaling, part 2: experiment||#GPS:58:8:1993:1183-1194|Signature+Explosion seismology+Source+Scaling
J|0453|Kagansky,A.+Loewenthal,D.|Estimation of a point source wavelet in elastic media||#GPS:58:8:1993:1195-1199|Point source+Wavelet+Elastic medium+P-wave
J|0454|Juhlin,C.+Young,R.|Implication of thin layers for amplitude variation with offset (AVO) studies||#GPS:58:8:1993:1200-1204|Layered medium+Coal seam+Amplitude+Offset|Short note
J|0455|Graebner,M.|Discussion on `Imaging salt with turning seismic waves' by D. Hale, N. R. Hill and J. Stefani||#GPS:58:8:1993:1205-1206|Comments+Imaging+Salt dome+Seismic waves|With a reply by one of the authors and a further response
J|0456|Saha,J.G.+Mehta,C.H.+Benjamin,S.|Discussion on `Decomposition into minimum and maximum phase components' by E.Eisner and G. Hampson||#GPS:58:8:1993:1207-1212|Comments+Decomposition+Phase+Wavelet|With a reply by the authors
J|0457|Green,W.R.|Review of `An introduction to exploration geophysics: 2nd edition' by P. Kearey and M. Brooks||#GPS:58:8:1993:1217|Review+Exploration+Geophysics+Reflexion data
J|0458|Schlue,J.W.|Review of `Earthquake hazard analysis: issues and insights' by L. Reiter||#GPS:58:8:1993:1217-1218|Review+Hazard+Probability+Seismology
J|0459|Khalil,A.A.+Stewart,R.R.+Henley,D.C.|Full-waveform processing and interpretation of kilohertz cross-well seismic data||#GPS:58:9:1993:1248-1256|Cross-hole+Data processing+Oil field+Imaging
J|0460|Renlie,L.+Raaen,A.M.|Acoustic wave propagation in a fluid-filled borehole surrounded by a formation with stress-relief-induced anisotropy||#GPS:58:9:1993:1257-1269|Acoustic wave+Borehole+Anisotropy+Fluid
J|0461|Lazaratos,S.K.+Rector,J.W.+Harris,J.M.+|High-resolution, cross-well reflection imaging: potential and technical difficulties||#GPS:58:9:1993:1270-1280|Cross-hole+Imaging+Reflexion+High resolution
J|0462|Xu,Y.+Gardner,G.H.F.+McDonald,J.A.|Some effects of velocity variation on AVO and its interpretation||#GPS:58:9:1993:1297-1300|Velocity+Reflexion+Incidence, Angle of+Amplitude
J|0463|Lee,D.+Jackson,G.M.+Mason,I.M.|Partially coherent migration||#GPS:58:9:1993:1301-1313|Migration+Stack+Coherence+Error
J|0464|Schuster,G.T.+Quintus-Bosz,A.|Wavepath eikonal traveltime inversion: theory||#GPS:58:9:1993:1314-1323|Travel-times+Inversion+Tomography+Eikonal equation
J|0465|Spagnolini,U.|2-D phase unwrapping and phase aliasing||#GPS:58:9:1993:1324-1334|Signal+Phase+First arrival+Wavelet
J|0466|Amundsen,L.|Wavenumber-based filtering of marine point-source data||#GPS:58:9:1993:1335-1348|Marine seismic investigation+Point source+Filtering+Frequency-wavenumber analysis
J|0467|Qin,F.+Schuster,G.T.|First-arrival traveltime calculation for anisotropic media||#GPS:58:9:1993:1349-1358|Anisotropic medium+First arrival+Travel-times+Wavefront
J|0468|Ikelle,L.T.+Yung,S.K.+Daube,F.|2-D random media with ellipsoidal autocorrelation functions||#GPS:58:9:1993:1359-1372|Inhomogeneous medium+Autocorrelation+Finite difference method+Synthetic seismogram
J|0469|Sincer,I.+Kayiran,T.|Relationship between Deregowski-Rocca and Hale operators||#GPS:58:9:1993:1373-1374|Operator+Zero offset+Mathematical equation+Reflexion|Short note
J|0470|Anderson,N.L.+Knapp,R.|An overview of some of the large scale mechanisms of salt dissolution in western Canada||#GPS:58:9:1993:1375-1387|Salt+Canada+Mechanism+Reflexion study
J|0471|Kendall,C.|Review of `Understanding the Earth: a new synthesis' edited by G. C. Brown, C. J. Hawkesworth and R. C. L. Wilson||#GPS:58:9:1993:1389|Review+Earth sciences+Seismology+Vertical seismic profiling|Cambridge University Press, New York, 1992, 551p
J|0472|Ellefsen,K.J.+Burns,D.R.+Cheng,C.H.|Homomorphic processing of the tube wave generated during acoustic logging||#GPS:58:10:1993:1400-1407|Acoustic logging+Tube wave+Borehole+Homomorphic method
J|0473|Neff,D.B.|Amplitude map analysis using forward modeling in sandstone and carbonate reservoirs||#GPS:58:10:1993:1428-1441|Amplitude+Map+Reservoir+Lithology
J|0474|Larner,K.|Dip-moveout error in transversely isotropic media with linear velocity variation in depth||#GPS:58:10:1993:1442-1453|Error+Depth+Common midpoint+Dipping reflector
J|0475|Larner,K.+Cohen,J.K.|Migration error in transversely isotropic media with linear velocity variation in depth||#GPS:58:10:1993:1454-1467|Migration+Error+Dipping reflector+Velocity
J|0476|Slack,R.D.+Ebrom,D.A.+McDonald,J.A.+|Thin layers and shear-wave splitting||#GPS:58:10:1993:1468-1480|Shear wave splitting+Thin layer+Anisotropic medium+Hodogram
J|0477|Parker,J.C.+Pelton,J.R.+Dougherty,M.E.|A versatile shotgun source for engineering and groundwater seismic surveys||#GPS:58:10:1993:1511-1516|Groundwater+Seismic survey+Source+Shotgun|Short note
J|0478|Kessler,D.+Chan,W-K.|DMO velocity analysis with Jacubowicz's dip-decomposition method||#GPS:58:10:1993:1517-1524|Dip moveout+Velocity+Decomposition+Common midpoint|Short note
J|0479|Tang,X.M.|Waveform inversion of seismic velocities and attenuation from low-frequency waves in cylindrical bars||#GPS:58:10:1993:1525-1531|Waveform+Inversion+Low frequency+Laboratory
J|0480|Paul,R.J.|Seismic detection of overpressuring and fracturing: an example from the Qaidam Basin, People's Republic of China||#GPS:58:10:1993:1532-1543|China+Hydrocarbon+Seismic survey+Common depth point
J|0481|Lerche,I.|Review of `Fractal models in the Earth sciences' edited by G. Korvin||#GPS:58:10:1993:1546|Review+Fractal+Earth sciences+Model|Elsevier Science Publishers, Amsterdam, 1992, 396p
J|0482|Kendall,C.|Review of `Structural traps VI: treatise of petroleum geology atlas of oil and gas fields' compiled by N. H. Foster and E. A. Beaumont||#GPS:58:10:1993:1546-1554|Review+Trap+Geologic structure+Map|AAPG, Tulsa, 1992, 342p
J|0483|Mahrer,K.D.+Zook,B.J.|A field test of an electrodeless arc discharge, borehole seismic source||#GPS:58:11:1993:1558-1564|Sparker+Down-hole source+Borehole+Spectral characteristics
J|0484|Fisher,R.+Mason,I.M.+Mosher,C.C.|Cavitation-induced seismic events caused by small explosions in boreholes||#GPS:58:11:1993:1565-1572|Explosion+Borehole+Cavity+Shock wave
J|0485|Tieman,H.J.|Description of a scanless method of stacking velocity analysis||#GPS:58:11:1993:1596-1606|Stacking+Velocity+Data analysis+Common midpoint
J|0486|Pullammanappallil,S.K.+Louie,J.N.|Inversion of seismic reflection traveltimes using a nonlinear optimization scheme||#GPS:58:11:1993:1607-1620|Nonlinear inversion+Travel-times+Reflexion+Garlock Fault
J|0487|Mittet,R.+Houlder,T.|Sensitivity of reflected and transmitted seismic data||#GPS:58:11:1993:1621-1628|Sensitivity+Reflexion+Transmission+Perturbation
J|0488|Bickel,S.H.|Similarity and the inverse Q filter: the Pareto-Levy stretch||#GPS:58:11:1993:1629-1633|Filter+Pulse+Wavelet+Time domain
J|0489|Arntsen,B.+Ursin,B.|Estimation of reflection coefficients from zero-offset field data||#GPS:58:11:1993:1634-1645|Reflexion coefficient+Zero offset+Inversion+Marine seismic investigation
J|0490|Cardimona,S.+Garmany,J.|Smoothing operators for waveform tomographic imaging||#GPS:58:11:1993:1646-1654|Imaging+Tomography+Waveform+Operator
J|0491|Michelena,R.J.|Singular value decomposition for cross-well tomography||#GPS:58:11:1993:1655-1661|Cross-hole+Tomography+Decomposition+Anisotropy
J|0492|Hinds,R.C.+Kuzmiski,R.+Anderson,N.L.+|An integrated surface and borehole seismic case study: Fort St. John Graben area, Alberta, Canada||#GPS:58:11:1993:1662-1675|Vertical seismic profiling+Alberta+Borehole+Prospecting
J|0493|Hinds,R.C.+Anderson,N.L.+Kuzmiski,R.|An integrated surface seismic/seismic profile case study: Simonette area, Alberta||#GPS:58:11:1993:1676-1688|Alberta+Vertical seismic profiling+Prospecting+Drilling
J|0494|Vernik,L.|Microcrack-induced versus intrinsic elastic anisotropy in mature HC-source shales||#GPS:58:11:1993:1703-1706|Microcrack+Shale+Laboratory+Velocity|Short note
J|0495|Hornby,B.E.|Tomographic reconstruction of near-borehole slowness using refracted borehole sonic arrivals||#GPS:58:12:1993:1726-1738|Slowness+Borehole+Tomography+Arrival time
J|0496|Pratt,R.G.+McGaughey,W.G.+Chapman,C.H.|Anisotropic velocity tomography: a case study in a near-surface rock mass||#GPS:58:12:1993:1748-1763|Anisotropic medium+Tomography+Velocity+Cross-hole
J|0497|Langhammer,J.+Landro,M.|Experimental study of viscosity effects on air-gun signatures||#GPS:58:12:1993:1801-1808|Airgun+Viscosity+Signature+Laboratory
J|0498|Li,J.+Larner,K.|Differential-equation--based seismic data filtering||#GPS:58:12:1993:1809-1819|Data processing+Filtering+Technique
J|0499|Tygel,M.+Schleicher,J.+Hubral,P.+|Multiple weights in diffraction stack migration||#GPS:58:12:1993:1820-1830|Stack+Migration+Diffraction+Imaging
J|0500|Rutherford,S.R.|Noise-discriminating, statistical amplitude compensation for AVO analysis||#GPS:58:12:1993:1831-1839|Noise+Common midpoint+Amplitude+Statistical method
J|0501|Cunha,C.A.|Elastic modeling in discontinuous media||#GPS:58:12:1993:1840-1851|Modelling+Operator+Boundary condition+Offset
J|0502|Landro,M.+Mittet,R.+Sollie,R.|Implementing measured source signatures in a coarse-grid, finite-difference modeling scheme||#GPS:58:12:1993:1852-1860|Signature+Marine seismic source+Finite difference method+Grid
J|0503|Amundsen,L.|Estimation of source array signatures||#GPS:58:12:1993:1865-1869|Signature+Marine seismic source+Array+Airgun|Short note
J|0504|Schleicher,J.+Hubral,P.+Tygel,M.|Geometrical-spreading correction by a dual diffraction stack||#GPS:58:12:1993:1870-1873|Diffraction+Spreading+Stack+Migration|Short note
J|0505|Page,B.M.+Brocher,T.M.|Thrusting of the central California margin over the edge of the Pacific plate during the transform regime||Geology:21:7:1993:635-638|California+Continental margin+Reflexion study+Refraction study
J|0506|Marple,R.T.+Talwani,P.|Evidence of possible tectonic upwarping along the South Carolina coastal plain from an examination of river morphology and elevation data||Geology:21:7:1993:651-654|South Carolina+Fault+Seismotectonics+River
J|0507|Quinlan,G.+Beaumont,C.+Hall,J.|Tectonic model for crustal seismic reflectivity patterns in compressional orogens||Geology:21:7:1993:663-666|Appalachians+Reflectivity+Pattern+Crust
J|0508|Finlayson,D.M.+Owen,A.+Johnstone,D.+|Moho and petrologic crust-mantle boundary coincide under southeastern Australia||Geology:21:8:1993:707-710|Crust-mantle boundary+Australia+Mohorovicic discontinuity+Deep seismic sounding
J|0509|Cook,F.A.+Van der Velden,A.J.|Proterozoic crustal transition beneath the western Canada sedimentary basin||Geology:21:9:1993:785-788|Canada+Deep seismic sounding+Crust+Bouguer anomaly
J|0510|Magee,M.E.+Zoback,M.D.|Evidence for a weak interplate thrust fault along the northern Japan subduction zone and implications for the mechanics of thrust faulting and fluid expulsion||Geology:21:9:1993:809-812|Japan Trench+Focal mechanism+1968+Earthquake
J|0511|Kvenvolden,K.A.+Carlson,P.R.+Threlkeld,C.N.+|Possible connection between two Alaskan catastrophes occurring 25 yr apart (1964 and 1989)||Geology:21:9:1993:813-816|Earthquake+1964+Alaska+Tsunami
J|0512|Rowe,M.M.+Gettrust,J.F.|Faulted structure of the bottom simulating reflector on the Blake Ridge, western North Atlantic||Geology:21:9:1993:833-836|North Atlantic+Marine seismic investigation+Sediment+Structure
J|0513|Moos,D.+Zoback,M.D.|State of stress in the Long Valley caldera, California||Geology:21:9:1993:837-840|Long Valley Caldera+Stress+Focal mechanism+Well
J|0514|Wills,C.J.+Borchardt,G.|Holocene slip rate and earthquake recurrence on the Honey Lake fault zone, northeastern California||Geology:21:9:1993:853-856|Recurrence+Fault zone+Basin & Range+Slip
J|0515|Adams,J.+Dredge,L.+Fenton,C.+|Comment on `Neotectonic faulting in metropolitan Toronto: implications for earthquake hazard assessment in the Lake Ontario region' by A. Mohajer, N. Eyles and C. Rogojina||Geology:21:9:1993:863-864|Comments+Hazard+Lake Ontario+Faulting+Neotectonics|With a reply by the authors
J|0516|Miller,M.M.+Webb,F.H.+Townsend,D.+|Regional coseismic deformation from the June 28, 1992, Landers, California, earthquake: results from the Mojave GPS network||Geology:21:10:1993:868-872|Deformation+1992+California+Earthquake|Special report|#*LANDERS92
J|0517|Holzer,T.L.+Clark,M.M.|Sand boils without earthquake||Geology:21:10:1993:873-876|Liquefaction+Sand boil+Earthquake+California
J|0518|McGinnis,J.P.+Driscoll,N.W.+Karner,G.D.+|Flexural response of passive margins to deep-sea erosion and slope retreat: implications for relative sea-level change||Geology:21:10:1993:893-896|Reflexion study+Sea level+West Africa+Flexure
J|0519|Boss,S.K.+Neumann,A.C.|Impacts of hurricane Andrew on carbonate platform environments, northern Great Bahama Bank||Geology:21:10:1993:897-900|Storm+Seismic survey+Bahamas+Profile
J|0520|Bangs,N.L.B.+Sawyer,D.S.+Golovchenko,X.|Free gas at the base of the gas hydrate zone in the vicinity of the Chile triple junction||Geology:21:10:1993:905-908|Chile+Triple junction+Reflexion study+Velocity
J|0521|Buck,W.R.|Effect of lithospheric thickness on the formation of high- and low-angle normal faults||Geology:21:10:1993:933-936|Fault plane+Normal fault+Lithosphere+Thickness
J|0522|Yin,A.|Comment on `Does magmatism influence low-angle normal faulting?' by T. Parsons and G. A. Thompson||Geology:21:10:1993:956-958|Comments+Normal fault+Magmatism+Fault plane|With a reply by the authors
J|0523|Stix,J.+Zapata G.,J.A.+Calvache V.,M.+|A model of degassing at Galeras Volcano, Colombia, 1988-1993||Geology:21:11:1993:963-967|1988-1993+Volcanic tremor+Colombia+Eruption|Special report
J|0524|Rajendran,C.P.+Talwani,P.|Paleoseismic indicators near Bluffton, South Carolina: an appraisal of their tectonic implications||Geology:21:11:1993:987-990|South Carolina+Prehistoric earthquake+Uplift+Liquefaction
J|0525|Brown,R.L.+Beaumont,C.+Willett,S.D.|Comparison of the Selkirk fan structure with mechanical models: implications for interpretation of the southern Canadian Cordillera||Geology:21:11:1993:1015-1018|Reflexion study+Canadian Cordillera+Lithoprobe+Fan
J|0526|Chamot-Rooke,N.+Jestin,F.+De Voogd,B.+|Intraplate shortening in the central Indian Ocean determined from a 2100-km-long north-south deep seismic reflection profile||Geology:21:11:1993:1043-1046|Indian Ocean+Intraplate deformation+Fault+Marine seismic investigation
J|0527|Andrews,J.T.|Comment on `Seismic stratigraphic evidence for a submerged middle Wisconsin barrier: implications for sea-level history' by R. W. Wellner, G. M. Ashley and R. E. Sheridan||Geology:21:11:1993:1052-1053|Comments+Reflexion study+Seismostratigraphy+Sea level+New Jersey|With a reply by the authors
J|0528|Kaufman,D.S.+Miller,G.H.+Stravers,J.A.+|Abrupt early Holocene (9.9-9.6 ka) ice-stream advance at the mouth of Hudson Strait, Arctic Canada||Geology:21:12:1993:1063-1066|Canada+Holocene+Glacier+Profile
J|0529|Murdie,R.E.+Prior,D.J.+Styles,P.+|Seismic responses to ridge-transform subduction: Chile triple junction||Geology:21:12:1993:1095-1098|Chile+Triple junction+Focal mechanism+Hypocentre+ISC
J|0530|Dawers,N.H.+Anders,M.H.+Scholz,C.H.|Growth of normal faults: displacement-length scaling||Geology:21:12:1993:1107-1110|Normal fault+Growth+California
J|0531|Boyd,N.K.+Smithson,S.B.|Moho in the Archean Minnesota gneiss terrane: fossil, alteration, or layered intrusion?||Geology:21:12:1993:1131-1134|Mohorovicic discontinuity+Minnesota+Seismic survey+Lateral variation
J|0532|Papazachos,B.C.+Papaioannou,Ch.A.+Margaris,B.N.+|Regionalization of seismic hazard in Greece based on seismic sources||#NHZ:8:1:1993:1-18|Regionalization+Greece+Hazard+Isoseismal map
J|0533|Quarantelli,E.L.|Organizational response to the Mexico City earthquake of 1985: characteristics and implications||#NHZ:8:1:1993:19-38|Earthquake+1985+Mexico City+Response||#*MEXICOCITY
J|0534|Whitmore,P.M.|Expected tsunami amplitudes and currents along the North American coast for Cascadia subduction zone earthquakes||#NHZ:8:1:1993:59-73|Cascadia subduction zone+Tsunami+Coast+Numerical modelling
J|0535|Stillitani,E.+Bottari,A.+Teramo,A.|Influence of attenuation models in seismic hazard evaluation for the north-eastern Sicily area||#NHZ:8:2:1993:97-107|Sicily+Hazard+Model+Map
J|0536|Corsanego,A.+Georgini,G.+Roggeri,G.|Rapid evaluation of an indicator of seismic vulnerability in small urban nuclei||#NHZ:8:2:1993:109-120|Italy+Vulnerability+Seismic risk+Urban planning
J|0537|Zhang,D-Q.+Xu,M-Q.|An approach to mass movements in the Jiuzhaigou catchment||#NHZ:8:2:1993:141-151|Sichuan+Landslide+Earthquake
J|0538|Shapira,A.+Van Eck,T.|Synthetic uniform-hazard site specific response spectrum||#NHZ:8:3:1993:201-215|Hazard+Spectrum+Stochastic model+Israel
