المؤلفون: Di Grezia, V., Baranello, S., Lemme, A., Pasquale, C., Dolce, M., Di Pasquale, G., Pizza, A. G., Eva, C., Lagomarsino, S., Podestà, S., Di Capua, G., Peppoloni, S., Cifani, G., Martinelli, A.

المساهمون: Di Grezia, V., Regione Molise, Struttura del Commissario delegato per la Ricostruzione Post-Sisma 2002, Campobasso, Baranello, S., Lemme, A., Pasquale, C., Dolce, M., Dipartimento della Protezione Civile, Ufficio Valutazione, prevenzione e mitigazione del rischio sismico e attività ed opere post-emergenza, Roma, Di Pasquale, G., Pizza, A. G., Eva, C., Università di Genova, DIPTERIS, Genova, Lagomarsino, S., Università di Genova, DICAT, Genova, Podestà, S., Di Capua, G., Istituto Nazionale di Geofisica e Vulcanologia, Sezione AC, Roma, Italia, Peppoloni, S., Istituto Nazionale di Geofisica e Vulcanologia, Sezione Roma1, Roma, Italia, Cifani, G., CNR, ITC, L'Aquila, Martinelli, A.

مصطلحات موضوعية: Normativa tecnica, Ricostruzione, Terremoto del Molise 2002, 04. Solid Earth::04.06. Seismology::04.06.04. Ground motion, 04. Solid Earth::04.06. Seismology::04.06.06. Surveys, measurements, and monitoring, 04. Solid Earth::04.06. Seismology::04.06.11. Seismic risk

العلاقة: ANIDIS 2007 - XII Convegno Nazionale "L'Ingegneria sismica in Italia"; Dr. Giuseppe Di Capua Istituto Nazionale di Geofisica e Vulcanologia giuseppe.dicapua@ingv.it; http://hdl.handle.net/2122/2779Test

الإتاحة: http://hdl.handle.net/2122/2779Test

المؤلفون: Maresca, R., Nardone, L., Pasquale, G., Pinto, F., Bianco, F.

المساهمون: Maresca, R., Università del Sannio, Nardone, L., Pasquale, G., Pinto, F., Bianco, F., Istituto Nazionale di Geofisica e Vulcanologia, Sezione OV, Napoli, Italia

مصطلحات موضوعية: Ambient noise, HVSR, site effects, Avellino, 04. Solid Earth::04.06. Seismology::04.06.09. Waves and wave analysis, 04. Solid Earth::04.06. Seismology::04.06.11. Seismic risk

