V|1995:1||Bibliography of seismology. 1995 January-June|ISC:31:1:1996 J|0001|Van Spaandonk,R.|Heavy water||#NSC:-:1959:1995:44|Trigger+Water pressure+Japan+Philippine Sea|Letter to the editor J|0002|Rojstaczer,S.+Wolf,S.+Michel,R.|Permeability enhancement in the shallow crust as a cause of earthquake-induced hydrological changes||#NAT:373:6511:1995:237-239|Hydrology+Loma Prieta+Permeability+Crust||#*LOMAPRIETA89 J|0003||Tragic lessons||#NSC:-:1961:1995:3|Kobe+Destructive earthquake+Prediction+Earthquake-resistant design|Comment|#*SHYOGO95 J|0004|Mestel,R.|Tension mounts as the Big One stalks LA||#NSC:-:1961:1995:16|Los Angeles+Warning+Earthquake+Probability|Science|#*NORTHRIDGE94 J|0005||Angry aftershocks||#NSC:-:1962:1995:3|Destructive earthquake+1995+Kobe+Preparedness|Comment|#*SHYOGO95 J|0006|Johnstone,R.|Complacency blamed for Kobe toll||#NSC:-:1962:1995:4-5|Destructive earthquake+1995+Kobe+Earthquake engineering|This week|#*SHYOGO95 J|0007|Johnstone,R.|Experts witness devastation||#NSC:-:1962:1995:4-5|Destructive earthquake+1995+Kobe+Ground motion|This week|#*SHYOGO95 J|0008|Holmes,R.|Modern buildings `tough enough'||#NSC:-:1962:1995:5|Destructive earthquake+1995+Kobe+Aseismic design|This week|#*SHYOGO95 J|0009|Mestel,R.|Minor fault, major disaster||#NSC:-:1962:1995:6|Destructive earthquake+1995+Kobe+Strike-slip|This week|#*SHYOGO95 J|0010|Mestel,R.|Odds shorten for California quake||#NSC:-:1962:1995:6|Southern California+Major earthquake+Warning+Fault|This week J|0011||Japan's seismic tragedy at Kobe||#NAT:373:6512:1995:269|Destructive earthquake+1995+Japan+Preparedness|Opinion|#*SHYOGO95 J|0012||How the earthquake struck Japan||#NAT:373:6512:1995:270|Destructive earthquake+1995+Kobe+Map|News|#*SHYOGO95 J|0013|Swinbanks,D.|Kobe earthquake shatters faith in engineers||#NAT:373:6512:1995:273|Destructive earthquake+1995+Kobe+Earthquake engineering|News|#*SHYOGO95 J|0014|Swinbanks,D.|Striking similarities with US quake||#NAT:373:6512:1995:273|Destructive earthquake+1995+Kobe+Ground acceleration|News|#*SHYOGO95|#*NORTHRIDGE94 J|0015|Collot,J-Y.+Delteil,J.+Herzer,R.H.+|Sonic imaging reveals new plate boundary structures offshore New Zealand||#EOS:76:1:1995:1-5|Plate boundary+New Zealand+Marine geophysical investigation+Bathymetry J|0016|Oral,M.B.+Reilinger,R.E.+Toksoz,M.N.+|Global Positioning System offers evidence of plate motions in eastern Mediterranean||#EOS:76:2:1995:9-11|Global Positioning System+Plate motion+Eastern Mediterranean+Plate tectonics J|0017|Wakefield,J.|Scientists get a closer look at mechanism of deep Bolivian quake||#EOS:76:2:1995:9-10|Deep-focus earthquake+Bolivia+Focal mechanism+Fault zone||#*BOLIVIA94 J|0018||Building codes decoded||#EOS:76:2:1995:10|Building code+Los Angeles|In brief|#*NORTHRIDGE94|#*LANDERS92 J|0019|Banda,E.+Torne,M.+a-Iberian Atlantic Margins Group|Iberian Atlantic Margins Group investigates deep structure of ocean margins||#EOS:76:3:1995:25-29|Deep structure+Marine seismic investigation+Continental margin+Iberia J|0020|Swinbanks,D.|Kobe disaster divides earthquake researchers||#NAT:373:6513:1995:373|Prediction+Strong-motion seismology+Kobe+Destructive earthquake|News|#*SHYOGO95 J|0021|Stein,R.S.|Which fault and what next?||#NAT:373:6513:1995:388-389|Earthquake+1994+California+Fault|News and views|#*NORTHRIDGE94 J|0022|Stein,R.S.+Ellsworth,W.L.|From California to Kobe||#NAT:373:6513:1995:388|Earthquake+Strike-slip+California+Kobe|News and views|#*SHYOGO95|#*NORTHRIDGE94|#*LOMAPRIETA89|#*LANDERS92 J|0023|Yeats,R.S.+Huftile,G.J.|The Oak Ridge fault system and the 1994 Northridge earthquake||#NAT:373:6513:1995:418-420|Earthquake+1994+Southern California+Fault||#*NORTHRIDGE94 J|0024|Geller,R.J.|The role of seismology||#NAT:373:6515:1995:554|Japan Meteorological Agency+Damaging earthquake+Public policy+Parameters|Letter to the editor|#*SHYOGO95 J|0025|Holbrook,W.S.|Underplating over hotspots||#NAT:373:6515:1995:559|Hot spot+Underplating+Marquesas Islands+Marine seismic investigation|News and views J|0026|Caress,D.W.+McNutt,M.K.+Detrick,R.S.+|Seismic imaging of hotspot-related crustal underplating beneath the Marquesas Islands||#NAT:373:6515:1995:600-603|Hot spot+Underplating+Refraction study+Marquesas Islands J|0027|Walker,D.A.|More evidence indicates link between El Ninos and seismicity||#EOS:76:4:1995:33-36|Seismicity+East Pacific Rise+Atmospheric pressure+Submarine volcano J|0028|Somerville,P.G.|Kobe earthquake: an urban disaster||#EOS:76:6:1995:49-51|Damaging earthquake+1995+Kobe+Fault||#*SHYOGO95 J|0029|Hadfield,P.|Disaster quake wins grim place in record books||#NSC:-:1965:1995:5|Damaging earthquake+1995+Kobe+Ground acceleration|This week|#*SHYOGO95 J|0030|Fink,J.|Exploding volcanic myths||#NAT:373:6516:1995:660-661|Eruption+Volcanic tremor+Magma+Monitoring|News and views J|0031|Sugioka,I.+Bursik,M.|Explosive fragmentation of erupting magma||#NAT:373:6516:1995:689-692|Eruption+Volcanic tremor+Magma+Explosion J|0032|Hildenbrand,T.G.+Schweig,E.S.+Catchings,R.D.+|Crustal geophysics gives insight into New Madrid seismic zone||#EOS:76:7:1995:65-69|New Madrid+Seismic zone+Crustal structure+Geophysical data J|0033|a-KRISP Working Group|Group takes a fresh look at the lithosphere underneath southern Kenya||#EOS:76:8:1995:73-82|Lithosphere+Kenya+KRISP+Rift J|0034|Barba,S.+Di Giovambattista,R.+Smriglio,G.|Italian seismic databank allows on-line access||#EOS:76:9:1995:89|Data bank+Italy+Network+Data acquisition J|0035|Searle,M.|The rise and fall of Tibet||#NAT:374:6517:1995:17-18|Tibet+Plate tectonics+Crustal thickness+Fault plane solution|News and views J|0036|Hoernle,K.+Zhang,Y-S.+Graham,D.|Seismic and geochemical evidence for large-scale mantle upwelling beneath the eastern Atlantic and western and central Europe||#NAT:374:6517:1995:34-38|Mantle upwelling+Tomography+Europe+Atlantic Ocean J|0037|Coleman,M.+Hodges,K.|Evidence for Tibetan plateau uplift before 14 Myr ago from a new minimum age for east-west extension||#NAT:374:6517:1995:49-52|Tibet+Uplift+Plate tectonics+Normal fault J|0038|Holmes,R.|Big One threatens the Big Apple||#NSC:-:1967:1995:11|Eastern United States+Probability+Large earthquake+Damage J|0039|Walker,G.|Deep heat cracks up Europe's crust||#NSC:-:1968:1995:20|Western Europe+Crustal thickness+Mantle plume+Low velocity|Science J|0040|Lay,T.|Slab burial grounds||#NAT:374:6518:1995:115-116|Slab+Subduction zone+Tonga Arc+Deep-focus earthquake|News and views J|0041|Zandt,G.+Ammon,C.J.|Continental crust composition constrained by measurements of crustal Poisson's ratio||#NAT:374:6518:1995:152-154|Continental crust+Poisson's ratio+Composition+Converted wave J|0042|Van der Hilst,R.D.|Complex morphology of subducted lithosphere in the mantle beneath the Tonga trench||#NAT:374:6518:1995:154-157|Tomography+Subduction+Lithosphere+Tonga+ISC J|0043|Swinbanks,D.|Earthquake prediction `likely to grow' after new review||#NAT:374:6519:1995:205|Japan+Prediction|News J|0044|Heinz,D.L.|New phase for mantle research||#NAT:374:6519:1995:216-217|Mantle+D" region+Phase transformation+Solid-earth geophysics|News and views J|0045|Agar,S.M.+Klitgord,K.D.|A mechanism for decoupling within the oceanic lithosphere revealed in the Troodos ophiolite||#NAT:374:6519:1995:232-238|Oceanic lithosphere+Cyprus+Spreading centre+Reflector|Article J|0046|Kingma,K.J.+Cohen,R.E.+Hemley,R.J.+|Transformation of stishovite to a denser phase at lower-mantle pressures||#NAT:374:6519:1995:243-245|D" region+Phase transformation+Lower mantle+Laboratory J|0047|Bevis,M.+Taylor,F.W.+Schutz,B.E.+|Geodetic observations of very rapid convergence and back-arc extension at the Tonga arc||#NAT:374:6519:1995:249-251|Tonga Arc+Geodetic measurement+Subduction zone+Crustal movement J|0048|Snow,J.E.|Of Hess crust and layer cake||#NAT:374:6521:1995:413-414|Oceanic crust+Velocity structure+Geologic structure+Layered medium|News and views J|0049|Bodin,P.+Gomberg,J.|Earthquake hazard||#NAT:374:6522:1995:492|Hazard+Mitigation+Building code+Prediction|Correspondence J|0050|Mutter,J.C.|Hot, fat and falling apart?||#NAT:374:6522:1995:499-500|Continental lithosphere+Rifting+Sea-floor spreading+Papua New Guinea|News and views J|0051|Taylor,B.+Goodliffe,A.+Martinez,F.+|Continental rifting and initial sea-floor spreading in the Woodlark basin||#NAT:374:6522:1995:534-537|Continental rift+Sea-floor spreading+Papua New Guinea+Marine geophysical investigation J|0052|Hamer,M.|Why the cranes in Kobe harbour did the splits||#NSC:-:1971:1995:8|Damage+Kobe+Earthquake+1995|This week|#*SHYOGO95 J|0053|Hecht,J.|Keep grumbling volcanoes at arms length||#NSC:-:1972:1995:23|Volcano+Eruption+Monitoring+Long Valley Caldera|Technology|#*BISHOP J|0054|Goddard,A.|`Burst zip' undermines theories of ocean birth||#NSC:-:1973:1995:14|Rifting+Sea-floor spreading+Papua New Guinea+Oceanic crust|Science J|0055|Cooper,A.K.+Webb,P.+Brancolini,G.|Strides made in understanding Antarctic stratigraphy and Cenozoic glacial history||#EOS:76:10:1995:97-101|Seismostratigraphy+Antarctic+Cenozoic+Ice sheets J|0056|Nittrouer,C.A.+Kravitz,J.H.|Integrated continental margin research to benefit ocean and Earth sciences||#EOS:76:12:1995:121-126|Seismostratigraphy+Continental margin+United States+Profile J|0057|Navrotsky,A.+Romanowicz,B.+Richards,M.+|Creating the next generation of reference Earth models||#EOS:76:12:1995:121-122|Earth model+Geodynamics+Seismology+Mineral J|0058|Cowie,P.A.+Main,I.G.+Knipe,R.|Looking for patterns in fault populations||#EOS:76:12:1995:125|Fault+Pattern+Scaling+Crust J|0059|a-U.S. Magnetic-Anomaly Task Group|Task Group plans upgrade of the U.S. Magnetic-Anomaly Database||#EOS:76:14:1995:137-140|Geomagnetic anomaly+Vancouver+Fault+Seismic risk J|0060||Heart-stopper||#NSC:-:1974:1995:11|Earthquake+Casualties+Health+Los Angeles|In brief|#*NORTHRIDGE94 J|0061|Swinbanks,D.|Critics attack hasty review of quake prediction efforts||#NAT:374:6525:1995:754|Prediction+Japan+Earthquake+Microearthquake|News J|0062|Blackman,D.K.+Orcutt,J.A.+Forsyth,D.W.+|Correction to `Seismic anisotropy in the mantle beneath an oceanic spreading centre'||#NAT:374:6525:1995:824|Errata+Mid-Atlantic Ridge+Anisotropy+Mantle upwelling J|0063|Mooney,W.D.|Continental roots go with the flow||#NAT:375:6526:1995:15|Craton+South Africa+Anisotropy+SKS-wave|News and views J|0064|Vinnik,L.P.+Green,R.W.E.+Nicolaysen,L.O.|Recent deformations of the deep continental root beneath southern Africa||#NAT:375:6526:1995:50-52|South Africa+Craton+Anisotropy+SKS-wave J|0065|Mareschal,M.+Kellett,R.L.+Kurtz,R.D.+|Archaean cratonic roots, mantle shear zones and deep electrical anisotropy||#NAT:375:6527:1995:134-137|Magnetotellurics+Anisotropy+Canadian Shield+Mantle J|0066||100 years ago||#NAT:375:6528:1995:9|Great earthquake+1894+Argentina+Antipode|Roman pagination. Issue No.6528 J|0067|Henyey,T.L.|One shock leads to another||#NAT:375:6528:1995:191-192|Southern California+Trigger+Double couple+Stress|News and views|#*LANDERS92|#*BIGBEAR92 J|0068|Harris,R.A.+Simpson,R.W.+Reasenberg,P.A.|Influence of static stress changes on earthquake locations in Southern California||#NAT:375:6528:1995:221-224|Stress+Trigger+Earthquake+Southern California||#*NORTHRIDGE94|#*LOMAPRIETA89 J|0069|Wakefield,J.|`Characteristic' earthquakes may not be so characteristic after all||#EOS:76:17:1995:169-170|Characteristic earthquake+Prediction+Seismic gap+Fault J|0070|a-Rabaul Petrology Group|Taking petrologic pathways toward understanding Rabaul's restless caldera||#EOS:76:17:1995:171-180|Rabaul+Eruption+Caldera+1994 J|0071|Forsyth,D.W.+Scheirer,D.S.+Hung,S-H.+|Link between El Ninos and seismicity is still missing. Comment on `More evidence indicates link between El Ninos and seismicity' by D. A. Walker||#EOS:76:17:1995:175|Comments+Seismicity+East Pacific Rise+Hydrothermy|With a reply by the author J|0072|a-ODP Leg 156 Shipboard Science Party|Seismic images and drilling tell the story of fluids in a plate-boundary fault||#EOS:76:18:1995:185-186|Plate boundary+Image+Fluid+Fault zone J|0073|Juhlin,C.+Kashubin,S.+Knapp,J.H.+|Project conducts seismic reflection profiling in the Ural Mountains||#EOS:76:19:1995:193-199|Urals+Deep seismic sounding+Crust+Moho J|0074|Ahrens,T.J.+Farley,K.|Conference explores new research in the deep Earth and planetary volatiles||#EOS:76:19:1995:195|Planet+Low-velocity layer+Mantle+Solid-earth geophysics J|0075|Exon,N.F.+Hill,P.J.+Royer,J-Y.|New maps of crust off Tasmania expand research possibilities||#EOS:76:20:1995:201-207|Tasmania+Map+Marine geophysical investigation+Crust J|0076||Catastrophe on Sakhalin||#NAT:375:6531:1995:435|Damaging earthquake+Sakhalin+1995+Preparedness|Opinion|#*SAKHALIN95 J|0077|Masood,E.|Limited knowledge in Russian quake zone||#NAT:375:6531:1995:437|Damaging earthquake+Sakhalin+1995+Prevention|News|#*SAKHALIN95 J|0078|Hirn,A.+Jiang,M.+Sapin,M.+|Seismic anisotropy as an indicator of mantle flow beneath the Himalayas and Tibet||#NAT:375:6532:1995:571-574|Anisotropy+Himalayas+Tibet+Mantle J|0079|Masood,E.|Greek earthquake stirs controversy over claims for prediction method||#NAT:375:6533:1995:617|Greece+VAN prediction method+Earthquake+1995|News|#*GREECE95|#*NGREECE95|#*THESSALONIKI95 J|0080|Swinbanks,D.|Japan jumps on board the VAN wagon||#NAT:375:6533:1995:617|Japan+VAN prediction method+Geoelectricity+Prediction|News J|0081|Garwin,L.|Reflections on plate tectonics||#NAT:375:6533:1995:632|Plate tectonics+Dipping reflector+Archaean+Canada|News and views J|0082|Calvert,A.J.+Sawyer,E.W.+Davis,W.J.+|Archaean subduction inferred from seismic images of a mantle suture in the Superior Province||#NAT:375:6533:1995:670-674|Canada+Reflexion study+Plate tectonics+Archaean J|0083|Zhang,S-Q.+Karato,S-I.|Lattice preferred orientation of olivine aggregates deformed in simple shear||#NAT:375:6534:1995:774-777|Olivine+Orientation+Anisotropy+Laboratory J|0084|Thoraval,C.+Machetel,P.+Cazenave,A.|Locally layered convection inferred from dynamic models of the Earth's mantle||#NAT:375:6534:1995:777-780|660km discontinuity+Mantle convection+Topography+Anomaly J|0085|Wakefield,J.|Nuclear non-proliferation reality check: role of research community in monitoring shaky||#EOS:76:21:1995:209-211|Underground nuclear explosion+Lop Nor Test Site+1995+Nuclear test ban J|0086|Parrot,M.+Fraser-Smith,A.C.+Molchanov,O.A.+|Electromagnetic effects associated with earthquakes and volcanic eruptions||#EOS:76:23:1995:233|Seismoelectromagnetic effect+Electromagnetic emission+Eruption+Precursor J|0087|Torres,R.C.+Self,S.+Punongbayan,R.S.|Attention focuses on Taal: decade volcano of the Philippines||#EOS:76:24:1995:241-247|Manila Trench+Volcano+Hazard+Tectonics J|0088|Jacobs,J.A.|The Earth's inner core and the geodynamo: determining their roles in the Earth's history||#EOS:76:25:1995:249-253|Inner core+Geomagnetic field+History+Normal mode J|0089|Synolakis,C.+Imamura,F.+Tsuji,Y.+|Damage, conditions of East Java tsunami of 1994 analyzed||#EOS:76:26:1995:257-262|Damage+Tsunami+Java+1994||#*JAVA94 J|0090|Leith,W.|Sakhalin earthquake renews concerns about seismic safety in the former Soviet Union||#EOS:76:26:1995:257-258|Sakhalin+1995+Earthquake+Safety||#*SAKHALIN95 J|0091|Rothery,D.A.|Death of a port?||Geogrl Mag., Lond.:-:1:1995:53-55|Eruption+Tremor+Caldera+New Britain||#*RABAUL94 J|0092||Californian quake||Geogrl Mag., Lond.:-:4:1995:9|Southern California+Prediction+Probability+Fault|Geoforum. In brief J|0093|Rothery,D.A.|Kobe - anatomy of an earthquake||Geogrl Mag., Lond.:-:4:1995:54-55|Destructive earthquake+1995+Kobe+Damage||#*SHYOGO95 J|0094|Lister,C.R.B.|Heat transfer between magmas and hydrothermal systems, or, six lemmas in search of a theorem||#GJI:120:1:1995:45-59|Convection+Magma chamber+Sea-floor spreading+Reflexion study J|0095|Lou,M.+Rial,J.A.|Modelling elastic-wave propagation in inhomogeneous anisotropic media by the pseudo-spectral method||#GJI:120:1:1995:60-72|Anisotropic medium+Fourier transform+Inhomogeneity+Propagation J|0096|Bromirski,P.D.+Frazer,L.N.+Duennebier,F.K.|The Q-gram method: Q from instantaneous phase||#GJI:120:1:1995:73-86|Q+Shear wave+Ocean-bottom seismometer+Airgun J|0097|Mjelde,R.+Sellevoll,M.A.+Shimamura,H.+|S-wave anisotropy off Lofoten, Norway, indicative of fluids in the lower continental crust?||#GJI:120:1:1995:87-96|S-wave+Norway+Continental crust+Anisotropy J|0098|Marquis,G.+Jones,A.G.+Hyndman,R.D.|Coincident conductive and reflective middle and lower crust in southern British Columbia||#GJI:120:1:1995:111-131|British Columbia+Heat flow+Reflexion study+Crust J|0099|Bokelmann,G.H.R.|P-wave array polarization analysis and effective anisotropy of the brittle crust||#GJI:120:1:1995:145-162|P-wave+Anisotropy+Array+Polarization J|0100|Geller,R.J.+Hatori,T.|DSM synthetic seismograms using analytic trial functions: plane-layered, isotropic, case||#GJI:120:1:1995:163-172|Layered medium+Synthetic seismogram+Isotropic medium+Theoretical seismology J|0101|Marquering,H.+Snieder,R.|Surface-wave mode coupling for efficient forward modelling and inversion of body-wave phases||#GJI:120:1:1995:186-208|Body wave+Surface wave+Inversion+Synthetic seismogram J|0102|Gohl,K.+Pedersen,L.B.|Collisional tectonics of the Baltic Shield in the northern Gulf of Bothnia from seismic data of the BABEL project||#GJI:120:1:1995:209-226|Baltic Shield+Subduction+Travel-times+Inversion+BABEL J|0103|Hubral,P.|Review of `Foundations of anisotropy for exploration seismics' by K. Helbig||#GJI:120:1:1995:235|Review+Anisotropy+Exploration+Propagation|Elsevier Science Ltd, Oxford, 1994 J|0104|Katsumata,K.+Urabe,T.+Mizoue,M.|Evidence for a seismic attenuation anomaly beneath the Hida Mountain Range, Central Honshu, Japan||#GJI:120:2:1995:237-246|Attenuation+Body wave+Honshu+Uplift||#*OMACHI86 J|0105|Sekine,T.+Duffy,T.S.+Rubin,A.M.+|Shock compression and isentropic release of granite||#GJI:120:2:1995:247-261|Equation of state+Granite+Phase transition+Shock wave J|0106|Joswig,M.|Automated classification of local earthquake data in the BUG small array||#GJI:120:2:1995:262-286|Local earthquake+Germany+Classification+Array J|0107|Suleiman,A.S.+Doser,D.I.|The seismicity, seismotectonics and earthquake hazards of Libya, with detailed analysis of the 1935 April 19, M=7.1 earthquake sequence||#GJI:120:2:1995:312-322|1935+Libya+Seismicity+Seismotectonics J|0108|Umino,N.+Hasegawa,A.+Matsuzawa,T.|sP depth phase at small epicentral distances and estimated subducting plate boundary||#GJI:120:2:1995:356-366|sP-wave+Depth+Pacific plate+Subduction zone J|0109|Louden,K.E.|Variations in crustal structure related to intraplate deformation: evidence from seismic refraction and gravity profiles in the Central Indian Basin||#GJI:120:2:1995:375-392|Refraction study+India+Crustal structure+Deformation J|0110|Abercrombie,R.E.+Main,I.G.+Douglas,A.+|The nucleation and rupture process of the 1981 Gulf of Corinth earthquakes from deconvolved broad-band data||#GJI:120:2:1995:393-405|1981+Corinth, G. of+Rupture+Broadband seismology||#*ALKION|#*ALKION2|#*ALKION3 J|0111|Zhang,P.+Chouteau,M.+Mareschal,M.+|High-frequency magnetotelluric investigation of crustal structure in north-central Abitibi, Quebec, Canada||#GJI:120:2:1995:406-418|Crustal structure+Abitibi+Magnetotellurics+Lithoprobe J|0112|Liakopoulou-Morris,F.+Main,I.G.+Pearce,R.G.|Source parameters of earthquakes in the Aleutian Islands subduction zone||#GJI:120:2:1995:419-432|Aleutian Islands+Subduction zone+Broadband seismology+Source parameter J|0113|Mulargia,F.+Gasperini,P.|Evaluation of the applicability of the time- and slip-predictable earthquake recurrence models to Italian seismicity||#GJI:120:2:1995:453-473|Italy+Seismicity+Fault-slip+Recurrence J|0114|Woods,B.B.+Harkrider,D.G.|Determining surface-wave magnitudes from regional Nevada Test Site data||#GJI:120:2:1995:474-498|Surface wave+Nuclear explosion+Nevada Test Site+Magnitude J|0115|Kvamme,L.B.+Hansen,R.A.+Bungum,H.|Seismic-source and wave-propagation effects of Lg waves in Scandinavia||#GJI:120:3:1995:525-536|Attenuation+Norway+Lg-wave+Propagation J|0116|Gurrola,H.+Baker,G.E.+Minster,J.B.|Simultaneous time-domain deconvolution with application to the computation of receiver functions||#GJI:120:3:1995:537-543|Deconvolution+Receiver function+Waveform+Frequency domain J|0117|Piersanti,A.+Spada,G.+Sabadini,R.+|Global post-seismic deformation||#GJI:120:3:1995:544-566|Deformation+Dislocation+Layered medium+Viscoelasticity J|0118|Hlatywayo,D.J.|Fault-plane solutions of the Deka Fault zone and mid-Zambezi Valley||#GJI:120:3:1995:567-576|Zimbabwe+Focal mechanism+Seismicity+Dip-slip+ISC J|0119|Gaudemer,Y.+Tapponnier,P.+Meyer,B.+|Partitioning of crustal slip between linked, active faults in the eastern Qilian Shan, and evidence for a major seismic gap, the `Tianzhu gap', on the western Haiyuan Fault, Gansu (China)||#GJI:120:3:1995:599-645|Tibet+Faulting+Seismic gap+Slip J|0120|Zollo,A.+De Matteis,R.+Capuano,P.+|Constraints on the shallow crustal model of the Northern Apennines (Italy) from the analysis of microearthquake seismic records||#GJI:120:3:1995:646-662|Northern Italy+Microearthquake+Location+Waveform J|0121|Zahradnik,J.+Priolo,E.|Heterogeneous formulations of elastodynamic equations and finite difference schemes||#GJI:120:3:1995:663-676|Elastodynamics+Finite difference method+Synthetic seismogram+Discontinuity J|0122|Gritto,R.+Korneev,V.A.+Johnson,L.R.|Low-frequency elastic-wave scattering by an inclusion: limits of applications||#GJI:120:3:1995:677-692|Elastic wave+Born approximation+Scattering+Low frequency J|0123|Glennon,M.A.+Chen,W-P.|Ruptures of deep-focus earthquakes in the north-western Pacific and their implications on seismogenesis||#GJI:120:3:1995:706-720|Northwest Pacific+Body wave+Broadband seismology+Deep-focus earthquake+ISC J|0124|Yoon,K-H.+McMechan,G.A.|Simulation of long-period 3-D elastic responses for whole Earth models||#GJI:120:3:1995:721-730|Long-period seismogram+Numerical modelling+Earth structure+Travel-times J|0125|Friederich,W.+Wielandt,E.|Interpretation of seismic surface waves in regional networks: joint estimation of wavefield geometry and local phase velocity. Method and numerical tests||#GJI:120:3:1995:731-744|Inversion+Surface wave+Network+Regional study J|0126|Dai,H.+MacBeth,C.|Automatic picking of seismic arrivals in local earthquake data using an artificial neural network||#GJI:120:3:1995:758-774|Local earthquake+Pattern recognition+Neural network+Pick J|0127|Glover,P.W.J.+Baud,P.+Darot,M.+|alpha/beta phase transition in quartz monitored using acoustic emissions||#GJI:120:3:1995:775-782|Acoustic emission+Anisotropy+Phase transition+Quartz J|0128|Granet,M.+Stoll,G.+Dorel,J.+|Massif Central (France): new constraints on the geodynamical evolution from teleseismic tomography||#GJI:121:1:1995:33-48|Massif Central+Tomography+P-wave+Volcanic complex J|0129|Nyblade,A.A.+Langston,C.A.|East African earthquakes below 20 km depth and their implications for crustal structure||#GJI:121:1:1995:49-62|East Africa+Crustal structure+Depth+Heat flow J|0130|Li,X.+Hudson,J.A.|Elastic scattered waves from a continuous and heterogeneous layer||#GJI:121:1:1995:82-102|Elastic wave+Scattering+Theory+Layered medium J|0131|Tanimoto,T.|Formalism for traveltime inversion with finite frequency effects||#GJI:121:1:1995:103-110|Inversion+Perturbation theory+Travel-times+Waveform J|0132|Celerier,B.|Tectonic regime and slip orientation of reactivated faults||#GJI:121:1:1995:143-161|Fault-slip+Stress+Tectonics+Orientation J|0133|Kind,R.+Kosarev,G.L.+Petersen,N.V.|Receiver functions at the stations of the German Regional Seismic Network (GRSN)||#GJI:121:1:1995:191-202|Receiver function+Crustal structure+Converted wave+Germany J|0134|Wilson,L.+Parfitt,E.A.+Head,J.W.|Explosive volcanic eruptions - VIII. The role of magma recycling in controlling the behaviour of Hawaiian-style lava fountains||#GJI:121:1:1995:215-225|Explosion+Eruption+Hawaii+Volcanism J|0135|Parfitt,E.A.+Wilson,L.|Explosive volcanic eruptions - IX. The transition between Hawaiian-style lava fountaining and Strombolian explosive activity||#GJI:121:1:1995:226-232|Explosion+Eruption+Hawaii+Lipari Islands J|0136|Ogata,Y.+Utsu,T.+Katsura,K.|Statistical features of foreshocks in comparison with other earthquake clusters||#GJI:121:1:1995:233-254|Foreshock+Cluster+Prediction+Japan+ISC J|0137|Rajasekaran,S.+McMechan,G.A.|A new approach to pre-stack seismic processing||#GJI:121:1:1995:255-266|Reflexion data+Imaging+Seismic processing+Stacking J|0138|Lavenu,A.+Winter,T.+Davila,F.|A Pliocene-Quaternary compressional basin in the Interandean Depression, Central Ecuador||#GJI:121:1:1995:279-300|Ecuador+Basin+Neotectonics+Focal mechanism J|0139|MacBeth,C.+Zeng,X.+Li,X-Y.+|Multicomponent near-surface correction for land VSP data||#GJI:121:1:1995:301-315|Vertical seismic profiling+Anisotropy+Source+Near-surface correction J|0140|Booth,D.C.|Review of `Fundamentals of earthquake prediction' by C. Lomnitz||#GJI:121:1:1995:316-317|Review+Prediction+Precursor+Building code|John Wiley & Sons, New York, 1994, 326pp J|0141|Akinci,A.+Del Pezzo,E.+Ibanez,J.M.|Separation of scattering and intrinsic attenuation in southern Spain and western Anatolia (Turkey)||#GJI:121:2:1995:337-353|Scattering+Attenuation+S-wave+Spain+Anatolia J|0142|Hickey,C.J.+Spanos,T.J.T.+De la Cruz,V.|Deformation parameters of permeable media||#GJI:121:2:1995:359-370|Propagation+Deformation+Permeability+Pore pressure J|0143|Farra,V.+Le Begat,S.|Sensitivity of qP-wave traveltimes and polarization vectors to heterogeneity, anisotropy and interfaces||#GJI:121:2:1995:371-384|qP-wave+Travel-times+Polarization+Anisotropy J|0144|Godano,C.+Caruso,V.|Multifractal analysis of earthquake catalogues||#GJI:121:2:1995:385-392|Prediction+Fractal analysis+Hawaii+Italy J|0145|Liu,L.|The causes of the major seismic discontinuities in the transition zone of the Earth's mantle||#GJI:121:2:1995:404-408|Mantle+Transition zone+Phase change+Chemical change J|0146|Zhang,J.+McMechan,G.A.|Estimation of resolution and covariance for large matrix inversions||#GJI:121:2:1995:409-426|Tomography+Matrix+Inversion+Resolution J|0147|Hole,J.A.+Zelt,B.C.|3-D finite-difference reflection traveltimes||#GJI:121:2:1995:427-434|Reflexion+Refraction+Travel-times+Finite difference method J|0148|Nishimura,T.+Hamaguchi,H.+Ueki,S.|Source mechanisms of volcanic tremor and low-frequency earthquakes associated with the 1988-89 eruptive activity of Mt Tokachi, Hokkaido, Japan||#GJI:121:2:1995:444-458|1988-1989+Eruption+Hokkaido+Volcanic tremor J|0149|Sileny,J.+Psencik,I.|Mechanisms of local earthquakes in 3-D inhomogeneous media determined by waveform inversion||#GJI:121:2:1995:459-474|Local earthquake+Mechanism+Waveform+Inversion+Inhomogeneous medium J|0150|Wang,J-H.|Effect of seismic coupling on the scaling of seismicity||#GJI:121:2:1995:475-488|Coupling+Scaling+Seismicity+Dynamic model J|0151|Michelini,A.|An adaptive-grid formalism for traveltime tomography||#GJI:121:2:1995:489-510|Travel-times+Tomography+Ray tracing+Velocity structure J|0152|Zhou,H-W.+Chen,G.|Waveform response to the morphology of 2-D subducted slabs||#GJI:121:2:1995:511-522|Subduction+Slab+Waveform+Modelling J|0153|Sato,H.|Formulation of the multiple non-isotropic scattering process in 3-D space on the basis of energy transport theory||#GJI:121:2:1995:523-531|Local earthquake+Scattering+Coda+Inhomogeneity J|0154|Ambraseys,N.N.|Magnitude of Central American earthquakes 1898-1930||#GJI:121:2:1995:545-556|Magnitude+Central America+1898-1930+Location J|0155|Tessmer,E.|3-D seismic modelling of general material anisotropy in the presence of the free surface by a Chebyshev spectral method||#GJI:121:2:1995:557-575|Numerical modelling+Anisotropy+Wave field+Surface J|0156|Zhao,L.+Dahlen,F.A.|Asymptotic normal modes of the Earth - II. Eigenfunctions||#GJI:121:2:1995:585-626|Normal mode+Free oscillation+Eigenfunction+Ray theory J|0157|Xu,T.+McMechan,G.A.|Composite memory variables for viscoelastic synthetic seismograms||#GJI:121:2:1995:634-639|Viscoelasticity+Synthetic seismogram+Propagation+Wave equation|Research note J|0158|Takei,Y.+Kumazawa,M.|Phenomenological representation and kinematics of general seismic sources including the seismic vector modes||#GJI:121:3:1995:641-662|Source+Volcanic tremor+Kinematics+Mechanism J|0159|Mendoza,C.|Finite-fault analysis of the 1979 March 14 Petatlan, Mexico, earthquake using teleseismic P waveforms||#GJI:121:3:1995:675-683|1979+Mexico+Waveform+Faulting||#*PETATLAN J|0160|Cao,S.+Greenhalgh,S.|Relative-error-based non-linear inversion: application to seismic traveltime tomography||#GJI:121:3:1995:684-694|Tomography+Error+Travel-times+Inversion J|0161|Li,X-D.+Romanowicz,B.|Comparison of global waveform inversions with and without considering cross-branch modal coupling||#GJI:121:3:1995:695-709|Tomography+Long-period wave+Inversion+Mantle J|0162|Cormier,V.F.|Time-domain modelling of PKIKP precursors for constraints on the heterogeneity in the lowermost mantle||#GJI:121:3:1995:725-736|PKIKP-wave+Precursor+Core-mantle boundary+Scattering J|0163|Vo-Thanh,D.|Influence of fluid chemistry on shear-wave attenuation and velocity in sedimentary rocks||#GJI:121:3:1995:737-749|Shear wave+Attenuation+Velocity+Sedimentary rock J|0164|Pous,J.+Ledo,J.+Marcuello,A.+|Electrical resistivity model of the crust and upper mantle from a magnetotelluric survey through the central Pyrenees||#GJI:121:3:1995:750-762|Electrical resistivity+Lithosphere+Reflexion study+Pyrenees J|0165|Selvaggi,G.+Chiarabba,C.|Seismicity and P-wave velocity image of the southern Tyrrhenian subduction zone||#GJI:121:3:1995:818-826|Seismicity+P-wave+Tyrrhenian Sea+Subduction J|0166|Grad,M.+Krzyzanowska,M.+Pirhonen,S.E.|Inhomogeneities of the Eurasian mantle structure from the travel-times of the nuclear explosions recorded by the Finnish seismic network during 1961-1985||#GJI:121:3:1995:863-872|Eurasia+Mantle+Travel-times+Nuclear explosion+Finland+ISC J|0167|Yegorova,T.P.+Kozlenko,V.G.+Pavlenkova,N.I.+|3-D density model for the lithosphere of Europe: construction method and preliminary results||#GJI:121:3:1995:873-892|Deep seismic sounding+Europe+Lithosphere+Density J|0168|Kodaira,S.+Goldschmidt-Rokita,A.+Hartmann,J.M.+|Crustal structure of the Lofoten continental margin, off northern Norway, from ocean-bottom seismographic studies||#GJI:121:3:1995:907-924|Ocean-bottom seismograph+Crustal structure+Norwegian Sea+Refraction study J|0169|Vavrycuk,V.+Yomogida,K.|Multipolar elastic fields in homogeneous isotropic media by higher-order ray approximations||#GJI:121:3:1995:925-932|Point source+Wave field+Homogeneous medium+Isotropic medium J|0170|Gurevich,B.+Lopatnikov,S.L.|Velocity and attenuation of elastic waves in finely layered porous rocks||#GJI:121:3:1995:933-947|Velocity+Attenuation+Elastic wave+Porous medium+Layered medium J|0171|Tromp,J.|Normal-mode splitting due to inner-core anisotropy||#GJI:121:3:1995:963-968|Normal mode+Splitting+Anisotropy+Inner core|Research note J|0172|Sarkar,D.+Reddy,P.R.+Kaila,K.L.+|Multiple diving waves and high-velocity gradients in the Bengal sedimentary basin||#GJI:121:3:1995:969-974|Bengal Basin+Reflexion study+Refraction study+Multiple wave|Research note J|0173|Levitt,D.A.+Sandwell,D.T.|Lithospheric bending at subduction zones based on depth soundings and satellite gravity||#JGR:100:1:1995:379-400|Focal mechanism+Lithosphere+Subduction zone+Gravity J|0174|Watanabe,K.+Takahashi,H.|Fractal geometry characterization of geothermal reservoir fracture networks||#JGR:100:1:1995:521-528|Fractal analysis+Fracture+Geothermal field+Fault zone J|0175|Duffy,T.S.+Ahrens,T.J.|Compressional sound velocity, equation of state, and constitutive response of shock-compressed magnesium oxide||#JGR:100:1:1995:529-542|Compressional wave+Sound+Equation of state+Velocity J|0176|Spotila,J.A.+Sieh,K.|Geologic investigations of a "slip gap" in the surficial ruptures of the 1992 Landers earthquake, southern California||#JGR:100:1:1995:543-559|Landers+1992+Slip+Geology||#*LANDERS92 J|0177|Thatcher,W.+Hill,D.P.|A simple model for the fault-generated morphology of slow-spreading mid-ocean ridges||#JGR:100:1:1995:561-570|Mid-ocean ridge+Fault plane solution+Morphology+Spreading J|0178|Mancktelow,N.S.|Nonlithostatic pressure during sediment subduction and the development and exhumation of high pressure metamorphic rocks||#JGR:100:1:1995:571-583|Subduction+High pressure+Metamorphism+Large earthquake J|0179|Robertson,M.C.+Sammis,C.G.+Sahimi,M.+|Fractal analysis of three-dimensional spatial distributions of earthquakes with a percolation interpretation||#JGR:100:1:1995:609-620|Fractal analysis+Spatial distribution+Percolation+California||#*JOSHUATREE92|#*BIGBEAR92|#*UPLAND88|#*SCALIFORNIA90 J|0180|Boyd,T.M.+Engdahl,E.R.+Spence,W.|Seismic cycles along the Aleutian arc: analysis of seismicity from 1957 through 1991||#JGR:100:1:1995:621-644|Earthquake cycle+Aleutian Arc+Seismicity+1957-1991+ISC J|0181|Hoshiba,M.|Estimation of nonisotropic scattering in western Japan using coda wave envelopes: application of a multiple nonisotropic scattering model||#JGR:100:1:1995:645-657|Scattering+Japan+Coda wave+Envelope J|0182|Li,Y.+Toksoz,M.N.+Rodi,W.|Source time functions of nuclear explosions and earthquakes in central Asia determined using empirical Green's functions||#JGR:100:1:1995:659-674|Source-time function+Nuclear explosion+Central Asia+Earthquake+Green's function J|0183|Spudich,P.+Steck,L.K.+Hellweg,M.+|Transient stresses at Parkfield, California, produced by the M 7.4 Landers earthquake of June 28, 1992: observations from the UPSAR dense seismograph array||#JGR:100:1:1995:675-690|Stress+Parkfield+Landers+1992||#*LANDERS92 J|0184|Park,S.K.+Pendergraft,D.+Stephenson,W.J.+|Delineation of intrabasin structure in a dilational jog of the San Jacinto fault zone, southern California||#JGR:100:1:1995:691-702|San Jacinto Fault+Southern California+Structure+Reflexion study J|0185|Delprat-Jannaud,F.+Lailly,P.|Reflection tomography: how to handle multiple arrivals?||#JGR:100:1:1995:703-715|Reflexion study+Tomography+Multiple reflexion+Arrival time J|0186|Aidun,J.B.+Gupta,Y.M.|Shear and compression waves in shocked calcium carbonate||#JGR:100:2:1995:1955-1980|Shear wave+Compressional wave+Calcite+Velocity J|0187|Cohen,S.+Holdahl,S.+Caprette,D.+|Uplift of the Kenai Peninsula, Alaska, since the 1964 Prince William Sound earthquake||#JGR:100:2:1995:2031-2038|Uplift+Kenai Peninsula+1964+Great earthquake J|0188|Huftile,G.J.+Yeats,R.S.|Convergence rates across a displacement transfer zone in the western Transverse Ranges, Ventura basin, California||#JGR:100:2:1995:2043-2067|Reflexion study+Transverse Ranges+Convergence+Global Positioning System J|0189|Malin,P.E.+Goodman,E.D.+Henyey,T.L.+|Significance of seismic reflections beneath a tilted exposure of deep continental crust, Tehachapi Mountains, California||#JGR:100:2:1995:2069-2087|Reflexion study+Southern California+Continental crust+Tilt J|0190|Hellweg,M.+Spudich,P.+Fletcher,J.B.+|Stability of coda Q in the region of Parkfield, California: view from the U.S. Geological Survey Parkfield dense seismograph array||#JGR:100:2:1995:2089-2102|Coda Q+Array+Parkfield+Stability J|0191|Obara,K.+Sato,H.|Regional differences of random inhomogeneities around the volcanic front in the Kanto-Tokai area, Japan, revealed from the broadening of S wave seismogram envelopes||#JGR:100:2:1995:2103-2121|S-wave+Inhomogeneity+Kanto-Tokai+Envelope J|0192|Dormy,E.+Tarantola,A.|Numerical simulation of elastic wave propagation using a finite volume method||#JGR:100:2:1995:2123-2133|Elastic wave+Propagation+Numerical method+Finite volume method J|0193|Jannaud,L.R.|Reliability of travel time data computed from interpreted migrated events||#JGR:100:2:1995:2135-2149|Travel-times+Tomography+Reliability+Migration J|0194|Jannaud,L.R.+Delprat-Jannaud,F.|Travel time inversion with a priori information on illuminated parts of the reflectors||#JGR:100:2:1995:2151-2160|Travel-times+Inversion+Reflector+Tomography J|0195|Osler,J.C.+Louden,K.E.|Extinct spreading center in the Labrador Sea: crustal structure from a two-dimensional seismic refraction velocity model||#JGR:100:2:1995:2261-2278|Labrador Sea+Spreading centre+Crustal structure+Refraction study J|0196|Magde,L.S.+Detrick,R.S.+a-TERA Group|Crustal and upper mantle contribution to the axial gravity anomaly at the southern East Pacific Rise||#JGR:100:3:1995:3747-3766|Profile+East Pacific Rise+Crust+Upper mantle+Gravity J|0197|Detrick,R.S.+Needham,H.D.+Renard,V.|Gravity anomalies and crustal thickness variations along the Mid-Atlantic Ridge between 33degreesN and 40degreesN||#JGR:100:3:1995:3767-3787|Gravity+Crustal thickness+Mid-Atlantic Ridge+Refraction study J|0198|Thatcher,W.|Microplate versus continuum descriptions of active tectonic deformation||#JGR:100:3:1995:3885-3894|Microplate+Tectonics+Deformation+Seismicity J|0199|Burov,E.B.+Diament,M.|The effective elastic thickness (Te) of continental lithosphere: what does it really mean?||#JGR:100:3:1995:3905-3927|Continental lithosphere+Thickness+Seismicity+Depth J|0200|Kagan,Y.Y.+Jackson,D.D.|New seismic gap hypothesis: five years after||#JGR:100:3:1995:3943-3959|Seismic gap+Forecast+Statistical method+Magnitude J|0201|Cotton,F.+Campillo,M.|Frequency domain inversion of strong motions: application to the 1992 Landers earthquake||#JGR:100:3:1995:3961-3975|Frequency domain+Strong motion+1992+Landers||#*LANDERS92 J|0202|Beroza,G.C.+Cole,A.T.+Ellsworth,W.L.|Stability of coda wave attenuation during the Loma Prieta, California, earthquake sequence||#JGR:100:3:1995:3977-3987|Coda wave+Attenuation+Loma Prieta+1989||#*LOMAPRIETA89 J|0203|Velasco,A.A.+Ammon,C.J.+Lay,T.|Source time function complexity of the great 1989 Macquarie Ridge earthquake||#JGR:100:3:1995:3989-4009|Source-time function+Rupture+1989+Macquarie Ridge||#*MACQUARIE89 J|0204|Triep,E.G.+Abers,G.A.+Lerner-Lam,A.L.+|Active thrust front of the Greater Caucasus: the April 29, 1991, Racha earthquake sequence and its tectonic implications||#JGR:100:3:1995:4011-4033|Caucasus+1991+Sequence+Tectonics||#*WCAUCASUS91 J|0205|Chiarabba,C.+Amato,A.+Evans,J.R.|Variations on the NeHT high-resolution tomography method: a test of technique and results for Medicine Lake Volcano, northern California||#JGR:100:3:1995:4035-4052|Tomography+Refraction study+California+Volcano J|0206|Chiarabba,C.+Amato,A.+Fiordelisi,A.|Upper crustal tomographic images of the Amiata-Vulsini geothermal region, central Italy||#JGR:100:3:1995:4053-4066|Velocity structure+P-wave+Upper crust+Italy J|0207|Mellors,R.J.+Pavlis,G.L.+Hamburger,M.W.+|Evidence for a high-velocity slab associated with the Hindu Kush seismic zone||#JGR:100:3:1995:4067-4078|Hindu Kush+High velocity+Slab+Teleseism J|0208|Ambos,E.L.+Mooney,W.D.+Fuis,G.S.|Seismic refraction measurements within the Peninsular terrane, south central Alaska||#JGR:100:3:1995:4079-4095|Alaska+Refraction study+Crustal structure+Velocity structure J|0209|Hauser,F.+O'Reilly,B.M.+Jacob,A.W.B.|The crustal structure of the Rockall Trough: differential stretching without underplating||#JGR:100:3:1995:4097-4116|Rockall Trough+Crustal structure+Stretching+Profile J|0210|Wu,J.+Milkereit,B.+Boerner,D.E.|Seismic imaging of the enigmatic Sudbury structure||#JGR:100:3:1995:4117-4130|Imaging+Sudbury structure+Reflexion study+Lithosphere J|0211|Cicerone,R.D.+Toksoz,M.N.|Fracture characterization from vertical seismic profiling data||#JGR:100:3:1995:4131-4148|Fracture+Vertical seismic profiling+Amplitude+Stoneley wave J|0212|Sayers,C.M.+Kachanov,M.|Microcrack-induced elastic wave anisotropy of brittle rocks||#JGR:100:3:1995:4149-4156|Microcrack+Elastic wave+Anisotropy+Sandstone J|0213|Wang,W.+Scholz,C.H.|Micromechanics of rock friction 3. Quantitative modeling of base friction||#JGR:100:3:1995:4243-4247|Rock mechanics+Friction+Slip+Surface J|0214|Brown,S.R.|Simple mathematical model of a rough fracture||#JGR:100:4:1995:5941-5952|Fracture+Roughness+Mathematical model+Rock J|0215|Schmittbuhl,J.+Schmitt,F.+Scholz,C.H.|Scaling invariance of crack surfaces||#JGR:100:4:1995:5953-5973|Scaling+Crack+Surface+Anisotropy J|0216|Shen,B.+Stephansson,O.+Einstein,H.H.+|Coalescence of fractures under shear stresses in experiments||#JGR:100:4:1995:5975-5990|Fracture+Mechanism+Shear+Laboratory J|0217|Johnston,J.E.+Christensen,N.I.|Seismic anisotropy of shales||#JGR:100:4:1995:5991-6003|Shale+Anisotropy+Laboratory+Wave velocity J|0218|Elsworth,D.+Voight,B.|Dike intrusion as a trigger for large earthquakes and the failure of volcano flanks||#JGR:100:4:1995:6005-6024|Trigger+Large earthquake+Dike+Intrusion||#*HILO|#*HILO2|#*HAWAII J|0219|Thomson,R.E.+Davis,E.E.+Burd,B.J.|Hydrothermal venting and geothermal heating in Cascadia Basin||#JGR:100:4:1995:6121-6141|Geothermal field+Hydrothermy+Reflexion study+Cascadia Basin J|0220|Kappus,M.E.+Harding,A.J.+Orcutt,J.A.|A baseline for upper crustal velocity variations along the East Pacific Rise at 13degreesN||#JGR:100:4:1995:6143-6161|Profile+East Pacific Rise+Upper crust+Velocity J|0221|Ben-Avraham,Z.+Hartnady,C.J.H.+Le Roex,A.P.|Neotectonic activity on continental fragments in the southwest Indian Ocean: Agulhas Plateau and Mozambique Ridge||#JGR:100:4:1995:6199-6211|Profile+Southwest Indian Ocean+Continental crust+Oceanic crust J|0222|Sigmundsson,F.+Einarsson,P.+Bilham,R.+|Rift-transform kinematics in south Iceland: deformation from Global Positioning System measurements, 1986 to 1992||#JGR:100:4:1995:6235-6248|Iceland+1993+Seismicity+Global Positioning System J|0223|Castillo,D.A.+Zoback,M.D.|Systematic stress variations in the southern San Joaquin Valley and along the White Wolf fault: implications for the rupture mechanics of the 1952 MS 7.8 Kern County earthquake and contemporary seismicity||#JGR:100:4:1995:6249-6264|1952+California+Stress+Seismicity J|0224|Russo,R.M.+Villasenor,A.|The 1946 Hispaniola earthquakes and the tectonics of the North America-Caribbean plate boundary zone, northeastern Hispaniola||#JGR:100:4:1995:6265-6280|1946+Cuba+Focal mechanism+Plate boundary J|0225|Katzman,R.+Ten Brink,U.S.+Lin,J.|Three-dimensional modeling of pull-apart basins: implications for the tectonics of the Dead Sea Basin||#JGR:100:4:1995:6295-6312|Dead Sea+Seismicity+Tectonics+Crustal deformation J|0226|Hofton,M.A.+Rundle,J.B.+Foulger,G.R.|Horizontal surface deformation due to dike emplacement in an elastic-gravitational layer overlying a viscoelastic-gravitational half-space||#JGR:100:4:1995:6329-6338|Large earthquake+Crustal deformation+Dike+Green's function J|0227|Savage,J.C.|Interseismic uplift at the Nankai subduction zone, southwest Japan, 1951-1990||#JGR:100:4:1995:6339-6350|Uplift+Nankai+1951-1990+Subduction zone J|0228|Loper,D.E.+Lay,T.|The core-mantle boundary region||#JGR:100:4:1995:6397-6420|Core-mantle boundary+Constraint+Velocity structure+Discontinuity J|0229|Press,F.+Allen,C.R.|Patterns of seismic release in the southern California region||#JGR:100:4:1995:6421-6430|Southern California+Pattern+Release+1915-1994 J|0230|Kossobokov,V.G.+Carlson,J.M.|Active zone size versus activity: a study of different seismicity patterns in the context of the prediction algorithm M8||#JGR:100:4:1995:6431-6441|Prediction+Large earthquake+Activity+Zone||#*LANDERS92 J|0231|Bennett,R.A.+Reilinger,R.E.+Rodi,W.+|Coseismic fault slip associated with the 1992 Mw 6.1 Joshua Tree, California, earthquake: implications for the Joshua Tree - Landers earthquake sequence||#JGR:100:4:1995:6443-6461|Fault-slip+1992+Southern California+Sequence||#*LANDERS92|#*JOSHUATREE92 J|0232|Marcellini,A.|Arrhenius behavior of aftershock sequences||#JGR:100:4:1995:6463-6468|Aftershock+Sequence+Model+Loading||#*CAMPANIA|#*FRIULI J|0233|Hasselgren,E.O.+Clowes,R.M.|Crustal structure of northern Juan de Fuca plate from multichannel reflection data||#JGR:100:4:1995:6469-6486|Reflexion study+Juan de Fuca+Crustal structure+Sedimentary basin J|0234|Zhao,D.+Christensen,D.+Pulpan,H.|Tomographic imaging of the Alaska subduction zone||#JGR:100:4:1995:6487-6504|Alaska+Subduction zone+Tomography+Seismicity+1977-1991 J|0235|Jeyakumaran,M.|Kinking of shallow dip-slip zones||#JGR:100:4:1995:6505-6515|Dip-slip+Crack+Model+Bending J|0236|Morgan,J.P.+Morgan,W.J.+Price,E.|Hotspot melting generates both hotspot volcanism and a hotspot swell?||#JGR:100:5:1995:8045-8062|Hot spot+Volcanism+Hawaiian Islands+Dispersion J|0237|Ormond,A.+Boulegue,J.+Genthon,P.|A thermoconvective interpretation of heat flow data in the area of Ocean Drilling Program Leg 116 in a distal part of the Bengal Fan||#JGR:100:5:1995:8083-8095|Heat flow+Bengal Fan+Profile+Sediment J|0238|Ito,G.+McNutt,M.K.+Gibson,R.L.|Crustal structure of the Tuamotu Plateau, 15degreesS, and implications for its origin||#JGR:100:5:1995:8097-8114|Crustal structure+Tuamotu+Reflexion study+Origin J|0239|Savage,J.C.+Lisowski,M.|Geodetic monitoring of the southern San Andreas fault, California, 1980-1991||#JGR:100:5:1995:8185-8192|Geodetic measurement+1980-1991+San Andreas Fault+Seismicity J|0240|Wallace,M.H.+Delaney,P.T.|Deformation of Kilauea volcano during 1982 and 1983: a transition period||#JGR:100:5:1995:8201-8219|Deformation+Kilauea+1982+1983+Seismicity||#*HAWAII|#*KILAUEA83|#*KILAUEA|#*HAWAII82A|#*HAWAII82B J|0241|Darby,D.J.+Meertens,C.M.|Terrestrial and GPS measurements of deformation across the Taupo back arc and Hikurangi forearc regions in New Zealand||#JGR:100:5:1995:8221-8232|Deformation+Global Positioning System+North Island+Shear J|0242|Seeber,L.+Armbruster,J.G.|The San Andreas Fault system through the Transverse Ranges as illuminated by earthquakes||#JGR:100:5:1995:8285-8310|San Andreas Fault+Transverse Ranges+Seismicity+Faulting J|0243|Sanders,C.O.+Ponko,S.C.+Nixon,L.D.+|Seismological evidence for magmatic and hydrothermal structure in Long Valley caldera from local earthquake attenuation and velocity tomography||#JGR:100:5:1995:8311-8326|Long Valley Caldera+Local earthquake+Tomography+Attenuation J|0244|Horiuchi,S.+Rocco,G.+Hasegawa,A.|Discrimination of fault planes from auxiliary planes based on simultaneous determination of stress tensor and a large number of fault plane solutions||#JGR:100:5:1995:8327-8338|Focal mechanism+P-wave+Polarity+Stress tensor J|0245|Yamashita,T.|Simulation of seismicity due to ruptures on noncoplanar interactive faults||#JGR:100:5:1995:8339-8350|Seismicity+Rupture+Fault+Interactive system J|0246|Wysession,M.E.+Bartko,L.+Wilson,J.B.|Correction to `Mapping the lowermost mantle using core-reflected shear waves'||#JGR:100:5:1995:8351|Errata+Lower mantle+ScS-wave+Digital recording+Southwest Pacific J|0247|Magde,L.S.+Smith,D.K.|Seamount volcanism at the Reykjanes Ridge: relationship to the Iceland hot spot||#JGR:100:5:1995:8449-8468|Refraction study+Reykjanes+Volcanism+Seamount J|0248|Holasek,R.E.+Self,S.|GOES weather satellite observations and measurements of the May 18, 1980, Mount St. Helens eruption||#JGR:100:5:1995:8469-8487|1980+Eruption+Mount St. Helens+Satellite photography||#*MOUNTSTHELENS J|0249|Christensen,N.I.+Mooney,W.D.|Seismic velocity structure and composition of the continental crust: a global view||#JGR:100:6:1995:9761-9788|Velocity structure+Composition+Continental crust+Pn-wave J|0250|Cadoret,T.+Marion,D.+Zinszner,B.|Influence of frequency and fluid distribution on elastic wave velocities in partially saturated limestones||#JGR:100:6:1995:9789-9803|Elastic wave+Velocity+Saturation+Limestone J|0251|Song,X.D.+Helmberger,D.V.|Depth dependence of anisotropy of Earth's inner core||#JGR:100:6:1995:9805-9816|Depth+Inner core+Anisotropy+PKP-wave+ISC J|0252|Song,X.D.+Helmberger,D.V.|A P wave velocity model of Earth's core||#JGR:100:6:1995:9817-9830|Velocity structure+Core+PKP-wave+Inner core+ISC J|0253|Su,W-J.+Dziewonski,A.M.|Inner core anisotropy in three dimensions||#JGR:100:6:1995:9831-9852|Inner core+Anisotropy+PKIKP-wave+PKP-wave+ISC J|0254|Ritsema,J.+Lay,T.|Long-period regional wave moment tensor inversion for earthquakes in the western United States||#JGR:100:6:1995:9853-9864|Moment tensor+Inversion+Long-period wave+Western United States J|0255|Dodge,D.A.+Beroza,G.C.+Ellsworth,W.L.|Foreshock sequence of the 1992 Landers, California, earthquake and its implications for earthquake nucleation||#JGR:100:6:1995:9865-9880|Foreshock+1992+Landers+Sequence+Nucleation||#*LANDERS92|#*JOSHUATREE92 J|0256|Kao,H.+Chen,W-P.|Transition from interplate slip to double seismic zone along the Kuril-Kamchatka arc||#JGR:100:6:1995:9881-9903|Slip+Seismic zone+Kuril-Kamchatka Arc+Subduction J|0257|O'Leary,D.M.+Ellis,R.M.+Stephenson,R.A.+|Crustal structure of the northern Yukon and Mackenzie Delta, northwestern Canada||#JGR:100:6:1995:9905-9920|Refraction study+Crustal structure+Northwestern Canada+Moho J|0258|Schilling,J-G.+Ruppel,C.+Davis,A.N.+|Thermal structure of the mantle beneath the equatorial Mid-Atlantic Ridge: inferences from the spatial variation of dredged basalt glass compositions||#JGR:100:6:1995:10057-10076|Thermal structure+Mantle+Mid-Atlantic Ridge+S-wave J|0259|Keleman,P.B.+Holbrook,W.S.|Origin of thick, high-velocity igneous crust along the U.S. East Coast margin||#JGR:100:6:1995:10077-10094|Crust+High velocity+Transect+U.S. East Coast J|0260|Dougherty,M.E.+Vincent,R.J.+Swift,S.A.+|Anisotropic seismic scattering in old Atlantic crust||#JGR:100:6:1995:10095-10106|Anisotropy+Scattering+North Atlantic+Crust+Refraction study J|0261|Jouniaux,L.+Pozzi,J-P.|Streaming potential and permeability of saturated sandstones under triaxial stress: consequences for electrotelluric anomalies prior to earthquakes||#JGR:100:6:1995:10197-10209|Electrotelluric field+Prediction+Sandstone+Fluid pressure J|0262|Rudnick,R.L.+Jackson,I.|Measured and calculated elastic wave speeds in partially equilibrated mafic granulite xenoliths: implications for the properties of an underplated lower continental crust||#JGR:100:6:1995:10211-10218|Elastic wave+Velocity+Granular medium+Underplating J|0263|Metcalf,R.V.+Smith,E.I.|Introduction to special section: magmatism and extension||#JGR:100:6:1995:10249-10253|Introduction+Extension+Magmatism+Velocity structure J|0264|Hill,E.J.+Baldwin,S.L.+Lister,G.S.|Magmatism as an essential driving force for formation of active metamorphic core complexes in eastern Papua New Guinea||#JGR:100:6:1995:10441-10451|Imaging+Western United States+Papua New Guinea+Magmatism J|0265|Minor,S.A.|Superposed local and regional paleostresses: fault-slip analysis of Neogene extensional faulting near coeval caldera complexes, Yucca Flat, Nevada||#JGR:100:6:1995:10507-10528|Strike-slip+Swarm+Caldera+Nevada J|0266|Zandt,G.+Myers,S.C.+Wallace,T.C.|Crust and mantle structure across the Basin and Range - Colorado Plateau boundary at 37degreesN latitude and implications for Cenozoic extensional mechanism||#JGR:100:6:1995:10529-10548|Basin & Range+Transect+Crustal structure+Mantle+P-wave J|0267|Hay,D.E.+Wendlandt,R.F.+Keller,G.R.|Origin of Kenya Rift plateau-type flood phonolites: integrated petrologic and geophysical constraints on the evolution of the crust and upper mantle beneath the Kenya Rift||#JGR:100:6:1995:10549-10557|KRISP+Kenya+Rift+Structure J|0268|Liu,J-H.+Liu,F-T.+Sun,R-M.+|Seismic tomography beneath the Qinling-Dabie orogenic belts and both the northern and southern fringes|In Chinese with English abstract|#AGS:38:1:1995:46-54|Tomography+Lateral heterogeneity+China+Velocity J|0269|Gao,Y.+Wu,Z-L.|Rupture process of the November 13, 1993, great Kamchatka earthquake from broadband waveform analysis and its tectonics implications|In Chinese with English abstract|#AGS:38:1:1995:55-63|Earthquake+1993+Seismic process+Kamchatka||#*KAMCHATKA93 J|0270|Wen,L-X.+Yao,Z-X.|A study of the effects of the Feitsui canyon topography on the ground strong motion - using 2.5-D SH hybrid method and the strong motion records at a station|In Chinese with English abstract|#AGS:38:1:1995:64-70|Strong motion+Topography+Canyon+Synthetic seismogram J|0271|Li,S-X.|Analysis and inversion of singularities of one-dimensional wave equations and wavelets|In Chinese with English abstract|#AGS:38:1:1995:93-104|Wave equation+Inversion+Wavelet+Linearization J|0272|Geng,J-H.+Ma,Z-T.+Wang,Y.+|3-D DMO algorithm in F-K domain and application|In Chinese with English abstract|#AGS:38:1:1995:115-119|Dip moveout+Algorithm+Frequency-wavenumber domain+Fourier transform J|0273|Shi,Y-L.+Jin,W.|Genetic algorithms inversion of lithospheric structure from surface wave dispersion|In Chinese with English abstract|#AGS:38:2:1995:189-198|Genetic algorithm+Surface wave+Dispersion+Lithosphere J|0274|Liu,P-C.+Ji,C.+Hartzell,S.H.|An improved simulated annealing-downhill simplex hybrid global inverse algorithm|In Chinese with English abstract|#AGS:38:2:1995:199-205|Simulated annealing+Algorithm+Inversion J|0275|Wu,Z-L.+Gao,Y.|Testing the scaling law of earthquake energy in the perspective of broad frequency band|In Chinese with English abstract|#AGS:38:2:1995:206-212|Scaling+Energy+Japan+Alaska J|0276|Mu,R-C.+Gao,P.+Liu,R-X.+|The experimental study of P-wave velocity anisotropy of mylonite and its surrounding rocks from ductile shear zones of North China at elevated pressures and temperatures|In Chinese with English abstract|#AGS:38:2:1995:213-220|Laboratory+Mylonite+Velocity+Anisotropy J|0277|Guo,Z-Q.+Liu,B.|Frequency properties of electromagnetic emission associated with microscopic cracking in rocks|In Chinese with English abstract|#AGS:38:2:1995:221-226|Electromagnetic emission+Frequency+Microcrack+Rock J|0278|Chen,Z-W.+Yin,F.+Li,Y-M.+|Study of diffraction tomography method for density rho and Lame coefficients lambda,mu in elastic media|In Chinese with English abstract|#AGS:38:2:1995:234-242|Tomography+Elastic medium+Wave equation+Diffraction J|0279|Hou,A-N.+He,Q-D.|Study of an elastic wave high-order difference method and its stability in anisotropic media|In Chinese with English abstract|#AGS:38:2:1995:243-251|Wave equation+Anisotropic medium+Stability+Numerical method J|0280|Chen,G-Y.+Song,Z-H.+An,C-Q.+|3D S-wave velocity structure of crust and upper mantle in the northern China and its adjacent areas|In Chinese with English abstract|#AGS:38:3:1995:321-328|North China+Velocity structure+Crust+Upper mantle J|0281|Gong,S-W.|Evolutional characteristics of crustal vertical deformation in conjoining zones of masses and massive movement in Shaan-Gan-Ning-Qing area|In Chinese with English abstract|#AGS:38:3:1995:329-338|Crustal deformation+China+Tectonics+Stress J|0282|Liu,P-C.+Zheng,T-Y.+Yao,Z-X.|The simulation of near-field seismic motion of Tangshan earthquake by the semi-empirical method|In Chinese with English abstract|#AGS:38:3:1995:350-357|Simulation+Near field+T'ang-shan+Green's function J|0283|Yang,W-C.|BG-inverse scattering method for inversion of seismic wavefield|In Chinese with English abstract|#AGS:38:3:1995:358-366|Inverse problem+Wave field+Backus-Gilbert theory+Reflexion data J|0284|Li,S-X.+Ye,Y-M.+Li,J-Y.|Inversion of radon transform with extremely incomplete data|In Chinese with English abstract|#AGS:38:3:1995:367-377|Inversion+Radon transform+Data analysis J|0285|Niu,Y-L.+Yang,W-C.+Wu,Y-G.|Successive linearization method in cross-hole tomography|In Chinese with English abstract|#AGS:38:3:1995:378-386|Tomography+Cross-hole+Linearization+Mathematical method J|0286|Wang,X-G.+Zhu,Z-Y.+Li,X-H.+|Study on the principle and method of shear wave logging|In Chinese with English abstract|#AGS:38:3:1995:387-395|Shear wave+Acoustic logging+Dipole source+Borehole J|0287|Zheng,T-Y.+Liu,P-C.|Prediction of strong ground motion for Chinese Qinshan nuclear power station|In Chinese|#AGS:38:3:1995:411-412|Prediction+Ground motion+Nuclear power plant|Short contribution J|0288|Zhang,G-M.+Geng,L-M.+Zhang,Y-X.+|Seismogenic model of earthquakes in groups in tectonic block and analysis for some features of earthquake precursory field||#ASS:8:1:1995:1-12|Seismogenesis+Precursor+Modelling+Block||#*HAICHENG|#*TANGSHAN J|0289|Zhang,Z-L.+Tian,H.+Liu,X-M.+|Mechanical features of Shanxi Datong earthquake swarm sequence and their numerical simulation by using finite element method||#ASS:8:1:1995:13-23|Swarm+Finite element method+Datong+Mechanics||#*DATONG89A|#*DATONG89B|#*NECHINA89|#*DATONG91 J|0290|Shi,Z-L.+Wang,J.+Zhang,X-D.|The regional characteristics of seismic activity in China||#ASS:8:1:1995:25-30|China+Activity+Regionalization+Strong earthquake J|0291|Zheng,D-W.+Zhou,Y-H.|Research on the relationship between Earth's variable rotation and global seismic activity||#ASS:8:1:1995:31-37|Global seismicity+Temporal variation+Rotation+Correlation J|0292|Xu,J-R.+Oike,K.|Regional characteristics of stress field in the southern part of the north-south seismic belt in China and its relation with plate movement||#ASS:8:1:1995:39-49|Stress field+China+Plate motion+Focal mechanism+ISC J|0293|Su,L-S.|"Small earthquake modulation window" and its applications in medium-term prediction||#ASS:8:1:1995:51-56|Prediction+Small earthquake+Modulation+China J|0294|Ge,H-C.|On some problems of seismic crustal phase||#ASS:8:1:1995:57-63|Seismic waves+Phase+Crust+Velocity+ISC J|0295|Chen,T-C.+Li,Z-J.+Zhang,R-S.