J|0539|Del Ben,A.+Finetti,I.+Pipan,M.+|Seismic study of the structure, stratigraphy and evolution of the Ross Sea (Antarctica)||#BGT:35:137-138:1993:9-106|Seismic survey+Ross Sea+Seismostratigraphy+Profile
J|0540|Brancolini,G.+Fais,S.+Gantar,C.+|Geophysical study of the Ross Sea (Antarctica): two integrated sections||#BGT:35:137-138:1993:107-117|Ross Sea+Geophysical investigation+Reflexion study+Gravity
J|0541|Boehm,G.+Brancolini,G.+Fais,S.+|Integrated interpretation of geophysical anomalies in the western Ross Sea (Antarctica)||#BGT:35:137-138:1993:119-132|Ross Sea+Geomagnetic anomaly+Reflexion study+Profile
J|0542|Busetti,M.+De Santis,L.+Kavun,M.+|Seismic sequences of the Ross Sea continental margin (Antarctica)||#BGT:35:137-138:1993:133-152|Ross Sea+DSDP+Seismic survey+Sedimentary cover
J|0543|Gantar,C.+Marchi,M.+Sinceri,R.+|Geophysical data processing in the Ross Sea (Antarctica)||#BGT:35:137-138:1993:153-171|Ross Sea+Geophysical investigation+Reflexion study+Data processing
J|0544|Geletti,R.+Pipan,M.+Vesnaver,A.|Signal/noise ratio enhancement of seismic profiles in the Ross Sea (Antarctica)||#BGT:35:137-138:1993:173-193|Signal-to-noise ratio+Profile+Ross Sea+Stack
J|0545|Galuppo,P.+Geletti,R.|Seismic signal enhancement of Antarctic crustal data||#BGT:35:137-138:1993:195-202|Multiple reflexion+Filtering+Seismic processing+Antarctica
J|0546|Marchetti,A.+Baroni,C.+Brancolini,G.+|Sea bottom morphologies of the Ross Sea area (Antarctica)||#BGT:35:137-138:1993:203-218|Geomorphology+Ross Sea+Geophysical survey+Sea floor
J|0547|Busetti,M.+Camerlenghi,A.+Carta,A.+|The Ross Sea (Antarctica): a review of the geological and geophysical exploration||#BGT:35:137-138:1993:245-263|Ross Sea+Review+Geophysical investigation+Geology
J|0548|Berger,P.+Gantar,C.+Fanzutti,F.+|Equipment and data acquisition techniques employed by the Italian geophysical exploration in Antarctica performed by OGS cruises 1987-88, 88-89 and 89-90||#BGT:35:137-138:1993:299-323|Exploration+Equipment+Data acquisition+Antarctica
J|0549|Gasperini,M.+Ferretti,P.+Ligi,M.+|A paraboloidal sparker seismic source||#BGT:35:139:1993:327-337|Marine seismic source+Sparker+Instrument+Prospecting
J|0550|Del Ben,A.|Calabrian arc tectonics from seismic exploration||#BGT:35:139:1993:339-347|Calabria+Marine seismic investigation+Exploration+Tectonics
J|0551|Neri,G.+Wyss,M.|Preliminary results from stress tensor inversion of earthquake fault-plane solutions in the southern Tyrrhenian region||#BGT:35:139:1993:349-362|Tyrrhenian Sea+Fault plane solution+Tensor+Stress
J|0552|Papazachos,B.C.+Hatzidimitriou,P.M.+Karakaisis,G.F.+|Rupture zones and active crustal deformation in southern Thessalia, central Greece||#BGT:35:139:1993:363-374|Greece+Fracture zone+Crustal deformation+Seismicity||#*MAGNISIA
J|0553||Review of `DEKORP-atlas. Results of Deutsches Kontinentales Reflexionsseismisches Program' edited by R. Meissner and R. K. Hortfeld||#BGT:35:139:1993:397|Review+DEKORP+Germany+Deep seismic sounding|Springer-Verlag, New York, 1990
J|0554|Davidoff,A.J.+Yancey,T.E.|Eustatic cyclicity in the Paleocene and Eocene: data from the Brazos River Valley, Texas||#TCT:222:3-4:1993:371-395|Seismostratigraphy+Texas+Well-log+Sea level
J|0555|Rack,F.R.|A geologic perspective on the Miocene evolution of the Antarctic Circumpolar Current system||#TCT:222:3-4:1993:397-415|Antarctic+Miocene+Ocean Drilling Programme+Profile
J|0556|Geli,L.|Volcano-tectonic events and sedimentation since Late Miocene times at the Mohns Ridge, near 72degreesN, in the Norwegian-Greenland Sea||#TCT:222:3-4:1993:417-444|Marine geophysical investigation+Sedimentation+Greenland Sea+Sea-floor spreading
J|0557|De Jonge,M.R.+Wortel,M.J.R.+Spakman,W.|From tectonic reconstruction to upper mantle model: an application to the Alpine-Mediterranean region||#TCT:223:1-2:1993:53-65|Mediterranean+Velocity structure+Upper mantle+Lithosphere
J|0558|Furlong,K.P.|Thermal-rheologic evolution of the upper mantle and the development of the San Andreas fault system||#TCT:223:1-2:1993:149-164|San Andreas Fault+Upper mantle+Evolution+Plate tectonics
J|0559|Henk,A.|Late orogenic basin evolution in the Variscan Internides: the Saar-Nahe Basin, southwest Germany||#TCT:223:3-4:1993:273-290|Germany+Reflexion study+Basin+Evolution
J|0560|Caputo,R.+Pavlides,S.|Late Cainozoic geodynamic evolution of Thessaly and surroundings (central-northern Greece)||#TCT:223:3-4:1993:339-362|Greece+Evolution+Focal mechanism+Geodynamics
J|0561|Raileanu,V.+Talos,D.+Varodin,V.+|Crustal seismic reflection profiling in Romania on the Urziceni-Mizil line||#TCT:223:3-4:1993:401-409|Romania+Deep seismic sounding+Profile+Crust
J|0562|Varotsos,P.+Alexopoulos,K.+Lazaridou,M.|Latest aspects of earthquake prediction in Greece based on seismic electric signals, II||#TCT:224:1-3:1993:1-37|Prediction+Greece+Electrotelluric field+Seismoelectric effect
J|0563|Nomicos,K.+Chatzidiakos,P.|A telemetric system for measuring electrotelluric variations in Greece and its application to earthquake prediction||#TCT:224:1-3:1993:39-46|Prediction+Greece+Electrotelluric field+Telemetering system
J|0564|Antonopoulos,G.+Kopanas,J.+Eftaxias,K.+|On the experimental evidence for the SES vertical component||#TCT:224:1-3:1993:47-49|Greece+Magnetotellurics+Seismoelectric effect|Extended abstract
J|0565|Maron,C.+Baubron,G.+Herbreteau,L.+|Experimental study of a VAN network in the French Alps||#TCT:224:1-3:1993:51-81|French Alps+VAN network+Seismotelluric effect+Prediction
J|0566|Kawase,T.+Uyeda,S.+Uyeshima,M.+|Possible correlation between geoelectric potential change in Izu-Oshima Island and the earthquake swarm off the east Izu Peninsula, Japan||#TCT:224:1-3:1993:83-93|Geoelectricity+Izu-Oshima+Correlation+Swarm||#*OFFIZU88
J|0567|Ralchovsky,Ts.M.+Komarov,L.N.|SES activity and the Earth's electric potential||#TCT:224:1-3:1993:95-101|Electric potential+Seismoelectric effect+Precursor+Balkans
J|0568|Thanassoulas,C.+Tselentis,G-A.|Periodic variations in the Earth's electric field as earthquake precursors: results from recent experiments in Greece||#TCT:224:1-3:1993:103-111|Greece+Precursor+Periodicity+Geoelectricity||#*KALAMATA
J|0569|Hadjioannou,D.+Vallianatos,F.+Eftaxias,K.+|Subtraction of the telluric inductive component from VAN measurements||#TCT:224:1-3:1993:113-124|Greece+Seismotelluric effect+Magnetotellurics+VAN network
J|0570|Vallianatos,F.+Eftaxias,K.|A model for the influence of local inhomogeneities on the magnetotelluric variations at two VAN stations in Greece||#TCT:224:1-3:1993:125-130|Greece+Magnetotellurics+Inhomogeneity+VAN network
J|0571|Arvidsson,R.+Kulhanek,O.|Enhancement of seismic electric signals using magnetotellurics||#TCT:224:1-3:1993:131-139|Magnetotellurics+Seismoelectric effect+Precursor+Enhancement
J|0572|Ernst,T.+Jankowski,J.+Rozluski,C.P.+|Analysis of the electromagnetic field recorded in the Friuli seismic zone, northeast Italy||#TCT:224:1-3:1993:141-148|Friuli+Electromagnetic field+Magnetotellurics+Seismotelluric effect
J|0573|Slifkin,L.|Seismic electric signals from displacement of charged dislocations||#TCT:224:1-3:1993:149-152|Seismoelectric effect+Dislocation+Displacement
J|0574|Utada,H.|On the physical background of the VAN earthquake prediction method||#TCT:224:1-3:1993:153-160|Seismoelectric effect+VAN prediction method+Geophysics+Theory
J|0575|Labeyrie,J.|Comments on the results obtained in Greece by the VAN method of seismic prediction||#TCT:224:1-3:1993:161-167|VAN prediction method+Greece+Electromagnetic emission+Comments
J|0576|Gershenzon,N.I.+Gokhberg,M.B.|On the origin of electrotelluric disturbances prior to an earthquake in Kalamata, Greece||#TCT:224:1-3:1993:169-174|Electrotelluric field+Precursor+Greece+Origin||#*KALAMATA
J|0577|Dologlou,E.|Thermally stimulated current in rocks. II||#TCT:224:1-3:1993:175-180|Temperature+Rock+Current+Laboratory
J|0578|Papanikolaou,D.|The effect of geological anisotropies on the detectability of seismic electric signals||#TCT:224:1-3:1993:181-187|Detectability+Seismoelectric effect+Anisotropy+Greece
J|0579|Dologlou,E.|A three year continuous sample of officially documented predictions issued in Greece using the VAN method: 1987-1989||#TCT:224:1-3:1993:189-202|VAN prediction method+1987-1989+Seismoelectric effect+Seismicity||#*KALAMATA|#*KEFALLINIA|#*IONIAN88
J|0580|Hamada,K.|Statistical evaluation of the SES predictions issued in Greece: alarm and success rates||#TCT:224:1-3:1993:203-210|Seismoelectric effect+Greece+VAN prediction method+1987-1989
J|0581|Shnirman,M.+Schreider,S.+Dmitrieva,O.|Statistical evaluation of the VAN predictions issued during the period 1987-1989||#TCT:224:1-3:1993:211-221|VAN prediction method+1987-1989+Earthquake catalogue+Magnitude
J|0582|Drakopoulos,J.+Stavrakakis,G.N.+Latoussakis,J.|Evaluation and interpretation of thirteen official VAN-telegrams for the period September 10, 1986 to April 28, 1988||#TCT:224:1-3:1993:223-250|VAN prediction method+1986-1988+Greece+Epicentre|With a reply by the authors|#*AEGEAN86A|#*KALAMATA|#*KEFALLINIA88A|#*IONIAN88|#*KEFALLINIA87
J|0583|Yoshii,H.|Social impacts of earthquake prediction in Greece||#TCT:224:1-3:1993:251-255|Greece+Prediction+Public policy+Warning|Extended abstract
J|0584|Honkura,Y.+Kuwata,Y.|Estimation of electric fields in the conducting Earth's crust for oscillating electric current dipole sources and implications for anomalous electric fields associated with earthquakes||#TCT:224:1-3:1993:257-263|Electric field+Dipole source+Crust+Half-space
J|0585|Lazarus,D.|Note on a possible origin for seismic electric signals||#TCT:224:1-3:1993:265-267|Seismoelectric effect+Origin+Model+Mechanism
J|0586|Varotsos,P.+Alexopoulos,K.+Lazaridou,M.+|Earthquake predictions issued in Greece by seismic electric signals since February 6, 1990||#TCT:224:1-3:1993:269-288|1990-1992+Greece+VAN prediction method+Seismicity||#*IONIAN88|#*NWGREECE90|#*KEFALLINIA92A|#*KEFALLINIA92B|#*CRETE92
J|0587|Phan-Trong,T.|An inverse problem for the determination of the stress tensor from polyphased fault sets and earthquake focal mechanisms||#TCT:224:4:1993:393-411|Inverse problem+Stress+Tensor+Focal mechanism||#*CAMPANIA
J|0588|Cameli,G.M.+Dini,I.+Liotta,D.|Upper crustal structure of the Larderello geothermal field as a feature of post-collisional extensional tectonics (southern Tuscany, Italy)||#TCT:224:4:1993:413-423|Tuscany+Crustal structure+Reflexion study+Geothermal field
J|0589|Cermak,V.+Bodri,L.|Heat production in the continental crust, part I: data converted from seismic velocities and their attempted interpretation||#TCT:225:1-2:1993:15-28|Heat+Continental crust+Velocity-depth function+Upper mantle
J|0590|Lewis,T.J.+Bentkowski,W.H.+Hyndman,R.D.|Crustal reflectors, metamorphic reactions and crustal temperatures in the southern Canadian Cordillera||#TCT:225:1-2:1993:57-61|Reflector+Crust+Temperature+Canadian Cordillera|Extended abstract
J|0591|Bodri,B.+Iizuka,S.|Earthquake cutoff depth as a possible geothermometer - applications to central Japan||#TCT:225:1-2:1993:63-78|Depth+Japan+Geothermal field+Crustal structure
J|0592|Babuska,V.+Plomerova,J.|Lithospheric thickness and velocity anisotropy - seismological and geothermal aspects||#TCT:225:1-2:1993:79-89|Lithosphere+Thickness+Velocity+Thermal structure
J|0593|Flovenz,O.G.+Saemundsson,K.|Heat flow and geothermal processes in Iceland||#TCT:225:1-2:1993:123-138|Heat flow+Iceland+Temperature+Depth
J|0594|Badal,J.+Corchete,V.+Payo,G.+|Shear wave velocity structure below the Iberian Peninsula as obtained by a detailed analysis of surface waves||#TCT:225:3:1993:167-190|Shear wave+Velocity structure+Iberian Peninsula+Surface wave
J|0595|Kiratzi,A.A.|A study on the active crustal deformation of the north and east Anatolian fault zones||#TCT:225:3:1993:191-203|Crustal deformation+Anatolia+Fault zone+Seismicity||#*ERZINCAN92|#*DOGANSEHIR2|#*DOGANSEHIR1
J|0596|Spathopoulos,S.+Jones,E.J.W.|Seismic evidence for anomalous crustal structure beneath Mesozoic fracture zones in the Gambia Basin, eastern equatorial Atlantic||#TCT:225:3:1993:205-217|Crustal structure+Fracture zone+Atlantic Ocean+Seismic survey
J|0597|Chung,W-Y.|Source parameters of two rift associated intraplate earthquakes in peninsular India: the Bhadrachalam earthquake of April 13, 1969 and the Broach earthquake of March 23, 1970||#TCT:225:3:1993:219-230|India+Source parameter+Intraplate earthquake+1969+1970
J|0598|Hughes,S.+Luetgert,J.H.+Christensen,N.I.|Reconciling deep seismic refraction and reflection data from the Grenvillian-Appalachian boundary in western New England||#TCT:225:4:1993:255-269|New England+Deep seismic sounding+Velocity+Rock
J|0599|DePolo,C.M.+Peppin,W.A.+Johnson,P.A.|Contemporary tectonics, seismicity, and potential earthquake sources in the White Mountains seismic gap, west-central Nevada and east-central California, USA||#TCT:225:4:1993:271-299|Seismic gap+California+Seismicity+Fault+Nevada||#*CHALFANT|#*ROUNDVALLEY|#*MAMMOTH|#*MAMMOTH2|#*MAMMOTH3
J|0600|Shay,J.+Trehu,A.M.|Crustal structure of the central graben of the midcontinent rift beneath Lake Superior||#TCT:225:4:1993:301-335|Crustal structure+Mid-continent rift+Lake Superior+Common midpoint
J|0601|Zorin,Yu.A.+Belichenko,V.G.+Turutanov,E.Kh.+|The south Siberia-central Mongolia transect||#TCT:225:4:1993:361-378|Geotransect+Siberia+Mongolia+Deep seismic sounding
J|0602|Siegesmund,S.+Vollbrecht,A.+Pros,Z.|Fabric changes and their influence on P-wave velocity patterns - examples from a polyphase deformed orthogneiss||#TCT:225:4:1993:477-492|P-wave+Velocity+Rock+Laboratory
J|0603|Guiraud,M.+Plaziat,J-C.|Seismites in the fluviatile Bima sandstones: identification of paleoseisms and discussion of their magnitudes in a Cretaceous synsedimentary strike-slip basin (Upper Benue, Nigeria)||#TCT:225:4:1993:493-522|Seismite+Nigeria+Sandstone+Liquefaction
J|0604|Tselentis,G-A.|Depth-dependent seismic attenuation in western Greece||#TCT:225:4:1993:523-528|Depth+Greece+Attenuation+Q
J|0605|Dasgupta,S.+Mukhopadhyay,M.|Seismicity and plate deformation below the Andaman arc, northeastern Indian Ocean||#TCT:225:4:1993:529-542|Plate deformation+Seismicity+Andaman arc+Fault plane solution+ISC
J|0606|Goodacre,A.K.+Bonham-Carter,G.F.+Agterberg,F.P.+|Errata to `A statistical analysis of the spatial association of seismicity with drainage patterns and magnetic anomalies in western Quebec'||#TCT:225:4:1993:551|Errata+Quebec+Seismicity+Geomagnetic anomaly
J|0607|Gillespie,P.A.+Howard,C.B.+Walsh,J.J.+|Measurement and characterisation of spatial distributions of fractures||#TCT:226:1-4:1993:113-141|Fracture+Fractal analysis+Spatial distribution
J|0608|Lyakhovsky,V.A.+Podladchikov,Yu.+Poliakov,A.N.B.|A rheological model of a fractured solid||#TCT:226:1-4:1993:187-198|Stress+Rheology+Fracture+Rock
J|0609|Quinlan,G.+Walsh,J.+Skogseid,J.+|Relationship between deeper lithospheric processes and near-surface tectonics of sedimentary basins||#TCT:226:1-4:1993:217-225|Tectonics+Sedimentary basin+Lithosphere+Deep seismic sounding
J|0610|Bois,C.|Initiation and evolution of the Oligo-Miocene rift basins of southwestern Europe: contribution of deep seismic reflection profiling||#TCT:226:1-4:1993:227-252|Deep seismic sounding+Europe+Evolution+Rift+Basin
J|0611|Zoetemeijer,R.+Cloetingh,S.+Sassi,W.+|Modelling of piggyback-basin stratigraphy: record of tectonic evolution||#TCT:226:1-4:1993:253-269|Profile+Stratigraphy+Basin+Apennines
J|0612|Ben-Avraham,Z.+Tibor,G.|The northern edge of the Gulf of Elat||#TCT:226:1-4:1993:319-331|Aqaba, G. of+Geophysical survey+Marine seismic investigation+Bathymetry
J|0613|Horvath,F.|Towards a mechanical model for the formation of the Pannonian basin||#TCT:226:1-4:1993:333-357|Pannonian Basin+Crustal thickness+Model+Seismic survey
J|0614|Csato,I.|Neogene sequences in the Pannonian basin, Hungary||#TCT:226:1-4:1993:377-400|Pannonian Basin+Neogene+Profile+Stratigraphy
J|0615|Tomek,C.|Deep crustal structure beneath the central and inner West Carpathians||#TCT:226:1-4:1993:417-431|Carpathians+Crustal structure+Transect+Deep seismic sounding
J|0616|Kulig,C.+McCaffrey,R.+Abers,G.A.+|Shallow seismicity of arc-continent collision near Lae, Papua New Guinea||#TCT:227:1-4:1993:81-93|Papua New Guinea+Seismicity+Plate interaction+Island arc
J|0617|Galindo-Zaldivar,J.+Gonzalez-Lodeiro,F.+Jabaloy,A.|Stress and paleostress in the Betic-Rif cordilleras (Miocene to the present)||#TCT:227:1-4:1993:105-126|Stress+Betic Cordillera+Focal mechanism+Earthquake||#*ELASNAM|#*ALGERIA85|#*AZORES183
J|0618|Kuo,J.T.+Sun,Y-F.|Modeling gravity variations caused by dilatancies||#TCT:227:1-4:1993:127-143|Gravity modelling+Dilatancy+Cylinder+Seismogenesis