العلاقة: Pure and Applied Geophysics; /169(2012); ARAI, H., and TOKIMATSU, K. (2004), S-wave velocity profiling by inversion of microtremor H/V spectrum, Bull. Seism. Soc. Am., 94, 53–63. BARD, P.Y. (1999), Microtremor measurements: a tool for site effect estimation?, Proc of the 2nd Int. Symp. on Effects of Surface Geology on Seismic Motion, Yokohama, Japan, 1-3 December, 3, 1251–1282. BONNEFOY-CLAUDET, S., CORNOU, C., BARD, P.Y., and COTTON, F. (2006), H/V ratio: a tool for site effects evaluation. Results from 1-D noise simulations, Geophys. J. Int., 167, 827-837. BONNEFOY-CLAUDET, S., KO¨ HLER, A., CORNOU, C., WATHELET, M., and BARD, P.Y. (2008), Effects of Love waves on microtremor H/V ratio, Bull. Seism. Soc. Am., 98, 288–300. BONNEFOY-CLAUDET, S., BAIZE, S., BONILLA, L.F., BERGE-THIERRY, C., PASTEN, C., CAMPOS, J., VOLANT, P., and VERUGO, R. (2009), Site effect evaluation in the basin of Santiago de Chile using ambient noise measurements, Geophys. J. Int., 176, 925-937.BORCHERDT, R.D., WENTWORTH, C.M., JANSSEN, A., FUMAL, T., and GIBBS, J. (1991), Methodology for predictive GIS mapping of special study zone for strong ground motion in the San Francisco Bay region, CA., In Proc. Fourth Int. Cont. on Seismic Zonation, Earthquake Engineering Research Institute, Oakland, California, 545–552. CANDELA, M., and VIGGIANI, C. (1988), The effects of the Irpinia earthquake in the ancient centre of Avellino, Italy, Proc. Inter. Symp. IAEG, Athens, Greece, 1988. CASTELLARO, S., and MULARGIA, F. and ROSSI P.M. (2008), VS30: proxy for seismic amplification?, Seism. Res. Lett. 79, 540–542. CASTELLARO, S., and MULARGIA, F. (2010), How far from a building does the ground-motion free-field start?, Bull. Seism. Soc. Am., 100, 2080–2094. CLARK, S.P. (1966), Handbook of physical constants, Geol. Soc. Am., Mem., 97. COCCO, M, CHIARABBA, C., DI BONA, M., SELVAGGI, G., MARGHERITI, L., FREPOLI, A., LUCENTE, F.P., BASILI, A., JONGMANS, D., and CAMPILLO, M. (1999), The April 1996 Irpinia seismic sequence: evidence for fault interaction, Journ. Seismol., 3, 105–117. DI GIULIO, G., CORNOU, C., OHRNBERGER, M., WATHELET, M., and ROVELLI, A. (2006), Deriving wavefield characteristics and shear-velocity profiles from two-dimensional small-aperture arrays analysis of ambient vibrations in a small-size alluvial basin, Colfiorito, Italy, Bull. Seism. Soc. Am., 96, 1915–1933. DI GIULIO, G., IMPROTA, L., CALDERONI, G., and ROVELLI, A. (2008), A study of the seismic response of the city of Benevento (southern Italy) through a combined analysis of seismological and geological data, Engin. Geol., 97, 146–170. DI NOCERA, S., MATANO, F., PESCATORE, T., PINTO, F., QUARANTIELLO, R., SENATORE, M.R., and TORRE, M. (2006), Schema geologico del transetto Monti Picentini orientali—Monti della Daunia meridionali: unita` stratigrafiche ed evoluzione tettonica del settore esterno dell’Appennino meridionale, Boll. Soc. Geol. It., 125, 39–58. FA¨ H, D., KIND, F., and GIARDINI, D. (2001), A theoretical investigation of average H/V ratios. Geophys, J. Int., 145, 535–549. FA¨ H D., KIND F., and GIARDINI D. (2003), Inversion of local S-wave velocity structures from average H/V ratios, and their use for the estimation of site-effects, Journ. Seismol. 7, 449–467. GIULIVO, I., and SANTO, A. (1997), Stratigrafia del sottosuolo e problemi geomorfologico-applicativi della citta` di Avellino, ‘‘Geologia delle grandi aree urbane’’—Progetto strategico CNR. HERAK, M. (2008), ModelHVSR—a Matlab tool to model horizontal- to-vertical spectral ratio of ambient noise, Computers Geosci., 34, 1514–1526. HORIKE, M., ZHAO, B., and KAWASE, H. (2001), Comparison of site response characteristics inferred from microtremors and earthquake shear waves, Bull. Seism. Soc. Am., 91, 1526–1536. IBS-VON SEHT, M., and WOLHENBERG, J. (1999), Microtremor measurements used to map thickness of soft sediments, Bull. Seism. Soc. Am., 89, 250–259. KO¨ HLER A., OHRNBERGER M., SCHERBAUM F., STANGE S., and KIND F. (2004), Ambient vibration measurements in the southern Rhine Graben close to Basle, Ann. Geophys., 47, 1771–1781. KO¨ HLER, A., OHRNBERGER, M., and SCHERBAUM, F. (2006). The relative fraction of Rayleigh and Love waves in ambient vibration wave fields at different European sites, in 3rd Int. Symposium on the Effects of Surface Geology on Seismic Motion, Grenoble, France, Abstract 83.KONNO, K., and OHMACHI, T. (1998), Ground-motion characteristics estimated from spectral ratio between