+|Temporal changes in shear wave splitting after the M = 5.2 Shimian earthquake of June 9, 1989||#ASS:8:1:1995:65-75|Shear wave splitting+Earthquake+1989+Sichuan||#*SICHUAN89A J|0296|Xi,D-Y.+Zheng,Y-L.+Zhang,T.|Attenuation of stress wave in sandstone||#ASS:8:1:1995:77-82|Sandstone+Attenuation+Stress+Laboratory J|0297|Nie,Y-A.+Zeng,J.+Feng,D-Y.|Theoretical researches on three-dimensional coda wave scattering problem||#ASS:8:1:1995:83-87|Coda wave+Scattering+Power spectrum+Model J|0298|Huang,J-L.+Li,H.+Li,R-H.|Gravity and gravity gradient changes caused by a point dislocation||#ASS:8:1:1995:89-99|Point source+Dislocation+Gravity+Mathematical analysis J|0299|Hao,J-G.+Zhang,Y-F.+Pan,H-W.+|Ultra low frequency electromagnetic wave anomaly and its spectrum characteristics before earthquakes||#ASS:8:1:1995:101-109|Spectrum+Precursor+Electromagnetic wave+Anomaly||#*NECHINA89 J|0300|Che,Y-T.+Ma,Z-F.+Wang,Y-P.+|Effects of mining-induced earthquakes on water table in deep wells||#ASS:8:1:1995:111-118|Induced earthquake+Water table+Mining+Well J|0301|Yang,C-C.+Chen,D-M.+Wang,X-L.+|Features of fractal dimension anomaly of radon content in underground water in North China before and after the 1976 Tangshan earthquake||#ASS:8:1:1995:119-126|Earthquake+1976+North China+Radon J|0302|Du,X-L.+Hu,X.+Chen,H-Q.|Random process simulation of strong ground motion||#ASS:8:1:1995:127-134|Strong motion+Simulation+Stochastic model+Aseismic design J|0303|Yao,Q-L.|The research of a solution on locating optimally a station for seismic disasters rescue in a city||#ASS:8:1:1995:135-142|Disaster+Location+Mitigation+Urban planning J|0304|Xu,X-D.+Xu,X-M.+Ma,S-D.+|Preliminary enquiry into the causes of anomaly increase of air temperature by an impending earthquake||#ASS:8:1:1995:149-154|Atmospheric temperature+Precursor+Atmospheric electric field+Anomaly J|0305|Niu,D-T.|Stochastic model of bedrock earthquake motion and determination of its parameters||#ASS:8:1:1995:155-159|Stochastic model+Bedrock+Parameters+Ground motion|Research note J|0306|Chen,P-S.|Catalogue of earthquakes (June-August, 1994)||#ASS:8:1:1995:171-173|Earthquake catalogue+1994 J|0307|Huan,W-L.+Zhang,X-D.+Song,Z-Y.|Characteristics of tectonic deformation field about strike-slip earthquake-generating structure in the Chinese mainland||#ASS:8:2:1995:175-184|China+Strike-slip+Crustal deformation+Fault||#*TANGSHAN|#*LUHUO J|0308|Wang,R-B.+Hong,H-J.+Xu,Z-H.+|Field of vertical crustal deformation in North China and the feature of its dynamic evolution||#ASS:8:2:1995:185-194|North China+Crustal deformation+Levelling+Map J|0309|Yang,G-H.+Gui,K-C.+Gong,Y-M.+|Study on the pattern and mode of vertical crustal deformation during the seismogenic process of intraplate strong earthquakes||#ASS:8:2:1995:195-204|Crustal deformation+Seismogenesis+Intraplate earthquake+North China||#*TANGSHAN|#*HAICHENG|#*NECHINA89 J|0310|Xie,F-R.+Li,H.|Determination of the direction and magnitude of recent tectonic stress in the Xianshuihe fault zone using fault slip data||#ASS:8:2:1995:205-213|Stress+Xianshuihe+Fault-slip+Rock mechanics J|0311|He,S-Y.+Wu,J-Y.|Research on the correlation between North China earthquake and global regional strong earthquakes||#ASS:8:2:1995:215-222|North China+Global seismicity+Correlation+Strong earthquake J|0312|Yang,L-M.+Shi,T-L.+Guo,D-Q.|Mathematical modelling of nonlinear behaviour of seismicity||#ASS:8:2:1995:223-232|Seismicity+Nonlinearity+Time series+Mathematical modelling+China J|0313|Zhang,D-N.+Xu,Z-H.|Possible dynamics of normal fault earthquakes in the upper crust of the south part of the Qinghai-Xizang Plateau||#ASS:8:2:1995:233-239|Dynamics+Normal fault+Upper crust+Qinghai-Xizang Plateau J|0314|Huang,C-Z.+Ge,H-C.+Jiang,T-Y.|Attenuation characteristics of coda waves and estimation of QC values in eastern China||#ASS:8:2:1995:241-248|Coda wave+China+Q+Attenuation J|0315|Yu,S-J.|Study of the intensity attenuation law in the East China Plain and the northwest of China||#ASS:8:2:1995:249-258|China+Intensity+Attenuation+Regression J|0316|Gao,M-T.|Method of expected earthquake losses estimation based on the frequency of seismic site intensity||#ASS:8:2:1995:259-264|Intensity+Loss+Frequency+Probability J|0317|Wang,J-J.|The effects of torsional ground motion on thin cylindrical shell structures||#ASS:8:2:1995:265-270|Ground motion+Torsion+Cylinder+Structural response J|0318|Zhang,Y.+Wang,G-Y.|Analysis of structural fuzzy random seismic response||#ASS:8:2:1995:271-279|Ground motion+Model+Structural response+Stochastic method J|0319|Lin,C-Y.+Wu,Y-X.+Yang,C-F.|On the high conductive layer near the Moho and the transitional zone between the crust and mantle in Tianshui region||#ASS:8:2:1995:281-288|Moho+Tianshui+Transition zone+Crust-mantle structure J|0320|Guan,H-P.+Liu,G-P.|Electromagnetic radiation anomalies before moderate and strong earthquakes||#ASS:8:2:1995:289-299|Electromagnetic emission+Anomaly+Precursor+Earthquake J|0321|Zhou,J-C.+Han,K-L.+Wang,P-D.+|Research on earthquake prediction from geomagnetic pulsation||#ASS:8:2:1995:309-316|Prediction+Geomagnetic pulsations+Anomaly+Transfer function||#*DATONG91 J|0322|Chen,H.+Huang,Z-X.|Application of Gumbel mixture extreme theory and maximum likelihood to estimate the seismic risk of the Chinese mainland||#ASS:8:2:1995:325-331|China+Risk+Maximum likelihood+Statistical method|Research note J|0323|Chen,P-S.|Catalogue of earthquakes (September-November, 1994)||#ASS:8:2:1995:333-335|Earthquake catalogue+1994 J|0324|Caputo,R.|Inference of a seismic gap from geological data: Thessaly (central Greece) as a case study||#AGF:38:1:1995:1-19|Seismic gap+Greece+Geological data+Earthquake+Fault J|0325|Di Giovambattista,R.+Barba,S.+Marchetti,A.|Amplitude response of a telemetered seismic system from seismometers to digital acquisition systems||#AGF:38:1:1995:25-33|Telemetering system+Seismometer+Calibration+Transfer function J|0326|Tosi,P.+De Rubeis,V.+Gasparini,C.|An analytic method for separating local from regional effects on macroseismic intensity||#AGF:38:1:1995:55-65|Macroseismic data+Fractal dimension+Isoseismal map+Earthquake||#*POTENZA90|#*FRIULI88 J|0327|Mantovani,E.+Albarello,D.+Tamburelli,C.+|Tectonic interpretation of large scale geodetic measurements (VLBI, SLR) in the central Mediterranean region: constraints and uncertainties||#AGF:38:1:1995:67-84|Mediterranean+Geodetic measurement+Kinematics+Plate motion J|0328|Guidoboni,E.+Traina,G.|A new catalogue of earthquakes in the historical Armenian area from antiquity to the 12th century||#AGF:38:1:1995:85-147|Historical earthquake+Earthquake catalogue+Armenia+2nd-12th century J|0329|Alessandrini,B.+Beranzoli,L.+Mele,F.M.|3-D crustal P-wave velocity tomography of the Italian region using local and regional seismicity data||#AGF:38:2:1995:189-211|Italy+Tomography+Velocity structure+Crust J|0330|Barba,S.+Di Giovambattista,R.+Smriglio,G.|The ING Seismic Network Databank (ISND): a friendly parameters and waveform database||#AGF:38:2:1995:213-219|Data base+Network+Parameters+Waveform J|0331|Boschi,E.+Guidoboni,E.+Mariotti,D.|Seismic effects of the strongest historical earthquakes in the Syracuse area||#AGF:38:2:1995:223-253|Historical earthquake+Sicily+Damage+Intensity J|0332|Amato,A.+Azzara,R.+Basili,A.+|Main shock and aftershocks of the December 13, 1990, eastern Sicily earthquake||#AGF:38:2:1995:255-266|Earthquake+1990+Sicily+Focal mechanism||#*SICILY90 J|0333|Giardini,D.+Palombo,B.+Pino,N.A.|Long-period modelling of MEDNET waveforms for the December 13, 1990 eastern Sicily earthquake||#AGF:38:2:1995:267-282|Waveform+Earthquake+1990+Sicily+ISC||#*SICILY90 J|0334|Di Bona,M.+Cocco,M.+Rovelli,A.+|Analysis of strong-motion data of the 1990 eastern Sicily earthquake||#AGF:38:2:1995:283-300|Earthquake+1990+Sicily+Strong motion||#*SICILY90 J|0335|Achilli,V.+Anzidei,M.+Baldi,P.+|The southeastern Sicily GPS network||#AGF:38:2:1995:301-308|Global Positioning System+Sicily+Crustal deformation+Tectonics+ISC||#*SICILY90 J|0336|Dall'Aglio,M.+Quattrocchi,F.+Tersigni,S.|Geochemical evolution of groundwater of the Iblean Foreland (southeastern Sicily) after the December 13, 1990 earthquake (M = 5.4)||#AGF:38:2:1995:309-329|Earthquake+1990+Sicily+Groundwater||#*SICILY90 J|0337|Kasina,Z.|Improving the shallow seismic sections by microcomputer automated static corrections||#APL:43:1:1995:1-9|Static correction+Seismic processing+Microcomputer+Reflexion data J|0338|Holub,K.+Slavik,J.+Kalenda,P.|Monitoring and analysis of seismicity in the Ostrava-Karvina coal mining district||#APL:43:1:1995:11-31|Induced seismicity+Monitoring+Ostrava-Karvina+Coal mine J|0339|Rozluski,C.P.|Correlation between the telluric and seismic activity||#APL:43:1:1995:33-48|Seismotelluric effect+Correlation+Precursor+Transmission coefficient J|0340|Hadjicontis,V.+Mavromatou,C.|Electric signals recorded during uniaxial compression of rock samples: their possible correlation with preseismic electric signals||#APL:43:1:1995:49-61|Rock+Electrical properties+Laboratory+Prediction J|0341|Vallianatos,F.|Galvanic distortion of the MT impedance tensor: application to Ioannina VAN stations (Greece)||#APL:43:2:1995:115-128|VAN network+Magnetotellurics+Impedance+Anisotropy J|0342||Australia's deepest recorded earthquake||AUS.GEO News:-:27:1995:3|Earthquake+1992+Australia+Isoseismal map||#*ARAFURA92 J|0343||Swath mapping and reflection seismic profiling, offshore Tasmania||AUS.GEO News:-:27:1995:10|Tasmania+Profiling+Marine geophysical investigation+Offshore J|0344|Jaisingh,M.P.+Mital,S.K.+Bhise,N.N.+|Repair and strengthening of earthquake damaged houses in Maharashtra||#BIT:32:1:1995:1-16|Damage+Building+Reconstruction+India||#*LATUR93 J|0345|Nagar,A.+Murty,C.V.R.|Joint panel zones as seismic energy dissipators in moment resisting frames||#BIT:32:1:1995:17-32|Steel frame+Joint+Earthquake-resistant design+Dissipation J|0346|Kumar,A.+Basu,S.+Chandra,B.|BLACS - a new correction scheme of analog accelerograms. Part - 1: details of scheme||#BIT:32:2:1995:33-50|Correction+Accelerogram+Data processing+Technique J|0347|Kumar,A.+Basu,S.+Chandra,B.|BLACS - a new correction scheme of analog accelerograms. Part - 2: comparison with other schemes||#BIT:32:2:1995:51-71|Correction+Accelerogram+Data processing+Technique J|0348|Wu,S-C.+Cornell,C.A.+Winterstein,S.R.|A hybrid recurrence model and its implication on seismic hazard results||#BSA:85:1:1995:1-16|Hazard+Recurrence+Model+Characteristic earthquake J|0349|Atkinson,G.M.+Boore,D.M.|Ground-motion relations for eastern North America||#BSA:85:1:1995:17-30|Eastern North America+Ground motion+Spectrum+Model J|0350|Yu,G.+Khattri,K.N.+Anderson,J.G.+|Strong ground motion from Uttarkashi, Himalaya, India, earthquake: comparison of observations with synthetics using the composite source model||#BSA:85:1:1995:31-50|Strong motion+Earthquake+1991+India||#*NINDIA91 J|0351|Sims,J.D.+Garvin,C.D.|Recurrent liquefaction induced by the 1989 Loma Prieta earthquake and 1990 and 1991 aftershocks: implications for paleoseismicity studies||#BSA:85:1:1995:51-65|Earthquake+1989+Loma Prieta+Liquefaction||#*LOMAPRIETA89|#*WATSONVILLE91|#*WATSONVILLE90 J|0352|Yegian,M.K.+Ghahraman,V.G.+Nogole-Sadat,M.A.A.+|Liquefaction during the 1990 Manjil, Iran, earthquake, I: case history data||#BSA:85:1:1995:66-82|Destructive earthquake+1990+Iran+Liquefaction||#*MANJIL90 J|0353|Yegian,M.K.+Ghahraman,V.G.+Nogole-Sadat,M.A.A.+|Liquefaction during the 1990 Manjil, Iran, earthquake, II: case history analyses||#BSA:85:1:1995:83-92|Destructive earthquake+1990+Iran+Liquefaction||#*MANJIL90 J|0354|Harp,E.L.+Jibson,R.W.|Seismic instrumentation of landslides: building a better model of dynamic landslide behavior||#BSA:85:1:1995:93-99|Landslide+Instrumentation+California+Dynamic response J|0355|Brown,R.D.|1906 faulting on the San Andreas fault near Point Delgada, California||#BSA:85:1:1995:100-110|Faulting+1906+San Andreas Fault+Surface deformation J|0356|Aydin,A.+Du,Y.|Surface rupture at a fault bend: the 28 June 1992 Landers, California, earthquake||#BSA:85:1:1995:111-128|Earthquake+1992+Landers+Surface deformation||#*LANDERS92 J|0357|Pujol,J.|Application of the JHD technique to the Loma Prieta, California, mainshock-aftershock sequence and implications for earthquake location||#BSA:85:1:1995:129-150|Joint hypocentre determination+Sequence+Loma Prieta+Location J|0358|Savage,J.C.+Lisowski,M.|Strain accumulation in Owens Valley, California, 1974 to 1988||#BSA:85:1:1995:151-158|Strain+1974-1988+California+Trilateration J|0359|Wald,D.J.+Somerville,P.G.|Variable-slip rupture model of the great 1923 Kanto, Japan, earthquake: geodetic and body-waveform analysis||#BSA:85:1:1995:159-177|Great earthquake+1923+Kanto+Rupture J|0360|Mikumo,T.+Miyatake,T.|Heterogeneous distribution of dynamic stress drop and relative fault strength recovered from the results of waveform inversion: the 1984 Morgan Hill, California, earthquake||#BSA:85:1:1995:178-193|Earthquake+1984+California+Stress-drop||#*MORGAN J|0361|Haase,J.S.+Shearer,P.M.+Aster,R.C.|Constraints on temporal variations in velocity near Anza, California, from analysis of similar event pairs||#BSA:85:1:1995:194-206|Temporal variation+Velocity+Anza+Event J|0362|Levin,V.+Kim,W-Y.+Menke,W.|Seismic velocities in the shallow crust of western New England and northern New York||#BSA:85:1:1995:207-219|Velocity structure+Crust+Refraction study+Eastern United States J|0363|Patton,H.J.+Taylor,S.R.|Analysis of Lg spectral ratios from NTS explosions: implications for the source mechanisms of spall and the generation of Lg waves||#BSA:85:1:1995:220-236|Spectral ratio+Lg-wave+Nevada Test Site+Underground nuclear explosion J|0364|Sharrock,D.S.+Main,I.G.+Douglas,A.|Observations of Q from the northwest Pacific subduction zone recorded at teleseismic distances||#BSA:85:1:1995:237-253|Subduction zone+Northwest Pacific+Q+Teleseism+ISC J|0365|Zhang,J.+Langston,C.A.|Dipping structure under Dourbes, Belgium, determined by receiver function modeling and inversion||#BSA:85:1:1995:254-268|Belgium+Dipping layer+Ray theory+Interface J|0366|Sanchez-Sesma,F.J.+Luzon,F.|Seismic response of three-dimensional alluvial valleys for incident P, S, and Rayleigh waves||#BSA:85:1:1995:269-284|Site response+Valley+Alluvium+Elastic wave J|0367|Wirgin,A.|Resonant response of a soft semi-circular cylindrical basin to an SH seismic wave||#BSA:85:1:1995:285-299|SH-wave+Cylinder+Basin+Resonance J|0368|Zeng,Y.+Anderson,J.G.|A method for direct computation of the differential seismogram with respect to the velocity change in a layered elastic solid||#BSA:85:1:1995:300-307|Synthetic seismogram+Velocity structure+Layered medium+Elastic medium J|0369|Wang,J.+Teng,T-L.|Artificial neural network-based seismic detector||#BSA:85:1:1995:308-319|Neural network+Automatic event detector+Monitoring J|0370|Boschi,E.+Caserta,A.+Conti,C.+|Resonance of subsurface sediments: an unforeseen complication for designers of Roman columns||#BSA:85:1:1995:320-324|Site response+Column+Rome+Archaeology|Short note J|0371|Stuart,G.W.+Francis,D.+Gubbins,D.+|Tararua broadband array, North Island, New Zealand||#BSA:85:1:1995:325-333|Pacific plate+Array+P-wave+High-velocity layer+ISC|Short note J|0372|Wong,I.G.+Bott,J.D.J.|A new look back at the 1969 Santa Rosa, California, earthquakes||#BSA:85:1:1995:334-341|California+1969+Damaging earthquake+Seismicity|Short note J|0373|Chiu,H-C.+Amirbekian,R.V.+Bolt,B.A.|Transferability of strong ground-motion coherency between the SMART1 and SMART2 arrays||#BSA:85:1:1995:342-348|Coherency+Strong motion+SMART 1 array+SMART 2 array|Short note J|0374|Field,E.H.+Clement,A.C.+Jacob,K.H.+|Earthquake site-response study in Giumri (formerly Leninakan), Armenia, using ambient noise observations||#BSA:85:1:1995:349-353|Site response+Armenia+Noise+Resonance|Short note J|0375|Dindi,E.+Havskov,J.+Iranga,M.+|Potential capability of the East African seismic stations||#BSA:85:1:1995:354-360|East Africa+Station+Network+Data processing+ISC|Short note J|0376|Haase,J.S.+Hauksson,E.+Kanamori,H.+|Global Positioning System resurvey of Southern California seismic network stations||#BSA:85:1:1995:361-374|Southern California+Global Positioning System+Station location+Geodetic survey|Short note J|0377|Ge,M.|Comment on `Microearthquake location: a nonlinear approach that makes use of a simplex stepping procedure' by A. Prugger and D. Gendzwill||#BSA:85:1:1995:375-377|Comments+Microearthquake+Location+Nonlinearity J|0378|a-Working Group on California Earthquake Probabilities|Seismic hazards in Southern California: probable earthquakes, 1994 to 2024||#BSA:85:2:1995:379-439|Southern California+Hazard+1994-2024+Probability+Earthquake||#*LANDERS92|#*NORTHRIDGE94 J|0379|Cramer,C.H.|Weak-motion observations and modeling for the Turkey Flat, U.S., site-effects test area near Parkfield, California||#BSA:85:2:1995:440-451|Parkfield+Modelling+Site effect+Ground motion J|0380|Su,F.+Aki,K.|Site amplification factors in central and southern California determined from coda waves||#BSA:85:2:1995:452-466|Coda wave+California+Site+Amplification J|0381|Kato,K.+Aki,K.+Takemura,M.|Site amplification from coda waves: validation and application to S-wave site response||#BSA:85:2:1995:467-477|Coda wave+Site+Amplification+S-wave J|0382|Gagnepain-Beyneix,J.+Lepine,J.C.+Nercessian,A.+|Experimental study of site effects in the Fort-de-France area (Martinique Island)||#BSA:85:2:1995:478-495|Site effect+Lesser Antilles+Amplification+Spectral ratio J|0383|Beresnev,I.A.+Wen,K-L.+Yeh,Y.T.|Nonlinear soil amplification: its corroboration in Taiwan||#BSA:85:2:1995:496-515|Nonlinearity+Soil+Amplification+Taiwan J|0384|Hartzell,S.H.+Liu,P-C.|Determination of earthquake source parameters using a hybrid global search algorithm||#BSA:85:2:1995:516-524|Source parameter+Algorithm+Inversion+Simulated annealing||#*LANDERS92 J|0385|Haddon,R.A.W.|Modeling of source rupture characteristics for the Saguenay earthquake of November 1988||#BSA:85:2:1995:525-551|Quebec+1988+Earthquake+Rupture||#*SAGUENAY88 J|0386|Amorese,D.+Grasso,J-R.+Plotnikova,L.M.+|Rupture kinetics of the three Gazli major earthquakes from vertical and horizontal displacement data||#BSA:85:2:1995:552-559|1976+1984+Major earthquake+Gazli+Rupture+ISC||#*GAZLI|#*GAZLI2|#*GAZLI3 J|0387|Chung,W-Y.+Wei,B-Z.+Brantley,B.J.|Faulting mechanisms of the Liyang, China, earthquakes of 1974 and 1979 from regional and teleseismic waveforms - evidence of tectonic inversion under a fault-bounded basin||#BSA:85:2:1995:560-570|Focal mechanism+China+Destructive earthquake+1974+1979||#*LIYANG J|0388|Zheng,B.+Hamburger,M.W.+Popandopulo,G.A.|Precursory seismicity changes preceding moderate and large earthquakes in the Garm region, central Asia||#BSA:85:2:1995:571-589|Garm+Precursor+Seismicity+Seismic gap||#*GARM80|#*GARM83B|#*GARM84|#*GARM83A J|0389|Zhou,R.+Tajima,F.+Stoffa,P.L.|Application of genetic algorithms to constrain near-source velocity structure for the 1989 Sichuan earthquakes||#BSA:85:2:1995:590-605|Earthquake+1989+Sichuan+Velocity structure||#*SICHUAN89|#*SICHUAN89A|#*SICHUAN89B J|0390|Tsuboi,S.+Abe,K.+Takano,K.+|Rapid determination of Mw from broad band P waveforms||#BSA:85:2:1995:606-613|Broadband seismograph+Moment magnitude+P-wave+First arrival||#*SEAOFJAPAN93|#*JOSHUATREE92|#*LANDERS92|#*BIGBEAR92|#*NORTHRIDGE94 J|0391|Fukuyama,E.+Madariaga,R.|Integral equation method for plane crack with arbitrary shape in 3D elastic medium||#BSA:85:2:1995:614-628|Elastic medium+Crack+Mathematical analysis+Integral equation J|0392|Savage,J.C.+Gross,W.K.|Revised dislocation model of the 1986 Chalfant Valley earthquake, eastern California||#BSA:85:2:1995:629-631|Dislocation+1986+Earthquake+California|Short note|#*CHALFANT J|0393|Rogers,J.A.+Stephens,C.D.|SSAM: real-time seismic spectral amplitude measurement on a PC and its application to volcano monitoring||#BSA:85:2:1995:632-639|Monitoring+Spectral amplitude+Personal computer+Volcano|Short note J|0394|Mueller,R.J.+Lee,M-Y.+Johnston,M.J.S.+|Near real-time monitoring of seismic events and status of portable digital recorders using satellite telemetry||#BSA:85:2:1995:640-645|Portable station+Telemetry+Monitoring+Recorder|Short note|#*NORTHRIDGE94 J|0395|Ruffman,A.|Comment on `The great Newfoundland storm of 12 September 1775' by A. E. Stevens and M. Staveley||#BSA:85:2:1995:646-652|Comments+Storm+1775+Newfoundland|With a reply by one of the authors J|0396|Bokelmann,G.H.R.|Comment on `Crustal anisotropy from local observations of shear-wave splitting in West Bohemia, Czech Republic' by V. Vavrycuk||#BSA:85:2:1995:653-657|Comments+Shear wave splitting+Bohemia+Anisotropy+Crust J|0397|Kawahara,J.|Comment on `Crustal anisotropy from local observations of shear-wave splitting in West Bohemia, Czech Republic' by V. Vavrycuk||#BSA:85:2:1995:658-660|Comments+Shear wave splitting+Bohemia+Anisotropy+Crust J|0398|Vavrycuk,V.|Reply to Comments on `Crustal anisotropy from local observations of shear-wave splitting in West Bohemia, Czech Republic'. Can the Hudson crack model describe behavior of real cracks?||#BSA:85:2:1995:661-664|Comments+Shear wave splitting+Bohemia+Anisotropy+Crust J|0399|Langer,C.J.+Spence,W.|The 1974 Peru earthquake series||#BSA:85:3:1995:665-687|Peru+1974+Earthquake+Seismicity||#*LIMA J|0400|Jones,L.E.+Hough,S.E.|Analysis of broadband records from the 28 June 1992 Big Bear earthquake: evidence of a multiple-event source||#BSA:85:3:1995:688-704|1992+Multiple event+Southern California+Earthquake||#*BIGBEAR92|#*BIGBEAR92D|#*BIGBEAR92A J|0401|Tinker,M.A.+Beck,S.L.|Inversion of regional surface-wave spectra for source parameters of aftershocks from the 1992 Petrolia earthquake sequence||#BSA:85:3:1995:705-715|1992+Aftershock+Cascadia subduction zone+Source parameter||#*PETROLIA92A|#*PETROLIA92B|#*PETROLIA92C J|0402|Cassidy,J.F.+Rogers,G.C.|The rupture process and aftershock distribution of the 6 April 1992 Ms 6.8 earthquake, offshore British Columbia||#BSA:85:3:1995:716-735|British Columbia+1992+Earthquake+Rupture||#*VANCOUVER92|#*VANCOUVER92A J|0403|Cassidy,J.F.|Rupture directivity and slip distribution for the MS 6.8 earthquake of 6 April 1992, offshore British Columbia: an application of the empirical Green's function method using surface waves||#BSA:85:3:1995:736-746|Earthquake+1992+British Columbia+Rupture||#*VANCOUVER92 J|0404|Ritsema,J.+Ward,S.N.+Gonzalez,F.I.|Inversion of deep-ocean tsunami records for 1987 to 1988 Gulf of Alaska earthquake parameters||#BSA:85:3:1995:747-754|Earthquake+Alaska, Gulf of+1987-1988+Tsunami||#*ALASKA287|#*ALASKA88 J|0405|Wysession,M.E.+Wilson,J.B.+Bartko,L.+|Intraplate seismicity in the Atlantic Ocean basin: a teleseismic catalog||#BSA:85:3:1995:755-774|Intraplate seismicity+Atlantic Ocean+Earthquake catalogue+1918-1990+ISC J|0406|Sohn,R.A.+Hildebrand,J.A.+Webb,S.C.+|Hydrothermal microseismicity at the megaplume site on the southern Juan de Fuca Ridge||#BSA:85:3:1995:775-786|Juan de Fuca+Microseismicity+Ocean-bottom seismometer+Hydrothermy J|0407|Johnston,M.J.S.+Hill,D.P.+Linde,A.T.+|Transient deformation during triggered seismicity from the 28 June 1992 Mw = 7.3 Landers earthquake at Long Valley volcanic caldera, California||#BSA:85:3:1995:787-795|Landers+Earthquake+1992+Triggering||#*LANDERS92 J|0408|Pollitz,F.F.+Sacks,I.S.|Consequences of stress changes following the 1891 Nobi earthquake, Japan||#BSA:85:3:1995:796-807|Stress+1891+Earthquake+Japan J|0409|Sacks,I.S.+Rydelek,P.A.|Earthquake "quanta" as an explanation for observed magnitudes and stress drops||#BSA:85:3:1995:808-813|Stress-drop+Moment magnitude+Gutenberg & Richter+Japan J|0410|Hong,L-L.+Guo,S-W.|Nonstationary Poisson model for earthquake occurrences||#BSA:85:3:1995:814-824|Occurrence+Model+Clustering+Statistical method J|0411|Atkinson,G.M.+Hanks,T.C.|A high-frequency magnitude scale||#BSA:85:3:1995:825-833|High frequency+Magnitude scale+Stress-drop+North America J|0412|Xie,X-B.+Lay,T.|The log (rms Lg)-mb scaling law slope||#BSA:85:3:1995:834-844|Lg-wave+Scaling+Underground nuclear explosion+Spectrum J|0413|Rodgers,P.W.+Martin,A.J.+Robertson,M.C.+|Signal-coil calibration of electromagnetic seismometers||#BSA:85:3:1995:845-850|Electromagnetic seismometer+Calibration+Instrument+Response J|0414|Dainty,A.M.+Schultz,C.A.|Crustal reflections and the nature of regional P coda||#BSA:85:3:1995:851-858|Crust+Reflexion coefficient+Coda+Frequency-wavenumber analysis J|0415|Clouser,R.H.+Langston,C.A.|Modeling P-Rg conversions from isolated topographic features||#BSA:85:3:1995:859-873|NORESS+Modelling+Topography+Scattering J|0416|Marsh,J.+Larkin,T.J.+Haines,A.J.+|Comparison of linear and nonlinear seismic responses of two-dimensional alluvial basins||#BSA:85:3:1995:874-889|Basin+Alluvium+Site response+Nonlinear response J|0417|Rodriguez-Zuniga,J.L.+Sanchez-Sesma,F.J.+Perez-Rocha,L.E.|Seismic response of shallow alluvial valleys: the use of simplified models||#BSA:85:3:1995:890-899|Site response+Valley+Alluvium+Model J|0418|Malagnini,L.+Herrmann,R.B.+Biella,G.+|Rayleigh waves in Quaternary alluvium from explosive sources: determination of shear-wave velocity and Q structure||#BSA:85:3:1995:900-922|Rayleigh wave+Alluvium+Velocity+Q J|0419|Castro,R.R.+Munguia,L.+Brune,J.N.|Source spectra and site response from P and S waves of local earthquakes in the Oaxaca, Mexico, subduction zone||#BSA:85:3:1995:923-936|Site response+Local earthquake+Oaxaca+Subduction zone J|0420|Chapman,M.C.|A probabilistic approach to ground-motion selection for engineering design||#BSA:85:3:1995:937-942|Probability+Ground motion+Hazard+Earthquake engineering|Short note J|0421|Stephenson,W.J.+Rockwell,T.K.+Odum,J.K.+|Seismic reflection and geomorphic characterization of the onshore Palos Verdes fault zone, Los Angeles, California||#BSA:85:3:1995:943-950|Fault zone+Los Angeles+Reflexion study+Geomorphology|Short note J|0422|Lomnitz,C.|On the distribution of distances between random points on a sphere||#BSA:85:3:1995:951-953|Sphere+Distance+Triggering+Random effect|Short note J|0423|Cheng,N.+Cheng,C.H.|Relationship between Liao and Clayton-Engquist absorbing boundary conditions: acoustic case||#BSA:85:3:1995:954-956|Boundary condition+Reflexion coefficient+Mathematical analysis|Short note J|0424|Hales,A.L.|Comment on `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' by S. Houard et al||#BSA:85:3:1995:957-959|Comments+Nuclear explosion+South Pacific+PKP-wave+Amplitude|With a reply by one of the authors J|0425|Vanek,J.|Comment on `Distance dependence of Ms and calibrating function for 20 second Rayleigh waves' by M. Herak and D. Herak||#BSA:85:3:1995:961-962|Comments+Rayleigh wave+Distance+Magnitude+Calibration+ISC|With a reply by the authors J|0426|Behr,R.A.+Belarbi,A.+Culp,J.H.|Dynamic racking tests of curtain wall glass elements with in-plane and out-of-plane motions||#EES:24:1:1995:1-14|Glass+Dynamic response+Laboratory J|0427|Pekau,O.A.+Feng,L-M.+Zhang,C-H.|Seismic fracture of Koyna dam: case study||#EES:24:1:1995:15-33|Gravity dam+Fracture+Koyna+Induced earthquake J|0428|Hjelmstad,K.D.+Banan,Mo.R.+Banan,Ma.R.|On building finite element models of structures from modal response||#EES:24:1:1995:53-67|Finite element method+Structural response+Building+Algorithm J|0429|Mittal,A.K.+Jain,A.K.|Effective strength eccentricity concept for inelastic analysis of asymmetric structures||#EES:24:1:1995:69-84|Structural response+Asymmetry+Inelasticity+Strength J|0430|Loh,C-H.+Tou,I-C.|A system identification approach to the detection of changes in both linear and non-linear structural parameters||#EES:24:1:1995:85-97|Building+Structural response+Time domain+Mathematical model J|0431|Fu,T.M.+Xiong,J.G.+Cheung,Y.K.|Boundary element method with exterior collocation in two-dimensional elastodynamic problems||#EES:24:1:1995:99-108|Boundary element method+Elastodynamics+Frequency domain J|0432|Luco,J.E.+De Barros,F.C.P.|Three dimensional response of a layered cylindrical valley embedded in a layered half-space||#EES:24:1:1995:109-125|Valley+Half-space+Layered medium+Dynamic response J|0433|Osman,A.+Ghobarah,A.+Korol,R.M.|Implications of design philosophies for seismic response of steel moment frames||#EES:24:1:1995:127-143|Steel frame+Structural response+Earthquake-resistant design+Building code J|0434|Inaudi,J.A.+Kelly,J.M.|Modal equations of linear structures with viscoelastic dampers||#EES:24:1:1995:145-151|Viscoelastic damping+Equation+Frequency domain+Linear system|Short communication J|0435|Booth,E.|Review of `Simplicity and confidence in seismic design (the fourth Mallet-Milne lecture)' by T. Paulay||#EES:24:1:1995:153|Review+Earthquake-resistant design+Ductility+Reinforced concrete|Wiley, Chichester, 1993. 68pp J|0436|Ghrib,F.+Tinawi,R.|An application of damage mechanics for seismic analysis of concrete gravity dams||#EES:24:2:1995:157-173|Gravity dam+Concrete+Damage+Mechanics J|0437|Wolf,J.P.+Song,C-M.|Doubly asymptotic multi-directional transmitting boundary for dynamic unbounded medium--structure-interaction analysis||#EES:24:2:1995:175-188|Boundary+Soil-structure interaction+Numerical analysis J|0438|Broderick,B.M.+Elnashai,A.S.|Analysis of the failure of interstate 10 freeway ramp during the Northridge earthquake of 17 January 1994||#EES:24:2:1995:189-208|Earthquake+1994+Los Angeles+Freeway||#*NORTHRIDGE94 J|0439|Selna,L.G.+Chow,H-L.|Impulse-momentum and resistance analysis of reinforced concrete structures||#EES:24:2:1995:209-220|Reinforced concrete+Nonlinearity+Structural response+Mathematical analysis J|0440|Tena-Colunga,A.+Abrams,D.P.|Simplified 3-D dynamic analysis of structures with flexible diaphragms||#EES:24:2:1995:221-232|Dynamic analysis+Flexure+Masonry structure||#*LOMAPRIETA89 J|0441|Villaverde,R.+Martin,S.C.|Passive seismic control of cable-stayed bridges with damped resonant appendages||#EES:24:2:1995:233-246|Bridge+Damper+Earthquake-resistant design J|0442|Abe,M.+Igusa,T.|Tuned mass dampers for structures with closely spaced natural frequencies||#EES:24:2:1995:247-261|Damper+Frequency+Perturbation theory+Structural response J|0443|Pantelides,C.P.+Nelson,P.A.|Continuous pulse control of structures with material non-linearity||#EES:24:2:1995:263-282|Dynamic response+Control+Pulse+Nonlinearity J|0444|Wu,W-H.+Smith,H.A.|Efficient modal analysis for structures with soil-structure interaction||#EES:24:2:1995:283-299|Soil-structure interaction+Structural response+Frequency domain+Mathematical analysis J|0445|Davis,R.|Effects of weathering on site response||#EES:24:2:1995:301-309|Site response+Interface+Layered medium+Spectrum|Short communication J|0446|Wen,K-L.+Beresnev,I.A.+Yeh,Y.T.|Investigation of non-linear site amplification at two downhole strong ground motion arrays in Taiwan||#EES:24:3:1995:313-324|Site effect+Nonlinear response+Down-hole recording+Amplification J|0447|Zhao,Q.+Sawada,T.+Hirao,K.+|Localized identification of MDOF structures in the frequency domain||#EES:24:3:1995:325-338|Frequency domain+Structure+Smoothing+Mathematical analysis J|0448|Liu,W-M.+Novak,M.|Dynamic behaviour of turbine-generator-foundation systems||#EES:24:3:1995:339-360|Foundation+Generator+Dynamic analysis+Mathematical model J|0449|Liao,Z.P.+Yang,G.|Multi-directional transmitting boundaries for steady-state SH waves||#EES:24:3:1995:361-371|Boundary condition+SH-wave+Plane wave+Transmission J|0450|Mir,R.A.+Taylor,C.A.|An experimental investigation into earthquake-induced failure of medium to low height concrete gravity dams||#EES:24:3:1995:373-393|Gravity dam+Earthquake+Failure+Concrete J|0451|Dicleli,M.+Bruneau,M.|An energy approach to sliding of single-span simply supported slab-on-girder steel highway bridges with damaged bearings||#EES:24:3:1995:395-409|Bridge+Sliding+Steel+Nonlinear response||#*ERZINCAN92 J|0452|Qian,J.+Beskos,D.E.|Dynamic interaction between 3-D rigid surface foundations and comparison with the ATC-3 provisions||#EES:24:3:1995:419-437|Boundary element method+Dynamic response+Foundation+Frequency domain J|0453|Farrar,C.R.+Baker,W.E.|Damping in low-aspect-ratio, reinforced concrete shear walls||#EES:24:3:1995:439-455|Damping+Reinforced concrete+Wall+Laboratory J|0454|Warburton,G.B.|Review of `Dynamics of structures' by R. W. Clough and J. Penzien||#EES:24:3:1995:457-462|Review+Earthquake engineering+Structure+Dynamics J|0455|Ambraseys,N.N.|The prediction of earthquake peak ground acceleration in Europe||#EES:24:4:1995:467-490|Ground acceleration+Europe+Earthquake+Equation J|0456|Ganev,T.+Yamazaki,F.+Katayama,T.|Observation and numerical analysis of soil-structure interaction of a reinforced concrete tower||#EES:24:4:1995:491-503|Tower+Reinforced concrete+Soil-structure interaction+Numerical analysis J|0457|Molas,G.L.+Yamazaki,F.|Neural networks for quick earthquake damage estimation||#EES:24:4:1995:505-516|Damage+Earthquake+Neural network+Ground motion J|0458|Makris,N.+Badoni,D.|Seismic response of pile groups under oblique-shear and Rayleigh waves||#EES:24:4:1995:517-532|Dynamic response+Pile+Rayleigh wave+SH-wave J|0459|Liang,S.T.+Ding,D.J.|Comparative experimental studies of models of self-controlled and ordinary frames on the shaking table||#EES:24:4:1995:533-547|Shake table+Frame+Reinforced concrete+Model J|0460|De la Llera,J.C.+Chopra,A.K.|Understanding the inelastic seismic behaviour of asymmetric-plan buildings||#EES:24:4:1995:549-572|Asymmetry+Building+Dynamic response+Earthquake engineering J|0461|De la Llera,J.C.+Chopra,A.K.|A simplified model for analysis and design of asymmetric-plan buildings||#EES:24:4:1995:573-594|Model+Building+Asymmetry+Design J|0462|Suzuki,T.+Adachi,Y.+Tanaka,M.|Application of micro tremor measurements to the estimation of earthquake ground motions in Kushiro City during the Kushiro-Oki earthquake of 15 January 1993||#EES:24:4:1995:595-613|Earthquake+1993+Kushiro+Microtremor||#*KUSHIRO93 J|0463|Sinha,R.+Igusa,T.|CQC and SRSS methods for non-classically damped structures||#EES:24:4:1995:615-619|Damping+Structure+Dynamic response+Base isolation system J|0464|Sun,L.M.+Fujino,Y.+Koga,K.|A model of tuned liquid damper for suppressing pitching motions of structures||#EES:24:5:1995:625-636|Damper+Liquid+Structure+Model J|0465|Paronesso,A.+Wolf,J.P.|Global lumped-parameter model with physical representation for unbounded medium||#EES:24:5:1995:637-654|Model+Mathematical analysis+Matrix+Soil-structure interaction J|0466|Niwa,N.+Kobori,T.+Takahashi,M.+|Passive seismic response controlled high-rise building with high damping device||#EES:24:5:1995:655-671|Damper+Building+Structural response+Earthquake-resistant design J|0467|Chavez,J.W.+Fenves,G.L.|Earthquake analysis of concrete gravity dams including base sliding||#EES:24:5:1995:673-686|Gravity dam+Concrete+Sliding+Structural response J|0468|Chung,L.L.+Lin,C.C.+Lu,K.H.|Time-delay control of structures||#EES:24:5:1995:687-701|Delay+Structure+Control+Algorithm J|0469|Rajapakse,R.K.N.D.+Senjuntichai,T.|Dynamic response of a multi-layered poroelastic medium||#EES:24:5:1995:703-722|Dynamic response+Layered medium+Poroelasticity+Matrix J|0470|Thewalt,C.R.+Mahin,S.A.|An unconditionally stable hybrid pseudodynamic algorithm||#EES:24:5:1995:723-731|Pseudodynamic test+Algorithm+Time integration technique J|0471|Thewalt,C.R.+Mahin,S.A.|Non-planar pseudodynamic testing||#EES:24:5:1995:733-746|Pseudodynamic test+Algorithm+Dynamic response+Time domain J|0472|Kannan,S.+Uras,H.M.+Aktan,H.M.|Active control of building seismic response by energy dissipation||#EES:24:5:1995:747-759|Structural response+Building+Dissipation+Earthquake-resistant design J|0473|Duan,X.N.+Chandler,A.M.|Seismic torsional response and design procedures for a class of setback frame buildings||#EES:24:5:1995:761-777|Structural response+Frame+Building+Earthquake-resistant design J|0474|Trifunac,M.D.+Novikova,E.I.|Duration of earthquake fault motion in California||#EES:24:6:1995:781-799|Duration+California+Strong motion+Faulting J|0475|Hernried,A.G.+Lei,K-M.|Semi-analytical techniques for the determination of the dynamic response of equipment in structures supported on Coulomb friction elements||#EES:24:6:1995:801-810|Dynamic response+Friction+Technique+Base isolation system J|0476|Papadrakakis,M.+Mouzakis,H.P.|Earthquake simulator testing of pounding between adjacent buildings||#EES:24:6:1995:811-834|Building+Dynamic response+Shake table J|0477|Veletsos,A.S.+Shivakumar,P.|Hydrodynamic effects in rigid tanks containing layered liquids||#EES:24:6:1995:835-860|Hydrodynamics+Storage tank+Liquid+Layered medium J|0478|Capuani,D.+Klein,R.+Antes,H.+|Dynamic soil-structure interaction of coupled shear walls by boundary element method||#EES:24:6:1995:861-879|Soil-structure interaction+Wall+Dynamic analysis+Boundary element method J|0479|Dimova,S.+Meskouris,K.+Kratzig,W.B.|Numerical technique for dynamic analysis of structures with friction devices||#EES:24:6:1995:881-898|Friction+Numerical method+Structure+Dynamic analysis J|0480|Smith,M.J.+Hutton,S.G.|Accuracy and improvement of natural frequency prediction using component mode synthesis||#EES:24:6:1995:899-916|Frequency+Beam+Technique+Accuracy J|0481|Stamos,A.A.+Beskos,D.E.|Dynamic analysis of large 3-D underground structures by the BEM||#EES:24:6:1995:917-934|Dynamic analysis+Underground structure+Boundary element method+Soil-structure interaction A|0482|e*Barthelemy,J.+Ducarme,B.+Melchior,P.|New challenges for geodesy in volcanoes monitoring||1995:Luxembourg:Centre Europeen de Geodynamique et de Seismologie|Workshop+Deformation+Geodesy+Volcano+Monitoring|Vol. 8. 350pp. Proceedings of a Workshop held in Walferdange, June 1993 A|0483|e*Bonnin,J.+Ducarme,B.+Dubois,J.+|Dynamical systems and artificial intelligence applied to data banks in geophysics||1995:Luxembourg:Centre Europeen de Geodynamique et de Seismologie|Workshop+Artificial intelligence+Data bank+Geodynamics+Seismic processing|Vol. 9. 193pp. Proceedings of a Workshop held in Walferdange, November 1993 J|0484|Lee,V.W.+Manoogian,M.E.|Surface motion above an arbitrary shape underground cavity for incident SH waves||#EEE:-:1:1995:3-11|Cavity+SH-wave+Underground structure+Diffraction J|0485|Lee,V.W.|Pseudo relative velocity spectra in former Yugoslavia||#EEE:-:1:1995:12-22|Yugoslavia+Strong motion+Spectrum+Attenuation J|0486|Tso,W.K.+Wong,C-M.|Eurocode 8 seismic torsional provisions evaluation||#EEE:-:1:1995:23-33|Code+Torsion+Structural response+Asymmetry J|0487|Basu,B.+Gupta,V.K.|A note on ductility for probabilistic seismic design of structures||#EEE:-:1:1995:34-43|Ductility+Structural response+Design+Stochastic method J|0488|Renda,V.+Bellorini,S.+Papa,L.|Extension of the pseudo-dynamic test method to distributed mass structures||#EEE:-:1:1995:44-49|Pseudodynamic test+Finite element method+Building+Mass J|0489|Guzman-Speziale,M.|Hypocentral cross-sections and arc-trench curvature|With Spanish abstract|#GFN:34:1:1995:131-141|Curvature+Hypocentre+Middle America Trench+Wadati-Benioff zone J|0490|Martinez,E.G.+Villagran,M.+Havskov,J.|Magnitudes for local earthquakes calculated with the El Salvador seismic network|With Spanish abstract|#GFN:34:2:1995:213-220|Network+Magnitude+Local earthquake+El Salvador J|0491|Gonzalez-Pomposo,G.J.+Valdes-Gonzalez,C.|Seismicity of the State of Puebla, Mexico, 1986-1989|With Spanish abstract|#GFN:34:2:1995:221-231|Mexico+1986-1989+Seismicity+Earthquake J|0492|Comorny,A.F.+Levin,K.G.+Comornaya,M.Y.+|On the pre-Miocene regional washing of sedimentary rock sets on the NW shelf of Black Sea|In Russian with Ukrainian and English abstracts|#GFZ:-:1:1995:63-67|Black Sea+Sedimentary rock+Seismic exploration+Borehole|Scientific communication J|0493|Othman,A.A.A.+Helal,A.E.N.M.A.|Effects of some processing operation on seismic wavelet|With Ukrainian and Russian abstracts|#GFZ:-:1:1995:68-73|Wavelet+Seismic processing+Vertical seismic profiling+Phase|Scientific communication J|0494|Muller,H.J.+Raab,S.|The velocities of elastic P- and S- waves in high-grade metamorphic rocks under high pressures and temperatures|With Ukrainian and Russian abstracts|#GFZ:-:1:1995:78-85|Velocity+Rock+Laboratory|Scientific communication J|0495|Golizdra,G.Y.+Popovich,V.S.+Tatarinova,T.A.|Method of combined interpretation of seismic observations and gravity anomalies in studying sediments of Black-Sea basin|In Russian with Ukrainian and English abstracts|#GFZ:-:2:1995:23-32|Crimea+Geotraverse+Black Sea+Geologic structure J|0496|Balavadze,B.K.+Kartvelishvili,N.K.|Changes of tidal wave amplitudes due to near-earthquakes|In Russian with Ukrainian and English abstracts|#GFZ:-:2:1995:33-36|Time series+Near earthquake+Amplitude+Tide J|0497|Sharigin,S.A.+Tenigin,B.Y.+Pechurin,V.T.|Use of anomalous behaviour of reptiles as a biological precursor of earthquakes. 1|In Russian with Ukrainian and English abstracts|#GFZ:-:2:1995:37-43|Biological activity+Precursor+CIS J|0498|Ipatenko,S.P.|Deep Earth's crust structure and its relation with oil and gas potential exemplified by the NW Ukrainian Shield|In Russian with Ukrainian and English abstracts|#GFZ:-:2:1995:44-59|Crustal structure+Ukrainian Shield+Oil+Gas J|0499|Mostovoy,S.V.+Mostovoy,V.S.+Osadchuk,A.E.|Monitoring of seismically hazardous zones and ecologically dangerous objects to forecast risk|In Russian with Ukrainian and English abstracts|#GFZ:-:2:1995:60-64|Monitoring+Risk+Seismic zone J|0500|Lebedev,T.S.+Trypolsky,A.A.|Studies of continents and their margins by reflection methods|In Russian with Ukrainian and English abstracts|#GFZ:-:2:1995:70-78|Continental margin+Reflexion study+Symposium J|0501|Kharitonov,O.M.|Layered structure of continental lithosphere|In Russian with Ukrainian and English abstracts|#GFZ:-:3:1995:3-12|Layered medium+Continental lithosphere+Deep structure J|0502|Sharigin,S.A.+Tenigin,B.Y.+Pechurin,V.T.|Use of anomalous behaviour of reptilians as a biologic precursor of earthquakes. 2|In Russian with Ukrainian and English abstracts|#GFZ:-:3:1995:38-44|Biological activity+Precursor+Geomagnetic field J|0503|Karpenko,I.V.|Tectono-sedimentational equation in the problem of seismic stratification of sediments|In Ukrainian with English abstract|#GFZ:-:3:1995:52-57|Sedimentation+Seismostratigraphy J|0504|Trypolsky,A.A.|W-continuation of the Ladoga-Bothnia zone of the Baltic Shield by DSS data|In Russian with Ukrainian and English abstracts|#GFZ:-:3:1995:68-72|Deep seismic sounding+Baltic Shield+Geological data+Crust|Scientific communication J|0505|Almossawi,H.I.H.|Seismodesign criteria in Mesopotamia|With Ukrainian and Russian abstracts|#GFZ:-:3:1995:79-82|Mesopotamia+Seismotectonics+Hazard+Design|Scientific communication J|0506|Nefedkina,T.V.+Kostyuk,N.G.|Mathematical modelling of various types of wave fields for geoacoustical models of oil deposits in West Siberia|In Russian with English abstract|#GGS:-:1:1995:103-113|West Siberia+Mathematical modelling+Wave field+Oil field J|0507|Bayanov,A.S.|Stacking of PS-waves on the basis of "strict" CDP system|In Russian with English abstract|#GGS:-:1:1995:114-125|Stacking+PS-wave+Common depth point+Static correction J|0508|Zhalkovsky,N.D.+Muchnaya,V.I.|Intensity of an aftershock as a function of background seismicity of focal zones|In Russian with English abstract|#GGS:-:1:1995:126-129|Aftershock+Seismicity+Seismic process+Shallow earthquake J|0509|Krylov,S.V.+Ten,E.N.|Strength and elastic properties of focal zones of violent earthquakes within the Baikalian and North Tien Shan areas|In Russian with English abstract|#GGS:-:2:1995:137-150|Strength+Tien Shan+Baikal+Large earthquake J|0510|Potapov,V.A.+Ivanov,F.I.|Methodological aspects of quantitative estimation of seismic hazard in zones of the effect of transite earthquakes|In Russian with English abstract|#GGS:-:3:1995:133-140|Hazard+Site effect+Distance+Elastic medium J|0511|Khomutov,S.Yu.|Investigation of relationship between global seismicity and Moon's position|In Russian with English abstract|#GGS:-:4:1995:88-102|Global seismicity+Moon+Correlation J|0512|Goldin,S.V.+Fomel,S.B.|Estimation of reflection coefficient in DMO|In Russian with English abstract|#GGS:-:4:1995:103-115|Dip moveout+Reflexion coefficient+Zero offset+Seismics J|0513|Egorov,G.V.|Nonlinear interaction of compressional seismic waves in porous fluid-saturated media|In Russian with English abstract|#GGS:-:5:1995:110-117|Compressional wave+Porous medium+Nonlinearity+Saturation J|0514|Gik,L.D.|Introduction of static corrections on information on spectrum of reflected waves|In Russian with English abstract|#GGS:-:5:1995:118-121|Static correction+Reflected wave+Spectrum+Absorption J|0515|Kontorovich,V.A.+Brysyakina,L.A.+Goncharova,M.O.|Prediction of structure of the Upper-Toarcian and Aalenian deposits in the Koltogory petroleum-bearing region from data of seismic prospecting and results of deep drilling (West Siberia)|In Russian with English abstract|#GGS:-:6:1995:127-137|Drilling+Seismic prospecting+Petroleum+Structure J|0516|Belov,R.V.|Zonal prediction of petroleum potential of Lower- and Middle-Jurassic continental deposits of the Nyurolka basin|In Russian with English abstract|#GGS:-:6:1995:138-144|Seismostratigraphy+Sand+Petroleum+West Siberia J|0517|Vidale,J.E.+Goes,S.+Richards,P.G.|Near-field deformation seen on distant broadband seismograms||#GRL:22:1:1995:1-4|Near field+Deformation+Seismogram+Broadband seismology||#*BOLIVIA94|#*NICARAGUA92 J|0518|Bostock,M.G.+Cassidy,J.F.|Variations in SKS splitting across western Canada||#GRL:22:1:1995:5-8|Canada+Shear wave splitting+SKS-wave+Anisotropy J|0519|Tanioka,Y.+Satake,K.+Ruff,L.J.|Total analysis of the 1993 Hokkaido Nansei-oki earthquake using seismic wave, tsunami, and geodetic data||#GRL:22:1:1995:9-12|Earthquake+1993+Sea of Japan+Geophysical investigation||#*SEAOFJAPAN93 J|0520|Nabelek,J.+Xia,G.|Moment-tensor analysis using regional data: application to the 25 March, 1993, Scotts Mills, Oregon, earthquake||#GRL:22:1:1995:13-16|Earthquake+1993+Oregon+Moment tensor||#*SCOTTSMILLS93 J|0521|Zeng,Y.+Anderson,J.G.+Su,F.|Subevent rake and random scattering effects in realistic strong ground motion simulation||#GRL:22:1:1995:17-20|Simulation+Strong motion+Scattering+Synthetic seismogram||#*NINDIA91 J|0522|Ohnaka,M.|A shear failure strength law of rock in the brittle-plastic transition regime||#GRL:22:1:1995:25-28|Failure+Granite+Strength+Physical properties J|0523|Marzocchi,W.+Mulargia,F.|Stress pulses in southern Italy||#GRL:22:1:1995:29-32|Southern Italy+Historical seismicity+Migration J|0524|Ego,F.+Sebrier,M.+Yepes,H.|Is the Cauca-Patia and Romeral fault system left or rightlateral ?||#GRL:22:1:1995:33-36|Focal mechanism+Shallow-focus earthquake+Block+Andes J|0525|Larson,K.M.+Freymueller,J.|Relative motions of the Australian, Pacific and Antarctic plates estimated by the Global Positioning System||#GRL:22:1:1995:37-40|Global Positioning System+Plate motion+South Pacific+Velocity J|0526|Graves,R.W.|Preliminary analysis of long-period basin response in the Los Angeles region from the 1994 Northridge earthquake||#GRL:22:2:1995:101-104|Los Angeles+1994+Earthquake+Basin||#*NORTHRIDGE94 J|0527|Braunmiller,J.+Nabelek,J.+Leitner,B.+|The 1993 Klamath Falls, Oregon, earthquake sequence: source mechanisms from regional data||#GRL:22:2:1995:105-108|Oregon+1993+Sequence+Source parameter||#*KLAMATH93A|#*KLAMATH93B|#*KLAMATH93C J|0528|Fujiwara,F.+Tamaki,K.+Fujimoto,H.+|Morphological studies of the Ayu Trough, Philippine Sea - Caroline Plate boundary||#GRL:22:2:1995:109-112|Plate boundary+Philippine Sea+Morphology+Profile J|0529|Levin,V.+Lerner-Lam,A.L.+Menke,W.|Anomalous mantle structure at the Proterozoic-Paleozoic boundary in northeastern US||#GRL:22:2:1995:121-124|Northeastern United States+Upper mantle+Heterogeneity+Tomography J|0530|Fox,C.G.+Radford,W.E.+Dziak,R.P.+|Acoustic detection of a seafloor spreading episode on the Juan de Fuca Ridge using military hydrophone arrays||#GRL:22:2:1995:131-134|Juan de Fuca+Hydrophone+Sea-floor spreading+Seismicity J|0531|Dziak,R.P.+Fox,C.G.+Schreiner,A.E.|The June-July 1993 seismo-acoustic event at CoAxial segment, Juan de Fuca Ridge: evidence for a lateral dike injection||#GRL:22:2:1995:135-138|Swarm+Juan de Fuca+T-wave+Dike J|0532|Schreiner,A.E.+Fox,C.G.+Dziak,R.P.|Spectra and magnitudes of T-waves from the 1993 earthquake swarm on the Juan de Fuca Ridge||#GRL:22:2:1995:139-142|T-wave+Swarm+Juan de Fuca+Spectrum J|0533|Embley,R.W.+Chadwick,W.W.+Jonasson,I.R.+|Initial results of the rapid response to the 1993 CoAxial event: relationships between hydrothermal and volcanic processes||#GRL:22:2:1995:143-146|Swarm+T-wave+Juan de Fuca+Lava J|0534|Baker,E.T.+Massoth,G.J.+Feely,R.A.+|Hydrothermal event plumes from the CoAxial seafloor eruption site, Juan de Fuca Ridge||#GRL:22:2:1995:147-150|Juan de Fuca+Seismicity+Plume+Hydrothermy J|0535|Riepl,J.+Rietbrock,A.+Scherbaum,F.|Site response modelling by non-linear waveform inversion||#GRL:22:3:1995:199-202|Site response+Modelling+Nonlinear inversion+Synthetic seismogram||#*LOMAPRIETA89 J|0536|Singh,S.K.+Quaas,R.+Ordaz,M.+|Is there truly a "hard" rock site in the Valley of Mexico?||#GRL:22:4:1995:481-484|Mexico+Amplification+Rock+Site effect||#*GUERRERO93A|#*GUERRERO93B|#*GUERRERO93C J|0537|Gallart,J.+Vidal,N.+Danobeitia,J.J.|Multichannel seismic image of the crustal thinning at the NE Iberian margin combining normal and wide angle reflection data||#GRL:22:4:1995:489-492|Reflexion data+Image+Crustal thickness+Iberia J|0538|Barruol,G.+Souriau,A.|Anisotropy beneath the Pyrenees range from teleseismic shear wave splitting: results from a test experiment||#GRL:22:4:1995:493-496|Shear wave splitting+Anisotropy+Pyrenees+Teleseism J|0539|Steck,L.K.|Simulated annealing inversion of teleseismic P-wave slowness and azimuth for crustal velocity structure at Long Valley||#GRL:22:4:1995:497-500|Simulated annealing+Long Valley Caldera+P-wave+Velocity structure J|0540|Evans,J.R.+Julian,B.R.+Foulger,G.R.+|Shear-wave splitting from local earthquakes at The Geysers geothermal field, California||#GRL:22:4:1995:501-504|Local earthquake+Shear wave splitting+California+Geothermal field J|0541|Lutter,W.J.+Roberts,P.M.+Thurber,C.H.+|Teleseismic P-wave image of crust and upper mantle structure beneath the Valles caldera, New Mexico: initial results from the 1993 JTEX passive array||#GRL:22:4:1995:505-508|New Mexico+P-wave+Crustal structure+Upper mantle J|0542|Lees,J.M.|Reshaping spectrum estimates by removing periodic noise: application to seismic spectral ratios||#GRL:22:4:1995:513-516|Spectral ratio+Noise+Spectrum+Automatic processing J|0543|Zhou,R.+Tajima,F.+Stoffa,P.L.|Earthquake source parameter determination using genetic algorithms||#GRL:22:4:1995:517-520|Genetic algorithm+Source parameter+Earthquake+Himalayas+ISC||#*BIHAR88 J|0544|Matyska,C.|Axisymmetry of mantle aspherical structures||#GRL:22:4:1995:521-524|S-wave+P-wave+Mantle+Symmetry J|0545|Singh,S.K.+Santoyo,M.A.+Pacheco,J.F.|Intermediate-depth earthquakes in Central Mexico: implications for plate waves||#GRL:22:5:1995:527-530|Mexico+Intermediate-depth earthquake+Travel-times+Converted wave||#*GUERRERO94 J|0546|Niu,F-L.+Kawakatsu,H.|Direct evidence for the undulation of the 660-km discontinuity beneath Tonga: comparison of Japan and California array data||#GRL:22:5:1995:531-534|660km discontinuity+Tonga+Converted wave+Undulation J|0547|Palmer,R.L.+Weldon,R.J.+Humphreys,E.D.+|Earthquake recurrence on the southern San Andreas modulated by fault-normal stress||#GRL:22:5:1995:535-538|San Andreas Fault+Recurrence+Stress+Fault J|0548|Das,T.+Nolet,G.|Crustal thickness estimation using high frequency Rayleigh waves||#GRL:22:5:1995:539-542|Rayleigh wave+High frequency+Crustal thickness+Moho J|0549|Revenaugh,J.|The contribution of topographic scattering to teleseismic coda in Southern California||#GRL:22:5:1995:543-546|Southern California+Scattering+Coda+Topography J|0550|Wyss,M.+Lu,Z.|Plate boundary segmentation by stress directions: southern San Andreas fault, California||#GRL:22:5:1995:547-550|Plate boundary+Segmentation+Stress+San Andreas Fault J|0551|Nakada,S.+Motomura,Y.+Shimizu,H.|Manner of magma ascent at Unzen Volcano (Japan)||#GRL:22:5:1995:567-570|Mount Unzen+Eruption+Magma+Volcanic tremor J|0552|Marone,C.|Fault zone strength and failure criteria||#GRL:22:6:1995:723-726|Fault zone+Strength+Friction+Laboratory J|0553|Hough,S.E.+Dietel,C.+Glassmoyer,G.+|On the variability of aftershock ground motions in the San Fernando Valley||#GRL:22:6:1995:727-730|San Fernando+Aftershock+Ground motion+1994||#*NORTHRIDGE94 J|0554|Igel,H.+Weber,M.|SH-wave propagation in the whole mantle using high order finite differences||#GRL:22:6:1995:731-734|SH-wave+Mantle+Finite difference method+Propagation J|0555|Marotta,A.M.+Sabadini,R.|The style of the Tyrrhenian subduction||#GRL:22:7:1995:747-750|Tyrrhenian Sea+Subduction+Slab+Seismotectonics J|0556|Pandey,M.R.+Tandukar,R.P.+Avouac,J.P.+|Interseismic strain accumulation on the Himalayan crustal ramp (Nepal)||#GRL:22:7:1995:751-754|Seismicity+Himalayas+Strain+Crust||#*BIHAR88 J|0557|Dragert,H.+Hyndman,R.D.|Continuous GPS monitoring of elastic strain in the northern Cascadia subduction zone||#GRL:22:7:1995:755-758|Global Positioning System+Strain+Monitoring+Cascadia subduction zone J|0558|Savage,J.C.+Lisowski,M.|Changes in long-term extension rates associated with the Morgan Hill and Loma Prieta earthquakes in California||#GRL:22:7:1995:759-762|Extension+Earthquake+California+Geodetic measurement||#*LOMAPRIETA89|#*MORGAN J|0559|Zhao,D.+Kanamori,H.|The 1994 Northridge earthquake: 3-D crustal structure in the rupture zone and its relation to the aftershock locations and mechanisms||#GRL:22:7:1995:763-766|Earthquake+1994+Los Angeles+Velocity structure||#*NORTHRIDGE94 J|0560|Liu,H.+Davis,P.M.+Gao,S.|SKS splitting beneath southern California||#GRL:22:7:1995:767-770|Southern California+SKS-wave+Shear wave splitting+Anisotropy J|0561|Heinicke,J.+Koch,U.+Martinelli,G.|CO2 and radon measurements in the Vogtland area (Germany) - a contribution to earthquake prediction research||#GRL:22:7:1995:771-774|Prediction+Radon+Seismicity+Vogtland J|0562|Ratdomopurbo,A.+Poupinet,G.|Monitoring a temporal change of seismic velocity in a volcano: application to the 1992 eruption of Mt. Merapi (Indonesia)||#GRL:22:7:1995:775-778|Eruption+1992+Velocity+Indonesia J|0563|Pilkington,M.+Todoeschuck,J.P.|Scaling nature of crustal susceptibilities||#GRL:22:7:1995:779-782|Scaling+Crust+Power spectrum+Geophysics J|0564|Sabadini,R.+Piersanti,A.+Spada,G.|Toroidal/poloidal partitioning of global post-seismic deformation||#GRL:22:8:1995:985-988|Earthquake+Deformation+Earth model+Geodynamics J|0565|Holt,W.E.|Flow fields within the Tonga slab determined from the moment tensors of deep earthquakes||#GRL:22:8:1995:989-992|Deep earthquake+Tonga+Centroid-moment tensor+Slab J|0566|Guo,Z-Q.+Ogata,Y.|Correlation between characteristic parameters of aftershock distributions in time, space and magnitude||#GRL:22:8:1995:993-996|Aftershock+p-Value+b-Value+Japan J|0567|Dreger,D.+Ritsema,J.+Pasyanos,M.|Broadband analysis of the 21 September, 1993 Klamath Falls earthquake sequence||#GRL:22:8:1995:997-1000|Sequence+1993+Fault plane solution+Oregon||#*KLAMATH93A|#*KLAMATH93B|#*KLAMATH93C J|0568|Forte,A.M.+Mitrovica,J.X.+Woodward,R.L.|Seismic-geodynamic determination of the origin of excess ellipticity of the core-mantle boundary||#GRL:22:9:1995:1013-1016|Ellipticity+Core-mantle boundary+Seismodynamics+Mantle convection J|0569|Romanelli,F.+Panza,G.F.|Effect of source depth correction on the estimation of earthquake size||#GRL:22:9:1995:1017-1019|Focal depth+Earthquake+Size+Correction J|0570|Cansi,Y.|An automatic seismic event processing for detection and location: the P.M.C.C. method||#GRL:22:9:1995:1021-1024|Automatic event detector+Network+Automatic location+Method||#*NORTHRIDGE94 J|0571|Kikuchi,M.+Kanamori,H.|The Shikotan earthquake of October 4, 1994: lithospheric earthquake||#GRL:22:9:1995:1025-1028|Earthquake+1994+Hokkaido+Oceanic lithosphere||#*HOKKAIDO94 J|0572|Quintanar,L.+Madariaga,R.+Deschamps,A.|The earthquake sequence of November 1987 and March 1988 in the Gulf of Alaska: a new insight||#GRL:22:9:1995:1029-1032|Alaska, Gulf of+Sequence+1987+1988||#*ALASKA88|#*ALASKA187|#*ALASKA287 J|0573|Mori,J.+Wald,D.J.+Wesson,R.L.|Overlapping fault planes of the 1971 San Fernando and 1994 Northridge, California earthquakes||#GRL:22:9:1995:1033-1036|Fault plane+Earthquake+Southern California+1971+1994||#*NORTHRIDGE94|#*SANFERNANDO J|0574|Feigl,K.L.+Sergent,A.+Jacq,D.|Estimation of an earthquake focal mechanism from a satellite radar interferogram: application to the December 4, 1992 Landers aftershock||#GRL:22:9:1995:1037-1040|Focal mechanism+Aftershock+1992+Landers||#*LANDERS92E J|0575|Calais,E.+Minster,J.B.|GPS detection of ionospheric perturbations following the January 17, 1994, Northridge earthquake||#GRL:22:9:1995:1045-1048|Ionosphere+Earthquake+1994+Los Angeles||#*NORTHRIDGE94 J|0576|Maxwell,S.C.+Young,R.P.|A controlled in-situ investigation of the relationship between stress, velocity and induced seismicity||#GRL:22:9:1995:1049-1052|Induced seismicity+Stress+Velocity+Tunnel J|0577|Nagy,P.B.+Bonner,B.P.+Adler,L.