J|0619|Mantyniemi,P.+Wahlstrom,R.+Lindholm,C.+|Seismic hazard in Fennoscandia: a regionalized study||#TCT:227:1-4:1993:205-213|Hazard+Fennoscandia+Regional study+Seismicity+1375-1989
J|0620|Virk,H.S.+Singh,B.|Radon anomalies in soil-gas and groundwater as earthquake precursor phenomena||#TCT:227:1-4:1993:215-224|Radon+Precursor+India+Groundwater||#*HINDUKUSH90|#*HINDUKUSH91
J|0621|Doglioni,C.|Some remarks on the origin of foredeeps||#TCT:228:1-2:1993:1-20|Accretionary wedge+Sedimentary basin+Apennines+Plate tectonics
J|0622|Mikhailov,V.O.|Crustal control on the Terek-Caspian trough evolution: constraints based on a new paleotectonic analysis method||#TCT:228:1-2:1993:21-32|Profile+Evolution+Caucasus+Sedimentary basin
J|0623|Salas,R.+Casas,A.|Mesozoic extensional tectonics, stratigraphy and crustal evolution during the Alpine cycle of the eastern Iberian basin||#TCT:228:1-2:1993:33-55|Iberia+Crustal structure+Geophysical investigation+Evolution
J|0624|Torres,J.+Bois,C.+Burrus,J.|Initiation and evolution of the Valencia Trough (western Mediterranean): constraints from deep seismic profiling and subsidence analysis||#TCT:228:1-2:1993:57-80|Deep seismic sounding+Valencia+Velocity structure+Evolution
J|0625|Ligdas,C.N.+Lees,J.M.|Seismic velocity constraints in the Thessaloniki and Chalkidiki areas (northern Greece) from a 3-D tomographic study||#TCT:228:1-2:1993:97-121|Greece+Tomography+Velocity structure+Crust+ISC
J|0626|Lyatsky,H.V.|Basement-controlled structure and evolution of the Queen Charlotte Basin, west coast of Canada||#TCT:228:1-2:1993:123-140|Evolution+Queen Charlotte Islands+Reflexion study+Geophysical investigation
J|0627|Koyi,H.+Talbot,C.J.+Torudbakken,B.O.|Salt diapirs of the southwest Nordkapp Basin: analogue modelling||#TCT:228:3-4:1993:167-187|Diapir+Salt+Reflexion study+Barents Sea
J|0628|Podladchikov,Yu.+Talbot,C.J.+Poliakov,A.N.B.|Numerical models of complex diapirs||#TCT:228:3-4:1993:189-198|Numerical modelling+Reflexion study+Diapir+Mexico, G. of
J|0629|Petersen,K.+Lerche,I.|Interactive salt and sediment evolution: self-consistent quantitative models||#TCT:228:3-4:1993:211-238|Salt+Sediment+Evolution+Model
J|0630|Hughes,M.+Davison,I.|Geometry and growth kinematics of salt pillows in the southern North Sea||#TCT:228:3-4:1993:239-254|North Sea+Salt+Reflexion study+Geometry
J|0631|Davison,I.+Insley,M.+Harper,M.+|Physical modelling of overburden deformation around salt diapirs||#TCT:228:3-4:1993:255-274|Salt+Diapir+Modelling+Deformation
J|0632|Rowan,M.G.|A systematic technique for the sequential restoration of salt structures||#TCT:228:3-4:1993:331-348|Restoration+Profile+Salt+Technique
J|0633|Gaullier,V.+Brun,J-P.+Guerin,G.+|Raft tectonics: the effects of residual topography below a salt decollement||#TCT:228:3-4:1993:363-381|Guinea, G. of+Salt+Topography+Tectonics
J|0634|Odonne,F.+Costa,E.|Relationships between strike-slip movement and fold trends in thin-skinned tectonics: analogue models||#TCT:228:3-4:1993:383-391|Strike-slip+Fold+Tectonics+Model
J|0635|Demercian,S.+Szatmari,P.+Cobbold,P.R.|Style and pattern of salt diapirs due to thin-skinned gravitational gliding, Campos and Santos basins, offshore Brazil||#TCT:228:3-4:1993:393-433|Diapir+Salt+Reflexion study+Campos Basin+Santos Basin
J|0636|Momoi,T.|Implication of surface wave orbit with stability, drift and azimuthal distribution of waves in weakly anisotropic media||#BER:68:3-4:1993:177-194|Surface wave+Anisotropic medium+Azimuth+Mathematical analysis
J|0637|Seto,N.+Hashimoto,S.+Iidaka,T.|Observation of an earthquake swarm on Iriomote Island||#BER:68:3-4:1993:195-208|Iriomote Island+Swarm+1992+Reflector|In Japanese with English abstract
J|0638|a-Research Group for Explosion Seismology|Explosion seismic observation in the Hokkaido region, Japan (Tsubetsu-Monbetsu profile)||#BER:68:3-4:1993:209-229|Hokkaido+Refraction study+Explosion seismology+Profile|In Japanese with English abstract
J|0639|Sakai,Y.+Tasai,A.+Kumazawa,F.+|Damage to buildings caused by the 1993 Kushiro-oki earthquake||#BER:68:3-4:1993:243-291|Earthquake+1993+Damage+Kushiro|In Japanese with English abstract|#*KUSHIRO93
J|0640|Lakshmy,P.+Agarwal,S.K.|Dynamic analysis of chimneys and natural draught cooling towers||#BIT:30:3:1993:83-100|Dynamic analysis+Cooling tower+Chimney
J|0641|Kumar,A.+Basu,S.+Chandra,B.|Noise characteristics of a strong motion accelerograph||#BIT:30:3:1993:101-111|Noise+Strong motion+Accelerograph+Instrument
J|0642|Paul,D.K.|Simplified seismic analysis of framed buildings on hill slope||#BIT:30:4:1993:113-124|Building+Frame+Slope+Structural response
J|0643|Arora,S.K.+Roy,F.+Basu,T.K.|Seismic signal detection and further processing using array seismograms: an overview||#BIT:30:4:1993:125-141|Detection+Array+Seismogram+Nuclear explosion||#*LOPNOR92|#*LOPNOR92A|#*NEVADA88
J|0644|Gupta,I.D.+Rambabu,V.|Use of strong-motion accelerograms to evaluate the magnitudes of some significant earthquakes in the Koyna dam area, India||#BIT:30:4:1993:143-151|Strong-motion record+Accelerogram+Local magnitude+Koyna
J|0645|Gori,P.L.|The social dynamics of a false earthquake prediction and the response by the public sector||#BSA:83:4:1993:963-980|Prediction+Warning+Public policy+Response
J|0646|Wald,D.J.+Kanamori,H.+Helmberger,D.V.+|Source study of the 1906 San Francisco earthquake||#BSA:83:4:1993:981-1019|San Francisco+1906+Source+Great earthquake||#*COYOTE|#*MORGAN|#*LOMAPRIETA89
J|0647|Frankel,A.|Three-dimensional simulations of ground motions in the San Bernardino Valley, California, for hypothetical earthquakes on the San Andreas fault||#BSA:83:4:1993:1020-1041|Ground motion+San Andreas Fault+Simulation+Basin
J|0648|Graves,R.W.|Modeling three-dimensional site response effects in the Marina District basin, San Francisco, California||#BSA:83:4:1993:1042-1063|San Francisco+Site effect+Modelling+Basin||#*LOMAPRIETA89
J|0649|Bollinger,G.A.+Chapman,M.C.+Sibol,M.S.|A comparison of earthquake damage areas as a function of magnitude across the United States||#BSA:83:4:1993:1064-1080|Damage+United States+Magnitude+Isoseismal data
J|0650|Dengler,L.+McPherson,R.C.|The 17 August 1991 Honeydew earthquake, north coast California: a case for revising the Modified Mercalli Scale in sparsely populated areas||#BSA:83:4:1993:1081-1094|Modified Mercalli scale+Northern California+1991+Earthquake||#*HONEYDEW91
J|0651|Cocco,M.+Boatwright,J.|The envelopes of acceleration time histories||#BSA:83:4:1993:1095-1114|Time history+Acceleration+Envelope+Rupture
J|0652|White,R.A.+Harlow,D.H.|Destructive upper-crustal earthquakes of Central America since 1900||#BSA:83:4:1993:1115-1142|Central America+Upper crust+Destructive earthquake+1900-1991+ISC||#*GUATEMALA
J|0653|Harlow,D.H.+White,R.A.+Rymer,M.J.+|The San Salvador earthquake of 10 October 1986 and its historical context||#BSA:83:4:1993:1143-1154|Earthquake+1986+El Salvador+History||#*SALVADOR86
J|0654|Kennett,B.L.N.|The distance dependence of regional phase discriminants||#BSA:83:4:1993:1155-1166|Discrimination+Regional phase+Distance+Amplitude
J|0655|Woods,B.B.+Kedar,S.+Helmberger,D.V.|ML:M0 as a regional seismic discriminant||#BSA:83:4:1993:1167-1183|Discrimination+Local magnitude+Scalar moment+Explosion||#*CALIFNEV92
J|0656|Wuster,J.|Discrimination of chemical explosions and earthquakes in central Europe - a case study||#BSA:83:4:1993:1184-1212|Chemical explosion+Discrimination+Vogtland+GERESS
J|0657|Carr,D.B.|Azimuth estimation capabilities of the ARCESS regional seismic array||#BSA:83:4:1993:1213-1231|Azimuth+Regional array+ARCESS+NORESS
J|0658|Rognvaldsson,S.Th.+Slunger,R.|Routine fault plane solutions for local networks: a test with synthetic data||#BSA:83:4:1993:1232-1247|Fault plane solution+Network+Local event+Synthetic seismogram
J|0659|Console,R.+Murru,M.+Alessandrini,B.|Foreshock statistics and their possible relationship to earthquake prediction in the Italian region||#BSA:83:4:1993:1248-1263|Statistics+Foreshock+Prediction+Italy
J|0660|Zeng,Y.|Theory of scattered P- and S-wave energy in a random isotropic scattering medium||#BSA:83:4:1993:1264-1276|Scattering+Isotropic medium+Energy+Wave equation
J|0661|Leavy,D.|Scattering of elastic waves near an explosion||#BSA:83:4:1993:1277-1293|Scattering+Elastic wave+Explosion+Inhomogeneous medium
J|0662|Romanowicz,B.+Rundle,J.B.|On scaling relations for large earthquakes||#BSA:83:4:1993:1294-1297|Scaling+Large earthquake+b-Value|Short note
J|0663|Singh,S.K.+Ordaz,M.|On the origin of long coda observed in the lake-bed strong-motion records of Mexico City||#BSA:83:4:1993:1298-1306|Coda+Mexico City+Strong-motion record+Origin|Short note|#*GUERRERO89|#*MEXICOCITY|#*PINOTEPA91|#*MICHOACAN91|#*ACAPULCO91
J|0664|Aster,R.C.+Scott,J.|Comprehensive characterization of waveform similarity in microearthquake data sets||#BSA:83:4:1993:1307-1314|Waveform+Microearthquake+Clustering+Doublet|Short note
J|0665|Yomogida,K.+Etgen,J.T.|3-D wave propagation in the Los Angeles basin for the Whittier-Narrows earthquake||#BSA:83:5:1993:1325-1344|Los Angeles+Sedimentary basin+Finite difference method+Simulation||#*WHITTIER
J|0666|Liao,Q.+McMechan,G.A.|2-D pseudo-spectral viscoacoustic modeling in a distributed-memory multi-processor computer||#BSA:83:5:1993:1345-1354|Computer+Modelling+Q+Viscoacoustic medium
J|0667|Its,E.N.+Lee,J.S.|Reflection and transmission of surface waves at a vertical interface in anisotropic elastic media||#BSA:83:5:1993:1355-1372|Surface wave+Interface+Propagation+Anisotropic medium
J|0668|Nowak,P.S.+Hall,J.F.|Direct boundary element method for dynamics in a half-space||#BSA:83:5:1993:1373-1390|Boundary element method+Half-space+Dynamics+Canyon
J|0669|Steck,L.K.+Prothero,W.A.|Observations of direct P-wave slowness and azimuth anomalies for teleseisms recorded in Long Valley caldera, California||#BSA:83:5:1993:1391-1419|Long Valley Caldera+P-wave+Teleseism+Anomaly
J|0670|Vavrycuk,V.|Crustal anisotropy from local observations of shear-wave splitting in West Bohemia, Czech Republic||#BSA:83:5:1993:1420-1441|Shear wave splitting+Bohemia+Anisotropy+Crust
J|0671|Madabhushi,S.+Talwani,P.|Fault plane solutions and relocations of recent earthquakes in Middleton Place Summerville Seismic Zone near Charleston, South Carolina||#BSA:83:5:1993:1442-1466|Fault plane solution+Fault zone+Hypocentre+Charleston
J|0672|Sambridge,M.S.+Gallagher,K.|Earthquake hypocenter location using genetic algorithms||#BSA:83:5:1993:1467-1491|Hypocentre+Algorithm+Location+Technique
J|0673|Umino,N.+Sacks,I.S.|Magnitude-frequency relations for northeastern Japan||#BSA:83:5:1993:1492-1506|Japan+Frequency-magnitude relation+Earthquake catalogue+Epicentre
J|0674|Bache,T.C.+Bratt,S.R.+Swanger,H.J.+|Knowledge-based interpretation of seismic data in the intelligent monitoring system||#BSA:83:5:1993:1507-1526|Monitoring+Interpretation+Expert system+Automatic analysis
J|0675|Riviere-Barbier,F.+Grant,L.T.|Identification and location of closely spaced mining events||#BSA:83:5:1993:1527-1546|Identification+Location+Discrimination+Mining
J|0676|Xie,J.|Simultaneous inversion for source spectrum and path Q using Lg with application to three Semipalatinsk explosions||#BSA:83:5:1993:1547-1562|Lg-wave+Underground nuclear explosion+Inversion+Spectrum+ISC||#*SEMIPALAT88|#*SEMIPALAT88A|#*SEMIPALAT88B
J|0677|Anderson,K.K.+Nicholson,W.L.|A relative magnitude model for measurements of Soviet underground nuclear explosions from regional stations||#BSA:83:5:1993:1563-1573|Underground nuclear explosion+Magnitude+Yield+Model||#*SEMIPALAT88
J|0678|Lermo,J.+Chavez-Garcia,F.J.|Site effect evaluation using spectral ratios with only one station||#BSA:83:5:1993:1574-1594|Spectral ratio+Single-station method+Transfer function+Site effect||#*GUERRERO89|#*MEXICOCITY|#*MEXICOCITY2
J|0679|Yamanaka,H.+Dravinski,M.+Kagami,H.|Continuous measurements of microtremors on sediments and basements in Los Angeles, California||#BSA:83:5:1993:1595-1609|Los Angeles+Microseism+Spectral ratio+Ground motion
J|0680|Hron,F.+Zheng,B.S.|On the longitudinal component of the particle motion carried by the shear PS wave reflected from the free surface at normal incidence||#BSA:83:5:1993:1610-1616|PS-wave+Particle motion+Reflexion+Asymptotic ray theory|Short note
J|0681|Shalev,E.|Cubic B-splines: strategies of translating a simple structure to B-spline parameterization||#BSA:83:5:1993:1617-1627|Inversion+Tomography+Cubic splines|Short note
J|0682|Chavez-Garcia,F.J.+Bard,P-Y.|Gravity waves in Mexico City?-I. Gravity perturbed waves in an elastic solid||#BSA:83:6:1993:1637-1655|Gravity wave+Rayleigh wave+Mexico City+Elastic medium||#*MEXICOCITY
J|0683|Chavez-Garcia,F.J.+Bard,P-Y.|Gravity waves in Mexico City?-II. Coupling between an elastic solid and a fluid layer||#BSA:83:6:1993:1656-1675|Gravity wave+Mexico City+Coupling+Fluid||#*MEXICOCITY
J|0684|Kato,K.+Aki,K.+Teng,T-L.|3-D simulations of surface wave propagation in the Kanto sedimentary basin, Japan-part 1: application of the surface wave gaussian beam method||#BSA:83:6:1993:1676-1699|Gaussian beam+Surface wave+Propagation+Kanto||#*IZUHANTO2
J|0685|Hisada,Y.+Aki,K.+Teng,T-L.|3-D simulations of surface wave propagation in the Kanto sedimentary basin, Japan part 2: application of the surface wave BEM||#BSA:83:6:1993:1700-1720|Surface wave+Propagation+Kanto+Boundary element method||#*IZUHANTO2
J|0686|Spudich,P.+Iida,M.|The seismic coda, site effects, and scattering in alluvial basins studied using aftershocks of the 1986 North Palm Springs, California, earthquake as source arrays||#BSA:83:6:1993:1721-1743|Aftershock+North Palm Springs+1986+Site effect||#*PALMSPRINGS
J|0687|Malagnini,L.+Rovelli,A.+Hough,S.E.+|Site amplification estimates in the Garigliano Valley, central Italy, based on dense array measurements of ambient noise||#BSA:83:6:1993:1744-1755|Amplification+Italy+Array+Noise
J|0688|Dan,K.+Ishii,T.+Ebihara,M.|Estimation of strong ground motions in meizoseismal region of the 1976 Tangshan, China, earthquake||#BSA:83:6:1993:1756-1777|Ground motion+1976+T'ang-shan+Earthquake||#*TANGSHAN
J|0689|Atkinson,G.M.|Earthquake source spectra in eastern North America||#BSA:83:6:1993:1778-1798|Eastern North America+Spectrum+Moment+Model
J|0690|Gitterman,Y.+Van Eck,T.|Spectra of quarry blasts and microearthquakes recorded at local distances in Israel||#BSA:83:6:1993:1799-1812|Quarry blast+Microearthquake+Israel+Local event
J|0691|Maxwell,S.C.+Young,R.P.|A comparison between controlled source and passive source seismic velocity images||#BSA:83:6:1993:1813-1834|Image+Velocity+Mine+Explosion
J|0692|Houard,S.+Plantet,J.L.+Massot,J.P.+|Amplitudes of core waves near the PKP caustic, from nuclear explosions in the South Pacific recorded at the "Laboratoire de Detection et Geophysique" network, in France||#BSA:83:6:1993:1835-1854|Nuclear explosion+South Pacific+PKP-wave+Amplitude
J|0693|Kikuchi,M.+Ishida,M.|Source retrieval for deep local earthquakes with broadband records||#BSA:83:6:1993:1855-1870|Body wave+Local earthquake+Broadband seismology+Source parameter||#*TOKYO92
J|0694|Sipkin,S.A.|Display and assessment of earthquake focal mechanisms by vector representation||#BSA:83:6:1993:1871-1880|Focal mechanism+Graphical representation+Seismic moment tensor+Mid-Atlantic Ridge
J|0695|Herak,M.+Herak,D.|Distance dependence of MS and calibrating function for 20 second Rayleigh waves||#BSA:83:6:1993:1881-1892|Rayleigh wave+Distance+Magnitude+Calibration+ISC
J|0696|Speidel,D.H.+Mattson,P.H.|The polymodal frequency-magnitude relationship of earthquakes||#BSA:83:6:1993:1893-1901|Frequency-magnitude relation+Probability+Earthquake catalogue+Model+ISC
J|0697|Howell,B.F.|Comparison of earthquake recurrence-rate estimates using the Gumbel and Gutenberg-Richter formulae||#BSA:83:6:1993:1902-1909|Recurrence+Gutenberg & Richter+Error+Earthquake catalogue
J|0698|Savage,M.K.+DePolo,D.M.|Foreshock probabilities in the western Great-Basin eastern Sierra Nevada||#BSA:83:6:1993:1910-1938|Great Basin+Foreshock+Probability+Space-time distribution
J|0699|Harben,P.E.+Hjortenberg,E.|Variation in microseism power and direction of approach in northeast Greenland||#BSA:83:6:1993:1939-1958|Greenland+Microseism+Azimuth+Seismic noise
J|0700|Owens,T.J.+Randall,G.E.+Wu,F.T.+|PASSCAL instrument performance during the Tibetan Plateau passive seismic experiment||#BSA:83:6:1993:1959-1970|PASSCAL+Instrument+Performance+Tibet|Short note
J|0701|Magistrale,H.|Seismicity of the Rose Canyon fault zone near San Diego, California||#BSA:83:6:1993:1971-1978|Seismicity+Southern California+Fault zone+Swarm|Short note
J|0702|Bard,P-Y.+Chavez-Garcia,F.J.|On the decoupling of surficial sediments from surrounding geology at Mexico City||#BSA:83:6:1993:1979-1991|Mexico City+Synthetic seismogram+Decoupling+Sedimentary cover|Short note