horizontal and vertical components of microtremors, Bull. Seism. Soc. Am., 88, 228–241. KRAMER, S.L. (1996), Geotechnical Earthquake Engineering (Prentice Hall, 1996). LACHET, C., HATZFELD, D., BARD, P.Y., THEODULIDIS, N., PAPAIOANNOU, C., and SAVVAIDIS, A. (1996), Site effects and microzonation in the city of Thessaloniki (Greece). Comparison of different approaches, Bull. Seism. Soc. Am., 86, 1692–1703. LUZI, L., PUGLIA, R., PACOR, F., GALLIPOLI, M. R., BINDI, D., and MUCCIARELLI, M. (2011), Proposal for a soil classification based on parameters alternative or complementary to Vs,30. Bull Earthquake Eng., doi:10.1007/s10518-011-9274-2. MALISCHEWSKY P.G., and SCHERBAUM F. (2004), Love’s formula and H/V-ratio (ellipticity) of Rayleigh waves, Wave Motion, 40, 57–67. MARESCA R., GALLUZZO D., and DEL PEZZO, E. (2006), H/V spectral ratios and array techniques applied to ambient noise recorded in the Colfiorito Basin, central Italy, Bull. Seism. Soc. Am., 96, 490–505. MELETTI, C., and MONTALDO, V. (2007), Stime di pericolosita` sismica per diverse probabilita` di superamento in 50 anni: valori di ag. Progetto DPC-INGV S1 (2006), Deliverable D2, http:// esse1.mi.ingv.it/d2.html. MUCCIARELLI, M., and GALLIPOLI, M.R. (2006), Comparison between Vs30 and other estimates of site amplification in Italy, Conference on Earthquake Engineering and Seismology, Geneva, 3–8 Sept., no. 270. NAKAMURA, Y. (1989), A method for dynamic characteristics estimation of subsurface using microtremor on the ground surface, Q. Rept. Railway Tech. Res. Inst., 30, 25–33. NOGOSHI, M.,and IGARASHI, T. (1970), On the amplitude characteristics of microtremors (Part 1), J. Seism. Soc. Japan, 23, 264–280. NOGOSHI, M., and IGARASHI, T. (1971), On the amplitude characteristics of microtremor (Part 2), J. Seism. Soc. Japan, 24, 26–40. PAROLAI, S., BORMANN, P., and MILKREIT, C. (2002), New relationships between Vs, thickness of sediments, and resonance frequency calculated by the H/V ratio seismic noise for the Cologne area (Germany), Bull. Seism. Soc. Am., 92, 2521–2527. PILZ, M., PAROLAI, S., LEYTON, F., CAMPOS, J., and ZSCHAU, J. (2009), A comparison of site response techniques using earthquake dataand ambient seismic noise analysis in the large urban areas of Santiago de Chile, Geophys. J. Int., 178, 713–728. PILZ, M., PAROLAI, S., PICOZZI,M., WANG, R., LEYTON, F., CAMPOS, J., and ZSCHAU, J. (2010), Shear wave velocity model of the Santiago de Chile basin derived from ambient noise measurements: a comparison of proxies for seismic site conditions and amplification, Geophys. J. Int., 182, 355–367. RODRIGUEZ, V.H.S., and MIDORIKAWA, S. (2002), Applicability of the H/V spectral ratio of microtremors in assessing site effects on seismic motion, Earthq. Eng. Struct. Dynamics, 31, 261–279. SCHERBAUM F, HINZEN, K.G, and OHRNBERGER, M. (2003), Determination of shallow shear wave velocity profiles in the Cologne/ Germany area using ambient vibrations, Geophys. J. Int. 152, 597–612. SESAME (2004), Guidelines for the Implementation of the H/V Spectral Ratio Technique on Ambient Vibrations. Measurements, Processing and Interpretation. SESAME European Research Project WP12—D23.12. http://sesame-fp5.obs.ujf-grenoble.frTest/ Papers/HV_User_Guidelines.pdf. SOURIAU, A., ROULLE´ , A., and PONSOLLES, C. (2007), Site effects in the city of Lourdes, France, from H/V measurements: implications for seismic-risk evaluation, Bull. Seism. Soc. Am., 97, 2118–2136. TOKIMATSU, K., and MIYADERA, Y. (1992), Characteristics of Rayleigh waves in microtremors and their relation to underground structures, J. Struct. Constr. Eng. AIJ 439, 81–87 (in Japanese, English abstract). WATHELET, M., JONGMANS, D., OHRNBERGER, M., and BONNEFOYCLAUDET, S. (2008), Array performances for ambient vibrations on a shallow structure and consequences over Vs inversion, J. Seismol., 12, 1–19. WEBER, E., CONVERTITO, V., IANNACCONE, G., ZOLLO, A., BOBBIO, A., CANTORE, L., CORCIULO, M., DI CROSTA, M., ELIA, L., MARTINO, C., ROMEO, A., and SATRIANO, C. (2007), An advanced seismic network in the southern Apennines (Italy) for seismicity investigations and experimentation with earthquake early warning, Seism. Res. Lett., 78, 622–634. WILLS, C.J., PETERSEN, M., BRYANT, W.A., REICHE, M., SAUCEDO, G.J., TAN, S., TAYLOR, G., and TREIMAN, J. (2000), A site-conditions map for California based in geology and shear-wave velocity, Bull. Seism. Soc. Am., 90, S187–S208.; http://hdl.handle.net/2122/8172Test