|Slow wave imaging of permeable rocks||#GRL:22:9:1995:1053-1056|Ultrasonic wave+Rock+Slow wave+Imaging J|0578|Kyvalova,H.+Cadek,O.+Yuen,D.A.|Correlation analysis between subduction in the last 180 Myr and lateral seismic structure of the lower mantle: geodynamical implications||#GRL:22:10:1995:1281-1284|Lower mantle+Subduction+Anomaly+Geodynamics J|0579|Meade,C.+Silver,P.G.+Kaneshima,S.|Laboratory and seismological observations of lower mantle isotropy||#GRL:22:10:1995:1293-1296|Isotropy+Lower mantle+Mineral+Shear wave splitting J|0580|Bhagavatula,R.+Chen,K.+Jayaprakash,C.|Earthquakes in a model of seismic zone with embedded pre-existing faults||#GRL:22:10:1995:1301-1304|Fault+Seismic zone+Earthquake+Model J|0581|Shibazaki,B.+Matsu'ura,M.|Foreshocks and pre-events associated with the nucleation of large earthquakes||#GRL:22:10:1995:1305-1308|Large earthquake+Foreshock+Nucleation+Asperity||#*LANDERS92|#*IZUOSHIMA|#*HONSHU87 J|0582|Foulger,G.R.+Miller,A.D.+Julian,B.R.+|Three-dimensional vp and vp/vs structure of the Hengill triple junction and geothermal area, Iceland, and the repeatability of tomographic inversion||#GRL:22:10:1995:1309-1312|Triple junction+Iceland+Tomography+Velocity structure J|0583|Nishizawa,O.+Lei,X-L.|A numerical study on finding an optimum model in velocity tomography by using the extended information criterion||#GRL:22:10:1995:1313-1316|Tomography+Numerical method+Velocity+Model J|0584|Katsumata,K.+Ichiyanagi,M.+Miwa,M.+|Aftershock distribution of the October 4, 1994 Mw8.3 Kurile Islands earthquake determined by a local seismic network in Hokkaido, Japan||#GRL:22:11:1995:1321-1324|Kuril Islands+Aftershock+1994+Hypocentre||#*HOKKAIDO94|#*HOKKAIDO94A J|0585|Sato,T.+Kasahara,J.+Fujioka,K.|Observation of pressure change associated with hydrothermal upwelling at a seamount in the south Mariana Trough using an ocean bottom seismometer||#GRL:22:11:1995:1325-1328|Ocean-bottom seismometer+Pressure+Marianas+Hydrothermy J|0586|Pyrak-Nolte,L.J.+Nolte,D.D.|Wavelet analysis of velocity dispersion of elastic interface waves propagating along a fracture||#GRL:22:11:1995:1329-1332|Wavelet+Dispersion+Fracture+Interface J|0587|Massonnet,D.+Feigl,K.L.|Satellite radar interferometric map of the coseismic deformation field of the M = 6.1 Eureka Valley, California earthquake of May 17, 1993||#GRL:22:12:1995:1541-1544|Deformation+Earthquake+1993+California||#*EUREKA93 J|0588|Hawman,R.B.+Ahmed,H.O.|Shallow seismic reflection profiling over a mylonitic shear zone, Ruby Mountains-East Humboldt Range metamorphic core complex, NE Nevada||#GRL:22:12:1995:1545-1548|Nevada+Profiling+Reflexion study+Shear zone J|0589|Nemesi,L.+Hobot,J.+Kovacsvolgyi,S.+|Investigation of the basin basement and crust structure beneath the Kisalfold (performed in ELGI between 1982 and 1990)|In Hungarian with abbreviated version in English|#GPT:39:2-3:1995:193-223|Hungary+Basin+Basement+Crustal structure+Reflexion study J|0590|Gardiner,W.+Grasso,M.+Sedgeley,D.|Plio-Pleistocene fault movement as evidence for mega-block kinematics within the Hyblean-Malta plateau, central Mediterranean||#JGD:19:1:1995:35-51|Kinematics+Mediterranean+Fault+Reflexion study J|0591|Kiratzi,A.A.+Papazachos,C.B.|Active deformation of the shallow part of the subducting lithospheric slab in the southern Aegean||#JGD:19:1:1995:65-78|Deformation+AEgean+Fault plane solution+Intermediate-depth earthquake J|0592|Zhao,S.+Chao,D.|Determination of the fault slip distribution of the 1976 Tangshan earthquake by the finite element method||#JGD:19:2:1995:107-115|Fault-slip+1976+Earthquake+T'ang-shan J|0593|Tsoflias,G.P.+Bollinger,G.A.+Costain,J.K.|Common cyclicities in the seismicity and water level fluctuations at the Charlevoix seismic zone on the St Lawrence River, Quebec, Canada||#JGD:19:2:1995:117-139|Charlevoix+Cycle+Water level+Seismicity J|0594|Ram,A.+Tripathi,J.N.+Yadav,L.|Nature of P-wave signals from Hindukush earthquakes||#JGD:19:2:1995:159-175|Hindu Kush+P-wave+Complexity+Signal J|0595|Yu,H-S.+Chiang,C-S.|Morphology and origin of the Hongtsai submarine canyon west of the Hengchun Peninsula, Taiwan|With Chinese abstract|#JGC:38:1:1995:81-93|Taiwan+Canyon+Marine seismic investigation+Bathymetry J|0596|Wang,J-H.+Kuo,H-C.|A catalogue of Ms >=7 Taiwan earthquakes (1900-1994)|With Chinese abstract|#JGC:38:2:1995:95-106|Taiwan+Earthquake catalogue+1900-1994+Magnitude scale J|0597|Wang,C-Y.+Tsai,Y-L.+Ger,M-L.|Reflection seismic stratigraphy in the Taipei basin (II) - western and southern Taipei basin|With Chinese abstract|#JGC:38:2:1995:141-172|Taipei Basin+Seismostratigraphy+Static correction+Seismics J|0598|Utsu,T.+Ogata,Y.+Matsu'ura,R.S.|The centenary of the Omori formula for a decay law of aftershock activity||#JPE:43:1:1995:1-33|Review+Omori's power law+Aftershock+Decay J|0599|Mochizuki,E.|Seismic excitation by single force and asymmetric moment tensor||#JPE:43:1:1995:45-57|Moment tensor+Excitation+Source+Mathematical analysis J|0600|Mikumo,T.+Hirahara,K.+Takeuchi,F.+|Three-dimensional velocity structure of the upper crust in the Hida region, central Honshu, Japan, and its relation to local seismicity, Quaternary active volcanoes and faults||#JPE:43:1:1995:59-78|Velocity structure+Upper crust+Honshu+Seismicity J|0601|Yokoi,T.+Takenaka,H.|Treatment of an infinitely extended free surface for indirect formulation of the boundary element method||#JPE:43:1:1995:79-103|Boundary element method+Green's function+Mathematical analysis+Wave field J|0602|Kawasaki,I.+Asai,Y.+Tamura,Y.+|The 1992 Sanriku-Oki, Japan, ultra-slow earthquake||#JPE:43:2:1995:105-116|Slow earthquake+Sanriku+1992+Strain J|0603|Higuchi,T.+Igarashi,G.+Tohjima,Y.+|Time series analysis of groundwater radon using stochastic differential equations||#JPE:43:2:1995:117-130|Time series+Groundwater+Radon+Stochastic method J|0604|Hatayama,K.+Matsunami,K.+Iwata,T.+|Basin-induced Love waves in the eastern part of the Osaka basin||#JPE:43:2:1995:131-155|Basin+Love wave+Osaka+S-wave J|0605|Miyatake,T.+Yamashita,T.|Theoretical seismic source studies||#JPE:43:3:1995:171-182|Source+Theory+Crack+Model J|0606|Yoshida,S.|Waveform inversion methods for the earthquake source||#JPE:43:3:1995:183-209|Waveform+Inversion+Source+Method||#*IZUHANTO2|#*ANDREANOF|#*GUATEMALA|#*MEXICOCITY J|0607|Takemura,M.+Motosaka,M.+Yamanaka,H.|Strong motion seismology in Japan||#JPE:43:3:1995:211-257|Review+Strong motion+Japan+Seismology J|0608|Satake,K.+Imamura,F.|Tsunamis: seismological and disaster prevention studies||#JPE:43:3:1995:259-277|Tsunami+Generation+Coast+Warning||#*SEAOFJAPAN J|0609|Matsumoto,S.|Characteristics of coda waves and inhomogeneity of the Earth||#JPE:43:3:1995:279-299|Coda wave+Inhomogeneity+Multiple scattering+Q J|0610|Kaneshima,S.|Seismic anisotropy: a review of studies by Japanese researchers||#JPE:43:3:1995:301-319|Anisotropy+Review+Rock+Shear wave splitting J|0611|Yokokura,T.|Research and development on the multi-channel seismic reflection method and its applications to various geological situations in Japan||#JPE:43:3:1995:321-349|Seismic exploration+Japan+Reflexion study+Controlled source J|0612|Takenaka,H.|Modeling seismic wave propagation in complex media||#JPE:43:3:1995:351-368|Propagation+Modelling+Heterogeneous medium+Method J|0613|Rose,A.+Benavides,J.|Interindustry models for analyzing the economic role of utility lifelines disrupted by earthquakes||#NCE:-:1:1995:2-6|Loss+Earthquake+Public services+Model J|0614|Liu,L.+Dobry,R.|Effect of liquefaction on lateral response of piles by centrifuge model tests||#NCE:-:1:1995:7-11|Liquefaction+Pile+Centrifuge+Pore pressure J|0615||Preliminary reports from the Hyogo-ken Nambu earthquake of January 17, 1995||#NCE:-:1:1995:1-12|Destructive earthquake+1995+Kobe+Report|Supplement pagination|#*SHYOGO95 J|0616|Frankel,A.+Thenhaus,P.C.+Jacob,K.H.|Seismic hazard mapping in the northeastern United States||#NCE:-:1:1995:13-16|Workshop+Northeastern United States+Hazard+Mapping J|0617|Buckle,I.G.|Report from the Hanshin-Awaji earthquake: overview of performance of highway bridges||#NCE:-:2:1995:1-6|Bridge+Destructive earthquake+Kobe+1995||#*SHYOGO95 J|0618|Costantino,C.|Report from the Hanshin-Awaji earthquake: overview of geotechnical observations||#NCE:-:2:1995:7-10|Destructive earthquake+1995+Kobe+Fault||#*SHYOGO95 J|0619|Shinozuka,M.+Hwang,H.|Systems analysis for Memphis light, gas and water||#NCE:-:2:1995:10-16|Public services+Risk+Software+Tennessee A|0620|Pearce,R.G.+Rogers,R.M.|Seismic source discrimination at teleseismic distances using radiation patterns: concepts and feasibility study|Report No. O 4/94|1995:Aldermaston, Berks:AWE|Discrimination+Teleseism+P-wave+Radiation pattern|207pp A|0621|Douglas,A.+Marshall,P.D.+Young,J.B.+|P seismograms from explosions in the S Pacific recorded at four arrays|Report No. O 2/95|1995:Aldermaston, Berks:AWE|South Pacific+Underground explosion+Array+P-wave+ISC|184pp J|0622|Zoback,M.L.+Zoback,M.D.+Crone,A.J.+|Processes and patterns of intraplate seismicity||Okla. Geol. Notes:55:1:1995:36-37|Pattern+Intraplate seismicity+Process+Stress|Abstract only J|0623|Paine,J.G.|Subsidence beneath a playa basin on the southern High Plains, U.S.A.: evidence from shallow seismic data||Okla. Geol. Notes:55:1:1995:37-38|Subsidence+Basin+Shallow seismic sounding+Texas|Abstract only J|0624|Luza,K.V.|Antioch earthquake recorded by the OGS digital seismic system||Okla. Geol. Notes:55:2:1995:42-84|Earthquake+Oklahoma+1995||#*ANTIOCH95 J|0625|DeLaughter,J.E.|Effects of bias in the Oklahoma earthquake catalogue||Okla. Geol. Notes:55:2:1995:44-50|Oklahoma+Earthquake catalogue+Noise+Error J|0626|Lawson,J.E.+Luza,K.V.|Oklahoma earthquakes, 1994||Okla. Geol. Notes:55:2:1995:51-63|Oklahoma+1994+Earthquake catalogue J|0627|Handford,C.R.|Stratigraphic geometry of cavern collapse and seismic modeling - a predictive tool for exploration||Okla. Geol. Notes:55:3:1995:109-110|Subsurface+Modelling+Reflexion study+Reservoir|Abstract only J|0628|Burns,D.R.+Tang,X.M.+Reiter,E.C.+|Elastic wave scaling studies at the Gypsy Project in integrated reservoir characterization||Okla. Geol. Notes:55:3:1995:113-114|Frequency+Logging+Elastic wave+Reservoir|Abstract only J|0629|Schwarzschild,B.|"Asteroseismology" offers a new probe of stellar interiors||Physics today:-:5:1995:19-21|Pressure wave+Helioseismology+Asteroseismology+Oscillation J|0630|Oh,J.+Austin,J.A.+Phillips,J.D.+|Seaward-dipping reflectors offshore the southeastern United States: seismic evidence for extensive volcanism accompanying sequential formation of the Carolina trough and Blake Plateau basin||Geology:23:1:1995:9-12|Dipping reflector+Southeastern United States+Offshore+Reflexion study J|0631|Wang,X.+Cochran,J.R.|Along-axis gravity gradients at mid-ocean ridges: implications for mantle flow and axial morphology||Geology:23:1:1995:29-32|Crustal thickness+Refraction study+Bouguer anomaly+Mid-ocean ridge J|0632|Larter,R.D.+Vanneste,L.E.|Relict subglacial deltas on the Antarctic Peninsula outer shelf||Geology:23:1:1995:33-36|High resolution+Marine seismic investigation+Antarctic+Continental shelf J|0633|Gomberg,J.+Bodin,P.+Savage,W.+|Landslide faults and tectonic faults, analogs?: the Slumgullion earthflow, Colorado||Geology:23:1:1995:41-44|Colorado+Faulting+Landslide+Seismogram J|0634|Cannat,M.+Mevel,C.+Maia,M.+|Thin crust, ultramafic exposures, and rugged faulting patterns at the Mid-Atlantic Ridge (22degrees-24degreesN)||Geology:23:1:1995:49-52|Mid-Atlantic Ridge+Oceanic crust+Crustal thickness+Bouguer anomaly J|0635|Fuis,G.S.+Levander,A.R.+Lutter,W.J.+|Seismic images of the Brooks Range, Arctic Alaska, reveal crustal-scale duplexing||Geology:23:1:1995:65-68|Alaska+Fold-and-thrust belt+Reflexion data+Refraction data J|0636|Jacoby,G.+Carver,G.A.+Wagner,W.|Trees and herbs killed by an earthquake ~300 yr ago at Humboldt Bay, California||Geology:23:1:1995:77-80|Historical earthquake+California+Subsidence+Biological activity J|0637|Paull,C.K.+Ussler,W.+Borowski,W.S.+|Methane-rich plumes on the Carolina continental rise: associations with gas hydrates||Geology:23:1:1995:89-92|Marine geophysical investigation+Carolina Trough+Reflexion study+Gas bubble J|0638|Wheeler,R.L.|Earthquakes and the cratonward limit of Iapetan faulting in eastern North America||Geology:23:2:1995:105-108|Eastern North America+Earthquake+Iapetan margin+Faulting J|0639|Sheppard,P.R.+White,L.O.|Tree-ring responses to the 1978 earthquake at Stephens Pass, northeastern California||Geology:23:2:1995:109-112|Dendrochronology+Earthquake+1978+Northern California J|0640|Parsons,T.+Christensen,N.I.+Wilshire,H.G.|Velocities of southern Basin and Range xenoliths: insights on the nature of lower crustal reflectivity and composition||Geology:23:2:1995:129-132|Basin & Range+Lower crust+Velocity+Laboratory J|0641|Operto,S.+Charvis,P.|Kerguelen Plateau: a volcanic passive margin fragment?||Geology:23:2:1995:137-140|Velocity structure+Kerguelen Plateau+Oceanic crust+Marine seismic investigation J|0642|Cook,F.A.+Jones,A.G.|Seismic reflections and electrical conductivity: a case of Holmes's curious dog?||Geology:23:2:1995:141-144|Reflexion study+Electrical conductivity+Canadian Cordillera+Upper crust J|0643|Ross,G.M.+Milkereit,B.+Eaton,D.+|Paleoproterozoic collisional orogen beneath the western Canada sedimentary basin imaged by Lithoprobe crustal seismic-reflection data||Geology:23:3:1995:195-199|Canadian Shield+Reflexion data+Sedimentary basin+Moho J|0644|Polet,J.+Anderson,D.L.|Depth extent of cratons as inferred from tomographic studies||Geology:23:3:1995:205-208|Craton+Tomography+Mantle+High velocity J|0645|Boss,S.K.+Rasmussen,K.A.|Misuse of Fischer plots as sea-level curves||Geology:23:3:1995:221-224|Bahamas+Sea level+Reflexion study+Sediment J|0646|Tuttle,M.P.+Schweig,E.S.|Archeological and pedological evidence for large prehistoric earthquakes in the New Madrid seismic zone, central United States||Geology:23:3:1995:253-256|Prehistoric earthquake+New Madrid+Liquefaction+Seismic zone J|0647|Verdonck,D.|Three-dimensional model of vertical deformation at the southern Cascadia subduction zone, western United States||Geology:23:3:1995:261-264|Subsidence+Cascadia subduction zone+Uplift+Seismic potential J|0648|Barnhardt,W.A.+Gehrels,W.R.+Belknap,D.F.+|Late Quaternary relative sea-level change in the western Gulf of Maine: evidence for a migrating glacial forebulge||Geology:23:4:1995:317-320|Sea level+Maine+Carbon dating+Reflexion study J|0649|Munson,P.J.+Munson,C.A.+Pond,E.C.|Paleoliquefaction evidence for a strong Holocene earthquake in south-central Indiana||Geology:23:4:1995:325-328|Prehistoric earthquake+Liquefaction+Indiana+Hazard J|0650|Lee,H-K.+Schwarcz,H.P.|Fractal clustering of fault activity in California||Geology:23:4:1995:377-380|California+Fractal dimension+Fault+Clustering J|0651|Fuis,G.S.+Levander,A.R.+Lutter,W.J.+|Correction to `Seismic images of the Brooks Range, Arctic Alaska, reveal crustal-scale duplexing'||Geology:23:4:1995:381|Errata+Alaska+Reflexion data+Fold-and-thrust belt J|0652|Morris,P.A.|Slab melting as an explanation of Quaternary volcanism and aseismicity in southwest Japan||Geology:23:5:1995:395-398|Japan+Aseismic region+Slab+Melting J|0653|Feary,D.A.+James,N.P.|Cenozoic biogenic mounds and buried Miocene(?) barrier reef on a predominantly cool-water carbonate continental margin--Eucla basin, western Great Australian Bight||Geology:23:5:1995:427-430|Reflexion data+Continental margin+Great Australian Bight J|0654|Baird,D.J.+Knapp,J.H.+Steer,D.N.+|Upper-mantle reflectivity beneath the Williston basin, phase-change Moho, and the origin of intracratonic basins||Geology:23:5:1995:431-434|Upper mantle+Reflectivity+Williston Basin+Moho J|0655|Jackson,S.L.+Cruden,A.R.|Formation of the Abitibi greenstone belt by arc-trench migration||Geology:23:5:1995:471-474|Reflexion study+Crust+Geologic structure+Abitibi J|0656|Cutten,H.N.C.|Comment on `Displacement since the Pliocene along the southern section of the Alpine fault, New Zealand' by R. Sutherland||Geology:23:5:1995:475-476|Comments+Seismic potential+New Zealand+Fault|With a reply by the author J|0657|Dowdeswell,J.A.|Comment on `Deep Pleistocene iceberg plowmarks on the Yermak Plateau: sidescan and 3.5 kHz evidence for thick calving ice fronts and a possible marine ice sheet in the Arctic Ocean' by P. R. Vogt, K. Crane and E. Sundvor||Geology:23:5:1995:476-478|Comments+Side-scan sonar+Arctic Ocean+Ice|With a reply by the authors J|0658|Collot,J-Y.+Lamarche,G.+Wood,R.A.+|Morphostructure of an incipient subduction zone along a transform plate boundary: Puysegur Ridge and Trench||Geology:23:6:1995:519-522|Strike-slip+Macquarie Ridge+Subduction zone+Marine geophysical investigation||#*SOUTHLAND81 J|0659|Otton,J.K.|Western frontal fault of the Canyon Range: is it the breakaway zone of the Sevier Desert detachment?||Geology:23:6:1995:547-550|Utah+Dipping reflector+Geologic structure J|0660|Polyak,L.V.+Lehman,S.J.+Gataullin,V.N.+|Two-step deglaciation of the southeastern Barents Sea||Geology:23:6:1995:567-571|Barents Sea+Sparker+Ice sheets+Seismostratigraphy J|0661|Lin,S.|Comment on `Collision between the North and South China blocks: a crustal-detachment model for suturing in the region east of the Tanlu fault' by Z-X. Li||Geology:23:6:1995:574-576|Comments+Deep seismic sounding+China+Tectonics|With a reply by the author J|0662|Gelius,L-J.|Generalized acoustic diffraction tomography||#GPP:43:1:1995:3-29|Tomography+Diffraction+Ray tracing+Acoustic imaging J|0663|Gelius,L-J.|A sample of controlled experiments in diffraction tomography||#GPP:43:1:1995:31-50|Diffraction+Tomography+Acoustic imaging+Model J|0664|Hanyga,A.+Helle,H.B.|Synthetic seismograms from generalized ray tracing||#GPP:43:1:1995:51-75|Synthetic seismogram+Caustic+Ray tracing+Numerical method J|0665|Xu,S.+White,R.E.|A new velocity model for clay-sand mixtures||#GPP:43:1:1995:91-118|Velocity+Clay+Sand+Porosity J|0666|Filpo,E.+Hubral,P.|Numerical tests of 3D true-amplitude zero-offset migration||#GPP:43:1:1995:119-134|Zero offset+Migration+Reflexion coefficient+Layered medium J|0667|Hering,A.+Misiek,R.+Gyulai,A.+|A joint inversion algorithm to process geoelectric and surface wave seismic data. Part I: basic ideas||#GPP:43:2:1995:135-156|Surface wave+Algorithm+Inversion+Geoelectric sounding J|0668|Nishizawa,O.+Noro,H.|Bootstrap statistics for velocity tomography: application of a new information criterion||#GPP:43:2:1995:157-176|Statistical method+Tomography+Inversion+Velocity J|0669|Landa,E.+Keydar,S.+Kravtsov,A.|Determination of a shallow velocity-depth model from seismic refraction data by coherence inversion||#GPP:43:2:1995:177-190|Refraction data+Inversion+Velocity-depth function+Model J|0670|Al-Rawahy,S.Y.S.+Goulty,N.R.|Effect of mining subsidence on seismic velocity monitored by a repeated reflection profile||#GPP:43:2:1995:191-201|Coal mine+Subsidence+Velocity+Profile J|0671|Bunks,C.|Effective filtering of artifacts for implicit finite-difference paraxial wave equation migration||#GPP:43:2:1995:203-220|Filtering+Wave equation+Migration+Imaging J|0672|Hampson,G.+Jakubowicz,H.|The effects of source and receiver motion on seismic data||#GPP:43:2:1995:221-244|Moving source+Receiver motion+Convolution+Doppler effect J|0673|Johansen,T.A.+Bruland,L.+Lutro,J.|Tracking the amplitude versus offset (AVO) by using orthogonal polynomials||#GPP:43:2:1995:245-261|AVO+Common midpoint+Decomposition+Mathematical method J|0674|Mazzotti,A.+Ravagnan,G.|Impact of processing on the amplitude versus offset response of a marine seismic data set||#GPP:43:3:1995:263-281|AVO+Marine seismic investigation+Seismic processing+Gas sand J|0675|Tao,G.+King,M.S.+Nabi-Bidhendi,M.|Ultrasonic wave propagation in dry and brine-saturated sandstones as a function of effective stress: laboratory measurements and modelling||#GPP:43:3:1995:299-327|Sandstone+Stress+Ultrasonic wave+Laboratory J|0676|Duncan,G.+Beresford,G.|Median filter behaviour with seismic data||#GPP:43:3:1995:329-345|Filter+Attenuation+Vertical seismic profiling+Behaviour J|0677|Kabir,M.M.N.+Verschuur,D.J.|Restoration of missing offsets by parabolic Radon transform||#GPP:43:3:1995:347-368|Radon transform+Offset+Common midpoint+Seismic processing J|0678|Nielsen,P.+If,F.+Berg,P.+|Using the pseudospectral method on curved grids for 2D elastic forward modelling||#GPP:43:3:1995:369-395|Modelling+Spectral analysis+Grid+Wave equation J|0679|Taner,M.T.+O'Doherty,R.F.+Koehler,F.|Long period multiple suppression by predictive deconvolution in the x-t domain||#GPP:43:4:1995:433-468|Multiple+Suppression+Deconvolution+x-t Domain J|0680|Lichman,E.+Northwood,E.J.|Phase inversion deconvolution for long and short period multiples attenuation||#GPP:43:4:1995:469-486|Multiple+Deconvolution+Attenuation+Waveform J|0681|Walker,D.|Harmonic resonance structure and chaotic dynamics in the earth-vibrator system||#GPP:43:4:1995:487-507|Vibrator+Resonance+Nonlinear response+Harmonic J|0682|Samson,C.+Barton,P.J.+Karwatowski,J.|Imaging beneath an opaque basaltic layer using densely sampled wide-angle OBS data||#GPP:43:4:1995:509-527|Basalt+Seismic survey+Ocean-bottom seismometer+Rockall Trough J|0683|Rowbotham,P.S.+Goulty,N.R.|Quantitative evaluation of crosshole seismic reflection images using physical model data||#GPP:43:4:1995:529-540|Cross-hole+Model+Image+Reflexion J|0684|Sayers,C.M.|Anisotropic velocity analysis||#GPP:43:4:1995:541-568|Anisotropy+Shale+Ellipticity+Layered medium J|0685|Bostock,M.G.+VanDecar,J.C.|Upper mantle structure of the northern Cascadia subduction zone|With French abstract|#CJS:32:1:1995:1-12|Cascadia subduction zone+Upper mantle+Velocity structure+Teleseism J|0686|Desloges,J.R.+Gilbert,R.|The sedimentary record of Moose Lake: implications for glacial activity in the Mount Robson area, British Columbia|With French abstract|#CJS:32:1:1995:65-78|British Columbia+Glacier+Sediment+Seismostratigraphy J|0687|Lacroix,S.+Sawyer,E.W.|An Archean fold-thrust belt in the northwestern Abitibi Greenstone Belt: structural and seismic evidence|With French abstract|#CJS:32:2:1995:97-112|Abitibi+Fold-and-thrust belt+Seismic reflexion profile+Crustal structure J|0688|Bellefleur,G.+Barnes,A.E.+Calvert,A.J.+|Seismic reflection constraints from Lithoprobe line 29 on the upper crustal structure of the northern Abitibi greenstone belt|With French abstract|#CJS:32:2:1995:128-134|Abitibi+Crustal structure+Seismic reflexion profile+Common midpoint J|0689|Jackson,S.L.+Cruden,A.R.+White,D.+|A seismic-reflection-based regional cross section of the southern Abitibi greenstone belt|With French abstract|#CJS:32:2:1995:135-148|Abitibi+Geology+Cross section+Seismic reflexion profile J|0690|Grandjean,G.+Wu,H.+White,D.+|Crustal velocity models for the Archean Abitibi greenstone belt from seismic refraction data|With French abstract|#CJS:32:2:1995:149-166|Refraction data+Velocity structure+Abitibi+Crust J|0691|Verpaelst,P.+Peloquin,A.S.+Adam,E.+|Seismic reflection profiles across the "Mine Series" in the Noranda camp of the Abitibi belt, eastern Canada|With French abstract|#CJS:32:2:1995:167-176|Seismic reflexion profile+Abitibi+Crustal structure+Well-log J|0692|Durling,P.+Howells,K.+Harvey,P.|The near-surface geology of St Georges Bay, Nova Scotia: implications for the Hollow Fault|With French abstract|#CJS:32:5:1995:603-613|Nova Scotia+Geology+Marine seismic investigation+Seismostratigraphy J|0693|Spence,G.D.+Long,D.T.|Transition from oceanic to continental crustal structure: seismic and gravity models at the Queen Charlotte transform margin|With French abstract|#CJS:32:6:1995:699-717|Queen Charlotte Islands+Transform margin+Refraction data+Gravity J|0694|Yu,Y.+Park,J.+Wu,F.|Mantle anisotropy beneath the Tibetan Plateau: evidence from long-period surface waves||#PEP:87:3-4:1995:231-246|Tibet+Mantle+Anisotropy+Surface wave+Long-period wave J|0695|Gupta,S.C.+Singh,V.N.+Kumar,A.|Attenuation of coda waves in the Garhwal Himalaya, India||#PEP:87:3-4:1995:247-253|Coda wave+Himalayas+Attenuation+Q J|0696|Novelo-Casanova,D.A.+Alvarez-Moctezuma,J.|Times of increased probability of large earthquakes (MS >= 7.5) along the Mexican subduction zone||#PEP:87:3-4:1995:279-286|Probability+Large earthquake+Mexico+Subduction zone J|0697|Dziewonski,A.M.+Ekstrom,G.+Salganik,M.P.|Centroid-moment tensor solutions for April-June 1994||#PEP:88:2:1995:69-78|Centroid-moment tensor+1994|Letter section J|0698|Del Pezzo,E.|Estimate of the Q-depth pattern from coda-Q measurements||#PEP:88:2:1995:79-82|Coda Q+Depth+Pattern+Q|Letter section J|0699|Garnero,E.J.+Helmberger,D.V.|On seismic resolution of lateral heterogeneity in the Earth's outermost core||#PEP:88:2:1995:117-130|Lateral heterogeneity+Outer core+SmKS-wave+Travel-times J|0700|Rao,M.V.M.S.+Kusunose,K.|Failure zone development in andesite as observed from acoustic emission locations and velocity changes||#PEP:88:2:1995:131-143|Acoustic emission+Anisotropy+Rock+Laboratory J|0701|Glennon,M.A.+Chen,W-P.|Travel times from earthquakes near southern Kuril and their implications for the fate of subducted lithosphere||#PEP:88:3-4:1995:177-191|Travel-times+Kuril-Kamchatka Arc+Subduction+Lithosphere+ISC J|0702|Kaneshima,S.+Silver,P.G.|Anisotropic loci in the mantle beneath central Peru||#PEP:88:3-4:1995:257-272|Mantle+Peru+Shear wave splitting+Anisotropy J|0703|Muco,B.|The seasonality of Albanian earthquakes and cross-correlation with rainfall||#PEP:88:3-4:1995:285-291|Albania+Earthquake+Rainfall+Seasonal variation|Letter section J|0704|Poupinet,G.+Souriau,A.|An empirical search for short-wavelength heterogeneities in D" using ISC P delays||#PEP:89:1-2:1995:1-8|Heterogeneity+D"-layer+P-wave+Travel-time residual+ISC|Letter section J|0705|Tajima,F.+Okal,E.A.|The 1977 Three Kings Ridge earthquake (MS = 6.7): broad-band aspect of the source rupture||#PEP:89:1-2:1995:109-125|Earthquake+1977+Fiji+Source-time function||#*THREEKINGS77 J|0706|O'Keefe,S.G.+Thiel,D.V.|A mechanism for the production of electromagnetic radiation during fracture of brittle materials||#PEP:89:1-2:1995:127-135|Electromagnetic emission+Mechanism+Fracture+Laboratory J|0707|Patane,G.+Coco,G.+Corrao,M.+|Source parameters of seismic events at Mount Etna volcano, Italy, during the outburst of the 1991-1993 eruption||#PEP:89:3-4:1995:149-162|Source parameter+Mount Etna+Eruption+Volcanic tremor J|0708|Liu,M.+Yund,R.A.|The elastic strain energy associated with the olivine-spinel transformation and its implications||#PEP:89:3-4:1995:177-197|Deep-focus earthquake+Phase transformation+Strain+Energy J|0709|Krishna,V.G.+Kaila,K.L.|P velocity models of the mantle transition zone beneath Pacific margins||#PEP:89:3-4:1995:247-269|Transition zone+Mantle+Pacific margin+Velocity-depth function+ISC J|0710|Ritzwoller,M.H.+Lavely,E.M.|Three-dimensional seismic models of the Earth's mantle||#RGS:33:1:1995:1-66|Mantle+Model+Aspherical Earth structure+Heterogeneity J|0711|Anderson,D.L.|Lithosphere, asthenosphere, and perisphere||#RGS:33:1:1995:125-149|Lithosphere+Asthenosphere+Temperature+Plate tectonics J|0712|Taylor,S.R.+McLennan,S.M.|The geochemical evolution of the continental crust||#RGS:33:1:1995:241-265|Continental crust+Composition+Archaean J|0713|Majewski,E.|Thermodynamic model of the core-mantle boundary|With Polish abstract|#PAA:-:275:1995:3-61|Core-mantle boundary+Thermodynamic model+D"-layer J|0714|Kanamori,H.|Preparing for the unexpected||#SRL:-:1:1995:7-8|Los Angeles+Large earthquake+Hazard+Preparedness||#*HOKKAIDO94 J|0715|Wald,L.A.+Hutton,L.K.+Given,D.D.|The Southern California Network Bulletin: 1990-1993 summary||#SRL:-:1:1995:9-19|Southern California+Network+Magnitude+1990-1993 J|0716|Gupta,H.K.+Malomo,S.|The Malawi earthquake of March 10, 1989: report of field survey||#SRL:-:1:1995:20-27|Earthquake+1989+Malawi+Field work||#*MALAWI89 J|0717|Kafka,A.L.|Review of `Earthquakes and geological discovery' by B. A. Bolt||#SRL:-:1:1995:31|Review+Earthquake+Seismology|W. H. Freeman and Company, New York, 1993, 229pp J|0718|Atkinson,G.M.|Optimal choice of magnitude scales for seismic hazard estimates in eastern North America||#SRL:-:1:1995:51-55|Eastern North America+Magnitude scale+Hazard+Ground motion J|0719|Street,R.+Woolery,E.+Wang,Z.+|A short note on shear-wave velocities and other site conditions at selected strong-motion stations in the New Madrid seismic zone||#SRL:-:1:1995:56-63|New Madrid+Site effect+Reflexion study+Refraction study J|0720|Person,W.J.|Seismological notes March-April 1994||#SRL:-:1:1995:64-67|Earthquake+1994 J|0721|Kanamori,H.|The Kobe (Hyogo-ken Nanbu), Japan, earthquake of January 16, 1995||#SRL:-:2:1995:6-10|Kobe+1995+Damaging earthquake+Focal mechanism||#*SHYOGO95|#*LOMAPRIETA89|#*NORTHRIDGE94|#*ARMENIA88 J|0722|Robinson,R.+Reyners,M.+Webb,T.+|The MW 6.7 Arthur's Pass earthquake in the southern Alps, New Zealand, June 18, 1994||#SRL:-:2:1995:11-13|New Zealand+Earthquake+1994+Centroid-moment tensor||#*ARTHURSPASS94 J|0723|Person,W.J.|Seismological notes May-June 1994||#SRL:-:2:1995:63-69|Earthquake+1994 J|0724|Stewart,J.P.+Chang,S.W.+Bray,J.D.+|A report on geotechnical aspects of the January 17, 1994 Northridge earthquake||#SRL:-:3:1995:7-19|Los Angeles+Earthquake+1994+Ground motion||#*NORTHRIDGE94 J|0725|Fujita,K.|Peaceful nuclear explosions in the Sakha Republic (Yakutia), Russia||#SRL:-:3:1995:20-24|Yakutiya+Nuclear explosion+Deep seismic sounding+Epicentre+ISC J|0726|Pechmann,J.C.+Walter,W.R.+Nava,S.J.+|The February 3, 1995, ML 5.1 seismic event in the Trona mining district of southwestern Wyoming||#SRL:-:3:1995:25-34|Wyoming+Mining+Collapse+Seismicity J|0727|Williams,R.A.+Luzietti,E.A.+Carver,D.L.|High-resolution seismic imaging of Quaternary faulting on the Crittenden County fault zone, New Madrid seismic zone, northeastern Arkansas||#SRL:-:3:1995:42-57|New Madrid+Imaging+High resolution+Faulting J|0728|Person,W.J.|Seismological notes July-August 1994||#SRL:-:3:1995:61-65|Earthquake+1994 J|0729|a-Japanese National IDNDR Committee|The great Hanshin-Awaji earthquake. Damages and response||STOP Disasters:-:23:1995:10-13|Kobe+1995+Destructive earthquake+Damage||#*SHYOGO95 J|0730|Kaji,H.+Ogawa,Y.+Taniguchi,H.+|A call to arms. Report of the 17 January 1995 great Hanshin-Awaji earthquake||STOP Disasters:-:23:1995:14-17|Kobe+1995+Destructive earthquake+Ground motion||#*SHYOGO95 J|0731|Lukkunaprasit,P.|Thailand: lessons learned from damages in a low seismic country||STOP Disasters:-:24:1995:18-19|Thailand+1994+Moderate earthquake+Damage||#*THAILAND94 J|0732|Oi,H.|Disaster management in Nepal||STOP Disasters:-:24:1995:25-26|Nepal+Natural disaster+Warning+Vulnerability||#*BIHAR88 J|0733|Cowie,P.A.+Knipe,R.+Main,I.G.|Faults in focus||#TRN:7:1:1995:4-6|Scaling+Fault+Size+Crust|Terra news J|0734|Bartole,R.|The north Tyrrhenian-northern Apennines post-collisional system: constraints for a geodynamic model||#TRN:7:1:1995:7-30|Tyrrhenian Sea+Marine seismic investigation+Geodynamic model+Tectonics J|0735|Lindholm,C.D.+Bungum,H.+Bratli,R.K.+|Crustal stress in the northern North Sea as inferred from borehole breakouts and earthquake focal mechanisms||#TRN:7:1:1995:51-59|North Sea+Focal mechanism+Borehole+Stress field J|0736|Bonafede,M.|Interaction between seismic and volcanic deformation: a possible interpretation of ground deformation observed at Vulcano Island (1976-84)||#TRN:7:1:1995:80-86|Surface deformation+1976-1984+Volcanism+Tyrrhenian Sea||#*PATTI J|0737|Valensise,G.|Workshop on palaeoseismology, 18-22 September 1994, Marshall, CA, USA||#TRN:7:2:1995:111|Workshop+Palaeoseismology|Terra news J|0738|Catalano,R.+Infuso,S.+Sulli,A.|Tectonic history of the submerged Maghrebian Chain from the southern Tyrrhenian Sea to the Pelagian foreland||#TRN:7:2:1995:179-188|Mediterranean+Marine seismic investigation+Neotectonics+Geologic structure J|0739|Torelli,L.+Grasso,M.+Mazzoldi,G.+|Cretaceous to Neogene structural evolution of the Lampedusa Shelf (Pelagian Sea, central Mediterranean)||#TRN:7:2:1995:200-212|Seismic reflexion profile+Mediterranean+Borehole+Evolution J|0740|Robertson,A.H.F.+Kidd,R.B.+Ivanov,M.K.+|Eratosthenes Seamount: collisional processes in the easternmost Mediterranean in relation to the Plio-Quaternary uplift of southern Cyprus||#TRN:7:2:1995:254-264|Marine seismic investigation+Eratosthenes Seamount+Eastern Mediterranean+Collision J|0741|Ergun,M.+Ozel,E.|Structural relationship between the Sea of Marmara basin and the North Anatolian Fault zone||#TRN:7:2:1995:278-288|Marine seismic investigation+Marmara Sea+Fault zone+Fault plane solution J|0742|Muir Wood,R.|Editorial||#TRN:7:3:1995:304|Earthquake+Sediment+Liquefaction+Prediction||#*SHYOGO95 J|0743|Rabbel,W.+Foste,K.+Schulze,A.+|A high-velocity layer in the lower crust of the North German Basin||#TRN:7:3:1995:327-337|High-velocity layer+Lower crust+Germany+Refraction study J|0744|Marson,I.+Panza,G.F.+Suhadolc,P.|Crust and upper mantle models along the active Tyrrhenian rim||#TRN:7:3:1995:348-357|Tyrrhenian Sea+Crust+Upper mantle+Geophysical data J|0745|Gente,P.+Pockalny,R.A.+Durand,C.+|Characteristics and evolution of the segmentation of the Mid-Atlantic Ridge between 20degreesN and 24degreesN during the last 10 million years||#EPL:129:1-4:1995:55-71|Bathymetry+Marine geophysical investigation+Mid-Atlantic Ridge+Segmentation J|0746|Clement,B.M.+Stixrude,L.|Inner core anisotropy, anomalies in the time-averaged paleomagnetic field, and polarity transition paths||#EPL:130:1-4:1995:75-85|Inner core+Anisotropy+Palaeomagnetism+Polarity J|0747|Searle,R.C.+Francheteau,J.+Cornaglia,B.|New observations on mid-plate volcanism and the tectonic history of the Pacific plate, Tahiti to Easter microplate||#EPL:131:3-4:1995:395-421|Marine geophysical investigation+Volcanism+Pacific plate+Geotectonics J|0748|Chemenda,A.I.+Mattauer,M.+Malavieille,J.+|A mechanism for syn-collisional rock exhumation and associated normal faulting: results from physical modelling||#EPL:132:1-4:1995:225-232|Geodynamic model+Subduction+Himalayas+Normal fault|Express letter J|0749|Griffiths,R.W.+Hackney,R.I.+Van der Hilst,R.D.|A laboratory investigation of effects of trench migration on the descent of subducted slabs||#EPL:133:1-2:1995:1-17|660km discontinuity+Subduction+Laboratory+Mantle J|0750|Guillou-Frottier,L.+Buttles,J.+Olson,P.|Laboratory experiments on the structure of subducted lithosphere||#EPL:133:1-2:1995:19-34|Laboratory+Subduction+660km discontinuity+Mantle J|0751|Van Orman,J.+Cochran,J.R.+Weissel,J.K.+|Distribution of shortening between the Indian and Australian plates in the central Indian Ocean||#EPL:133:1-2:1995:35-46|Seismic reflexion profile+Indian Ocean+Plate boundary+Faulting J|0752|Kuo,C.+Crawford,H.J.+Jeanloz,R.+|Extraterrestrial neutrinos and Earth structure||#EPL:133:1-2:1995:95-103|Earth structure+Density+Neutrino J|0753|Wen,L-X.+Anderson,D.L.|The fate of slabs inferred from seismic tomography and 130 million years of subduction||#EPL:133:1-2:1995:185-198|Slab+Tomography+Subduction+Time history J|0754|Eichelberger,J.C.|Silicic volcanism: ascent of viscous magmas from crustal reservoirs||#ARE:23:-:1995:41-63|Volcanism+Eruption+Seismicity J|0755|Christensen,U.|Effects of phase transitions on mantle convection||#ARE:23:-:1995:65-87|Phase transition+Mantle convection+660km discontinuity+Slab J|0756|Green,H.W.+Houston,H.|The mechanics of deep earthquakes||#ARE:23:-:1995:169-213|Mechanics+Deep-focus earthquake+Subduction zone+Depth J|0757|Rubin,A.M.|Propagation of magma-filled cracks||#ARE:23:-:1995:287-336|Dike+Propagation+Crack+Induced earthquake+Magma J|0758|Christie-Blick,N.+Driscoll,N.W.|Sequence stratigraphy||#ARE:23:-:1995:451-478|Seismostratigraphy+Sedimentation+Tectonics+Sequence J|0759|Hron,F.+Chan,G.H.|Tutorial on the numerical modeling of edge diffracted waves by the ray method||#SGE:39:2:1995:103-137|Numerical modelling+Diffracted wave+Asymptotic ray theory+Synthetic seismogram J|0760|Novotny,O.+Proskuryakova,T.A.+Shilov,A.V.|Dispersion of Rayleigh waves along the Prague-Warsaw profile||#SGE:39:2:1995:138-147|Rayleigh wave+Dispersion+Europe+Phase velocity J|0761|Horalek,J.+Bouskova,A.+Hampl,F.|Local seismic observations at stations Novy Kostel and Skalna, and their interpretation: period 1986-93||#SGE:39:2:1995:148-161|Bohemian Massif+Observational seismology+1986-1993+Swarm J|0762|Nathe,S.K.+Tubbesing,S.K.|Kobe. In the mind's eye||Nat. Haz. Observer:-:2:1995:4-5|Kobe+Destructive earthquake+1995+Vulnerability||#*SHYOGO95|#*NORTHRIDGE94 J|0763|Baumann,C.+Bolton,P.+Eadie,C.+|What U.S. cities can take from Kobe's catastrophe||Nat. Haz. Observer:-:2:1995:5|Kobe+Destructive earthquake+1995+Preparedness||#*SHYOGO95 J|0764|Hays,W.W.|Understanding Kobe||Nat. Haz. Observer:-:2:1995:6|Kobe+Destructive earthquake+1995+Hazard||#*SHYOGO95|#*LOMAPRIETA89|#*NORTHRIDGE94 J|0765|Kelsey,H.M.+Cashman,S.M.+Beanland,S.+|Structural evolution along the inner forearc of the obliquely convergent Hikurangi margin, New Zealand||Tectonics:14:1:1995:1-18|New Zealand+Evolution+Faulting+Tectonics J|0766|Huang,C-Y.+Yuan,P.B.+Song,S-R.+|Tectonics of short-lived intra-arc basins in the arc-continent collision terrane of the Coastal Range, eastern Taiwan||Tectonics:14:1:1995:19-38|Taiwan+Tectonics+Continuous seismic profiling+Basin J|0767|Deng,J.+Sykes,L.R.|Determination of Euler pole for contemporary relative motion of Caribbean and North American plates using slip vectors of interplate earthquakes||Tectonics:14:2:1995:39-53|Interplate earthquake+Earthquake slip vector+Plate motion+Caribbean J|0768|Umhoefer,P.J.+Kleinspehn,K.L.|Mesoscale and regional kinematics of the northwestern Yalakom fault system: major Paleogene dextral faulting in British Columbia, Canada||Tectonics:14:2:1995:78-94|British Columbia+Kinematics+Southern California+Fault J|0769|Braathen,A.+Bergh,S.G.+Maher,H.D.|Structural outline of a Tertiary basement-cored uplift/inversion structure in western Spitsbergen, Svalbard: kinematics and controlling factors||Tectonics:14:2:1995:95-119|Spitsbergen+Kinematics+Structure+Stratigraphy J|0770|Langbacka,B.O.+Gudmundsson,A.|Extensional tectonics in the vicinity of a transform fault in north Iceland||Tectonics:14:2:1995:294-306|Transform fault+Iceland+Tectonics+Dike J|0771|Keen,C.E.+Potter,D.P.|The transition from a volcanic to a nonvolcanic rifted margin off eastern Canada||Tectonics:14:2:1995:359-371|Dipping reflector+Eastern Canada+Marine seismic investigation+Continental margin J|0772|Srivastava,S.P.+Keen,C.E.|A deep seismic reflection profile across the extinct Mid-Labrador Sea spreading center||Tectonics:14:2:1995:372-389|Labrador Sea+Deep seismic sounding+Spreading centre+Gravity J|0773|Withjack,M.O.+Olsen,P.E.+Schlische,R.W.|Tectonic evolution of the Fundy rift basin, Canada: evidence of extension and shortening during passive margin development||Tectonics:14:2:1995:390-405|Canada+Tectonics+Reflexion study+Basin J|0774|McBride,J.H.|Does the Great Glen fault really disrupt Moho and upper mantle structure?||Tectonics:14:2:1995:422-434|Upper mantle+Moho+BIRPS+Great Glen fault J|0775|Korja,A.+Heikkinen,P.J.|Proterozoic extensional tectonics of the central Fennoscandian Shield: results from the Baltic and Bothnian Echoes from the Lithosphere experiment||Tectonics:14:2:1995:504-517|Fennoscandia+BABEL+Tectonics+Crustal structure J|0776|Suarez,G.+Pardo,M.+Dominguez,J.+|The Limon, Costa Rica earthquake of April 22, 1991: back arc thrusting and collisional tectonics in a subduction environment||Tectonics:14:2:1995:518-530|Costa Rica+1991+Earthquake+Seismicity||#*COSTARICA91|#*COSTARICA91A|#*COSTARICA91B J|0777|Wilson,T.J.|Cenozoic transtension along the Transantarctic Mountains-West Antarctic rift boundary, southern Victoria Land, Antarctica||Tectonics:14:2:1995:531-545|Fault plane+Orientation+Antarctica J|0778|Bellier,O.+Zoback,M.L.|Recent state of stress change in the Walker Lane zone, western Basin and Range province, United States||Tectonics:14:3:1995:564-593|Basin & Range+Stress+Fault-slip+Historical earthquake J|0779|McCalpin,J.P.+Khromovskikh,V.S.|Holocene paleoseismicity of the Tunka fault, Baikal rift, Russia||Tectonics:14:3:1995:594-605|Palaeoseismicity+Baikalian Rift+Holocene+Fault J|0780|Malave,G.+Suarez,G.|Intermediate-depth seismicity in northern Colombia and western Venezuela and its relationship to Caribbean plate subduction||Tectonics:14:3:1995:617-628|Intermediate-depth earthquake+Seismicity+Caribbean Plate+Colombia+Venezuela+ISC||#*COLOMBIA73|#*COLOMBIA76|#*COLOMBIA80 J|0781|Spadini,G.+Cloetingh,S.+Bertotti,G.|Thermo-mechanical modeling of the Tyrrhenian Sea: lithospheric necking and kinematics of rifting||Tectonics:14:3:1995:629-644|Tyrrhenian Sea+Geotransect+Lithosphere+Modelling J|0782|Zampieri,D.|Tertiary extension in the southern Trento Platform, southern Alps, Italy||Tectonics:14:3:1995:645-657|Alps+Strike-slip+Faulting+Extension J|0783|Harrison,T.M.+Copeland,P.+Kidd,W.S.F.+|Activation of the Nyainqentanghla shear zone: implications for uplift of the southern Tibetan Plateau||Tectonics:14:3:1995:658-676|Tibet+Slip+Faulting+Chronology J|0784|Keen,C.E.+Potter,D.P.|Correction to `The transition from a volcanic to a nonvolcanic rifted margin off eastern Canada'||Tectonics:14:3:1995:753|Errata+Eastern Canada+Marine seismic investigation+Continental margin J|0785|Srivastava,S.P.+Keen,C.E.|Correction to `A deep seismic reflection profile across the extinct Mid-Labrador Sea spreading center'||Tectonics:14:3:1995:753|Errata+Labrador Sea+Deep seismic sounding+Spreading centre J|0786|Rundle,J.B.+Klein,W.|Dynamical segmentation and rupture patterns in a "toy" slider-block model for earthquakes||#NPG:2:2:1995:61-79|Model+Block+Earthquake+Simulation J|0787|Vogt,J.+Musson,R.M.W.+Stucchi,M.|Seismogeological and hydrological criteria for the new European macroseismic scale (MSK-92)||#NHZ:10:1-2:1994:1-6|MSK-Scale+Seismogeology+Europe+Hydrology J|0788|Susagna,T.+Roca,A.+Goula,X.+|Analysis of macroseismic and instrumental data for the study of the 19 November 1923 earthquake in the Aran Valley (central Pyrenees)||#NHZ:10:1-2:1994:7-17|Earthquake+1923+Pyrenees+Macroseismic data J|0789|Levret,A.+Backe,J.C.+Cushing,M.|Atlas of macroseismic maps for French earthquakes with their principal characteristics||#NHZ:10:1-2:1994:19-46|France+Map+Earthquake+Macroseismic data J|0790|Rotondi,R.+Meroni,F.+Zonno,G.|A different intensity recording for reducing the uncertainty in its assessment: an application to the completeness analysis of earthquake catalogues||#NHZ:10:1-2:1994:47-58|Intensity+Uncertainty+Earthquake catalogue J|0791|Cecic,I.|Macroseismic practice in Slovenia||#NHZ:10:1-2:1994:59-64|Slovenia+Macroseismic data+Data acquisition J|0792|Pantea,A.|Macroseismic intensity attenuation for crustal sources on Romanian territory and adjacent areas||#NHZ:10:1-2:1994:65-72|Romania+Attenuation+Macroseismicity+Shallow-focus earthquake J|0793|Jianu,D.+Pantea,A.|Application of a probabilistic model to Vrancea intermediate earthquakes||#NHZ:10:1-2:1994:73-77|Vrancea+Intermediate-depth earthquake+Hazard+Probability J|0794|Al-Tarazi,E.|Seismic hazard assessment in Jordan and its vicinity||#NHZ:10:1-2:1994:79-96|Jordan+Hazard+Map+Maximum acceleration J|0795|Schenk,V.+Schenkova,Z.+Gitis,V.G.|Features of geonomic prognostic functions for the maximum possible earthquake||#NHZ:10:1-2:1994:97-115|Maximum earthquake+Artificial intelligence+Modelling+Prediction J|0796|Gitis,V.G.+Petrova,E.N.+Pirogov,S.A.|Catastrophe chains: hazard assessment||#NHZ:10:1-2:1994:117-121|Catastrophe+Hazard+Mathematical model+Risk J|0797|Manic,M.|Analysis of nonstationary properties of ground motion recorded during the Montenegro earthquake of 15 April 1979||#NHZ:10:1-2:1994:123-138|Ground motion+Earthquake+1979+Yugoslavia||#*MONTENEGRAN J|0798|Zhizhin,M.+Gvishiani,A.+Rouland,D.+|Identification of a geological region for earthquakes using syntactic pattern recognition of seismograms||#NHZ:10:1-2:1994:139-147|Seismogram+Pattern recognition+Cluster analysis+Data base J|0799|Zahradnik,J.+Moczo,P.+Hron,F.|Blind prediction of the site effects at Ashigara Valley, Japan, and its comparison with reality||#NHZ:10:1-2:1994:149-170|Site effect+Prediction+Ground motion+Ashigara Valley J|0800|Schenk,V.+Schenkova,Z.+Kottnauer,P.|Seismogeological acceptance criteria for geological repositories for spent nuclear fuel||#NHZ:10:1-2:1994:171-180|Nuclear waste+Seismogeology+Bohemian Massif+Safety J|0801|Castellani,A.+Zembaty,Z.|Stochastic modeling of seismic surface rotations||#NHZ:10:1-2:1994:181-191|Stochastic model+Rotation+Ground motion J|0802|Arab,N.+Kazi,A.+Rieke,H.H.|Fractal geometry of faults in relation to the 12 October 1992 Cairo earthquake||#NHZ:10:3:1994:221-233|Earthquake+1992+Cairo+Fault||#*CAIRO92 J|0803|El-Sayed,A.+Wahlstrom,R.+Kulhanek,O.|Seismic hazard of Egypt||#NHZ:10:3:1994:247-259|Hazard+Egypt+Frequency-magnitude relation+Seismicity+ISC J|0804|Badawi,H.S.+Mourad,S.A.|Observations from the 12 October 1992 Dahshour earthquake in Egypt||#NHZ:10:3:1994:261-274|Earthquake+1992+Cairo+Damage||#*CAIRO92 J|0805|Scherbaum,F.+Palme,C.+Langer,H.|Model parameter optimization for site-dependent simulation of ground motion by simulated annealing: re-evaluation of the Ashigara Valley prediction experiment||#NHZ:10:3:1994:275-296|Simulated annealing+Ground motion+Ashigara Valley+Model J|0806|Panagiotopoulos,D.G.|Long-term earthquake prediction along the seismic zone of the Solomon Islands and New Hebrides based on the time- and magnitude-predictable model||#NHZ:11:1:1995:17-43|Prediction+Seismic zone+Solomon Islands+New Hebrides+Shallow earthquake J|0807|Castanos,H.+Lomnitz,C.|Unplanned and unforeseen effects of instabilities in the nature-society system as possible causes of earthquake disasters||#NHZ:11:1:1995:45-56|Disaster+Destructive earthquake+Instability+Vulnerability||#*MEXICOCITY|#*PERU70 J|0808|Montalto,A.|Seismic assessment of phreatic-explosion hazard at `La Fossa' volcano (Island of Vulcano, Italy)||#NHZ:11:1:1995:57-73|Volcanic tremor+Eruption+Italy+Monitoring J|0809|Smith,M.S.+Shepherd,J.B.|Potential Cauchy-Poisson waves generated by submarine eruptions of Kick 'em Jenny volcano||#NHZ:11:1:1995:75-94|Tsunami+Submarine eruption+Lesser Antilles+Volcano J|0810|Leonard,G.+Steinberg,D.M.+Rabinowitz,N.|Assessment of seismic hazard near faults of uncertain type: inter-plate versus intra-plate||#NHZ:11:2:1995:111-121|Hazard+Fault+Uncertainty+Scaling J|0811|Al-Homoud,A.S.+Husein,A.I.|Probabilistic assessment of seismic hazard of dam sites in Jordan||#NHZ:11:2:1995:123-134|Dam+Hazard+Jordan+Seismicity J|0812|Robertson,R.E.A.|An assessment of the risk from future eruptions of the Soufriere volcano of St. Vincent, West Indies||#NHZ:11:2:1995:163-191|Eruption+St. Vincent+Risk+Volcanic tremor J|0813|Dean,W.E.|Marketable risk permits for natural disaster mitigation||#NHZ:11:2:1995:193-201|Risk+Mitigation+Building code+Public policy J|0814|Teramo,A.+Stillitani,E.+Bottari,A.|On an anisotropic attenuation law of the macroseismic intensity||#NHZ:11:3:1995:203-221|Macroseismic intensity+Historical earthquake+Southern Italy+Anisotropy J|0815|Teramo,A.+Stillitani,E.+Bottari,A.|Anisotropic characterization of macroseismic field||#NHZ:11:3:1995:223-245|Macroseismicity+Anisotropy+Southern Italy+Attenuation J|0816|Karim,N.|Disasters in Bangladesh||#NHZ:11:3:1995:247-258|Natural disaster+Bangladesh+Vulnerability+Earthquake||#*BANGLADESH89 J|0817|Stillitani,E.+Bottari,A.+Teramo,A.|On macroseismic attenuation parameters in the comparison of theoretical seismic hazard maps for southern Calabria and eastern Sicily||#NHZ:11:3:1995:259-282|Southern Italy+Macroseismicity+Map+Hazard J|0818|Tang,X.M.+Reiter,E.C.+Burns,D.R.|A dispersive-wave processing technique for estimating formation shear velocity from dipole and Stoneley waveforms||#GPS:60:1:1995:19-28|Shear velocity+Waveform+Stoneley wave+Acoustic logging J|0819|Dong,W.+Toksoz,M.N.|Borehole seismic-source radiation pattern in transversely isotropic media||#GPS:60:1:1995:29-42|Borehole+Radiation pattern+Transversely isotropic medium+Down-hole source J|0820|Juhlin,C.|Imaging of fracture zones in the Finnsjon area, central Sweden, using the seismic reflection method||#GPS:60:1:1995:66-75|Imaging+Sweden+Fracture zone+Reflexion study J|0821|Rechtien,R.D.+Greeenfield,R.J.+Ballard,R.F.|Tunnel signature prediction for a cross-borehole seismic survey||#GPS:60:1:1995:76-86|Seismic survey+Cross-hole+Tunnel+Signature J|0822|Dvorkin,J.+Mavko,G.+Nur,A.|Squirt flow in fully saturated rocks||#GPS:60:1:1995:97-107|Velocity+Pore fluid+Rock+Flow J|0823|Berge,P.A.+Bonner,B.P.+Berryman,J.G.|Ultrasonic velocity-porosity relationships for sandstone analogs made from fused glass beads||#GPS:60:1:1995:108-119|Laboratory+Porosity+Sandstone+Velocity J|0824|Blair,D.P.|Soil-embedded detector mounts for seismic monitoring||#GPS:60:1:1995:120-133|Monitoring+Soil-structure interaction+Foundation+Detector J|0825|Drufuca,G.+Mazzotti,A.|Ambiguities in AVO inversion of reflections from a gas-sand||#GPS:60:1:1995:134-141|AVO+Gas sand+Inversion+Reflexion data J|0826|Liu,Z.+Bleistein,N.|Migration velocity analysis: theory and an iterative algorithm||#GPS:60:1:1995:142-153|Migration+Velocity+Layered medium+Algorithm J|0827|Takahashi,T.|Prestack migration using arrival angle information||#GPS:60:1:1995:154-163|Migration+Vertical seismic profiling+Imaging+Direction J|0828|Tieman,H.J.|Migration velocity analysis: accounting for the effects of lateral velocity variations||#GPS:60:1:1995:164-175|Migration+Velocity+Lateral variation+Interface J|0829|Blanch,J.O.+Robertsson,J.O.A.+Symes,W.W.|Modeling of a constant Q: methodology and algorithm for an efficient and optimally inexpensive viscoelastic technique||#GPS:60:1:1995:176-184|Q+Modelling+Viscoelastic medium+Technique J|0830|Chang,C-H.+Gardner,G.H.F.+McDonald,J.A.|Experimental observation of surface wave propagation for a transversely isotropic medium||#GPS:60:1:1995:185-190|Surface wave+Propagation+Transversely isotropic medium+Laboratory J|0831|Linville,A.F.+Meek,R.A.|A procedure for optimally removing localized coherent noise||#GPS:60:1:1995:191-203|Noise+Coherence+Algorithm+Filtering J|0832|Schoenberg,M.+Sayers,C.M.|Seismic anisotropy of fractured rock||#GPS:60:1:1995:204-211|Anisotropy+Rock+Fracture+Tensor J|0833|Amundsen,L.+Secrest,B.G.+Arntsen,B.|Extraction of the normal component of the particle velocity from marine pressure data||#GPS:60:1:1995:212-222|Marine seismic investigation+Pressure+Wavenumber domain+Configuration J|0834|Chung,H-M.+Lawton,D.C.|Amplitude responses of thin beds: sinusoidal approximation versus Ricker approximation||#GPS:60:1:1995:223-230|Ricker wavelet+Amplitude+Reflectivity+Thin layer J|0835|Amundsen,L.+Reitan,A.|Extraction of P- and S-waves from the vertical component of the particle velocity at the sea floor||#GPS:60:1:1995:231-240|Interface+Sea floor+Geophone+Wave field J|0836|Okaya,D.A.|Spectral properties of the earth's contribution to seismic resolution||#GPS:60:1:1995:241-251|Resolution+Spectral analysis+Interface+Reflectivity J|0837|Duren,R.E.+Heestand,R.L.|General solutions and causality for a Voigt medium||#GPS:60:1:1995:252-261|Voigt medium+Wave equation+Pulse+Compressional wave J|0838|Sundararajan,N.|2-D Hartley transforms||#GPS:60:1:1995:262-267|Hartley transform+Mathematical method+Fourier transform+Data processing J|0839|Tsvankin,I.|Normal moveout from dipping reflectors in anisotropic media||#GPS:60:1:1995:268-284|Moveout+Dipping reflector+Anisotropic medium+Velocity J|0840|Peng,C.+Toksoz,M.N.|An optimal absorbing boundary condition for elastic wave modeling||#GPS:60:1:1995:296-301|Absorbing boundary+Modelling+Elastic wave+Reflexion coefficient|Short note J|0841|Furumura,T.+Takenaka,H.|A wraparound elimination technique for the pseudospectral wave synthesis using an antiperiodic extension of the wavefield||#GPS:60:1:1995:302-307|Technique+Wave field+Fourier analysis+Periodicity|Short note J|0842|Ursin,B.+Ekren,B.O.|Robust AVO analysis||#GPS:60:2:1995:317-326|AVO+Moveout+Correction+Data analysis J|0843|Dai,N.+Vafidis,A.+Kanasewich,E.R.|Wave propagation in heterogeneous, porous media: a velocity-stress, finite-difference method||#GPS:60:2:1995:327-340|Propagation+Finite difference method+Porous medium+Biot theory J|0844|Miao,X-G.+Moon,W.M.+Milkereit,B.|A multioffset, three-component VSP study in the Sudbury Basin||#GPS:60:2:1995:341-353|Sudbury structure+Vertical seismic profiling+Borehole+Velocity J|0845|Lines,L.+Tan,H.+Treitel,S.+|Integrated reservoir characterization: beyond tomography||#GPS:60:2:1995:354-364|Reservoir+Tomography+Oil field+Seismic survey J|0846|Kepic,A.W.+Maxwell,M.+Russell,R.D.|Field trials of a seismoelectric method for detecting massive sulfides||#GPS:60:2:1995:365-373|Prospecting+Seismoelectric effect+Field work+Ore J|0847|Miller,R.D.+Anderson,N.L.+Feldman,H.R.+|Vertical resolution of a seismic survey in stratigraphic sequences less than 100 m deep in southeastern Kansas||#GPS:60:2:1995:423-430|Resolution+Reflexion study+Seismostratigraphy+Common depth point J|0848|Bryant,S.+Raikes,S.|Prediction of elastic-wave velocities in sandstones using structural models||#GPS:60:2:1995:437-446|Elastic wave+Velocity+Sandstone+Model J|0849|Klimentos,T.|Attenuation of P- and S-waves as a method of distinguishing gas and condensate from oil and water||#GPS:60:2:1995:447-458|Attenuation+Well-log+Gas+Pore fluid J|0850|Kneib,G.+Shapiro,S.A.|Viscoacoustic wave propagation in 2-D random media and separation of absorption and scattering attenuation||#GPS:60:2:1995:459-467|Viscoacoustic medium+Attenuation+Propagation+Absorption+Scattering J|0851|Zinni,E.V.|Subsurface fault detection using seismic data for hazardous-waste-injection well permitting: an example from St. John the Baptist Parish, Louisiana||#GPS:60:2:1995:468-475|Waste dump+Buried fault+Aquifer+Fluid injection J|0852|Chavent,G.+Jacewitz,C.A.|Determination of background velocities by multiple migration fitting||#GPS:60:2:1995:476-490|Migration+Velocity+Stack+Common-shot data J|0853|Mao,W.J.+Gubbins,D.|Simultaneous determination of time delays and stacking weights in seismic array beamforming||#GPS:60:2:1995:491-502|Delay+Stacking+Inversion+Array||#*KERMADEC91 J|0854|Li,X-P.+Sollner,W.+Hubral,P.|Elimination of harmonic distortion in vibroseis data||#GPS:60:2:1995:503-516|Harmonic distortion+Vibroseis+Filter+Correlation J|0855|Zhong,B.+Zhou,X.+Liu,X.+|A new strategy for CCP stacking||#GPS:60:2:1995:517-521|Stacking+Moveout+Converted wave+Reflector J|0856|Carcione,J.M.+Cavallini,F.|Forbidden directions for inhomogeneous pure shear waves in dissipative anisotropic media||#GPS:60:2:1995:522-530|Anisotropic medium+Shear wave+Inhomogeneous wave+Direction J|0857|Carcione,J.M.|Constitutive model and wave equations for linear, viscoelastic, anisotropic media||#GPS:60:2:1995:537-548|Wave equation+Anisotropic medium+Model+Anelasticity J|0858|Carcione,J.M.+Cavallini,F.|The generalized SH-wave equation||#GPS:60:2:1995:549-555|SH-wave+Wave equation+Anisotropic medium+Dissipation J|0859|Stockwell,J.W.|2.5-D wave equations and high-frequency asymptotics||#GPS:60:2:1995:556-562|Wave equation+High frequency+Operator+Asymptotics J|0860|Amundsen,L.+Reitan,A.|Decomposition of multicomponent sea-floor data into upgoing and downgoing P- and S-waves||#GPS:60:2:1995:563-572|Decomposition+P-wave+S-wave+Marine seismic investigation J|0861|Schneider,W.A.+Phillip,L.D.+Paal,E.F.|Wave-equation velocity replacement of the low-velocity layer for overthrust-belt data||#GPS:60:2:1995:573-579|Low-velocity layer+Wave equation+Imaging+Common midpoint J|0862|Gelius,L-J.|Limited-view diffraction tomography in a nonuniform background||#GPS:60:2:1995:580-588|Diffraction+Tomography+Algorithm+Asymptotic wave theory J|0863|Williamson,P.R.+Pratt,R.G.|A critical review of acoustic wave modeling procedures in 2.5 dimensions||#GPS:60:2:1995:591-595|Acoustic wave+Modelling+Wave equation+Filter|Short note J|0864|Mars,J.+Rector,J.W.|Discussion on `Linear and parabolic tau-p transforms revisited' by B. Zhou and S. A. Greenhalgh||#GPS:60:2:1995:611-613|Comments+Tau-p transform+Deconvolution+Mathematical method|With a reply by the authors and a further response J|0865|Rector,J.W.|Crosswell methods: where are we, where are we going?||#GPS:60:2:1995:629-630|Cross-hole+Imaging+Seismic prospecting+Well|Foreword to Special Issue J|0866|Mathisen,M.E.+Vassiliou,A.A.+Cunningham,P.+|Time-lapse crosswell seismic tomogram interpretation: implications for heavy oil reservoir characterization, thermal recovery process monitoring, and tomographic imaging technology||#GPS:60:3:1995:631-650|Cross-hole+Oil field+Seismic survey+Tomogram J|0867|Mathisen,M.E.+Cunningham,P.+Shaw,J.+|Crosswell seismic radial survey tomograms and the 3-D interpretation of a heavy oil steamflood||#GPS:60:3:1995:651-659|Cross-hole+Oil sand+Well+Tomogram J|0868|Lee,D.S.+Stevenson,V.M.+Johnston,P.F.+|Time-lapse crosswell seismic tomography to characterize flow structure in the reservoir during the thermal stimulation||#GPS:60:3:1995:660-666|Cross-hole+Tomography+Reservoir+Velocity J|0869|Harris,J.M.+Nolen-Hoeksema,R.C.+Langan,R.T.