J|0703|Prochazkova,D.+Roth,Z.|Seismotectonics of central Europe|With Russian abstract|#CGS:23:-:1993:79-104|Seismotectonics+Central Europe+Neotectonics+Epicentre
J|0704|Romanel,C.+Kundu,T.|A hybrid modelling of soil-structure interaction problems for deeply embedded structures in a multilayered medium||#EES:22:7:1993:557-571|Soil-structure interaction+Modelling+Layered medium+Structural response
J|0705|Wepf,D.H.+Feltrin,G.+Bachmann,H.|Influence of time-domain dam-reservoir interaction on cracking of concrete gravity dams||#EES:22:7:1993:573-582|Concrete+Gravity dam+Time domain+Crack
J|0706|Inaudi,J.A.+Kelly,J.M.|Optimum damping in linear isolation systems||#EES:22:7:1993:583-598|Damping+Linear system+Base isolation system+Frequency response
J|0707|Hall,J.F.+Beck,J.L.|Linear system response by DFT: analysis of a recent modified method||#EES:22:7:1993:599-615|Linear system+Fourier transform+Response+Frequency domain
J|0708|Cohen,J.M.+Powell,G.H.|A design study of an energy-dissipating cladding system||#EES:22:7:1993:617-632|Earthquake-resistant design+Building+Dynamic analysis+Frame
J|0709|Tsai,H-C.+Kelly,J.M.|Seismic response of heavily damped base isolation systems||#EES:22:7:1993:633-645|Base isolation system+Damping+Building+Structural response
J|0710|Meek,J.W.+Wolf,J.P.|Cone models for nearly incompressible soil||#EES:22:8:1993:649-663|Poisson's ratio+Model+Soil dynamics+Seismic waves
J|0711|Elgamal,A-W.M.+Gunturi,R.V.|Dynamic behaviour and seismic response of El Infiernillo dam||#EES:22:8:1993:665-684|Structural response+Dam+Dynamics+Spectral characteristics||#*MEXICOCITY|#*MEXICOCITY2|#*MICHOACAN|#*PETATLAN
J|0712|Gucunski,N.+Peek,R.|Parametric study of vertical vibrations of circular flexible foundations on layered media||#EES:22:8:1993:685-694|Foundation+Layered medium+Vibration+Half-space
J|0713|Bozorgnia,Y.+Niazi,M.|Distance scaling of vertical and horizontal response spectra of the Loma Prieta earthquake||#EES:22:8:1993:695-707|Loma Prieta+Earthquake+1989+Spectrum||#*LOMAPRIETA89
J|0714|Tika-Vassilikos,T.E.+Sarma,S.K.+Ambraseys,N.N.|Seismic displacements on shear surfaces in cohesive soils||#EES:22:8:1993:709-721|Displacement+Shear+Soil+Sliding||#*TABAS
J|0715|Jangid,R.S.+Datta,T.K.|Spectral analysis of systems with non-classical damping using classical mode superposition technique||#EES:22:8:1993:723-735|Spectral analysis+Damping+Vibration+Structural dynamics
J|0716|Meek,J.W.+Wolf,J.P.|Why cone models can represent the elastic half-space||#EES:22:9:1993:759-771|Model+Soil+Half-space+Rayleigh wave
J|0717|Chang,W-L.|Boundary integral equation method for the diffraction of elastic waves using simplified Green's functions||#EES:22:9:1993:773-789|Diffraction+Elastic wave+Green's function+Boundary integral method
J|0718|Berrah,M.K.+Kausel,E.|A modal combination rule for spatially varying seismic motions||#EES:22:9:1993:791-800|Ground motion+Response+Cross-correlation function+Spatial variation
J|0719|Veletsos,A.S.+Shivakumar,P.|Sloshing response of layered liquids in rigid tanks||#EES:22:9:1993:801-821|Layer+Storage tank+Liquid+Vibration
J|0720|Utku,S.+Utku,B.+Wada,B.K.|A readily available energy source for active vibration control in buildings||#EES:22:9:1993:823-827|Building+Vibration+Suppression+Energy|Short communication
J|0721|Fujino,Y.+Abe,M.|Design formulas for tuned mass dampers based on a perturbation technique||#EES:22:10:1993:833-854|Damping+Design+Perturbation+Response
J|0722|Cosenza,E.+Manfredi,G.+Ramasco,R.|The use of damage functionals in earthquake engineering: a comparison between different methods||#EES:22:10:1993:855-868|Earthquake engineering+Spectrum+Collapse+Ductility||#*MEXICOCITY|#*CAMPANIA|#*FRIULI
J|0723|Dowrick,D.J.+Rhoades,D.A.|Damage costs for commercial and industrial property as a function of intensity in the 1987 Edgecumbe earthquake||#EES:22:10:1993:869-884|Earthquake+1987+Edgecumbe+Damage||#*EDGECUMBE
J|0724|Richardson,J.A.+Douglas,B.M.|Results from field testing a curved box girder bridge using simulated earthquake loads||#EES:22:10:1993:905-922|Bridge+Field work+Loading+Structural dynamics
J|0725|Kobori,T.+Takahashi,M.+Nasu,T.+|Seismic response controlled structure with active variable stiffness system||#EES:22:11:1993:925-941|Stiffness+Structural response+Building+Accelerogram||#*TOKYO92|#*TOKYO91
J|0726|Der Kiureghian,A.+Nakamura,Y.|CQC modal combination rule for high-frequency modes||#EES:22:11:1993:943-956|Building+High frequency+Dynamic analysis
J|0727|Tsai,H-C.+Lin,G-C.|Optimum tuned-mass dampers for minimizing steady-state response of support-excited and damped systems||#EES:22:11:1993:957-973|Numerical method+Damping+Dynamic analysis
J|0728|Tsai,H-C.|Green's function of support-excited structures with tuned-mass dampers derived by a perturbation method||#EES:22:11:1993:975-990|Green's function+Damper+Structural response+Dynamic analysis
J|0729|Bhattacharjee,S.S.+Leger,P.|Seismic cracking and energy dissipation in concrete gravity dams||#EES:22:11:1993:991-1007|Gravity dam+Concrete+Cracking+Koyna
J|0730|Sienkiewicz,Z.|Dynamic impedances of a weakly anelastic medium||#EES:22:11:1993:1009-1014|Anelasticity+Frequency domain+Dynamic analysis+Damping|Short communication
J|0731|Margottini,C.+Martini,G.+Slejko,D.|Instrumental seismological data since 1900 for northeastern Italy||#EES:22:12:1993:1017-1030|Italy+Magnitude+1904-1983+Statistics+ISC
J|0732|Miranda,E.|Probabilistic site-dependent non-linear spectra||#EES:22:12:1993:1031-1046|Ground motion+Probability+Spectrum+Site effect||#*LOMAPRIETA89|#*WHITTIER|#*MEXICOCITY|#*SANANTONIO|#*SALVADOR86
J|0733|Li,B.+Al-Bermani,F.G.A.+Kitipornchai,S.|Maximum response of asymmetric structures subject to a multicomponent earthquake||#EES:22:12:1993:1047-1066|Asymmetry+Structural response+Foundation+Dynamic analysis||#*IMPERIAL
J|0734|Chandrashaker,R.+Humar,J.L.|Fluid-foundation interaction in the seismic response of gravity dams||#EES:22:12:1993:1067-1084|Gravity dam+Structural response+Foundation+Hydrodynamics
J|0735|Wang,X-F.+Gould,P.L.|Dynamics of structures with uplift and sliding||#EES:22:12:1993:1085-1095|Earthquake-resistant design+Structural dynamics+Uplift+Sliding
J|0736|Dentamaro,C.+Foti,D.+Mezzina,M.|Sensitivity analysis of seismic isolation viscous devices||#EEE:7:2:1993:3-10|Base isolation system+Sensitivity+Viscoelastic damping+Structural response
J|0737|Chandler,A.M.+Duan,X-N.+Hutchinson,G.L.|Eurocode 8 static torsional provisions: assessment for serviceability and ultimate limit state design||#EEE:7:2:1993:11-24|Structural response+Statics+Earthquake-resistant design+Building code
J|0738|Gupta,I.D.+Joshi,R.G.|On synthesizing response spectrum compatible accelerograms||#EEE:7:2:1993:25-33|Accelerogram+Spectrum+Phase+Response
J|0739|Tomazevic,M.+Lutman,M.+Velechovsky,T.|Aseismic strengthening of old stone-masonry buildings: is the replacement of wooden floors with R.C. slabs always necessary?||#EEE:7:2:1993:34-46|Aseismic design+Reinforced concrete+Masonry structure+Building
J|0740|Lee,V.W.+Trifunac,M.D.|Empirical scaling of Fourier amplitude spectra in former Yugoslavia||#EEE:7:2:1993:47-61|Strong motion+Yugoslavia+Fourier spectrum+Scaling+1975-1983
J|0741|De Stefano,M.+Faella,G.+Ramasco,R.|Inelastic response of code-designed asymmetric systems||#EEE:7:3:1993:3-17|Building code+Sensitivity+Torsion+Design
J|0742|Causevic,M.|Some proposals for implementation of the capacity design concept of eurocode 8 for steel structures||#EEE:7:3:1993:18-23|Steel frame+Earthquake-resistant design+Building code+Braced
J|0743|Benouar,D.|The Guelma (Algeria) earthquake of 10 February 1937||#EEE:7:3:1993:24-32|Damaging earthquake+1937+Algeria+Macroseismic data
J|0744|Paolucci,R.|Soil-structure interaction effects on an instrumented building in Mexico City||#EEE:7:3:1993:33-44|Soil-structure interaction+Building+Mexico City+Structural response||#*GUERRERO93A|#*GUERRERO93B
J|0745|Yamamoto,J.|Microseismic activity in the area of Canatlan, Durango and its relation with regional geology|In Spanish with English abstract|#GFN:32:3:1993:501-510|Microearthquake+Mexico+Epicentre+1972
J|0746|Gonzalez Pomposo,G.J.+Martin del Pozzo,A.L.+Panohaya Analco,J.+|Studies of seismicity and deformation of the Colima Volcano during the crisis of April 1991|In Spanish with English abstract|#GFN:32:4:1993:671-682|Eruption+1991+Monitoring+Colima
J|0747|Lermo,J.+Cuenca,J.+Monfret,T.+|Some spectral characteristics of the seismicity associated with the activity of the Colima Volcano|In Spanish with English abstract|#GFN:32:4:1993:683-697|Colima+Volcanic tremor+Spectral characteristics+1991
J|0748|Markusic,S.+Herak,D.+Sovic,I.+|Seismicity of Croatia in the period 1990-1992||Geofizika, Zagreb:10:-:1993:19-34|Seismicity+Croatia+1990-1992+Isoseismal map||#*DINARI90A|#*DINARI90B|#*ZAGREB90
J|0749|Stillitani,E.+Bottari,A.+Teramo,A.+|Application of Sponheuer and Blake models in the seismic hazard evaluation: the case of Messina Straits||Geofizika, Zagreb:10:-:1993:35-46|Messina, Straits of+Hazard+Model+Map
J|0750|Sovic,I.|Interferometer as seismometer displacement transducer|In Serbocroatian with English abstract|Geofizika, Zagreb:10:-:1993:47-59|Interferometry+Seismometer+Transducer+Instrument
J|0751|Herak,M.+Jukic,M.|Fault-plane solution for the earthquake of 25 November 1986 near Knin, Croatia||Geofizika, Zagreb:10:-:1993:61-68|Earthquake+1986+Croatia+Fault plane solution||#*KNIN86
J|0752|Druzhinin,A.B.|Born approximations of high orders in problems of multiple acoustic scattering|In Russian with English abstract|#GGS:34:7:1993:127-142|Born approximation+Multiple scattering+Inhomogeneous medium+Mathematical analysis
J|0753|Vertlib,M.B.|Features of the hypocentral field of the Kodar earthquake sequence in 1970|In Russian with English abstract|#GGS:34:7:1993:147-152|Sequence+1970+Hypocentre+Kodar|Brief communication
J|0754|Tychkov,S.A.+Zakharova,T.L.+Kulakov,I.Yu.|Dynamics of the mantle in subduction zones (exemplified by the Cretan arc)|In Russian with English abstract|#GGS:34:8:1993:3-12|Dynamics+Mantle+Subduction zone+Deep-focus earthquake
J|0755|Kashtanov,V.A.+Levenzon,I.L.+Nikulin,B.V.+|Geological structure and oil and gas potential of pre-Mesozoic formations in the Pur and Taz interfluve (the Tyumen region)|In Russian with English abstract|#GGS:34:8:1993:38-45|Geologic structure+Seismostratigraphy+Prospecting+Tyumen
J|0756|Sibiryakov,B.P.|Stressed state in the borehole vicinity (exemplified by the Riphean of the Siberian platform)|In Russian with English abstract|#GGS:34:9:1993:73-80|Stress+Borehole+Layered medium+Siberian platform
J|0757|Druzhinin,A.B.|Attenuation of seismic waves in general viscoelastic media|In Russian with English abstract|#GGS:34:9:1993:81-91|Viscoelastic medium+Attenuation+Asymptotic ray theory+Anisotropy
J|0758|Bulin,N.K.+Egorkin,A.V.|Usage of multiwave DSS for small-scale forecasting research on mineralization and bedrock diamond presence|In Russian with English abstract|#GGS:34:9:1993:92-106|Deep seismic sounding+Kazakhstan+Velocity ratio+Mineral
J|0759|Chipizubov,A.V.|Some regularities in the development of seismic process on the Earth|In Russian with English abstract|#GGS:34:9:1993:107-117|Historical seismicity+1897-1990+Global seismicity+Periodicity
J|0760|Nedashkovskii,I.Yu.|Investigations on one-frequency (monochromatic) Vibroseis|In Russian with English abstract|#GGS:34:9:1993:127-131|Vibroseis+Seismogram+Processing+Siberia
J|0761|Senin,A.G.|Solving the inverse dynamical problem of seismic shooting for a plane one-dimensional medium|In Russian with English abstract|#GGS:34:9:1993:132-139|Sounding+Dynamics+Inversion+Plane
J|0762|Hutchinson,D.R.+Gol'mshtok,A.Ya.+Zonenshain,L.P.+|Preliminary results of multichannel seismic reflection survey carried out in Baikal Lake in 1989|In Russian with English abstract|#GGS:34:10-11:1993:25-36|Seismic survey+Baikal+Sedimentation+Evolution
J|0763|Taliev,S.D.+Badardinov,A.A.|Conditions of accumulation of the Pleistocene deposits of southern Baikal (according to geophysical and geological data)|In Russian with English abstract|#GGS:34:10-11:1993:37-51|Baikal+Sedimentation+Continuous seismic profiling+Seismogeology
J|0764|Larson,R.L.+Fisher,A.T.+Jarrard,R.D.+|Highly permeable and layered Jurassic oceanic crust in the western Pacific||#EPL:119:1-2:1993:71-83|Marine geophysical investigation+Ocean Drilling Programme+Western Pacific+Oceanic crust
J|0765|Phipps Morgan,J.+Blackman,D.K.|Inversion of combined gravity and bathymetry data for crustal structure: a prescription for downward continuation||#EPL:119:1-2:1993:167-179|Gravity+Bathymetry+Crustal thickness+Inversion
J|0766|Kern,H.M.+Tubia,J.M.|Pressure and temperature dependence of P- and S-wave velocities, seismic anisotropy and density of sheared rocks from the Sierra Alpujata massif (Ronda peridotites, southern Spain)||#EPL:119:1-2:1993:191-205|Velocity+Anisotropy+Spain+Rock
J|0767|Kuo,B-Y.|Thermal anomalies beneath the Australian-Antarctic discordance||#EPL:119:3:1993:349-364|Differential travel-times+Indian Ridge+Anomaly+Shear wave+ISC
J|0768|Janssen,M.E.+Torne,M.+Cloetingh,S.+|Pliocene uplift of the eastern Iberian margin: inferences from quantitative modelling of the Valencia Trough||#EPL:119:4:1993:585-597|Modelling+Valencia Trough+Uplift+Profile
J|0769|Hatzfeld,D.+Caillot,V.+Cherkaoui,T-E.+|Microearthquake seismicity and fault plane solutions around the Nekor strike-slip fault, Morocco||#EPL:120:1-2:1993:31-41|Morocco+Microearthquake+Seismicity+Fault plane solution
J|0770|Popp,T.+Kern,H.M.|Thermal dehydration reactions characterised by combined measurements of electrical conductivity and elastic wave velocities||#EPL:120:1-2:1993:43-57|Electrical conductivity+Wave velocity+Laboratory+Rock
J|0771|Bassinot,F.C.|Sonostratigraphy of tropical Indian Ocean giant piston cores: toward a rapid and high-resolution tool for tracking dissolution cycles in Pleistocene carbonate sediments||#EPL:120:3-4:1993:327-344|Stratigraphy+Indian Ocean+Carbonate+Velocity structure
J|0772|Van der Hilst,R.D.+Seno,T.|Effects of relative plate motion on the deep structure and penetration depths of slabs below the Izu-Bonin and Mariana island arcs||#EPL:120:3-4:1993:395-407|Deep structure+Izu-Bonin+Marianas+Wadati-Benioff zone
J|0773|McCloskey,J.+Bean,C.J.+O'Reilly,B.|An earthquake model with magnitude sensitive dynamics||#GRL:20:13:1993:1403-1406|Model+Dynamics+Magnitude+Transform fault
J|0774|Hu,G.+Menke,W.+Rognvaldsson,S.Th.|A demonstration of the joint use of P wave polarization and travel-time data in tomographic inversion: crustal velocity structure near the South Iceland Lowland network||#GRL:20:13:1993:1407-1410|Iceland+Velocity structure+Inversion+P-wave
J|0775|Kruger,F.+Weber,M.+Scherbaum,F.+|Double beam analysis of anomalies in the core-mantle boundary region||#GRL:20:14:1993:1475-1478|Core-mantle boundary+Nuclear explosion+Anomaly+Arctic Ocean
J|0776|Singh,S.K.+Pardo,M.|Geometry of the Benioff zone and state of stress in the overriding plate in central Mexico||#GRL:20:14:1993:1483-1486|Benioff zone+Mexico+Stress+Focal mechanism+ISC||#*GUERRERO90|#*PETATLAN
J|0777|Johnson,J.M.+Satake,K.|Source parameters of the 1957 Aleutian earthquake from tsunami waveforms||#GRL:20:14:1993:1487-1490|Source parameter+1957+Earthquake+Aleutian Arc+Tsunami
J|0778|Simoes-Filho,I.A.|The accuracy of traveltime perturbations from isotropic to anisotropic medium||#GRL:20:14:1993:1491-1494|Travel-times+Perturbation theory+Accuracy+qS-wave
J|0779|Jervis,M.+Stoffa,P.L.+Sen,M.K.|2-D migration velocity estimation using a genetic algorithm||#GRL:20:14:1993:1495-1498|Migration+Velocity+Algorithm+Reflexion data
J|0780|Seber,D.+Barazangi,M.+Tadili,B.A.+|Sn to Sg conversion and focusing along the Atlantic margin, Morocco: implications for earthquake hazard evaluation||#GRL:20:14:1993:1503-1506|Morocco+Converted wave+Hazard+Continental margin+ISC
J|0781|Kim,W-Y.+Simpson,D.W.+Richards,P.G.|Discrimination of earthquakes and explosions in the eastern United States using regional high-frequency data||#GRL:20:14:1993:1507-1510|Discrimination+Explosion+Eastern United States+Regional study
J|0782|Abercrombie,R.E.+Leary,P.C.|Source parameters of small earthquakes recorded at 2.5 km depth, Cajon Pass, southern California: implications for earthquake scaling||#GRL:20:14:1993:1511-1514|Scaling+Source parameter+Southern California+Small earthquake
J|0783|Imamura,F.+Shuto,N.|Estimate of the tsunami source of the 1992 Nicaraguan earthquake from tsunami data||#GRL:20:14:1993:1515-1518|Tsunami+1992+Earthquake+Nicaragua||#*NICARAGUA92