الإتاحة: https://doi.org/10.1007/s00024-011-0390-3Test
http://hdl.handle.net/2122/8172Test

المؤلفون: De Matteis, R., Romeo, A., Pasquale, G., Iannaccone, G., Zollo, A.

المساهمون: De Matteis, R., GeDipartimento di Studi ologici e Ambientali, Università degli Studi del Sannio, Benevento,Italy, Romeo, A., Dipartimento di Scienze Fisiche (RISSC-Lab), Università degli Studi di Napoli Federico II, Napoli, Italy, Pasquale, G., Dipartimento di Studi Geologici e Ambientali, Università degli Studi del Sannio, Benevento,Italy, Iannaccone, G., Istituto Nazionale di Geofisica e Vulcanologia, Sezione OV, Napoli, Italia, Zollo, A.

مصطلحات موضوعية: error analysis, seismic tomography, southern Apennines, 04. Solid Earth::04.06. Seismology::04.06.07. Tomography and anisotropy

العلاقة: Stud. Geophys. Geod.; /54 (2010); Akaike H., 1974. A new look at the statistical model identification. IEEE Trans Autom. Control, 6, 716723. Amanti M., Bontempo R., Cara P., Conte G., Di Bucci D., Lembo P., Pantaleone N.A. and Ventura R., 2002. Carta Geologica d’Italia Interattiva, 1:100000. SGN, SSN, ANAS, 3 CDROM. Amato A. and Montone P. 1997. Present day stress field and active tectonics in southern peninsular Italy. Geophys. J. Int., 130, 519534. Amato A. and Selvaggi G., 1993. Aftershock location and P-wave velocity structure in the epicentral region of the 1980 Irpinia earthquake. Ann. Geofis., 36, 315. Amato A., Chiarabba C., Malagnini L. and Selvaggi G., 1992. Three-dimensional P-velocity structure in the region of the MS = 6.9 Irpinia, Italy, normal faulting earthquake. Phys. Earth Planet. Inter., 75, 111119. Anzidei M., Baldi P., Casula G., Galvani A., Mantovani E., Pesci A., Riguzzi F., Serpelloni E., 2001. Insights into present-day crustal motion in the central Mediterranean area from GPS surveys. Geophys. J. Int., 146, 98110. Bally A.W., Burbi L., Cooper C. and Ghelardoni R., 1986. Balanced sections and seismic reflection profiles across the Central Apennines. Mem. Soc. Geol. It., 35, 257310. Beccaluva L., Brotzu P., Macciotta G., Morbidelli L., Serri G. and Traversa G., 1989. Cenozoic tecto-magmatic evolution and inferred mantle sources in the Sardo-Tyrrhenian Area. In: Boriani A., Bonafede M., Piccardo G.G. and Vai G.B. (Eds), The Lithosphere in Italy: Advances in Earth Science Research. Accademia Nazionale dei Lincei, Rome, Italy, 229248. Benz H.M., Chouet B.A., Dawson P.B., Lahr J.C., Page R.A. and Hole J.A., 1996. Three dimensional P and S wave velocity structure of Redoubt Volcano, Alaska. J. Geophys. Res., 101(B4), 81118128. Bernard P. and Zollo A., 1989. The Irpinia (Italy) 1980 earthquake: detailed analysis of a complex normal faulting. J. Geophys. Res., 94(B2), 16311647. Boschi E., Console R., Di Maro R. and Murru M., 1998. Contributo alla conoscenza della sismicità nella Basilicata (online at http://www.consiglio.basilicata.it/basilicata_regione_notizie/laricerca_Test in_basilicata/05199804.pdf, in Italian). Bunks C., Saleck F.M., Zaleski S. and Chavent G., 1995. Multi-scale seismic waveform inversion. Geophysics, 60, 14571473. Casero P., Roure F., Endignoux L., Moretti I., Muller C., Sage L. and Vially R., 1988. Neogene geodynamic evolution of the southern Appennines. Mem. Soc. Geol. It., 41, 109120. Cavanaugh J.E., 1997.Unifying the derivation for the Akaike and corrected Akaike Informatioin Criteria. Stat. Probab. Lett., 33, 201208. Chiarabba C. and Amato A., 1996. Crustal velocity structure of the Apennines (Italy) from P-wave travel time tomography. Ann. Geofis., 34, 11331148. Chiarabba C., Amato A. and Meghraoui M., 1996. Imaging seismogenic structures with local earthquake tomography. Phys. Chem. Earth, 21, 247251.Cimini G.B. and Amato A., 1993. P-wave teleseismic tomography: contribution to the delineation of the upper mantle structure of Italy. In: Boschi E., Mantovani E. and Morelli A. (Eds.), Recent Evolution and Seismicity of the Mediterranean Region. Kluwer Academic Publishers, Dordrecht, The Netherlands, 313331. Civetta L., Orsi G., Scandone P. and Pece R., 1978. Eastwards migration of the Tuscan anatectic magmatism due to anticlokwise rotation of the Apennines. Nature, 276, 604606. De Gori P., Cimini G.B., Chiarabba C., De Natale G., Troise C. and Deschamps A., 2001. Teleseismic tomography of the Campanian volcanic area and surrounding Apenninic belt. J. Volcanol. Geotherm. Res., 109, 5575. De Matteis R., Vanorio T., Zollo A., Ciuffi