+|High-resolution crosswell imaging of a west Texas carbonate reservoir: part 1-project summary and interpretation||#GPS:60:3:1995:667-681|Cross-hole+Imaging+Reservoir+Reflexion data J|0870|Schaack,M.V.+Harris,J.M.+Rector,J.W.+|High-resolution crosswell imaging of a west Texas carbonate reservoir: part 2-wavefield modeling and analysis||#GPS:60:3:1995:682-691|Cross-hole+Imaging+Wave field+Reservoir J|0871|Rector,J.W.+Lazaratos,S.K.+Harris,J.M.+|High-resolution crosswell imaging of a west Texas carbonate reservoir: part 3-wavefield separation of reflections||#GPS:60:3:1995:692-701|Cross-hole+Imaging+Reservoir+Reflexion data J|0872|Lazaratos,S.K.+Harris,J.M.+Rector,J.W.+|High-resolution crosswell imaging of a west Texas carbonate reservoir: part 4-reflection imaging||#GPS:60:3:1995:702-711|Cross-hole+Imaging+Reservoir+Reflexion J|0873|Nolen-Hoeksema,R.C.+Wang,Z.+Harris,J.M.+|High-resolution crosswell imaging of a west Texas carbonate reservoir: part 5-core analysis||#GPS:60:3:1995:712-726|Cross-hole+Imaging+Reservoir+Velocity J|0874|Lee,D.S.+Lazaratos,S.K.+Fitzgerald,G.N.+|High-resolution crosswell seismic experiment with a large interwell spacing in a west Texas carbonate field||#GPS:60:3:1995:727-734|High resolution+Cross-hole+Well+Noise J|0875|Dong,W.+Bouchon,M.+Toksoz,M.N.|Borehole seismic-source radiation in layered isotropic and anisotropic media: boundary element modeling||#GPS:60:3:1995:735-747|Borehole+Layered medium+Boundary element method+Source J|0876|Dong,W.+Toksoz,M.N.|Borehole seismic-source radiation in layered isotropic and anisotropic media: real data analysis||#GPS:60:3:1995:748-757|Borehole+Layered medium+Data analysis+Source J|0877|Lee,D.S.+Lazaratos,S.K.+Walden,A.F.|Crosswell seismic study in a seismically poor data area||#GPS:60:3:1995:758-764|Cross-hole+Tomogram+Reservoir+Imaging J|0878|Zhou,C.+Cai,W.+Luo,Y.+|Acoustic wave-equation traveltime and waveform inversion of crosshole seismic data||#GPS:60:3:1995:765-773|Cross-hole+Inversion+Tomogram+Velocity J|0879|Michelena,R.J.+Harris,J.M.+Muir,F.|Crosswell tomographic estimation of elastic constants in heterogeneous transversely isotropic media||#GPS:60:3:1995:774-783|Cross-hole+Tomography+Transversely isotropic medium+Velocity-depth function J|0880|Song,Z-M.+Williamson,P.R.|Frequency-domain acoustic-wave modeling and inversion of crosshole data: part I--2.5-D modeling method||#GPS:60:3:1995:784-795|Cross-hole+Frequency domain+Inversion+Modelling J|0881|Song,Z-M.+Williamson,P.R.+Pratt,R.G.|Frequency-domain acoustic-wave modeling and inversion of crosshole data: part II--inversion method, synthetic experiments and real-data results||#GPS:60:3:1995:796-809|Cross-hole+Frequency domain+Inversion+Acoustic wave J|0882|Sun,J.|3-D crosswell transmissions: paraxial ray solutions and reciprocity paradox||#GPS:60:3:1995:810-820|Cross-hole+Ray theory+Transmission+Matrix J|0883|Mufti,I.R.|Pitfalls in crosshole seismic interpretation as a result of 3-D effects||#GPS:60:3:1995:821-833|Cross-hole+Reservoir+Wave field+Interpretation J|0884|Vermeer,G.J.O.|Discussion on `3-D true-amplitude finite-offset migration' by J. Schleicher, M. Tygel and P. Hubral||#GPS:60:3:1995:921-923|Comments+Migration+Reflexion+Common midpoint|With a reply by the authors J|0885|Gibson,R.L.+Peng,C.|Errata to `Low- and high-frequency radiation from seismic sources in cased boreholes'||#GPS:60:3:1995:923|Errata+Borehole+Radiation+Source J|0886|Atwater,B.F.+Nelson,A.R.+Clague,J.J.+|Summary of coastal geologic evidence for past great earthquakes at the Cascadia subduction zone||Earthq. Spectra:11:1:1995:1-18|Cascadia subduction zone+Coast+Prehistoric earthquake+Geological data J|0887|Eberhard,M.O.+Meigs,B.E.|Earthquake-resisting system selection statistics for reinforced concrete buildings||Earthq. Spectra:11:1:1995:19-36|Building+Reinforced concrete+Earthquake-resistant design+Statistics J|0888|Jones,N.P.+Thorvaldsdottir,S.+Liu,A.+|Evaluation of a loss estimation procedure based on data from the Loma Prieta earthquake||Earthq. Spectra:11:1:1995:37-61|Loma Prieta+Earthquake+1989+Loss||#*LOMAPRIETA89 J|0889|Marsh,M.L.+Gianotti,C.M.|Inelastic structural response to Cascadia subduction zone earthquakes||Earthq. Spectra:11:1:1995:63-89|Structural response+Cascadia subduction zone+Inelasticity+Duration J|0890|Naeim,F.|On seismic design implications of the 1994 Northridge earthquake records||Earthq. Spectra:11:1:1995:91-109|Los Angeles+Earthquake+1994+Strong-motion record||#*NORTHRIDGE94 J|0891|Naeim,F.+Lew,M.|On the use of design spectrum compatible time histories||Earthq. Spectra:11:1:1995:111-127|Time history+Spectrum+Earthquake-resistant design+Frequency domain J|0892|Rizzo,P.C.+Vaidya,N.R.+Bazan,E.+|Seismic hazard assessment in the southeastern United States||Earthq. Spectra:11:1:1995:129-160|Southeastern United States+Hazard+Spectrum+Distance||#*SAGUENAY88 J|0893|Foliente,G.C.|Discussion of `Narrow plywood shear panels' by B. L. Schmid, R. J. Nielsen and R. R. Linderman||Earthq. Spectra:11:1:1995:161-166|Comments+Wooden construction+Wall+Building code|With a reply by one of the authors J|0894|Gaull,B.A.+Kagami,H.+Taniguchi,H.|The microzonation of Perth, Western Australia, using microtremor spectral ratios||Earthq. Spectra:11:2:1995:173-191|Western Australia+Spectral ratio+Microzoning+Microtremor||#*INDONESIAN J|0895|Huang,M.J.+Shakal,A.F.|CSMIP strong-motion instrumentation and records from the I10/215 interchange bridge near San Bernardino||Earthq. Spectra:11:2:1995:193-215|Instrumentation+Bridge+Strong-motion record+Earthquake||#*LANDERS92|#*BIGBEAR92 J|0896|McNamara,R.J.|Seismic damage control with passive energy devices: a case study||Earthq. Spectra:11:2:1995:217-232|Damper+Mitigation+Earthquake-resistant design+Base isolation system J|0897|Pacheco,J.F.+Singh,S.K.|Estimation of ground motions in the Valley of Mexico from normal-faulting, intermediate-depth earthquakes in the subducted Cocos plate||Earthq. Spectra:11:2:1995:233-247|Ground motion+Intermediate-depth earthquake+Mexico+Normal fault J|0898|Pekcan,G.+Mander,J.B.+Chen,S.S.|The seismic response of a 1:3 scale model R.C. structure with elastomeric spring dampers||Earthq. Spectra:11:2:1995:249-267|Reinforced concrete+Damper+Structural response+Shake table J|0899|Wen,Y.K.|Building reliability and code calibration||Earthq. Spectra:11:2:1995:269-296|Building+Reliability+Building code+Design J|0900|Whitman,R.V.|Toward a strategic plan for the National Earthquake Risk Reduction Program||Earthq. Spectra:11:2:1995:299-317|Planning+Mitigation+Earthquake+Risk J|0901|Williams,M.S.+Sexsmith,R.G.|Seismic damage indices for concrete structures: a state-of-the-art review||Earthq. Spectra:11:2:1995:319-349|Damage+Concrete+Hysteresis+Vulnerability J|0902|Keilis-Borok,V.I.+Rotwain,I.M.|Diagnosis of times of increased probability (TIPs) for strong earthquakes in northern Appalachians||Comput. Seism. Geodyn.:1:-:1994:1-5|Appalachians+Strong earthquake+Probability+Prediction J|0903|Kossobokov,V.G.+Mazhkenov,S.A.|On similarity in the spatial distribution of seismicity||Comput. Seism. Geodyn.:1:-:1994:6-15|Spatial distribution+Global seismicity+Gutenberg & Richter+Recurrence J|0904|Kossobokov,V.G.+Mazhkenov,S.A.|Times of increased probability of large earthquakes in the eastern Tien Shan diagnosed by the M8 algorithm||Comput. Seism. Geodyn.:1:-:1994:16-19|Tien Shan+Algorithm+Probability+Large earthquake J|0905|Narkunskaya,G.S.+Shnirman,M.G.|On an algorithm of earthquake prediction||Comput. Seism. Geodyn.:1:-:1994:20-24|Algorithm+Prediction+Zoning+Frequency-magnitude relation J|0906|Bhatia,S.C.+Chalam,S.V.+Gaur,V.K.+|Diagnosing time periods of increased probability of large earthquake occurrence in the Himalayan seismic belt using the CN algorithm||Comput. Seism. Geodyn.:1:-:1994:25-30|Large earthquake+Probability+Himalayas+Algorithm J|0907|Prozorov,A.G.|An earthquake prediction algorithm for the Pamir and Tien Shan region based on a combination of long-range aftershocks and quiescent periods||Comput. Seism. Geodyn.:1:-:1994:31-35|Prediction+Pamir+Tien Shan+Quiescence+Aftershock J|0908|Markushevich,V.M.|Pekeris substitution and some spectral properties of the Rayleigh boundary value problem||Comput. Seism. Geodyn.:1:-:1994:63-69|Rayleigh wave+Boundary condition+Mathematical method+Spectral characteristics J|0909|Markushevich,V.M.|Representation of matrix potentials in the Rayleigh wave equation by a symmetric matrix||Comput. Seism. Geodyn.:1:-:1994:70-73|Matrix+Rayleigh wave+Inversion+Mathematical method J|0910|Fedorov,V.E.+Markushevich,V.M.|Wavenumbers in the problem of vibrations of a liquid layer on an elastic half-space||Comput. Seism. Geodyn.:1:-:1994:74-79|Wavenumber+Vibration+Half-space+Liquid+Layer J|0911|Kiryushin,A.V.|On estimation of source parameters from amplitude spectra of surface waves||Comput. Seism. Geodyn.:1:-:1994:80-86|Surface wave+Seismic moment tensor+Source parameter+Spectral amplitude J|0912|Gerver,M.L.|Comparison theorems for the one-dimensional kinematic inverse problem||Comput. Seism. Geodyn.:1:-:1994:87-94|Inverse problem+Wave guide+Kinematics+Velocity-depth function J|0913|Molchan,G.M.|On feasibility of frequency resolution in spectral analysis||Comput. Seism. Geodyn.:1:-:1994:95-107|Spectral analysis+Resolution+Frequency+Mathematical analysis J|0914|Kushnir,A.F.+Pinsky,V.I.+Pisarenko,V.F.+|Optimal detection of seismic signals based on array data||Comput. Seism. Geodyn.:1:-:1994:118-128|Detection+Array+Signal+Noise J|0915|Gulko,E.A.+Kushnir,A.F.+Troitsky,P.A.|Statistical optimization of seismic holography for array data processing||Comput. Seism. Geodyn.:1:-:1994:129-140|Holography+Array+Data processing+Algorithm J|0916|Gorshkov,A.I.+Tumarkin,A.G.+Filimonov,M.B.+|Recognition of earthquake-prone areas. XVI. General criteria of moderate seismicity in four regions of the Mediterranean belt (M >= 5.0)||Comput. Seism. Geodyn.:1:-:1994:141-148|Mediterranean+Seismicity+Pattern recognition+Regional study J|0917|Filimonov,M.B.+Tumarkin,A.G.+Zhidkov,M.P.|Recognition of earthquake-prone areas. XVII. Mountain belt of South American Andes||Comput. Seism. Geodyn.:1:-:1994:149-155|Andes+Pattern recognition+Hypocentre+Large earthquake J|0918|Molchan,G.M.|Models for optimization of earthquake prediction||Comput. Seism. Geodyn.:2:-:1994:1-10|Model+Prediction+Warning+Loss J|0919|Lyubushin,A.A.|A model of seismicity in a block medium||Comput. Seism. Geodyn.:2:-:1994:11-15|Model+Block+Seismic process+Shallow-focus earthquake J|0920|Gertzik,V.M.|Dynamic equations for seismogenic solid medium||Comput. Seism. Geodyn.:2:-:1994:16-21|Dynamics+Crack+Seismogenesis+Stress field J|0921|Geilikman,M.B.|Slow sliding of nonhomogeneous rough surfaces||Comput. Seism. Geodyn.:2:-:1994:22-26|Sliding+Inhomogeneous medium+Friction+Instability J|0922|Vorobyeva,I.A.+Levshina,T.A.|Prediction of a second large earthquake based on aftershock sequence||Comput. Seism. Geodyn.:2:-:1994:27-36|Prediction+Large earthquake+Aftershock+Sequence J|0923|Blanter,E.M.+Shnirman,M.G.|On multifractal theory approach to the clustering of epicenters||Comput. Seism. Geodyn.:2:-:1994:37-45|Clustering+Southern California+Fractal analysis+Seismic process J|0924|Tumarkin,A.G.+Shnirman,M.G.|Critical effects in hierarchical media||Comput. Seism. Geodyn.:2:-:1994:46-49|Defect+Model+Seismogenesis J|0925|Volynets,L.N.+Voevoda,O.D.|Deformations of a free boundary caused by an internal fault||Comput. Seism. Geodyn.:2:-:1994:50-57|Surface deformation+Topography+Buried fault+Half-space J|0926|Voevoda,O.D.+Volynets,L.N.|The topography of the ground surface and postseismic displacements||Comput. Seism. Geodyn.:2:-:1994:58-63|Displacement+Topography+Perturbation theory+Buried fault J|0927|Ismail-Zadeh,A.T.|Gravitational instability and propagation of tectonic waves in a two-layer model of the upper mantle||Comput. Seism. Geodyn.:2:-:1994:76-80|Upper mantle+Trigger+Instability+Gravitation J|0928|Markushevich,V.M.+Tsemahman,A.S.|Rayleigh waves in D-constant media at characteristic frequencies. I. Poissonian media||Comput. Seism. Geodyn.:2:-:1994:114-118|Matrix+Rayleigh wave+Frequency+Poissonian medium J|0929|Markushevich,V.M.+Steblov,G.M.+Tsemahman,A.S.|Rayleigh waves in D-constant media at characteristic frequencies. II. Non-Poissonian media||Comput. Seism. Geodyn.:2:-:1994:119-126|Elastic medium+Rayleigh wave+Frequency+Matrix J|0930|Markushevich,V.M.+Nyland,E.+Tsemahman,A.S.|Dispersion of Rayleigh waves in Zvolinskii's media. Poissonian case||Comput. Seism. Geodyn.:2:-:1994:127-133|Rayleigh wave+Dispersion+Elastic medium+Frequency J|0931|Markushevich,V.M.+Tsemahman,A.S.|Determination of seismic signal velocity from tau function for a class of anisotropic media||Comput. Seism. Geodyn.:2:-:1994:134-138|Anisotropic medium+Velocity+Ray tracing+Propagation J|0932|Yanovskaya,T.B.|A uniform asymptotic representation of a reflected wave in an elastic medium||Comput. Seism. Geodyn.:2:-:1994:139-143|Elastic medium+Reflected wave+Reflexion coefficient+Asymptotics J|0933|Roslov,Yu.V.+Yanovskaya,T.B.|A ray method for calculating wave fields reflected from transition layers||Comput. Seism. Geodyn.:2:-:1994:144-149|Ray theory+Wave field+Transition zone+Reflexion J|0934|Brodov,L.Yu.+Loctsik,V.V.+Markushevich,V.M.+|Monochromatic sounding of the upper part of a velocity profile by a horizontal vibrator||Comput. Seism. Geodyn.:2:-:1994:150-155|Sounding+Vibrator+SH-wave+Velocity profile J|0935|Bukchin,B.G.+Levshin,A.L.+Ratnikova,L.I.+|Estimation of spatio-temporal source parameter for the 1988 Spitak, Armenia, earthquake from broadband surface wave records||Comput. Seism. Geodyn.:2:-:1994:156-161|Spitak+Earthquake+1988+Source parameter||#*ARMENIA88 J|0936|Kushnir,A.F.|Identification of linear dynamic systems as a statistical problem involving nuisance parameters||Comput. Seism. Geodyn.:2:-:1994:175-183|Statistical method+Noise+Asymptotics+Data processing J|0937|Gudmundsson,A.|Infrastructure and mechanics of volcanic systems in Iceland||#JVG:64:1-2:1995:1-22|Iceland+Volcanism+Normal fault+Magma J|0938|Deplus,C.+Bonvalot,S.+Dahrin,D.+|Inner structure of the Krakatau volcanic complex (Indonesia) from gravity and bathymetry data||#JVG:64:1-2:1995:23-52|Gravity+Bathymetry+Indonesia+Microseismicity+Volcano J|0939|Cornelius,R.R.+Voight,B.|Graphical and PC-software analysis of volcano eruption precursors according to the Materials Failure Forecast Method (FFM)||#JVG:64:3-4:1995:295-320|Precursor+Eruption+Monitoring+Numerical method J|0940|Jimenez,Z.+Reyes,G.+Espindola,J.M.|The July 1994 episode of seismic activity at Colima Volcano, Mexico||#JVG:64:3-4:1995:321-326|Colima+Seismicity+1994+Eruption|Short communication J|0941|Ohmi,S.+Lees,J.M.|Three-dimensional P- and S-wave velocity structure below Unzen volcano||#JVG:65:1-2:1995:1-26|Velocity structure+Unzen Volcano+P-wave+S-wave J|0942|Foulger,G.R.|The Hengill geothermal area, Iceland: variation of temperature gradients deduced from the maximum depth of seismogenesis||#JVG:65:1-2:1995:119-133|Iceland+Seismogenic zone+Seismicity+Temperature+Depth J|0943|Lesage,Ph.+Surono|Seismic precursors of the February 10, 1990 eruption of Kelut volcano, Java||#JVG:65:1-2:1995:135-146|Precursor+Eruption+1990+Java J|0944|Wei,B-Z.+Chung,W-Y.|Strike-slip faulting on the northern margin of the South China Sea: evidence from two earthquakes offshore of Hainan Island, China, in December 1969||#TCT:241:1-2:1995:55-66|Earthquake+1969+Hainan Island+Focal mechanism J|0945|Abbate,E.+Passerini,P.+Zan,L.|Strike-slip faults in a rift area: a transect in the Afar Triangle, East Africa||#TCT:241:1-2:1995:67-97|Afar+Strike-slip+Faulting+Geotransect J|0946|Herak,D.+Herak,M.|Body-wave velocities in the circum-Adriatic region||#TCT:241:1-2:1995:121-141|Body wave+Velocity structure+Adriatic+Station correction J|0947|O'Reilly,B.M.+Hauser,F.+Jacob,A.W.B.+|The transition between the Erris and the Rockall basins: new evidence from wide-angle seismic data||#TCT:241:1-2:1995:143-163|Western Approaches+Basin+Refraction study+Crustal structure J|0948|Dessai,A.G.+Bertrand,H.|The "Panvel Flexure" along the western Indian continental margin: an extensional fault structure related to Deccan magmatism||#TCT:241:1-2:1995:165-178|Deccan+Continental margin+Magmatism+Crustal flexure J|0949|Assameur,D.M.+Mareschal,J-C.|Stress induced by topography and crustal density heterogeneities: implication for the seismicity of southeastern Canada||#TCT:241:3-4:1995:179-192|Seismicity+Southeastern Canada+Stress+Heterogeneity J|0950|Berberian,M.|Master "blind" thrust faults hidden under the Zagros folds: active basement tectonics and surface morphotectonics||#TCT:241:3-4:1995:193-224|Zagros Mountains+Buried fault+Tectonics+Earthquake+ISC||#*QIR|#*KHURGU J|0951|Kulakov,I.Yu.+Tychkov,S.A.+Keselman,S.I.|Three-dimensional structure of lateral heterogeneities in P velocities in the upper mantle of the southern margin of Siberia and its preliminary geodynamic interpretation||#TCT:241:3-4:1995:239-257|Lateral heterogeneity+P-wave+Upper mantle+Siberia+ISC J|0952|Schnurle,P.+Lallemand,S.E.+Von Huene,R.+|Tectonic regime of the southern Kurile Trench as revealed by multichannel seismic lines||#TCT:241:3-4:1995:259-277|Reflexion study+Kuril Trench+Tectonics J|0953|Ye,S.+Ansorge,J.+Kissling,E.+|Crustal structure beneath the eastern Swiss Alps derived from seismic refraction data||#TCT:242:3-4:1995:199-221|Swiss Alps+European Geotraverse Project+Crustal structure+Refraction data J|0954|Mohan,G.+Rai,S.S.|Large-scale three-dimensional tomography of the Zagros and Pamir-Hindukush regions||#TCT:242:3-4:1995:255-265|Tomography+Eurasia+Travel-time residual+Deep structure+ISC J|0955|Chung,W-Y.+Gao,H.|Source parameters of the Anjar earthquake of July 21, 1956, India, and its seismotectonic implications for the Kutch rift basin||#TCT:242:3-4:1995:281-292|Source parameter+Intraplate earthquake+1956+India J|0956|Obata,M.+Karato,S-I.|Ultramafic pseudotachylite from the Balmuccia peridotite, Ivrea-Verbano zone, northern Italy||#TCT:242:3-4:1995:313-328|Pseudotachylyte+Northern Italy+Mechanism+Rock mechanics J|0957|Chelidze,T.|Review of `Applications of percolation theory' by M. Sahimi||#TCT:242:3-4:1995:329-330|Review+Percolation+Gutenberg & Richter+Fracture|Taylor & Francis, London, 1994, 258pp J|0958|Kiratzi,A.A.+Papazachos,C.B.|Active crustal deformation from the Azores triple junction to the Middle East||#TCT:243:1-2:1995:1-24|Crustal deformation+Fault plane solution+Middle East+Mediterranean+Atlantic+ISC J|0959|Albarello,D.+Mantovani,E.+Babbucci,D.+|Africa-Eurasia kinematics: main constraints and uncertainties||#TCT:243:1-2:1995:25-36|Africa+Eurasia+Kinematics+Block J|0960|Tortorici,L.+Monaco,C.+Tansi,C.+|Recent and active tectonics in the Calabrian arc (southern Italy)||#TCT:243:1-2:1995:37-55|Calabria+Tectonics+Seismicity+Normal fault J|0961|Zhang,Y.Q.+Vergely,P.+Mercier,J.L.|Active faulting in and along the Qinling Range (China) inferred from SPOT imagery analysis and extrusion tectonics of south China||#TCT:243:1-2:1995:69-95|Faulting+China+Slip+Tectonics J|0962|Neugebauer,J.|Structures and kinematics of the North Anatolian Fault zone, Adapazari-Bolu region, northwest Turkey||#TCT:243:1-2:1995:119-134|Anatolia+Fault zone+Rupture+Kinematics J|0963|Rangin,C.+Klein,M.+Roques,D.+|The Red River fault system in the Tonkin Gulf, Vietnam||#TCT:243:3-4:1995:209-222|Vietnam+Fault zone+Profile+Evolution J|0964|Pavlenkova,N.I.|Structural regularities in the lithosphere of continents and plate tectonics||#TCT:243:3-4:1995:223-239|Continental lithosphere+Plate tectonics+Velocity structure+Evolution J|0965|Ishida,M.|The seismically quiescent boundary between the Philippine Sea plate and the Eurasian plate in central Japan||#TCT:243:3-4:1995:241-253|Quiescence+Japan+Plate boundary+Hypocentre J|0966|Carbonell,R.+Smithson,S.B.|The bright Moho reflection in the 1986 Nevada PASSCAL seismic experiment||#TCT:243:3-4:1995:255-276|PASSCAL+Moho+Reflexion study+Nevada J|0967|Coudert,L.+Frappa,M.+Viguier,C.+|Tectonic subsidence and crustal flexure in the Neogene Chaco basin of Bolivia||#TCT:243:3-4:1995:277-292|Bolivia+Geophysical investigation+Basin+Evolution J|0968|Balling,N.|Heat flow and thermal structure of the lithosphere across the Baltic Shield and northern Tornquist Zone||#TCT:244:1-3:1995:13-50|Baltic Shield+Heat flow+Lithosphere+Velocity structure J|0969|Cermak,V.|A geothermal model of the Central Segment of the European Geotraverse||#TCT:244:1-3:1995:51-55|European Geotraverse Project+Thermal model+Crust+Velocity-depth function|Extended abstract J|0970|Furlong,K.P.+Spakman,W.+Wortel,R.|Thermal structure of the continental lithosphere: constraints from seismic tomography||#TCT:244:1-3:1995:107-117|Thermal structure+Continental lithosphere+Tomography+Velocity J|0971|Kukkonen,I.T.|Thermal aspects of groundwater circulation in bedrock and its effect on crustal geothermal modelling in Finland, the central Fennoscandian Shield||#TCT:244:1-3:1995:119-136|Crust+Thermal model+Finland+Groundwater J|0972|Ilkisik,O.M.|Regional heat flow in western Anatolia using silica temperature estimates from thermal springs||#TCT:244:1-3:1995:175-184|Heat flow+Anatolia+Seismicity+Thermal spring J|0973|Wong,H.K.+Ludmann,T.+Ulug,A.+|The Sea of Marmara: a plate boundary sea in an escape tectonic regime||#TCT:244:4:1995:231-250|Marmara Sea+Plate boundary+Fault zone+Marine seismic investigation J|0974|Gupta,H.K.+Khanal,K.N.+Upadhyay,S.K.+|Verification of magnitudes of Himalayan region earthquakes of 1903-1985 from Gottingen observatory||#TCT:244:4:1995:267-284|Himalayas+1903-1985+Magnitude+Earthquake catalogue J|0975|Shamir,G.+Eyal,Y.|Elastic modeling of fault-driven monoclinal fold patterns||#TCT:245:1-2:1995:13-24|Buried fault+Dip-slip+Modelling+Israel J|0976|Zhou,H.+Ding,R.|Study of the characteristics of crustal stress field in East China by inversion of nodal-plane data||#TCT:245:1-2:1995:53-59|East China+Stress field+Crust+Nodal plane||#*TANGSHAN|#*HAICHENG J|0977|Aplonov,S.V.|The tectonic evolution of West Siberia: an attempt at a geophysical analysis||#TCT:245:1-2:1995:61-84|West Siberia+Moho+Tectonics+Crust J|0978|Kagan,Y.Y.|Comment on `Magnitude-frequency distribution in the European-Mediterranean earthquake regions' by V. Karnik and K. Klima||#TCT:245:1-2:1995:101-110|Comments+Frequency-magnitude relation+Europe+Mediterranean|With a reply by the authors J|0979|Shi,Y.+Lu,H.+Wu,S.|Review of `The inaccessible Earth, an integrated view to its structure and composition' by G. C. Brown and A. E. Mussett||#TCT:245:1-2:1995:115-116|Review+Earth structure+Solid-earth geophysics+Seismology|Chapman and Hall, London, 1993, 276pp J|0980|Ayling,M.R.+Meredith,P.G.+Murrell,S.A.F.|Microcracking during triaxial deformation of porous rocks monitored by changes in rock physical properties, I. Elastic-wave propagation measurements on dry rocks||#TCT:245:3-4:1995:205-221|Microcrack+Sandstone+Laboratory+Velocity J|0981|Read,M.D.+Ayling,M.R.+Meredith,P.G.+|Microcracking during triaxial deformation of porous rocks monitored by changes in rock physical properties, II. Pore volumometry and acoustic emission measurements on water-saturated rocks||#TCT:245:3-4:1995:223-235|Microcrack+Sandstone+Laboratory+Acoustic emission J|0982|Mann,P.+Taylor,F.W.+Edwards,R.L.+|Actively evolving microplate formation by oblique collision and sideways motion along strike-slip faults: an example from the northeastern Caribbean plate margin||#TCT:246:1-3:1995:1-69|Caribbean+Strike-slip+Seismicity+Seismic reflexion profile+ISC J|0983|Lu,C-Y.+Angelier,J.+Chu,H-T.+|Contractional, transcurrent, rotational and extensional tectonics: examples from northern Taiwan||#TCT:246:1-3:1995:129-146|Taiwan+Tectonics+Fault plane solution+Deformation J|0984|Li,Z.+Biswas,N.+Tytgat,G.+|Stress directions along the Alaska Wadati-Benioff zone from inversion of focal mechanism data||#TCT:246:1-3:1995:163-170|Stress+Wadati-Benioff zone+Focal mechanism+Alaska J|0985|Eyal,Y.+Ron,H.|Late Cenozoic crustal deformation of the north-central Basin and Range Province, western US||#TCT:246:4:1995:211-224|Crustal deformation+Basin & Range+Faulting+Stress field J|0986|Ambeh,W.B.+Lynch,L.L.|The earthquake sequence of June 1992 near Saba, West Indies||#TCT:246:4:1995:225-243|Sequence+1992+West Indies+Source parameter J|0987|Canas,J.A.+Pujades,L.G.+Blanco,M.J.+|Coda-Q distribution in the Canary Islands||#TCT:246:4:1995:245-261|Coda Q+Canary Islands+Map+Anelasticity J|0988|Bella,F.+Biagi,P.F.+Caputo,M.+|Helium content in thermal waters in the Caucasus from 1985 to 1991 and correlations with the seismic activity||#TCT:246:4:1995:263-278|Groundwater+Caucasus+1985-1991+Helium||#*CAUCASUS86|#*ARMENIA88|#*WCAUCASUS91 J|0989|Koyanagi,S.+Aki,K.+Biswas,N.+|Inferred attenuation from site effect-corrected T phases recorded on the island of Hawaii||#PAG:144:1:1995:1-17|T-phase+Hawaii+Attenuation+Site effect||#*LOMAPRIETA89|#*HONEYDEW90|#*ALASKA89 J|0990|Fujii,Y.|Characteristics of horizontal crustal deformation in Japan as deduced from frequency distribution of maximum shear strain rate||#PAG:144:1:1995:19-37|Crustal deformation+Japan+Shear strain+Geodetic survey J|0991|Zuniga,F.R.+Castro,R.R.+Domingues,T.|Stress orientation and anisotropy based on shear-wave splitting observations in the Cerro Prieto fault area, Baja California, Mexico||#PAG:144:1:1995:39-57|Shear wave splitting+Baja California+Anisotropy+Stress J|0992|Ram,A.+Narayan,J.P.|Simulation of the hydrocarbon structures using the P-SV wave solution||#PAG:144:1:1995:59-77|P-SV wave+Hydrocarbon+Simulation+Finite difference method J|0993|Gibowicz,S.J.|Scaling relations for seismic events induced by mining||#PAG:144:2:1995:191-209|Induced seismicity+Scaling+Mining+Corner frequency J|0994|Wang,J-H.|A study of rupture length vs. moment for synthetic earthquakes||#PAG:144:2:1995:211-228|Rupture length+Moment+Model+Friction J|0995|Vila,J.+Correig,A.M.+Marti,J.|Attenuation and source parameters at Deception Island (South Shetland Islands, Antarctica)||#PAG:144:2:1995:229-250|Attenuation+Source parameter+Deception Island+Spectrum J|0996|Beeler,N.M.+Tullis,T.E.|Implications of Coulomb plasticity for the velocity dependence of experimental faults||#PAG:144:2:1995:251-276|Plasticity+Gouge+Friction+Velocity J|0997|Bella,F.+Biagi,P.F.+Caputo,M.+|Possible creep-related tilt precursors obtained in the central Apennines (Italy) and in the southern Caucasus (Georgia)||#PAG:144:2:1995:277-300|Precursor+Apennines+Caucasus+Tilt J|0998|Solow,A.R.|Identifying regional seismic relationships by cross-correlation||#PAG:144:2:1995:301-306|Cross correlation+Regional study+Time series+Statistical method J|0999|Stavrakakis,G.N.+Drakopoulos,J.|Bayesian probabilities of earthquake occurrences in Greece and surrounding areas||#PAG:144:2:1995:307-319|Bayesian method+Greece+Probability+Occurrence J|1000|McGarr,A.|Review of `An introduction to mining seismology' by S. J. Gibowicz and A. Kijko||#PAG:144:2:1995:351-353|Review+Mining+Seismology+Local earthquake|Academic Press, 1994 J|1001|Boschi,E.+Basili,A.+Valensise,G.|Seismology and physics of the Earth's interior. Italian research activity (1991-1994) report to IASPEI||#BGT:36:141-144:1994:611-631|Seismology+IASPEI+Historical seismicity+Italy|Supplement J|1002|Barberi,F.+Bertagnini,A.+Landi,P.|Volcanology and chemistry of Earth's interior. Italian research activity (1991-1994) report to IAVCEI||#BGT:36:141-144:1994:639-736|Volcanic tremor+Volcanology+Italy+Eruption|Supplement J|1003|Boehm,G.+Camerlenghi,A.+Lodolo,E.+|Tomographic analysis and geological context of a bottom simulating reflector on the South Shetland margin (Antarctic Peninsula)||#BGT:37:145:1995:3-23|Antarctica+Tomography+Seismic reflexion profile+Gas J|1004|Davey,F.J.+Lodolo,E.|Crustal seismic study of an ensialic back-arc basin (Bay of Plenty, New Zealand)||#BGT:37:145:1995:25-37|New Zealand+Marine seismic investigation+Back-arc basin+Crust J|1005|Chiocci,F.L.+Orlando,L.|Effects of high-frequency Pleistocene sea-level changes on a highly deforming continental margin: Calabrian shelf (southern Tyrrhenian Sea, Italy)||#BGT:37:145:1995:39-58|Tyrrhenian Sea+Seismic survey+Continental margin+Sea level J|1006|Baskoutas,I.+Makropoulos,K.+Sato,H.|Mean free path for S-wave scattering under central Greece||#BGT:37:145:1995:73-80|S-wave+Scattering+Greece+Local earthquake J|1007|Frasheri,A.+Nishani,P.+Bushati,S.+|Geophysical study of the Albanides||#BGT:37:146:1995:83-108|Geophysical investigation+Albanides+Seismic reflexion profile+Tectonics J|1008|Park,R.+Billings,I.J.+Clifton,G.C.+|The Hyogo-ken Nanbu earthquake (the great Hanshin earthquake) of 17 January 1995||#BNZ:28:1:1995:1-98|Kobe+Destructive earthquake+1995+Field work||#*SHYOGO95 J|1009|Paulay,T.+Moss,P.J.|Review of `Concrete structures in earthquake zones: design and analysis' edited by E. Booth||#BNZ:28:1:1995:99-100|Review+Earthquake-resistant design+Reinforced concrete+Earthquake engineering|Longman Group UK Ltd and John Wiley and Sons, New York, 1994, 368pp J|1010|Smith,W.D.|Principal earthquakes in New Zealand in 1994||#BNZ:28:2:1995:105|New Zealand+1994+Earthquake||#*ARTHURSPASS94|#*BAYOFPLENTY94 J|1011|Vreugdenhil,R.A.+Davis,R.O.+Berrill,J.B.|Liquefaction potential and piezocone response||#BNZ:28:2:1995:106-112|Liquefaction+Soil+Stiffness+Layered medium||#*LOMAPRIETA89 J|1012|Charleson,A.W.|Seismic restraint of building contents||#BNZ:28:2:1995:113-117|Hazard+Shaking+Mitigation+Damage J|1013|Wood,J.H.+Martin,G.R.|Evaluation of seismic design parameters for the Museum of New Zealand site||#BNZ:28:2:1995:118-133|Earthquake-resistant design+Site response+Wellington+Spectrum||#*LOMAPRIETA89 J|1014|Dowrick,D.J.+Rhoades,D.A.+Babor,J.+|Damage ratios for houses and microzoning effects in Napier in the magnitude 7.8 Hawke's Bay, New Zealand earthquake of 1931||#BNZ:28:2:1995:134-145|Hawke's Bay+Earthquake+1931+Damage J|1015|Pinto,P.E.|A look into Eurocode 8: the unified European code for the design of earthquake resistant structures||#BNZ:28:2:1995:146-152|Building code+Europe+Earthquake-resistant design J|1016|Shi,X.+Richards,R.|Seismic bearing capacity with variable shear transfer||#BNZ:28:2:1995:153-163|Earthquake engineering+Foundation+Soil-structure interaction J|1017|Gregory,G.|Disaster recovery - what happens next?||#BNZ:28:2:1995:164-168|Wellington+Natural disaster+Town planning+Reconstruction||#*NORTHRIDGE94 J|1018|De Batist,M.+Henriet,J-P.|Seismic sequence stratigraphy of the Palaeogene offshore of Belgium, southern North Sea||#JGL:152:1:1995:27-40|Seismostratigraphy+North Sea+High resolution+Marine seismic investigation J|1019|Duncan,W.I.+Buxton,N.W.K.|New evidence for evaporitic Middle Devonian lacustrine sediments with hydrocarbon source potential on the East Shetland Platform, North Sea||#JGL:152:2:1995:251-258|North Sea+Hydrocarbon+Sediment+Reflexion data J|1020|Keller,J.V.A.+Hall,S.H.+Dart,C.J.+|The geometry and evolution of a transpressional strike-slip system: the Carboneras fault, SE Spain||#JGL:152:2:1995:339-351|Strike-slip+Spain+Fault zone+Geometry J|1021|Brown,C.+Whelan,J.P.|Terrane boundaries in Ireland inferred from the Irish Magnetotelluric Profile and other geophysical data||#JGL:152:3:1995:523-534|Magnetotellurics+Ireland+Geophysical investigation+Crustal structure J|1022|Childs,C.+Watterson,J.+Walsh,J.J.|Fault overlap zones within developing normal fault systems||#JGL:152:3:1995:535-549|Normal fault+Reflexion data+Segmentation+Fault growth J|1023|Peacock,D.C.P.|Mapping small faults - why size is not important||Geoscientist:-:2:1995:28-30|Fault zone+Size+Fault length+Field work J|1024|Berry,A.|Earthquakes and engineering geology: influences on geotechnical design||Geoscientist:-:3:1995:2-3|Earthquake-resistant design+Engineering seismology+Hazard+United Kingdom|GeoNews A|1025|Nuannin,P.|Seismicity of Thailand 1912-1991||1995:Uppsala:Uppsala University|Thailand+Seismicity+1912-1991+Earthquake catalogue+ISC|Report 2-95, 32pp|#*SRINAKARIND|#*TUANGIAO J|1026|Khubunaya,S.A.+Zharinov,N.A.+Muravyev,Ya.D.+|Eruption of Shiveluch volcano in 1993|In Russian with English abstract|#VSM:-:1:1995:3-19|Eruption+1993+Kamchatka+Volcanic tremor J|1027|Tarakanov,R.Z.|Source dimensions of large Kuril-Kamchatka and Japan earthquakes and maximum possible magnitude problem|In Russian with English abstract|#VSM:-:1:1995:76-89|Earthquake+Maximum magnitude+Kuril-Kamchatka Arc+Japan+Source J|1028|Shevchenko,Yu.V.|Metrological instrumentation for seismotelemetric networks in Kamchatka|In Russian with English abstract|#VSM:-:1:1995:90-105|Network+Instrumentation+Kamchatka+Data acquisition J|1029|Burymskaya,R.N.|Specific features of the development of the June 1973 earthquake in the region of the Lesser Kurile Range|In Russian with English abstract|#VSM:-:2:1995:83-92|Earthquake+1973+Kuril Islands+Fourier spectrum J|1030|Kravtsov,A.V.+Sekerj-Zenkovitch,S.Ya.|The excitation of tsunami waves and Rayleigh waves by a spherical expansion center|In Russian with English abstract|#VSM:-:2:1995:93-100|Tsunami+Rayleigh wave+Mathematical method+Interface J|1031|Kugaenko,Yu.A.+Saltykov,V.A.+Sinitsyn,V.I.+|The investigation of the upper crusts in the area of the northern breakthrough of the Large Tolbachik Fissure Eruption|In Russian with English abstract|#VSM:-:2:1995:101-110|Microseismicity+Upper crust+Kamchatka+Volcanism J|1032|Smirnov,V.B.|Earthquake repetition and the parameters of the seismic process|In Russian with English abstract|#VSM:-:3:1995:59-70|Seismic process+Frequency-magnitude relation+Fractal distribution+Recurrence J|1033|Saltykov,V.A.|The possible mechanisms of terrestrial tides exposure on high frequency seismic noise|In Russian with English abstract|#VSM:-:3:1995:81-90|Seismic noise+Mechanism+Earth tide+High frequency J|1034|Melekestsev,I.V.|On a possible cause of the Ozernovsky tsunami occurred on November 23, 1969, in Kamchatka|In Russian with English abstract|#VSM:-:3:1995:105-108|Tsunami+Kamchatka+1969+Submarine earthquake J|1035|Mukai,T.|Distribution of seismic intensity in and around Gifu City at the earthquake off the Noto Peninsula (February 7, 1993)|In Japanese|#QJS:58:3-4:1995:91-96|Japan+Intensity+Earthquake+1993||#*NOTO93 J|1036|a-Earthquake and Tsunami Observations Division, EPID and KLMO|Report on the earthquake of Noto-Oki, February 7, 1993|In Japanese|#QJS:58:3-4:1995:97-114|Japan+Earthquake+1993+Seismic record||#*NOTO93 J|1037|e*Stucchi,M.+Albini,P.+Moroni,A.|Historical investigation of European earthquakes||Chron. U.G.G.I.:-:225:1995:39-42|Europe+Historical earthquake+Historical seismicity|Material of the Commission of the European Communities Project. Titles only. Published by Consiglio Nazionale delle Ricerche, Milan, 1993, in two volumes A|1038|e*Kondorskaya,N.V.+Zaharova,A.I.+Vandysheva,N.V.+|Earthquakes in the USSR, 1988|In Russian|1991:Moscow:Akad. Nauk SSSR|USSR+1988+Earthquake catalogue+Strong earthquake|382pp|#*ARMENIA88 A|1039|e*Kondorskaya,N.V.+Zaharova,A.I.+Vandysheva,N.V.+|Earthquakes in the USSR, 1989|In Russian|1993:Moscow:Ross. Akad. Nauk|USSR+1989+Earthquake catalogue+Strong earthquake|399pp J|1040|Yoshida,S.+Nakatani,M.+Asada,T.|Observations of electromagnetic radiation associated with aftershocks of the Hyogoken-nanbu earthquake|In Japanese with English abstract|#BER:70:1:1995:1-8|Electromagnetic emission+Aftershock+1995+Kobe||#*SHYOGO95 J|1041|Research Group for Explosion Seismology|Explosion seismic observation in the central to western part of Honshu, Japan. Fujihashi-Kamigori profile|In Japanese with English abstract|#BER:70:1:1995:9-31|Refraction study+Profile+Honshu+Explosion seismology J|1042|Storchak,D.A.+Tatevosyan,R.E.+Shebalin,N.V.|On deep focus (70-300 km) seismicity on the opposite ends of the Himalayan Arch||Physics Solid Earth:30:5:1994:406-415|Deep-focus earthquake+Himalayas+Seismicity+Clustering+ISC J|1043|Wiens,D.A.+Shore,P.J.+McGuire,J.J.+|The Southwest Pacific Seismic Experiment||IRIS Newsl.:-:1:1995:1-3|Southwest Pacific+Broadband seismology+Deep earthquake+PASSCAL||#*FIJI94 J|1044|Owens,T.J.+Nyblade,A.A.+Langston,C.A.|The Tanzania broadband experiment||IRIS Newsl.:-:1:1995:5-7|Broadband seismology+Tanzania+Craton+Deep structure||#*BOLIVIA94|#*RUKWA94 J|1045|Tsuboi,S.|POSEIDON||IRIS Newsl.:-:1:1995:8-9|POSEIDON+Broadband seismology+Network+Data acquisition J|1046|Gurevich,V.+Kiselevich,V.+Shoubik,B.|ASET - array based seismic emission tomography||IRIS Newsl.:-:1:1995:10-11|Microseismicity+Tomography+Array+Data processing J|1047|Plesinger,A.+Ahern,T.|Rescue of unique Czech/Polish very-broad-band data archive||IRIS Newsl.:-:1:1995:12-13|Broadband seismology+Data bank+Poland+Czechoslovakia+History J|1048|Ahern,T.+Benson,R.+Creager,K.|New FARM products, yours for the picking||IRIS Newsl.:-:1:1995:14-15|Data base+Seismic record A|1049|Gokhberg,M.B.+Morgounov,V.A.+Pokhotelov,O.A.|Earthquake prediction: seismoelectromagnetic phenomena||1995:United Kingdom:Gordon and Breach Science Publishers|Earthquake+Prediction+Electromagnetic emission J|1050|Cheng,W-Z.|The complex temporal sequence structures of non-single exponential attenuation of Batang earthquake swarm with M 6.7||#ASS:7:-:1994:1-11|Sichuan+Swarm+1989+Sequence|Supplement issue|#*SICHUAN89|#*SICHUAN89B|#*SICHUAN89C|#*SICHUAN89D J|1051|Zhang,S-C.+Diao,G-L.+Yu,L-M.|The fracture characteristic of the 1989 Datong-Yanggao earthquake sequence||#ASS:7:-:1994:13-21|Earthquake+1989+Datong+Sequence+Fracture|Supplement issue|#*DATONG89A|#*DATONG89B|#*DATONG89C|#*NECHINA89 J|1052|Fan,H-S.+Wang,B-Q.|Expert system for earthquake prediction (ESEP) (2) - knowledge representation and evidence combination||#ASS:7:-:1994:23-29|Expert system+Prediction|Supplement issue J|1053|Liu,X-H.+Zhou,Y-S.|The mutation sequence of earth resistivity and earthquakes||#ASS:7:-:1994:31-40|Resistivity+Prediction+Rupture|Supplement issue|#*TANGSHAN|#*YUNNAN88B J|1054|Wu,X-F.+Tian,S-H.+Wu,G-H.|Investigation on the relation between the gravity anomaly, crustal deformation and underground water||#ASS:7:-:1994:41-49|Gravity+Crustal deformation+Underground water+Precursor|Supplement issue J|1055|Xu,Z-Y.+Mei,S-R.+Zhuang,C-T.+|Preliminary location of microcracks in several rock specimens under true triaxial compression||#ASS:7:-:1994:51-59|Laboratory+Microcrack+Granite+Acoustic emission|Supplement issue J|1056|Gao,S-Y.+Hu,H-X.+Ding,S.|The abnormal mantle and deep tectonic process in the southern region of North China Plain||#ASS:7:-:1994:61-69|Deep seismic sounding+Mantle+North China+Low velocity|Supplement issue J|1057|Shen,J-W.|Cumulative frequency b value without upper bound magnitude and its regression determination||#ASS:7:-:1994:81-89|b-Value+Recurrence+Statistical method|Supplement issue J|1058|Gao,M-T.|Random field characteristics of earthquake occurrence and test of earthquake occurrence rate||#ASS:7:-:1994:91-94|Occurrence+Random effect+Zoning|Supplement issue J|1059|Chen,H-Y.+Hu,Y-X.|Synthesized Poisson and renewal model and its application in seismic hazard analysis||#ASS:7:-:1994:95-102|Hazard+Time dependence+China+Magnitude|Supplement issue J|1060|Wang,J.+Shi,Z-L.|Binomial model on seismic risk analysis||#ASS:7:-:1994:103-108|Risk+Model+Probability+China|Supplement issue J|1061|Feng,Y-J.+Li,X-L.+Xiao,C-Y.|Several questions about using national legal metrological unit in seismological periodicals||#ASS:7:-:1994:109-120|Public policy+Units+Seismology|Supplement issue J|1062|Huang,F-M.|Preliminary study on the duration of earthquake activity||#ASS:7:-:1994:121-127|Duration+Aftershock+Quiescence+b-Value|Research note. Supplement issue J|1063|Gong,S-W.+Guo,F-Y.|Ground vertical deformation in earthquake of Gonghe, Qinghai Province||#ASS:7:-:1994:129-132|Earthquake+1990+Qinghai+Vertical movement|Research note. Supplement issue|#*GONGHE90 J|1064|Liu,G-X.+Zhao,W-J.+Ren,W-J.+|The rigid body of Paleo-continent in the crust of Taiwan and the recent plate movement||#ASS:7:-:1994:133-136|Taiwan+Deep crust+Gravity+Plate motion|Research note. Supplement issue J|1065|Zhou,R.+Lin,B-H.|Analysis of future seismicity of Jing-Jin-Tang region and seven major seismic zones with the extreme-value theory||#ASS:7:-:1994:137-144|Seismicity+Extreme value theory+China+Seismic zone|Research note. Supplement issue J|1066|Zhang,Q-X.+Li,X-M.+Zhang,M-C.|The calibration of measuring equipment for the observation of seismo-electromagnetic emission||#ASS:7:-:1994:145-148|Calibration+Electromagnetic emission+Equipment|Research note. Supplement issue J|1067|Smirnov,V.B.+Ponomarev,A.V.+Zavyalov,A.D.|Acoustic vibration structure in rock samples and seismic process|In Russian|#RFZ:-:1:1995:38-58|Rock+Acoustic medium+Vibration+Seismic process J|1068|Vshivtsev,A.S.+Kosareva,O.G.+Chesnokov,E.M.|A temperature Green function for a homogeneous isotropic medium|In Russian|#RFZ:-:1:1995:71-75|Green's function+Temperature+Isotropic medium+Homogeneous medium|Scientific communication J|1069|Morozova,L.I.|Automatic search for faults in inaccessible Kyzyl-Kum areas using cosmic photographs of the Earth|In Russian|#RFZ:-:1:1995:82-85|Fault+Remote sensing+Uzbekistan+Automatic location|Scientific communication J|1070|Voronina,E.V.+Levchenko,D.G.+Solov'ev,S.L.+|Peculiarities of recording of the strong Himalayan earthquake at the bottom of the central Atlantic Ocean and dispersion of long-period Love waves|In Russian|#RFZ:-:2:1995:3-17|Earthquake+1991+Himalayas+Love wave||#*NINDIA91 J|1071|Bulgakov,R.F.+Ivanov,V.V.+Khramushin,V.N.+|Tsunami zoning implications of paleotsunami study|In Russian|#RFZ:-:2:1995:18-27|Tsunami+Zoning J|1072|Polikarpova,L.A.+Belavina,Yu.F.+Malinovskiy,A.A.+|Temporal regularities in the distribution of Earth's deep earthquakes during 1963-1979|In Russian|#RFZ:-:2:1995:28-39|Deep earthquake+1963-1979+Temporal variation J|1073|Bayuk,I.O.+Kalinin,V.A.|Elastic anisotropy of rocks. I. Oriented system of pores of arbitrary concentration|In Russian|#RFZ:-:2:1995:61-68|Rock+Anisotropy+Orientation J|1074|Morozova,E.A.+Pavlenkova,N.I.+Kherbst,R.|A seismic model of the Earth's crust in the southeast Barents Sea and nonuniqueness of its construction|In Russian|#RFZ:-:2:1995:73-83|Model+Crust+Barents Sea+Reflexion study|Scientific communication J|1075|Burymskaya,R.N.|Development of the source process at the Shikotan, 1969 earthquake|In Russian|#RFZ:-:3:1995:3-9|Earthquake+1969+Kuril Islands+Seismic process J|1076|Bayuk,I.O.+Kalinin,V.A.|Elastic anisotropy of rocks. II. An oriented system of cracks of arbitrary shape and concentration|In Russian|#RFZ:-:3:1995:10-16|Anisotropy+Rock+Crack+Orientation J|1077|Ayrumyan,O.R.|A short-term electromagnetic precursor of earthquakes|In Russian|#RFZ:-:3:1995:46-52|Precursor+Electromagnetic field+Earthquake|Scientific communication J|1078|Davydov,A.V.+Dolgikh,G.I.|Recording of long-period oscillations with a 52.5-m laser strainmeter|In Russian|#RFZ:-:3:1995:64-67|Laser+Strainmeter+Oscillation+Long-period wave|Scientific communication J|1079|Yanovskaya,T.B.|A method for determination of lateral variations of surface wave velocity from azimuth anomalies|In Russian|#RFZ:-:3:1995:68-73|Surface wave+Lateral variation+Anomaly+Azimuth|Scientific communication J|1080|Avetisov,G.P.+Vinnik,A.A.|Seismological data bank for the Arctic|In Russian|#RFZ:-:3:1995:78-83|Arctic+Data bank|Scientific communication J|1081|Stakhovskiy,I.R.|Fractal geometry of brittle failure at antiplane shear|In Russian|#RFZ:-:3:1995:84-91|Fractal system+Geometry+Fracture+Shear|Scientific communication J|1082|Ulomov,V.I.|Inter-region working meeting "Methods and algorithms for studying regional seismicity and seismic risk assessment in the Crimea-Caucasus-Kopetdag region"|In Russian|#RFZ:-:3:1995:92-96|Seismicity+Risk+Crimea+Caucasus+Kopet-Dag|Chronicle J|1083|Imaev,V.S.+Imaeva,L.P.+Koz'min,B.M.|Seismotectonic dislocations in seismic belts of Yakutia|In Russian with English abstract|#GTK:-:1:1995:79-92|Yakutiya+Seismotectonics+Dislocation+Seismic zone J|1084|Omuraliev,M.+Korzhenkov,A.M.|Morphostructural parameters and stress-deformation state of matter in seismic zones of the Tien Shan|In Russian with English abstract|#GTK:-:2:1995:91-98|Tien Shan+Seismic zone+Stress+Deformation J|1085|Dotsenko,S.F.+Solov'ev,S.L.|On the role of residual shifts of ocean bottom in tsunami generation by underwater earthquakes|In Russian with English abstract|#OKN:35:1:1995:25-31|Tsunami+Submarine earthquake+Displacement+Sea floor J|1086|Mazova,R.Kh.+Solov'ev,S.L.|On influence of leading tsunami wave sign on the height of run-up|In Russian with English abstract|#OKN:35:2:1995:178-185|Tsunami+Run-up+Pacific Ocean J|1087|Sushevskaja,N.M.+Volokitina,L.P.|Tectonic and magnetic aspects of the mid-Atlantic Ridge equatorial zone|In Russian with English abstract|#OKN:35:2:1995:252-265|Mid-Atlantic Ridge+Tectonics+Fracture zone+Magmatism J|1088|Neprochnov,Yu.P.+Sedov,V.V.+Elnikov,I.N.+|Crustal structure of the central Indian Basin intraplate deformation|In Russian with English abstract|#OKN:35:2:1995:266-274|Deep seismic sounding+Crustal structure+Intraplate deformation+Indian Ocean J|1089||Bulletin! Major earthquake hits Japan on December 28th||Tsunami Newsl.:-:1:1995:1|Major earthquake+1994+Japan+Damage|News events|#*HONSHU94 J|1090||Great earthquake and tsunami of October 4, 1994||Tsunami Newsl.:-:1:1995:2-5|Great earthquake+1994+Kuril Islands+Tsunami|News events|#*HOKKAIDO94 J|1091||Mindoro Island, Philippines, earthquake and tsunami of November 14||Tsunami Newsl.:-:1:1995:5-8|Earthquake+1994+Philippines+Tsunami|News events|#*MINDORO94|#*OBI94 J|1092|Foley,G.|June 2, 1994 tsunami in Australia||Tsunami Newsl.:-:1:1995:9-10|Earthquake+Java+1994+Tsunami|News events|#*JAVA94 A|1093|e*Helbig,K.|Modeling the Earth for oil exploration||1994:Amsterdam:Elsevier|Modelling+Oil+Exploration|812pp V|1995:2||Bibliography of seismology. 1995 July-December|ISC:31:2:1997 J|0001|Hadfield,P.|Fast quake net needed after Kobe||#NSC:-:1985:1995:7|Japan+Earthquake+Relief+Preparedness|This week|#*SHYOGO95 J|0002|Hadfield,P.|Well water warned of Kobe quake||#NSC:-:1986:1995:16|Groundwater+Radon+Precursor+Kobe+Destructive earthquake|Science|#*SHYOGO95 J|0003|Normile,D.|Cracking up||#NSC:-:1988:1995:26-31|Steel frame+Building+Earthquake-resistant design+Earthquake engineering||#*NORTHRIDGE94|#*SHYOGO95 J|0004|Ritter,J.R.R.+Fuchs,K.+Kaspar,T.+|Seismic images illustrate the deep roots of the Chyulu Hills volcanic area, Kenya||#EOS:76:28:1995:273-278|KRISP+Tomography+Profile+East African Rift J|0005|Park,S.K.+Clayton,R.W.+Ducea,M.N.+|Project combines seismic and magnetotelluric surveying to address the Sierran root question||#EOS:76:30:1995:297-298|Nevada+Seismic survey+Magnetotellurics+Deep crust J|0006|Livelybrooks,D.+Banks,R.J.|Boundary between paleoplates investigated with several techniques||#EOS:76:31:1995:305-309|United Kingdom+Geophysical investigation+Plate boundary+Profile J|0007|Williams,S.N.|Playing with fire. Review of `Monitoring active volcanoes: strategies, procedures and techniques' by B. McGuire, C. Kilburn and J. Murray||#NAT:376:6540:1995:478|Review+Volcano+Seismology J|0008|Abbott,A.|Very large quake shakes telescope||#NAT:376:6541:1995:542|Large earthquake+Chile+1995+Recurrence|News|#*CHILE95 J|0009||Quake lessons||#EOS:76:32:1995:314|Bridge+Stability+Computer program+Ground motion|In brief|#*SHYOGO95 J|0010|White,M.C.|Finding documents split of Indo-Australian plate||#EOS:76:34:1995:337-343|Indo-Australian plate+Plate boundary+Interplate seismicity+Profile J|0011|Hubbertson,H-W.+Grobe,H.+Jokat,W.+|Glacial history of East Greenland explored||#EOS:76:36:1995:353-356|Greenland Sea+Marine seismic investigation+Glacier+Sediment J|0012|Trehu,A.M.+a-Mendocino Working Group|Pulling the rug out from under California: seismic images of the Mendocino triple junction region||#EOS:76:38:1995:369-381|Triple junction+Mendocino fracture zone+Seismic survey+Seismicity J|0013||Deep blast||#EOS:76:41:1995:402|Chemical explosion+North America+Upper mantle+Portable station|In brief J|0014|Kikuchi,M.|A shopping trolley seismograph||#NAT:377:6544:1995:19|Destructive earthquake+Japan+1995+Ground motion|Scientific correspondence|#*SHYOGO95 J|0015|Masood,E.|Monitoring mission gets go-ahead as scientists dispute N-test risks||#NAT:377:6545:1995:91-92|Underground nuclear explosion+Mururoa Test Site+Collapse+Monitoring|News J|0016||50 years ago||#NAT:377:6546:1995:9|History+Magnitude+Southern California+Gutenberg & Richter|Roman pagination J|0017|Masood,E.|Court charges open split in Greek earthquake experts||#NAT:377:6548:1995:375|Greece+Earthquake+1995+VAN prediction method|News|#*GREECE95 J|0018|Calvert,A.J.|Seismic evidence for a magma chamber beneath the slow-spreading Mid-Atlantic Ridge||#NAT:377:6548:1995:410-414|Mid-Atlantic Ridge+Magma chamber+Reflexion study+Common midpoint J|0019|DeMets,C.+Carmichael,I.+Melbourne,T.+|Anticipating the successor to Mexico's largest historical earthquake||#EOS:76:42:1995:417-424|Mexico+Large earthquake+1932+Strain J|0020|Kiernan,V.|GONG tunes in to the sun's vibes||#NSC:-:1999:1995:5|Helioseismology+Vibration+Surface wave J|0021|Sleep,N.H.|A wayward plume?||#NAT:378:6552:1995:19-20|Mantle plume+Low-velocity region+Hot spot+Brazil|News and views J|0022|VanDecar,J.C.+James,D.E.+Assumpcao,M.|Seismic evidence for a fossil mantle plume beneath South America and implications for plate driving forces||#NAT:378:6552:1995:25-31|Mantle plume+Brazil+Low-velocity region+Tomography J|0023|Jeanloz,R.|Earth dons a different mantle||#NAT:378:6553:1995:130-131|Mantle+Velocity+Transition zone+Laboratory|News and views J|0024|Duffy,T.S.+Zha,C-S.+Downs,R.T.+|Elasticity of forsterite to 16 GPa and the composition of the upper mantle||#NAT:378:6553:1995:170-173|Upper mantle+Olivine+410km discontinuity+Laboratory+Velocity J|0025|Hecht,J.|Why California's coastline belongs to the Pacific||#NSC:-:2004:1995:20|Plate tectonics+California+San Andreas Fault|Science J|0026|Thwaites,T.|Lasers watch the Earth move||#NSC:-:2005:1995:25|Tokyo+Laser+Geodetic measurement+Plate motion||#*SHYOGO95 J|0027|Walker,G.|On watch for the killer wave||#NSC:-:2005:1995:32-35|Tsunami+Pacific Ocean+Warning+Submarine earthquake J|0028|Walker,G.|Birth of an island||#NSC:-:2005:1995:36-39|Submarine volcano+Monitoring+Hawaiian Islands+Seismicity J|0029|Nelson,A.R.+Atwater,B.F.+Bobrowsky,P.T.+|Radiocarbon evidence for extensive plate-boundary rupture about 300 years ago at the Cascadia subduction zone||#NAT:378:6555:1995:371-374|Cascadia subduction zone+Rupture length+Plate-boundary earthquake+Carbon dating J|0030|Housner,G.W.|Finding fault||#NAT:378:6556:1995:433|Chile+1995+Earthquake+Damage|Correspondence|#*CHILE95 J|0031|Stein,R.S.|Characteristic or haphazard?||#NAT:378:6556:1995:443-444|Palaeoseismology+Prehistoric earthquake+Recurrence+Southern Italy|News and views|#*LANDERS92|#*ELASNAM J|0032|Chery,J.+Vigny,C.+Meyer,B.+|Global Positioning System network monitors the western Alps||#EOS:76:48:1995:489|Global Positioning System+Convergence+Western Alps+Seismicity J|0033|Carlowicz,M.|Anchor-like force proposed for subduction zones||#EOS:76:49:1995:497-498|Subduction zone+Plate motion+Model+Seismic process||#*MARIANAS93 J|0034|Rudnick,R.L.|Making continental crust||#NAT:378:6557:1995:571-578|Continental crust+Composition+Velocity+Mohorovicic discontinuity|Review article J|0035|Frohlich,C.|Shaken to the core||#NSC:-:2007:1995:43-46|Deep-focus earthquake+Bolivia+1994+Subduction||#*BOLIVIA94 J|0036|Bowler,S.|If the Earth moves... Review of `Why the Earth quakes: the story of earthquakes and volcanoes' by M. Levy and M. Salvadori||#NSC:-:2008:1995:43|Review+Earthquake+Volcano+Earthquake engineering|Norton, 1995 J|0037|Maclean,A.|Lisbon waves||#NSC:-:2008:1995:53|Historical earthquake+1755+Portugal+Tsunami|Letter to the editor J|0038|Holmes,R.|Radio hum may herald quakes||#NSC:-:2009:1995:15|Moderate earthquake+Electromagnetic wave+Precursor+California||#*LOMAPRIETA89 J|0039|Stiros,S.C.|Unexpected shock rocks an "aseismic" area||#EOS:76:50:1995:513-519|Aseismic region+Damaging earthquake+1995+Greece||#*GREECE95 J|0040|Carlowicz,M.|URSEIS peeks under Urals for mountain-building clues||#EOS:76:52:1995:533-534|Urals+Reflexion study+Profile+Crust-mantle structure J|0041|Green,C.|The man who loved earthquakes||Geogrl Mag., Lond.:-:12:1995:34-35|Richter+Magnitude scale+Earthquake+History+ISC J|0042|Eguchi,R.T.|Crude oil transmission study. An assessment of the social, economic and environmental impacts resulting from oil spillage and disruption caused by a major earthquake in the New Madrid seismic zone||#NCE:-:3:1995:1-7|Hazard+Oil+Pipeline+New Madrid J|0043|Fishman,K.L.+Richards,R.|Seismic vulnerability of existing bridge abutments||#NCE:-:3:1995:8-15|Vulnerability+Bridge+Earthquake engineering+New York State J|0044|Nagarajaiah,S.|Post earthquake evaluation of base isolated structures using the 3D-BASIS computer program||#NCE:-:3:1995:15-18|Computer program+Base isolation system+Structural response+Hospital||#*NORTHRIDGE94 J|0045|Jacob,K.H.|Geotechnical and seismological aspects of New York seismic code provisions||#NCE:-:3:1995:19-20|New York+Building code+Site effect+Zoning J|0046||Review of `The Northridge earthquake of January 17, 1994: report of data collection and analysis. Part A: damage and inventory data' compiled by EQE International and the California Governor's Office of Emergency Services||#NCE:-:3:1995:26|Review+Earthquake+1994+Northridge|EQE International, Irvine, California, 1995, 202pp|#*NORTHRIDGE94 J|0047|Werner,S.D.+Jernigan,J.B.+Taylor,C.E.+|Seismic vulnerability assessment of highway systems||#NCE:-:4:1995:1-11|Vulnerability+Transport+Tennessee+Hazard J|0048|Scawthorn,C.|What happened in Kobe and what if it happened here?||#NCE:-:4:1995:15|Kobe+Destructive earthquake+1995+Danger+United States|Abstract only|#*SHYOGO95|#*NORTHRIDGE94 J|0049|Jacob,K.H.|Scenario earthquakes for urban areas along the Atlantic seaboard of the U.S.||#NCE:-:4:1995:15-16|Eastern United States+Site effect+Historical earthquake+Hazard|Abstract only J|0050|Eguchi,R.T.|Mitigating risks to lifelines through natural hazard reduction and design||#NCE:-:4:1995:16-17|Mitigation+Hazard+Public services+United States|Abstract only J|0051|Tierney,K.J.|Impacts of recent U.S. disasters on businesses: the 1993 Midwest floods and the 1994 Northridge earthquake||#NCE:-:4:1995:17-18|Natural disaster+United States+Loss+Economics|Abstract only|#*NORTHRIDGE94 J|0052|Cochrane,H.|Forecasting the indirect impacts of a Midwestern earthquake||#NCE:-:4:1995:18|United States+Hazard+Loss+Economics|Abstract only J|0053|Hauksson,E.+Jones,L.M.+Hutton,K.|The 1994 Northridge earthquake sequence in California: seismological and tectonic aspects||#JGR:100:7:1995:12335-12355|1994+Northridge+Tectonics+Sequence||#*NORTHRIDGE94 J|0054|Pardo,M.+Suarez,G.|Shape of the subducted Rivera and Cocos plates in southern Mexico: seismic and tectonic implications||#JGR:100:7:1995:12357-12373|Mexico+Subduction+Seismicity+Tectonics+ISC J|0055|Romanowicz,B.|A global tomographic model of shear attenuation in the upper mantle||#JGR:100:7:1995:12375-12394|Tomography+Shear wave+Attenuation+Upper mantle J|0056|Sanders,C.O.+Nixon,L.D.|S wave attenuation structure in Long Valley caldera, California, from three-component S-to-P amplitude ratio data||#JGR:100:7:1995:12395-12404|S-wave+Attenuation+Structure+Long Valley Caldera J|0057|Papazachos,C.B.+Hatzidimitriou,P.M.+Panagiotopoulos,D.G.+|Tomography of the crust and upper mantle in southeast Europe||#JGR:100:7:1995:12405-12422|Tomography+Crust+Upper mantle+Greece J|0058|Nielsen,S.+Knopoff,L.+Tarantola,A.|Model of earthquake recurrence: role of elastic wave radiation, relaxation of friction, and inhomogeneity||#JGR:100:7:1995:12423-12430|Recurrence+Radiation+Friction+Inhomogeneity J|0059|Mosegaard,K.+Tarantola,A.|Monte Carlo sampling of solutions to inverse problems||#JGR:100:7:1995:12431-12447|Inverse problem+Monte Carlo method+Seismic waves+Mechanics J|0060|Bube,K.P.+Langan,R.T.+Resnick,J.R.|Theoretical and numerical issues in the determination of reflector depths in seismic reflection tomography||#JGR:100:7:1995:12449-12458|Reflexion study+Tomography+Depth+Seismic exploration J|0061|Beghoul,N.+Barazangi,M.|Comment on `Lateral variations and azimuthal isotropy of Pn velocities beneath Basin and Range Province' by L-S. Zhao||#JGR:100:7:1995:12459-12464|Comments+Basin & Range+Isotropy+Lateral variation+Pn-wave+ISC|With a reply by the author J|0062|Nishimura,T.|Source parameters of the volcanic eruption earthquakes at Mount Tokachi, Hokkaido, Japan, and a magma ascending model||#JGR:100:7:1995:12465-12473|Eruption+Hokkaido+Source parameter+Magma J|0063|Sorey,M.L.+Farrar,C.D.+Marshall,G.A.+|Effects of geothermal development on deformation in the Long Valley caldera, eastern California, 1985-1994||#JGR:100:7:1995:12475-12486|Long Valley Caldera+Geothermal field+Seismicity+1985-1994 J|0064|Rusby,R.I.+Searle,R.C.|A history of the Easter microplate, 5.25 Ma to present||#JGR:100:7:1995:12617-12640|Easter Islands+Microplate+Focal mechanism+Seismicity J|0065|Fisher,A.T.+Becker,K.