J|0784|Ritsema,J.+Lay,T.|Rapid source mechanism determination of large (MW>= 5) earthquakes in the western United States||#GRL:20:15:1993:1611-1614|Large earthquake+Western United States+Focal mechanism+Centroid-moment tensor||#*LANDERS92|#*PETROLIA92A|#*BIGBEAR92|#*HONEYDEW91|#*SWUTAH92
J|0785|Woolery,E.W.+Street,R.L.+Wang,Z.+|Near-surface deformation in the New Madrid seismic zone as imaged by high resolution SH-wave seismic methods||#GRL:20:15:1993:1615-1618|New Madrid+Deformation+Common depth point+Imaging
J|0786|Minshull,T.A.|Wide-angle imaging of reflectors in Mesozoic oceanic crust||#GRL:20:15:1993:1619-1622|Imaging+Reflector+Oceanic crust+Mesozoic
J|0787|Karato,S-I.|Importance of anelasticity in the interpretation of seismic tomography||#GRL:20:15:1993:1623-1626|Tomography+Anelasticity+Interpretation+Mantle
J|0788|Rajendran,K.+Salvador,M.E.+Owens,T.J.|Three dimensional P velocity image of the Oroville reservoir area, California, from local earthquake tomography||#GRL:20:15:1993:1627-1630|Velocity structure+California+Pore pressure+1975||#*OROVILLE
J|0789|Cipar,J.J.+Priestley,K.F.+Egorkin,A.V.+|The Yamal Peninsula-Lake Baikal deep seismic sounding profile||#GRL:20:15:1993:1631-1634|Deep seismic sounding+Baikal+Profile+Nuclear explosion
J|0790|Romanowicz,B.+Dreger,D.S.+Pasyanos,M.+|Monitoring of strain release in central and northern California||#GRL:20:15:1993:1643-1646|Strain+California+Moment tensor+Source parameter||#*GILROY93|#*CATARACT93|#*CALIFNEV92|#*SWUTAH92
J|0791|Gurnis,M.|Comment on `Dynamic surface tomography: a new interpretation based upon mantle flow models derived from seismic tomography' by A. M. Forte, W. R. Peltier, A. M. Dziewonski and R. L. Woodward||#GRL:20:15:1993:1663-1666|Comments+Topography+Mantle+Geoid+Isostasy|With a reply by the authors
J|0792|Zamora,M.+Dung,V-T.+Bienfait,G.+|An empirical relationship between thermal conductivity and elastic wave velocities in sandstone||#GRL:20:16:1993:1679-1682|Thermal conductivity+Sandstone+Elastic wave+Velocity
J|0793|Keller,E.A.+Loaiciga,H.A.|Fluid-pressure induced seismicity at regional scales||#GRL:20:16:1993:1683-1686|Induced seismicity+Fluid pressure+Transverse Ranges+Recurrence
J|0794|Houston,H.|The non-double-couple component of deep earthquakes and the width of the seismogenic zone||#GRL:20:16:1993:1687-1690|Non-double couple+Deep earthquake+Seismogenic zone+Depth
J|0795|Kanamori,H.|W phase||#GRL:20:16:1993:1691-1694|Long-period wave+Body wave+Large earthquake+Phase||#*NICARAGUA92|#*FLORES92|#*PETROLIA92A|#*SHUMAGIN93|#*MINDANAO92A|#*MINDANAO92B
J|0796|Adushkin,V.V.+Kitov,I.O.+Kuznetsov,O.P.+|Seismic efficiency of decoupled nuclear explosions||#GRL:20:16:1993:1695-1698|Underground nuclear explosion+Efficiency+Decoupling+Test ban+ISC
J|0797|Iidaka,T.+Miura,K.+Ikami,A.|Evidence for the existence of a mid-crustal reflector in the Beppu-Shimabara graben, Kyushu, Japan||#GRL:20:16:1993:1699-1702|Reflector+Kyushu+Crust+SxS-wave
J|0798|Ron,H.+Nur,A.+Aydin,A.|Rotation of stress and blocks in the Lake Mead, Nevada, fault system||#GRL:20:16:1993:1703-1706|Nevada+Rotation+Stress+Faulting
J|0799|Igarashi,G.+Tohjima,Y.+Wakita,H.|Time-variable response characteristics of groundwater radon to earthquakes||#GRL:20:17:1993:1807-1810|Groundwater+Radon+Anomaly+Monitoring||#*HONSHU92|#*ONAHAMA87A|#*ONAHAMA87B
J|0800|Cansi,Y.+Plantet,J.L.+Massinon,B.|Earthquake location applied to a mini-array: k-spectrum versus correlation method||#GRL:20:17:1993:1819-1822|Array+Automatic location+Frequency-wavenumber analysis+Accuracy
J|0801|Wagner,G.S.+Owens,T.J.|Broadband bearing-time records of three-component seismic array data and their application to the study of local earthquake coda||#GRL:20:17:1993:1823-1826|Array+Local earthquake+Coda+Broadband seismology
J|0802|Garnero,E.J.+Grand,S.P.+Helmberger,D.V.|Low P-wave velocity at the base of the mantle||#GRL:20:17:1993:1843-1846|Low-velocity layer+P-wave+Core-mantle boundary+Phase+ISC||#*SBOLIVIA73
J|0803|Johnson,H.P.|Processes associated with ocean crustal formation: the Juan de Fuca Ridge||#GRL:20:17:1993:1847-1850|Oceanic crust+Juan de Fuca+Spreading centre+Ocean-bottom seismometer
J|0804|Rohr,K.M.M.+Schmidt,U.+Groschel-Becker,H.|Regional patterns of hydrothermal alteration of sediments as interpreted from seafloor reflection coefficients, Middle Valley, Juan de Fuca Ridge||#GRL:20:17:1993:1867-1870|Reflexion coefficient+Juan de Fuca+Sediment+Ocean Drilling Programme
J|0805|Tivey,M.A.+Johnson,H.P.|Variations in oceanic crustal structure and implications for the fine-scale magnetic anomaly signal||#GRL:20:17:1993:1879-1882|Oceanic crust+Geomagnetic anomaly+Juan de Fuca+Thickness
J|0806|McClain,J.S.+Begnaud,M.L.+Wright,M.A.+|Seismicity and tremor in a submarine hydrothermal field: the northern Juan de Fuca Ridge||#GRL:20:17:1993:1883-1886|Juan de Fuca+Ocean-bottom seismometer+Seismicity+Tremor
J|0807|Gudmundsson,A.+Brynjolfsson,S.|Overlapping rift-zone segments and the evolution of the south Iceland seismic zone||#GRL:20:18:1993:1903-1906|Seismic zone+Iceland+Spreading centre+Evolution
J|0808|Jones,L.E.+Hough,S.E.+Helmberger,D.V.|Rupture process of the June 28, 1992 Big Bear earthquake||#GRL:20:18:1993:1907-1910|Earthquake+1992+Southern California+Rupture||#*BIGBEAR92|#*BIGBEAR92A
J|0809|De Rubeis,V.+Dimitriu,P.P.+Papadimitriou,E.E.+|Recurrent patterns in the spatial behaviour of Italian seismicity revealed by the fractal approach||#GRL:20:18:1993:1911-1914|Recurrence+Italy+Fractal dimension+Spatial distribution
J|0810|Sykes,L.R.+Deng,J.+Lyubomirskiy,P.|Accurate location of nuclear explosions at Azgir, Kazakhstan, from satellite images and seismic data: implications for monitoring decoupled explosions||#GRL:20:18:1993:1919-1922|Location+Underground nuclear explosion+Decoupling+Kazakhstan+ISC||#*KAZAKHSTAN78
J|0811|Jackson,I.|Dynamic compliance from torsional creep and forced oscillation tests: an experimental demonstration of linear viscoelasticity||#GRL:20:19:1993:2115-2118|Creep+Viscoelasticity+Laboratory+Rheology
J|0812|Holcomb,D.J.|Observations of the Kaiser effect under multiaxial stress states: implications for its use in determining in situ stress||#GRL:20:19:1993:2119-2122|Laboratory+Rock+Acoustic emission+Stress
J|0813|Cohen,S.C.|Does rapid change in ice loading modulate strain accumulation and release in glaciated, tectonically active regions||#GRL:20:19:1993:2123-2126|Glacier+Stress+Seismogenesis+Ice
J|0814|Ward,S.N.+Goes,S.D.B.|How regularly do earthquakes recur? A synthetic seismicity model for the San Andreas Fault||#GRL:20:19:1993:2131-2134|San Andreas Fault+Recurrence+Model+Seismicity
J|0815|Ogata,Y.+Matsu'ura,R.S.+Katsura,K.|Fast likelihood computation of epidemic type aftershock-sequence model||#GRL:20:19:1993:2143-2146|Maximum likelihood+Aftershock+Mathematical method+Occurrence
J|0816|Witten,A.J.|A field demonstration of variable density diffraction||#GRL:20:20:1993:2155-2158|Tomography+Diffraction+Density+Imaging
J|0817|Fleischmann,K.H.|Shallow fluid pressure transients caused by seismogenic normal faults||#GRL:20:20:1993:2163-2166|Fluid pressure+Normal fault+Deformation+Dike
J|0818|Dixon,T.H.|GPS measurements of relative motion of the Cocos and Caribbean plates and strain accumulation across the Middle America Trench||#GRL:20:20:1993:2167-2170|Middle America Trench+Interplate earthquake+Global Positioning System+Plate motion
J|0819|Lomnitz,C.|Moment-ratio imaging of seismic regions for earthquake prediction||#GRL:20:20:1993:2171-2174|Prediction+Large earthquake+Precursor+Moment||#*MEXICOCITY|#*SANANTONIO|#*PETROLIA92A|#*ECUADOR87A
J|0820|Padmos,L.+VanDecar,J.C.|The 7 March 1988 North Pacific intraplate earthquake||#GRL:20:20:1993:2175-2178|Intraplate earthquake+1988+North Pacific Ocean+Focal mechanism||#*NPACIFIC88
J|0821|Yamada,A.+Nakanishi,I.|The density jump across the ICB and constraints on P-reflector in the D" layer from observation of the 1992 Chinese nuclear explosion||#GRL:20:20:1993:2195-2198|D"-layer+Nuclear explosion+Core+PKiKP-wave||#*LOPNOR92
J|0822|Nataf,H-C.+Houard,S.|Seismic discontinuity at the top of D": a world-wide feature?||#GRL:20:21:1993:2371-2374|Discontinuity+D" region+Phase transition+Global seismology
J|0823|Stange,S.+Friederich,W.|Surface wave dispersion and upper mantle structure beneath southern Germany from joint inversion of network recorded teleseismic events||#GRL:20:21:1993:2375-2378|Germany+Inversion+Rayleigh wave+Upper mantle
J|0824|Tsuboi,S.+Um,J.|Anomalous amplification of the Earth's normal modes near the epicenter due to lateral heterogeneity||#GRL:20:21:1993:2379-2382|Amplification+Lateral heterogeneity+Spheroidal mode+Aspherical Earth structure||#*LANDERS92
J|0825|Pardo,M.+Suarez,G.|Steep subduction geometry of the Rivera plate beneath the Jalisco block in western Mexico||#GRL:20:21:1993:2391-2394|Rivera+Focal mechanism+Hypocentre+Wadati-Benioff zone
J|0826|Garnero,E.J.+Helmberger,D.V.+Grand,S.P.|Constraining outermost core velocity with SmKS waves||#GRL:20:22:1993:2463-2466|SmKS-wave+Outer core+Velocity structure+Java
J|0827|Valenzuela,R.W.+Wysession,M.E.|Intraplate earthquakes in the southwest Pacific Ocean basin and the seismotectonics of the southern Tasman Sea||#GRL:20:22:1993:2467-2470|Intraplate earthquake+Seismotectonics+Southwest Pacific+Tasman Sea
J|0828|Urbancic,T.I.+Trifu,C-I.+Young,R.P.|Microseismicity derived fault-planes and their relationship to focal mechanism, stress inversion, and geologic data||#GRL:20:22:1993:2475-2478|Microseismicity+Fault plane+Focal mechanism+Mine
J|0829|Nishimura,T.+Hamaguchi,H.|Scaling law of volcanic explosion earthquake||#GRL:20:22:1993:2479-2482|Scaling+Explosion+Eruption+Volcano
J|0830|Song,X-D.+Helmberger,D.V.|Anisotropy of Earth's inner core||#GRL:20:23:1993:2591-2594|Inner core+Anisotropy+PKP-wave+Differential travel-times
J|0831|Takeo,M.+Ide,S.+Yoshida,Y.|The 1993 Kushiro-Oki, Japan, earthquake: a high stress-drop event in a subducting slab||#GRL:20:23:1993:2607-2610|Stress-drop+1993+Earthquake+Japan||#*KUSHIRO93
J|0832|Watada,S.+Kanamori,H.+Anderson,D.L.|An analysis of nearfield normal mode amplitude anomalies of the Landers earthquake||#GRL:20:23:1993:2611-2614|Earthquake+1992+Southern California+Anomaly||#*LANDERS92
J|0833|Hough,S.E.+Mori,J.+Sembera,E.+|Southern surface rupture associated with the 1992 M7.4 Landers earthquake: did it all happen during the mainshock?||#GRL:20:23:1993:2615-2618|Aftershock+1992+Southern California+Rupture||#*LANDERS92
J|0834|Field,E.H.+Jacob,K.H.|The theoretical response of sedimentary layers to ambient seismic noise||#GRL:20:24:1993:2925-2928|Seismic noise+Sediment+Spectrum+Response
J|0835|Maxwell,S.C.+Young,R.P.|Associations between temporal velocity changes and induced seismicity||#GRL:20:24:1993:2929-2932|Induced seismicity+Mine+Velocity+Imaging
J|0836|Watanabe,T.|Effects of water and melt on seismic velocities and their application to characterization of seismic reflectors||#GRL:20:24:1993:2933-2936|Reflector+Velocity ratio+Water+Melt
J|0837|Suetnova,E.I.+Carbonell,R.+Smithson,S.B.|Magma in layering at the Moho of the Basin and Range of Nevada||#GRL:20:24:1993:2945-2948|Layered medium+Basin & Range+Magma+Mohorovicic discontinuity+Reflectivity
J|0838|Guzman-Speziale,M.+Ni,J.F.|The opening of the Andaman Sea: where is the short-term displacement being taken up?||#GRL:20:24:1993:2949-2952|Seismic moment tensor+Andaman arc+Sea-floor spreading+Sagaing Fault
J|0839|Stovas,A.M.|Kinematic analysis of seismic record correction for angle of slope of horizons|In Russian with English abstract|#GFZ:15:4:1993:40-46|Dip moveout+Offset+Formula+Kinematics|Scientific information
J|0840|Gordienko,V.V.|Tectonosphere of Baltic region|In Russian with English abstract|#GFZ:15:5:1993:16-23|Tectonosphere+Baltic+Model+Deep structure
J|0841|Kharitonov,O.M.+Krasovsky,S.S.+Kuprienko,P.Ya.+|Lithospheric transect Vrancea--South-Ukrainian atomic power station|In Russian with English abstract|#GFZ:15:5:1993:23-31|Transect+Crustal structure+Nuclear power plant+Ukraine
J|0842|Tripolsky,A.A.+Aronsky,A.A.+Kriuchenko,V.A.|Studies of subhorizontal crustal faults in the central Ukrainian Shield by seismic reflection method|In Russian with English abstract|#GFZ:15:5:1993:41-52|Ukrainian Shield+Data processing+Fault+Reflexion data
J|0843|Sannikova,N.P.|Mantle structure of major Caucasus and Transcaucasian mid-massif by earthquake P-wave data|In Russian with English abstract|#GFZ:15:5:1993:65-71|Velocity structure+Caucasus+P-wave+Mantle|Scientific communication
J|0844|Chekunov,A.V.+Kharitonov,O.M.+Il'chenko,T.V.+|Deep structure of the lithosphere of the SW Ukrainian Shield (south-Ukrainian atomic power station area)|In Russian with English abstract|#GFZ:15:6:1993:3-16|Nuclear power plant+Deep structure+Ukrainian Shield+Lithosphere
J|0845|Geyko,V.S.|On the conditional correctness of the one-dimensional kinematic problem of seismics. 2.|In Russian with English abstract|#GFZ:15:6:1993:31-43|Travel-times+Seismics+Velocity-depth function+Kinematics
J|0846|Lysynchuk,V.M.+Lysynchuk,D.V.|Model of the Devonian structural stage structure and formation in the NW Dnieper-Donets basin (by seismographic analysis data)|In Russian with English abstract|#GFZ:15:6:1993:54-65|Donets Basin+Tectonics+Structure+Seismic record+Dnepr Basin
J|0847|Vakhnenko,V.A.+Danilenko,V.A.+Kulich,V.V.|Averaged description of wave processes in geophysical periodic medium|In Russian with English abstract|#GFZ:15:6:1993:66-74|Numerical modelling+Viscosity+Geophysical medium+Wave|Scientific communication
J|0848|Tiapkin,Y.K.|Optimization of stacking seismic records with irregular noise|In Russian with English abstract|#GFZ:15:6:1993:74-83|Stacking+Noise+Maximum likelihood+Algorithm|Scientific communication
J|0849|Leonov,Yu.G.|Tectonic criteria for interpretation of seismic reflectors in the lower crust of continents|In Russian with English abstract|#GTK:-:5:1993:4-15|Interpretation+Reflector+Continental crust+Tectonics
J|0850|Kropotkin,P.N.+Yefremov,V.N.|Tectonic stresses on platforms and global variations of seismicity|In Russian with English abstract|#GTK:-:5:1993:34-36|Global seismicity+Tectonics+Stress+Platform
J|0851|Lopez,M.A.|Installation of seismic network in northwest part of Colombia||#IDV:29:-:1993:1-13|Colombia+Network+Tectonics+Seismicity
J|0852|Beltas,P.|Source process of earthquakes in the western Hellenic Arc||#IDV:29:-:1993:35-48|Hellenic arc+Focal mechanism+Earthquake+Seismotectonics||#*KEFALLINIA|#*ALKION|#*ALKION2|#*ALKION3|#*CORINTH92|#*CRETE92
J|0853|Soltanian,S.|A study of focal mechanism of Iran's large earthquakes during time period 1971-1983||#IDV:29:-:1993:51-64|Large earthquake+Focal mechanism+1971-1983+Iran||#*MAKRAN83|#*GOLBAF|#*GHAENAT2|#*GHAENAT|#*SIAHBIL|#*TABAS
J|0854|Ganbaatar,L.|Focal mechanism in Mongolia and its surroundings||#IDV:29:-:1993:67-78|Mongolia+Focal mechanism+1964-1992+Earthquake catalogue+ISC||#*BAIKALIAN|#*MONGOLIA82|#*NXINJIANG83
J|0855|Nacer,J.|Source process of earthquakes in the Atlantic Ocean and Morocco||#IDV:29:-:1993:81-92|Atlantic Ocean+Morocco+Focal mechanism+Seismotectonics||#*AZORES283|#*NATLANTIC90|#*MOROCCO92
J|0856|Shaheen,S.A.|Examination of seismic observational network as I. Detectability-locatability II. Accuracy of the determination of earthquake source parameters||#IDV:29:-:1993:95-107|Network+Source parameter+Accuracy+Detectability
J|0857|Ruiz,G.V.M.|On the seismic risk in northern part of Peru||#IDV:29:-:1993:111-120|Peru+Seismic risk+Major earthquake+Seismicity||#*NPERU91
J|0858|Diongzon,N.F.|The May 17, 1992 eastern Mindanao earthquakes: a data assessment study||#IDV:29:-:1993:123-134|Earthquake+Philippines+1992+Seismicity+ISC||#*MINDANAO92A|#*MINDANAO92B
J|0859|Kongoli,X.|Dynamic magnification factor for column moments||#IDV:29:-:1993:137-148|Structural dynamics+Building+Magnification+Column
J|0860|Ousalem,H.|Characteristics of linearity and non-linearity of a self anchored cable-stayed bridge with various shear-spring supports receiving seismic wave||#IDV:29:-:1993:151-167|Bridge+Earthquake engineering+Support structure+Dynamic analysis
J|0861|Thoms,B.C.|Flexible piles in sandy soils under static lateral loads||#IDV:29:-:1993:171-182|Soil-structure interaction+Sand+Pile+Lateral force
J|0862|Wang,J-Y.|Structural aseismic evaluation||#IDV:29:-:1993:185-198|Fuzzy mathematics+Neural network+Aseismic design+Structural response
J|0863|Nieto,F.|Uplift of lifeline facilities induced by soil liquefaction during an earthquake||#IDV:29:-:1993:201-208|Liquefaction+Underground structure+Pipeline+Shake table
J|0864|El-Remaily,A.|Modeling and analysis of base isolated structures||#IDV:29:-:1993:211-223|Base isolation system+Modelling+Dynamic analysis