S., Fiordalisi A. and Spinelli E., 2008. Threedimensional tomography and rock properties of the Larderello-Travale geothermal area, Italy. Phys. Earth Planet. Inter., 168, 3748, doi:10.1016/j.pepi.2008.04.019. Di Stefano R., Chiarabba C., Lucente F. and Amato A., 1999. Crustal and uppermost mantle structure in Italy from the inversion of P-wave arrival times: geodynamic implications. Geophys. J. Int., 139, 483498. Evans J.R. and Zucca J.J., 1988. Active high resolution seismic tomography of compressional wave velocity and attenuation at Medicine Lake Volcano, Northern California Cascade Range. J. Geophys. Res., 93, 1501615036. Improta L., Iannaccone G., Capuano P., Zollo A. and Scandone P., 2000. Inferences on the upper crustal structure of Southern Apennines (Italy) from seismic refraction investigations and subsurface data. Tectonophysics, 317, 273297. Improta L., Bonagura M., Capuano P. and Iannaccone G., 2003. An integrated geophysical investigation of the upper crust in the epicentral area of the 1980, MS = 6.9, Irpinia earthquake (Southern Italy). Tectonophysics, 361, 139169. Kissling E., Ellsworth W.L., Eberhart-Phillips D. and Kradolfer U., 1994. Initial reference model in local earthquake tomography. J. Geophys. Res., 99, 1963519646. Kissling E., 1988. Geotomography with local eartquakes data. Rev. Geophys., 26, 659698. Latorre D., Virieux J., Monfret T., Monteiller V., Vanorio T., Got J.L. and Lyon-Caen H., 1997. A new seismic tomography of Aigion area (Gulf of Corinth-Greece) from a 1991 dataset. Geophys. J. Int., 159, 10131031. Lee W.H.K. and Lahr J.C., 1975. HYPO71 (Revised): A Computer Program for Determining Hypocenter, Magnitude and First Motion Pattern of Local Earthquakes. U.S. Geol. Surv. Open File Rep. 75-311, 113 pp. Lees J.M. and Crosson R.S., 1989. Tomographic inversion for three dimensional velocity structure at Mount St Helens using earthquake data. J. Geophys. Res., 94, 57165728. Lomax A., Virieux J., Volant P. and Thierry B.C., 2000. Probabilistic earthquake location in 3D and layered models. In: Thurber C.H. and Rabinowitz N. (Eds.), Advances in Seismic Event Location. Modern Approaches in Geophysics, 18, Kluwer Academic Publishers, Dordrecht, The Netherlands, 101134. Lutter W.J. and Nowack R.L., 1990. Inversion of crustal structure using reflections from the PASSCAL Ouachita experiment. J. Geophys. Res., 95, 46334646, Maggi C., Frepoli A., Cimini G.B., Console R. and Chiappino M., 2009. Recent seismicity and crustal stress field in the Lucanian Apennines and surrounding areas (Southern Italy): Seismotectonic implications. Tectonophysics, 463, 130144, doi:10.1016/j.tecto.2008.09.032.386 Stud. Geophys. Geod., 54 (2010) Malinverno A. and Ryan W.B.F., 1986. Extension in the Tyrrhenian Sea and shortening in the Apennines as result of arc migration driven by sinking of the lithosphere. Tectonics, 5, 227245. Mariotti G. and Doglioni C., 2000. The dip of the foreland monocline in the Alps and Apennines. Earth Planet. Sci. Lett., 181, 191202. Menardi A. and Rea G., 2000. Deep structure of the Campania-Lucania arc (Southern Apennine, Italy). Tectonophysics, 324, 239265. Mostardini F. and Merlini S., 1986. Appennino centro-meridionale. Sezioni geologiche e proposta di modello strutturale. Mem. Soc. Geol. Ital., 35, 177202 (in Italian). Nercessian A., Hirn A. and Tarantola A., 1984. Three dimensional seismic transmission prospecting of the Mont Dore volcano, France. Geophys. J. R. Astr. Soc., 76, 307315. Nicolai C. and Gambini R., 2007. Structural architecture of the Adria platform and basin system. Boll. Soc. Geol. Ital., 7, 2137. Nolet G., 2008. A Breviary of Seismic Tomography: Imaging the Interior of the Earth and Sun. Cambridge University Press, Cambridge, U.K. Paige C.C. and Saunders M.A., 1982. LSQR: An algorithm for sparse linear equations and sparse least squares. ACM Trans. Math. Softw., 8, 4371. Pantosti D. and Valensise G.R., 1990. Faulting mechanism and complexity of the November 23, 1980 Campania-Lucania earthquake, inferred from surface observations. J. Geophys. Res., 95(B10), 1531915341. Pasquale G., De Matteis R., Romeo A. and Maresca R., 2009. Earthquake focal mechanisms and stressinversion in the Irpinia Region (southern Italy). J. Seismol., 13, 107124, doi:10.1007/s10950-008-9119-x. Patacca E. and Scandone P., 1987. Tectonic evolution of the outer margin of the Apennines and related foredeep system. In: Boriani