|Correlation between seafloor heat flow and basement relief: observational and numerical examples and implications for upper crustal permeability||#JGR:100:7:1995:12641-12657|Profile+Juan de Fuca+Heat flow+Upper crust J|0066|Andreassen,K.+Hart,P.E.+Grantz,A.|Seismic studies of a bottom simulating reflection related to gas hydrate beneath the continental margin of the Beaufort Sea||#JGR:100:7:1995:12659-12673|Reflexion study+Beaufort Sea+Continental margin+Gas field J|0067|Le Pichon,X.+Chamot-Rooke,N.+Lallemant,S.+|Geodetic determination of the kinematics of central Greece with respect to Europe: implications for eastern Mediterranean tectonics||#JGR:100:7:1995:12675-12690|Greece+Kinematics+Geodetic survey+Seismicity J|0068|Savage,J.C.|Principal component analysis of interseismic deformation in southern California||#JGR:100:7:1995:12691-12701|Geodetic survey+Deformation+San Andreas Fault+Major earthquake J|0069|Savage,J.C.+Lisowski,M.|Interseismic deformation along the San Andreas fault in southern California||#JGR:100:7:1995:12703-12717|Deformation+Geodetic survey+San Andreas Fault+Major earthquake J|0070|Pari,G.+Peltier,W.R.|The heat flow constraint on mantle tomography-based convection models: towards a geodynamically self-consistent inference of mantle viscosity||#JGR:100:7:1995:12731-12751|Heat flow+Mantle convection+Viscosity+670km discontinuity J|0071|Phipps Morgan,J.+Morgan,W.J.+Zhang,Y-S.+|Observational hints for a plume-fed, suboceanic asthenosphere and its role in mantle convection||#JGR:100:7:1995:12753-12767|Asthenosphere+Mantle convection+Surface wave+Profile J|0072|Jachens,R.C.+Griscom,A.+Roberts,C.W.|Regional extent of Great Valley basement west of the Great Valley, California: implications for extensive tectonic wedging in the California Coast Ranges||#JGR:100:7:1995:12769-12790|Great Valley+Magnetic survey+Refraction study+Wedge J|0073|Ma,X.Q.+Kusznir,N.J.|Coseismic and postseismic subsurface displacements and strains for a dip-slip normal fault in a three-layer elastic-gravitational medium||#JGR:100:7:1995:12813-12828|Displacement+Strain+Dip-slip+Normal fault J|0074|Hickman,S.H.+Sibson,R.H.+Bruhn,R.L.|Introduction to special section: mechanical involvement of fluids in faulting||#JGR:100:7:1995:12831-12840|Introduction+Fluid+Faulting+Mechanics J|0075|Cox,S.F.|Faulting processes at high fluid pressures: an example of fault valve behavior from the Wattle Gully Fault, Victoria, Australia||#JGR:100:7:1995:12841-12859|Faulting+Fluid pressure+Australia+Shear stress J|0076|Robert,F.+Boullier,A-M.+Firdaous,K.|Gold-quartz veins in metamorphic terranes and their bearing on the role of fluids in faulting||#JGR:100:7:1995:12861-12879|Fluid+Faulting+Canada+Rupture J|0077|Fisher,D.M.+Brantley,S.L.+Everett,M.+|Cyclic fluid flow through a regionally extensive fracture network within the Kodiak accretionary prism||#JGR:100:7:1995:12881-12894|Fluid+Fracture+Kodiak+Accretionary prism J|0078|Moore,J.C.+Moore,G.F.+Cochrane,G.R.+|Negative-polarity seismic reflections along faults of the Oregon accretionary prism: indicators of overpressuring||#JGR:100:7:1995:12895-12906|Reflexion study+Oregon+Accretionary prism+Fluid J|0079|Wang,K.+Mulder,T.+Rogers,G.C.+|Case for very low coupling stress on the Cascadia subduction fault||#JGR:100:7:1995:12907-12918|Cascadia subduction zone+Stress+Fault+Seismicity J|0080|Eberhart-Phillips,D.+Stanley,W.D.+Rodriguez,B.D.+|Surface seismic and electrical methods to detect fluids related to faulting||#JGR:100:7:1995:12919-12936|Faulting+Fluid+P-wave+S-wave||#*LOMAPRIETA89 J|0081|Johnson,P.A.+McEvilly,T.V.|Parkfield seismicity: fluid-driven?||#JGR:100:7:1995:12937-12950|Parkfield+Seismicity+Fluid+Sequence J|0082|Fenoglio,M.A.+Johnston,M.J.S.+Byerlee,J.D.|Magnetic and electric fields associated with changes in high pore pressure in fault zones: application to the Loma Prieta ULF emissions||#JGR:100:7:1995:12951-12958|Loma Prieta+Electromagnetic field+Pore pressure+Ultra low frequency||#*LOMAPRIETA89 J|0083|Ben-Zion,Y.+Rice,J.R.|Slip patterns and earthquake populations along different classes of faults in elastic solids||#JGR:100:7:1995:12959-12983|Fluid+Slip+Fault+Elastic medium J|0084|Hill,D.P.+Johnston,M.J.S.+Langbein,J.O.+|Response of Long Valley caldera to the Mw = 7.3 Landers, California, earthquake||#JGR:100:7:1995:12985-13005|Long Valley Caldera+Landers+Fluid+1992||#*LANDERS92 J|0085|Evans,J.P.+Chester,F.M.|Fluid-rock interaction in faults of the San Andreas system: inferences from San Gabriel fault rock geochemistry and microstructures||#JGR:100:7:1995:13007-13020|Fluid+San Andreas Fault+Slip+Rock J|0086|Wintsch,R.P.+Christoffersen,R.+Kronenberg,A.K.|Fluid-rock reaction weakening of fault zones||#JGR:100:7:1995:13021-13032|Fluid+Fault+Rock+Seismic zone J|0087|Chester,F.M.|A rheologic model for wet crust applied to strike-slip faults||#JGR:100:7:1995:13033-13044|Fluid+Strike-slip+Fault+Rheology J|0088|Blanpied,M.L.+Lockner,D.A.+Byerlee,J.D.|Frictional slip of granite at hydrothermal conditions||#JGR:100:7:1995:13045-13064|Hydrothermal field+Slip+Friction+Granite+Fault J|0089|Sleep,N.H.|Ductile creep, compaction, and rate and state dependent friction within major fault zones||#JGR:100:7:1995:13065-13080|Friction+Fault zone+Fluid pressure+Creep J|0090|Lockner,D.A.+Evans,B.|Densification of quartz powder and reduction of conductivity at 700degreesC||#JGR:100:7:1995:13081-13092|Quartz+Electrical conductivity+Fluid pressure+Density J|0091|Dewers,T.+Hajash,A.|Rate laws for water-assisted compaction and stress-induced water-rock interaction in sandstones||#JGR:100:7:1995:13093-13112|Water+Rock+Stress+Fault zone J|0092|Hickman,S.H.+Evans,B.|Kinetics of pressure solution at halite-silica interfaces and intergranular clay films||#JGR:100:7:1995:13113-13132|Fluid+Fault zone+Mechanics+Clay J|0093|Sinha,M.C.|Segmentation and rift propagation at the Valu Fa ridge, Lau Basin: evidence from gravity data||#JGR:100:8:1995:15025-15043|Lau Basin+Gravity+Marine geophysical investigation+Segmentation J|0094|Trehu,A.M.+Lin,G.+Maxwell,E.+|A seismic reflection profile across the Cascadia subduction zone offshore central Oregon: new constraints on methane distribution and crustal structure||#JGR:100:8:1995:15101-15116|Reflexion study+Cascadia subduction zone+Crustal structure+Methane J|0095|Westaway,R.|Crustal volume balance during the India-Eurasia collision and altitude of the Tibetan plateau: a working hypothesis||#JGR:100:8:1995:15173-15192|Crustal thickness+Tibet+Strike-slip+Fault J|0096|Jackson,J.A.+Haines,A.J.+Holt,W.E.|The accommodation of Arabia-Eurasia plate convergence in Iran||#JGR:100:8:1995:15205-15219|ISC+Iran+Plate boundary+Continental convergence+Seismicity J|0097|Morgan,J.K.+Karig,D.E.|Decollement processes at the Nankai accretionary margin, southeast Japan: propagation, deformation, and dewatering||#JGR:100:8:1995:15221-15231|Profile+Nankai+Accretionary margin+Deformation J|0098|Zachariasen,J.+Sieh,K.|The transfer of slip between two en echelon strike-slip faults: a case study from the 1992 Landers earthquake, southern California||#JGR:100:8:1995:15281-15301|Landers+1992+Strike-slip+Fault||#*LANDERS92 J|0099|Burianyk,M.J.A.+Kanasewich,E.R.|Crustal velocity structure of the Omineca and Intermontane Belts, southeastern Canadian Cordillera||#JGR:100:8:1995:15303-15316|Canadian Cordillera+Refraction study+Crustal structure+Velocity structure J|0100|Gao,L.+Wallace,T.C.|The 1990 Rudbar-Tarom Iranian earthquake sequence: evidence for slip partitioning||#JGR:100:8:1995:15317-15332|1990+Iran+Sequence+Focal mechanism||#*MANJIL90 J|0101|Iio,Y.|Observations of the slow initial phase generated by microearthquakes: implications for earthquake nucleation and propagation||#JGR:100:8:1995:15333-15349|Initial phase+Microearthquake+Nucleation+Propagation||#*NAGANO J|0102|Liu,X.+McNally,K.C.+Shen,Z-K.|Evidence for a role of the downgoing slab in earthquake slip partitioning at oblique subduction zones||#JGR:100:8:1995:15351-15372|Slab+Subduction zone+Deformation+Slip J|0103|Hyndman,R.D.+Wang,K.+Yamano,M.|Thermal constraints on the seismogenic portion of the southwestern Japan subduction thrust||#JGR:100:8:1995:15373-15392|Japan+Reflexion study+Subduction zone+Seismogenic zone J|0104|Morelli,A.+Dziewonski,A.M.|Comment on `Reproducing Earth's kernel: uncertainty of the shape of the core-mantle boundary from PKP and PcP travel times' by P. B. Stark and N. W. Hengartner||#JGR:100:8:1995:15393-15402|Comments+Core-mantle boundary+PKP-wave+PcP-wave+Travel-times|With a reply by one of the authors J|0105|Murdock,J.N.|Comment on `Crustal structure and composition of the southern Foothills Metamorphic Belt, Sierra Nevada, California, from seismic data' by K. C. Miller and W. D. Mooney||#JGR:100:8:1995:15403-15405|Comments+Sierra Nevada+Crustal structure+Microearthquake+Depth|With a reply by the authors J|0106|Walsh,J.B.|Seismic attenuation in partially saturated rock||#JGR:100:8:1995:15407-15424|Attenuation+Extensional wave+Shear wave+Rock+Porosity J|0107|Shah,K.R.+Labuz,J.F.|Damage mechanisms in stressed rock from acoustic emission||#JGR:100:8:1995:15527-15539|Failure+Rock+Acoustic emission+Granite J|0108|White,R.S.+McKenzie,D.|Mantle plumes and flood basalts||#JGR:100:9:1995:17543-17585|Mantle plume+Lava+Refraction study+Reflexion study J|0109|Kohlstedt,D.L.+Evans,B.+Mackwell,S.J.|Strength of the lithosphere: constraints imposed by laboratory experiments||#JGR:100:9:1995:17587-17602|Strength+Lithosphere+Laboratory+Crust+Upper mantle J|0110|Isaak,D.G.+Masuda,K.|Elastic and viscoelastic properties of alpha iron at high temperatures||#JGR:100:9:1995:17689-17698|Iron+Elasticity+Viscoelasticity+High temperature J|0111|Burnley,P.C.+Bassett,W.A.+Wu,T-C.|Diamond anvil cell study of the transformation mechanism from the olivine to spinel phase in Co2SiO4, Ni2SiO4, and Mg2GeO4||#JGR:100:9:1995:17715-17723|Laboratory+Olivine+Spinel+Phase transformation J|0112|Lee,J.K.W.+Tromp,J.|Self-induced fracture generation in zircon||#JGR:100:9:1995:17753-17770|Rock+Fracture+Generation+Stress J|0113|Minshull,T.A.+Morris,E.+Detrick,R.S.|Gravity anomalies and crustal structure at the Mesozoic Blake Spur Fracture Zone||#JGR:100:9:1995:17771-17779|North Atlantic+Fracture zone+Reflexion study+Gravity J|0114|MacRae,G.+Watkins,J.S.|Early Mesozoic rift stage half graben formation beneath the DeSoto Canyon salt basin, northeastern Gulf of Mexico||#JGR:100:9:1995:17795-17812|Reflexion study+Mexico, G. of+Rift+Graben J|0115|Auzende,J-M.+Hey,R.N.+Pelletier,B.+|Propagating rift west of the Fiji Archipelago (North Fiji Basin, SW Pacific)||#JGR:100:9:1995:17823-17835|Rift+Fiji+Profile+Focal mechanism J|0116|Small,C.|Observations of ridge-hotspot interactions in the Southern Ocean||#JGR:100:9:1995:17931-17946|Aseismic ridge+Southern Ocean+Hot spot+Gravity J|0117|Lowry,A.R.+Smith,R.B.|Strength and rheology of the western U.S. Cordillera||#JGR:100:9:1995:17947-17963|Western United States+Cordillera+Seismicity+Thickness J|0118|Kostoglodov,V.+Bandy,W.|Seismotectonic constraints on the convergence rate between the Rivera and North American plates||#JGR:100:9:1995:17977-17989|Seismotectonics+Convergence+Rivera+North America J|0119|Holt,W.E.+Haines,A.J.|The kinematics of northern South Island, New Zealand, determined from geologic strain rates||#JGR:100:9:1995:17991-18010|Kinematics+South Island+Strain+Moment J|0120|Bown,J.W.+White,R.S.|Effect of finite extension rate on melt generation at rifted continental margins||#JGR:100:9:1995:18011-18029|Profile+Extension+Rift+Continental margin J|0121|Manglik,A.+Singh,R.N.|Postintrusive thermal evolution of continental crust: a moving boundary approach||#JGR:100:9:1995:18031-18043|Magma+Continental crust+Velocity structure+Thermal evolution J|0122|Braun,J.+Beaumont,C.|Three-dimensional numerical experiments of strain partitioning at oblique plate boundaries: implications for contrasting tectonic styles in the southern Coast Ranges, California, and central South Island, New Zealand||#JGR:100:9:1995:18059-18074|Strain+Coast Range+South Island+Plate boundary J|0123|Sarkar,A.+Nunn,J.A.+Hanor,J.S.|Free thermohaline convection beneath allochthonous salt sheets: an agent for salt dissolution and fluid flow in Gulf Coast sediments||#JGR:100:9:1995:18085-18092|Salt+Profile+Mexico, G. of+Fluid J|0124|Du,Y.+Aydin,A.|Shear fracture patterns and connectivity at geometric complexities along strike-slip faults||#JGR:100:9:1995:18093-18102|Shear+Fracture+Strike-slip+Fault||#*LANDERS92 J|0125|Souriau,A.+Granet,M.|A tomographic study of the lithosphere beneath the Pyrenees from local and teleseismic data||#JGR:100:9:1995:18117-18134|Tomography+Lithosphere+Pyrenees+Local event+Teleseism J|0126|Ozalaybey,S.+Savage,M.K.|Shear-wave splitting beneath western United States in relation to plate tectonics||#JGR:100:9:1995:18135-18149|Shear wave splitting+Western United States+Plate tectonics+Anisotropy J|0127|Ryberg,T.+Fuchs,K.+Egorkin,A.V.+|Observation of high-frequency teleseismic Pn on the long-range Quartz profile across northern Eurasia||#JGR:100:9:1995:18151-18163|High frequency+Pn-wave+Eurasia+Profile J|0128|Yang,X.+Fischer,K.M.+Abers,G.A.|Seismic anisotropy beneath the Shumagin Islands segment of the Aleutian-Alaska subduction zone||#JGR:100:9:1995:18165-18177|Anisotropy+Shumagin Islands+Subduction zone+Seismicity J|0129|Beckers,J.+Lay,T.|Very broadband seismic analysis of the 1992 Flores, Indonesia, earthquake (Mw=7.9)||#JGR:100:9:1995:18179-18193|1992+Indonesia+Tsunami+Broadband seismology||#*FLORES92|#*NICARAGUA92|#*SEAOFJAPAN93 J|0130|Helffrich,G.R.|Lithospheric deformation inferred from teleseismic shear wave splitting observations in the United Kingdom||#JGR:100:9:1995:18195-18204|Lithosphere+Deformation+Shear wave splitting+United Kingdom J|0131|Choy,G.L.+Boatwright,J.L.|Global patterns of radiated seismic energy and apparent stress||#JGR:100:9:1995:18205-18228|Energy+Stress+Shallow-focus earthquake+1986-1991 J|0132|Robinson,R.+Benites,R.|Synthetic seismicity models of multiple interacting faults||#JGR:100:9:1995:18229-18238|Fault+Interactive system+Synthetic seismicity+Model J|0133|Shaw,B.E.|Frictional weakening and slip complexity earthquake faults||#JGR:100:9:1995:18239-18251|Friction+Slip+Fault+Elastodynamics J|0134|Davis,P.M.+Knopoff,L.|The elastic modulus of media containing strongly interacting antiplane cracks||#JGR:100:9:1995:18253-18258|Elastic modulus+Crack+Theory J|0135|Mitchell,N.C.|Diffusion transport model for pelagic sediments on the Mid-Atlantic Ridge||#JGR:100:10:1995:19991-20009|Mid-Atlantic Ridge+Reflexion study+Sediment+Transport J|0136|Ruppel,C.+Von Herzen,R.P.+Bonneville,A.|Heat flux through an old (~175 Ma) passive margin: offshore southeastern United States||#JGR:100:10:1995:20037-20057|Heat flow+Southeastern United States+Offshore+Profile J|0137|Henstock,T.J.+White,R.S.+McBride,J.H.|The OCEAN study area: tectonic history from magnetic anomaly data and seismic reflectivity||#JGR:100:10:1995:20059-20078|North Atlantic+Reflexion study+Tectonics+Magnetism J|0138|Wernicke,B.|Low-angle normal faults and seismicity: a review||#JGR:100:10:1995:20159-20174|Review+Normal fault+Seismicity+Reflexion study J|0139|Personius,S.F.|Late Quaternary stream incision and uplift in the forearc of the Cascadia subduction zone, western Oregon||#JGR:100:10:1995:20193-20210|Subduction zone+Deformation+Oregon+River J|0140|King,S.D.+Ita,J.J.|Effect of slab rheology on mass transport across a phase transition boundary||#JGR:100:10:1995:20211-20222|Moment+Slab+Rheology+Phase transition J|0141|Yoshioka,S.+Wortel,M.J.R.|Three-dimensional numerical modeling of detachment of subducted lithosphere||#JGR:100:10:1995:20223-20244|Mediterranean+New Hebrides+Lithosphere+Subduction zone+Detachment+ISC J|0142|Savage,J.C.+Lisowski,M.+Svarc,J.L.+|Strain accumulation across the central Nevada seismic zone, 1973-1994||#JGR:100:10:1995:20257-20269|Nevada+Seismic zone+1973-1994+Strain J|0143|King,N.E.+Svarc,J.L.+Fogelman,E.B.+|Continuous GPS observations across the Hayward fault, California, 1991-1994||#JGR:100:10:1995:20271-20283|Global Positioning System+Hayward Fault+Slip+Landers||#*LANDERS92 J|0144|Cifuentes,I.L.|Seismic moment and duration of recent large and great earthquakes||#JGR:100:10:1995:20303-20309|Moment+Duration+Large earthquake+Great earthquake J|0145|Gusev,A.A.|Baylike and continuous variations of the relative level of the late coda during 24 years of observation on Kamchatka||#JGR:100:10:1995:20311-20319|Kamchatka+Local earthquake+Shear wave+Attenuation J|0146|Lukk,A.A.+Yunga,S.L.+Shevchenko,V.I.+|Earthquake focal mechanisms, deformation state, and seismotectonics of the Pamir-Tien Shan region, Central Asia||#JGR:100:10:1995:20321-20343|Focal mechanism+Deformation+Pamir+Tien Shan J|0147|Protti,M.+McNally,K.C.+Pacheco,J.F.+|The March 25, 1990 (Mw=7.0, ML=6.8), earthquake at the entrance of the Nicoya Gulf, Costa Rica: its prior activity, foreshocks, aftershocks, and triggered seismicity||#JGR:100:10:1995:20345-20358|Costa Rica+1990+Seismicity+Triggering||#*COSTARICA90 J|0148|Mori,J.+Helmberger,D.V.|Localized boundary layer below the mid-Pacific velocity anomaly identified from a PcP precursor||#JGR:100:10:1995:20359-20365|PcP-wave+Precursor+Pacific Ocean+Layer J|0149|Munson,C.G.+Thurber,C.H.+Li,Y.+|Crustal shear wave anisotropy in southern Hawaii: spatial and temporal analysis||#JGR:100:10:1995:20367-20377|Shear wave+Anisotropy+Crust+Hawaii||#*HAWAII J|0150|Weiland,C.M.+Steck,L.K.+Dawson,P.B.+|Nonlinear teleseismic tomography at Long Valley caldera, using three-dimensional minimum travel time ray tracing||#JGR:100:10:1995:20379-20390|Tomography+Long Valley Caldera+Travel-times+Ray tracing J|0151|Sheehan,A.F.+Abers,G.A.+Jones,C.H.+|Crustal thickness variations across the Colorado Rocky Mountains from teleseismic receiver functions||#JGR:100:10:1995:20391-20404|Crustal thickness+Colorado+P-wave+Teleseism J|0152|Shieh,C-F.|Travel time computation in stratified anisotropic media: generalized ray method||#JGR:100:10:1995:20405-20408|Travel-times+Anisotropic medium+Ray theory+Stratification J|0153|Marcellini,A.|Correction to `Arrhenius behavior of aftershock sequences'||#JGR:100:10:1995:20409|Errata+Aftershock+Sequence+Model+Loading J|0154|De Bremond d'Ars,J.+Jaupart,C.+Sparks,R.S.J.|Distribution of volcanoes in active margins||#JGR:100:10:1995:20421-20432|Distribution+Volcano+Volcanic tremor+Depth J|0155|Fung,A.T.+Haggerty,S.E.|Petrography and mineral compositions of eclogites from the Koidu Kimberlite Complex, Sierra Leone||#JGR:100:10:1995:20451-20473|Mineral+Petrography+Sierra Leone+P-wave J|0156|Lundgren,P.+Saucier,F.+Palmer,R.+|Alaska crustal deformation: finite element modeling constrained by geologic and very long baseline interferometry data||#JGR:100:11:1995:22033-22045|Alaska+Crustal deformation+Fault+Strike-slip J|0157|Pearson,C.F.+Beavan,J.+Darby,D.J.+|Strain distribution across the Australian-Pacific plate boundary in the central South Island, New Zealand, from 1992 GPS and earlier terrestrial observations||#JGR:100:11:1995:22071-22081|South Island+Strain+Global Positioning System+Plate motion||#*ARTHURSPASS94 J|0158|Tommasi,A.+Vauchez,A.+Daudre,B.|Initiation and propagation of shear zones in a heterogeneous continental lithosphere||#JGR:100:11:1995:22083-22101|Shear zone+Continental lithosphere+Propagation+Brazil J|0159|Scholz,C.H.+Campos,J.|On the mechanism of seismic decoupling and back arc spreading at subduction zones||#JGR:100:11:1995:22103-22115|Subduction zone+Decoupling+Back-arc+Spreading||#*MARIANAS93 J|0160|Ponko,S.C.+Peacock,S.M.|Thermal modeling of the southern Alaska subduction zone: insight into the petrology of the subducting slab and overlying mantle wedge||#JGR:100:11:1995:22117-22128|Southern Alaska+Subduction zone+Seismicity+Thermal model J|0161|Hyndman,R.D.+Wang,K.|The rupture zone of Cascadia great earthquakes from current deformation and the thermal regime||#JGR:100:11:1995:22133-22154|Cascadia subduction zone+Great earthquake+Deformation+Rupture J|0162|Segall,P.+Rice,J.R.|Dilatancy, compaction, and slip instability of a fluid-infiltrated fault||#JGR:100:11:1995:22155-22171|Fluid+Fault+Dilatancy+Slip J|0163|Rudnicki,J.W.+Wu,M.|Mechanics of dip-slip faulting in an elastic half-space||#JGR:100:11:1995:22173-22186|Dip-slip+Faulting+Half-space+Mechanics J|0164|Zhang,J.+Langston,C.A.|Constraints on oceanic lithosphere structure from deep-focus regional receiver function inversions||#JGR:100:11:1995:22187-22196|Oceanic lithosphere+Deep-focus earthquake+Receiver+P-wave J|0165|Gillard,D.+Wyss,M.|Comparison of strain and stress tensor orientation: application to Iran and southern California||#JGR:100:11:1995:22197-22213|Strain+Stress+Iran+Southern California+Fault plane solution+Moment tensor J|0166|McNamara,D.E.+Owens,T.J.+Walter,W.R.|Observations of regional phase propagation across the Tibetan Plateau||#JGR:100:11:1995:22215-22229|Regional phase+Propagation+Tibet+Velocity J|0167|Lafond,C.F.+Levander,A.R.|Migration of wide-aperture onshore-offshore seismic data, central California: seismic images of late stage subduction||#JGR:100:11:1995:22231-22243|Seismic survey+California+Imaging+Crustal structure J|0168|Coulton,A.J.+Harper,G.D.+O'Hanley,D.S.|Oceanic versus emplacement age serpentinization in the Josephine ophiolite: implications for the nature of the Moho at intermediate and slow spreading ridges||#JGR:100:11:1995:22245-22260|Oceanic crust+Serpentinite+Moho+Seismic survey J|0169|Pyle,D.G.+Christie,D.M.+Mahoney,J.J.+|Geochemistry and geochronology of ancient southeast Indian and southwest Pacific seafloor||#JGR:100:11:1995:22261-22282|Southwest Pacific+Southeast Indian Ocean+Upper mantle+Wave velocity J|0170|Dove,P.M.|Geochemical controls on the kinetics of quartz fracture at subcritical tensile stresses||#JGR:100:11:1995:22349-22359|Geochemistry+Kinetics+Fracture+Stress J|0171|Sinha,B.K.+Kostek,S.+Norris,A.N.|Stoneley and flexural modes in pressurized boreholes||#JGR:100:11:1995:22375-22381|Stoneley wave+Borehole+Flexure+Pressure J|0172|Schulson,E.M.+Nickolayev,O.Y.|Failure of columnar saline ice under biaxial compression: failure envelopes and the brittle-to-ductile transition||#JGR:100:11:1995:22383-22400|Ice+Failure+Compression+Laboratory J|0173|Nissen,S.S.+Hayes,D.E.+Buhl,P.+|Deep penetration seismic soundings across the northern margin of the South China Sea||#JGR:100:11:1995:22407-22433|Deep seismic sounding+South China Sea+Moho+Crustal thickness J|0174|Hayes,D.E.+Nissen,S.S.+Buhl,P.+|Throughgoing crustal faults along the northern margin of the South China Sea and their role in crustal extension||#JGR:100:11:1995:22435-22446|South China Sea+Deep seismic sounding+Fault+Crustal structure J|0175|Nissen,S.S.+Hayes,D.E.+Bochu,Y.+|Gravity, heat flow, and seismic constraints on the processes of crustal extension: northern margin of the South China Sea||#JGR:100:11:1995:22447-22483|Marine geophysical investigation+South China Sea+Extension+Crustal structure J|0176|Abercrombie,R.E.|Earthquake locations using single-station deep borehole recordings: implications for microseismicity on the San Andreas fault in southern California||#JGR:100:12:1995:24003-24014|Earthquake location+Cajon Pass+San Andreas Fault+Microseismicity J|0177|Abercrombie,R.E.|Earthquake source scaling relationships from -1 to 5 ML using seismographs recorded at 2.5-km depth||#JGR:100:12:1995:24015-24036|Source+Scaling+Small earthquake+Local magnitude J|0178|Vasco,D.W.+Johnson,L.R.+Pulliam,J.|Lateral variations in mantle velocity structure and discontinuities determined from P, PP, S, SS, and SS-SdS travel time residuals||#JGR:100:12:1995:24037-24059|ISC+Lateral variation+Velocity structure+Mantle+Discontinuity J|0179|Passier,M.L.+Snieder,R.K.|Using differential waveform data to retrieve local S velocity structure or path-averaged S velocity gradients||#JGR:100:12:1995:24061-24078|Waveform+S-wave+Velocity structure+Gradient J|0180|Stuart,W.D.+Tullis,T.E.|Fault model for preseismic deformation at Parkfield, California||#JGR:100:12:1995:24079-24099|Fault+Deformation+Parkfield+Instability J|0181|Stuart,W.D.+Banks,P.O.+Sasai,Y.+|Piezomagnetic field for Parkfield fault model||#JGR:100:12:1995:24101-24110|Parkfield+Fault+Instability+Piezomagnetic effect J|0182|Senatorski,P.|Dynamics of a zone of four parallel faults: a deterministic model||#JGR:100:12:1995:24111-24120|Fault+Model+Dynamics+Earthquake cycle J|0183|Lindvall,S.C.+Rockwell,T.K.|Holocene activity of the Rose Canyon fault zone in San Diego, California||#JGR:100:12:1995:24121-24132|Southern California+Holocene+Fault zone+Hazard J|0184|Corchete,V.+Badal,J.+Seron,F.J.+|Tomographic images of the Iberian subcrustal lithosphere and asthenosphere||#JGR:100:12:1995:24133-24146|Tomography+Iberian Peninsula+S-wave+Mantle J|0185|Wilcock,W.S.D.+Solomon,S.C.+Purdy,G.M.+|Seismic attenuation structure of the East Pacific Rise near 9degrees30'N||#JGR:100:12:1995:24147-24165|Attenuation+East Pacific Rise+Compressional wave+Structure J|0186|De Natale,G.+Zollo,A.+Ferraro,A.+|Accurate fault mechanism determinations for a 1984 earthquake swarm at Campi Flegrei caldera (Italy) during an unrest episode: implications for volcanological research||#JGR:100:12:1995:24167-24185|Focal mechanism+Microearthquake+1984+Campi Flegrei||#*PHLEG J|0187|Ruppel,C.|Extensional processes in continental lithosphere||#JGR:100:12:1995:24187-24215|Extension+Continental lithosphere+Rift+Plate tectonics J|0188|Chian,D-P.+Louden,K.E.+Reid,I.|Crustal structure of the Labrador Sea conjugate margin and implications for the formation of nonvolcanic continental margins||#JGR:100:12:1995:24239-24253|Labrador Sea+Crustal structure+Reflexion study+Continental margin J|0189|Zelt,C.A.+White,D.J.|Crustal structure and tectonics of the southeastern Canadian Cordillera||#JGR:100:12:1995:24255-24273|Crustal structure+Canadian Cordillera+Lithoprobe+Tectonics J|0190|Shen-Tu,B.+Holt,W.E.+Haines,A.J.|Intraplate deformation in the Japanese Islands: a kinematic study of intraplate deformation at a convergent plate margin||#JGR:100:12:1995:24275-24293|Deformation+Japan+Convergent margin+Focal mechanism J|0191|Fournier,M.+Jolivet,L.+Fabbri,O.|Neogene stress field in SW Japan and mechanism of deformation during the Sea of Japan opening||#JGR:100:12:1995:24295-24314|Neogene+Stress+Japan+Deformation+Focal mechanism J|0192|Tinnon,M.J.+Holt,W.E.+Haines,A.J.|Velocity gradients in the northern Indian Ocean inferred from earthquake moment tensors and relative plate velocities||#JGR:100:12:1995:24315-24329|Indian Ocean+Velocity structure+Moment tensor+Plate motion J|0193|Lowe,C.+Dehler,S.A.|Crustal thickness beneath the Queen Charlotte Basin, Canada: results of a seismically constrained gravity inversion||#JGR:100:12:1995:24331-24345|Queen Charlotte Islands+Crustal thickness+Gravity+Refraction study J|0194|Gordon,R.G.|Plate motions, crustal and lithospheric mobility, and paleomagnetism: prospective viewpoint||#JGR:100:12:1995:24367-24392|Plate motion+Crustal movement+Palaeomagnetism+Focal mechanism J|0195|Jordahl,K.A.+McNutt,M.K.+Webb,H.F.+|Why there are no earthquakes on the Marquesas fracture zone||#JGR:100:12:1995:24431-24447|Marquesas Islands+Fracture zone+Aseismic region+Marine geophysical investigation J|0196|Wolfe,C.J.+Purdy,G.M.+Toomey,D.R.+|Microearthquake characteristics and crustal velocity structure at 29degreesN on the Mid-Atlantic Ridge: the architecture of a slow spreading segment||#JGR:100:12:1995:24449-24472|Microearthquake+Crustal structure+Velocity+Mid-Atlantic Ridge J|0197|Clift,P.D.+Turner,J.+a-Ocean Drilling Program Leg 152 Scientific Party|Dynamic support by the Icelandic plume and vertical tectonics of the northeast Atlantic continental margins||#JGR:100:12:1995:24473-24486|Iceland+North Atlantic+Oceanic crust+Refraction study J|0198|Watts,A.B.+Masson,D.G.|A giant landslide on the north flank of Tenerife, Canary Islands||#JGR:100:12:1995:24487-24498|Landslide+Canary Islands+Refraction study+Bathymetry J|0199|Denlinger,R.P.+Okubo,P.|Structure of the mobile south flank of Kilauea Volcano, Hawaii||#JGR:100:12:1995:24499-24507|Structure+Kilauea+Landslide+Seismicity J|0200|Berryman,J.G.+Wang,H.F.|The elastic coefficients of double-porosity models for fluid transport in jointed rock||#JGR:100:12:1995:24611-24627|Fluid+Poroelasticity+Joint+Rock J|0201|Renshaw,C.E.|On the relationship between mechanical and hydraulic apertures in rough-walled fractures||#JGR:100:12:1995:24629-24636|Mechanics+Hydrofracture+Aperture+Deformation J|0202|Dahl-Jensen,T.+Lindsey,G.+Law,A.+|Processing of pre-critical wide-angle seismic reflection data from the BABEL project||#GJI:122:1:1995:1-15|Baltic Shield+BABEL+Reflexion study+Common midpoint J|0203|Law,A.+Snyder,D.B.+Singh,S.C.|Determination of Poisson's ratio from pre-critical wide-angle seismic reflection data from the BABEL project||#GJI:122:1:1995:16-32|Baltic Shield+BABEL+Reflexion study+Poisson's ratio J|0204|Frazer,L.N.|SH propagation in rocks with planar fractures--I. Excess slowness||#GJI:122:1:1995:33-62|SH-wave+Anisotropy+Fracture+Scattering J|0205|Zhao,S.|Joint inversion of observed gravity and GPS baseline changes for the detection of the active fault segment at the Red River fault zone||#GJI:122:1:1995:70-88|Gravity+Global Positioning System+Red River+Fault zone J|0206|Kennett,B.L.N.+Engdahl,E.R.+Buland,R.|Constraints on seismic velocities in the Earth from traveltimes||#GJI:122:1:1995:108-124|Core phase+P-wave+S-wave+Travel-times+ISC J|0207|Leary,P.C.|Quantifying crustal fracture heterogeneity by seismic scattering||#GJI:122:1:1995:125-142|Attenuation+Crack+Scattering+Coda J|0208|Leary,P.C.|The cause of frequency-dependent seismic absorption in crustal rock||#GJI:122:1:1995:143-151|Anelasticity+Anisotropy+Attenuation+Fracture J|0209|Schnegg,P-A.+Sommaruga,A.|Constraining seismic parameters with a controlled-source audio-magnetotelluric method (CSAMT)||#GJI:122:1:1995:152-160|Magnetotellurics+Vibroseis+Profile+Switzerland J|0210|Wang,T.K.+Waltham,D.A.|Seismic modelling over 3-D homogeneous layered structures--summation of Gaussian beams||#GJI:122:1:1995:161-174|Gaussian beam+Layered medium+Modelling+Diffraction J|0211|Menke,W.+Levin,V.+Sethi,R.|Seismic attenuation in the crust at the mid-Atlantic plate boundary in south-west Iceland||#GJI:122:1:1995:175-182|Crust+Attenuation+Shear wave+Iceland J|0212|Tsuruoka,H.+Ohtake,M.+Sato,H.|Statistical test of the tidal triggering of earthquakes: contribution of the ocean tide loading effect||#GJI:122:1:1995:183-194|Centroid-moment tensor+Triggering+Tide+Normal fault J|0213|Bassi,G.|Relative importance of strain rate and rheology for the mode of continental extension||#GJI:122:1:1995:195-210|Strain+Lithosphere+Rheology+Continental rift J|0214|Fukao,Y.|Single-force representation of earthquakes due to landslides or the collapse of caverns||#GJI:122:1:1995:243-248|Dislocation+Landslide+Collapse+Force J|0215|Ben-Menahem,A.+Gibson,R.L.|Radiation of elastic waves from sources embedded in anisotropic inclusions||#GJI:122:1:1995:249-265|Anisotropy+Wave theory+Radiation pattern+Source J|0216|Zhao,L.+Dahlen,F.A.|Asymptotic normal modes of the Earth--III. Frechet kernel and group velocity||#GJI:122:1:1995:299-325|Free oscillation+Group velocity+Normal mode+Frechet kernel J|0217|Jokat,W.+Weigelt,E.+Kristoffersen,Y.+|New insights into the evolution of the Lomonosov Ridge and the Eurasian Basin||#GJI:122:2:1995:378-392|Arctic Ocean+Eurasian Basin+Reflexion study+Tectonics J|0218|Comte,D.+Suarez,G.|Stress distribution and geometry of the subducting Nazca plate in northern Chile using teleseismically recorded earthquakes||#GJI:122:2:1995:419-440|Chile+Stress+Fault plane solution+Subduction+ISC J|0219|Li,Y.+Thurber,C.H.|Modelling of near-surface seismic structure beneath Hawaii using reverberations||#GJI:122:2:1995:441-456|Body wave+Hawaii+Structure+Reflexion study J|0220|Cowie,P.A.+Sornette,D.+Vanneste,C.|Multifractal scaling properties of a growing fault population||#GJI:122:2:1995:457-469|Scaling+Fractal analysis+Fault+Interactive system J|0221|Kennett,B.L.N.|Approximations for surface-wave propagation in laterally varying media||#GJI:122:2:1995:470-478|Lateral heterogeneity+Surface wave+Waveform+Inversion J|0222|Friederich,W.+Dalkolmo,J.|Complete synthetic seismograms for a spherically symmetric Earth by a numerical computation of the Green's function in the frequency domain||#GJI:122:2:1995:537-550|Synthetic seismogram+Body wave+Long-period wave+Green's function J|0223|Holt,W.E.+Li,M.+Haines,A.J.|Earthquake strain rates and instantaneous relative motions within central and eastern Asia||#GJI:122:2:1995:569-593|Strain+Asia+Mechanism+Deformation J|0224|Kneib,G.|The statistical nature of the upper continental crystalline crust derived from in situ seismic measurements||#GJI:122:2:1995:594-616|Crustal structure+Borehole+Germany+Seismic waves J|0225|Gutscher,M-A.|Crustal structure and dynamics in the Rhine Graben and the Alpine foreland||#GJI:122:2:1995:617-636|Crustal structure+Alps+Germany+Profiling J|0226|Kruger,F.+Weber,M.+Scherbaum,F.+|Evidence for normal and inhomogeneous lowermost mantle and core-mantle boundary structure under the Arctic and northern Canada||#GJI:122:2:1995:637-657|Body wave+Arctic+Core-mantle boundary+Array+Nuclear explosion J|0227|Trampert,J.+Woodhouse,J.H.|Global phase velocity maps of Love and Rayleigh waves between 40 and 150 seconds||#GJI:122:2:1995:675-690|Surface wave+Tomography+Resolution+Phase velocity J|0228|De Souza,J.L.|Shear-wave velocity in the south-eastern Brazilian continental shelf||#GJI:122:2:1995:691-702|Brazil+Shear wave+Crustal structure+Dispersion|Research note J|0229|Celerier,B.|Erratum to `Tectonic regime and slip orientation of reactivated faults'||#GJI:122:2:1995:703|Errata+Fault-slip+Stress+Tectonics+Orientation J|0230|Lee,J.M.+Alexander,S.S.|Seismic anisotropy caused by rock fabric||#GJI:122:3:1995:705-718|Rock+Anisotropy+S-wave+Shear wave splitting J|0231|Ulrych,T.J.+Sacchi,M.D.|Sompi, Pisarenko and the extended information criterion||#GJI:122:3:1995:719-724|Sompi method+Spectral analysis+Time series+Information theory J|0232|King,S.D.|Radial models of mantle viscosity: results from a genetic algorithm||#GJI:122:3:1995:725-734|Tomography+Mantle+Viscosity+Genetic algorithm J|0233|Wei,K.+De Bremaecker,J-C.|Fracture growth--I. Formulation and implementations||#GJI:122:3:1995:735-745|Fracture+Growth+Friction+Numerical method J|0234|Wei,K.+De Bremaecker,J-C.|Fracture growth--II. Case studies||#GJI:122:3:1995:746-754|Fracture+Growth+Strain+Shearing J|0235|Chao,B.F.+Gross,R.S.|Changes in the Earth's rotational energy induced by earthquakes||#GJI:122:3:1995:776-783|Rotation+Earthquake+Polar motion+Spin J|0236|Chao,B.F.+Gross,R.S.+Dong,D-N.|Changes in global gravitational energy induced by earthquakes||#GJI:122:3:1995:784-789|Earthquake+Gravitation+Energy+Heat flow J|0237|Donze,F.+Magnier,S-A.|Formulation of a 3-D numerical model of brittle behaviour||#GJI:122:3:1995:790-802|Numerical modelling+Brittle+Failure+Shear zone J|0238|Melis,N.S.+Burton,P.W.+Brooks,M.|Coseismic crustal deformation from microseismicity in the Patras area, western Greece||#GJI:122:3:1995:815-836|Crustal deformation+Greece+Microearthquake+Seismotectonics J|0239|Sambridge,M.+Braun,J.+McQueen,H.|Geophysical parametrization and interpolation of irregular data using natural neighbours||#GJI:122:3:1995:837-857|Interpolation+Parameters+Irregularity+Tomography J|0240|Charvis,P.+Recq,M.+Operto,S.+|Deep structure of the northern Kerguelen Plateau and hotspot-related activity||#GJI:122:3:1995:899-924|Refraction study+Kerguelen Islands+Lower crust+Deep structure J|0241|Murai,Y.+Kawahara,J.+Yamashita,T.|Multiple scattering of SH waves in 2-D elastic media with distributed cracks||#GJI:122:3:1995:925-937|Multiple scattering+SH-wave+Synthetic seismogram+Crack J|0242|Pondrelli,S.+Morelli,A.+Boschi,E.|Seismic deformation in the Mediterranean area estimated by moment tensor summation||#GJI:122:3:1995:938-952|Deformation+Mediterranean+Moment tensor+Collision+ISC J|0243|Pegler,G.+Das,S.+Woodhouse,J.H.|A seismological study of the eastern New Guinea and the western Solomon Sea regions and its tectonic implications||#GJI:122:3:1995:961-981|Papua New Guinea+Seismicity+Solomon Sea+Subduction+ISC||#*MARKHAM93B|#*MARKHAM93A|#*HUON92|#*NEWGUINEA87|#*NEWGUINEA76 J|0244|Liu,P-C.+Hartzell,S.H.+Stephenson,W.J.|Non-linear multiparameter inversion using a hybrid global search algorithm: applications in reflection seismology||#GJI:122:3:1995:991-1000|Reflexion+Inversion+Inverse problem+Waveform J|0245|Lilly,J.M.+Park,J.|Multiwavelet spectral and polarization analyses of seismic records||#GJI:122:3:1995:1001-1021|Body wave+Inverse problem+Polarization+Spectral analysis||#*SOLOMON91|#*BOLIVIA94|#*FIJI94 J|0246|Olsen,K.B.+Schuster,G.T.|Causes of low-frequency ground motion amplification in the Salt Lake Basin: the case of the vertically incident P wave||#GJI:122:3:1995:1045-1061|Salt Lake Valley+P-wave+Propagation+Sedimentary basin J|0247|Matheney,M.P.+Nowack,R.L.|Seismic attenuation values obtained from instantaneous-frequency matching and spectral ratios||#GJI:123:1:1995:1-15|Attenuation+Frequency matching+Spectral ratio+Refraction study J|0248|Burton,P.W.+Melis,N.S.+Brooks,M.|Coseismic crustal deformation on a fault zone defined by microseismicity in the Pavliani area, central Greece||#GJI:123:1:1995:16-40|Deformation+Greece+Microearthquake+Tectonics J|0249|Abers,G.A.+Hu,X.+Sykes,L.R.|Source scaling of earthquakes in the Shumagin Region, Alaska: time-domain inversions of regional waveforms||#GJI:123:1:1995:41-58|Source-time function+Shumagin Islands+Subduction+Green's function+ISC||#*SHUMAGIN93|#*SHUMAGIN93A|#*SHUMAGIN93B J|0250|Kao,H.+Liu,L-G.|A hypothesis for the seismogenesis of a double seismic zone||#GJI:123:1:1995:71-84|Double seismic zone+Seismogenesis+Kuril Islands+Profile J|0251|Robertson,G.S.+Woodhouse,J.H.|Evidence for proportionality of P and S heterogeneity in the lower mantle||#GJI:123:1:1995:85-116|Tomography+Heterogeneity+Lower mantle+P-wave+S-wave+ISC J|0252|Wyss,M.+Westerhaus,M.+Berckhemer,H.+|Precursory seismic quiescence in the Mudurnu Valley, North Anatolian fault zone, Turkey||#GJI:123:1:1995:117-124|Prediction+Quiescence+Turkey+Seismicity J|0253|Levshin,A.L.+Ritzwoller,M.H.|Characteristics of surface waves generated by events on and near the Chinese nuclear test site||#GJI:123:1:1995:131-148|Surface wave+Propagation+Nuclear explosion+Lop Nor Test Site J|0254|Lomax,A.J.+Snieder,R.K.|The contrast in upper mantle shear-wave velocity between the East European Platform and tectonic Europe obtained with genetic algorithm inversion of Rayleigh-wave group dispersion||#GJI:123:1:1995:169-182|Surface wave+Mantle structure+Genetic algorithm+Europe J|0255|Vasco,D.W.|A transformational approach to geophysical inverse problems||#GJI:123:1:1995:183-212|Tomography+Velocity+Inverse problem+Cross-hole J|0256|Liang,B-Y.+Kisslinger,C.+Bryan,C.J.|Estimate of the stress field in Kilauea's south flank, Hawaii||#GJI:123:1:1995:213-231|Stress+Kilauea+Fault plane solution+Finite element method J|0257|Laske,G.|Global observation of off-great-circle propagation of long-period surface waves||#GJI:123:1:1995:245-259|Tomography+Surface wave+Polarization+Propagation J|0258|Schweitzer,J.|Blockage of regional seismic waves by the Teisseyre-Tornquist zone||#GJI:123:1:1995:260-276|Barrier+Seismic waves+Lithosphere+Central Europe J|0259|Hanyga,A.|Asymptotic edge-and-vertex diffraction theory||#GJI:123:1:1995:277-290|Modelling+Edge wave+Diffraction+Travel-times J|0260|Hlatywayo,D.J.+Midzi,V.|Determination of Lg-wave attenuation using single-station seismographs: a case study for Zimbabwe||#GJI:123:1:1995:291-296|Lg-wave+Attenuation+Zimbabwe+Single-station recording|Research note J|0261|Mochizuki,E.|Anisotropic tomography of P-wave traveltimes||#GJI:123:1:1995:297-300|Anisotropy+Body wave+Tomography+Perturbation theory|Research note J|0262|Jackson,A.|Review of `Geophysical inverse theory' by R. L. Parker||#GJI:123:1:1995:301-302|Review+Inverse problem+Geophysics+Modelling|Princeton University Press, 1994, 386pp J|0263|Ivins,E.R.+Sammis,C.G.|On lateral viscosity contrast in the mantle and the rheology of low-frequency geodynamics||#GJI:123:2:1995:305-322|Shear wave+Q+Mantle+Viscosity J|0264|Hynes,A.+Snyder,D.B.|Deep-crustal mineral assemblages and potential for crustal rocks below the Moho in the Scottish Caledonides||#GJI:123:2:1995:323-339|Reflexion study+Scotland+Caledonides+Moho J|0265|Wang,Y.+Houseman,G.A.|Tomographic inversion of reflection seismic amplitude data for velocity variation||#GJI:123:2:1995:355-372|Tomography+Reflexion study+Amplitude+Perturbation theory J|0266|Cara,M.+Bour,M.|An analytical solution of the elastodynamic equations along the axis of a circular fault||#GJI:123:2:1995:373-390|Strong motion+Source+Radiation pattern+Near field J|0267|Kornig,M.|Cell tracing for smooth, isotropic media: a new concept based on a generalized analytic solution||#GJI:123:2:1995:391-408|Ray tracing+Isotropic medium+Kinematics+Travel-times J|0268|Slunga,R.+Rognvaldsson,S.Th.+Bodvarsson,R.|Absolute and relative locations of similar events with application to microearthquakes in southern Iceland||#GJI:123:2:1995:409-419|Swarm+Iceland+Fault plane solution+Earthquake location J|0269|Mantyniemi,P.|Bayesian crustal structure inversion: an investigation of the feasibilities and limitations of the method||#GJI:123:2:1995:420-430|Crustal structure+Earthquake location+Layered medium+Inversion J|0270|Alsina,D.+Snieder,R.K.|Small-scale sublithospheric continental mantle deformation: constraints from SKS splitting observations||#GJI:123:2:1995:431-448|SKS-wave+Shear wave splitting+Anisotropy+NARS J|0271|Geller,R.J.+Takeuchi,N.|A new method for computing highly accurate DSN synthetic seismograms||#GJI:123:2:1995:449-470|Synthetic seismogram+Frequency domain+Propagation+Isotropic medium J|0272|Yomogida,K.+Benites,R.|Relation between direct wave Q and coda Q: a numerical approach||#GJI:123:2:1995:471-483|Attenuation+Scattering+Coda Q+Boundary analysis method J|0273|Ikelle,L.T.|Linearized inversion of 3-D multi-offset data: background reconstruction and AVO inversion||#GJI:123:2:1995:507-528|Reflexion study+P-wave+Scattering+Fourier transform J|0274|Clouser,R.H.+Langston,C.A.|Effect of sinusoidal interfaces on teleseismic P-wave receiver functions||#GJI:123:2:1995:541-558|P-wave+Scattering+Seismic waves+Synthetic seismogram J|0275|Foda,M.A.+Chang,Y-H.|Faraday resonance in thin sedimentary layers||#GJI:123:2:1995:559-571|Layered medium+Sedimentary basin+Strong motion+Resonance J|0276|Souriau,A.+Roudil,P.|Attenuation in the uppermost inner core from broad-band GEOSCOPE PKP data||#GJI:123:2:1995:572-587|Attenuation+Broadband seismology+Inner core+PKP-wave J|0277|Maurer,H.+Deichmann,N.|Microearthquake cluster detection based on waveform similarities, with an application to the western Swiss Alps||#GJI:123:2:1995:588-600|Fault plane solution+Microearthquake+Switzerland+Waveform J|0278|Jokat,W.+Weigelt,E.+Kristoffersen,Y.+|New geophysical results from the south-western Eurasian Basin (Morris Jesup Rise, Gakkel Ridge, Yermak Plateau) and the Fram Strait||#GJI:123:2:1995:601-610|Arctic Ocean+Transect+Reflexion study+Bathymetry J|0279|Young,J.B.+Presgrave,B.W.|The political subdivision of Southeast Asia and Northwest Africa in the Flinn-Engdahl Regionalization Scheme||#GJI:123:2:1995:623-627|Flinn-Engdahl code+Regionalization+Southeast Asia+Northwest Africa|Research note J|0280|Novelo-Casanova,D.A.|Correlation between the fault rupture pattern and associated microseismic activity of the Petatlan earthquake||#GJI:123:2:1995:628-632|Fault+Mexico+Microearthquake+1979|Research note|#*PETATLAN J|0281|Tsapanos,T.M.|The temporal distribution of aftershock sequences in the subduction zones of the Pacific||#GJI:123:2:1995:633-636|Aftershock+Temporal distribution+Circum-Pacific Belt+Tectonics|Research note J|0282|Bonafede,M.+Olivieri,M.|Displacement and gravity anomaly produced by a shallow vertical dyke in a cohesionless medium||#GJI:123:3:1995:639-652|Crack+Gravity+Magma+Uplift J|0283|Drijkoningen,G.G.+White,R.S.|Seismic velocity structure of oceanic crust by inversion using genetic algorithms||#GJI:123:3:1995:653-664|Waveform+Genetic algorithm+Velocity structure+Profile+North Atlantic J|0284|Gusev,A.A.|Vertical profile of turbidity and Coda Q||#GJI:123:3:1995:665-672|Profile+Scattering+Body wave+Coda Q J|0285|Steer,D.N.+Knapp,J.H.+Brown,L.D.+|Crustal structure of the Middle Urals based on reprocessing of Russian seismic reflection data||#GJI:123:3:1995:673-682|Reflexion study+Urals+Crustal structure+Fault J|0286|Belardinelli,M.E.+Bonafede,M.|Post-seismic stress evolution for a strike-slip fault in the presence of a viscoelastic asthenosphere||#GJI:123:3:1995:744-756|Stress+Strike-slip+Lithosphere+Asthenosphere J|0287|Wang,Z.+Dahlen,F.A.|Validity of surface-wave ray theory on a laterally heterogeneous Earth||#GJI:123:3:1995:757-773|Surface wave+Ray theory+Lateral heterogeneity+Fresnel zone J|0288|Jones,S.M.|Velocities and quality factors of sedimentary rocks at low and high effective pressures||#GJI:123:3:1995:774-780|Ultrasonics+Velocity+Sedimentary rock+Pressure J|0289|Okada,T.+Matsuzawa,T.+Hasegawa,A.|Shear-wave polarization anisotropy beneath the north-eastern part of Honshu, Japan||#GJI:123:3:1995:781-797|Shear wave+Anisotropy+Honshu+Polarization J|0290|Passier,M.L.+Snieder,R.K.|On the presence of intermediate-scale heterogeneity in the upper mantle||#GJI:123:3:1995:817-837|Tomography+Surface wave+Heterogeneity+Upper mantle J|0291|Yin,Z-M.+Ranalli,G.|Modelling of earthquake rupturing as a stochastic process and estimation of its distribution function from earthquake observations||#GJI:123:3:1995:838-848|b-Value+Rupture+Stress-drop+Slip||#*LUZON90A J|0292|Fang,M.+Hager,B.H.|The singularity mystery associated with a radially continuous Maxwell viscoelastic structure||#GJI:123:3:1995:849-865|Free oscillation+Mantle+Viscosity+Mode J|0293|Tong,C.|Characterization of seismic phases--an automatic analyser for seismograms||#GJI:123:3:1995:937-947|Broadband seismology+Phase identification+Seismogram+Detection||#*ZAIRE92 J|0294|Tong,C.+Kennett,B.L.N.|Towards the identification of later seismic phases||#GJI:123:3:1995:948-958|Phase+Identification+Detection+Frequency J|0295|Grechka,V.Yu.+McMechan,G.A.|Anisotropy and non-linear polarization of body waves in exponentially heterogeneous media||#GJI:123:3:1995:959-965|Anisotropy+Body wave+Polarization+Propagation|Research note J|0296|Dixon,T.H.+Robaudo,S.+Lee,J.+|Constraints on present-day Basin and Range deformation from space geodesy||Tectonics:14:4:1995:755-772|Deformation+Basin & Range+Geodetic survey+1872||#*EUREKA93 J|0297|Hatzfeld,D.+Kassaras,I.+Panagiotopoulos,D.G.+|Microseismicity and strain pattern in northwestern Greece||Tectonics:14:4:1995:773-785|Microseismicity+Greece+Focal mechanism+Seismotectonics J|0298|Docherty,C.+Banda,E.|Evidence for the eastward migration of the Alboran Sea based on regional subsidence analysis: a case for basin formation by delamination of the subcrustal lithosphere?||Tectonics:14:4:1995:804-818|Refraction study+Alboran Sea+Subsidence+Lithosphere J|0299|Storti,F.|Tectonics of the Punta Bianca promontory: insights for the evolution of the Northern Apennines - Northern Tyrrhenian Sea basin||Tectonics:14:4:1995:832-847|Italy+Tyrrhenian Sea+Seismicity+Tectonics J|0300|Roca,E.+Bessereau,G.+Jawor,E.+|Pre-Neogene evolution of the western Carpathians: constraints from the Bochnia-Tatra Mountains section (Polish Western Carpathians)||Tectonics:14:4:1995:855-873|Carpathians+Evolution+Reflexion study+Refraction study J|0301|Lowe,C.+Cassidy,J.F.|Geophysical evidence for crustal thickness variations between the Denali and Tintina fault systems in west-central Yukon||Tectonics:14:4:1995:909-917|Crustal thickness+Yukon Territory+Receiver function+Broadband seismometer J|0302|Keen,C.E.+Potter,D.P.|Formation and evolution of the Nova Scotian rifted margin: evidence from deep seismic reflection data||Tectonics:14:4:1995:918-932|Reflexion study+Rift+Nova Scotia+Formation J|0303|Abalos,B.+Cusi,J.D.|Correlation between seismic anisotropy and major geological structures in SW Iberia: a case study on continental lithosphere deformation||Tectonics:14:4:1995:1021-1040|Iberia+Deep seismic sounding+Anisotropy+Continental lithosphere J|0304|Strecker,M.R.+Frisch,W.+Hamburger,M.W.+|Quaternary deformation in the eastern Pamirs, Tadzhikistan and Kyrgyzstan||Tectonics:14:5:1995:1061-1079|Pamirs+Deformation+Focal mechanism+Seismicity J|0305|Tanioka,Y.+Satake,K.+Ruff,L.J.|Seismotectonics of the April 25, 1992, Petrolia earthquake and the Mendocino triple junction region||Tectonics:14:5:1995:1095-1103|Seismotectonics+1992+Cascadia subduction zone+Triple junction||#*PETROLIA92A J|0306|Hall,R.+Ali,J.R.+Anderson,C.D.|Cenozoic motion of the Philippine Sea plate: Palaeomagnetic evidence from eastern Indonesia||Tectonics:14:5:1995:1117-1132|Philippine Sea+Plate motion+Palaeomagnetism+Seismicity J|0307|Saltus,R.W.+Thompson,G.A.|Why is it downhill from Tonopah to Las Vegas?: a case for mantle plume support of the high northern Basin and Range||Tectonics:14:6:1995:1235-1244|Mantle plume+Basin & Range+Crustal thickness+Density J|0308|Suter,M.+Quintero-Legorreta,O.+Lopez-Martinez,M.+|The Acambay graben: active intraarc extension in the trans-Mexican volcanic belt, Mexico||Tectonics:14:6:1995:1245-1262|Major earthquake+Mexico+Volcanic belt+Extension J|0309|Adams,D.C.+Miller,K.C.|Evidence for late Middle Proterozoic extension in the Precambrian basement beneath the Permian basin||Tectonics:14:6:1995:1263-1272|Texas+New Mexico+Extension+Reflexion study J|0310|MacKay,M.E.|Structural variation and landward vergence at the toe of the Oregon accretionary prism||Tectonics:14:6:1995:1309-1320|Reflexion study+Cascadia Basin+Structure+Accretionary prism J|0311|McBride,J.H.+Snyder,D.B.+Tate,M.P.+|Upper mantle reflector structure and origin beneath the Scottish Caledonides||Tectonics:14:6:1995:1351-1367|Upper mantle+Reflector+Scotland+BIRPS J|0312|Ford,M.+Stahel,U.|The geometry of a deformed carbonate slope-basin transition: the Ventoux-Lure fault zone, SE France||Tectonics:14:6:1995:1393-1410|Profile+France+Basin+Deformation J|0313|Yuan,X-C.|On continental basal structure in China|In Chinese with English abstract|#AGS:38:4:1995:448-459|China+Basement+Fault+Crustal structure J|0314|Ji,C.+Yao,Z-X.|The study of the method for broadband regional synthetic seismogram|In Chinese with English abstract|#AGS:38:4:1995:460-468|Synthetic seismogram+Algorithm+Broadband seismology+Coda J|0315|Wang,M-Y.+Guo,Y-X.+Di,Q-Y.|2-D finite element modelling for seismic wave in media with linear rheological property|In Chinese with English abstract|#AGS:38:4:1995:494-506|Finite element method+Modelling+Propagation+Linear system J|0316|Zhang,B.+Li,Y-M.+Liu,Y-B.|The calculation of cross-well seismic in isotropic porous layered media|In Chinese with English abstract|#AGS:38:4:1995:507-518|Cross-hole+Propagator matrix+Porous medium+Mathematical analysis J|0317|Niu,B-H.+He,Q-D.+Sun,C-Y.|Numerical modeling of VSP multicomponent records in cracks anisotropic medium|In Chinese with English abstract|#AGS:38:4:1995:519-527|Numerical modelling+Anisotropic medium+Crack+Vertical seismic profiling J|0318|Ma,Z-T.|On the applied seismology in the twenty-first century|In Chinese with English abstract|#AGS:38:4:1995:539-547|21st century+Seismology+Applied geophysics+Seismic prospecting|Review J|0319|Li,G-P.+Fu,R-S.|Dynamic background in core-mantle boundary|In Chinese with English abstract|#AGS:38:4:1995:548-552|Core-mantle boundary+Propagator matrix+Dynamics+Topography|Short contribution J|0320|Wang,C-Y.+Lin,Z-Y.+Chen,X-B.|Comprehensive study of geophysics on geoscience transect from Menyuan, Qinghai Province, to Ningde, Fujian Province, China|In Chinese with English abstract|#AGS:38:5:1995:590-598|China+Geotransect+Deep seismic sounding+Seismicity J|0321|Sun,R-M.+Liu,F-T.|Crust structure and strong earthquake in Beijing, Tianjing, Tangshan area: I. P wave velocity structure|In Chinese with English abstract|#AGS:38:5:1995:599-607|Strong earthquake+Velocity structure+P-wave+Seismicity+T'ang-shan J|0322|Zhu,L-B.+Zeng,R-S.|Maslov's surface wave theoretical seismogram|In Chinese with English abstract|#AGS:38:5:1995:608-617|Maslov asymptotic theory+Surface wave+Lateral heterogeneity+Seismogram J|0323|Sun,X-Y.+Huang,X-H.|The structure stress fields of Zhujiang Delta and proximal area before Honghai Bay earthquake in 1911|In Chinese with English abstract|#AGS:38:5:1995:618-626|Earthquake+1911+China+Stress field J|0324|Zhao,Y-H.+Huang,J-F.+Hou,J-J.+|Experimental study of meso-fractures in rock and its implication for understanding seismic activities|In Chinese with English abstract|#AGS:38:5:1995:627-636|Laboratory+Fracture+Stress+Marble J|0325|Yao,Y.|Improvement on nonlinear geophysical inversion simulated annealing|In Chinese with English abstract|#AGS:38:5:1995:643-650|Simulated annealing+Nonlinear inversion+Temperature+Mathematical method J|0326|Li,Y-M.+Hu,J-X.|Application of cellular automata approach to the study of seismic wave propagation|In Chinese with English abstract|#AGS:38:5:1995:651-661|Propagation+Cellular automata+Complex system+Theory J|0327|Yu,H-W.+Song,J-L.+Feng,D-Y.+|Experimental research on non-coplanary growth of complex cracks in compression-shear field|In Chinese with English abstract|#AGS:38:5:1995:683-687|Crack+Rupture+Compression+Shear|Short contribution J|0328|Wang,Z-C.+Karato,S-I.|Crystal structural phase transition and high temperature creep of CaTiO3-perovskite: implications for the lower mantle geodynamics|In Chinese with English abstract|#AGS:38:6:1995:718-728|Phase transition+Creep+Perovskite+Lower mantle J|0329|Teng,J-W.+Hu,J-F.+Zhang,Z-J.+|The 3-D structure of Rayleigh wave and sedimentary basins in northwest China|In Chinese with English abstract|#AGS:38:6:1995:737-749|Rayleigh wave+Sedimentary basin+Northwest China+Velocity structure J|0330|Hua,B-L.+Liu,F-T.|Joint reflection imaging of velocity and interface -- theory and method|In Chinese with English abstract|#AGS:38:6:1995:750-756|Imaging+Velocity+Interface+Theory J|0331|Liu,L-B.+Zoback,M.D.+Lu,Y-P.+|Interseismic strain accumulation in the New Madrid seismic zone|In Chinese with English abstract|#AGS:38:6:1995:757-766|New Madrid+Seismic zone+Strain+Global Positioning System J|0332|Kong,Y-B.+Hua,A-Z.|Mechanism of crack-interaction resulting in faulting in brittle rocks under compression|In Chinese with English abstract|#AGS:38:6:1995:767-773|Mechanism+Compression+Microcrack+Brittle J|0333|Men,F-L.+Cui,J.+Jing,L-P.|Effect of alternate dry and saturated soil layers on ground motion and wave propagation|In Chinese with English abstract|#AGS:38:6:1995:774-787|Ground motion+Propagation+Soil+Saturation J|0334|Yang,L-H.+Meng,Z-B.|One dimensional ladder inversion of wave equation by wavelet representation|In Chinese with English abstract|#AGS:38:6:1995:815-822|Wave equation+Wavelet+Inversion+Decomposition J|0335|Liu,H.+Meng,F-L.+Li,Y-M.|The interface grid method for seeking global minimum travel-time and the corresponding raypath|In Chinese with English abstract|#AGS:38:6:1995:823-832|Travel-times+Wavefront+Grid+Raypath J|0336|Wang,S-D.+Liu,J-Q.+Huang,W-H.|A method of velocity inversion of two dimensional acoustic wave equation|In Chinese with English abstract|#AGS:38:6:1995:833-839|Inversion+Wave equation+Acoustic wave+Mathematical method J|0337|Chian,D-P.+Keen,C.E.+Reid,I.+|Evolution of nonvolcanic rifted margins: new results from the conjugate margins of the Labrador Sea||Geology:23:7:1995:589-592|Labrador Sea+Continental margin+Marine seismic investigation+Crustal structure J|0338|Page,R.A.+Plafker,G.+Pulpan,H.|Block rotation in east-central Alaska: a framework for evaluating earthquake potential?||Geology:23:7:1995:629-632|Seismic potential+Alaska+Block+Fault J|0339|Allmendinger,R.W.+Royse,F.|Comment on `Is the Sevier Desert reflection of west-central Utah a normal fault?' by M. H. Anders and N. Christie-Blick||Geology:23:7:1995:669-670|Comments+Dipping reflector+Utah+Normal fault J|0340|Marco,S.+Agnon,A.|Prehistoric earthquake deformations near Masada, Dead Sea graben||Geology:23:8:1995:695-698|Dead Sea+Prehistoric earthquake+Deformation+Graben J|0341|Arzate,J.A.+Mareschal,M.+Livelybrooks,D.|Electrical image of the subducting Cocos plate from magnetotelluric observations||Geology:23:8:1995:703-706|Magnetotellurics+Cocos Plate+Geophysical investigation+Imaging J|0342|Wang,C-Y.+Cai,Y.+Jones,D.L.|Predicting the areas of crustal faulting in the San Francisco Bay region||Geology:23:9:1995:771-774|San Francisco Bay+Model+Fault-slip+Crustal deformation J|0343|Vejmelek,L.+Smithson,S.B.|Seismic reflection profiling in the Boulder batholith, Montana||Geology:23:9:1995:811-814|Seismic reflexion profiling+Montana+Batholith+Depth J|0344|MacKay,M.E.+Moore,G.F.+Klaeschen,D.