J|0865|Fongton S.,G.L.|Effect of surface geological condition on earthquake ground motion||#IDV:29:-:1993:227-234|Ground motion+Accelerogram+Amplification+Soil
J|0866|Zettam,M.S.|Seismic evaluation of a reinforced concrete structure in Morocco||#IDV:29:-:1993:237-248|Reinforced concrete+Building code+Morocco+Structural response
J|0867|Peralta Gonzalez,D.F.|Computer visualization of the modified distinct element method applied to masonry structures||#IDV:29:-:1993:251-263|Masonry structure+Computer program+Structural dynamics+Method
J|0868|Solov'ev,S.L.+Kovachev,S.A.+Shoda,O.Yu.|Microseismicity of the north Aegean Trough from short-term observations with sea-bottom seismographs|In Russian|#RFZ:-:7:1993:3-16|Microseismicity+Ocean-bottom seismograph+AEgean+Depth
J|0869|Kondorskaya,N.V.+Tushko,T.A.|A block-layered model of the crust and determining hypocenters of the Caspian Sea earthquakes|In Russian|#RFZ:-:7:1993:17-23|Caspian Sea+Crust+Hypocentre+Velocity-depth function
J|0870|Parfenyuk,O.I.+Mareschal,J-C.|Finite element modeling of the structural evolution of deep thrust zones: the Kapuskasing, Canada case study|In Russian|#RFZ:-:7:1993:32-40|Finite element method+Evolution+Velocity structure+Kapuskasing
J|0871|Krutin,V.N.+Fayzullin,I.S.|To the theory of the inter-well acoustic sounding|In Russian|#RFZ:-:7:1993:41-46|Sounding+Cross-hole+Theory+Acoustics
J|0872|Artemyev,M.E.+Kucherinenko,V.A.|On the relation of "external loading" to the thickness of the Earth's crust|In Russian|#RFZ:-:7:1993:69-73|Loading+Crustal thickness+Eurasia+Isostasy+ISC|Scientific communication
J|0873|Belyakov,A.S.+Nikolayev,A.V.|Seismoacoustic detectors with magnetoelastic transformation|In Russian|#RFZ:-:7:1993:74-80|Seismoacoustics+Instrument+Detector|Scientific communication
J|0874|Gorbatikov,A.V.+Barabanov,V.L.|Experience of microseisms applications for evaluation of the state of the upper crust|In Russian|#RFZ:-:7:1993:85-90|Microseism+Upper crust|Scientific communication
J|0875|Pan'kov,V.L.|Equilibrium and stability of an incompressible elastic lithosphere|In Russian|#RFZ:-:8:1993:3-8|Lithosphere+Equilibrium+Stability
J|0876|Lyusina,A.V.+Smirnov,V.B.|Temporal clustering of aftershock sequences|In Russian|#RFZ:-:8:1993:9-14|Clustering+Aftershock+Temporal variation+Sequence
J|0877|Assinovskaya,B.A.+Solov'ev,S.L.|Experience in detection and characterization of zones of potential earthquake sources in the Baltic Sea|In Russian|#RFZ:-:8:1993:15-27|Baltic Sea+Seismic potential+ISC||#*SVALBARD
J|0878|Zubkov,S.I.|On certain regularities of foreshock occurrences|In Russian|#RFZ:-:8:1993:34-40|Foreshock+Occurrence
J|0879|Surnev,V.B.|The algorithm of Newton-Kantorovich in problems of diffraction tomography|In Russian|#RFZ:-:8:1993:41-48|Algorithm+Diffraction+Tomography
J|0880|Sadovnichaya,A.P.+Gurevich,B.Ya.+Lopatnikov,S.L.+|Elastic wave scattering by an isolated inclusion in a saturated porous medium|In Russian|#RFZ:-:8:1993:70-78|Elastic wave+Scattering+Inclusion+Porous medium
J|0881|Dubrovina,G.V.+Litvin,A.L.|A method of amplitude fields of refracted waves: software and testing|In Russian|#RFZ:-:8:1993:79-83|Refracted wave+Amplitude|Scientific communication
J|0882|Moskvina,A.G.|The Fiji, February 15, 1971, mantle earthquake|In Russian|#RFZ:-:9:1993:3-11|Fiji+1971+Deep-focus earthquake+Mantle||#*FIJI71
J|0883|Molchanov,A.E.|Faulting processes and seismicity of shear zones|In Russian|#RFZ:-:9:1993:12-26|Shear zone+Faulting+Seismicity
J|0884|Strom,A.L.|Comparing parameters of paleo- and modern seismic dislocations|In Russian|#RFZ:-:9:1993:38-42|Dislocation+Palaeoseismology
J|0885|Vinogradov,S.D.+Troitsky,P.A.+Solovyova,M.S.|Coda generation in a bounded fractured region|In Russian|#RFZ:-:9:1993:43-47|Fracture zone+Coda
J|0886|Zubkov,S.I.|On short-term forerunners of earthquakes|In Russian|#RFZ:-:9:1993:67-70|Precursor|Scientific communication
J|0887|Grachev,A.F.+Kalashnikova,I.V.+Magnitsky,V.A.|Recent geodynamics, neotectonics and seismicity of China|In Russian|#RFZ:-:10:1993:3-13|China+Seismicity+Geodynamics+Neotectonics
J|0888|Pavlenkova,N.I.+Pogrebitskii,Yu.E.+Romanyuk,T.V.|Density-velocity structure of the crust and upper mantle in the South Atlantic from the Angola-Brazil geotraverse data|In Russian|#RFZ:-:10:1993:27-38|Velocity structure+South Atlantic+Geotraverse+Density
J|0889|Sharov,N.V.+Vinogradov,A.N.|On layering and thickness of the Earth's crust at the Baltic Shield|In Russian|#RFZ:-:10:1993:82-88|Baltic Shield+Crustal thickness+Layer+Velocity structure|Scientific communication
J|0890|Treusov,A.V.+Sabitova,T.M.+Golovanov,M.I.|A tomographic model of the Tien Shan crust|In Russian|#RFZ:-:10:1993:89-98|Tomography+Tien Shan+Model+Crust|Scientific communication
J|0891|Kuskov,O.L.+Mikhaleva,N.V.|Modeling composition and structure of the upper mantle at the Canadian Shield|In Russian|#RFZ:-:10:1993:99-102|Canadian Shield+Upper mantle+Velocity structure+Composition|Scientific communication
J|0892|Anisimov,A.A.+Yermakov,S.Yu.+Frolova,E.N.+|Reflection-refraction study of elastic waves at an interface of a non-rigid contact with friction component|In Russian|#RFZ:-:11:1993:37-44|Refraction study+Reflexion study+Elastic wave+Interface
J|0893|Shashkanov,V.A.+Smirnov,A.V.+Kosterov,A.A.|A seismoelectric effect in rocks bearing gaseous and liquid carbon components|In Russian|#RFZ:-:11:1993:61-69|Seismoelectric effect+Rock+Carbon
J|0894|Yasnov,L.V.|On the relation between seismicity of the Earth and solar activity|In Russian|#RFZ:-:11:1993:77-78|Global seismicity+Solar activity+Correlation|Scientific communication
J|0895|Rodkin,M.V.|The nature of deep crustal shear zones|In Russian|#RFZ:-:11:1993:79-85|Deep crust+Shear zone|Scientific communication
J|0896|Adushkin,V.V.+Spivak,A.A.+Kulikov,V.I.|Influence of structural-tectonic setting of a geophysical medium on effects of underground nuclear explosions|In Russian|#RFZ:-:12:1993:54-64|Underground nuclear explosion+Geophysical medium+Tectonics+Structure|Scientific communication
J|0897|Lyubushin,A.A.+Pisarenko,V.F.|Seismicity study in terms of a linear model for intensity of interacting point-wise processes|In Russian|#RFZ:-:12:1993:81-87|Seismicity+Model+Intensity+Stochastic method|Scientific communication
J|0898|Ibanez,J.M.+Del Pezzo,E.+Martini,M.+|Estimates of coda-Q using a non-linear regression||#JPE:41:4:1993:203-219|Coda+Q+Regression+Swarm
J|0899|Morales,J.+Seo,K.+Samano,T.+|Site response on seismic motion in the Granada Basin (southern Spain) based on microtremor measurements||#JPE:41:4:1993:221-238|Granada+Site effect+Microtremor+Spectrum
J|0900|Hurukawa,N.+Imoto,M.|A non double-couple earthquake in a subducting oceanic crust of the Philippine Sea plate||#JPE:41:4:1993:257-269|Non-double couple+Japan+1987+Earthquake+ISC||#*KANTO87
J|0901|Shibuya,K.+Kasahara,M.+Hayakawa,M.+|Application of GPS differential positioning for the development of the Antarctic penetrator||#JPE:41:5:1993:291-304|Global Positioning System+Explosion seismology+Antarctic+Profile
J|0902|Rikitake,T.+Kayano,I.|Macro-anomalies precursory to the 1984 Naganoken Seibu, Japan, earthquake of magnitude 6.8 -possibility of assessing the epicenter, magnitude and occurrence time-||#JPE:41:5:1993:305-317|Precursor+1984+Earthquake+Japan||#*NAGANO
J|0903|Izutani,Y.|Fault length and direction of rupture propagation for the 1993 Kushiro-Oki earthquake as derived from strong motion duration||#JPE:41:5:1993:319-325|Earthquake+1993+Japan+Rupture|Letter|#*KUSHIRO93
J|0904|Yoshimoto,K.+Sato,H.+Kinoshita,S.+|High-frequency site effect of hard rocks at Ashio, central Japan||#JPE:41:5:1993:327-335|Site effect+High frequency+Rock+Japan|Letter
J|0905|Takano,M.+Yamada,I.+Fukao,Y.|Anomalous electrical resistivity of almost dry marble and granite under axial compression||#JPE:41:6:1993:337-346|Prediction+Electrical resistivity+Marble+Granite
J|0906|Iwase,Y.+Honda,S.|Deformation of the crust and upper mantle beneath the back-arc caused by the subducting plate||#JPE:41:6:1993:347-363|Deformation+Subduction+Reflector+Back-arc
J|0907|Karakaisis,G.F.|Long term earthquake prediction in the New Guinea-Bismarck Sea region based on the time and magnitude predictable model||#JPE:41:6:1993:365-389|Prediction+New Guinea+Magnitude+Seismic potential
J|0908|Wang,J-H.|The source rupture duration of earthquakes synthesized from a one-dimensional dynamic lattice model||#JPE:41:6:1993:391-404|Model+Rupture+Moment+Duration
J|0909|Javaherian,A.+Nabi-Bidhendi,M.|The effect of porosity on compressional wave propagation velocity in sandstones and a comparison of velocity relations with regard to laboratory and field data|In Persian with English abstract on p2|#JES:20:1:1993:11-31|Porosity+Sandstone+Velocity+Compressional wave|Persian pagination
J|0910|Javaherian,A.+Shomali,Z.H.|Determination of phase velocity of dispersed Rayleigh waves in layered media|In Persian with English abstract on p3|#JES:20:1:1993:33-44|Dispersion+Rayleigh wave+Layered medium+Phase velocity|Persian pagination
J|0911|Nabi-Bidhendi,M.|Magnitude relations based on Pn-wave amplitudes and duration for site 1 of Iranian long period array (ILPA)|In Persian with English abstract on p5|#JES:20:1:1993:65-72|Magnitude+Array+Amplitude+Duration|Persian pagination
J|0912|Mainprice,D.+Vauchez,A.+Montagner,J-P.|Preface to Special Issue on dynamics of the subcontinental mantle: from seismic anisotropy to mountain building||#PEP:78:3-4:1993:7-11|Introduction+Anisotropy+Dynamics+Continental lithosphere|Preface pagination
J|0913|Bormann,P.+Burghardt,P-T.+Makeyeva,L.I.+|Teleseismic shear-wave splitting and deformations in central Europe||#PEP:78:3-4:1993:157-166|Shear wave splitting+Deformation+Central Europe+SKS-wave
J|0914|Babuska,V.+Plomerova,J.+Sileny,J.|Models of seismic anisotropy in the deep continental lithosphere||#PEP:78:3-4:1993:167-191|Continental lithosphere+Anisotropy+Central Europe+Western United States+ISC
J|0915|Diaz,J.+Hirn,A.+Gallart,J.+|Evidence for azimuthal anisotropy in southwest Iberia from deep seismic sounding data||#PEP:78:3-4:1993:193-206|Iberia+Anisotropy+Azimuth+Deep seismic sounding
J|0916|Savage,M.K.+Silver,P.G.|Mantle deformation and tectonics: constraints from seismic anisotropy in the western United States||#PEP:78:3-4:1993:207-227|Western United States+Anisotropy+Mantle+Shear wave splitting+ISC||#*KURIL84B|#*SAKHALIN90
J|0917|Vaccari,F.+Panza,G.F.|VP/VS estimation in southwestern Europe from P-wave and surface-wave tomography analysis||#PEP:78:3-4:1993:229-237|Velocity ratio+Europe+Surface wave+Tomography
J|0918|Souriau,A.+Njike-Kassala,J-D.|Anisotropy beneath the North Pyrenean fault||#PEP:78:3-4:1993:239-244|Anisotropy+Pyrenees+Plate boundary+Splitting||#*HUALIEN86|#*JUJUY87
J|0919|Kern,H.M.|P- and S-wave anisotropy and shear-wave splitting at pressure and temperature in possible mantle rocks and their relation to the rock fabric||#PEP:78:3-4:1993:245-256|Shear wave splitting+Rock+Laboratory+Anisotropy
J|0920|Mainprice,D.+Silver,P.G.|Interpretation of SKS-waves using samples from the subcontinental lithosphere||#PEP:78:3-4:1993:257-280|SKS-wave+Interpretation+Continental lithosphere+Kimberlite
J|0921|Barruol,G.+Mainprice,D.|A quantitative evaluation of the contribution of crustal rocks to the shear-wave splitting of teleseismic SKS waves||#PEP:78:3-4:1993:281-300|Shear wave splitting+SKS-wave+Crust+Rock
J|0922|Burlini,L.+Fountain,D.M.|Seismic anisotropy of metapelites from the Ivrea-Verbano zone and Serie dei Laghi (northern Italy)||#PEP:78:3-4:1993:301-317|Anisotropy+Northern Italy+Rock+Continental crust
J|0923|McDonough,D.T.+Fountain,D.M.|P-wave anisotropy of mylonitic and infrastructural rocks from a Cordilleran core complex: the Ruby-East Humboldt Range, Nevada||#PEP:78:3-4:1993:319-336|Anisotropy+Nevada+Rock+P-wave
J|0924|Nicolas,A.|Why fast polarization directions of SKS seismic waves are parallel to mountain belts||#PEP:78:3-4:1993:337-342|Mountain+Polarization+SKS-wave+Splitting
J|0925|Tubia,J.M.+Navarro-Vila,F.+Cuevas,J.|The Malaguide-Los Reales Nappe: an example of crustal thinning related to the emplacement of the Ronda peridotites (Betic Cordillera)||#PEP:78:3-4:1993:343-354|Betic Cordillera+Thinning+Crust+Peridotite
J|0926|Snieder,R.+Cermak,V.+Poupinet,G.|Introduction. The evolution of a continent, from kinematics to dynamics||#PEP:79:1-2:1993:1-2|Introduction+Evolution+Continent+Dynamic analysis
J|0927|Spakman,W.+Van der Lee,S.+Van der Hilst,R.D.|Travel-time tomography of the European-Mediterranean mantle down to 1400 km||#PEP:79:1-2:1993:3-74|Travel-times+Tomography+Europe+Mantle+ISC
J|0928|Meissner,R.+Tanner,B.|From collision to collapse: phases of lithospheric evolution as monitored by seismic records||#PEP:79:1-2:1993:75-86|Deep seismic sounding+Europe+Velocity structure+Lithosphere
J|0929|Kissling,E.|Deep structure of the Alps-what do we really know?||#PEP:79:1-2:1993:87-112|Deep structure+Alps+Geophysical investigation+Imaging
J|0930|Kern,H.M.|Physical properties of crustal and upper mantle rocks with regards to lithospheric dynamics and high pressure mineralogy||#PEP:79:1-2:1993:113-136|Physical properties+Rock+Geodynamics+Velocity
J|0931|Hjelt,S-E.+Korja,T.|Lithospheric and upper-mantle structures, results of electromagnetic soundings in Europe||#PEP:79:1-2:1993:137-177|Europe+Electrical conductivity+Sounding+Crust-mantle structure
J|0932|Downes,H.|The nature of the lower continental crust of Europe: petrological and geochemical evidence from xenoliths||#PEP:79:1-2:1993:195-218|Continental crust+Europe+Xenolith+Velocity
J|0933|Schmeling,H.+Marquart,G.|Mantle flow and the evolution of the lithosphere||#PEP:79:1-2:1993:241-267|Evolution+Lithosphere+Mantle convection+Heat flow
J|0934|Mechie,J.+Egorkin,A.V.+Fuchs,K.+|P-wave mantle velocity structure beneath northern Eurasia from long-range recordings along the profile Quartz||#PEP:79:1-2:1993:269-286|Velocity structure+Mantle+Eurasia+P-wave+Nuclear explosion
J|0935|Dziewonski,A.M.+Ekstrom,G.+Salganik,M.P.|Centroid-moment tensor solutions for July-September 1992||#PEP:79:3-4:1993:287-297|Centroid-moment tensor+1992|Letter section
J|0936|Singh,S.J.+Kumari,G.+Singh,K.|Static deformation of two welded elastic half-spaces caused by a finite rectangular fault||#PEP:79:3-4:1993:313-333|Half-space+Deformation+Fault+Mathematical method
J|0937|Garnero,E.J.+Helmberger,D.V.+Grand,S.P.|Preliminary evidence for a lower mantle shear wave velocity discontinuity beneath the central Pacific||#PEP:79:3-4:1993:335-347|Pacific+Discontinuity+Shear wave+D" region
J|0938|Corchete,V.+Badal,J.+Pujades,L.+|Shear velocity structure beneath the Iberian Massif from broadband Rayleigh wave data||#PEP:79:3-4:1993:349-365|Velocity structure+Iberian Peninsula+Rayleigh wave+Shear velocity||#*NCHILE88|#*NATLANTIC89
J|0939|Dragoni,M.+Piombo,A.|Propagation of an aseismic dislocation through asperities with smooth borders||#PEP:80:1-2:1993:1-11|Dislocation+Asperity+Friction+Fault-slip
J|0940|Ibanez,J.M.+Del Pezzo,E.+Alguacil,G.+|Geometrical spreading function for short-period S and coda waves recorded in southern Spain||#PEP:80:1-2:1993:25-36|Spain+Coda wave+S-wave+Spreading
J|0941|Dziewonski,A.M.+Ekstrom,G.+Salganik,M.P.|Centroid-moment tensor solutions for October-December 1992||#PEP:80:3-4:1993:89-103|Centroid-moment tensor+1992|Letter section
J|0942|Godano,C.+Alonzo,M.L.+Caruso,V.|Self-organized criticality and earthquake predictability||#PEP:80:3-4:1993:117-123|Prediction+Southern California+Earthquake catalogue+Mathematical equation
J|0943|Emmerich,H.|Theoretical study on the influence of CMB topography on the core reflection ScS||#PEP:80:3-4:1993:125-134|ScS-wave+Core-mantle boundary+Topography+Synthetic seismogram
J|0944|Posadas,A.M.+Vidal,F.+Morales,J.+|Spatial and temporal analysis of a seismic series using a new version of the three point method: application to the 1989 Antequera (Spain) earthquakes||#PEP:80:3-4:1993:159-168|Spatial analysis+1989+Earthquake+Spain
J|0945|Adam,A.+Steiner,T.|Effect of deep-reaching tectonics on conductivity structure in the Pannonian basin; can magnetotelluric data constrain tectonic interpretations?||#PEP:81:1-4:1993:1-8|Magnetotellurics+Pannonian Basin+Profile+Tectonics|Letter section
J|0946|Livelybrooks,D.+Banks,R.J.+Parr,R.S.+|Inversion of electromagnetic induction data for the Iapetus Suture Zone in the UK||#PEP:81:1-4:1993:67-84|Iapetus suture+Inversion+Electromagnetic data+Refraction data+Reflexion data
J|0947|Galanopoulos,D.|Preliminary magnetotelluric studies along the Hellenic Volcanic Arc: implications for the collision between the African plate and the `Aegea' microplate||#PEP:81:1-4:1993:139-153|Hellenic arc+Magnetotellurics+b-Value+Collision