A., Bonafede M., Piccardo G.G. and Vai G.B. (Eds), The Lithosphere in Italy: Advances in Earth Science Research. Accademia Nazionale dei Lincei, Rome, Italy, 139142. Patacca E. and Scandone P., 1989. Post-Tortonian mountain building in the Apennines: the role of the passive sinking of a relic lithospheric slab. In: Boriani A., Bonafede M., Piccardo G.G. and Vai G.B. (Eds), The Lithosphere in Italy: Advances in Earth Science Research. Accademia Nazionale dei Lincei, Rome, Italy, 157176. Patacca E., Sartori R. and Scandone P., 1990. Tyrrhenian Basin and Apenninic arcs: kinematic relations since Late Tortonian times. Mem. Soc. Geol. Ital., 45, 425451. Paul A., Cattaneo M., Thouvenot F., Spallarossa D., Béthoux N. and Fréchet J., 2001. A threedimensional crustal velocity model of the southwestern Alps from local earthquakes tomography. J. Geophys. Res., 106(B9), 1936719389. Pavlis G.L. and Booker J.R., 1980. The mixed discrete-continuous inverse problem: Application to the simultaneous determination of earthquake hypocenters and velocity structure. J. Geophys. Res., 85(B9), 48014810. Pingue F., De Natale G. and Briole P., 1993. Modeling of the 1980 Irpinia earthquake source: constraints from geodetic data. Ann. Geofis., 36, 2740.Podvin P. and Lecomte I., 1991. Finite difference computation of traveltimes in very contrasted velocity models: a massively parallel approach and its associated tools. Geophys. J. Int., 105, 271284. Reutter K.J., 1981. A trench-forearc model for the Northern Apennines. Sedimentary basins of Mediterranean Margins. In: Wezel F.C. (Ed.), Sedimentary Basins of Mediterranean Margins. C.N.R. Italian Project of Oceanography, Tecnoprint, Bologna, 433443. Royden L., Patacca E. and Scandone R., 1987. Segmentation and configuration of subducted lithosphere in Italy: an important control on thrust-belt and foredeep-basin evolution. Geology, 15, 714717. Sallarès V., Charvis P., Flueh E.R., Bialas J., 2003. Seismic structure of Cocos and malpelo Volcanic Ridges and implications for hot spot-ridge interaction. J. Geophys. Res., 108(B12), 2564, doi:10.1029/2003JB002431. Scandone P., 1979. Origin of the Tyrrhenian Sea and Calabrian Arc. Boll. Soc. Geol. It., 98, 2734. Scarpa R., Tronca F., Bianco F. and Del Pezzo E., 2002. High resolution velocity structure beneath Mount Vesuvius from seismic array data. Geophys. Res. Lett., 29, 2040. Scarpa R., 1982. Travel-time residuals and three-dimensional velocity structure of Italy. Pure Appl. Geophys., 120, 583606. Scrocca D., Sciamanna S., Di Luzio E., Tozzi M., Nicolai C. and Gambini R., 2007. Structural setting along the CROP-04 deep seismic profile (Southern Apennines - Italy). Boll. Soc. Geol. Ital., 7, 283296. Spencer C. and Gubbins D., 1980. Travel-time inversion for simultaneous earthquake location and velocity structure determination in laterally varying media. Geophys. J. R. Astron. Soc., 63, 95116. Tarantola A., 1987. Inverse Problem Theory: Methods For Data Fitting And Model Parameter Estimation. Elsevier, Amsterdam, The Netherlands, 613 pp. Thurber C.H., 1984. Seismic detection of the summit magma complex of Kilauea volcano, Hawaii. Science, 223, 165167. Thurber C.H., 1992. Hypocenter -velocity structure coupling in local earthquake tomography. Phys. Earth Planet. Inter., 75, 5562. Tiberti M.M., Orlando L., Di Bucci D., Bernabini M. and Parotto M., 2005. Regional gravity anomaly map and crustal model of the Central-Southern Apennines (Italy). J. Geodyn., 40, 7391. Tryggvason A. and Bergman B., 2006. A traveltime reciprocity discrepancy in the Podvin & Lecomte time3d finite difference algorithm. Geophys. J. Int., 165, 432435. Westaway R., 1993. Fault rupture geometry for the 1980 Irpinia earthquake: a working hypothesis. Ann. Geofis., 36, 51-69. Wu H. and Lees J.M., 1999. Three-dimensional P- and S-wave velocity structures of the Coso Geothermal Area, California, from microseismic travel time data. J. Geophys. Res., 104, 1321713233. Zhao D., Hasegawa A. and Horiuchi S., 1992. Tomographic imaging of P- and S-wave velocity structure beneath Northeastern Japan. J. Geophys. Res., 97, 1990919928. Zollo A., D’Auria L., De Matteis R., Herrero A., Virieux J. and Gasparini P., 2002. Bayesian estimation of 2-D P-velocity models from active seismic arrival time data: imaging of the shallow structure of Mt Vesuvius (Southern Italy). Geophys. J. Int., 151, 566582.; http://hdl.handle.net/2122/6776Test