+|The case against porosity change: seismic velocity decrease at the toe of the Oregon accretionary prism||Geology:23:9:1995:827-830|Accretionary prism+Porosity+Oregon+Interval velocity J|0345|Underwood,M.B.+Laughland,M.M.+Shelton,K.L.+|Thermal-maturity trends within Franciscan rocks near Big Sur, California: implications for offset along the San Gregorio-San Simeon-Hosgri fault zone||Geology:23:9:1995:839-842|Fault zone+California+Temperature+Slip J|0346|Eaton,D.W.+Hynes,A.+Indares,A.+|Seismic images of eclogites, crustal-scale extension, and Moho relief in the eastern Grenville province, Quebec||Geology:23:9:1995:855-858|Grenville Province+Moho topography+Seismic reflexion profile+Geophysical investigation J|0347|Costa,S.+Rey,P.|Lower crustal rejuvenation and growth during post-thickening collapse: insights from a crustal cross section through a Variscan metamorphic core complex||Geology:23:10:1995:905-908|Variscan+Continental crust+Evolution+Orogeny J|0348|Templeton,A.S.+Sweeney,J.+Manske,H.+|Fluids and the Heart Mountain fault revisited||Geology:23:10:1995:929-932|Wyoming+Fluid+Faulting+Isotope J|0349|Land,L.A.+Paull,C.K.+Hobson,B.|Genesis of a submarine sinkhole without subaerial exposure: Straits of Florida||Geology:23:10:1995:949-951|Florida+Sea floor+Side-scan sonar+Seismic reflexion profile J|0350|Taylor,F.W.+Bevis,M.G.+Schutz,B.E.+|Geodetic measurements of convergence at the New Hebrides island arc indicate arc fragmentation caused by an impinging aseismic ridge||Geology:23:11:1995:1011-1014|New Hebrides+Plate motion+Focal mechanism+Convergence J|0351|Ritz,J.F.+Brown,E.T.+Bourles,D.L.+|Slip rates along active faults estimated with cosmic-ray--exposure dates: application to the Bogd fault, Gobi-Altai, Mongolia||Geology:23:11:1995:1019-1022|Mongolia+Slip+Fault+Nuclide J|0352|Rohr,K.M.M.+Furlong,K.P.|Ephemeral plate tectonics at the Queen Charlotte triple junction||Geology:23:11:1995:1035-1038|Plate tectonics+Triple junction+Queen Charlotte Islands+Seismicity J|0353|Diecchio,R.J.|Comment on `Misuse of Fischer plots as sea-level curves' by S. K. Boss and K. A. Rasmusson||Geology:23:11:1995:1049-1050|Comments+Bahamas+Sea level+Reflexion study|With a reply by the authors J|0354|Behrendt,J.C.+Blankenship,D.D.|Glacial removal of late Cenozoic subglacially emplaced volcanic edifices by the West Antarctic ice sheet||Geology:23:12:1995:1111-1114|Marine seismic investigation+Aeromagnetic study+Antarctica+Volcanism J|0355|Cita,M.B.+Woodside,J.M.+Ivanov,M.K.+|Fluid venting from a mud volcano in the Mediterranean Ridge Diapiric Belt||#TRN:7:4:1995:453-458|Mud volcano+Mediterranean+Marine seismic investigation+Side-scan sonar J|0356|Woo,G.|Long-period damage in historical European earthquakes||#TRN:7:4:1995:467-469|Europe+Historical earthquake+Damage+Isoseismal map|Terra Motae J|0357|Danielsen,M.+Clausen,O.R.+Michelsen,O.|Stratigraphic correlation of late Palaeocene sand deposits in the Sogne Basin area of the Danish and Norwegian central North Sea||#TRN:7:5:1995:516-527|Sand+North Sea+Stratigraphy+Well-log J|0358|Kissling,E.+Solarino,S.+Cattaneo,M.|Improved seismic velocity reference model from local earthquake data in northwestern Italy||#TRN:7:5:1995:528-534|Local earthquake+Velocity+Northern Italy+Model J|0359|Pavlides,S.B.+Zouros,N.C.+Chatzipetros,A.A.+|The 13 May 1995 western Macedonia, Greece (Kozani Grevena) earthquake; preliminary results||#TRN:7:5:1995:544-549|Earthquake+Greece+1995+Map||#*NGREECE95 J|0360|Meghraoui,M.|Active faulting studies for seismic hazard assessment||#TRN:7:6:1995:562-563|Solid-earth geophysics+Faulting+Hazard+Earthquake|Terra news. Report of a meeting held at Erice, September-October, 1995 J|0361|Emiliani,C.|Two revolutions in the Earth Sciences||#TRN:7:6:1995:587-597|Earth sciences+Solid-earth geophysics+History+Seismicity|Terra review J|0362|Van Arsdale,R.B.+Williams,R.A.+Schweig,E.S.+|The origin of Crowley's Ridge, northeastern Arkansas: erosional remnant or tectonic uplift?||#BSA:85:4:1995:963-985|Reflexion study+Arkansas+Erosion+Tectonics J|0363|Madole,R.F.+Schuster,R.L.+Sarna-Wojicki,A.M.|Ribbon Cliff landslide, Washington, and the earthquake of 14 December 1872||#BSA:85:4:1995:986-1002|1872+Washington+Landslide+Earthquake J|0364|Bent,A.L.|A complex double-couple source mechanism for the Ms 7.2 1929 Grand Banks earthquake||#BSA:85:4:1995:1003-1020|1929+Grand Banks+Mechanism+Earthquake J|0365|Thio,H.K.+Kanamori,H.|Moment-tensor inversions for local earthquakes using surface waves recorded at TERRAscope||#BSA:85:4:1995:1021-1038|Moment tensor+Local earthquake+Southern California+Surface wave J|0366|Meremonte,M.+Gomberg,J.+Cranswick,E.|Constraints on the 29 June 1992 Little Skull Mountain, Nevada, earthquake sequence provided by robust hypocenter estimates||#BSA:85:4:1995:1039-1049|1992+Nevada+Sequence+Hypocentre||#*CALIFNEV92 J|0367|Walter,W.R.+Mayeda,K.M.+Patton,H.J.|Phase and spectral ratio discrimination between NTS earthquakes and explosions. Part I: empirical observations||#BSA:85:4:1995:1050-1067|Spectral ratio+Phase+Nevada Test Site+Discrimination J|0368|Gaffet,S.|Teleseismic waveform modeling including geometrical effects of superficial geological structures near to seismic sources||#BSA:85:4:1995:1068-1079|Waveform+Geologic structure+Source+Nevada Test Site J|0369|Hisada,Y.|An efficient method for computing Green's functions for a layered half-space with sources and receivers at close depths (Part 2)||#BSA:85:4:1995:1080-1093|Green's function+Layered medium+Half-space+Depth J|0370|Chen,X-F.|Seismogram synthesis for multi-layered media with irregular interfaces by global generalized reflection/transmission matrices method. II. Applications for 2D SH case||#BSA:85:4:1995:1094-1106|Synthetic seismogram+Layered medium+Interface+Matrix method J|0371|Anderson,J.G.+Chen,Q.|Beginnings of earthquakes in the Mexican subduction zone on strong-motion accelerograms||#BSA:85:4:1995:1107-1115|Mexico+Subduction zone+Strong-motion record+Accelerogram J|0372|Chavez-Garcia,F.J.+Ramos-Martinez,J.+Romero-Jimenez,E.|Surface-wave dispersion analysis in Mexico City||#BSA:85:4:1995:1116-1126|Mexico City+Surface wave+Dispersion+Ground motion||#*GUERRERO93A|#*GUERRERO93B|#*MEXICOCITY J|0373|Field,E.H.+Jacob,K.H.|A comparison and test of various site-response estimation techniques, including three that are not reference-site dependent||#BSA:85:4:1995:1127-1143|Site response+Ground motion+1989+Loma Prieta||#*LOMAPRIETA89 J|0374|Frankel,A.|Simulating strong motions of large earthquakes using recordings of small earthquakes: the Loma Prieta mainshock as a test case||#BSA:85:4:1995:1144-1160|Strong motion+Large earthquake+Small earthquake+1989+Loma Prieta||#*LOMAPRIETA89 J|0375|Youngs,R.R.+Abrahamson,N.A.+Makdisi,F.I.+|Magnitude-dependent variance of peak ground acceleration||#BSA:85:4:1995:1161-1176|Magnitude+Ground acceleration+California+1957-1991 J|0376|Lutz,K.A.+Kiremidjian,A.S.|A stochastic model for spatially and temporally dependent earthquakes||#BSA:85:4:1995:1177-1189|Spatial analysis+Temporal dependence+San Andreas Fault+Stochastic model J|0377|Panagiotopoulos,D.G.|Long-term earthquake prediction in Central America and Caribbean Sea based on the time- and magnitude-predictable model||#BSA:85:4:1995:1190-1201|Prediction+Central America+Caribbean+Magnitude J|0378|Ben-Menahem,A.|A concise history of mainstream seismology: origins, legacy, and perspectives||#BSA:85:4:1995:1202-1225|Review+History+Seismology+1755-1996 J|0379|Sun,J.+Pan,T-C.|The probability of very large earthquakes in Sumatra||#BSA:85:4:1995:1226-1231|Risk+Great earthquake+Sumatra+Magnitude|Short note J|0380|Goforth,T.T.+Bonner,J.L.|Characteristics of Rg waves recorded from quarry blasts in central Texas||#BSA:85:4:1995:1232-1235|Rg-wave+Quarry blast+Texas+Attenuation|Short note J|0381|Savage,M.K.+Anderson,J.G.|A local-magnitude scale for the western Great Basin-eastern Sierra Nevada from synthetic Wood-Anderson seismograms||#BSA:85:4:1995:1236-1243|Local magnitude+Nevada+Synthetic seismogram+Wood-Anderson seismograph|Short note J|0382|Chael,E.P.+Leahy,P.J.+Carter,J.A.+|Propagation of high-frequency (4- to 50-Hz) P waves in the northeastern United States||#BSA:85:4:1995:1244-1248|Propagation+High frequency+P-wave+Northeastern United States|Short note J|0383|Zollo,A.+Capuano,P.+Singh,S.K.|Use of small earthquake records to determine the source time functions of larger earthquakes: an alternative method and an application||#BSA:85:4:1995:1249-1256|Small earthquake+Source-time function+Large earthquake+Green's function|Short note J|0384|Scrivner,C.W.+Helmberger,D.V.|Preliminary work on an early warning and rapid response program for moderate earthquakes||#BSA:85:4:1995:1257-1265|Warning+Response+Moderate earthquake+Ground motion|Short note|#*SANGABRIEL91 J|0385|Musson,R.M.W.+Grunthal,G.+Stucchi,M.|Comment on `The 17 August 1991 Honeydew earthquake: a case for revising the Modified Mercalli scale in sparsely populated areas' by L. Dengler and R. McPherson||#BSA:85:4:1995:1266-1267|Comments+Modified Mercalli scale+Northern California+1991+Earthquake||#*HONEYDEW91 J|0386|Zahradnik,J.|Comment on `A hybrid method for the estimation of ground motion in sedimentary basins: quantitative modeling for Mexico City' by D. Fah, P. Suhadolc, St. Mueller and G. F. Panza||#BSA:85:4:1995:1268-1270|Comments+Earthquake+1985+Mexico City+Modelling||#*MEXICOCITY J|0387|Lomnitz,C.|Comment on two articles on gravity waves by F. J. Chavez-Garcia and P-Y. Bard (1993a, b)||#BSA:85:4:1995:1271-1274|Comments+Gravity wave+Rayleigh wave+Mexico City+Elastic medium+Coupling+Fluid|With a reply by the authors|#*MEXICOCITY J|0388|McGuire,R.K.|Probabilistic seismic hazard analysis and design earthquakes: closing the loop||#BSA:85:5:1995:1275-1284|Hazard+Magnitude+Frequency+Colorado J|0389|Ward,S.N.|Area-based tests of long-term seismic hazard predictions||#BSA:85:5:1995:1285-1298|Hazard+Prediction+Southern California+Magnitude J|0390|Main,I.G.|Earthquakes as critical phenomena: implications for probabilistic seismic hazard analysis||#BSA:85:5:1995:1299-1308|Critical phenomenon+Hazard+Frequency+Magnitude J|0391|Dewberry,S.R.+Crosson,R.S.|Source scaling and moment estimation for the Pacific northwest seismograph network using S-coda amplitudes||#BSA:85:5:1995:1309-1326|Source+Moment+Coda wave+Northwest Pacific J|0392|Atkinson,G.M.|Attenuation and source parameters of earthquakes in the Cascadia region||#BSA:85:5:1995:1327-1342|Attenuation+Source parameter+Cascadia subduction zone+Ground motion J|0393|Molas,G.L.+Yamazaki,F.|Attenuation of earthquake ground motion in Japan including deep focus events||#BSA:85:5:1995:1343-1358|Attenuation+Ground motion+Japan+Deep-focus earthquake J|0394|Liu,H-P.|Application of bandlimited anelastic models to wave propagation in highly attenuative media||#BSA:85:5:1995:1359-1372|Propagation+Attenuation+Bandwidth+Anelasticity J|0395|Del Pezzo,E.+Ibanez,J.M.+Morales,J.+|Measurements of intrinsic and scattering seismic attenuation in the crust||#BSA:85:5:1995:1373-1380|Attenuation+Crust+Scattering+S-wave J|0396|Hatzidimitriou,P.M.|S-wave attenuation in the crust in northern Greece||#BSA:85:5:1995:1381-1387|S-wave+Attenuation+Crust+Greece J|0397|Fischer,K.M.+Salvati,L.A.+Hough,S.E.+|Sediment-induced amplification in the northeastern United States: a case study in Providence, Rhode Island||#BSA:85:5:1995:1388-1397|Sediment+Amplification+Northeastern United States+Refraction data J|0398|Stevens,A.E.|Eastern North American earthquakes prior to 1660||#BSA:85:5:1995:1398-1415|Eastern North America+Earthquake+1660+Historical seismicity J|0399|Langston,C.A.|Anatomy of regional phases and source characterization of the Soviet Joint Verification Experiment, underground nuclear explosion||#BSA:85:5:1995:1416-1431|Regional phase+Source+Underground nuclear explosion+Russia J|0400|Koch,K.+Stump,B.|Implications for upper-mantle structure in the western United States from complete far-regional seismograms||#BSA:85:5:1995:1432-1444|Upper mantle+Western United States+Texas+Broadband seismograph J|0401|Aoi,S.+Iwata,T.+Irikura,K.+|Waveform inversion for determining the boundary shape of a basin structure||#BSA:85:5:1995:1445-1455|Waveform+Inversion+Boundary+Basin J|0402|Bokelmann,G.H.R.|Azimuth and slowness deviations from the GERESS regional array||#BSA:85:5:1995:1456-1463|Azimuth+Slowness+GERESS+Array J|0403|Hartse,H.E.+Phillips,W.S.+Fehler,M.C.+|Single-station spectral discrimination using coda waves||#BSA:85:5:1995:1464-1474|Discrimination+Spectral analysis+Coda wave+California J|0404|Boschi,E.+Gasperini,P.+Mulargia,F.|Forecasting where larger crustal earthquakes are likely to occur in Italy in the near future||#BSA:85:5:1995:1475-1482|Forecast+Large earthquake+Crust+Italy J|0405|Ferreira,J.M.+De Oliveira,R.T.+Assumpcao,M.+|Correlation of seismicity and water level in the Acu reservoir - an example from northeast Brazil||#BSA:85:5:1995:1483-1489|Seismicity+Water level+Reservoir+Brazil J|0406|Beresnev,I.A.+Wen,K-L.|P-wave amplification by near-surface deposits at different excitation levels||#BSA:85:5:1995:1490-1494|P-wave+Amplification+Sedimentary cover+Taiwan|Short note J|0407|Bott,J.D.J.+Wong,I.G.|The 1986 Crested Butte earthquake swarm and its implications for seismogenesis in Colorado||#BSA:85:5:1995:1495-1500|1986+Swarm+Colorado+Seismogenesis|Short note J|0408|Luzon,F.+Aoi,S.+Fah,D.+|Simulation of the seismic response of a 2D sedimentary basin: a comparison between the indirect boundary element method and a hybrid technique||#BSA:85:5:1995:1501-1506|Response+Sedimentary basin+Boundary element method+Ground motion|Short note J|0409|Coutant,O.+Virieux,J.+Zollo,A.|Numerical source implementation in a 2D finite difference scheme for wave propagation||#BSA:85:5:1995:1507-1512|Propagation+Finite difference method+Source+Numerical method J|0410|Yin,Z-M.+Rogers,G.C.|Rotation of the principal stress directions due to earthquake faulting and its seismological implications||#BSA:85:5:1995:1513-1517|Rotation+Stress+Faulting+Aftershock|Short note J|0411|Evans,J.R.+Pitt,A.M.|Reliable automatic detection of long-period volcanic earthquakes at Long Valley Caldera, California||#BSA:85:5:1995:1518-1522|Automatic event detector+Volcanic tremor+Long Valley Caldera+Long-period event|Short note J|0412|Greenfield,R.J.|Comment on `An efficient method for computing Green's functions for a layered half-space with sources and receivers at close depths' by Y. Hisada||#BSA:85:5:1995:1523-1526|Comments+Green's function+Half-space+Layered medium+Depth|With a reply by the author J|0413|Lomnitz,C.|Comment on `Errors in hypocenter location: picking, model, and magnitude dependence,' by S. D. Billings, M. S. Sambridge and B. L. N. Kennett||#BSA:85:5:1995:1527-1529|Comments+Error+Hypocentre+Earthquake location+Monte Carlo method|With a reply by the authors J|0414|Zhu,L-P.+Owens,T.J.+Randall,G.E.|Lateral variation in crustal structure of the northern Tibetan Plateau inferred from teleseismic receiver functions||#BSA:85:6:1995:1531-1540|Crustal structure+Tibet+PASSCAL+Receiver function J|0415|Hennet,C.G.+Hawman,R.B.+Phinney,R.A.|Slant stacks of refraction data from Maine: effects of lateral variations in velocity structure||#BSA:85:6:1995:1541-1559|Refraction study+Maine+Lateral variation+Velocity structure J|0416|Schwartz,S.Y.|Source parameters of aftershocks of the 1991 Costa Rica and 1992 Cape Mendocino, California, earthquakes from inversion of local amplitude ratios and broadband waveforms||#BSA:85:6:1995:1560-1575|Source parameter+1991+Costa Rica+1992+Cape Mendocino+Aftershock||#*COSTARICA91|#*PETROLIA92A J|0417|Hough,S.E.+Dreger,D.S.|Source parameters of the 23 April 1992 M 6.1 Joshua Tree, California, earthquake and its aftershocks: empirical Green's function analysis of GEOS and TERRAscope data||#BSA:85:6:1995:1576-1590|Source parameter+1992+California+Green's function+Earthquake||#*JOSHUATREE92 J|0418|Song,X.J.+Jones,L.E.+Helmberger,D.V.|Source characteristics of the 17 January 1994 Northridge, California, earthquake from regional broadband modeling||#BSA:85:6:1995:1591-1603|1994+Northridge+Source+Regional model+Earthquake||#*NORTHRIDGE94 J|0419|Li,Y.+Doll,C.+Toksoz,M.N.|Source characterization and fault plane determination for MbLg = 1.2 to 4.4 earthquakes in the Charlevoix seismic zone, Quebec, Canada||#BSA:85:6:1995:1604-1621|Source+Fault plane+Charlevoix+1987-1992 J|0420|Frohlich,C.+Kadinsky-Cade,K.+Davis,S.D.|A reexamination of the Bucaramanga, Colombia, earthquake nest||#BSA:85:6:1995:1622-1634|Cluster+Colombia+Intermediate-depth earthquake+Joint hypocentre determination+ISC J|0421|Ordaz,M.+Arboleda,J.+Singh,S.K.|A scheme of random summation of an empirical Green's function to estimate ground motions from future large earthquakes||#BSA:85:6:1995:1635-1647|Summing+Green's function+Ground motion+Large earthquake J|0422|Blackman,D.K.+Orcutt,J.A.+Forsyth,D.W.|Recording teleseismic earthquakes using ocean-bottom seismographs at mid-ocean ridges||#BSA:85:6:1995:1648-1664|Ocean-bottom seismograph+Mid-ocean ridge+Teleseism+Noise J|0423|Zhang,T-R.+Lay,T.|Why the Lg phase does not traverse oceanic crust||#BSA:85:6:1995:1665-1678|Lg-wave+Oceanic crust+Wave guide+Crustal thickness J|0424|Bouchon,M.+Schultz,C.A.+Toksoz,M.N.|A fast implementation of boundary integral equation methods to calculate the propagation of seismic waves in laterally varying layered media||#BSA:85:6:1995:1679-1687|Boundary integral method+Propagation+Lateral variation+Layered medium J|0425|Olsen,K.B.+Pechmann,J.C.+Schuster,G.T.|Simulation of 3D elastic wave propagation in the Salt Lake Basin||#BSA:85:6:1995:1688-1710|Basin+Utah+Propagation+Finite difference method J|0426|Huang,B-S.+Teng,T-L.+Yeh,Y.T.|Numerical modeling of fault-zone trapped waves: acoustic case||#BSA:85:6:1995:1711-1717|Acoustics+Numerical modelling+Fault zone+Wave guide J|0427|Touhei,T.|Analysis of layered solid-fluid media using a discrete wavenumber and normal-mode superposition method||#BSA:85:6:1995:1718-1729|Layered medium+Wave equation+Wavenumber+Normal mode J|0428|Abers,G.A.+Beavan,J.+Horton,S.+|Large accelerations and tectonic setting of the May 1993 Shumagin Islands earthquake sequence||#BSA:85:6:1995:1730-1738|1993+Shumagin Islands+Sequence+Acceleration+Tectonics||#*SHUMAGIN93|#*SHUMAGIN93B J|0429|Harp,E.L.+Wilson,R.C.|Shaking intensity thresholds for rock fall and slides: evidence from 1987 Whittier Narrows and Superstition Hills earthquake strong-motion records||#BSA:85:6:1995:1739-1757|Intensity+Landslide+Strong-motion record+Southern California||#*WHITTIER|#*SUPERSTITION87 J|0430|Al-Shukri,H.J.+Pavlis,G.L.+Vernon,F.L.|Side effect observations from broadband arrays||#BSA:85:6:1995:1758-1769|Broadband seismograph+Array+Site effect+Local earthquake J|0431|Satoh,T.+Kawase,H.+Sato,T.|Evaluation of local site effects and their removal from borehole records observed in the Sendai region, Japan||#BSA:85:6:1995:1770-1789|Site effect+Borehole+Honshu+Strong motion J|0432|Fukushima,Y.+Gariel,J-C.+Tanaka,R.|Site-dependent attenuation relations of seismic motion parameters at depth using borehole data||#BSA:85:6:1995:1790-1804|Site effect+Attenuation+Borehole+Ground motion J|0433|Jongmans,D.+Malin,P.E.|Microearthquake S-wave observations from 0 to 1 km in the Varian Well at Parkfield, California||#BSA:85:6:1995:1805-1820|Microearthquake+S-wave+Parkfield+Well J|0434|Satoh,T.+Sato,T.+Kawase,H.|Nonlinear behavior of soil sediments identified by using borehole records observed at the Ashigara Valley, Japan||#BSA:85:6:1995:1821-1834|Honshu+Borehole+Sediment+Ground motion J|0435|Nguyen,B.V.|The instrument responses of the SKM-3 system and the designated seismic station vault seismic system||#BSA:85:6:1995:1835-1846|Instrument+Response+Russia+Nuclear test ban J|0436|Steinberg,D.M.+Rabinowitz,N.+Shimshoni,Y.+|Configuring a seismographic network for optimal monitoring of fault lines and multiple sources||#BSA:85:6:1995:1847-1857|Network+Monitoring+Fault+Source J|0437|Zuniga,F.R.+Wyss,M.|Inadvertent changes in magnitude reported in earthquake catalogs: their evaluation through b-Value estimates||#BSA:85:6:1995:1858-1866|Magnitude+Earthquake catalogue+b-Value+Seismicity J|0438|McCalpin,J.P.|Frequency distribution of geologically determined slip rates for normal faults in the western United States||#BSA:85:6:1995:1867-1872|Frequency+Slip+Normal fault+Western United States|Short note J|0439|Abercrombie,R.E.+Agnew,D.C.+Wyatt,F.K.|Testing a model of earthquake nucleation||#BSA:85:6:1995:1873-1878|Nucleation+Model+Landers+1992|Short note|#*LANDERS92 J|0440|Zahradnik,J.|Simple elastic finite-difference scheme||#BSA:85:6:1995:1879-1887|Finite difference method+Elastic wave+Propagation+Elastodynamics|Short note J|0441|Davis,S.D.+Nyffenegger,P.A.+Frohlich,C.|The 9 April 1993 earthquake in south-central Texas: was it induced by fluid withdrawal?||#BSA:85:6:1995:1888-1895|Texas+1993+Fluid extraction+Macroseismic data|Short note|#*TEXAS93 J|0442|Kostaschuk,R.A.+Luternauer,J.L.+Barrie,J.V.+|Sediment transport by tidal currents and implications for slope stability: Fraser River delta, British Columbia||#CJS:32:7:1995:852-859|Shallow seismic sounding+Sediment+British Columbia J|0443|Norman,A.R.+Williams,P.F.+Ansdell,K.M.|Early Proterozoic deformation along the southern margin of the Kisseynew gneiss belt, Trans-Hudson Orogen: a 30 Ma progressive deformation cycle||#CJS:32:7:1995:875-894|Seismic reflexion profile+Trans-Hudson Orogen+Deformation+Proterozoic J|0444|Cassidy,J.F.|A comparison of the receiver structure beneath stations of the Canadian National Seismograph Network||#CJS:32:7:1995:938-951|Receiver function+Canada+Velocity structure+Lithosphere+Network J|0445|Hall,J.+Wardle,R.J.+Gower,C.F.+|Proterozoic orogens of the northeastern Canadian Shield: new information from the Lithoprobe ECSOOT crustal reflection seismic survey||#CJS:32:8:1995:1119-1131|Canadian Shield+Seismic reflexion profile+Lithoprobe+Dipping reflector J|0446|Medina,F.|Syn- and postrift evolution of the El Jadida-Agadir basin (Morocco): constraints for the rifting models of the central Atlantic||#CJS:32:9:1995:1273-1291|Evolution+Morocco+Shallow structure+Rifting J|0447|Shaw,J.+Forbes,D.L.|The postglacial relative sea-level lowstand in Newfoundland||#CJS:32:9:1995:1308-1330|Newfoundland+Sea level+Seismic reflexion profile+Shallow structure J|0448|Boyce,J.I.+Eyles,N.+Pugin,A.|Seismic reflection, borehole and outcrop geometry of Late Wisconsin tills at a proposed landfill near Toronto, Ontario||#CJS:32:9:1995:1331-1349|Ontario+Seismic reflexion profile+Landfill+Seismostratigraphy J|0449|Wade,J.A.+MacLean,B.C.+Williams,G.L.|Mesozoic and Cenozoic stratigraphy, eastern Scotian Shelf: new interpretations||#CJS:32:9:1995:1462-1473|Seismic reflexion profile+Nova Scotia+Stratigraphy+Crustal structure J|0450|Cook,F.A.|The Southern Canadian Cordillera Transect of Lithoprobe: introduction||#CJS:32:10:1995:1483-1484|Canadian Cordillera+Transect+Lithoprobe J|0451|Clowes,R.M.+Zelt,C.A.+Amor,J.R.+|Lithospheric structure in the southern Canadian Cordillera from a network of seismic refraction lines||#CJS:32:10:1995:1485-1513|Velocity structure+Refraction study+Canadian Cordillera+Lithosphere J|0452|Cassidy,J.F.|Review: receiver function studies in the southern Canadian Cordillera||#CJS:32:10:1995:1514-1519|Receiver function+Canadian Cordillera+Review+Low-velocity region J|0453|Cook,F.A.|The reflection Moho beneath the southern Canadian Cordillera||#CJS:32:10:1995:1520-1530|Canadian Cordillera+Moho+Seismic reflexion profile+Lithoprobe J|0454|Vasudevan,K.+Cook,F.A.+Maier,R.|Three-dimensional seismic crustal structure of the Monashee hinterland core complex on the Lithoprobe Southern Canadian Cordillera Transect||#CJS:32:10:1995:1531-1540|Canadian Cordillera+Crustal structure+Seismic reflexion profile+Transect J|0455|Jones,A.G.+Gough,D.I.|Electromagnetic images of crustal structures in southern and central Canadian Cordillera||#CJS:32:10:1995:1541-1563|Canadian Cordillera+Crustal structure+Magnetotellurics+Geophysical investigation J|0456|Cook,F.A.+Varsek,J.L.+Thurston,J.B.|Tectonic significance of gravity and magnetic variations along the Lithoprobe Southern Canadian Cordillera Transect||#CJS:32:10:1995:1584-1610|Canadian Cordillera+Reflexion data+Gravity+Geomagnetic anomaly+Transect J|0457|Hyndman,R.D.+Lewis,T.J.|Review: the thermal regime along the southern Canadian Cordillera Lithoprobe corridor||#CJS:32:10:1995:1611-1617|Heat flow+Canadian Cordillera+Crust+Deep structure+Review J|0458|Carr,S.D.|The southern Omineca Belt, British Columbia: new perspectives from the Lithoprobe Geoscience Program||#CJS:32:10:1995:1720-1739|British Columbia+Reflexion data+Geology+Lithoprobe J|0459|Hyndman,R.D.|The Lithoprobe corridor across the Vancouver Island continental margin: the structural and tectonic consequences of subduction||#CJS:32:10:1995:1777-1802|Reflexion study+Vancouver Island+Subduction+Geophysical investigation J|0460|Cook,F.A.|Lithospheric processes and products in the southern Canadian Cordillera: a Lithoprobe perspective||#CJS:32:10:1995:1803-1824|Canadian Cordillera+Lithosphere+Profile+Geodynamics J|0461|Cook,D.G.+MacLean,B.C.|The intracratonic Paleoproterozoic Forward orogeny, and implications for regional correlations, Northwest Territories, Canada||#CJS:32:11:1995:1991-2008|Northwest Territories+Seismostratigraphy+Orogeny J|0462|Arango,J.R.+Blazquez,R.+Chacon,J.+|Soil liquefaction potential induced by the Andalusian earthquake of 25 December 1884||#NHZ:12:1:1995:1-17|Earthquake+1884+Granada+Liquefaction J|0463|Lomnitz,C.|Review of `Recent studies in geophysical hazards' edited by M. I. El-Sabh, T. S. Murty, S. Venkatesh, F. Siccardi and K. Andah||#NHZ:12:1:1995:97-99|Review+Hazard+Natural disaster|Kluwer Academic Publishers, Dordrecht, 1994, 285pp J|0464|Choudhury,G.S.+Jones,N.P.|Identification and prioritization of data for collection in post-earthquake surveys||#NHZ:12:2:1995:119-138|Earthquake+Casualties+Data acquisition+Building J|0465|Husein Malkawi,A.I.+Liang,R.Y.+Nusairat,J.H.+|Probabilistic seismic hazard zonation of Syria||#NHZ:12:2:1995:139-151|Syria+Zonation+Hazard+Isoseismal map J|0466|Schmid,E.+Schaad,W.|A database for worldwide seismicity quantification||#NHZ:12:2:1995:153-160|Data base+Global seismicity+Quantification+Hazard J|0467|Tinti,S.+Gavagni,I.|A smoothing algorithm to enhance finite-element tsunami modelling: an application to the 5 February 1783 Calabrian case, Italy||#NHZ:12:2:1995:161-197|Tsunami+1783+Calabria+Numerical modelling J|0468|Enzi,S.+Camuffo,D.|Documentary sources of the sea surges in Venice from AD 787 to 1867||#NHZ:12:3:1995:225-287|Historical earthquake+0787-1867+Venice+Sea surge J|0469|Azzaro,R.+Barbano,M.S.|The Pollina (northern Sicily, Italy) earthquake of 26 June 1993: an application of the new European Macroseismic Scale 1992||#NHZ:12:3:1995:289-301|Sicily+Earthquake+1993+Historical seismicity||#*POLLINA93 J|0470|Allen,C.R.|Earthquake hazard assessment: has our approach been modified in the light of recent earthquakes?||Earthq. Spectra:11:3:1995:355-366|Earthquake+Hazard+Assessment+Buried fault||#*BOLIVIA94|#*HOKKAIDO94|#*SHYOGO95|#*NORTHRIDGE94|#*WHITTIER J|0471|Behr,R.A.+Belarbi,A.+Brown,A.T.|Seismic performance of architectural glass in a storefront wall system||Earthq. Spectra:11:3:1995:367-391|Wall+Glass+Building+Performance||#*NORTHRIDGE94|#*MEXICOCITY J|0472|Collins,K.R.|A reliability-based dual level seismic design procedure for building structures||Earthq. Spectra:11:3:1995:417-429|Building+Reliability+Design+Spectrum J|0473|Glaser,S.D.+Chung,R.M.|Estimation of liquefaction potential by in situ methods||Earthq. Spectra:11:3:1995:431-455|Sand+Liquefaction+Shear wave+Surface wave+Method J|0474|Malilay,J.+Elias,I.F.+Olson,D.+|Mortality and morbidity patterns associated with the October 12, 1992, Egypt earthquake||Earthq. Spectra:11:3:1995:457-476|Earthquake+1992+Egypt+Casualties||#*CAIRO92 J|0475|Thewalt,C.R.|Behavior of bridge outrigger knee joint systems||Earthq. Spectra:11:3:1995:477-509|Loma Prieta+Bridge+Collapse+Earthquake engineering||#*LOMAPRIETA89 J|0476|Bozorgnia,Y.+Niazi,M.+Campbell,K.W.|Characteristics of free-field vertical ground motion during the Northridge earthquake||Earthq. Spectra:11:4:1995:515-525|Northridge+Earthquake+1994+Ground motion||#*NORTHRIDGE94|#*LOMAPRIETA89 J|0477|Chang,T.S.+Pezeshk,S.+Yiak,K.C.+|Seismic vulnerability evaluation of essential facilities in Memphis and Shelby County, Tennessee||Earthq. Spectra:11:4:1995:527-544|Vulnerability+Tennessee+Public services+Seismicity J|0478|Dargush,G.F.+Soong,T.T.|Behavior of metallic plate dampers in seismic passive energy dissipation systems||Earthq. Spectra:11:4:1995:545-568|Damper+Dissipation+Metal+Mathematical model J|0479|Hall,J.F.+Heaton,T.H.+Halling,M.W.+|Near-source ground motion and its effects on flexible buildings||Earthq. Spectra:11:4:1995:569-605|Ground motion+Building+Damaging earthquake+California||#*SUPERSTITION87|#*LOMAPRIETA89|#*LANDERS92|#*NORTHRIDGE94|#*SHYOGO95 J|0480|Housner,G.W.+Thiel,C.C.|The continuing challenge: report on the performance of State Bridges in the Northridge earthquake||Earthq. Spectra:11:4:1995:607-636|Performance+Northridge+Bridge+Earthquake||#*NORTHRIDGE94 J|0481|Husein Malkawi,A.I.+Al-Homoud,A.S.+Batayneh,J.S.|Probabilistic seismic hazard zonation and dynamic site periods mapping for major cities in Jordan||Earthq. Spectra:11:4:1995:637-657|Jordan+Zonation+Hazard+Isoseismal map J|0482|Wilson,E.L.+Suharwardy,I.+Habibullah,A.|A clarification of the orthogonal effects in a three-dimensional seismic analysis||Earthq. Spectra:11:4:1995:659-666|Spectrum+Direction+Design+Building code J|0483|McGuire,R.K.+Boore,D.M.+Atkinson,G.M.+|Discussion of `Seismic hazard assessment in the southeastern United States' by P. C. Rizzo, N. R. Vaidya, E. Bazan and C. F. Heberling||Earthq. Spectra:11:4:1995:667-680|Comments+Southeastern United States+Hazard+Spectrum+Distance|With a reply by the authors|#*SAGUENAY88 J|0484|Shultz,C.A.+Toksoz,M.N.|Reflections from a randomly grooved interface: ultrasonic modelling and finite-difference calculation||#GPP:43:5:1995:581-594|Interface+Ultrasonic modelling+Topography+Scattering J|0485|Rathore,J.S.+Fjaer,E.+Holt,R.M.+|P- and S-wave anisotropy of a synthetic sandstone with controlled crack geometry||#GPP:43:6:1995:711-728|Sandstone+Crack+Anisotropy+Wave velocity J|0486|Benson,A.K.|Phase-shift migration with a variable-length spatial transform - an algorithm for moderately varying lateral velocities||#GPP:43:6:1995:729-741|Migration+Algorithm+Imaging+Common midpoint J|0487|Louis,J.+Papadopoulos,T.+Drakatos,G.+|Conventional and modern seismic investigations for rock quality determination at a dam site - a case history||#GPP:43:6:1995:779-792|Dam+Refraction study+Rock+Tomography J|0488|Tewari,H.C.+Dixit,M.M.+Murty,P.R.K.|Use of traveltime skips in refraction analysis to delineate velocity inversion||#GPP:43:6:1995:793-804|Travel-times+Refraction+High-velocity layer+Low-velocity layer J|0489|Thomsen,L.|Elastic anisotropy due to aligned cracks in porous rock||#GPP:43:6:1995:805-829|Crack+Anisotropy+Porous medium+Elasticity J|0490|Levin,F.K.|Reflection points and surface points||#GPP:43:6:1995:831-841|Common midpoint+Reflexion+Dip+Geometry J|0491|Juhlin,C.|Finite-difference elastic wave propagation in 2D heterogeneous transversely isotropic media||#GPP:43:6:1995:843-858|Transversely isotropic medium+Elastic wave+Propagation J|0492|Hanyga,A.+Pajchel,J.|Point-to-curve ray tracing in complicated geological models||#GPP:43:7:1995:859-872|Ray tracing+Caustic+Boundary value+Travel-times J|0493|Ruhl,T.+Kopp,C.+Ristow,D.|Fourier finite-difference migration for steeply dipping reflectors with complex overburden||#GPP:43:7:1995:919-938|Migration+Dipping reflector+Fourier analysis+Finite difference method J|0494|Wang,X.+Waltham,D.A.|The stable-beam seismic modelling method||#GPP:43:7:1995:939-961|Ray tracing+Modelling+Method+Beam J|0495|Zhou,B.+Mason,I.M.+Greenhalgh,S.A.|Accurate and efficient shot-gather dip moveout processing in the log-stretch domain||#GPP:43:7:1995:963-978|Dip moveout+Domain+Frequency-wavenumber analysis+Seismic processing J|0496|Biondi,B.+Palacharla,G.|3D depth migration by rotated McClellan filters||#GPP:43:8:1995:1005-1020|Migration+Filter+Transformation+Accuracy J|0497|Liao,Q.+McMechan,G.A.|2.5D full-wavefield viscoacoustic inversion||#GPP:43:8:1995:1043-1059|Inversion+Wave field+Viscoacoustic medium+Cross-hole J|0498|Grubb,H.J.+Walden,A.T.|Smoothing seismically derived velocities||#GPP:43:8:1995:1061-1082|Smoothing+Velocity+Stacking+Statistical method J|0499|Ito,K.+Tatsumi,Y.|Measurement of elastic wave velocities in granulite and amphibolite having identical H2O-free bulk compositions up to 850degreesC at 1 GPa||#EPL:133:3-4:1995:255-264|Elastic wave+Velocity+Rock+Low-velocity layer J|0500|Coblentz,D.D.+Sandiford,M.+Richardson,R.M.+|The origins of the intraplate stress field in continental Australia||#EPL:133:3-4:1995:299-309|Focal mechanism+Australia+Intraplate stress+Plate tectonics J|0501|Rau,R-J.+Wu,F.T.|Tomographic imaging of lithospheric structures under Taiwan||#EPL:133:3-4:1995:517-532|Taiwan+Velocity structure+Tomography+Lithosphere J|0502|Jackson,H.R.+Grantz,A.+Reid,I.+|Observations of anomalous oceanic crust in the Canada Basin, Arctic Ocean||#EPL:134:1-2:1995:99-106|Oceanic crust+Arctic Ocean+Marine seismic investigation+Velocity-depth function J|0503|Wright,D.J.+Haymon,R.M.+MacDonald,K.C.|Breaking new ground: estimates of crack depth along the axial zone of the East Pacific Rise (9degrees12'-54'N)||#EPL:134:3-4:1995:441-457|Poisson's ratio+East Pacific Rise+Fissure+Spreading centre J|0504|Mitchell,N.C.|Characterising the extent of volcanism at the Galapagos spreading centre using Deep Tow sediment profiler records||#EPL:134:3-4:1995:459-472|Volcanism+Spreading centre+Galapagos+Sediment J|0505|Woodward,R.L.+Molnar,P.|Lateral heterogeneity in the upper mantle and SS - S traveltime intervals for SS rays reflected from the Tibetan Plateau and its surroundings||#EPL:135:1-4:1995:139-148|Lateral heterogeneity+Upper mantle+Tibet+SS-wave+Travel-time residual J|0506|Granet,M.+Wilson,M.+Achauer,U.|Imaging a mantle plume beneath the French Massif Central||#EPL:136:3-4:1995:281-296|Massif Central+Mantle plume+Velocity structure+Imaging J|0507|Goodwillie,A.M.|Short-wavelength gravity lineations and unusual flexure results at the Puka Puka volcanic ridge system||#EPL:136:3-4:1995:297-314|Oceanic lithosphere+Flexure+Gravity+South Pacific J|0508|Hsu,S-K.+Sibuet,J-C.|Is Taiwan the result of arc-continent or arc-arc collision?||#EPL:136:3-4:1995:315-324|Taiwan+Earthquake+Arc+Tectonics J|0509|Gudmundsson,A.|Stress fields associated with oceanic transform faults||#EPL:136:3-4:1995:603-614|Transform fault+Stress field+Iceland+Fracture zone J|0510|Cadek,O.+Kyvalova,H.+Yuen,D.A.|Geodynamical implications from the correlation of surface geology and seismic tomographic structure||#EPL:136:3-4:1995:615-627|Geodynamics+Geology+Velocity structure+Mantle J|0511|Dieterich,J.H.|Earthquake simulations with time-dependent nucleation and long-range interactions||#NPG:2:3-4:1995:109-120|Simulation+Sequence+Mathematical model+Faulting J|0512|Ciliberto,S.+Laroche,C.|Experimental study of the statistics of slipping events in solid friction||#NPG:2:3-4:1995:121-130|Friction+Statistics+Laboratory+Dynamics J|0513|Gomez,J.B.+Iniguez,D.+Pacheco,A.F.|Size-frequency relation of earthquakes in load-transfer models of fracture||#NPG:2:3-4:1995:131-135|Earthquake+Fracture+Monte Carlo method+Frequency-magnitude relation J|0514|Polimenakos,L.C.|Shallow seismicity in the area of Greece: its character as seen by means of a stochastic model||#NPG:2:3-4:1995:136-146|Greece+Shallow-focus earthquake+Markov model+Seismicity J|0515|Oncel,A.O.+Alptekin,O.+Main,I.|Temporal variations of the fractal properties of seismicity in the western part of the north Anatolian fault zone: possible artifacts due to improvements in station coverage||#NPG:2:3-4:1995:147-157|Anatolia+Seismicity+Temporal variation+Fractal system J|0516|Ouillon,G.+Sornette,D.+Castaing,C.|Organisation of joints and faults from 1-cm to 100-km scales revealed by optimized anisotropic wavelet coefficient method and multifractal analysis||#NPG:2:3-4:1995:158-177|Fractal analysis+Fault length+Wavelet+Arabia J|0517|Peltier,W.R.+Pari,G.+Dziewonski,A.M.|Seismic tomography and mixing in the deep Earth||#NPG:2:3-4:1995:194-205|Tomography+Mantle convection+660km discontinuity+Geodynamics J|0518|Yuen,D.A.+Balachandar,S.+Steinbach,V.C.+|Non-equilibrium effects of core-cooling and time-dependent internal heating on mantle flush events||#NPG:2:3-4:1995:206-221|Phase transition+Mantle convection+Temperature+Viscosity J|0519|Lomax,A.J.+Snieder,R.K.|Identifying sets of acceptable solutions to non-linear, geophysical inverse problems which have complicated misfit functions||#NPG:2:3-4:1995:222-227|Inverse problem+Genetic algorithm+Velocity-depth function+S-wave J|0520|Ryzhikov,G.+Biryulina,M.+Hanyga,A.|3D nonlinear inversion by entropy of image contrast optimization||#NPG:2:3-4:1995:228-240|Nonlinear inversion+Entropy+Reflexion data+Algorithm J|0521|Sylvester,A.G.|Nearfield vertical displacement in the creeping segment of the San Andreas Fault, central California, 1975 to 1994||#TCT:247:1-4:1995:25-47|San Andreas Fault+Creep+1975-1994+Vertical movement J|0522|Fischer,M.P.+Gross,M.R.+Engelder,T.+|Finite-element analysis of the stress distribution around a pressurized crack in a layered elastic medium: implications for the spacing of fluid-driven joints in bedded sedimentary rock||#TCT:247:1-4:1995:49-64|Finite element method+Stress+Crack+Layered medium J|0523|Hirt,A.M.+Evans,K.F.+Engelder,T.|Correlation between magnetic anisotropy and fabric for Devonian shales on the Appalachian Plateau||#TCT:247:1-4:1995:121-132|Shale+Appalachian Plateau+Anisotropy+Geomagnetism J|0524|Johnson,A.M.|Orientations of faults determined by premonitory shear zones||#TCT:247:1-4:1995:161-238|Orientation+Faulting+Shear zone||#*LANDERS92 J|0525|Agnon,A.+Reches,Z.|Frictional rheology: hardening by rotation of active normal faults||#TCT:247:1-4:1995:239-254|Rheology+Friction+Normal fault+Upper crust J|0526|Pickering,G.+Bull,J.M.+Sanderson,D.J.|Sampling power-law distributions||#TCT:248:1-2:1995:1-20|Distribution+Sampling+Mathematical analysis+Earthquake catalogue J|0527|Malan,D.F.+Napier,J.A.L.|Computer modelling of granular material microfracturing||#TCT:248:1-2:1995:21-37|Granular medium+Computer+Numerical modelling J|0528|Wang,K.+Hyndman,R.D.+Yamano,M.|Thermal regime of the southwest Japan subduction zone: effects of age history of the subducting plate||#TCT:248:1-2:1995:53-69|Japan+Subduction zone+Heat flow+Mid-ocean ridge J|0529|Hitz,L.|The 3D crustal structure of the Alps of eastern Switzerland and western Austria interpreted from a network of deep-seismic profiles||#TCT:248:1-2:1995:71-96|Crustal structure+Seismic reflexion profile+Alps+Moho J|0530|Benkhelil,J.+Mascle,J.+Tricart,P.|The Guinea continental margin: an example of a structurally complex transform margin||#TCT:248:1-2:1995:117-137|Seismic reflexion profile+Guinea+Continental margin+Seismostratigraphy J|0531|Ryan,M.P.|Review of `Phase transformations and rock genesis' by M. V. Abdulov||#TCT:248:1-2:1995:166-168|Review+Earth structure+Dynamics+Composition|A.A. Balkema, Rotterdam, 1994, 147pp J|0532|Lindenfeld,M.+Berckhemer,H.|Seismic energies of earthquakes and relationships to other source parameters||#TCT:248:3-4:1995:171-184|Source parameter+Energy+Earthquake+Spectrum+ISC||#*KIRGIZIYA92 J|0533|Bukchin,B.G.|Determination of stress glut moments of total degree 2 from teleseismic wave amplitude spectra||#TCT:248:3-4:1995:185-191|Surface wave+Spectrum+Source+Moment+ISC||#*WCAUCASUS91 J|0534|Bowers,D.+Pearce,R.G.|Double-couple moment tensors for the 1976 Gazli aftershock earthquake sequence||#TCT:248:3-4:1995:193-206|Double couple+Moment tensor+Sequence+Gazli+1976+ISC||#*GAZLI|#*GAZLI2|#*GAZLI76B J|0535|Zobin,V.M.+Havskov,J.|Source spectral properties of small earthquakes in the northern North Sea||#TCT:248:3-4:1995:207-218|Small earthquake+North Sea+Source parameter+Spectrum J|0536|Augliera,P.+Cattaneo,M.+Eva,C.|Seismic multiplets analysis and its implication in seismotectonics||#TCT:248:3-4:1995:219-234|Seismotectonics+Multiplet+Deep seismic sounding+Arrival time J|0537|Schenkova,Z.+Schenk,V.+Pospisil,L.+|Seismogeological pattern of a transition area between the eastern Alps and the western Carpathians||#TCT:248:3-4:1995:235-245|Epicentre+Seismogeology+Central Europe+Macroseismic data J|0538|Buforn,E.+Sanz de Galdeano,C.+Udias,A.|Seismotectonics of the Ibero-Maghrebian region||#TCT:248:3-4:1995:247-261|Seismotectonics+Focal mechanism+Ibero-Maghrebian region+Seismicity J|0539|Aoudia,A.+Meghraoui,M.|Seismotectonics in the Tell Atlas of Algeria: the Cavaignac (Abou El Hassan) earthquake of 25.08.1992 (MS=5.9)||#TCT:248:3-4:1995:263-276|Earthquake+1922+Algeria+Seismotectonics J|0540|Lopez Casado,C.+Sanz de Galdeano,C.+Delgado,J.+|The b parameter in the Betic Cordillera, Rif and nearby sectors. Relations with the tectonics of the region||#TCT:248:3-4:1995:277-292|b-Value+Tectonics+Ibero-Maghrebian region+Seismicity J|0541|Sanz de Galdeano,C.+Lopez Casado,C.+Delgado,J.+|Shallow seismicity and active faults in the Betic Cordillera. A preliminary approach to seismic sources associated with specific faults||#TCT:248:3-4:1995:293-302|Betic Cordillera+Seismicity+Fault+Shallow-focus earthquake J|0542|Kahle,H-G.+Muller,M.V.+Geiger,A.+|The strain field in northwestern Greece and the Ionian Islands: results inferred from GPS measurements||#TCT:249:1-2:1995:41-52|Global Positioning System+Strain+Strike-slip+Ionian Islands||#*KEFALLINIA J|0543|Iidaka,T.+Obara,K.|Shear-wave polarization anisotropy in the mantle wedge above the subducting Pacific plate||#TCT:249:1-2:1995:53-68|Wedge+Shear wave splitting+Pacific plate+Upper mantle+ISC J|0544|Outtani,F.+Addoum,B.+Mercier,E.+|Geometry and kinematics of the South Atlas Front, Algeria and Tunisia||#TCT:249:3-4:1995:233-248|Seismic reflexion profile+North Africa+Geometry+Kinematics J|0545|Bezzeghoud,M.+Dimitrov,D.+Ruegg,J.C.+|Faulting mechanism of the El Asnam (Algeria) 1954 and 1980 earthquakes from modelling of vertical movements||#TCT:249:3-4:1995:249-266|Focal mechanism+Earthquake+El Asnam+1954+1980||#*ELASNAM J|0546|Subrahmanyam,V.+Gopala Rao,D.+Ramana,M.V.+|Structure and tectonics of the southwestern continental margin of India||#TCT:249:3-4:1995:267-282|Continental margin+India+Marine geophysical investigation+Structure J|0547|Thouvenot,F.+Kashubin,S.N.+Poupinet,G.+|The root of the Urals: evidence from wide-angle reflection seismics||#TCT:250:1-3:1995:1-13|Urals+Seismics+Moho+Depth J|0548|Akinci,A.+Ibanez,J.M.+Del Pezzo,E.+|Geometrical spreading and attenuation of Lg waves: a comparison between western Anatolia (Turkey) and southern Spain||#TCT:250:1-3:1995:47-60|Anatolia+Spain+Lg-wave+Attenuation J|0549|Grad,M.+Tripolsky,A.A.|Crustal structure from P and S seismic waves and petrological models of the Ukrainian shield||#TCT:250:1-3:1995:89-112|Ukrainian Shield+Crustal structure+Deep seismic sounding+Petrology J|0550|Alessio,G.+Esposito,E.+Gorini,A.+|Detailed study of the Potentino seismic zone in the Southern Apennines, Italy||#TCT:250:1-3:1995:113-134|Macroseismic data+Historical seismicity+Apennines+Seismic zone+Earthquake||#*CAMPANIA|#*POTENZA90|#*POTENZA91 J|0551|Ravnik,D.+Rajver,D.+Poljak,M.+|Overview of the geothermal field of Slovenia in the area between the Alps, the Dinarides and the Pannonian basin||#TCT:250:1-3:1995:135-149|Geothermal field+Deep seismic sounding+Geophysical investigation+Adriatic+Slovenia J|0552|Leloup,P.H.+Lacassin,R.+Tapponnier,P.+|The Ailao Shan-Red River shear zone (Yunnan, China), Tertiary transform boundary of Indochina||#TCT:251:1-4:1995:3-84|Yunnan+Shear zone+Focal mechanism+Tertiary J|0553|Zhou,D.+Ru,K.+Chen,H-Z.|Kinematics of Cenozoic extension on the South China Sea continental margin and its implications for the tectonic evolution of the region||#TCT:251:1-4:1995:161-177|South China Sea+Kinematics+Seismostratigraphy+Continental margin J|0554|Puspito,N.T.+Shimazaki,K.|Mantle structure and seismotectonics of the Sunda and Banda arcs||#TCT:251:1-4:1995:215-228|Seismotectonics+Mantle+Structure+Sunda Arc+ISC J|0555|Mei,S-R.|On the physical model of earthquake precursor fields and the mechanism of precursor's time-space distribution - origin and evidences of the strong body earthquake-generating model||#ASS:8:3:1995:337-349|Precursor+Model+Strong earthquake+North China||#*TANGSHAN J|0556|Gao,Y.+Zheng,S-H.+Sun,Y.|Crack-induced anisotropy in the crust from shear wave splitting observed in Tangshan region, North China||#ASS:8:3:1995:351-363|Shear wave splitting+T'ang-shan+Crack+Anisotropy J|0557|Chen,P-S.+Bai,T-X.+Xiao,L.|In search of potential earthquake source regions in the Chinese mainland in the light of ambient shear stress field||#ASS:8:3:1995:365-377|Seismic potential+China+Shear stress+Hazard J|0558|Zhou,S-Y.+Zhu,L-R.+Deng,C-L.|Application of PP cluster method in the earthquake swarm analysis||#ASS:8:3:1995:387-397|Swarm+Cluster analysis+Xinjiang J|0559|Zeng,R-S.+Sun,W-G.+Mao,T-E.+|The depth of Moho in the mainland of China||#ASS:8:3:1995:399-404|China+Moho+Depth+Deep seismic sounding J|0560|Zhu,Z-P.+Zhang,X-K.+Gai,Y-J.+|Velocity structure of the crust and upper mantle in Xingtai earthquake region and its adjacent area||#ASS:8:3:1995:405-412|Velocity structure+Xingtai+Crust+Upper mantle J|0561|Zeng,X-P.+Lin,Y-F.+Zhu,Z-J.+|Study on electric variations of media in epicentral area by geomagnetic transfer functions||#ASS:8:3:1995:413-418|China+Geomagnetic variation+Anomaly+Earthquake||#*GONGHE90|#*GANSU90 J|0562|Liao,Z-P.+Jin,X.|A stochastic model of the Fourier phase of strong ground motion||#ASS:8:3:1995:435-446|Stochastic model+Strong motion+Phase+Synthetic accelerogram J|0563|Li,X-J.+Liao,Z-P.+Guan,H-M.|An explicit finite element-finite difference method for analysing the effect of visco-elastic local topography on the earthquake motion||#ASS:8:3:1995:447-456|Ground motion+Topography+Mathematical method+Viscoelastic medium J|0564|Gao,M-T.+Yan,J-Q.+Han,W.|A deterministic method for designing near field and far field earthquakes||#ASS:8:3:1995:457-462|Far field+Near field+Earthquake+Building code J|0565|Li,X-C.+Cao,H-X.+Yu,T-H.+|A possible ULF seismic electro-magnetic emission||#ASS:8:3:1995:463-471|Electromagnetic emission+Anomaly+Precursor|Academic discussion|#*BEIJING90|#*ARMENIA88|#*LOMAPRIETA89 J|0566|Feng,R.+Yan,R.+Tang,Y.+|A case study: cross-well acoustic tomography in Fuyu oil-field||#ASS:8:3:1995:473-480|Cross-hole+Acoustic imaging+Oil field+Tomography|Research note J|0567|Liu,C-H.+Liu,Y-G.+Zhang,J.|R/S analysis of earthquake time interval||#ASS:8:3:1995:481-485|Fractal dimension+Recurrence+Statistical method+China|Research note J|0568|Musson,R.M.W.|Historical seismicity of South China from European sources: example of the Hong Kong Newspaper Press||#ASS:8:3:1995:487-490|Historical seismicity+South China+Data bank|Research note J|0569|Kang,L-X.+Wang,J-R.|Episodes and ages of seismic landslides along the Changma fault zone||#ASS:8:3:1995:491-496|Fault zone+Landslide+China+1932|Research note J|0570|Chen,P-S.|Catalogue of earthquakes (December, 1994 - February, 1995)||#ASS:8:3:1995:497-499|Earthquake catalogue+1994-1995 J|0571|Huang,D-Y.+Zhu,Y-Q.+Chen,Y.+|Research on TSIP method for medium-term earthquake prediction||#ASS:8:4:1995:501-510|Prediction+East China+Space-time pattern+Method J|0572|Zhang,D-N.+Zeng,R-S.|Numerical simulation of the detachment dynamics in North China Basin||#ASS:8:4:1995:511-517|North China Basin+Seismic reflexion profile+Detachment+Numerical method J|0573|Zhang,X-K.+Yang,Z-X.+Yang,Y-C.+|Tomographic determination of 3-D crustal structure - joint inversion of explosion and earthquake data||#ASS:8:4:1995:519-529|Crustal structure+Tomography+China+Explosion seismology J|0574|Li,Q.+Liu,R-F.+Du,A-L.|Research on the seismogenic environment for deep earthquake and the cause of earthquakes in Xinjiang and its adjacent areas||#ASS:8:4:1995:531-539|Seismogenesis+Xinjiang+Deep-focus earthquake+Velocity structure J|0575|Zhao,G-M.+Yao,L-Y.|Earthquake migration in East Asia mainland (I) - the migration of huge earthquakes and volcanic activity from West Pacific Trench to the Chinese mainland||#ASS:8:4:1995:541-549|Migration+East Asia+Historical earthquake+Large earthquake J|0576|Ma,Y-S.+Zhang,T-Z.+Zhang,H-S.|Research on coda Q distribution in Beijing and its surrounding regions||#ASS:8:4:1995:551-561|Coda Q+Beijing+Distribution+Time dependence J|0577|Qin,J-Z.+Liu,Z-Y.+Jiang,L-Q.|Characteristics of ambient stress values for micro-earthquake sequences in Western Yunnan Earthquake Prediction Experimental Field||#ASS:8:4:1995:563-574|Microearthquake+Yunnan+Stress+Sequence J|0578|Niu,Z-R.+Chen,D-M.|Lyapunov exponent and dimension of the strange attractor of elastic frictional system||#ASS:8:4:1995:575-584|Fractal dimension+Friction+Elastic medium+Mathematical analysis J|0579|Xi,D-Y.+Liu,A-W.+Liu,W.|Stress relaxation and attenuation of fluid-saturated sandstone at low frequency||#ASS:8:4:1995:585-591|Attenuation+Sandstone+Low frequency+Fluid J|0580|Geng,N-G.+Fan,Z-F.+Ji,Q-Q.+|The application of microwave remote sensing technology in rock mechanics||#ASS:8:4:1995:593-597|Remote sensing+Rock mechanics+Radiation+Compression J|0581|Duan,H-C.+Fan,C-Q.+Xu,Y-M.|Calculation of b value and its application in earthquake prediction||#ASS:8:4:1995:599-606|Prediction+b-Value+Frequency-magnitude relation+China||#*CHANGSHU90|#*DAFENG87|#*YELLOWSEA J|0582|Zuo,Z-R.+Wu,J-P.+Wu,Z-L.|Analysis of foreshock sequence of the 1975 Haicheng earthquake of MS 7.3||#ASS:8:4:1995:607-614|Foreshock+1975+Haicheng+Seismogenesis||#*HAICHENG J|0583|Niu,A-F.+Wu,Y-L.+Chen,D-F.+|The Datong earthquake and its anomalous tilt field||#ASS:8:4:1995:615-620|Tilt+Earthquake+Datong+1989||#*DATONG89A|#*DATONG89B|#*NECHINA89|#*DATONG89C J|0584|Mao,T-E.+Wang,T-C.+Yao,J-L.+|The variations of the degree of ground resistivity anisotropy during the Tangshan earthquake||#ASS:8:4:1995:621-627|T'ang-shan+Earthquake+1976+Geoelectricity||#*TANGSHAN J|0585|Zhang,T-Z.+Ma,Y-S.+Shu,X.|Discussion on uncertainties, attenuation of ground motion and aseismic design criterion||#ASS:8:4:1995:629-637|Uncertainty+Ground motion+Aseismic design+Attenuation|Discussion J|0586|Jiang,H-K.+Diao,S-Z.|A model of seismicity with fractal structures and a preliminary discussion on the relation between D and b value||#ASS:8:4:1995:647-652|Seismicity+Fractal dimension+b-Value+Fracturing|Research note J|0587|Wang,B-Q.+Huang,H-M.+Fan,H-S.+|Research on nonlinear R/S method and its application in earthquake prediction||#ASS:8:4:1995:653-658|Prediction+Fractal dimension+China+Earthquake|Research note J|0588|Chen,P-S.|Catalogue of earthquakes (March - May, 1995)||#ASS:8:4:1995:663-666|Earthquake catalogue+1995 J|0589|Chen,P-S.|Epicentral distribution in 1994||#ASS:8:4:1995:667|Epicentre+1994 J|0590|Czechowski,Z.+Yamashita,T.+Teisseyre,R.|Theory of the antiplane stress evolution in two dimensions||#APL:43:3:1995:181-186|Stress+Evolution+Rebound+Theory J|0591|Czechowski,Z.+Yamashita,T.+Teisseyre,R.|Stress evolution: creep and dynamic patterns||#APL:43:3:1995:187-196|Stress+Dynamics+Creep+Theory J|0592|Gadomska,B.+Maj,S.+Teisseyre,R.|Variation of seismic source parameters and earthquake entropy with depth||#APL:43:4:1995:285-302|Entropy+Source parameter+Depth+Tonga Arc+Kermadec Islands+ISC J|0593|Starodub,G.+Brych,T.|Investigation by the finite element method of stress-strain state of the Transcarpathian crust||#APL:43:4:1995:303-312|Crust+Finite element method+Carpathians+Stress J|0594|Muco,B.|Some features of seismicity of Albania||#APL:43:4:1995:313-324|Seismicity+Albania+Focal mechanism+Historical earthquake J|0595|Ram,A.+Narayan,J.P.|Optimum inverse filtering of seismic signatures||#APL:43:4:1995:325-335|Filtering+Signature+Wavelet+Noise J|0596|Shanker,D.+Singh,V.P.|Earthquake distribution characteristics and seismicity rate in the Hindu Kush and its vicinity||#APL:43:4:1995:337-342|Hindu Kush+Seismicity+1907-1985+Occurrence J|0597|Kumar,V.+Satyaprakash+Chandra,D.|Application of fiber optic sensors in geophysics - a review||#APL:43:4:1995:343-370|Fibre optics+Review+Instrument+Sensor J|0598|Jones,T.|AGSO's city focus for earthquake mitigation||AUS.GEO News:-:30:1995:8|Monitoring+Australia+Microzoning+Urban hazard||#*CESSNOCK94|#*NEWCASTLE89 J|0599|Muirhead,K.|French nuclear tests establish a link between AGSO and Mururoa||AUS.GEO News:-:30:1995:16|Underground nuclear explosion+Monitoring+Australia+Mururoa Test Site J|0600|Denham,D.|AGSO's programs VIII. The Geohazards Program||AUS.GEO News:-:31:1995:3|Hazard+Loss+Natural disaster+IDNDR J|0601|Johnston,C.+Kirk,P.|Seismic data acquired for the Vulcan Tertiary tie (VTT-95) on the North West Shelf||AUS.GEO News:-:31:1995:8|Marine seismic investigation+Timor Sea+Trap+Hydrocarbon J|0602|Moore,A.|Is oil being generated beneath the northern Arafura Sea?||AGSO Res. Newsl.:-:23:1995:5-7|Arafura Sea+Hydrocarbon+Seismostratigraphy+Prospecting J|0603|Lee,C-S.+Collins,C.|Ocean-bottom-seismograph cruise on the North West Shelf||AGSO Res. Newsl.:-:23:1995:7-8|Ocean-bottom seismograph+Continental margin+Australia+Seismic survey J|0604|Rebesco,M.+Camerlenghi,A.+Brancolini,G.|Seismic survey of the Antarctic Peninsula Pacific Margin: results of the 1989-92 cruises of the R/V OGS-Explora||#BGT:37:147:1995:159-178|Antarctic+Pacific margin+Marine seismic investigation+Profile J|0605|Mammo,T.+Vuan,A.+Costa,G.+|Imaging of the weathered zone and estimation of Q in sediments||#BGT:37:147:1995:179-189|Imaging+Rayleigh wave+Q+Sediment J|0606|Muco,B.|The decay of aftershock sequences for Albania using the seismic activity data of 1976-1990||#BGT:37:147:1995:233-241|Aftershock+Albania+1976-1990+Decay J|0607|Cardarelli,E.|3D tomography of some pillars of the Coliseum||#BGT:37:148:1995:257-265|Tomography+Velocity+Archaeology+Historic building J|0608|Cardarelli,E.+Mascia,U.+Neri,A.+|Seismic 3D-tomography with statistical constraints on pillars of the Coliseum, Rome||#BGT:37:148:1995:267-275|Tomography+Historic building+Archaeology+Statistical method J|0609|Papoulia,J.E.+Stavrakakis,G.N.|Seismic hazard parameters estimation in Greece and the surrounding area based on historical and instrumental data||#BGT:37:148:1995:315-322|Greece+Hazard+Maximum likelihood+Seismic zone J|0610||Review of `The seismicity of Turkey and adjacent areas. A historical review, 1500-1800' by N. N. Ambraseys and C. F. Finkel||#BGT:37:148:1995:323|Review+Historical seismicity+Turkey+1500-1800+Earthquake catalogue|Eren, Istanbul, 1995, 240pp J|0611||Review of `Materials of the CEC project review of historical seismicity in Europe. Historical investigation of European earthquakes, 2' edited by P. Albini and A. Moroni||#BGT:37:148:1995:323|Review+Europe+Historical seismicity+Historical earthquake|CNR, Istituto di Ricerca sul Rischio Sismico, Milano, 1994, 254pp J|0612|Kagiyama,T.+Tsutsui,T.+Mikada,H.+|1994 explosion experiment in Kirishima volcanoes|In Japanese with English abstract|#BER:70:2-4:1995:33-60|Kyushu+Volcano+Explosion seismology+First motion J|0613|Mikada,H.+Tsutsui,T.+Morita,Y.|Standardized digital format of seismic waveform data in structural analysis of volcanoes|In Japanese with English abstract|#BER:70:2-4:1995:69-79|Volcano+Explosion seismology+Waveform+Data format J|0614|Tsutsui,T.+Morita,Y.+Mikada,H.|A standard software family for assisting first-break picking by the Volcanological Exploration Group|In Japanese with English abstract|#BER:70:2-4:1995:81-90|Software+Pick+Explosion seismology J|0615|Maeda,M.+Tsuruga,K.+Oikawa,J.+|Broadband seismic observations of artificial sources in the Kirishima volcanic area|In Japanese with English abstract|#BER:70:2-4:1995:91-102|Broadband seismology+Spectrum+Explosion seismology+Kyushu J|0616|Ambraseys,N.N.+Melville,C.P.|Historical evidence of faulting in eastern Anatolia and northern Syria||#AGF:38:3-4:1995:337-343|Anatolia+Syria+Faulting+Historical earthquake J|0617|Balassanian,S.Y.+Arakelian,A.R.+Nazaretian,S.N.+|Retrospective analysis of the Spitak earthquake||#AGF:38:3-4:1995:345-372|Spitak+Earthquake+1988+Precursor||#*ARMENIA88|#*ARMENIA88B|#*WCAUCASUS91|#*MANJIL90 J|0618|Batini,F.+Caputo,M.+Console,R.|Focal mechanism of seismic events with a dipolar component||#AGF:38:3-4:1995:373-384|Focal mechanism+Dipole source+Inversion+Microearthquake J|0619|Alsdorf,D.+Barazangi,M.+Litak,R.+|The intraplate Euphrates fault system-Palmyrides mountain belt junction and relationship to Arabian plate boundary tectonics||#AGF:38:3-4:1995:385-397|Reflexion data+Well-log+Syria+Intraplate deformation J|0620|Iannaccone,G.+Improta,L.+Biella,G.+|A study of local site effects in Benevento (southern Italy) by the analysis of seismic records of explosions||#AGF:38:3-4:1995:411-427|Site effect+Southern Italy+Explosion seismology+Spectral ratio J|0621|Florindo,F.