J|0948|Beamish,D.+Travassos,J.M.|Magnetotelluric studies from two contrasting Brazilian basins: a reassessment of old data||#PEP:81:1-4:1993:261-276|Profile+Magnetotellurics+Brazil+Basin
J|0949|Hyndman,R.D.+Vanyan,L.L.+Marquis,G.+|The origin of electrically conductive lower continental crust: saline water or graphite?||#PEP:81:1-4:1993:325-344|Electrical conductivity+Continental crust+Lower crust+Velocity
J|0950|Rodrigues,C.G.+Ceman,J.A.+Vilks,G.|Late Quaternary paleoceanography of deep and intermediate water masses off Gaspe Peninsula, Gulf of St. Lawrence: foraminiferal evidence||#CJS:30:7:1993:1390-1403|St Lawrence, G. of+Seismic survey+Sedimentary cover+Oceanography
J|0951|Hole,J.A.+Clowes,R.M.+Ellis,R.M.|Interpretation of three-dimensional seismic refraction data from western Hecate Strait, British Columbia: structure of the Queen Charlotte Basin||#CJS:30:7:1993:1427-1439|Seismic survey+Queen Charlotte Islands+Interpretation+Structure
J|0952|Hole,J.A.+Clowes,R.M.+Ellis,R.M.|Interpretation of three-dimensional seismic refraction data from western Hecate Strait, British Columbia: structure of the crust||#CJS:30:7:1993:1440-1452|Queen Charlotte Islands+Interpretation+Seismic survey+Crustal structure
J|0953|O'Leary,D.M.+Clowes,R.M.+Ellis,R.M.|Crustal velocity structure in the southern Coast Belt, British Columbia||#CJS:30:12:1993:2389-2403|Velocity structure+British Columbia+Refraction study+Reflexion data
J|0954|Jansa,L.F.+Pe-Piper,G.+Loncarevic,B.D.|Appalachian basement and its intrusion by Cretaceous dykes, offshore southeast Nova Scotia, Canada||#CJS:30:12:1993:2495-2509|Profile+Nova Scotia+Aeromagnetic study+Offshore
B|0955|e*Yoshida,Y.|Proceedings of the NIPR Symposium on Antarctic Geosciences|6|Kaminuma,K.+Okano,K.|Icequakes recorded at Syowa Station, Antarctica||1993:Tokyo:National Institute of Polar Research|Icequake+Syowa+Ice sheets+Frequency|p1-6
B|0956|e*Yoshida,Y.|Proceedings of the NIPR Symposium on Antarctic Geosciences|6|Akamatsu,J.+Morinaga,Y.+Yamanouchi,T.+|Glacier-generated ground motions at Bomi, southeastern Tibet||1993:Tokyo:National Institute of Polar Research|Ground motion+Tibet+Glacier+Spectrum|p7-16
B|0957|e*Yoshida,Y.|Proceedings of the NIPR Symposium on Antarctic Geosciences|6|Sato,T.+Shibuya,K.+Okano,K.+|Observation of Earth tides and Earth's free oscillations with a superconducting gravimeter at Syowa Station (status report)||1993:Tokyo:National Institute of Polar Research|Gravimetry+Syowa+Earth tide+Free oscillation|p17-25
B|0958|e*Yoshida,Y.|Proceedings of the NIPR Symposium on Antarctic Geosciences|6|Kagami,H.|Seismic stratigraphy, tectonics and ice sheet configuration of continental margin sequences in the Bellingshausen Sea, West Antarctica||1993:Tokyo:National Institute of Polar Research|Seismostratigraphy+Tectonics+Ice sheets+Antarctica|p126-135
B|0959|e*Yoshida,Y.|Proceedings of the NIPR Symposium on Antarctic Geosciences|6|Yamamoto,M.|Instability of the STS seismograph at Syowa Station, Antarctica||1993:Tokyo:National Institute of Polar Research|Seismograph+Instability+Antarctica+Seismic recording|p136. Abstract only
B|0960|e*Yoshida,Y.|Proceedings of the NIPR Symposium on Antarctic Geosciences|6|Shimamura,H.+Shiobara,H.+Guterch,A.+|An ocean bottom seismographic refraction experiment in Bransfield Strait, west Antarctica, 1990/1991||1993:Tokyo:National Institute of Polar Research|Ocean-bottom seismograph+Antarctica+Refraction study+Structure|p139. Abstract only
J|0961|Bak,P.+Paczuski,M.|Why nature is complex||Physics Wld:6:12:1993:39-43|Critical phenomenon+Complex system+Energy+Gutenberg & Richter
J|0962|Schwarzschild,B.|Earthquake yields first real evidence of remote triggering||Physics today:46:9:1993:17-19|Triggering+Southern California+1992+Earthquake||#*LANDERS92
J|0963|Sweet,W.|IRIS and other open seismic networks could be crucial to test-ban regime||Physics today:46:12:1993:35-37|IRIS+Network+Test ban+Verification
A|0964|Grover,F.H.+Marshall,P.D.+Douglas,A.+|High-frequency seismic signals recorded at Eskdalemuir, Scotland|Report No. O 8/93|1993:Aldermaston, Berks:AWE|High frequency+Signal+Verification+Nuclear explosion|34p
A|0965|Burch,R.F.|A three-component borehole seismometer system: development and operation|Report No. O 10/93|1993:Aldermaston, Berks:AWE|Borehole+Down-hole recording+Seismometer+Equipment|87p
A|0966|Douglas,A.+Marshall,P.D.+Young,J.B.|Body-wave magnitudes and locations of French explosions in the South Pacific|Report No. O 11/93|1993:Aldermaston, Berks:AWE|Magnitude+Location+Nuclear explosion+South Pacific+ISC|21p
A|0967|Douglas,A.+Marshall,P.D.+Jones,K.H.|Body-wave magnitudes and locations of explosions at the Chinese Test Site, 1967-1989|Report No. O 12/93|1993:Aldermaston, Berks:AWE|Magnitude+Location+Nuclear explosion+China+ISC|19p
J|0968|Pollack,H.N.+Hurter,S.J.+Johnson,J.R.|Heat flow from the Earth's interior: analysis of the global data set||#RGS:31:3:1993:267-280|Heat flow+Velocity+Global geophysics+Shear wave
J|0969|Molnar,P.+England,P.+Martinod,J.|Mantle dynamics, uplift of the Tibetan Plateau, and the Indian monsoon||#RGS:31:4:1993:357-396|Tibet+Mantle+Dynamics+Fault plane solution
J|0970|Detrick,R.S.+White,R.S.+Purdy,G.M.|Crustal structure of North Atlantic fracture zones||#RGS:31:4:1993:439-458|Fracture zone+North Atlantic+Crustal structure+Velocity-depth function
J|0971|Mian,Z.|Understanding why Earth is a planet with plate tectonics||#QJR:34:4:1993:441-448|Plate tectonics+Planet+Water+Seismology
J|0972|Milivojevic,M.G.|Geothermal model of Earth's crust and lithosphere for the territory of Yugoslavia: some tectonic implications||#SGE:37:3:1993:265-278|Yugoslavia+Crust+Geothermal field+Mohorovicic discontinuity
J|0973|Duque,M.R.+Mendes-Victor,L.A.|Heat flow and deep temperature in south Portugal||#SGE:37:3:1993:279-292|Portugal+Heat flow+Borehole+Velocity
J|0974|Majcin,D.|Thermal state of the west Carpathian lithosphere||#SGE:37:4:1993:345-364|Carpathians+Lithosphere+Geothermal field+Thickness
J|0975|Ohtake,M.|Derivation of the three-parameter model of frequency distribution of earthquake magnitude||#TGJ:34:3:1993:115-119|Model+Frequency-magnitude relation+Maximum earthquake+Equation|Short note
J|0976|Ates,A.+Kearey,P.|Structure of Blackdown pericline, Mendip Hills, from gravity and seismic data||#JGL:150:4:1993:729-736|Reflexion study+England+Gravity+Structure
J|0977|Boulter,M.C.+Manum,S.B.|Further comments on `A geological map of the southern Deccan Traps, India and its structural implications' by C. Mitchell and M. Widdowson||#JGL:150:4:1993:791-795|Comments+Norwegian Sea+Dipping reflector+Ocean Drilling Programme|With replies
J|0978|Evans,D.J.+Rees,J.G.+Holloway,S.|The Permian to Jurassic stratigraphy and structural evolution of the central Cheshire Basin||#JGL:150:5:1993:857-870|Reflexion study+Basin+Stratigraphy+England
J|0979|Pavoni,N.|Pattern of mantle convection and Pangaea break-up, as revealed by the evolution of the African plate||#JGL:150:5:1993:953-964|Pangea+Mantle convection+African Plate+Velocity
J|0980|Evans,D.J.+Rowley,W.J.+Chadwick,R.A.+|Seismic reflections from within the Lake District batholith, Cumbria, northern England||#JGL:150:6:1993:1043-1046|Reflexion study+England+Batholith
J|0981|Hillis,R.R.|Tertiary erosion magnitudes in the Midlands Shelf, onshore UK||#JGL:150:6:1993:1047-1050|Sonic log+Slowness+United Kingdom+Erosion
J|0982|Ates,A.+Kearey,P.|Deep structure of the east Mendip Hills from gravity, aeromagnetic and seismic reflection data||#JGL:150:6:1993:1055-1063|Reflexion data+Deep structure+England+Geophysical data
J|0983|Dart,C.J.+Bosence,D.W.J.+McClay,K.R.|Stratigraphy and structure of the Maltese graben system||#JGL:150:6:1993:1153-1166|Malta+Graben+Stratigraphy+Structure
J|0984|Bassett,M.G.+Cope,J.C.W.|Discussion on `New seismic evidence for a major geological boundary at shallow depth, N Devon' by M. Brooks, B. V. Hillier and M. Miliorizos||#JGL:150:6:1993:1197-1199|Comments+England+Seismogeology+Shallow structure|With a reply by the authors
J|0985|Takeda,T.+Ichinomiya,T.+Kanda,K.|Improving earthquake resistance of PC cable-stayed bridges by hysteresis- and tuned-type dampers|In Japanese with English abstract on p7-8|#AKR:41:10:1993:61-66|Earthquake-resistant design+Bridge+Hysteresis+Damper
J|0986|Ohbo,N.+Zheng,J.+Ueno,K.|Seismic response of a deep vertical shaft connected to a horizontal tunnel|In Japanese with English abstract on p9-10|#AKR:41:10:1993:79-84|Bridge+Structural dynamics+Concrete+Strong motion
J|0987|Yamada,T.+Suzuki,K.+Ishida,M.+|Elasto-plastic control of building vibration using fuzzy set theory (Part 2) -investigations of optimum control parameters-|In Japanese with English abstract on p11-12|#AKR:41:10:1993:101-106|Fuzzy mathematics+Vibration+Response+Hysteresis
J|0988|Maruta,M.+Bessho,S.|Structural properties of R/C columns made with high-strength materials for high-rise buildings|In Japanese with English abstract on p15|#AKR:41:10:1993:125-130|Aseismic design+Reinforced concrete+Building+Column
J|0989|Ishida,H.|Modeling input earthquake motion based on probability theory and application to response evaluation|In Japanese with English abstract on p16-17|#AKR:41:10:1993:137-142|Structural response+Modelling+Probability+Aseismic design
J|0990|Yahata,K.|Model study on dynamic behavior of a single pile-soil interaction in surface layer|In Japanese with English abstract on p17-18|#AKR:41:10:1993:143-148|Elastic wave+Pile+Soil-structure interaction+Model
J|0991|Kobayashi,T.+Yamaya,H.+Sasaki,T.|Forced vibration test of large-scale nuclear power plant SSI Model (Part 1) -general description of the project, test results and analyses before backfill-|In Japanese with English abstract on p18|#AKR:41:10:1993:149-154|Nuclear power plant+Vibration+Aseismic design+Soil-structure interaction
J|0992|Yahata,K.+Inada,O.+Tsuzuki,M.+|Field testing and analysis of dynamic axially and laterally loaded pile group||#AKR:41:10:1993:157-158|Pile+Dynamic analysis+Soil-structure interaction+Aseismic design
J|0993|a-The HiDAM Working Group|Development of high damping system (HiDAM) for seismic response control|In Japanese with English abstract on p19|#AKR:41:10:1993:159-164|Damping+Control+Structural response+Building
J|0994|Kobori,T.+Mizukoshi,K.+Miyamura,M.+|Social engineering approach toward mitigating earthquake disaster|In Japanese with English abstract on p19-20|#AKR:41:10:1993:165-170|Mitigation+Disaster+Damaging earthquake+Urban planning
J|0995|Suzuki,Y.+Miura,K.+Nagano,M.+|Development of foundation work for reduction of earthquake response (Part 1) -analytical examinations and material tests-|In Japanese with English abstract on p24-25|#AKR:41:10:1993:219-220|Foundation+Soil-structure interaction+Response+Damping
J|0996|Yano,K.+Midorikawa,H.+Mizuno,T.+|Research on electromagnetically-levitated vibration isolation system -two-dimensional vibration isolation system-|In Japanese with English abstract on p33|#AKR:41:10:1993:293-298|Isolation+Vibration+Aseismic design
J|0997|Suvorov,V.D.|Crustal velocities in the area of the South-Yakutian earthquake from epicentral observations|In Russian with English abstract|#VSM:-:4:1993:98-104|Velocity+Crust+Depth+Yakutsk||#*YAKUTSK89
J|0998|Moroz,Yu.F.+Napylova,O.A.|Variations in low-frequency magnetotelluric matrices as short-term earthquake precursors|In Russian with English abstract|#VSM:-:5:1993:67-76|Precursor+Magnetotellurics+Kamchatka+Low frequency
J|0999|Lemzikov,V.K.|Spatial variations in coda enveloping shape of small earthquakes in the Avachinsky Bay|In Russian with English abstract|#VSM:-:5:1993:77-87|Small earthquake+Coda+Q+Spatial variation
J|1000|Hachay,O.A.|Utilization of the methods of mathematical theory of entropy for studying of correlations and relationship of non-linear stochastic processes of dynamic systems|In Russian with English abstract|#VSM:-:5:1993:95-104|Tsunami+Triggering+Entropy+Forecast
J|1001|Ivshin,V.M.|Borehole tiltmeter NIV-1|In Russian with English abstract|#VSM:-:5:1993:105-112|Tiltmeter+Borehole+Instrument
J|1002|Fedotov,S.A.+Chernysheva,G.V.+Shumilina,L.S.|Sequence of M >= 6 foreshocks and aftershocks of large Pacific earthquakes (M ~ 8) and its danger|In Russian with English abstract|#VSM:-:6:1993:3-12|Large earthquake+Pacific+Sequence+Danger+ISC||#*MEXICOCITY|#*SANANTONIO
J|1003|Solonenko,A.V.+Ufimtsev,G.F.|Symmetry of the latest structure and stress field in earthquake foci in the Baikal Rift Zone|In Russian with English abstract|#VSM:-:6:1993:38-52|Baikalian Rift+Stress field+Symmetry+Focus
J|1004|Antonets,M.A.+Fridman,V.E.+Sherstneva,L.B.|On slow seismic tsunami-triggering waves|In Russian with English abstract|#VSM:-:6:1993:53-57|Tsunami+Triggering+Slow wave+Surface wave
J|1005|Boldyrev,S.A.|Bottom seismological observations at Angola-Brazil transect (South Atlantic)|In Russian with English abstract|#VSM:-:6:1993:58-71|Transect+South Atlantic+Microseismicity+Ocean-bottom seismometer
J|1006|Popov,A.M.+Naidich,V.I.+Khramtsov,A.A.+|The relation of electromagnetic fields to seismicity and the mechanism responsible for crustal earthquakes: Baikal region|In Russian with English abstract|#VSM:-:6:1993:99-107|Baikal+Electromagnetic field+Seismicity+Mechanism
J|1007|Neprochnov,Yu.P.+Sedov,V.V.+Valyashko,G.M.+|The results of the detailed geophysical and geological researches at the Murray fracture zone|In Russian with English abstract|#OKN:33:4:1993:589-597|Fracture zone+Geophysical investigation+Sea-floor spreading+Northeastern Pacific Ocean
J|1008|Pekhotsky,V.V.|The influence of the sea bottom slopeangle on the tsunami waves generation|In Russian with English abstract|#OKN:33:5:1993:659-662|Tsunami+Slope+Sea floor
J|1009|Gainanov,A.G.|Gravity field and density models of the lithosphere and asthenosphere of the oceans|In Russian with English abstract|#OKN:33:6:1993:904-914|Density+Oceanic lithosphere+Gravity+Asthenosphere
J|1010|Elnikov,I.N.|The system breaking of an acoustics basement and the structure of sediments in the Vavilov hollow (Tyrrhenian Sea)|In Russian with English abstract|#OKN:33:6:1993:924-929|Basement+Marine seismic investigation+Sediment+Tyrrhenian Sea
J|1011|Bankwitz,P.|Crustal types of eastern central Europe||#PAA:-:255:1993:13-17|Central Europe+Crust+Profile+Seismic survey
J|1012|Gadomski,D.|Deep reflection studies in northwestern Poland seismic line GB-1-III-86/89||#PAA:-:255:1993:61-63|Poland+Deep seismic sounding+Crustal thickness
J|1013|Grabowska,T.+Koblanski,A.+Dolnicki,J.|Deep structure of the Earth's crust in the Teisseyre-Tornquist zone (TTZ) in Poland, based on magnetic and gravity studies||#PAA:-:255:1993:81-85|Deep structure+Poland+Modelling+Geophysical data
J|1014|Gregersen,S.+Thybo,H.+Perchuc,E.|Interpretation from explosion seismograms of crustal inhomogeneities in statu nascendi||#PAA:-:255:1993:87-89|Seismogram+Inhomogeneity+Fennoscandia+Explosion seismology
J|1015|Snieder,R.+Paulssen,H.|Future deployment of the NARS-array||#PAA:-:255:1993:129-132|NARS+Array+Eurasia+Deep structure+ISC
J|1016|Sokolov,V.B.|The deep structure of the central Urals||#PAA:-:255:1993:133-138|Urals+Deep seismic sounding+Drilling+Geophysical data
J|1017|Stephenson,R.+Cloetingh,S.|Intraplate neotectonics and sedimentary basin dynamics||#PAA:-:255:1993:139-145|Intraplate seismicity+Dynamics+Sedimentary basin+Neotectonics
J|1018|Thybo,H.+Fluh,E.+a-BABEL Working Group|Project BABEL integrated interpretation of seismic reflection and refraction data across the narrow Tornquist Fan in the Baltic Sea||#PAA:-:255:1993:147-152|BABEL+Baltic Sea+Seismic survey+Velocity structure
J|1019|Senatorski,P.|Fault zone dynamics evolution patterns|With Polish abstract|#PAA:-:261:1993:5-84|Fault zone+Dynamics+Pattern+Evolution
J|1020|a-International Flores Tsunami Team|Flores Island, Indonesia, earthquake and tsunami||Tsunami Newsl.:25:1:1993:2-3|Earthquake+1992+Indonesia+Tsunami|News events|#*FLORES92
J|1021|Gonzalez,F.I.+Sutisna,S.+Hadi,P.+|Some observations related to the Flores Island earthquake and tsunami||Tsunami Newsl.:25:1:1993:3-4|Earthquake+1992+Indonesia+Tsunami|News events|#*FLORES92
J|1022|Gonzalez,F.I.+Bernard,E.N.|Tsunami inundation model study of Eureka and Crescent City, California; and, the Cape Mendocino tsunami||Tsunami Newsl.:25:1:1993:4-6|Earthquake+1992+Cape Mendocino+Tsunami|News events|#*PETROLIA92A
J|1023|Camacho,E.|The tsunami of April 22, 1991 in central America||Tsunami Newsl.:25:1:1993:6-7|Earthquake+1991+Costa Rica+Tsunami|News events|#*COSTARICA91
J|1024|Chiu,H-C.+Huang,H-C.|Numerical modeling of the site resonance observed at Yan-Liau, Hualien, Taiwan||#BAS:13:-:1993:1-4|Numerical modelling+Resonance+Site+Hualien