الإتاحة: https://doi.org/10.1007/s11200-010-0022-xTest
https://doi.org/10.1016/j.pepi.2008.04.019Test
http://hdl.handle.net/2122/6776Test

المؤلفون: Pasquale, G., De Matteis, R., Romeo, A., Maresca, R.

المساهمون: Pasquale, G., Dipartimento di Studi Geologici ed Ambientali,Università degli Studi del Sannio, Benevento, Italy, De Matteis, R., Romeo, A., AMRA Scarl, Napoli, Italy, Maresca, R.

مصطلحات موضوعية: Irpinia Region, Seismicity, Focal mechanisms, Stress inversion, 04. Solid Earth::04.06. Seismology::04.06.03. Earthquake source and dynamics, 04. Solid Earth::04.07. Tectonophysics::04.07.05. Stress, 04. Solid Earth::04.07. Tectonophysics::04.07.07. Tectonics

العلاقة: JOURNAL OF SEISMOLOGY; /13 (2009); Amanti M, Bontempo R, Cara P, Conte G, Di Bucci D, Lembo P, Pantaleone NA, Ventura R (2002) Carta Geologica d’Italia Interattiva. 1:100000, SGN, SSN, ANAS, 3 CD-ROM Amato A, Montone P (1997) Present-day stress field and active tectonics in southern peninsular Italy. Geophys J Int 130:519–534. doi:10.1111/j.1365-246X. 1997.tb05666.x Amato A, Chiarabba C, Malagnini L, Selvaggi G (1992) Three-dimensional P-velocity structure in the region of the Ms = 6.9 Irpinia, Italy, normal faulting earthquake. Phys Earth Planet Inter 75:111–119. doi:10.1016/0031-9201(92)90122-C Angelier J (1990) Inversion of field data in fault tectonics to obtain the regional stress—III. A new rapid direct inversion method by analytic means. Geophys J Int 103:363–376. doi:10.1111/j.1365-246X.1990. tb01777.x Anzidei M, Baldi P, Casula G, Galvani A, Mantovani E, Pesci A, et al. (2001) Insights into present-day crustal motion in the central Mediterranean area from GPS surveys. Geophys J Int 146:98–110. doi:10.1046/ j.0956-540x.2001.01425.x Bernard P, Zollo A (1989) The Irpinia (Italy) 1980 earthquake: detailed analysis of a complex normal faulting. J Geophys Res 94:1631–1647. doi:10. 1029/JB094iB02p01631 Bott MHP (1959) The mechanisms of oblique slip faulting. Geol Mag 96:109–117 D’Argenio B, Pescatore TS, Scandone P (1974) Schema geologico dell’Appennino Meridionale (Campania e Lucania). Atti del Convegno: Moderne Vedute sulla Geologia dell’Appennino Meridionale. Accad Naz Lincei (Rome) 183:49–72 Del Pezzo E, Iannaccone G, Martini M, Scarpa R (1983) The 23 November 1980 southern Italy earthquake. Bull Seismol Soc Am 73:187–200 Deschamps A, King GCP (1984) Aftershocks of the Campania–Lucania (Italy) earthquake of the 23 November 1980. Bull Seismol Soc Am 74:2483–2517 Ellsworth WL, Zhonghuai X (1980) Determination of the stress tensor from focal mechanism data. Eos Trans AGU 61:1117 (abstract) Frepoli A, Amato A (2000) Spatial variation in stress in peninsular Italy and Sicily from background seismicity. Tectonophysics 317:109–124. doi:10.1016/ S0040-1951(99)00265-6 Gephart JW, Forsyth DW (1984) An improved method for determining the regional stress tensor using earthquake focal mechanism data: application to the San Fernando earthquake sequence. J Geophys Res 89:9305–9320. doi:10.1029/JB089iB11p09305 Giardini A (1993) Teleseismic observation of the November 23 1980, Irpinia earthquake. Ann Geofis XXXVI:17–25. Improta L, Iannaccone G, Capuano P, Zollo A, Scandone P (2000) Inference on the upper crustal structure of the Southern Apennines (Italy) from seismic refraction investigations and subsurface data. Tectonophysics 317:273–297. doi:10.1016/S0040- 1951(99)00267-X Improta L, Bonagura M, Capuano P, Iannaccone G (2003) An integrated geophysical investigation of the upper crust in the epicentral area of the 1980,M= 6.9, Irpinia earthquake (Southern Italy). Tectonophysics 361:139– 169. doi:10.1016/S0040-1951(02)00588-7 Lomax A, Virieux J, Volant P, Thierry BC (2000). Probabilistic earthquake location in 3D and layered models. Kluwer Academic, Dordrecht, pp 101–134 McGarr A, Gay NC (1978) State of stress in the Earth’s crust. Annu Rev Earth Planet Sci 6:405–436. doi:10.1146/annurev.ea.06.050178.002201 McKenzie DP (1969) The relation between fault plane solutions for earthquakes and the directions of the principal stresses. Bull Seismol Soc Am 59:591–601 McKenzie DP (1972) Active tectonics of the Mediterranean region. Geophys J R Astron Soc 30:109–185 Menardi A, Rea G (2000) Deep structure of the Campania–Lucania arc (Southern Apennines, Italy). Tectonophysics 324:239–265. doi:10.1016/S0040-1951 (00)00137-2 Michael AJ (1984) Determination of stress from slip data: faults and folds. J Geophys Res 89:11517–11526. doi:10.1029/JB089iB13p11517 Michael AJ (1987a) Use of the mechanisms to determine stress: a control study. J Geophys Res 92:357–368. doi:10.1029/JB092iB01p00357 Michael AJ (1987b) Stress rotation during the Coalinga aftershock sequence. J Geophys Res 92:7963–7979. doi:10.1029/JB092iB08p07963 Montone P, Amato A, Pondrelli S (1999) Active stress map of Italy. J Geophys Res 104:25595–25610. doi:10.1029/1999JB900181 Pantosti D, Valensise G (1990) Faulting mechanism and complexity of the November 23, 1980, Campania– Lucania earthquake, inferred from surface observations. J Geophys Res 95:15319–15341. doi:10.1029/ JB095iB10p15319 Patacca E, Scandone P (1989) Post-Tortonian mountain building in the Apennines: the role of the passive sinking of a relic lithospheric slab. In: Boriani, Bonafede M, Piccado GB, Vai eGB (eds) The lithosphere in Italy. Acc Naz Lincei 80:157–176 Patacca E, Sartori R, Scandone P (1990) Tyrrhenian basin and Apenninic arc: kinematic relations singe Late Tortonian times. Mem Soc Geol Ital 5:425–451 Podvin P, Lecomte I (1991) Finite difference computation of traveltimes in very contrasted velocity models: a massively parallel approach and its associated tools. Geophys J Int 105:271–284. doi:10.1111/j.1365- 246X.1991.tb03461.x Reasemberg P, Oppenheimer D (1985) Fpfit, Fpplot and Fppage. Fortran computer programs for calculating and displaying earthquake fault-plane solutions. U.S. Geol. Surv., Open-File Report 85–739 Rivera L, Cisternas A (1990) Stress tensor and fault plane solution for a population of earthquakes. Bull Seismol Soc Am 80:600–614 Romeo A, De Matteis R, Pasquale G, Iannaccone G, Zollo A (2007). Crustal structure and stress field for southern Apennines Region from local earthquakes. 24th International Union of Geodesy and Geophysics General Assembly, Perugia, Italy, July 2–13 2007 Roure F, Casero P, Vially R (1991) Growth processes and melange formation in the Southern Apennines accretionary wedge. Earth Planet Sci Lett 102:395–412. doi:10.1016/0012-821X(91)90031-C Tarantola A (1987) Inverse problem theory: methods for data fitting and model parameter estimation. Elsevier, Amsterdam Tarantola A, Valette B (1982) Inverse problems = quest for information. J Geophys Res 50:159–170 Tiberti MM, Orlando L, Di Bucci D, Bernabini M, Parotto M (2005) Regional gravity anomaly map and crustal model of the Central-Southern Apennines (Italy). J Geodyn 40:73–91. doi:10.1016/j.jog.2005. 07.014 Westaway R, Jackson JA (1987) The earthquake of 1980 November 23 in Campania–Basilicata (Southern Italy). Geophys J R Astron Soc 90:375-443 Yamaji A (2000) The multiple inverse method: a new technique to separate stresses from heterogeneous fault-slip data. J Struct Geol 22:441–452. doi:10.1016/S0191-8141(99)00163-7; http://hdl.handle.net/2122/6064Test