+Alfonsi,L.|Strong earthquakes and geomagnetic jerks: a cause-effect relationship?||#AGF:38:3-4:1995:457-461|Strong earthquake+Geomagnetic field+Temporal variation+Trigger J|0622|Fah,D.+Panza,G.F.+Suhadolc,P.|Comment on `Assessment of potential strong ground motions in the city of Rome' by A. Rovelli, A. Caserta, L. Malagnini and F. Marra||#AGF:38:3-4:1995:463-468|Comments+Rome+Seismic potential+Strong motion|With a reply by the authors J|0623||Review of `Archaologie und seismologie. The Vesuvian region from 62 to 79 A.D., archaeological and seismological issues' compiled by the German Institute of Archaeology in Rome, Archaeology Service of Pompei, and the Vesuvius Observatory|In various languages|#AGF:38:3-4:1995:469|Review+Archaeology+Seismology+62-79 A.D.+Vesuvius|Verlag Biering & Brinkmann, Munich, 1995, 219pp J|0624|Busi,G.|The seismic history of Italy in the Hebrew sources||#AGF:38:5-6:1995:473-478|Italy+Historical earthquake+Documentation J|0625|Traina,G.|From Crimea to Syria. Re-defining the alleged historical earthquake of 63 B.C.||#AGF:38:5-6:1995:479-489|63 B.C.+Syria+Historical earthquake+Crimea J|0626|D'Addezio,G.+Cinti,F.R.+Pantosti,D.|A large unknown historical earthquake in the Abruzzi region (central Italy): combination of geological and historical data||#AGF:38:5-6:1995:491-501|Historical earthquake+Italy+Geological data+Earthquake catalogue J|0627|Salicru i Lluch,R.|The 1448 earthquake in Catalonia. Some effects and local reactions||#AGF:38:5-6:1995:503-513|Catalonia+1448+Historical earthquake+Damage J|0628|Chiodo,G.+Guerra,I.+Trumper,J.|The 1638 earthquakes, migratory phenomena and geolinguistic consequences in Calabria||#AGF:38:5-6:1995:515-521|Historical earthquake+1638+Calabria+Macroseismic intensity J|0629|Rodriguez de la Torre,F.|Spanish sources concerning the 1693 earthquake in Sicily||#AGF:38:5-6:1995:523-539|Sicily+Historical earthquake+Documentation+1693 J|0630|Albini,P.+Ambraseys,N.N.+Vogt,J.|Some aspects of historical research on "over borders" earthquakes in eighteenth century Europe||#AGF:38:5-6:1995:541-549|Europe+18th century+Historical earthquake+Documentation J|0631|Mariotti,D.|An unknown destructive earthquake in 18th century Sicily||#AGF:38:5-6:1995:551-554|Destructive earthquake+Sicily+1780+Earthquake catalogue J|0632|Caiazza,D.|Earthquakes and ancient peasant cultures: ethnographic observations following the 26th July 1805 earthquake||#AGF:38:5-6:1995:555-557|Historical earthquake+1805+Southern Italy J|0633|Restifo,G.|Local administrative sources on population movements after the Messina earthquake of 1908||#AGF:38:5-6:1995:559-566|Messina+1908+Historical earthquake J|0634|Stucchi,M.|Short notes from a journey through earthquakes and historical records||#AGF:38:5-6:1995:567-571|History+Documentation+Seismic record+Seismology J|0635|Barseghian,L.|Prospects for the development of historical seismology and the study of ancient monuments in Armenia||#AGF:38:5-6:1995:573-578|Armenia+Ancient monument+History+Seismology||#*ARMENIA88 J|0636|Tertulliani,A.+Riguzzi,F.|Earthquakes in Rome during the past one hundred years||#AGF:38:5-6:1995:581-590|Rome+1895-1995+Earthquake+Damage J|0637|Rovelli,A.+Malagnini,L.+Caserta,A.+|Using 1-D and 2-D modelling of ground motion for seismic zonation criteria: results for the city of Rome||#AGF:38:5-6:1995:591-605|Rome+Microzoning+Ground motion+Modelling J|0638|Fah,D.+Iodice,C.+Suhadolc,P.+|Application of numerical simulations for a tentative seismic microzonation of the city of Rome||#AGF:38:5-6:1995:607-615|Rome+Microzoning+Ground motion+Simulation J|0639|Guidoboni,E.+Ferrari,G.|Historical cities and earthquakes: Florence during the last nine centuries and evaluations of seismic hazard||#AGF:38:5-6:1995:617-647|Florence+1148-1975+Hazard+Earthquake J|0640|Nunziata,C.+Fah,D.+Panza,G.F.|Mitigation of seismic hazard of a megacity: the case of Naples||#AGF:38:5-6:1995:649-661|Naples+Earthquake+1980+Numerical modelling||#*CAMPANIA J|0641|Esposito,E.+Laurelli,L.+Porfido,S.|Damage pattern in historical centres: Isernia, an example in Southern Italy||#AGF:38:5-6:1995:663-677|Southern Italy+Historical earthquake+1805+Damage J|0642|Favali,P.+Frugoni,F.+Monna,D.+|The 1930 earthquake and the town of Senigallia (central Italy): an approach to seismic risk evaluation||#AGF:38:5-6:1995:679-689|Italy+1930+Earthquake+Seismic risk J|0643|Vallerani,M.|Urban decay and abandonment in western medieval Sicily: a problem for the study of strong earthquakes||#AGF:38:5-6:1995:691-703|Sicily+Strong earthquake+Urban planning+Historical seismicity J|0644|Mihailov,V.|Parameters and criteria for repair and strengthening of buildings in the old town core of Dubrovnik based on seismic risk analysis||#AGF:38:5-6:1995:705-718|Dubrovnik+Seismic risk+Building+Seismicity||#*MONTENEGRAN J|0645|Hasrat'yan,M.|The medieval earthquakes of the Armenian Plateau and the historic towns of Ayrarat and Shirak (Dvin, Ani, Erevan)||#AGF:38:5-6:1995:719-722|Armenia+Historical earthquake+Damage+Ancient monument J|0646|Stiros,S.C.|Archaeological evidence of antiseismic constructions in antiquity||#AGF:38:5-6:1995:725-736|Archaeology+Aseismic design+Historic building+Greece J|0647|Sinopoli,A.|Earthquakes and large block monumental structures||#AGF:38:5-6:1995:737-751|Monument+Rigid block+Dynamics+Ground motion J|0648|Santoro Bianchi,S.|Ambiguous evidence: earthquakes and ancient building techniques in an alpine example (4th-7th centuries)||#AGF:38:5-6:1995:753-762|4th-7th century+Northern Italy+Historic building+Technique J|0649|Gavrilovic,P.+Zelenkovska,V.|Seismic strengthening of historic monuments and experimental investigations||#AGF:38:5-6:1995:763-773|Aseismic design+Shake table+Conservation+Ancient monument J|0650|Barbisan,U.+Laner,F.|Wooden floors: part of historical antiseismic building systems||#AGF:38:5-6:1995:775-784|Wooden construction+Aseismic design+Historic building J|0651|Beranger,E.M.|Ancient earthen constructions and antiseismic dwellings: Boni's project after the earthquake of 13th January 1915 (Avezzano, Italy)||#AGF:38:5-6:1995:785-789|Historic building+Aseismic design+Earthquake+Italy J|0652|Helly,B.|Local seismic cultures: a European research program for the protection of traditional housing stock||#AGF:38:5-6:1995:791-794|Archaeology+Protection+Building+Aseismic design J|0653|Boschi,E.+Gasperini,P.+Smriglio,G.+|The new "Catalogue of Strong Earthquakes"||#AGF:38:5-6:1995:797-804|Strong earthquake+Italy+Earthquake catalogue+Computer program J|0654|Molin,D.|Considerations on the assessment of macroseismic intensity||#AGF:38:5-6:1995:805-810|Macroseismic intensity+Damage+Italy+Macroseismic scale||#*CAMPANIA|#*FRIULI J|0655|Ferrari,G.|Macroseismic intensity evaluation with the "fuzzy sets logic"||#AGF:38:5-6:1995:811-826|Macroseismic intensity+Fuzzy mathematics+MCS-Scale J|0656|Monachesi,G.+Moroni,A.|From historical earthquake records to intensity value: some results of a study||#AGF:38:5-6:1995:827-836|Historical earthquake+Macroseismic intensity+Macroseismic scale+Italy J|0657|Giuffre,A.|Seismic damage in historic town centres and attenuation criteria||#AGF:38:5-6:1995:837-843|Damage+Urban hazard+Historic building+Macroseismic intensity J|0658|Abruzzese,D.+Petrazzuoli,S.M.|Seismic damage and destructive potential of seismic events||#AGF:38:5-6:1995:845-850|Damage+Seismic potential+Spectrum+Ductility J|0659|Berardi,R.+Mendez,A.+Mucciarelli,M.+|On the modeling of strong motion parameters and correlation with historical macroseismic data: an application to the 1915 Avezzano earthquake||#AGF:38:5-6:1995:851-866|Italy+Earthquake+1915+Isoseismal J|0660|Bramerini,F.+Castenetto,S.+Cubellis,E.+|Earthquake, GIS and multimedia. The 1883 Casamicciola earthquake||#AGF:38:5-6:1995:867-877|1883+Historical earthquake+Italy+Data base J|0661|La Rosa,V.|A hypothesis on earthquakes and political power in Minoan Crete||#AGF:38:5-6:1995:881-891|Archaeology+Crete+Historical earthquake J|0662|Piro,S.+Versino,L.|Geological survey in the archaeological area of Selinunte||#AGF:38:5-6:1995:893-906|Sicily+Geological data+Epicentre+Ancient monument J|0663|Christoskov,L.+Gergova,D.+Iliev,I.+|Traces of seismic effects on archaeological sites in Bulgaria||#AGF:38:5-6:1995:907-918|Bulgaria+Historical seismicity+Historic building+Archaeology J|0664|Gergova,D.+Iliev,I.+Rizzo,V.|Evidence of a seismic event on Thracian tombs dated to the Hellenistic period (Sveshtari, northeastern Bulgaria)||#AGF:38:5-6:1995:919-926|Bulgaria+Historical earthquake+Historic building J|0665|Funiciello,R.+Lombardi,L.+Marra,F.+|Seismic damage and geological heterogeneity in Rome's Colosseum area: are they related?||#AGF:38:5-6:1995:927-937|Damage+Rome+Ancient monument+Historical earthquake J|0666|Moczo,P.+Rovelli,A.+Labak,P.+|Seismic response of the geologic structure underlying the Roman Colosseum and a 2-D resonance of a sediment valley||#AGF:38:5-6:1995:939-956|Site response+Rome+SH-wave+Ancient monument J|0667|Croci,G.+D'Ayala,D.+Liburdi,R.|History, observation and mathematical models in the seismic analysis of the Valadier abutment area in the Colosseum||#AGF:38:5-6:1995:957-970|History+Mathematical model+Ancient monument+Structural response J|0668|Di Vita,A.|Archaeologists and earthquakes: the case of 365 A.D.||#AGF:38:5-6:1995:971-976|365 A.D.+Archaeology+Earthquake+Crete J|0669|Bacchielli,L.|A Cyrenaica earthquake post 364 A.D.: written sources and archaeological evidences||#AGF:38:5-6:1995:977-982|Historical earthquake+Documentation+Libya J|0670|Francaviglia,V.+Augusti,G.+Sepe,V.|Did earthquakes fell Aksum obelisks?||#AGF:38:5-6:1995:983-1000|Ancient monument+Damage+Ethiopia+Earthquake J|0671|Guidoboni,E.+Riva,P.+Petrini,V.+|A structural analysis in seismic archaeology: the walls of Noto and the 1693 earthquake||#AGF:38:5-6:1995:1001-1012|Earthquake+1693+Sicily+Archaeology J|0672|Guidoboni,E.+Santoro Bianchi,S.|Collapses and seismic collapses in archaeology: proposal for a thematic atlas||#AGF:38:5-6:1995:1013-1017|Collapse+Archaeology+Damage+Building J|0673|Giordano,F.|Marine geophysical methods for archaeological investigation of volcanic and bradyseismic areas||#AGF:38:5-6:1995:1019-1029|Marine geophysical investigation+Archaeology+Side-scan sonar+Seismostratigraphy J|0674|Satake,K.+Imamura,F.|Introduction to "Tsunamis: 1992-94"||#PAG:144:3-4:1995:373-379|Tsunami+1992-1994+Earthquake+Casualties||#*FLORES92|#*SEAOFJAPAN93|#*NICARAGUA92 J|0675|Schindele,F.+Reymond,D.+Gaucher,E.+|Analysis and automatic processing in near-field of eight 1992-1994 tsunamigenic earthquakes: improvements towards real-time tsunami warning||#PAG:144:3-4:1995:381-408|Automatic processing+1992-1994+Earthquake+Tsunami||#*NICARAGUA92|#*FLORES92|#*SEAOFJAPAN93|#*MARIANAS93|#*HOKKAIDO94 J|0676|Gonzalez,F.I.+Satake,K.+Boss,E.F.+|Edge wave and non-trapped modes of the 25 April 1992 Cape Mendocino tsunami||#PAG:144:3-4:1995:409-426|Edge wave+Tsunami+Cape Mendocino+1992||#*PETROLIA92A J|0677|Thomson,D.J.+Lanzerotti,L.J.+Maclennan,C.G.+|Ocean cable measurements of the tsunami signal from the 1992 Cape Mendocino earthquake||#PAG:144:3-4:1995:427-440|Cape Mendocino+1992+Tsunami+Earthquake+Submarine cable||#*PETROLIA92A J|0678|Kikuchi,M.+Kanamori,H.|Source characteristics of the 1992 Nicaragua tsunami earthquake inferred from teleseismic body waves||#PAG:144:3-4:1995:441-453|Nicaragua+1992+Earthquake+Tsunami||#*NICARAGUA92 J|0679|Satake,K.|Linear and nonlinear computations of the 1992 Nicaragua earthquake tsunami||#PAG:144:3-4:1995:455-470|Tsunami+Earthquake+1992+Nicaragua||#*NICARAGUA92 J|0680|Hatori,T.|Magnitude scale for the central American tsunamis||#PAG:144:3-4:1995:471-479|Central America+Tsunami+Magnitude scale+1900-1993||#*NICARAGUA92|#*MEXICOCITY J|0681|Tsuji,Y.+Matsutomi,H.+Imamura,F.+|Damage to coastal villages due to the 1992 Flores Island earthquake tsunami||#PAG:144:3-4:1995:481-524|Damage+1992+Earthquake+Tsunami+Indonesia||#*FLORES92 J|0682|Shi,S.+Dawson,A.G.+Smith,D.E.|Coastal sedimentation associated with the December 12th, 1992 tsunami in Flores, Indonesia||#PAG:144:3-4:1995:525-536|Indonesia+1992+Tsunami+Sedimentation||#*FLORES92 J|0683|Hidayat,D.+Barker,J.S.+Satake,K.|Modeling the seismic source and tsunami generation of the December 12, 1992 Flores Island, Indonesia, earthquake||#PAG:144:3-4:1995:537-554|Indonesia+1992+Tsunami+Earthquake||#*FLORES92 J|0684|Imamura,F.+Gica,E.+Takahashi,To.+|Numerical simulation of the 1992 Flores tsunami: interpretation of tsunami phenomena in northeastern Flores Island and damage at Babi Island||#PAG:144:3-4:1995:555-568|Indonesia+1992+Tsunami+Simulation||#*FLORES92 J|0685|Briggs,M.J.+Synolakis,C.E.+Harkins,G.S.+|Laboratory experiments of tsunami runups on a circular island||#PAG:144:3-4:1995:569-593|Laboratory+Run-up+Tsunami+Island J|0686|Tinti,S.+Vannini,C.|Tsunami trapping near circular islands||#PAG:144:3-4:1995:595-619|Tsunami+Island+Water wave+Trap J|0687|Abe,K.+Okada,M.|Source model of Noto-Hanto-Oki earthquake tsunami of 7 February 1993||#PAG:144:3-4:1995:621-631|Tsunami+1993+Submarine earthquake+Sea of Japan||#*NOTO93 J|0688|Johnson,J.M.+Tanioka,Y.+Satake,K.+|Two 1993 Kamchatka earthquakes||#PAG:144:3-4:1995:633-647|Kamchatka+1993+Earthquake+Tsunami||#*KAMCHATKA93A|#*KAMCHATKA93 J|0689|Shuto,N.+Matsutomi,H.|Field survey of the 1993 Hokkaido Nansei-Oki earthquake tsunami||#PAG:144:3-4:1995:649-663|Sea of Japan+1993+Earthquake+Tsunami||#*SEAOFJAPAN J|0690|Shimamoto,T.+Tsutsumi,A.+Kawamoto,E.+|Field survey report on tsunami disasters caused by the 1993 southwest Hokkaido earthquake||#PAG:144:3-4:1995:665-691|1993+Tsunami+Sea of Japan+Earthquake+Damage||#*SEAOFJAPAN J|0691|Sato,H.+Shimamoto,T.+Tsutsumi,A.+|Onshore Tsunami deposits caused by the 1993 southwest Hokkaido and 1983 Japan Sea earthquakes||#PAG:144:3-4:1995:693-717|Earthquake+1993+1983+Tsunami+Sea of Japan||#*SEAOFJAPAN93|#*SEAOFJAPAN J|0692|Nishimura,Y.+Miyaji,N.|Tsunami deposits from the 1993 southwest Hokkaido earthquake and the 1640 Hokkaido Komagatake eruption, northern Japan||#PAG:144:3-4:1995:719-733|Hokkaido+Tsunami+1993+Earthquake+1640+Eruption||#*SEAOFJAPAN J|0693|Abe,K.|Modeling of the runup heights of the Hokkaido-Nansei-Oki tsunami of 12 July 1993||#PAG:144:3-4:1995:735-745|Tsunami+1993+Sea of Japan+Run-up||#*SEAOFJAPAN J|0694|Takahashi,To.+Takahashi,Ta.+Shuto,N.+|Source models for the 1993 Hokkaido Nansei-Oki earthquake tsunami||#PAG:144:3-4:1995:747-767|Sea of Japan+1993+Earthquake+Tsunami||#*SEAOFJAPAN93 J|0695|Myers,E.P.+Baptista,A.M.|Finite element modeling of the July 12, 1993 Hokkaido Nansei-Oki tsunami||#PAG:144:3-4:1995:769-801|Sea of Japan+1993+Tsunami+Finite element method||#*SEAOFJAPAN93 J|0696|Satake,K.+Tanioka,Y.|Tsunami generation of the 1993 Hokkaido Nansei-Oki earthquake||#PAG:144:3-4:1995:803-821|1993+Sea of Japan+Tsunami+Earthquake||#*SEAOFJAPAN93 J|0697|Tanioka,Y.+Satake,K.+Ruff,L.J.|Analysis of seismological and tsunami data from the 1993 Guam earthquake||#PAG:144:3-4:1995:823-837|Guam+1993+Earthquake+Tsunami||#*MARIANAS93 J|0698|Tsuji,Y.+Imamura,F.+Matsutomi,H.+|Field survey of the east Java earthquake and tsunami of June 3, 1994||#PAG:144:3-4:1995:839-854|Java+1994+Earthquake+Tsunami||#*JAVA94 J|0699|Yeh,H.+Titov,V.+Gusiakov,V.+|The 1994 Shikotan earthquake tsunamis||#PAG:144:3-4:1995:855-874|1994+Earthquake+Tsunami+Kuril Islands||#*HOKKAIDO94 J|0700|Imamura,F.+Synolakis,C.E.+Gica,E.+|Field survey of the 1994 Mindoro Island, Philippines tsunami||#PAG:144:3-4:1995:875-890|1994+Philippines+Tsunami+Run-up||#*MINDORO94 J|0701|Gupta,H.K.+Chadha,R.K.|Introduction||#PAG:145:1:1995:1-2|Induced seismicity+History+Reservoir|Introduction to Special Issue on induced seismicity J|0702|Trifu,C-I.+Urbancic,T.I.+Young,R.P.|Source parameters of mining-induced seismic events: an evaluation of homogeneous and inhomogeneous faulting models for assessing damage potential||#PAG:145:1:1995:3-27|Source parameter+Mining tremor+Model+Induced seismicity J|0703|Kremenetskaya,E.O.+Trjapitsin,V.M.|Induced seismicity in the Khibiny Massif (Kola Peninsula)||#PAG:145:1:1995:29-37|Induced seismicity+Kola Peninsula+Earthquake+Mining J|0704|McKavanagh,B.+Boreham,B.+McCue,K.+|The CQU regional seismic network and applications to underground mining in central Queensland, Australia||#PAG:145:1:1995:39-57|Queensland+Network+Mining tremor+Historical earthquake J|0705|Zhao,G-M.+Chen,H-R.+Ma,S-Q.+|Research on earthquakes induced by water injection in China||#PAG:145:1:1995:59-68|China+Fluid injection+Induced earthquake+Oil field J|0706|Awad,M.+Mizoue,M.|Earthquake activity in the Aswan region, Egypt||#PAG:145:1:1995:69-86|Seismicity+Aswan+Water level+Focal depth||#*ASWAN J|0707|Rajendran,K.|Sensitivity of a seismically active reservoir to low-amplitude fluctuations: observations from Lake Jocassee, South Carolina||#PAG:145:1:1995:87-95|Induced seismicity+Pore pressure+Water level+Lake Jocassee J|0708|Piccinelli,F.G.+Mucciarelli,M.+Federici,P.+|The microseismic network of the Ridracoli Dam, North Italy: data and interpretations||#PAG:145:1:1995:97-108|Dam+Northern Italy+Microseismicity+Induced seismicity J|0709|Rastogi,B.K.+Chadha,R.K.+Sarma,C.S.P.|Investigations of June 7, 1988 earthquake of magnitude 4.5 near Idukki Dam in southern India||#PAG:145:1:1995:109-122|Earthquake+1988+India+Induced seismicity J|0710|Shen,L-Y.+Chang,B-Q.|Application of stress-pore pressure coupling theory for porous media to the Xinfengjiang reservoir earthquakes||#PAG:145:1:1995:123-137|Porous medium+Xinfengjiang+Induced earthquake+Reservoir J|0711|Panfilov,V.S.+Sobolev,G.A.|Unstable steam-water convection as possible trigger to earthquakes||#PAG:145:1:1995:139-147|Trigger+Earthquake+Convection+Steam J|0712|Feng,D-Y.+Yu,X-J.+Gu,J-P.|Assessment of potential strength of an induced earthquake by using fuzzy multifactorial evaluation||#PAG:145:1:1995:149-153|Fuzzy mathematics+Induced earthquake+Strength+Reservoir J|0713|Chadha,R.K.|Role of dykes in induced seismicity at Bhatsa reservoir, Maharashtra, India||#PAG:145:1:1995:155-165|Induced seismicity+Dyke+Bhatsa reservoir+Pore pressure J|0714|Talwani,P.|Speculation on the causes of continuing seismicity near Koyna Reservoir, India||#PAG:145:1:1995:167-174|Koyna+Induced seismicity+Reservoir+Fault plane J|0715|Raval,U.|Seismicity of the Koyna region and regional tectonomagmatism of the western margin (India)||#PAG:145:1:1995:175-192|Intraplate seismicity+India+Koyna+Uplift J|0716|Awad,M.+Mizoue,M.|Tomographic inversion for the three-dimensional seismic velocity structure of the Aswan region, Egypt||#PAG:145:1:1995:193-207|Velocity structure+Aswan+Inversion+Tomography J|0717|Srivastava,H.N.+Bhattacharya,S.N.+Sinha Ray,K.C.+|Reservoir associated characteristics using deterministic chaos in Aswan, Nurek and Koyna reservoirs||#PAG:145:1:1995:209-217|Chaos+Reservoir+Microearthquake+Fractal dimension J|0718|Bostock,M.G.+Cassidy,J.F.|The upper mantle discontinuities in western Canada from Ps conversions||#PAG:145:2:1995:219-233|Upper mantle+Discontinuity+Ps-wave+Western Canada J|0719|Dufumier,H.+Cara,M.|On the limits of linear moment tensor inversion of surface wave spectra||#PAG:145:2:1995:235-257|Inversion+Spectrum+Moment tensor+Surface wave||#*ERZINCAN92 J|0720|Costa,G.+Panza,G.F.+Rotwain,I.M.|Stability of premonitory seismicity pattern and intermediate-term earthquake prediction in central Italy||#PAG:145:2:1995:259-275|Prediction+Italy+Seismicity+Regionalization J|0721|Novikova,O.V.+Vorobieva,I.A.+Enescu,D.+|Prediction of strong earthquakes in Vrancea, Romania, using the CN algorithm||#PAG:145:2:1995:277-296|Prediction+Vrancea+Algorithm+Earthquake catalogue||#*VRANCEA90|#*VRANCEA86 J|0722|Albarello,D.+Berardi,A.+Margottini,C.+|Macroseismic estimates of magnitude in Italy||#PAG:145:2:1995:297-312|Magnitude+Italy+Macroseismic data+Intensity J|0723|Digranes,P.+Kristoffersen,Y.|Use of mode-converted waves in marine seismic data to investigate the lithology of the sub-bottom sediments in Isfjorden, Svalbard||#PAG:145:2:1995:313-325|Marine seismic investigation+Svalbard+Converted wave+Lithology J|0724|Denis,C.|Review of `Dynamics of the Earth's deep interior and Earth rotation' edited by J. L. LeMouel, D. E. Smylie and T. Herring||#PAG:145:2:1995:365-368|Review+Dynamics+Rotation+Core-mantle boundary|Geophysical Monograph vol.72/vol.12, AGU/IUGG, 1993 J|0725|Koch,M.|Review of `Fluids in subduction zones' by J. Tarney, K. T. Pickering, R.J. Knipe and J. F. Dewey||#PAG:145:2:1995:368-370|Review+Fluid+Subduction zone|The Royal Society, 1991 J|0726|Yong,C.|Review of `Nonlinear dynamics and predictability of geophysical phenomena' edited by W. I. Newman, A. Gabielov and D. L. Turcotte||#PAG:145:2:1995:371-372|Review+Prediction+Geodynamics+Earthquake|Geophysical Monograph vol.83/vol.18, AGU/IUGG, 1994 J|0727|Mukerji,T.|Review of `Wavelets in geophysics' edited by E. Foufoula-Georgiou and P. Kumar||#PAG:145:2:1995:374-376|Review+Wavelet+Geophysics|Academic Press, 1994 J|0728|Wang,R.|Mechanical problems in geodynamics and work done in China||#PAG:145:3-4:1995:403-423|Geodynamics+Inverse problem+Focal mechanism+Tectonics J|0729|Zeng,R.+Ding,Z.+Wu,Q.|A review on the lithospheric structures in the Tibetan Plateau and constraints for dynamics||#PAG:145:3-4:1995:425-443|Tibet+Reflexion study+Lithosphere+Velocity J|0730|Tsuboi,S.|Free oscillations of a laterally heterogeneous and anelastic Earth||#PAG:145:3-4:1995:445-457|Free oscillation+Lateral heterogeneity+Anelasticity+Synthetic seismogram||#*BOLIVIA94 J|0731|Wang,K.|Coupling of tectonic loading and earthquake fault slips at subduction zones||#PAG:145:3-4:1995:537-559|Subduction zone+Fault-slip+Loading+Model J|0732|Shen,Z-K.|Oblique subduction of a Newtonian fluid slab||#PAG:145:3-4:1995:561-577|Earthquake slip vector+Subduction+Slab+Fluid J|0733|Zeng,R-S.+Wang,C-Y.+Zhang,D-N.|On the dynamics of extensional basin||#PAG:145:3-4:1995:579-603|Large earthquake+Xingtai+Basin & Range+T'ang-shan+Basin||#*TANGSHAN|#*NINGHE2|#*NINGHE J|0734|Cai,Y.+Wang,C-Y.+Hwang,W-T.+|The effect of fault-bend folding on seismic velocity in the marginal ridge of accretionary prisms||#PAG:145:3-4:1995:637-646|Accretionary prism+Low velocity+Cascadia subduction zone+Stress J|0735|Aki,K.|Interrelation between fault zone structures and earthquake processes||#PAG:145:3-4:1995:647-676|Seismic process+Fault zone+Earthquake+Coda Q||#*LANDERS92|#*SUPERSTITION87|#*MORGAN|#*BORAH|#*CAMPANIA|#*ELASNAM J|0736|Cornet,F.H.+Yin,J.|Analysis of induced seismicity for stress field determination and pore pressure mapping||#PAG:145:3-4:1995:677-700|Induced seismicity+Stress field+Pore pressure+Focal mechanism J|0737|Yin,X-C.+Chen,X-Z.+Song,Z-P.+|A new approach to earthquake prediction: the load/unload response ratio (LURR) theory||#PAG:145:3-4:1995:701-715|Prediction+Loading+Theory+Earthquake||#*NORTHRIDGE94|#*GONGHE90|#*YUNNAN88A|#*YUNNAN88B|#*LOMAPRIETA89|#*XINJIANG J|0738|Lockner,D.A.+Byerlee,J.D.|An earthquake instability model based on faults containing high fluid-pressure compartments||#PAG:145:3-4:1995:717-745|Instability+Model+Pore pressure+Earthquake cycle J|0739|He,C.|Slip-weakening constitutive relation and the structure in the vicinity of a shear crack tip||#PAG:145:3-4:1995:747-757|Numerical method+Slip+Stress+Shear zone J|0740|Zhao,Y-H.+Liang,H.+Huang,J-F.+|Development of subcracks between en echelon fractures in rock plates||#PAG:145:3-4:1995:759-773|Fracture+Marble+Laboratory+Xianshuihe||#*HAICHENG J|0741|Li,F.|In situ stress state in mainland China||#PAG:145:3-4:1995:775-787|China+Stress+Depth J|0742|Mallick,S.|Model-based inversion of amplitude-variations-with-offset data using a genetic algorithm||#GPS:60:4:1995:939-954|AVO+Genetic algorithm+Inversion+Reflexion coefficient J|0743|Amano,H.|An analytical solution to separate P-waves and S-waves in VSP wavefields||#GPS:60:4:1995:955-967|Vertical seismic profiling+Wave field+P-wave+S-wave J|0744|Mittet,R.+Hokstad,K.|Transforming walk-away VSP data into reverse VSP data||#GPS:60:4:1995:968-977|Vertical seismic profiling+Green's tensor+Marine seismic investigation+Transformation J|0745|Haldorsen,J.B.U.+Miller,D.E.+Walsh,J.J.|Walk-away VSP using drill noise as a source||#GPS:60:4:1995:978-997|Vertical seismic profiling+Drilling+Down-hole source+Noise J|0746|Keiswetter,D.A.+Steeples,D.W.|A field investigation of source parameters for the sledgehammer||#GPS:60:4:1995:1051-1057|Reflexion data+Sledgehammer+Site effect+Field work J|0747|Mavko,G.+Mukerji,T.+Godfrey,N.|Predicting stress-induced velocity anisotropy in rocks||#GPS:60:4:1995:1081-1087|Rock+Anisotropy+Stress+Wave velocity J|0748|Woodham,C.A.+Sandham,W.A.+Durrani,T.S.|3-D seismic tracking with probabilistic data association||#GPS:60:4:1995:1088-1094|Seismics+Probability+Algorithm+Depth J|0749|Tsvankin,I.+Thomsen,L.|Inversion of reflection traveltimes for transverse isotropy||#GPS:60:4:1995:1095-1107|Transversely isotropic medium+Inversion+Travel-times+P-wave+S-wave J|0750|Schneider,W.A.|Robust and efficient upwind finite-difference traveltime calculations in three dimensions||#GPS:60:4:1995:1108-1117|Finite difference method+Travel-times+Eikonal equation+Imaging J|0751|Bevc,D.+Black,J.L.+Palacharla,G.|Plumes: response of time migration to lateral velocity variation||#GPS:60:4:1995:1118-1127|Dipping layer+Lateral variation+Time migration+Plume J|0752|Dong,Z.+McMechan,G.A.|3-D viscoelastic anisotropic modeling of data from a multicomponent, multiazimuth seismic experiment in northeast Texas||#GPS:60:4:1995:1128-1138|Numerical modelling+Texas+Anisotropy+Viscoelasticity J|0753|Alkhalifah,T.|Efficient synthetic-seismogram generation in transversely isotropic, inhomogeneous media||#GPS:60:4:1995:1139-1150|Synthetic seismogram+Transversely isotropic medium+Ray tracing+Inhomogeneous medium J|0754|Leung,T.M.|Examination of the optimum XY value by ray tracing||#GPS:60:4:1995:1151-1156|Ray tracing+First arrival+Model+Refracted wave J|0755|Duncan,G.+Beresford,G.|Some analyses of 2-D median f-k filters||#GPS:60:4:1995:1157-1168|Filter+Stack+Power spectrum+Frequency-wavenumber analysis J|0756|Sacchi,M.D.+Ulrych,T.J.|High-resolution velocity gathers and offset space reconstruction||#GPS:60:4:1995:1169-1177|Common midpoint+High resolution+Offset+Inversion J|0757|Daneshvar,M.R.+Clay,C.S.+Savage,M.K.|Passive seismic imaging using microearthquakes||#GPS:60:4:1995:1178-1186|Microearthquake+Imaging+Seismicity+Hawaii J|0758|Painter,S.+Beresford,G.+Paterson,L.|On the distribution of seismic reflection coefficients and seismic amplitudes||#GPS:60:4:1995:1187-1194|Amplitude+Reflexion coefficient+Timor Sea+Well-log J|0759|Hubral,P.+Tygel,M.+Schleicher,J.|Geometrical-spreading and ray-caustic decomposition of elementary seismic waves||#GPS:60:4:1995:1195-1202|Decomposition+Caustic+Ray+Spreading J|0760|Igel,H.+Mora,P.+Riollet,B.|Anisotropic wave propagation through finite-difference grids||#GPS:60:4:1995:1203-1216|Propagation+Grid+Anisotropy+Finite difference method J|0761|Hovem,J.M.|Acoustic waves in finely layered media||#GPS:60:4:1995:1217-1221|Layered medium+Acoustic wave+Propagator matrix+Frequency J|0762|Mukerji,T.+Mavko,G.+Mujica,D.+|Scale-dependent seismic velocity in heterogeneous media||#GPS:60:4:1995:1222-1233|Heterogeneous medium+Velocity+Ray theory+Wavelength J|0763|Greenhalgh,S.A.+Mason,I.M.|Orientation of a downhole triaxial geophone||#GPS:60:4:1995:1234-1237|Orientation+Geophone+Down-hole recording+Vertical seismic profiling|Short note J|0764|Brittan,J.+Warner,M.+Pratt,G.|Anisotropic parameters of layered media in terms of composite elastic properties||#GPS:60:4:1995:1243-1248|Layered medium+Anisotropy+Transversely isotropic medium+Parameters|Short note J|0765|Clippard,J.D.+Christensen,D.H.+Rechtien,R.D.|Composite distribution inversion applied to crosshole tomography||#GPS:60:5:1995:1283-1294|Cross-hole+Tomography+Inversion+Imaging J|0766|Ou,Q.X.+Deng,D.M.|Advances of geophysical prospecting for petroleum in marine carbonate areas of the upper Yangtze region, southern China||#GPS:60:5:1995:1295-1305|South China+Seismic prospecting+Petroleum+Carbonate J|0767|Deng,D.M.+Ou,Q.X.|Geophysical prospecting for petroleum in marine carbonate areas of the lower Yangtze region of southern China||#GPS:60:5:1995:1306-1312|South China+Seismic prospecting+Petroleum+Carbonate J|0768|Best,A.I.+McCann,C.|Seismic attenuation and pore-fluid viscosity in clay-rich reservoir sandstones||#GPS:60:5:1995:1386-1397|Attenuation+Sandstone+Laboratory+Velocity J|0769|Ross,C.P.+Kinman,D.L.|Nonbright-spot AVO: two examples||#GPS:60:5:1995:1398-1408|AVO+Reservoir+Anomaly+Reflexion data J|0770|Tsvankin,I.|Body-wave radiation patterns and AVO in transversely isotropic media||#GPS:60:5:1995:1409-1425|Transversely isotropic medium+AVO+Body wave+Radiation pattern J|0771|Debski,W.+Tarantola,A.|Information on elastic parameters obtained from the amplitudes of reflected waves||#GPS:60:5:1995:1426-1436|Reflected wave+AVO+Parameters+Inversion J|0772|Fournier,F.+Derain,J-F.|A statistical methodology for deriving reservoir properties from seismic data||#GPS:60:5:1995:1437-1450|Statistical method+Reservoir+Well-log+Marine seismic investigation J|0773|Woodham,C.A.+Sandham,W.A.+Durrani,T.S.|Error analysis for the seismic PDA tracker||#GPS:60:5:1995:1451-1456|Kalman filter+Algorithm+Error+Data processing J|0774|Bunks,C.+Saleck,F.M.+Zaleski,S.+|Multiscale seismic waveform inversion||#GPS:60:5:1995:1457-1473|Nonlinear inversion+Velocity+Iterative method J|0775|Alkhalifah,T.|Gaussian beam depth migration for anisotropic media||#GPS:60:5:1995:1474-1484|Gaussian beam+Anisotropic medium+Migration+Ray tracing J|0776|Mittet,R.+Sollie,R.+Hokstad,K.|Prestack depth migration with compensation for absorption and dispersion||#GPS:60:5:1995:1485-1494|Migration+Absorption+Dispersion+Viscoacoustic medium J|0777|Ball,G.|Estimation of anisotropy and anisotropic 3-D prestack depth migration, offshore Zaire||#GPS:60:5:1995:1495-1513|Offshore+Zaire+Anisotropy+Migration J|0778|Coates,R.T.+Schoenberg,M.|Finite-difference modeling of faults and fractures||#GPS:60:5:1995:1514-1526|Finite difference method+Modelling+Fault+Fracture J|0779|Park,C.+Black,R.A.|Simple time-variant, band-pass filtering by operator scaling||#GPS:60:5:1995:1527-1535|Data processing+Filtering+Time domain+Convolution J|0780|Liner,C.L.|Some analytic aspects of a 2.5-D wave equation||#GPS:60:5:1995:1536-1540|Wave equation+Frequency domain+Eikonal equation+Source J|0781|Huang,K-Y.+Leu,D-R.|Recognition of Ricker wavelets by syntactic analysis||#GPS:60:5:1995:1541-1549|Ricker wavelet+Pattern recognition+Data analysis+Seismic processing J|0782|Alkhalifah,T.+Tsvankin,I.|Velocity analysis for transversely isotropic media||#GPS:60:5:1995:1550-1566|Transversely isotropic medium+Seismic processing+Dipping reflector+P-wave J|0783|Sorin,V.|Accuracy study of velocity estimation in 3-D layered models||#GPS:60:5:1995:1567-1574|Accuracy+Interface+Layered medium+Velocity J|0784|Amundsen,L.+Reitan,A.|Estimation of sea-floor wave velocities and density from pressure and particle velocity by AVO analysis||#GPS:60:5:1995:1575-1578|Wave velocity+AVO+Sea floor+Reflexion coefficient|Short note J|0785|Owusu,J.C.+Spencer,T.W.|VSP normal moveout stretch||#GPS:60:5:1995:1579-1582|Vertical seismic profiling+Moveout+Stacking+Layered medium|Short note J|0786|Dutta,S.|Discussion on `Migration by Fourier transform' by R. H. Stolt||#GPS:60:5:1995:1583|Comments+Migration+Fourier transform+Data processing|With a reply by the author J|0787|Roksandic,M.M.|Discussion on `A 3-D seismic case history evaluating fluvially deposited thin-bed reservoirs in a gas-producing property' by B. A. Hardage, R. A. Levey, V. Pendleton, J. Simmons and R. Edsen||#GPS:60:5:1995:1585-1592|Comments+Case history+Reservoir+Gas+Texas|With a reply by the authors J|0788|Tichelaar,B.W.+Van Luik,K.W.|Sonic logging of compressional-wave velocities in a very slow formation||#GPS:60:6:1995:1627-1633|Sonic log+Compressional wave+Dipole source+Velocity+Borehole J|0789|Yamamoto,T.+Nye,T.+Kuru,M.|Imaging the permeability structure of a limestone aquifer by crosswell acoustic tomography||#GPS:60:6:1995:1635-1645|Acoustic imaging+Cross-hole+Limestone+Aquifer J|0790|Sams,M.S.|Attenuation and anisotropy: the effect of extra fine layering||#GPS:60:6:1995:1646-1655|Sonic log+Layered medium+Attenuation+Anisotropy J|0791|Jeng,Y.|Shallow seismic investigation of a site with poor reflection quality||#GPS:60:6:1995:1715-1726|Shallow seismic sounding+P-wave+SH-wave+Reflexion J|0792|Tsokas,G.N.+Papazachos,C.B.+Vafidis,A.+|The detection of monumental tombs buried in tumuli by seismic refraction||#GPS:60:6:1995:1735-1742|Detection+Ancient monument+Refraction study+Cavity J|0793|Mavko,G.+Mukerji,T.|Seismic pore space compressibility and Gassmann's relation||#GPS:60:6:1995:1743-1749|Compressibility+Porosity+Rock+Pore fluid J|0794|Mavko,G.+Chan,C.+Mukerji,T.|Fluid substitution: estimating changes in VP without knowing VS||#GPS:60:6:1995:1750-1755|Wave velocity+Pore fluid+Rock+P-wave J|0795|Langhammer,J.+Landro,M.+Martin,J.+|Air-gun bubble damping by a screen||#GPS:60:6:1995:1765-1772|Marine seismic source+Airgun+Air bubble+Instrument J|0796|Li,X-P.+Schott,W.+Ruter,H.|Frequency-dependent Q-estimation of Love-type channel waves and the application of Q-correction to seismograms||#GPS:60:6:1995:1773-1789|Channel wave+Q+Coal seam+Seismogram J|0797|Vasco,D.W.+Peterson,J.E.+Majer,E.L.|Beyond ray tomography: wavepath and Fresnel volumes||#GPS:60:6:1995:1790-1804|Tomography+Cross-hole+Inversion+Technique J|0798|Xu,T.+McMechan,G.A.+Sun,R.|3-D prestack full-wavefield inversion||#GPS:60:6:1995:1805-1818|Inversion+Wave field+Imaging+Iterative method J|0799|Uzcategui,O.|2-D depth migration in transversely isotropic media using explicit operators||#GPS:60:6:1995:1819-1829|Migration+Transversely isotropic medium+Operator+Filter J|0800|Fei,T.+Larner,K.|Elimination of numerical dispersion in finite-difference modeling and migration by flux-corrected transport||#GPS:60:6:1995:1830-1842|Dispersion+Finite difference method+Migration+Transport J|0801|Jurado,F.+Cuer,M.+Richard,V.|1-D layered media: part 1, 3-D elastic modeling||#GPS:60:6:1995:1843-1856|Layered medium+Numerical modelling+Algorithm+Finite difference method J|0802|Jurado,F.+Cuer,M.+Richard,V.|1-D layered media: part 2, layer-based waveform inversion||#GPS:60:6:1995:1857-1869|Layered medium+Inversion+Least squares+Waveform J|0803|Shin,C.|Sponge boundary condition for frequency-domain modeling||#GPS:60:6:1995:1870-1874|Modelling+Frequency domain+Boundary condition+Matrix method J|0804|Rajasekaran,S.+McMechan,G.A.|Prestack processing of land data with complex topography||#GPS:60:6:1995:1875-1886|Topography+Seismic processing+Static correction+Stack J|0805|Abma,R.+Claerbout,J.|Lateral prediction for noise attenuation by t-x and f-x techniques||#GPS:60:6:1995:1887-1896|Noise+Time-space domain+Frequency-space domain+Prediction J|0806|Blonk,B.+Herman,G.C.+Drijkoningen,G.G.|An elastodynamic inverse scattering method for removing scattered surface waves from field data||#GPS:60:6:1995:1897-1905|Scattering+Elastodynamics+Surface wave+Inverse problem J|0807|Chakraborty,A.+Okaya,D.A.|Frequency-time decomposition of seismic data using wavelet-based methods||#GPS:60:6:1995:1906-1916|Decomposition+Frequency-time domain+Wavelet+Transform J|0808|Stefani,J.P.|Turning-ray tomography||#GPS:60:6:1995:1917-1929|Ray tracing+Tomography+Reverse-time migration+Velocity structure J|0809|Noponen,I.T.|Velocity computation from checkshot surveys in deviated wells||#GPS:60:6:1995:1930-1932|Well+Velocity+Travel-times+Drilling|Short note J|0810|Sayers,C.M.|Simplified anisotropy parameters for transversely isotropic sedimentary rocks||#GPS:60:6:1995:1933-1935|Transversely isotropic medium+Anisotropy+Sedimentary rock+Moveout|Short note J|0811|Barnes,A.E.|Discussion on `Pulse distortion in depth migration' by M. Tygel, J. Schleicher and P. Hubral||#GPS:60:6:1995:1942-1947|Comments+Pulse+Distortion+Migration|With a reply by the authors and a further response J|0812|Mohan,N.L.|Discussion on `Pulse distortion in depth migration' by M. Tygel, J. Schleicher and P. Hubral||#GPS:60:6:1995:1947-1949|Comments+Pulse+Distortion+Migration J|0813|Lamarche,G.+Beanland,S.+Ravens,J.|Deformation style and history of the Eketahuna region, Hikurangi forearc, New Zealand, from shallow seismic reflection data||#NEZ:38:1:1995:105-116|Deformation+Faulting+Reflexion data+New Zealand J|0814|Cahill,J.P.|Evolution of the Winton Basin, Southland||#NEZ:38:2:1995:245-258|Basin+Tectonics+Reflexion study+New Zealand J|0815|Robinson,R.|An anomaly in borehole radon content at Wellington, New Zealand||#NEZ:38:3:1995:395-398|Prediction+Anomaly+Radon+Wellington|Note J|0816|Sutherland,R.+Norris,R.J.|Late Quaternary displacement rate, paleoseismicity, and geomorphic evolution of the Alpine Fault: evidence from Hokuri Creek, South Westland, New Zealand||#NEZ:38:4:1995:419-430|Alpine Fault+Quaternary+Palaeoseismicity+Earthquake||#*LANDERS92|#*LUZON90A J|0817|Arnadottir,T.+Beavan,J.+Pearson,C.F.|Deformation associated with the 18 June 1994 Arthur's Pass earthquake, New Zealand||#NEZ:38:4:1995:553-558|Earthquake+1994+New Zealand+Deformation||#*ARTHURSPASS94 J|0818|Smith,E.G.C.+Stern,T.+O'Brien,B.|A seismic velocity profile across the central South Island, New Zealand, from explosion data||#NEZ:38:4:1995:565-570|New Zealand+Velocity profile+Explosion seismology+Refraction study J|0819|Eberhart-Phillips,D.|Examination of seismicity in the central Alpine Fault region, South Island, New Zealand||#NEZ:38:4:1995:571-578|Seismicity+Alpine Fault+Velocity-depth function+1991-1994||#*ARTHURSPASS94 J|0820|Okaya,D.+Christensen,N.+Stanley,D.+|Crustal anisotropy in the vicinity of the Alpine Fault zone, South Island, New Zealand||#NEZ:38:4:1995:579-583|Alpine Fault+Crust+Anisotropy+Laboratory J|0821|Stern,T.A.|Gravity anomalies and crustal loading at and adjacent to the Alpine Fault, New Zealand||#NEZ:38:4:1995:593-600|Alpine Fault+Gravity+Crustal structure+Dipping reflector J|0822|Davey,F.J.+Henyey,T.+Kleffmann,S.+|Crustal reflections from the Alpine Fault zone, South Island, New Zealand||#NEZ:38:4:1995:601-604|Alpine Fault+Dipping reflector+Reflexion study+Moveout|Note J|0823|Barrientos,S.E.|Contributions of the Chilean seismic networks||#IIS:29:-:1995:1-19|Chile+Network+Seismic potential+Earthquake||#*SANANTONIO J|0824|Li,Q.|Seismic networks in the mainland of China||#IIS:29:-:1995:21-42|China+Network+Seismicity+Instrument J|0825|Echeverri,M.A.|Regional seismic network of "Eje Cafetero" Manizales - Colombia||#IIS:29:-:1995:45-53|Colombia+Seismicity+Network+Map J|0826|Stylianos,P.G.|Seismology of Greece||#IIS:29:-:1995:55-74|Greece+Seismology+Earthquake+Seismograph station J|0827|Sariman|Seismic network in Indonesia present and future||#IIS:29:-:1995:75-93|Indonesia+Network+Seismicity+Station location J|0828|Kariuki,P.C.|Kenya seismic network||#IIS:29:-:1995:95-105|Kenya+Network+Seismicity+Map J|0829|Tandukar,R.P.|National seismological network Nepal||#IIS:29:-:1995:107-119|Nepal+Network+Seismicity+Map J|0830|Norabuena,E.O.|Seismic networks in Peru||#IIS:29:-:1995:121-140|Peru+Network+Seismicity+Station location J|0831|Garcia,D.C.|Seismic network in the Philippines||#IIS:29:-:1995:141-160|Philippines+Network+Destructive earthquake+Seismicity||#*LUZON90A|#*MINDANAO J|0832|Rigor,D.M.|Seismic monitoring in Philippine geothermal areas||#IIS:29:-:1995:161-173|Monitoring+Induced seismicity+Geothermal field+Philippines J|0833|Prachuab,S.|Seismic network in Thailand||#IIS:29:-:1995:175-190|Network+Thailand+Seismicity+Seismograph station+ISC||#*SRINAKARIND J|0834|Turkelli,N.|Monitoring of earthquake activity in Turkiye||#IIS:29:-:1995:191-208|Turkey+Monitoring+Seismicity+Seismograph station J|0835|Yilmaz,R.|Seismic network in Turkiye||#IIS:29:-:1995:209-222|Turkey+Network+Seismotectonics J|0836|Azangi,M.|Seismic network in Zaire||#IIS:29:-:1995:223-237|Zaire+Network+Rift valley+Seismicity J|0837|Touhei,T.|Propagation of normal modes due to impulse loading to 3-D medium on a rigid basement||#EES:24:7:1995:937-949|Normal mode+Propagation+Numerical method+Loading J|0838|Olafsson,S.+Sigbjornsson,R.|Application of ARMA models to estimate earthquake ground motion and structural response||#EES:24:7:1995:951-966|Ground motion+Structural response+Model+Iceland J|0839|Sun,L.M.+Fujino,Y.+Chaiseri,P.+|The properties of tuned liquid dampers using a TMD analogy||#EES:24:7:1995:967-976|Damper+Shake table+Liquid J|0840|Huang,H-C.+Chiu,H-C.|The effect of canyon topography on strong ground motion at Feitsui damsite: quantitative results||#EES:24:7:1995:977-990|Ground motion+Canyon+Dam+Topography J|0841|Shivakumar,P.+Veletsos,A.S.|Dynamic response of rigid tanks with inhomogeneous liquids||#EES:24:7:1995:991-1015|Storage tank+Dynamic response+Liquid+Inhomogeneity J|0842|Cheung,Y.K.+Tham,L.G.+Lei,Z.X.|Transient response of single piles under horizontal excitations||#EES:24:7:1995:1017-1038|Pile+Response+Boundary element method+Time domain J|0843|Pan,T-C.+Ling,S-F.+Cui,W.|Seismic response of segmental buildings||#EES:24:7:1995:1039-1048|Building+Structural response+Aseismic design+Isolation J|0844||Review of `Earthquake resistance of reinforced concrete structures: a volume honoring Hiroyuki Aoyama' edited by T. Okada||#EES:24:7:1995:1049|Review+Reinforced concrete+Earthquake-resistant design+Earthquake engineering|University of Tokyo Press, 1993, 488pp J|0845||Review of `Dynamic safety of earth and rockfill dams' by T. Ohmachi and J. Kuwano||#EES:24:7:1995:1049|Review+Dam+Earthquake-resistant design+Safety|A.A. Balkema, Rotterdam, 1994, 157pp J|0846||Review of `Foundation vibration analysis using simple physical models' by J. P. Wolf||#EES:24:7:1995:1050-1051|Review+Foundation+Vibration+Model|Prentice Hall, New Jersey, 1994, 423pp J|0847|Malhotra,P.K.+Huang,M.J.+Shakal,A.F.|Seismic interaction at separate joints of an instrumented concrete bridge||#EES:24:8:1995:1055-1067|Bridge+Concrete+Joint+Earthquake engineering||#*LANDERS92|#*BIGBEAR92 J|0848|Wen,K-L.+Peng,H-Y.+Liu,L-F.+|Basin effects analysis from a dense strong motion observation network||#EES:24:8:1995:1069-1083|Basin+Strong motion+Taiwan+Amplification||#*TAIWAN92B|#*TAIWAN93|#*NANAO94 J|0849|Yamada,K.+Kobori,T.|Control algorithm for estimating future responses of active variable stiffness structure||#EES:24:8:1995:1085-1099|Stiffness+Algorithm+Structural response+Earthquake-resistant design J|0850|Darbre,G.R.|Strong-motion instrumentation of dams||#EES:24:8:1995:1101-1111|Dam+Instrumentation+Strong motion J|0851|Trifunac,M.D.|Pseudo relative velocity spectra of earthquake ground motion at high frequencies||#EES:24:8:1995:1113-1130|High frequency+Ground motion+Spectrum+Velocity J|0852|Filiatrault,A.+Wagner,P.+Cherry,S.|Analytical prediction of experimental building pounding||#EES:24:8:1995:1131-1154|Shake table+Building+Steel frame+Structure interaction J|0853|Hudson,D.E.|Review of `Dynamics of structures: theory and applications to earthquake engineering' by A. K. Chopra||#EES:24:8:1995:1173|Review+Structural dynamics+Earthquake engineering|Prentice-Hall, New Jersey, 1995, 761pp J|0854|Mohammadi,M.+Karabalis,D.L.|Dynamic 3-D soil-railway track interaction by BEM-FEM||#EES:24:9:1995:1177-1193|Dynamic response+Soil-structure interaction+Boundary element method+Finite element method J|0855|Sucuoglu,H.+Nurtug,A.|Earthquake ground motion characteristics and seismic energy dissipation||#EES:24:9:1995:1195-1213|Ground motion+Dissipation+Earthquake+Intensity||#*LOMAPRIETA89|#*ERZINCAN92|#*KUSHIRO93|#*WHITTIER|#*KALAMATA J|0856|Nurtug,A.+Sucuoglu,H.|Prediction of seismic energy dissipation in SDOF systems||#EES:24:9:1995:1215-1223|Dissipation+Energy+Ground motion+Spectrum||#*ERZINCAN92|#*SALVADOR86 J|0857|Cervera,M.+Oliver,J.+Faria,R.|Seismic evaluation of concrete dams via continuum damage models||#EES:24:9:1995:1225-1245|Gravity dam+Model+Damage+Nonlinear response J|0858|Calvi,G.M.+Kingsley,G.R.|Displacement-based seismic design of multi-degree-of-freedom bridge structures||#EES:24:9:1995:1247-1266|Bridge+Displacement+Aseismic design+Spectrum J|0859|Chang,Y.W.|Discussion of `Dynamic soil pressures on rigid vertical walls' by A. S. Veletsos and A. H. Younan||#EES:24:9:1995:1283-1286|Comments+Dynamic response+Pressure+Wall+Soil-structure interaction|With a reply by the authors J|0860|Wolf,J.P.|Discussion of `Dynamic soil pressures on rigid vertical walls' by A. S. Veletsos and A. H. Younan||#EES:24:9:1995:1287-1293|Comments+Dynamic response+Pressure+Wall+Soil-structure interaction|With a reply by the authors J|0861|Tang,Y.|Discussion of `Dynamic soil pressures on rigid cylindrical vaults' by A. S. Veletsos and A. H. Younan||#EES:24:9:1995:1295-1297|Comments+Cylinder+Pressure+Dynamic response+Shaking|With a reply by the authors J|0862|Yuan,X-M.+Liao,Z-P.|Scattering of plane SH waves by a cylindrical alluvial valley of circular-arc cross-section||#EES:24:10:1995:1303-1313|Scattering+SH-wave+Valley+Cylinder J|0863|Macek,R.W.+Aubert,B.H.|A mass penalty technique to control the critical time increment in explicit dynamic finite element analyses||#EES:24:10:1995:1315-1331|Finite element method+Mass+Structural dynamics+Technique J|0864|Basu,B.+Gupta,V.K.|A probabilistic assessment of seismic damage in ductile structures||#EES:24:10:1995:1333-1342|Damage+Ductility+Structural response+Model||#*MEXICOCITY|#*WHITTIER J|0865|Pan,T-C.|When the doorbell rings-a case of building response to a long distance earthquake||#EES:24:10:1995:1343-1353|Singapore+1994+Earthquake+Structural response+Sumatra||#*SUMATERA94|#*SUMATERA94A|#*MEXICOCITY J|0866|Fu,G.|Seismic response statistics of SDOF system to exponentially modulated coloured input: an explicit solution||#EES:24:10:1995:1355-1370|Statistics+Time domain+Structural response+Spectrum J|0867|Tso,W.K.+Wong,C.M.|Seismic displacements of torsionally unbalanced buildings||#EES:24:10:1995:1371-1387|Displacement+Building+Torsion+Model J|0868|Winkler,T.+Meguro,K.+Yamazaki,F.|Response of rigid body assemblies to dynamic excitation||#EES:24:10:1995:1389-1408|Shake table+Rigid block+Dynamic response+Numerical method||#*KUSHIRO93 J|0869|Nakashima,M.+Akazawa,T.+Igarashi,H.|Pseudo-dynamic testing using conventional testing devices||#EES:24:10:1995:1409-1422|Pseudodynamic test+Loading+Building+Damper J|0870|Topole,K.G.+Stubbs,N.|Non-destructive damage evaluation of a structure from limited modal parameters||#EES:24:11:1995:1427-1436|Damage+Building+Stiffness+Mathematical method J|0871|Yang,J.N.+Wu,J.C.+Kawashima,K.+|Hybrid control of seismic excited bridge structures||#EES:24:11:1995:1437-1451|Bridge+Control+Aseismic design+Simulation J|0872|Tan,H.+Chopra,A.K.|Earthquake analysis of arch dams including dam-water-foundation rock interaction||#EES:24:11:1995:1453-1474|Dam+Foundation+Structural response+Computer program J|0873|Tan,H.+Chopra,A.K.|Dam-foundation rock interaction effects in frequency-response functions of arch dams||#EES:24:11:1995:1475-1489|Dam+Dynamic response+Foundation+Frequency response J|0874|Riddell,R.|Inelastic design spectra accounting for soil conditions||#EES:24:11:1995:1491-1510|Spectrum+Ground motion+Soil dynamics+Site response||#*SANANTONIO J|0875|Ruiz,S.E.+Urrego,O.+Silva,F.L.|Influence of the spatial distribution of energy-dissipating bracing elements on the seismic response of multistorey frames||#EES:24:11:1995:1511-1525|Braced+Frame+Structural response+Reinforced concrete J|0876|Ansary,M.A.+Yamazaki,F.+Katayama,T.|Statistical analysis of peaks and directivity of earthquake ground motion||#EES:24:11:1995:1527-1539|Ground motion+Statistical method+Directivity+Accelerograph||#*KUSHIRO93|#*NOTO93|#*SEAOFJAPAN93 J|0877|Gupta,V.K.+Trifunac,M.D.|Discussion of `Efficient modal analysis for structures with soil-structure interaction' by W-H. Wu and H. A. Smith||#EES:24:11:1995:1541-1544|Comments+Soil-structure interaction+Structural response+Frequency domain+Mathematical analysis|With a reply by the authors J|0878|Nurtug,A.+Sucuoglu,H.|Erratum to `Prediction of seismic energy dissipation in SDOF systems'||#EES:24:11:1995:1545|Errata+Dissipation+Energy+Ground motion+Spectrum J|0879|Manohar,C.S.+Sarkar,A.|Critical earthquake input power spectral density function models for engineering structures||#EES:24:12:1995:1549-1566|Power spectrum+Model+Earthquake engineering+Linear system J|0880|Veletsos,A.S.+Parikh,V.H.+Younan,A.H.|Dynamic response of a pair of walls retaining a viscoelastic solid||#EES:24:12:1995:1567-1589|Dynamic response+Wall+Viscoelastic solid J|0881|Malhotra,P.K.|Base uplifting analysis of flexibly supported liquid-storage tanks||#EES:24:12:1995:1591-1607|Uplift+Storage tank+Liquid+Mathematical analysis J|0882|Kowalsky,M.J.+Priestley,M.J.N.+MacRae,G.A.|Displacement-based design of RC bridge columns in seismic regions||#EES:24:12:1995:1623-1643|Reinforced concrete+Bridge+Displacement+Aseismic design J|0883|Lin,T-W.+Chern,C-C.+Hone,C-C.|Experimental study of base isolation by free rolling rods||#EES:24:12:1995:1645-1650|Base isolation system+Shake table+Structural dynamics+Friction J|0884|Chuhan,Z.+Feng,J.+Pekau,O.A.|Time domain procedure of FE-BE-IBE coupling for seismic interaction of arch dams and canyons||#EES:24:12:1995:1651-1666|Dam+Canyon+Numerical modelling+Structure interaction B|0885|e*Poitevin,C.|Non tidal gravity changes: intercomparison between absolute and superconducting gravimeters||Goodkind,J.M.|Gravity peaks at the time of earthquakes in central Alaska||1995:Luxembourg:Centre Europeen de Geodynamique et de Seismologie|Gravity+Alaska+Earthquake|Vol.11. p91-96. Proceedings of a Workshop held at Walferdange, September 1994 J|0886|Palazzo,B.+Petti,L.|Seismic response control in base isolated systems using tuned mass dampers||#EEE:-:2:1995:3-13|Base isolation system+Damper+Structural response+Control J|0887|Todorovska,M.I.+Lee,V.W.|A note on sensitivity of uniform probability spectra on modeling the fault geometry in areas with a shallow seismogenic zone||#EEE:-:2:1995:14-22|Sensitivity+Spectrum+Seismogenic zone+Fault J|0888|Srbulov,M.+Parathiras,A.|The prediction of sliding in plastic soil during strong earthquakes||#EEE:-:2:1995:23-36|Sliding+Soil+Strong earthquake+Shear J|0889|Tertulliani,A.|Testing the European Macroseismic Scale 1992 (EMS92) on Italian earthquakes||#EEE:-:2:1995:37-43|Earthquake+Italy+Macroseismic scale+Classification J|0890|Agarwal,P.+Gupta,V.K.|A stochastic approach to the response of torsionally coupled multistoried buildings||#EEE:-:2:1995:44-55|Stochastic method+Torsion+Building+Structural response J|0891|Tomozevic,M.+Fischinger,M.|Lessons from Hyogoken-Nanbu earthquake of January 17, 1995||#EEE:-:2:1995:56-72|Kobe+Destructive earthquake+1995+Damage||#*SHYOGO95 J|0892|Jangid,R.S.|Seismic response of structure isolated by free rolling rods||#EEE:-:3:1995:3-11|Base isolation system+Structural response+Model J|0893|Lee,V.W.+Sabban,M.A.+Ghosh,T.K.|3-D surface motions of long semi-circular longitudinal canyons I: incident plane P waves||#EEE:-:3:1995:12-22|Canyon+Plane wave+Half-space+Scattering J|0894|Ghobarah,A.+Ramadan,T.|Dynamic analysis of twenty-story EBFs with semi-rigid joints||#EEE:-:3:1995:23-32|Dynamic analysis+Braced+Steel frame+Joint J|0895|Al-Amri,A.M.S.|Preliminary seismic hazard assessment of the southern Red Sea region||#EEE:-:3:1995:33-38|Red Sea+Hazard+Seismotectonics+Seismic potential+ISC||#*YEMEN J|0896|Papadopoulos,P.G.|Simplified nonlinear seismic analysis of infilled plane RC frames||#EEE:-:3:1995:39-50|Reinforced concrete+Frame+Nonlinear response+Earthquake engineering J|0897|Tsonos,A.G.+Tegos,I.A.+Penelis,G.G.|Influence of axial force variations on the seismic behavior of exterior beam - column joints||#EEE:-:3:1995:51-63|Beam+Column+Joint+Earthquake engineering J|0898|a-UNAM and CENAPRED Seismology Group|The Milpa Alta earthquake of January 21, 1995|With Spanish abstract|#GFN:34:4:1995:355-362|Earthquake+1995+Mexico+Focal mechanism+ISC||#*MILPAALTA95 J|0899|Herak,M.+Herak,D.+Markusic,S.|Fault-plane solutions for earthquakes (1956-1995) in Croatia and neighbouring regions|With Croatian abstract|Geofizika, Zagreb:12:-:1995:43-56|Croatia+Fault plane solution+1956-1995+Earthquake J|0900|Wu,Z.+Kim,S.G.+Gao,Y.|Broadband b: scaling law of P-wave broadband radiated energy|With Croatian abstract|Geofizika, Zagreb:12:-:1995:57-67|Scaling+P-wave+Energy+b-Value+Broadband seismology J|0901|Johnson,D.J.|Molten core model for Hawaiian rift zones||#JVG:66:1-4:1995:27-35|Rift+Hawaii+Earthquake+Model J|0902|Ida,Y.|Magma chamber and eruptive processes at Izu-Oshima volcano, Japan: buoyancy control of magma migration||#JVG:66:1-4:1995:53-67|Magma+Seismicity+Eruption+Izu-Oshima J|0903|Belousov,A.B.|The Shiveluch volcanic eruption of 12 November 1964--explosive eruption provoked by failure of the edifice||#JVG:66:1-4:1995:357-365|Eruption+1964+Kamchatka+Seismicity J|0904|Roberts,P.M.+Aki,K.+Fehler,M.C.|A shallow attenuating anomaly inside the ring fracture of the Valles Caldera, New Mexico||#JVG:67:1-3:1995:79-99|New Mexico+Teleseism+Anomaly+Spectral ratio+Caldera J|0905|Bibby,H.M.+Caldwell,T.G.+Davey,F.J.+|Geophysical evidence on the structure of the Taupo Volcanic Zone and its hydrothermal circulation||#JVG:68:1-3:1995:29-58|Seismicity+Velocity structure+North Island+Volcanic complex J|0906|Davey,F.J.+Henrys,S.A.+Lodolo,E.|Asymmetric rifting in a continental back-arc environment, North Island, New Zealand||#JVG:68:1-3:1995:209-238|North Island+Marine seismic investigation+Seismicity+Rifting J|0907|Devine,J.D.+Sigurdsson,H.|Petrology and eruption styles of Kick'em-Jenny submarine volcano, Lesser Antilles island arc||#JVG:69:1-2:1995:35-58|Crustal structure+Petrology+Lesser Antilles+Submarine eruption J|0908|Cole,P.D.+Queiroz,G.+Wallenstein,N.+|An historic subplinian/phreatomagmatic eruption: the 1630 AD eruption of Furnas volcano, Sao Miguel, Azores||#JVG:69:1-2:1995:117-135|1630+Eruption+Precursor+Azores J|0909|Fujita,E.+Ida,Y.+Oikawa,J.|Eigen oscillation of a fluid sphere and source mechanism of harmonic volcanic tremor||#JVG:69:3-4:1995:365-378|Volcanic tremor+Eigenvibration+Sphere+Fluid J|0910|Lebedev,T.S.+Korchin,V.A.+Burtny,P.A.+|Petrovelocity crustal models of the central Ukrainian Shield. I.|In Russian with English abstract|#GFZ:-:4:1995:13-22|Ukrainian Shield+Deep crust+Geophysical investigation+Explosion seismology J|0911|Lesnoy,G.D.|Analysis of seismic image of an inhomogeneous anisotropic medium|In Russian with English abstract|#GFZ:-:4:1995:41-50|Reflector+Image+Inhomogeneous medium+Anisotropic medium J|0912|Berland,M.G.+Kozlenko,V.G.+Koyfman,L.I.+|New data on the deep structure of the Safonov Trough (Mezen syneclise)|In Russian with English abstract|#GFZ:-:4:1995:67-76|Deep structure+Modelling+Arkhangel'sk+Seismic prospecting J|0913|Kozlenko,V.G.+Kostiukevich,A.S.+Koufman,L.I.+|Deep structure of Mezen syneclise by seismo-gravitational modeling data|In Russian with English abstract|#GFZ:-:5:1995:20-29|Deep structure+Gravity+Arkhangel'sk+Seismic prospecting J|0914|Lebedev,T.S.+Korchin,V.A.+Burtny,P.A.+|Petrovelocity models of the Earth's crust of the central Ukrainian Shield. 2.|In Russian with English abstract|#GFZ:-:5:1995:30-37|Crustal structure+Ukrainian Shield+Velocity+Model J|0915|Lossovsky,E.K.|Deep seismic sounding of focal zones of crustal earthquakes: digital modeling|In Russian with English abstract|#GFZ:-:5:1995:38-46|Deep seismic sounding+Precursor+Focus+Seismic process J|0916|Verbitsky,T.Z.+Malitsky,D.V.|Recurrent method of solving increase seismic problems|In Russian with English abstract|#GFZ:-:5:1995:47-52|Inverse problem+Recurrence+Mathematical method+Dynamic analysis J|0917|Tiapkin,O.K.|Principal features of median filters used in processing potential fields in exploration|In Russian with English abstract|#GFZ:-:5:1995:53-61|Seismic exploration+Filter+Data processing+Geophysical data J|0918|Kanevsky,V.F.|Methods of processing vibrograms with exciting single and periodic ternary coded messages|In Russian with English abstract|#GFZ:-:5:1995:71-74|Seismic exploration+Data processing+Sequence|Scientific communication J|0919|Prodayvoda,G.T.+Maslov,B.M.+Korol,V.V.|Definition of parameter distribution spectrum of the crack-pore space structure of rocks by the data of P-dependence elastic velocity|In Russian with English abstract|#GFZ:-:5:1995:75-80|Inversion+Microcrack+Elastic wave+Least squares|Scientific communication J|0920|Lebedev,T.S.+Korchin,V.A.+Burtny,P.A.+|Petrovelocity models of the Earth's crust of the central Ukrainian Shield. 3.|In Russian with English abstract|#GFZ:-:6:1995:14-21|Ukrainian Shield+Deep crust+Geophysical investigation+Model J|0921|Lossovsky,E.K.|Method of determining dissipative parameters (Q and alpha) of the lithosphere|In Russian with English abstract|#GFZ:-:6:1995:22-30|Layered medium+Lithosphere+Explosion seismology+Reflected wave J|0922|Kanevsky,V.F.