J|1025|Peng,H-Y.+Wen,K-L.|Downhole instrument orientations and near surface Q analysis from the SMART2 array data||#BAS:13:-:1993:5-7|SMART 2 array+Down-hole recording+Q+Orientation
J|1026|Tsai,C-C.P.|Ground motion prediction using the barrier model||#BAS:13:-:1993:8-12|Ground motion+Prediction+Near earthquake+Taiwan
J|1027|Wang,J-H.|One-dimensional dynamic modelling of earthquakes||#BAS:13:-:1993:15-18|Dynamic analysis+Modelling+Scaling+Friction
J|1028|Wang,J-H.+Lin,W-H.|A fractal analysis of earthquakes in west Taiwan||#BAS:13:-:1993:21-23|Fractal dimension+Taiwan+b-Value
J|1029|Wen,K-L.+Beresnev,I.A.+Yeh,Y.T.|Check on nonlinear site response in strong ground motions by using the spectral ratio method||#BAS:13:-:1993:24-26|Nonlinear response+Spectral ratio+Strong motion+Site effect
J|1030|Wen,K-L.+Dravinski,M.+Peng,H-Y.|Effects of 2D semi-circular basin on ground motions under the incident Rayleigh wave||#BAS:13:-:1993:27-30|Ground motion+Rayleigh wave+Basin||#*HUALIEN86
J|1031|Yeh,Y.T.+Cheng,S-N.+Yu,M-S.|A revisit on 1951 Taitung earthquake||#BAS:13:-:1993:31-35|Earthquake+1951+Taiwan+Fault plane solution
J|1032|Chen,K-J.+Yeh,Y-H.|The correlation between QP and the seismicity in Taiwan area||#BAS:13:-:1993:36-38|Correlation+Seismicity+Taiwan+Q
J|1033|Kao,H.+Chen,W-P.|The double seismic zone in Kuril-Kamchatka: the tale of two overlapping single zones||#BAS:13:-:1993:39-45|Seismic zone+Kuril-Kamchatka Arc+Focal mechanism+Depth
J|1034|Yeh,Y-H.+Chen,K-C.+Yen,H-Y.+|A high-resolution seismic array experiment in the Hualien area, Taiwan||#BAS:13:-:1993:67-69|High resolution+Array+Hualien
J|1035|Jacob,K.H.|NCEER strong motion records of the M=7 Shumagin Islands, Alaska, earthquake of May 13, 1993 and its aftershocks||#NCE:7:3:1993:1-3|Earthquake+1993+Alaska+Strong-motion record||#*SHUMAGIN93
J|1036|Bartlett,S.F.+Youd,T.L.|Empirical analysis of liquefaction-induced lateral spread||#NCE:7:3:1993:3-7|Liquefaction+Linear regression+Model+Displacement
J|1037|Feng,M.Q.|Report on NCEER-Taisei research on hybrid sliding isolation systems||#NCE:7:3:1993:8-12|Isolation+Bridge+Earthquake engineering+Friction
J|1038|Mander,J.B.+Nair,B.|Seismic performance of brick-infilled steel frames with or without retrofit||#NCE:7:3:1993:13-17|Steel frame+Design+Performance
J|1039|Symans,M.D.+Constantinou,M.C.|Seismic response of structures with supplemental fluid viscous dampers||#NCE:7:4:1993:1-5|Structural response+Damper+Shake table
J|1040|Ballantyne,D.|Lifeline system monitoring and control for earthquake mitigation||#NCE:7:4:1993:6-9|Mitigation+Isolation+Water+Monitoring
J|1041|Deodatis,G.+Zhang,R.|Seismic ground motion generation using a specific barrier model description of the seismic source||#NCE:7:4:1993:9-10|Ground motion+Model+Source
J|1042|Seeber,L.+Jain,S.K.+Murty,C.V.R.+|Surface rupture and damage patterns in the MS = 6.4, September 29, 1993 Killari (Latur) earthquake in central India||#NCE:7:4:1993:12|Earthquake+1993+India+Rupture||#*LATUR93
J|1043|Cole,C.A.|Klamath Falls, Oregon earthquake of September 20, 1993||#NCE:7:4:1993:13-16|Earthquake+1993+Oregon+Damage||#*KLAMATH93A|#*KLAMATH93B
J|1044|Swan,S.+Harris,S.K.|The August 8, 1993 earthquake near the island of Guam||#NCE:7:4:1993:16-19|Earthquake+1993+Guam+Damage||#*MARIANAS93
J|1045|Yanev,P.|The July 12, 1993 Hokkaido Nan-Sei, Japan earthquake||#NCE:7:4:1993:19-22|Earthquake+1993+Hokkaido+Tsunami||#*SEAOFJAPAN93
J|1046|Elgamal,A-W.M.+Amer,M.|Soil liquefaction during the October 12, 1992 Egyptian Dahshur earthquake||#NCE:7:4:1993:22-24|Earthquake+1992+Egypt+Liquefaction||#*CAIRO92
J|1047||CIS earthquake prediction||Geoscientist:3:4:1993:3|Prediction+CIS+Caucasus|Geonews
J|1048||UK seismic hazard assessment||Geoscientist:3:5:1993:4|Hazard+United Kingdom+Damage+Detection|Geonews
J|1049|Whittle,R.A.+Gutmanis,J.C.|Finding lines: a success story for remote sensing||Geoscientist:3:6:1993:8-9|Remote sensing+Hazard+Geologic structure
J|1050|Rothery,D.A.+Lawrence,G.|Remote sensing for the study of volcanoes and earthquakes||Geoscientist:3:6:1993:10-11|Volcano+Earthquake+Remote sensing+Temperature
J|1051|De Ville de Goyet,C.|Protecting community lifelines: mitigation of disasters in hospitals||STOP Disasters:-:14:1993:4-5|Hospital+Disaster+Mitigation||#*MEXICOCITY
J|1052|Aysan,Y.|Protection of hospitals and schools||STOP Disasters:-:14:1993:6-7|Hospital+School+Natural disaster+Protection
J|1053|Ishigaki,H.+Takahashi,S.|Earthquake disaster prevention of Shizuoka Prefecture, Japan||STOP Disasters:-:14:1993:12-13|Prevention+Japan+Disaster
J|1054|Berz,G.|The insurance industry and IDNDR: common interests and tasks||STOP Disasters:-:15:1993:8-10|Insurance+IDNDR+Natural disaster+Casualties
J|1055|Jain,R.C.A.|Natural disaster management in India||STOP Disasters:-:15:1993:18-22|India+Natural disaster+Mitigation
J|1056|Rynn,J.M.W.|Earthquake zonation of urbanised areas in Australia. Phase 1: the city of Sydney||STOP Disasters:-:16:1993:5-6|Zonation+Australia+Urban planning
J|1057|Katayama,T.+Kawata,Y.|The Japan earthquake 12 July 1993. Tsunamis at Okushiri Island||STOP Disasters:-:16:1993:7-8|Earthquake+1993+Japan Sea+Tsunami||#*SEAOFJAPAN93
J|1058|Wadge,G.|Remote sensing for natural hazard assessment and mitigation||STOP Disasters:-:16:1993:9-10|Remote sensing+Hazard+Mitigation+IDNDR
J|1059|Okaya,D.A.+Levander,A.R.|RISC high resolution crustal images of the southern Basin and Range - Salton Trough||IRIS Newsl.:12:2:1993:1-3|Salton Trough+Crust+Basin & Range+Refraction study
J|1060|Johnson,T.|Installation of IRIS/IDA stations at Lovozero and Norilsk, Russia||IRIS Newsl.:12:2:1993:4-6|IRIS+Russia+Equipment+Seismograph station
J|1061|Vergino,E.S.+Snoke,J.A.|SAC and MAP||IRIS Newsl.:12:2:1993:7-8|Computer program+Software+Data analysis
J|1062|Claassen,J.P.+Unger,J.D.+Leith,W.S.|Performance estimates of a global network of open stations||IRIS Newsl.:12:3:1993:1-7|Global Seismic Network+Performance+Threshold+Detection
J|1063|Hutt,C.R.+Bergman,E.A.|The Global Telemetered Seismograph Network||IRIS Newsl.:12:3:1993:4-5|Global Seismic Network+Borehole+Equipment+Telemetry
J|1064|Hickman,S.+Zoback,M.D.+Ellsworth,W.L.+|Deep scientific drilling in the San Andreas fault zone||IRIS Newsl.:12:3:1993:9-11|San Andreas Fault+Drilling+Depth+Deep crust
J|1065|Sandoval,L.+Holcomb,G.|IRIS/ASL GSN station installation at Palmer station, Antarctica||IRIS Newsl.:12:3:1993:12-13|Antarctica+Borehole+IRIS+Seismograph station
J|1066|Algar,S.T.+Pindell,J.L.|Structure and deformation history of the Northern Range of Trinidad and adjacent areas||Tectonics:12:4:1993:814-829|Fault zone+Trinidad+Structure+Neotectonics
J|1067|Richard,S.M.|Palispastic reconstruction of southeastern California and southwestern Arizona for the middle Miocene||Tectonics:12:4:1993:830-854|California+Arizona+Fault+Miocene
J|1068|Hole,M.J.+Larter,R.D.|Trench-proximal volcanism following ridge crest-trench collision along the Antarctic Peninsula||Tectonics:12:4:1993:897-910|Reflexion study+Antarctic+Volcanism+Seamount
J|1069|Stauble,M.+Pfiffner,O.A.+Smithson,S.B.|Crustal structure and reflectivity of the Swiss Alps from three-dimensional seismic modeling 1. Helvetic nappes||Tectonics:12:4:1993:911-924|Crustal structure+Reflectivity+Swiss Alps+Modelling
J|1070|Litak,R.K.+Marchant,R.H.+Pfiffner,O.A.+|Crustal structure and reflectivity of the Swiss Alps from three-dimensional seismic modeling: 2. Penninic nappes||Tectonics:12:4:1993:925-935|Crustal structure+Reflectivity+Swiss Alps+Modelling
J|1071|Stockmal,G.S.+Waldron,J.W.F.|Structural and tectonic evolution of the Humber zone, western Newfoundland, 1. Implications of balanced cross sections through the Appalachian structural front, Port au Port Peninsula||Tectonics:12:4:1993:1056-1075|Appalachians+Evolution+Tectonics+Reflector
J|1072|Bassi,G.+Keen,C.E.+Potter,P.|Correction to `Contrasting styles of rifting: models and examples from the eastern Canadian margin'||Tectonics:12:4:1993:1087|Errata+Rifting+Canada+Reflectivity
J|1073|Rebai,S.+Philip,H.+Dorbath,L.+|Active tectonics in the Lesser Caucasus: coexistence and extensional structures||Tectonics:12:5:1993:1089-1114|Focal mechanism+Tectonics+Caucasus+Microseismicity
J|1074|Malavieille,J.|Late orogenic extension in mountain belts: insights from the Basin and Range and the late Paleozoic Variscan belt||Tectonics:12:5:1993:1115-1130|Orogeny+Mountain+Basin & Range+Deep seismic sounding
J|1075|Jackson,J.A.+Blenkinsop,T.G.|The Malawi earthquake of March 10, 1989: deep faulting within the East African Rift system||Tectonics:12:5:1993:1131-1139|1989+Malawi+Faulting+Deep earthquake+ISC||#*MALAWI89|#*SUDAN90|#*MALAWI89F
J|1076|Pezzopane,S.K.+Weldon,R.J.|Tectonic role of active faulting in central Oregon||Tectonics:12:5:1993:1140-1169|Faulting+Oregon+Shallow earthquake+Source parameter||#*CHALFANT|#*MAMMOTH|#*MAMMOTH3
J|1077|Ellis,B.J.+Levi,S.+Yeats,R.S.|Magnetic stratigraphy of the Morales Formation: late Neogene clockwise rotation and compression in the Cuyama basin, California Coast Ranges||Tectonics:12:5:1993:1170-1179|Stratigraphy+California+Reflexion study+Palaeomagnetism
J|1078|Whitmarsh,R.B.+Pinheiro,L.M.+Miles,P.R.+|Thin crust at the western Iberia ocean-continent transition and ophiolites||Tectonics:12:5:1993:1230-1239|Velocity structure+Crust+Iberia+Thinning
J|1079||Introduction to the 1993 Klamath Falls, Oregon, earthquakes||#EQV:24:3:1993:104-105|Earthquake+1993+Oregon+Introduction||#*KLAMATH93A|#*KLAMATH93B
J|1080|Sherrod,D.R.|Historic and prehistoric earthquakes near Klamath Falls, Oregon||#EQV:24:3:1993:106-120|Historical earthquake+Prehistoric earthquake+Oregon+Geology||#*KLAMATH93A|#*KLAMATH93B|#*KLAMATH93C
J|1081|Dewey,J.W.|Damages from the 20 September earthquakes near Klamath Falls, Oregon||#EQV:24:3:1993:121-128|Earthquake+1993+Oregon+Damage||#*KLAMATH93A|#*KLAMATH93B
J|1082|Qamar,A.+Meagher,K.L.|Precisely locating the Klamath Falls, Oregon, earthquakes||#EQV:24:3:1993:129-139|Earthquake+1993+Oregon+Sequence||#*KLAMATH93A|#*KLAMATH93B|#*KLAMATH93C
J|1083|Keefer,D.K.+Schuster,R.L.|Landslides caused by the Klamath Falls, Oregon, earthquakes of September 20, 1993||#EQV:24:3:1993:140-146|Earthquake+1993+Oregon+Landslide||#*KLAMATH93A|#*KLAMATH93B
J|1084|Person,W.J.|Earthquakes May-June 1993||#EQV:24:3:1993:147-152|Earthquake+1993
J|1085|Gordon,D.W.|An Earthquakes & Volcanoes preview||#EQV:24:3:1993:153|Earthquake+1994+Damage+Los Angeles||#*NORTHRIDGE94
J|1086||Focal mechanism solution for the Klamath Falls, Oregon, earthquake||#EQV:24:3:1993:155|Earthquake+1993+Oregon+Focal mechanism||#*KLAMATH93A
J|1087|Person,W.J.|Earthquakes July-August 1993||#EQV:24:4:1993:197-201|Earthquake+1993+Casualties
J|1088|Lin,Y-W.|A discussion on the relation of circulation depth of hot spring water to seismic activity on the northern segment of the Honghe fault zone|In Chinese and English|#SMG:15:3:1993:193-206|Spring water+Honghe+Activity+Fault zone
J|1089|Deng,Z-H.+Ma,J.|On nonlinear characteristics of earthquake precursor time with reference to Haicheng and Tangshan earthquakes|In Chinese with English abstract|#SMG:15:3:1993:213-219|Nonlinearity+Precursor+North China+Time history||#*TANGSHAN|#*HAICHENG
J|1090|Diao,G-L.+Yu,L-M.+Li,Q-Z.|The difference of the breaking characteristics between the Datong earthquake sequence and the Lancang earthquake sequence|In Chinese with English abstract|#SMG:15:3:1993:222-228|Sequence+Focal mechanism+Epicentre+China||#*YUNNAN88A|#*YUNNAN88B|#*DATONG89A|#*DATONG89B
J|1091|Liang,H-Q.+Liu,J-Z.+Liu,Q-X.|The relationship between temporal variations of present stress in a part of fault planes and seismicity in North China|In Chinese with English abstract|#SMG:15:3:1993:229-238|Seismicity+Stress+Temporal variation+North China
J|1092|Dong,R-S.+Gu,D-G.+Ran,H-L.|Application of renewal process and probability assignment model to calculating earthquake occurrence probability for potential seismic source areas|In Chinese with English abstract|#SMG:15:3:1993:239-246|Seismic potential+North China+Probability+Occurrence
J|1093|Yang,Q-Y.+Chen,X-C.+Ma,W-T.+|Formation mechanism of microearthquake swarm in Yanguan area on the Yangtze gorges|In Chinese with English abstract|#SMG:15:3:1993:247-252|Microearthquake+Swarm+Mine tremor+Focal mechanism
J|1094|Han,D-R.|The tectonic pattern and seismic characteristics of Mabian-Yongshan seismic zone|In Chinese with English abstract|#SMG:15:3:1993:253-260|Seismic zone+Tectonics+China+Epicentre
J|1095|Pan,J-X.+Wu,Y-B.+Zhang,Y-X.+|A discussion on earthquakes in Huaxian, Shanxi Province, and in Yueyang, Hunan Province, in 1556|In Chinese with English abstract|#SMG:15:3:1993:261-267|1556+Historical earthquake+China+Isoseismal
J|1096|Zhang,H-F.+Xie,J-B.|Reinterpretation of Pg wave refraction data along profile HQ-13 in Jiangsu by GRM method|In Chinese with English abstract|#SMG:15:3:1993:277-284|Pg-wave+Refraction data+Profile+Jiangsu
J|1097|Ren,J-W.+Wang,Y-P.+Wu,Z-M.+|Holocene earthquake deformation zones and their displacement and slip rate along the Xidatan-Dongdatan of Kusaihu-Maqu fault in northern Qinghai-Xizang plateau|In Chinese|#SMG:15:3:1993:285-289|Holocene+Deformation+China+Fault
J|1098|Shih,R-C.+Hsiuan,T-H.+Yeh,Y-H.+|Network distributed parallel processing of pre-stack layer-stripping reverse-time migration||#TAO:4:3:1993:243-256|Reverse-time migration+Layered medium+Data processing+Computer
J|1099|Wang,C-T.+Wang,J-H.|Aspects of large Taiwan earthquakes and their aftershocks||#TAO:4:3:1993:257-271|Taiwan+Large earthquake+Aftershock+Magnitude||#*HUALIEN90B|#*TAIWAN91|#*HUALIEN86|#*LANHSU
B|1100|e*Aki,K.+Dmowska,R.|Relating geophysical structures and processes. The Jeffreys volume|Geophysical Monograph 76|Bolt,B.A.|Jeffreys and the Earth||1993:Washington:American Geophysical Union|Solid-earth geophysics+Jeffreys-Bullen tables+Geodynamics+Velocity structure|p1-10
B|1101|e*Aki,K.+Dmowska,R.|Relating geophysical structures and processes. The Jeffreys volume|Geophysical Monograph 76|Shimamoto,T.+Seno,T.|A simple rheological framework for comparative subductology||1993:Washington:American Geophysical Union|Subduction zone+Rheology+Seismicity+Depth|p39-52
B|1102|e*Aki,K.+Dmowska,R.|Relating geophysical structures and processes. The Jeffreys volume|Geophysical Monograph 76|Kennett,B.L.N.|Seismic structure and heterogeneity in the upper mantle||1993:Washington:American Geophysical Union|Upper mantle+Velocity structure+Heterogeneity|p53-56
B|1103|e*Aki,K.+Dmowska,R.|Relating geophysical structures and processes. The Jeffreys volume|Geophysical Monograph 76|Dziewonski,A.M.+Forte,A.M.+Su,W-J.+|Seismic tomography and geodynamics||1993:Washington:American Geophysical Union|Tomography+Geodynamics+Lateral heterogeneity+Spectrum|p67-105
B|1104|e*Aki,K.+Dmowska,R.|Relating geophysical structures and processes. The Jeffreys volume|Geophysical Monograph 76|Hide,R.+Clayton,R.W.+Hager,B.H.+|Topographic core-mantle coupling and fluctuations in the Earth's rotation||1993:Washington:American Geophysical Union|Core-mantle boundary+D"-layer+Rotation+Solid-earth geophysics|p107-120
B|1105|e*Aki,K.+Dmowska,R.|Relating geophysical structures and processes. The Jeffreys volume|Geophysical Monograph 76|Jeanloz,R.|Chemical reactions at the Earth's core-mantle boundary: summary of evidence and geomagnetic implications||1993:Washington:American Geophysical Union|Core-mantle boundary+D"-layer+Heterogeneity+Anisotropy|p121-127
A|1106|Skinner,R.I.+Robinson,W.H.+McVerry,G.H.|An introduction to seismic isolation||1993:Chichester:John Wiley|Isolation+Structural dynamics+Earthquake engineering|372p
A|1107|Paulay,T.+Priestley,M.J.N.|Reinforced concrete and masonry buildings||1992:Chichester:John Wiley|Reinforced concrete+Masonry structure+Earthquake-resistant design|768p
A|1108|Krinitzsky,E.L.+Gould,J.P.+Edinger,P.H.|Fundamentals of earthquake resistant construction||1993:Chichester:John Wiley|Earthquake-resistant design+Dynamics+Ground motion|324p
A|1109|Dresen,L.+Ruter,H.|Seismic coal exploration part B: in-seam seismics||1993:Oxford:Pergamon Press|Coal+Seismics+Exploration|496p
A|1110|Lukkunaprasit,P.|State of seismic risk mitigation in Thailand||1993:Bangkok:Chulalongkorn University|Thailand+Seismic risk+Mitigation+Epicentre|20p
J|1111|Baturin,D.G.|Seismostratigraphy of sedimentary basins of the West-Spitsbergen continental margin|In Russian|#OTG:-:10:1992:67-74|Seismostratigraphy+Sedimentary basin+Continental margin+Spitsbergen
J|1111|Baturin,D.G.|Seismostratigraphy of sedimentary basins of the West-Spitsbergen continental margin|In Russian|#OTG:-:10:1992:67-74|Seismostratigraphy+Sedimentary basin+Continental margin+Spitsbergen