الإتاحة: https://doi.org/10.1007/s10950-008-9119-xTest
https://doi.org/10.1111/j.1365-246XTest
http://hdl.handle.net/2122/6064Test

المؤلفون: Montaldo, V., Meletti, C., Stucchi, M., Faccioli, E., Calvi, G., Boschi, E., Di Pasquale, G., Gomez Capera, A. A.

المساهمون: Montaldo, V., Istituto Nazionale di Geofisica e Vulcanologia, Sezione Milano-Pavia, Milano, Italia, Meletti, C., Stucchi, M., Faccioli, E., Politecnico di Milano, Dipartimento di Ingegneria Strutturale, Calvi, G., Università di Pavia, Dipartimento di Meccanica Strutturale, Boschi, E., Istituto Nazionale di Geofisica e Vulcanologia, Sezione AC, Roma, Italia, Di Pasquale, G., DPC, Ufficio Servizio Sismico Nazionale, Gomez Capera, A. A., Istituto Nazionale di Geofisica e Vulcanologia (INGV), Sezione Milano, Milano, Italia

مصطلحات موضوعية: Seismic hazard data, 04. Solid Earth::04.06. Seismology::04.06.11. Seismic risk

العلاقة: 100Th Anniversary Earthquake Conference; CEN (2004). European Committee for Standardisation. Eurocode 8: design of structures for earthquake resistance. Part 1: general rules, seismic actions and rules for buildings, European Standard EN 1998-1: 2004 (stage 51), Brussels, May 2004, 229 pp. Gomez Capera A.A. (2005). Utilizzo dei dati macrosismici per la determinazione dei parametri delle sorgenti sismogenetiche e la valutazione della pericolosità sismica. PhD Thesis, Università degli Studi di Milano-Bicocca, Dipartimento di Scienze Geologiche e Geotecnologie, 120 pp. + 4 Annexes. In Italian. Gruppo di Lavoro MPS (2004). Redazione della mappa di pericolosità sismica prevista dall’Ordinanza PCM 3274 del 20 marzo 2003. Rapporto Conclusivo per il Dipartimento della Protezione Civile, INGV, Milano-Roma, April 2004, 65 pp. + 5 annexes. In Italian. http://zonesismiche.mi.ingv.it/documenti/rapporto_conclusivo.pdfTest Locati M., Meletti C., Rovida A., Rubbia G., Ercoleni E., Meroni F. (2006). A WebGIS tool for dissemination of earthquake data. Geophys. Res. Abs., Vol. 8, 09097.; http://hdl.handle.net/2122/2512Test

الإتاحة: http://hdl.handle.net/2122/2512Test