|Possibilities of improving quality of recording during excitation in nonexplosive seismic exploration of non-periodic chains of M-sequences, Legendre, Jacobi, Hall|In Russian with English abstract|#GFZ:-:6:1995:37-39|Seismic exploration+Seismic recording|Scientific communication J|0923|Lam,N.T.K.+Wilson,J.L.+Hutchinson,G.L.|The seismic resistance of unreinforced masonry cantilever walls in low seismicity areas||#BNZ:28:3:1995:179-195|Masonry structure+Wall+Structural response+Spectrum J|0924|Smith,W.D.|A development in the modelling of far-field intensities for New Zealand earthquakes||#BNZ:28:3:1995:196-217|New Zealand+Large earthquake+Isoseismal data+Modified Mercalli intensity J|0925|Smith,W.D.|A procedure for modelling near-field earthquake intensities||#BNZ:28:3:1995:218-223|Intensity+Large earthquake+Isoseismal map+New Zealand J|0926|Heidebrecht,A.C.|Insights and challenges associated with determining seismic design forces in a loading code||#BNZ:28:3:1995:224-246|Hazard+Canada+New Zealand+Building code J|0927||Significant NZ earthquakes May 1995 to July 1995 and significant world earthquakes May 1995 to July 1995||#BNZ:28:3:1995:249-251|Significant earthquake+1995+New Zealand J|0928|Robinson,W.H.|Recent research and applications of seismic isolation in New Zealand||#BNZ:28:4:1995:253-264|New Zealand+Base isolation system+Building+Earthquake-resistant design J|0929|Dowrick,D.J.+Rhoades,D.A.|Damage ratios for plant, equipment and stock in the 1987 Edgecumbe, New Zealand earthquake||#BNZ:28:4:1995:265-278|Damage+1987+Earthquake+Edgecumbe||#*EDGECUMBE J|0930|Dowrick,D.J.+Gibson,G.+McCue,K.|Seismic hazard in Australia and New Zealand||#BNZ:28:4:1995:279-287|Australia+New Zealand+Hazard+Seismicity+Earthquake J|0931|Hutchinson,G.L.+Wilson,J.L.+Pham,L.+|Developing a common Australasian earthquake loading standard||#BNZ:28:4:1995:288-293|Loading+Australia+New Zealand+Building code J|0932|Berrill,J.B.+McManus,K.J.+Clarke,G.H.|A note on the Arthur's Pass earthquake 18 June 1994||#BNZ:28:4:1995:294-299|New Zealand+1994+Earthquake+Structural response||#*ARTHURSPASS94 J|0933|Paterson,B.R.+Berrill,J.B.|Damage to State Highway 73 from the 29 May 1995, Arthur's Pass earthquake||#BNZ:28:4:1995:300-310|Damage+Earthquake+1995+New Zealand||#*ARTHURSPASS95 J|0934|Billings,I.J.|Restoration of road and rail transportation following the great Hanshin earthquake of 17 January 1995||#BNZ:28:4:1995:311-334|Restoration+1995+Destructive earthquake+Kobe||#*SHYOGO95 J|0935|Moss,P.J.|Review of `Siting in earthquake zones' by J. G. Z. Q. Wang and K. T. Laws||#BNZ:28:4:1995:335-336|Review+Seismic zone+Site+Liquefaction|A.A. Balkema, Rotterdam, 1994 J|0936|Hiramatsu,Y.+Ando,M.|Attenuation anisotropy beneath the subduction zones in Japan||#GRL:22:13:1995:1653-1656|ScS-wave+Subduction zone+Japan+Anisotropy||#*SAKHALIN90 J|0937|Vinnik,L.P.+Romanowicz,B.+Le Stunff,Y.+|Seismic anisotropy in the D" layer||#GRL:22:13:1995:1657-1660|D"-layer+Anisotropy+Diffracted wave+Low-velocity layer+SV-wave J|0938|Tanioka,Y.+Ruff,L.J.+Satake,K.|The great Kurile earthquake of October 4, 1994 tore the slab||#GRL:22:13:1995:1661-1664|Kuril-Kamchatka Arc+Earthquake+1994+Slab||#*HOKKAIDO94|#*SHIKOTAN J|0939|Randall,G.E.+Ammon,C.J.+Owens,T.J.|Moment tensor estimation using regional seismograms from a Tibetan Plateau portable network deployment||#GRL:22:13:1995:1665-1668|Tibet+Moment tensor+PASSCAL+Regional study J|0940|Tsuji,H.+Hatanaka,Y.+Sagiya,T.+|Coseismic crustal deformation from the 1994 Hokkaido-Toho-Oki earthquake monitored by a nationwide continuous GPS array in Japan||#GRL:22:13:1995:1669-1672|Crustal deformation+Japan+1994+Earthquake||#*HOKKAIDO94 J|0941|Menke,W.+Sparks,D.|Crustal accretion model for Iceland predicts `cold' crust||#GRL:22:13:1995:1673-1676|Iceland+Crust+Model+Geophysical investigation J|0942|Petit,C.+Deverchere,J.|Velocity structure of the northern Baikal rift, Siberia, from local and regional earthquake travel times||#GRL:22:13:1995:1677-1680|Velocity structure+Baikalian Rift+Travel-times+Upper lithosphere J|0943|Schlindwein,V.+Wassermann,J.+Scherbaum,F.|Spectral analysis of harmonic tremor signals at Mt. Semeru volcano, Indonesia||#GRL:22:13:1995:1685-1688|Volcanic tremor+Spectral analysis+Indonesia+Harmonic tremor J|0944|Iguchi,M.+Ishihara,K.+Tatsumi,Y.|Characteristic non-down-dip-extensional intermediate-depth earthquakes immediately beneath the volcanic front in South Kyushu, Japan||#GRL:22:14:1995:1905-1908|Intermediate-depth earthquake+Kyushu+Fault plane solution+Volcano J|0945|Montone,P.+Amato,A.+Chiarabba,C.+|Evidence of active extension in Quaternary volcanoes of central Italy from breakout analysis and seismicity||#GRL:22:14:1995:1909-1912|Seismicity+Italy+Volcano+Stress J|0946|Cotton,F.+Campillo,M.|Stability of the rake during the 1992, Landers earthquake. An indication for a small stress release ?||#GRL:22:14:1995:1921-1924|Landers+1992+Earthquake+Rake||#*LANDERS92 J|0947|Herquel,G.+Wittlinger,G.+Guilbert,J.|Anisotropy and crustal thickness of northern-Tibet. New constraints for tectonic modelling||#GRL:22:14:1995:1925-1928|Tibet+Anisotropy+Crustal thickness+Converted wave J|0948|Balachandar,S.|Signature of the transition zone in the tomographic results extracted through the eigenfunctions of the two-point correlation||#GRL:22:15:1995:1941-1944|Transition zone+Tomography+Eigenfunction+Shear wave J|0949|Manga,M.+O'Connell,R.J.|The tectosphere and postglacial rebound||#GRL:22:15:1995:1949-1952|Rebound+Tectosphere+Continental lithosphere+Thickness J|0950|McGuire,J.J.+Wiens,D.A.|A double seismic zone in New Britain and the morphology of the Solomon Plate at intermediate depths||#GRL:22:15:1995:1965-1968|Seismic zone+New Britain+Depth+Focal mechanism+ISC J|0951|Bellier,O.+Sebrier,M.|Is the slip rate variation on the Great Sumatran Fault accommodated by fore-arc stretching ?||#GRL:22:15:1995:1969-1972|Slip+Sumatra+Subduction zone+Fault J|0952|Amato,A.+Chiarabba,C.|Recent uplift of the Alban Hills Volcano (Italy): evidence for magmatic inflation ?||#GRL:22:15:1995:1985-1988|Uplift+Italy+Volcano+Seismicity J|0953|Martinelli,G.+Albarello,D.+Mucciarelli,M.|Radon emissions from mud volcanoes in Northern Italy: possible connection with local seismicity||#GRL:22:15:1995:1989-1992|Radon+Italy+Volcano+Seismicity J|0954|Tournerie,B.+Gibert,D.+Virieux,J.|Inversion of the COPROD2 magnetotelluric data using a Diffusive-to-Propagative Mapping (DMP)||#GRL:22:16:1995:2187-2190|Magnetotellurics+Imaging+Reflector+North America J|0955|Lou,M.+Rial,J.A.|Application of the wavelet transform in detecting multiple events of microearthquake seismograms||#GRL:22:16:1995:2199-2202|Microearthquake+Wavelet+Multiple event+Seismogram J|0956|Takauchi,Y.+Evans,J.R.|Teleseismic tomography of the Loma Prieta earthquake region, California: implications for strain partitioning||#GRL:22:16:1995:2203-2206|Loma Prieta+Tomography+Velocity structure+Teleseism J|0957|Wallace,T.C.|Introduction to the special issue on the great Bolivian earthquake of 1994||#GRL:22:16:1995:2231|Bolivia+Deep-focus earthquake+1994+Introduction||#*BOLIVIA94 J|0958|Kirby,S.H.+Okal,E.A.+Engdahl,E.R.|The 9 June 94 Bolivian deep earthquake: an exceptional event in an extraordinary subduction zone||#GRL:22:16:1995:2233-2236|Deep-focus earthquake+Bolivia+1994+Seismicity||#*BOLIVIA94 J|0959|Wu,J.+Wallace,T.C.+Beck,S.L.|A very broadband study of the 1994 deep Bolivia earthquake sequence||#GRL:22:16:1995:2237-2240|Deep-focus earthquake+Bolivia+1994+Sequence||#*BOLIVIA94|#*BOLIVIA94A|#*BOLIVIA94B J|0960|Lundgren,P.+Giardini,D.|The June 9 Bolivia and March 9 Fiji deep earthquakes of 1994: I. Source processes||#GRL:22:16:1995:2241-2244|Deep-focus earthquake+Bolivia+Fiji+1994+Seismic process||#*BOLIVIA94|#*FIJI94 J|0961|Wiens,D.A.+McGuire,J.J.|The 1994 Bolivia and Tonga events: fundamentally different types of deep earthquakes?||#GRL:22:16:1995:2245-2248|Deep-focus earthquake+Bolivia+Tonga+1994+Aftershock||#*BOLIVIA94|#*FIJI94 J|0962|Goes,S.+Ritsema,J.|A broadband P wave analysis of the large deep Fiji Island and Bolivia earthquakes of 1994||#GRL:22:16:1995:2249-2252|Deep-focus earthquake+1994+Bolivia+Fiji+P-wave||#*BOLIVIA94|#*FIJI94 J|0963|Ihmle,P.F.+Jordan,T.H.|Source time function of the great 1994 Bolivia deep earthquake by waveform and spectral inversions||#GRL:22:16:1995:2253-2256|Source-time function+Deep-focus earthquake+1994+Bolivia||#*BOLIVIA94 J|0964|Beck,S.L.+Silver,P.G.+Wallace,T.C.+|Directivity analysis of the deep Bolivian earthquake of June 9, 1994||#GRL:22:16:1995:2257-2260|Directivity+Deep-focus earthquake+Bolivia+1994||#*BOLIVIA94 J|0965|Chen,W-P.|En echelon ruptures during the great Bolivian earthquake of 1994||#GRL:22:16:1995:2261-2264|Rupture+Deep-focus earthquake+Bolivia+1994||#*BOLIVIA94 J|0966|Hara,T.+Kuge,K.+Kawakatsu,H.|Determination of the isotropic component of the 1994 Bolivia deep earthquake||#GRL:22:16:1995:2265-2268|Deep-focus earthquake+Bolivia+1994+Moment tensor||#*BOLIVIA94 J|0967|Myers,S.C.+Wallace,T.C.+Beck,S.L.+|Implications of spatial and temporal development of the aftershock sequence for the MW 8.3 June 9, 1994 deep Bolivian earthquake||#GRL:22:16:1995:2269-2272|Deep-focus earthquake+Bolivia+1994+Aftershock||#*BOLIVIA94|#*BOLIVIA94B|#*FIJI94 J|0968|Tinker,M.A.+Wallace,T.C.+Beck,S.L.+|Aftershock source mechanisms from the June 9, 1994, deep Bolivian earthquake||#GRL:22:16:1995:2273-2276|Aftershock+Bolivia+1994+Focal mechanism||#*BOLIVIA94|#*BOLIVIA94B J|0969|Estabrook,C.H.+Bock,G.|Rupture history of the great Bolivian earthquake: slab interaction with the 660-km discontinuity?||#GRL:22:16:1995:2277-2280|Deep-focus earthquake+Bolivia+1994+Rupture||#*BOLIVIA94 J|0970|Giardini,D.+Lundgren,P.|The June 9 Bolivia and March 9 Fiji deep earthquakes of 1994: II. Geodynamic implications||#GRL:22:16:1995:2281-2284|Deep-focus earthquake+Bolivia+Fiji+1994+Geodynamics||#*BOLIVIA94|#*FIJI94 J|0971|Jiao,W.+Wallace,T.C.+Beck,S.L.+|Evidence for static displacement from the June 9, 1994 deep Bolivian earthquake||#GRL:22:16:1995:2285-2288|Deep-focus earthquake+Bolivia+1994+Displacement||#*BOLIVIA94 J|0972|Ekstrom,G.|Calculation of static deformation following the Bolivia earthquake by summation of Earth's normal modes||#GRL:22:16:1995:2289-2292|Bolivia+1994+Deformation+Deep-focus earthquake||#*BOLIVIA94 J|0973|Anderson,J.G.+Savage,M.K.+Quaas,R.|"Strong" ground motions in North America from the Bolivia earthquake of June 9, 1994 (MW=8.3)||#GRL:22:16:1995:2293-2296|Ground motion+Deep-focus earthquake+Bolivia+1994||#*BOLIVIA94|#*GUERRERO90A J|0974|Tromp,J.+Zanzerkia,E.|Toroidal splitting observations from the great 1994 Bolivia and Kuril Islands earthquakes||#GRL:22:16:1995:2297-2300|Bolivia+Kuril Islands+1994+Great earthquake+Toroidal mode||#*BOLIVIA94|#*HOKKAIDO94 J|0975|Resovsky,J.S.+Ritzwoller,M.H.|Constraining odd-degree Earth structure with coupled free-oscillations||#GRL:22:16:1995:2301-2304|Aspherical Earth structure+Free oscillation+Normal mode+Constraint J|0976|Ritzwoller,M.H.+Resovsky,J.S.|The feasibility of normal mode constraints on higher degree structures||#GRL:22:16:1995:2305-2308|Normal mode+Constraint+Aspherical Earth structure+Multiplet J|0977|Durek,J.J.+Ekstrom,G.|Evidence of bulk attenuation in the asthenosphere from recordings of the Bolivia earthquake||#GRL:22:16:1995:2309-2312|Asthenosphere+Earthquake+Attenuation+Radial mode||#*BOLIVIA94 J|0978|Clarke,T.J.+Silver,P.G.+Yeh,Y-L.+|Close in ScS and sScS reverberations from the 9 June 1994 Bolivian earthquake||#GRL:22:16:1995:2313-2316|Deep-focus earthquake+1994+Bolivia+Reverberation||#*BOLIVIA94 J|0979|Engdahl,E.R.+Van der Hilst,R.D.+Berrocal,J.|Imaging of subducted lithosphere beneath South America||#GRL:22:16:1995:2317-2320|South America+Imaging+Lithosphere+Subduction zone J|0980|Creager,K.C.+Chiao,L-Y.+Winchester,J.P.+|Membrane strain rates in the subducting plate beneath South America||#GRL:22:16:1995:2321-2324|Slab+Depth+South America+Strain+ISC J|0981|Straub,C.+Kahle,H-G.|Active crustal deformation in the Marmara Sea region, NW Anatolia, inferred from GPS measurements||#GRL:22:18:1995:2533-2536|Marmara Sea+Crustal deformation+Fault plane solution+Global Positioning System J|0982|Khazan,Y.M.+Fialko,Y.A.|Fracture criteria at the tip of fluid-driven cracks in the earth||#GRL:22:18:1995:2541-2544|Fluid+Crack+High pressure+Fracture J|0983|Magistrale,H.+Sanders,C.O.|P-wave image of the Peninsular Ranges batholith, southern California||#GRL:22:18:1995:2549-2552|P-wave+Southern California+Velocity structure+Crust J|0984|Vidale,J.E.+Ding,X-Y.+Grand,S.P.|The 410-km-depth discontinuity: a sharpness estimate from near-critical reflections||#GRL:22:19:1995:2557-2560|410km discontinuity+Reflexion+Western United States+Nuclear explosion+P-wave J|0985|Sharrock,D.S.+Main,I.G.+Douglas,A.|The two-layer attenuation model for the upper mantle at short periods||#GRL:22:19:1995:2561-2564|Upper mantle+Attenuation+Layered medium+Short-period wave J|0986|Kawakatsu,H.|Automated near-realtime CMT inversion||#GRL:22:19:1995:2569-2572|Automatic processing+Centroid-moment tensor+Inversion+Focal mechanism||#*HONSHU95 J|0987|Calmant,S.+Lebellegard,P.+Taylor,F.W.+|Geodetic measurements of convergence across the New Hebrides subduction zone||#GRL:22:19:1995:2573-2576|Convergence+Global Positioning System+New Hebrides+Subduction zone J|0988|Roy,S.+Pyrak-Nolte,L.J.|Interface waves propagating along tensile fractures in dolomite||#GRL:22:20:1995:2773-2776|Slow wave+Interface+Rock+Fracture J|0989|Sleep,N.H.|Frictional heating and the stability of rate and state dependent frictional sliding||#GRL:22:20:1995:2785-2788|Friction+Stability+Fault zone+Heating J|0990|Grasso,J.R.+Bachelery,P.|Hierarchical organization as a diagnostic approach to volcano mechanics: validation on Piton de la Fournaise||#GRL:22:21:1995:2897-2900|Induced earthquake+Volcano+Indian Ocean+Mechanics J|0991|Jeyakumaran,M.+Rudnicki,J.W.|The sliding wing crack - again!||#GRL:22:21:1995:2901-2904|Dilatancy+Crack+Model+Sliding J|0992|Thurber,C.H.+Atre,S.R.+Eberhart-Phillips,D.|Three-dimensional Vp and Vp/Vs structure at Loma Prieta, California, from local earthquake tomography||#GRL:22:22:1995:3079-3082|Velocity structure+Loma Prieta+Tomography+Local earthquake J|0993|Fujita,E.+Iio,Y.+Fukuyama,E.|Stress drop distribution of the aftershocks of the 1993 Hokkaido-Nansei-Oki earthquake||#GRL:22:22:1995:3083-3086|Aftershock+1993+Hokkaido+Stress-drop||#*SEAOFJAPAN93|#*SEAOFJAPAN|#*SEAOFJAPAN93A J|0994|Yepez,E.+Angulo-Brown,F.+Peralta,J.A.+|Electric field patterns as seismic precursors||#GRL:22:22:1995:3087-3090|Electric field+Precursor+Pattern+Guerrero J|0995|Molchanov,O.A.+Hayakawa,M.|Generation of ULF electromagnetic emissions by microfracturing||#GRL:22:22:1995:3091-3094|Electromagnetic emission+Microfracture+Generation||#*ARMENIA88|#*LOMAPRIETA89 J|0996|Marone,C.+Vidale,J.E.+Ellsworth,W.L.|Fault healing inferred from time dependent variations in source properties of repeating earthquakes||#GRL:22:22:1995:3095-3098|Calaveras Fault+Recurrence+Source parameter+Temporal variation||#*MORGAN J|0997|Wang,Z.+Dahlen,F.A.|Spherical-spline parameterization of three dimensional Earth models||#GRL:22:22:1995:3099-3102|Earth model+Surface wave+Cubic splines+Synthetic seismogram J|0998|Douglass,J.J.+Buffett,B.A.|The stress state implied by dislocation models of subduction deformation||#GRL:22:23:1995:3115-3118|Stress+Dislocation+Subduction+Half-space J|0999|Amato,A.+Montone,P.+Cesaro,M.|State of stress in Southern Italy from borehole breakout and focal mechanism data||#GRL:22:23:1995:3119-3122|Southern Italy+Stress+Focal mechanism+Borehole J|1000|Lee,S-M.+Solomon,S.C.|Constraints from Sea Beam bathymetry on the development of normal faults on the East Pacific Rise||#GRL:22:23:1995:3135-3138|Bathymetry+Normal fault+East Pacific Rise+Constraint J|1001|Tajima,F.+Grand,S.P.|Evidence of high velocity anomalies in the transition zone associated with southern Kurile subduction zone||#GRL:22:23:1995:3139-3142|High velocity+Anomaly+Transition zone+Subduction zone+Kuril-Kamchatka Arc+ISC||#*HONSHU93|#*KUSHIRO93|#*OKHOTSK92|#*KURIL92|#*OKHOTSK91 J|1002|Besana,G.M.+Shibutani,T.+Hirano,N.+|The shear wave velocity structure of the crust and uppermost mantle beneath Tagaytay, Philippines inferred from receiver function analysis||#GRL:22:23:1995:3143-3146|Shear wave+Velocity structure+Philippines+Receiver function J|1003|Goldstein,P.|Slopes of P- to S-wave spectral ratios--a broadband regional seismic discriminant and a physical model||#GRL:22:23:1995:3147-3150|Spectral ratio+Discrimination+Nevada Test Site+Nuclear explosion J|1004|Ritsema,J.+Hagerty,M.+Lay,T.|Comparison of broadband and short-period seismic waveform stacks: implications for upper-mantle discontinuity structure||#GRL:22:23:1995:3151-3154|Upper mantle+Slant stack+Deep-focus earthquake+Structure||#*SDEPROV94A|#*SDEPROV94B|#*SDEPROV94C|#*BOLIVIA94 J|1005|Beresnev,I.A.+Wen,K-L.|Remotely triggered seismicity inferred from Taiwan regional catalog||#GRL:22:23:1995:3155-3158|Taiwan+Earthquake+Trigger+Seismicity||#*HUALIEN86 J|1006|Hurukawa,N.|Quick aftershock relocation of the 1994 Shikotan earthquake and its fault planes||#GRL:22:23:1995:3159-3162|Hypocentre+Aftershock+1994+Hokkaido||#*HOKKAIDO94 J|1007|Yin,H.+Mavko,G.+Mukerji,T.+|Scale effects on dynamic wave propagation in heterogeneous media||#GRL:22:23:1995:3163-3166|Heterogeneous medium+Laboratory+Propagation+Dispersion J|1008|Zurn,W.+Widmer,R.|On noise reduction in vertical seismic records below 2 mHz using local barometric pressure||#GRL:22:24:1995:3537-3540|Seismic record+Noise+Atmospheric pressure+Spectrum||#*BOLIVIA94|#*HOKKAIDO94 J|1009|Barrientos,S.E.|Dual seismogenic behavior: the 1985 central Chile earthquake||#GRL:22:24:1995:3541-3544|Chile+1985+Earthquake+Displacement||#*SANANTONIO J|1010|DeMets,C.|A reappraisal of seafloor spreading lineations in the Gulf of California: implications for the transfer of Baja California to the Pacific plate and estimates of Pacific-North America motion||#GRL:22:24:1995:3545-3548|Gulf of California+Sea-floor spreading+Seismicity+Plate motion J|1011|Sawyer,D.|When continents come apart||Physics Wld:-:8:1995:22-23|Continental rift+Spreading centre+Papua New Guinea+Marine geophysical investigation J|1012|Schneider,C.+Dresen,L.|Surface wave data for locating waste deposits: field study|In German with English and Hungarian abstract|#GPT:39:4:1995:233-253|Rayleigh wave+Waste dump+Dispersion+Lateral heterogeneity J|1013|Carrion,P.|Reflection tomography using Gibbs statistics|With Hungarian abstract|#GPT:39:4:1995:255-261|Statistics+Tomography+Reflexion data+Inversion J|1014|Nath,S.K.+Majumdar,S.+Sengupta,S.|Three dimensional seismic modelling by finite element condensation technique|With Hungarian abstract|#GPT:39:4:1995:263-288|Numerical modelling+Finite element method+Synthetic seismogram+Reflected wave J|1015|Mohamed,R.|Attenuation characteristics of the strong ground motion during the southern Hyogo earthquake||#IDV:31:-:1995:1-14|Strong motion+Kobe+Destructive earthquake+1995||#*SHYOGO95 J|1016|Echeverri,M.A.|Tomographic velocity reconstruction for a fault dominant area||#IDV:31:-:1995:17-30|Tomography+Cross-hole+Kyushu+Fault zone J|1017|Mohamed,M.M.|Spectral analysis of microearthquakes recorded by Aswan telemetered network||#IDV:31:-:1995:33-41|Microearthquake+Spectral analysis+Source parameter+Egypt J|1018|Stylianos,P.G.|Seismic tomography as a tool in engineering geology and civil engineering||#IDV:31:-:1995:45-55|Tomography+Civil engineering+Cross-hole+Field work J|1019|Talebian,M.|Seismic risk analysis in Japan: peak ground acceleration and uniform risk response spectra||#IDV:31:-:1995:59-70|Seismic risk+Japan+Ground acceleration+Kobe+Source parameter J|1020|Kariuki,P.C.|Zoning for ground motions in Kenya - the case of incomplete and uncertain data||#IDV:31:-:1995:73-85|Kenya+Zoning+Ground motion+Seismic risk J|1021|Maskey,S.|Crustal structure of Nepal obtained by minimum apparent velocity method||#IDV:31:-:1995:89-99|Nepal+Crustal structure+Velocity+Station correction J|1022|Ansari,Y.S.|Seismic risk analysis of Pakistan||#IDV:31:-:1995:103-115|Seismic risk+Pakistan+Map+Ground acceleration J|1023|Demirtas,R.|Paleoseismology of the north Anatolian fault: a case study of the Mudurnu Valley segment, Turkey||#IDV:31:-:1995:119-130|Palaeoseismology+Anatolia+Faulting J|1024|Enok,A.M.|Synthetic seismogram calculation by the direct solution method||#IDV:31:-:1995:133-142|Synthetic seismogram+Equation of motion+Numerical method+Waveform J|1025|Milev,J.I.|Earthquake analysis of reinforced concrete frame-wall structures||#IDV:31:-:1995:145-164|Reinforced concrete+Wall+Model+Nonlinear response J|1026|Medel,R.A.A.|Seismic behavior of steel building suspending heavy boiler||#IDV:31:-:1995:167-182|Building+Steel+Building code+Design J|1027|Pulido,A.D.F.|Effect of soft soil on the base isolation system||#IDV:31:-:1995:185-198|Soil+Base isolation system+Soft medium+Building J|1028|Mora,B.J.S.|Roller compacted dam concrete (RCD) technology||#IDV:31:-:1995:201-216|Dam+Concrete+Japan J|1029|Encalada,J.M.Z.|Earthquake resistant design of building foundation||#IDV:31:-:1995:219-234|Earthquake-resistant design+Foundation+Building+Soil J|1030|Calero,H.P.|Application of the spectral method to estimate the torsional response in the multistories building||#IDV:31:-:1995:237-251|Building+Torsion+Reinforced concrete+Dynamic analysis J|1031|Velez C.,M.A.|Construction process and control of the detailing in order to guarentee the aseismic behavior of the RC elements||#IDV:31:-:1995:255-273|Reinforced concrete+Construction+Aseismic design+Earthquake engineering J|1032|Tigas,J.E.|Liquefaction consideration on building foundation design||#IDV:31:-:1995:277-292|Foundation+Liquefaction+Design+Philippines||#*LUZON90A|#*SHYOGO95 J|1033|Nacad,R.G.|Dynamic analysis of a steel 16-story building under the actions of 1995 Hyogoken-Nambu earthquake||#IDV:31:-:1995:295-307|Dynamic analysis+Building+Steel+Kobe||#*SHYOGO95 J|1034|Ocola,L.C.+Luetgert,J.H.+Aldrich,L.T.+|Velocity structure of the coastal region of southern Peru from seismic refraction/wide-angle reflection data||#JGD:20:1:1995:1-30|Velocity structure+Peru+Refraction data+Reflexion data J|1035|Tewari,H.C.+Dixit,M.M.+Sarkar,D.|Relationship of the Cambay rift basin to the Deccan volcanism||#JGD:20:1:1995:85-95|Basin+Deccan+Velocity+Volcanism J|1036|Badawy,A.+Monus,P.|Dynamic source parameters of the 12th October 1992 earthquake, Cairo, Egypt||#JGD:20:2:1995:99-109|Earthquake+1992+Egypt+Source parameter||#*CAIRO92 J|1037|Singh,A.P.+Messner,R.|Crustal configuration of the Narmada-Tapti region (India) from gravity studies||#JGD:20:2:1995:111-127|Deep seismic sounding+Crust+Gravity modelling+India J|1038|Stiros,S.C.|The 1953 seismic surface fault: implications for the modeling of the Sousaki (Corinth area, Greece) geothermal field||#JGD:20:2:1995:167-180|Corinth, G. of+1953+Earthquake+Fault+Geothermal field J|1039|Al-Amri,A.M.S.|Recent seismic activity in the northern Red Sea||#JGD:20:3:1995:243-253|Red Sea+Seismicity+Swarm+1992+ISC J|1040|Wyllie,P.J.|Experimental petrology of upper mantle materials, processes and products||#JGD:20:4:1995:429-468|Petrology+Upper mantle+Velocity-depth function+Phase transition J|1041|Mohriak,W.U.+Rabelo,J.H.L.+Matos,R.D.+|Deep seismic reflection profiling of sedimentary basins offshore Brazil: geological objectives and preliminary results in the Sergipe Basin||#JGD:20:4:1995:515-539|Brazil+Sedimentary basin+Reflexion study+Offshore J|1042|Xu,J-A.|Brillouin-scattering studies of a sodium silicate glass in a diamond anvil cell at room temperature up to 5.6 GPa|With Chinese abstract|#JGC:38:3:1995:265-272|Glass+Velocity+Laboratory J|1043|Chen,K-J.+Yeh,Y-H.+Yen,H-Y.+|Seismological studies in the Chinshan fault area|With Chinese abstract|#JGC:38:4:1995:335-353|Taiwan+Fault+Focal mechanism+Travel-time residual J|1044|Suetsugu,D.|Recent seismological studies on upper mantle structure||#JPE:43:4:1995:369-393|Upper mantle+Lateral heterogeneity+Anisotropy+Velocity structure+ISC J|1045|Abe,K.|Recent great earthquakes and tectonics in Japan||#JPE:43:4:1995:395-405|Great earthquake+Japan+Seismicity+Casualties||#*SEAOFJAPAN|#*KUSHIRO93|#*HOKKAIDO94|#*HONSHU94|#*SHYOGO95 J|1046|Takemoto,S.|Recent results obtained from continuous monitoring of crustal deformation||#JPE:43:4:1995:407-420|Precursor+Crustal deformation+Strain+Tilt||#*SEAOFJAPAN|#*KYUSHU87 J|1047|Sato,H.|Laboratory seismic studies: a search for mechanical, thermal and chemical structures of the Earth||#JPE:43:4:1995:421-455|Laboratory+Velocity+Attenuation+Japan arc J|1048|Akaogi,M.|Mineral physics pertinent to the constitution of the mantle and core||#JPE:43:4:1995:457-478|Mantle+Core+Mineral+Phase transition J|1049|Kusunose,K.|Fracture mechanics of rocks||#JPE:43:4:1995:479-504|Rock mechanics+Acoustic emission+Fracture J|1050|Mogi,K.|Earthquake prediction research in Japan||#JPE:43:5:1995:533-561|Prediction+Japan+Swarm+Precursor+Tokai||#*SEAOFJAPAN|#*NAGANO|#*IZUOSHIMA|#*IZUHANTO2 J|1051|Ohtake,M.+Ishikawa,Y.|Seismic observation networks in Japan||#JPE:43:5:1995:563-584|Japan+Network+Hypocentre+Seismometer J|1052|Igarashi,G.+Wakita,H.|Geochemical and hydrological observations for earthquake prediction in Japan||#JPE:43:5:1995:585-598|Prediction+Japan+Radon+Water level J|1053|Suyehiro,K.+Kanazawa,T.+Hirata,N.+|Ocean downhole seismic project||#JPE:43:5:1995:599-618|Ocean Drilling Programme+Down-hole recording+Seismometer+Japan Sea||#*BURMA89A J|1054|Kasahara,J.+Utada,H.+Kinoshita,H.|GeO-TOC project--reuse of submarine cables for seismic and geoelectrical measurements||#JPE:43:5:1995:619-628|Submarine cable+Accelerometer+Instrumentation+Geoelectricity J|1055|Mizutani,H.|Lunar interior exploration by Japanese Lunar Penetrator Mission, LUNAR-A||#JPE:43:5:1995:657-670|Satellite+Instrumentation+Moonquake+Exploration J|1056|Kawasaki,S.|Estimation of the subsurface reflection coefficient using the prestack reverse-time depth migration||#JPE:43:6:1995:671-683|Reflexion coefficient+Reverse-time migration+Subsurface J|1057|Okada,Y.|Simulated empirical law of coseismic crustal deformation||#JPE:43:6:1995:697-713|Crustal deformation+Monte Carlo method+Simulation+Formula J|1058|Kodaira,S.+Mjelde,R.+Sellevoll,M.A.+|Crustal transect across the Lofoten volcanic passive continental margin, N. Norway, obtained by use of ocean bottom seismographs, and implications for its evolution||#JPE:43:6:1995:729-745|Norway+Transect+Ocean-bottom seismograph+Continental margin+Velocity structure J|1059|Takemura,M.+Tsuji,Y.|Strong motion distribution in Kobe area due to the 1995 southern Hyogo earthquake (M=7.2) in Japan as inferred from the topple rate of tombstones||#JPE:43:6:1995:747-753|Kobe+Strong motion+Destructive earthquake+1995|Letter|#*SHYOGO95 J|1060|Iidaka,T.+Hirata,N.+Uehira,K.|The upper boundary of the Philippine Sea plate beneath eastern Kanto region estimated from spatially high dense seismic array||#JPE:43:6:1995:755-761|Subduction+Kanto+Array+Converted wave|Letter J|1061|Nikolaev,A.V.|Signatures of XXI century geophysics||Chron. U.G.G.I.:-:228:1995:193-197|Geophysics+Seismology+Nonlinearity+Physical properties|Presidential address J|1062||Scientific program||Chron. U.G.G.I.:-:228:1995:199-236|Geophysics+Seismology|Reports on the science presented at the Boulder Assembly, July 1995 J|1063|Ohnaka,M.|Obituary. Kiyoo Wadati (1903-1995)||Chron. U.G.G.I.:-:228:1995:253-254|Obituary+Seismology+Wadati-Benioff zone+Japan J|1064|Ladbury,R.|Is the answer blowing in the solar wind?||Physics today:-:9:1995:17-18|Helioseismology+Spectrum+Solar periodicity+Solar wind|Search and discovery J|1065|Wolfe,J.P.|Acoustic wavefronts in crystalline solids||Physics today:-:9:1995:34-40|Acoustic wave+Wavefront+Anisotropic medium J|1066|Harvey,J.W.|Helioseismology||Physics today:-:10:1995:32-38|Helioseismology+Solar periodicity+Acoustic wave+Model J|1067|Goodwin,I.|Despite nuclear tests by France and China, prospects rise for comprehensive test ban||Physics today:-:10:1995:51-53|Nuclear test ban+Underground nuclear explosion|Washington reports J|1068|Yamada,T.+Sawamoto,Y.|Elasto-plastic control of building vibration using fuzzy set theory (Part 4) -detailed investigation of optimum control parameters (II)-|In Japanese with English abstract on p10|#AKR:43:12:1995:113-118|Building+Control+Vibration+Fuzzy mathematics J|1069|Yamada,T.+Sawamoto,Y.|Elasto-plastic control of building vibration using fuzzy set theory (Part 5) -detailed investigation of optimum control parameters (III)-|In Japanese with English abstract on p11|#AKR:43:12:1995:119-124|Building+Control+Vibration+Fuzzy mathematics J|1070|Ishibashi,T.+Naito,Y.+Yamaya,H.+|Influence of wind force on system identification of buildings during microtremors (Part 3) -mechanism of deformation of transfer function-|In Japanese with English abstract on p12|#AKR:43:12:1995:131-136|Microtremor+Building+Transfer function+Vibration J|1071|Yamaya,H.+Naito,Y.+Ishibashi,T.|Influence of soil-structure interaction on system identification of buildings (Part 2) -iterative identification method using regression curves-|In Japanese with English abstract on p12|#AKR:43:12:1995:137-142|Microtremor+Soil-structure interaction+Building J|1072|Sato,K.+Naito,Y.+Uchiyama,S.+|System identification of superstructures with rocking motion and deformation of bases|In Japanese with English abstract on p13|#AKR:43:12:1995:143-148|Dynamic response+Ground motion+Structure J|1073|Adachi,N.+Fukuoka,A.+Yahata,K.+|Development of a laminar container in the centrifugal field|In Japanese with English abstract on p13|#AKR:43:12:1995:149-154|Shake table+Sand+Soil J|1074|Takai,T.+Ishida,H.+Yamanaka,H.+|Estimation of S-wave velocities of pre-quaternary strata by array measurement of long-period microtremors|In Japanese with English abstract on p14|#AKR:43:12:1995:155-160|S-wave+Velocity+Microtremor+Sediment J|1075|Sugawara,Y.+Sugayama,T.+Kobayashi,T.+|Correlation analysis for forced vibration test of Hualien LSST program||#AKR:43:12:1995:161|Soil-structure interaction+Vibration+Dynamic response+Hualien J|1076|Nozawa,T.+Shima,E.+Yamanaka,H.+|Exploration of subsurface structure in the Tokyo metropolitan area for estimation of long period ground motion||#AKR:43:12:1995:163|Tokyo+Ground motion+Seismic survey+Velocity structure J|1077|Iizuka,M.|Practical design formulas for seismic rubber bearings||#AKR:43:12:1995:165-166|Rubber+Formula+Base isolation system J|1078|Suzuki,Y.+Koyamada,K.+Miyamoto,M.+|Field correlation of soil liquefaction based on cone penetration test|In Japanese with English abstract on p19|#AKR:43:12:1995:209-214|Liquefaction+Sand+Ground motion+Correlation||#*SHYOGO95|#*KUSHIRO93|#*SEAOFJAPAN93|#*HOKKAIDO94 J|1079|Dziewonski,A.M.+Ekstrom,G.+Salganik,M.P.|Centroid-moment tensor solutions for July-September 1994||#PEP:90:1-2:1995:1-11|Centroid-moment tensor+1994|Letter section J|1080|Kuskov,O.L.|Constitution of the Moon: 3. Composition of middle mantle from seismic data||#PEP:90:1-2:1995:55-74|Moon+Mantle+Composition+Thermodynamic model+Velocity profile J|1081|Kumar,M.R.+Rao,N.P.|Significant trends related to the slab seismicity and tectonics in the Burmese arc region from Harvard CMT solutions||#PEP:90:1-2:1995:75-80|Burmese arc+Centroid-moment tensor+Focal mechanism+Slab J|1082|Franck,S.+Kowalle,G.|On the structure and dynamics near the CMB: seismological investigations and modelling of chemical reactions||#PEP:90:3-4:1995:157-167|Core-mantle boundary+Diffracted wave+Temperature+Velocity J|1083|Neuberg,J.+Pointer,T.|Modelling seismic reflections from D" using the Kirchhoff method||#PEP:90:3-4:1995:273-281|Modelling+D"-layer+Kirchhoff method+Reflected wave J|1084|Pointer,T.+Neuberg,J.|Deconvolution of overcritical P-wave reflections from the top of D"||#PEP:90:3-4:1995:283-301|D"-layer+Deconvolution+P-wave+Reflected wave J|1085|Garnero,E.J.+Helmberger,D.V.|A very slow basal layer underlying large-scale low-velocity anomalies in the lower mantle beneath the Pacific: evidence from core phases||#PEP:91:1-3:1995:161-176|Southwest Pacific+Low-velocity layer+Deep-focus earthquake+Core phase J|1086|Tralli,D.M.+Ita,J.J.|Regionalized temperature variations in the upper 400 km of the Earth's mantle||#PEP:91:1-3:1995:177-186|Upper mantle+Temperature+Travel-times+Regionalization+ISC J|1087|Dziewonski,A.M.+Ekstrom,G.+Salganik,M.P.|Centroid-moment tensor solutions for October-December 1994||#PEP:91:1-3:1995:187-201|Centroid-moment tensor+1994|Letter section J|1088|Frohlich,C.|Characteristics of well-determined non-double-couple earthquakes in the Harvard CMT catalog||#PEP:91:4:1995:213-228|Earthquake catalogue+Non-double couple+Wadati-Benioff zone+Centroid-moment tensor J|1089|Hirata,K.+Kawasaki,I.|Spatio-temporal moment-tensor inversion for multiple shocks: an application to the deep 1972 Banda Sea earthquake||#PEP:91:4:1995:229-244|Banda Sea+Deep-focus earthquake+1972+Inversion+ISC||#*BANDASEA72 J|1090|Singh,R.P.+Sato,T.+Nyland,E.|The geodynamic context of the Latur (India) earthquake, 30 September 1993||#PEP:91:4:1995:245-251|Earthquake+1993+India+Seismicity||#*LATUR93 J|1091|Zheng,T-Y.+Yao,Z-X.+Liu,P-C.|The 14 November 1986 Taiwan earthquake - an event with isotropic component||#PEP:91:4:1995:285-298|Taiwan+1986+Earthquake+Isotropy||#*HUALIEN86 J|1092|Tabulevich,V.N.|On recordings of global microseismic vibrations and observations of microseisms in shore zones of oceans||#PEP:91:4:1995:299-305|Microseism+Coast+Storm+Vibration J|1093|Mueller,H.J.|Modelling the lower crust by simulation of the in situ conditions: an example from the Saxonian Erzgebirge||#PEP:92:1-2:1995:3-15|Modelling+Lower crust+Germany+DEKORP J|1094|Bock,G.+Gossler,J.+Hanka,W.+|On the seismic discontinuities in the upper mantle||#PEP:92:1-2:1995:39-43|Upper mantle+Discontinuity+Depth+520km discontinuity J|1095|Forte,A.M.+Dziewonski,A.M.+O'Connell,R.J.|Thermal and chemical heterogeneity in the mantle: a seismic and geodynamic study of continental roots||#PEP:92:1-2:1995:45-55|Mantle+Heterogeneity+Deep structure+Global geophysics J|1096|Wysession,M.E.+Valenzuela,R.W.+Zhu,A-N.+|Investigating the base of the mantle using differential travel times||#PEP:92:1-2:1995:67-84|Seismic waves+Differential travel-times+Core-mantle boundary+Core phase+ISC J|1097|Kendall,J-M.+Shearer,P.M.|On the structure of the lowermost mantle beneath the southwest Pacific, southeast Asia and Australasia||#PEP:92:1-2:1995:85-98|Structure+Lower mantle+D" region+Southwest Pacific+Southeast Asia+Australasia J|1098|Okal,E.A.+Kirby,S.H.|Frequency-moment distribution of deep earthquakes; implications for the seismogenic zone at the bottom of slabs||#PEP:92:3-4:1995:169-187|Seismogenic zone+Deep-focus earthquake+Slab+Tonga+Centroid-moment tensor+ISC||#*FIJI94|#*BOLIVIA94 J|1099|Allegre,C.J.+Le Mouel,J.L.+Chau,H.D.+|Scaling organization of fracture tectonics (SOFT) and earthquake mechanism||#PEP:92:3-4:1995:215-233|Scaling+Fault zone+Energy+Seismogenesis J|1100|Rani,S.+Singh,S.J.+Kumari,G.|Static deformation of two welded elastic half-spaces caused by a rectangular shear fault located on the interface||#PEP:92:3-4:1995:261-269|Half-space+Shear fault+Interface+Deformation B|1101|e*Shiraishi,K.|Proceedings of the NIPR Symposium on Antarctic Geosciences|8|Kanao,M.+Akamatsu,J.|Shear wave Q structure for the lithosphere in the Lutzow-Holm Bay region, East Antarctica||1995:Tokyo:National Institute of Polar Research|Antarctica+Lithosphere+Q+Shear wave+Kinki|p1-14 B|1102|e*Shiraishi,K.|Proceedings of the NIPR Symposium on Antarctic Geosciences|8|Akamatsu,J.+Kaku,H.+Kanao,M.|Coda Q of local earthquakes observed on the southeast Tibetan plateau -comparison with Lutzow-Holm Bay region, East Antarctica-||1995:Tokyo:National Institute of Polar Research|Coda Q+Local earthquake+Tibet+Antarctica|p15-24 B|1103|e*Shiraishi,K.|Proceedings of the NIPR Symposium on Antarctic Geosciences|8|Kubo,A.+Hiramatsu,Y.+Kanao,M.+|An analysis of the SKS splitting at Syowa station in Antarctica||1995:Tokyo:National Institute of Polar Research|SKS-wave+Syowa+Shear wave splitting+Anisotropy|p25-34 B|1104|e*Shiraishi,K.|Proceedings of the NIPR Symposium on Antarctic Geosciences|8|Kaminuma,K.|Seismicity around the Antarctic Peninsula||1995:Tokyo:National Institute of Polar Research|Antarctica+Seismicity+Epicentre+Earthquake+ISC|p35-42 B|1105|e*Shiraishi,K.|Proceedings of the NIPR Symposium on Antarctic Geosciences|8|Kagami,H.|Topographic character of the East Antarctic continental margin off Wilkes Land||1995:Tokyo:National Institute of Polar Research|Antarctica+Seismic reflexion profile+Topography+Basement|p181-192 B|1106|e*Shiraishi,K.|Proceedings of the NIPR Symposium on Antarctic Geosciences|8|Kanao,M.+Shibutani,T.|Shear wave velocity structure in the crust and uppermost mantle beneath Syowa Station, East Antarctica, using multi-trace receiver function inversion of broad-band teleseismic waveforms||1995:Tokyo:National Institute of Polar Research|Velocity structure+Syowa+Teleseism+Shear wave|p270. Abstract only J|1107|Rudnick,R.L.+Fountain,D.M.|Nature and composition of the continental crust: a lower crustal perspective||#RGS:33:3:1995:267-309|Continental crust+Lower crust+Velocity+Composition J|1108|Mitchell,B.J.|Anelastic structure and evolution of the continental crust and upper mantle from seismic surface wave attenuation||#RGS:33:4:1995:441-462|Surface wave+Attenuation+Upper mantle+Continental crust+Q J|1109|Babuska,V.+Plomerova,J.|Regional fabric of the deep lithosphere in central Europe from seismic anisotropy||#SGE:39:3:1995:219-226|Central Europe+Anisotropy+Lithosphere+Dipping layer J|1110|England,R.W.|The seismic signature of the Iapetus Suture beneath the North Sea||#SGE:39:3:1995:235-240|North Sea+Iapetus suture+Signature+Seismic reflexion profile J|1111|Gregersen,S.+a-Working Group on Recent Crustal Movements Around the Tornquist Zone|Recent crustal movements and earthquakes in the area of the Tornquist Zone||#SGE:39:3:1995:257-261|Tornquist Zone+Crustal movement+Earthquake+Europe+ISC J|1112|Stephenson,R.A.+Dadlez,R.+Narkiewicz,M.|Implications of tectonic subsidence models for crustal structure beneath the Mid-Polish Trough||#SGE:39:3:1995:289-297|Crustal structure+Poland+Subsidence+Sedimentary basin J|1113|Pharaoh,T.C.+England,R.W.+Lee,M.K.|The concealed Caledonide basement of eastern England and the southern North Sea||#SGE:39:3:1995:330-346|Caledonides+Basement+England+North Sea J|1114|Hanus,V.+Vanek,J.|Recent geodynamic evolution of convergent plate margins and the reconstruction of fossil plate boundaries||#SGE:39:4:1995:375-388|Deep-focus earthquake+Wadati-Benioff zone+Convergent margin+Plate boundary+ISC J|1115|Pasquale,V.+Verdoya,M.+Chiozzi,P.|On the heat flux related to stretching in the NW-Mediterranean continental margins||#SGE:39:4:1995:389-404|Velocity-depth function+Mediterranean+Continental margin+Heat flow J|1116|Argo,P.+Clark,R.A.+Douglas,A.+|The detection and recognition of underground nuclear explosions||Survs Geophys.:16:4:1995:495-532|Detection+Discrimination+Ionosphere+Monitoring+Underground nuclear explosion J|1117|Bailey,M.E.+Markham,D.J.+Massai,S.|The 1930 August 13 `Brazilian Tunguska' event||Observatory:115:1128:1995:250-253|Tunguska+1930+Meteorite+Explosion J|1118|Cameron,A.C.|Review of `Solar and stellar activity cycles' by P. R. Wilson||Observatory:115:1129:1995:334-335|Review+Solar activity+Helioseismology+Cycle|Cambridge University Press, 1994, 274pp J|1119|Gorel'chik,V.I.+Garbuzova,V.T.+Droznin,D.V.+|The Shiveluch volcano: deep structure and prediction of eruptions using detailed seismicity data, 1962-1994|In Russian with English abstract|#VSM:-:4-5:1995:54-75|Deep structure+Seismicity+Volcano+Kamchatka J|1120|Moroz,Yu.F.+Bakhtiarov,V.F.+Voropaev,V.F.+|On monitoring of the electrotelluric field for predicting large earthquakes in Kamchatka|In Russian with English abstract|#VSM:-:4-5:1995:139-149|Prediction+Kamchatka+Large earthquake+Electrotelluric field J|1121|Gontovaya,L.I.+Sanina,I.A.+Senyukov,S.L.+|On the volume-velocity model for the lithosphere of East Kamchatka as shown by seismic tomography data|In Russian with English abstract|#VSM:-:4-5:1995:150-159|Tomography+Kamchatka+Lithosphere+Deep structure J|1122|Gusev,A.A.+Petukhin,A.G.|An algorithm for predicting earthquake ground motions parameters|In Russian with English abstract|#VSM:-:4-5:1995:182-192|Algorithm+Prediction+Ground motion+Parameters J|1123|Golenetskii,S.I.+Ruzitch,V.V.+Drennova,G.F.+|Felt and strong earthquakes within the Selenga River delta and the shock of July 13, 1993|In Russian with English abstract|#VSM:-:4-5:1995:215-223|Felt+1993+Strong earthquake+Baikal||#*BAIKAL93 J|1124|Rykounov,L.N.+Yaroshevskaya,G.A.+Bourmin,V.Yu.+|Seismological research of Iceland|In Russian with English abstract|#VSM:-:6:1995:20-30|Iceland+Hypocentre+Travel-times+Velocity-depth function J|1125|Vostrikov,G.A.|Seismic flow of the lithosphere beneath Kamchatka|In Russian with English abstract|#VSM:-:6:1995:54-65|Kamchatka+Lithosphere+Flow+Tectonics J|1126|Boldyrev,S.A.|The nature of seismoacoustical noise and of the events registered by oceanbottom seismographs|In Russian with English abstract|#VSM:-:6:1995:94-107|Seismoacoustics+Noise+Ocean-bottom seismograph+T-phase J|1127|Silver,P.G.|Geophysical study of the South American continent||#YBC:94:-:1995:109-115|Explosion seismology+South America+Geophysics+Deep structure||#*BOLIVIA94 J|1128|e*Gibowicz,S.J.|Seismicity in mines|Papers in Polish with English abstract or English with Polish abstract|#PAA:-:281:1995:1-300|Rockburst+Induced seismicity+Mining+Poland+Czechoslovakia|Proceedings of a Conference held in Ustron-Zawodzie, October 1994 J|1129|Hoshiba,M.+Kamigaichi,O.+Nakamura,K.+|Baseline observations of the Matsushiro area|In Japanese with English abstract|#QJS:59:1-2:1995:1-6|Global Positioning System+Matsushiro+Geodetic survey J|1130|Ishigaki,Y.|Precise corrections and detecting abnormal changes of volume strainmeter data|In Japanese with English abstract|#QJS:59:1-2:1995:7-30|Strainmeter+Tokai+Strain+Swarm J|1131|Frankel,A.|Mapping seismic hazard in the central and eastern United States||#SRL:-:4:1995:8-21|Hazard+United States+Historical seismicity+Acceleration+Mapping J|1132|Wald,D.J.|A preliminary dislocation model for the 1995 Kobe (Hyogo-ken Nanbu), Japan, earthquake determined from strong motion and teleseismic waveforms||#SRL:-:4:1995:22-28|Kobe+1995+Destructive earthquake+Dislocation||#*SHYOGO95 J|1133|Lees,J.M.|XMAP8: a free program for three-dimensional GIS||#SRL:-:4:1995:33-37|Computer program+Mount St. Helens+Graphical representation+Data processing J|1134|Fletcher,J.B.|Source parameters and crustal Q for four earthquakes in South Carolina||#SRL:-:4:1995:44-58|Source parameter+Q+South Carolina+Earthquake+1992||#*SCAROLINA92 J|1135|Person,W.J.|Seismological notes September-October 1994||#SRL:-:4:1995:63-67|Earthquake+1994 J|1136|Qamar,A.|Space shuttle and meteoroid--tracking supersonic objects in the atmosphere with seismographs||#SRL:-:5:1995:6-12|Atmosphere+Seismograph+Meteorite+Sonic wave J|1137|Fan,G-W.+Wallace,T.C.|Focal mechanism of a recent event in South Africa: a study using a sparse very broadband network||#SRL:-:5:1995:13-18|South Africa+Focal mechanism+Global Seismic Network+Earthquake+Broadband seismology+ISC||#*SAFRICA94|#*SAFRICA86 J|1138|Guendel,F.+Bungum,H.|Earthquakes and seismic hazards in Central America||#SRL:-:5:1995:19-25|Central America+Hazard+Earthquake+Strong motion J|1139|Lienert,B.R.+Havskov,J.|A computer program for locating earthquakes both locally and globally||#SRL:-:5:1995:26-36|Earthquake location+Computer program+Nicaragua+Focal depth+ISC J|1140|Heaton,T.H.|Urban earthquakes||#SRL:-:5:1995:37-40|Large earthquake+Danger+Building code+Vulnerability|Presidential address|#*NORTHRIDGE94|#*SHYOGO95|#*LANDERS92|#*TABAS|#*BORAH J|1141|Patraw,G.W.+Zimakov,L.G.+Kromer,R.|Recent 24-bit A/D tests on PASSCAL recorders||#SRL:-:5:1995:41-45|PASSCAL+Recorder+Performance+Noise J|1142|Ebel,J.E.|Review of `Promoting risk: constructing the earthquake threat' by R. A. Stallings||#SRL:-:5:1995:49-50|Review+Sociological aspect+Seismic risk+Public policy|Aldine de Gruyter Inc., New York, 1995 J|1143|Van Arsdale,R.B.+Kelson,K.I.+Lumsden,C.H.|Northern extension of the Tennessee Reelfoot scarp into Kentucky and Missouri||#SRL:-:5:1995:57-62|New Madrid+Fault+Rupture+Geology J|1144|Person,W.J.|Seismological notes November-December 1994||#SRL:-:5:1995:70-73|Earthquake+1994 J|1145|Drake,L.A.|||#SRL:-:6:1995:7-8|Frequency response+La Paz+Seismograph+Single-station recording|Letter to the editor J|1146|Anderson,J.G.+Quaas,R.+Singh,S.K.+|The Copala, Guerrero, Mexico earthquake of September 14, 1995 (MW=7.4): a preliminary report||#SRL:-:6:1995:11-39|Guerrero+1995+Earthquake+Accelerogram||#*GUERRERO95 J|1147|Meli,R.+Ordaz,M.+Alcocer,S.+|Report on the earthquake of September 14, 1995, in Guerrero, Mexico||#SRL:-:6:1995:40-41|Earthquake+1995+Guerrero+Damage||#*GUERRERO95 J|1148|Espinosa Aranda,J.M.+Jimenez,A.+Ibarrola,G.+|Mexico City seismic alert system||#SRL:-:6:1995:42-53|Mexico City+Warning+Detection+Accelerogram||#*GUERRERO95|#*GUERRERO94B|#*GUERRERO93A|#*GUERRERO94A J|1149|Hauksson,E.+Hutton,K.+Kanamori,H.+|Preliminary report on the 1995 Ridgecrest earthquake sequence in eastern California||#SRL:-:6:1995:54-60|California+1995+Sequence+Migration||#*RIDGECREST95A|#*RIDGECREST95B J|1150|Hatzfeld,D.+Nord,J.+Paul,A.+|The Kozani-Grevena (Greece) earthquake of May 13, 1995, Ms = 6.6. Preliminary results of a field multidisciplinary survey||#SRL:-:6:1995:61-70|Earthquake+1995+Greece+Geophysical survey||#*NGREECE95 J|1151|Wald,L.A.+Hafner,K.+Bryant,S.|The 1994 Southern California Network Bulletin||#SRL:-:6:1995:72-83|Southern California+1994+Network+Earthquake J|1152|Pavlis,G.L.|Review of `Modern global seismology' by T. Lay and T. Wallace||#SRL:-:6:1995:92|Review+Global seismology|Academic Press, 521pp J|1153|a-SEUSSN Contributors|The seismicity of the southeastern United States--1994||#SRL:-:6:1995:111-112|Seismicity+Southeastern United States+1994+Epicentre|News and notes|#*NCAROLINA94 J|1154|Chandler,V.W.|The west-central Minnesota earthquake of June 5, 1993: an opportunity to re-examine seismicity near the Morris fault||#SRL:-:6:1995:113-121|Minnesota+1993+Earthquake+Seismicity||#*MINNESOTA93 J|1155|Person,W.J.|Seismological notes January-February 1995||#SRL:-:6:1995:122-127|Earthquake+1995 J|1156|Punongbayan,R.S.+Newhall,C.|Warning the public about Mount Pinatubo: a story worth repeating||STOP Disasters:-:25:1995:11-14|Mount Pinatubo+Warning+Eruption+1991||#*LUZON90A J|1157|Deshpande,B.G.|A false prediction of an earthquake||STOP Disasters:-:26:1995:27|Prediction+India+Preparedness+Earthquake J|1158|Beresnev,I.A.+Wen,K-L.+Yeh,Y.T.|Seismological evidence for nonlinear-elastic ground behavior during large earthquakes||#BAS:15:-:1995:3|Large earthquake+Nonlinear response+Soil+Amplification|Abstract of a paper published in Soil Dyn. Earthq. Engng, 14(2), 103-114 J|1159|Huang,B-S.+Teng,T-L.+Yeh,Y.T.|Numerical modeling for acoustic scattering of 3-D spherical wavefronts: implications on near source basin amplification||#BAS:15:-:1995:7|Numerical modelling+Sedimentary basin+Scattering+Wavefront|Abstract of a paper published in Terr. atmos. ocean. Sci., 6(2), 251-270 J|1160|Kuo,K-W.+Shin,T-C.+Wen,K-L.|Taiwan strong motion instrumentation program (TSMIP) and preliminary analysis of site effects in Taipei basin from strong motion data||#BAS:15:-:1995:10|Taipei Basin+Site effect+Strong motion+Seismograph station|Abstract of an article published in `Urban disaster mitigation: the role of engineering and technology' edited by F. Y. Cheng and M-S. Sheu, Elsevier, 47-62 J|1161|Wang,J-H.|Fractal characterization of seismic networks in Taiwan||#BAS:15:-:1995:13|Network+Taiwan+Fractal dimension|Abstract of a paper published in Terr. atmos. ocean. Sci., 6(2), 363-366 J|1162|Wang,J-H.+Lee,C-W.|Fractal characterization of an earthquake sequence||#BAS:15:-:1995:16|Sequence+Occurrence+China+Fractal dimension|Abstract of a paper published in Physica A, 221, 152-158 J|1163|Wang,J-H.+Matsuzaki,M.+Koyama,J.|Dynamical modeling of earthquake occurrences||#BAS:15:-:1995:17|Dynamic model+Occurrence+Moment+b-Value|Abstract of a paper published in Advance in Mathematical Seismology, Seismological Press, 148-164 J|1164|Wen,K-L.+Dravinski,M.|Effects of the 2D semi-circular basin on ground motions under the incident body wave||#BAS:15:-:1995:19|Body wave+Sedimentary basin+Ground motion+Ricker wavelet|Abstract of a paper published in Terr. atmos. ocean. Sci., 6(4), 515-525 J|1165|Wen,K-L.+Fei,L-Y.+Peng,H-Y.+|Site effect analysis from the records of the Wuku downhole array||#BAS:15:-:1995:20|Down-hole recording+Site effect+Array+Taipei Basin|Abstract of a paper published in Terr. atmos. ocean. Sci., 6(2), 285-298 J|1166|Chen,C-H.+Yen,H-Y.+Yeh,Y-H.|Comparison of earthquake location by using one- and three-dimensional velocity structures in the Taiwan area||#BAS:15:-:1995:22|Earthquake location+Taiwan+Velocity structure+Ray theory|Abstract of a paper published in Terr. atmos, ocean. Sci., 6(4), 527-540 J|1167|Lin,C-H.|A review of receiver function techniques for estimation of one-dimensional velocity structures||#BAS:15:-:1995:27|Velocity structure+Receiver function+Technique+Review|Abstract of a paper published in Terr. atmos. ocean. Sci., 6(2), 181-196 J|1168|Lin,C-H.|Epicenter location capability of a small aperture array||#BAS:15:-:1995:28|Earthquake location+Array+Dipping layer+Southern California|Abstract of a paper published in Terr. atmos. ocean. Sci., 6(4), 541-552 J|1169|Liu,L-G.|Phase transformation and deep focus earthquakes||#BAS:15:-:1995:48|Deep-focus earthquake+Phase transformation+Energy+Mantle|Abstract of a paper published in Physica A, 221, 143-151 J|1170||Review of `Japan: the great Hanshin earthquake, January 17, 1995' by Risk Management Solutions Inc. and Failure Analysis Associates||Nat. Haz. Observer:-:1:1995:20|Review+Kobe+1995+Destructive earthquake|Report by RMS and FAA, Menlo Park, California, 1995, 38pp|#*SHYOGO95 J|1171||Review of `The Hyogo-Ken Nanbu (Kobe) earthquake of 17 January 1995, preliminary reconnaissance report' by Canadian Association for Earthquake Engineering||Nat. Haz. Observer:-:1:1995:20|Review+Kobe+Destructive earthquake+1995|CAEE/ACGS, University of British Columbia, Vancouver, 1995, 260pp|#*SHYOGO95 J|1172|Shah,H.C.|Scientific profiles of "The Big One"||Nat. Haz. Observer:-:2:1995:1-3|San Francisco+Los Angeles+Tokyo+Seismic risk+Major earthquake J|1173|Emanov,A.F.|On application of vibrators to assessment of seismic stability of buildings and to microseismic regionalization|In Russian with English abstract|#GGS:-:7:1995:87-93|Building+Vibrator+Microseismicity+Regionalization A|1174|e*Spagna,V.+Schiavon,E.|Scientific meeting on the seismic protection||1995:Venice:Regione del Veneto Dipartimento per la Geologia e le Attivita Estrattive|Proceedings+Seismology+Earthquake+Precursor+Italy|Proceedings of a Meeting held in Venice, July 1993, 239pp|#*SICILY90|#*ARMENIA88 B|1175|e*Mezcua,J.|Regional seismic networks||Gomberg,J.|Seismic networks: the basics of why, how, and what we learn from them||1995:Madrid:Instituto Geografico Nacional|Network+Earthquake location+Long Valley Caldera+Low-frequency event|Monograph No. 11, p9-62 B|1176|e*Mezcua,J.|Regional seismic networks||Mezcua,J.|Fundamentos de la red sismica de Espana|In Spanish|1995:Madrid:Instituto Geografico Nacional|Spain+Network+Detectability+Frequency response|Monograph No. 11, p63-86 B|1177|e*Mezcua,J.|Regional seismic networks||Rueda,J.|Analysis y procesamiento de datos en la red sismica nacional|In Spanish|1995:Madrid:Instituto Geografico Nacional|Data analysis+Network+Seismogram+Earthquake location|Monograph No. 11, p87-112|#*HUELVA89 B|1178|e*Mezcua,J.|Regional seismic networks||Martinez Solares,J.M.|Metodos de localizacion epicentral mediante el procesamiento de senales de dispositivos sismicos|In Spanish|1995:Madrid:Instituto Geografico Nacional|Earthquake location+Epicentre+Array+Data processing|Monograph No. 11, p113-144 A|1179|Skordas,E.+Kulhanek,O.|Causality between interplate (North Atlantic) and intraplate (shield regions in the North American plate) seismicities||1995:Uppsala:Uppsala University|North America+North Atlantic+Intraplate seismicity+Interplate seismicity+Correlation|Report 1-95, 18pp A|1180|Ayele,A.|Earthquake catalogue of the Horn of Africa for the period 1960-1993||1995:Uppsala:Uppsala University|Earthquake catalogue+Africa+1960-1993+Frequency-magnitude relation+ISC|Report 3-95, 32pp A|1181|Pickles,W.L.|Observations of temporary plant stress induced by the surface shock of a 1-kt underground chemical explosion||1995:Livermore, California:Lawrence Livermore National Laboratory|Underground explosion+Shock+Biological activity+Nuclear test ban|Report UCRL-ID-122557, 10pp B|1182||Windstorm: coming to terms with man's worst natural hazard||Lee,B.E.|Chairman's introduction setting the scene||1995:London:The Royal Academy of Engineering|Natural disaster+Loss+Casualties|Proceedings of a Seminar held in London, May 1995, p4-7 B|1183||Windstorm: coming to terms with man's worst natural hazard||Solway,L.|Strengthening urban areas||1995:London:The Royal Academy of Engineering|IDNDR+Urban planning+Preparedness+Vulnerability|Proceedings of a Seminar held in London, May 1995, p18-26 B|1184||Windstorm: coming to terms with man's worst natural hazard||Douglas,J.|Disaster preparedness and mitigation||1995:London:The Royal Academy of Engineering|IDNDR+Preparedness+Mitigation+Natural disaster|Proceedings of a Seminar held in London, May 1995, p60-66 J|1185|Robinson,A.G.+Banks,C.J.+Rutherford,M.M.+|Stratigraphic and structural development of the Eastern Pontides, Turkey||#JGL:152:5:1995:861-872|Turkey+Stratigraphy+Seismic reflexion profile J|1186|Williams,G.D.+Unlugenc,U.C.+Kelling,G.+|Tectonic controls on stratigraphic evolution of the Adana Basin, Turkey||#JGL:152:5:1995:873-882|Turkey+Seismic reflexion profile+Stratigraphy J|1187|Barton,A.J.+White,R.S.|The Edoros Bank margin; continental break-up in the presence of a mantle plume||#JGL:152:6:1995:971-974|Mantle plume+Iceland+Velocity structure+Reflexion data J|1188|Fitton,J.G.+Saunders,A.D.+Larsen,L.M.+|Magma sources and plumbing systems during break-up of the SE Greenland margin: preliminary results from ODP Leg 152||#JGL:152:6:1995:985-990|Greenland+Magma+Continental margin+Dipping reflector J|1189|Gudmundsson,A.|Ocean-ridge discontinuities in Iceland||#JGL:152:6:1995:1011-1015|Iceland+Seismic zone+Oceanic ridge+Discontinuity J|1190|Smallwood,J.R.+White,R.S.+Minshull,T.A.|Sea-floor spreading in the presence of the Iceland plume: the structure of the Reykjanes Ridge at 61degrees40'N||#JGL:152:6:1995:1023-1029|Reykjanes+Sea-floor spreading+Oceanic crust+Seismic survey A|1191|Sheriff,R.E.+Geldart,L.P.|Exploration seismology||1995:Cambridge:Cambridge University Press|Seismic exploration+Data processing|Second edition, 608pp A|1192|Scales,J.A.|Theory of seismic imaging||1995:London:Springer-Verlag|Imaging+Reflexion study+Algorithm+Theory|Lecture Notes in Earth Sciences, Vol. 55, 310pp A|1193|Console,R.+Nikolaev,A.|Earthquakes induced by underground nuclear explosions||1995:London:Springer-Verlag|Induced earthquake+Underground nuclear explosion+Stress+Aftershock|452pp A|1194|Lay,T.|Seismological structure of slabs||1994:London:Academic Press|Slab+Travel-times+Interface+Deep structure|85pp A|1195|e*Vidrih,R.|Earthquakes in 1994|In Slovene with English preface and introduction|1995:Ljubljana:Geophysical Survey of Slovenia|Earthquake catalogue+1994+Slovenia+Map|61pp|#*BOLIVIA94|#*HOKKAIDO94 A|1196|e*Van Eck,T.+Davenport,C.A.|Seismotectonics and seismic hazard in the Roer Valley Graben; with emphasis on the Roermond earthquake of April 13, 1992||1995:Dordrecht:Kluwer Academic Publishers|Netherlands+Earthquake+1992+Seismotectonics|Special Issue of Geologie en Mijnbouw 73:2-4 comprising papers from a Workshop held in Veldhoven, January 1993|#*ROERMOND92 A|1197|e*Teisseyre,R.|Theory of earthquake premonitory and fracture processes||1995:Warsaw:Polish Scientific Publishers PWN Ltd|Precursor+Fracture+Earthquake+Rock|668pp A|1198|Pantazis,T.|1995's Paphos earthquake and regional seismic zones of Cyprus||1995:Nicosia:Cyprus Geological Society|Cyprus+1995+Damaging earthquake+Damage+ISC|Paper presented at a Seminar held in Nicosia, May 1995, 12pp J|1199|Melvin,A.+Clarke,J.F.|The free shock wave as a seismic source||Proc. R. Soc.:A450:1939:1995:351-370|Shock wave+Source A|1200|Berberian,M.|Natural hazards and the first earthquake catalogue of Iran Volume 1: historical hazards in Iran prior to 1900||1995:Tehran:International Institute of Earthquake Engineering and Seismology|Iran+Earthquake catalogue+Hazard+History A|1200|Berberian,M.|Natural hazards and the first earthquake catalogue of Iran Volume 1: historical hazards in Iran prior to 1900||1995:Tehran:International Institute of Earthquake Engineering and Seismology|Iran+Earthquake catalogue+Hazard+History