Φαινόµενα Ρευστοποίησης εδαφών στον Ελληνικό χώρο. Ambraseys, Ν.Ν., Engineering seismology, Int. J. Earthq. Eng. Struct. Dyn. 17, pp.

Ambraseys, Ν.Ν., 1988. Engineering seismology, Int. J. Earthq. Eng. Struct. Dyn. 17, pp. 1-105 Ambraseys, N.N., 2000. The seismicity of the Marmara Sea Area 1800-1899. J. Earthq. Engin., 4, No3, pp.377-401 Ambraseys, N.N., 2001a. The earthquake of 10 July 1894 in the Gulf of Izmit (Turkey) and its relation to the earthquake of 17 August 1999. J. Seismol. 5, pp. 117-128. Ambraseys, N.N., 2001b. The Kresna earthquake of 1904 in Bulgaria. Ann. Geofis. 44 (1), pp. 95-117 Ambraseys, N.N., 2001c. Reassessment of earthquakes, 1900-1999, in the Eastern Mediterranean and the Middle East, Geophys. J. Int. 145, pp. 471-485. Ambraseys, N.N., Finkel C.F., 1987. The Saros-Marmara earthquake of 9 August 1912. Earthq. Engine. Struct. Dyn. 15, pp. 189-211 Ambraseys, N.N., Pantelopoulos, P., 1989. The Fokis (Greece) earthquake of 1 August 1870. J. Eur. Earthq. Eng. 1, pp. 10-18 Ambraseys, N.N., Jackson, J.A., 1990. Seismicity and associated strain of central Greece between 1890 and 1988. Geophys. J. Int. 101, pp. 663-708. Ambraseys, N.N., Finkel, C.F., 1995. The seismicity of Turkey and Adjacent Areas, A historical review, 1500-1800. EREN, Instanbul. 240pp. Ambraseys, N.N., Jackson, J.A., 1997. Seismicity and strain in the gulf of Corinth (Greece) since 1964. J. Earthq. Engin., Vol 1, Νο3, pp. 433-474. Ambraseys, N.N., Adams, R.D., 1998. The Rhodes earthquake of 1926. J. Seismol. 2, pp. 267-292 Ambraseys, N.N., Jackson, J.A., 1998. Faulting associated with historical and recent earthquakes in the Eastern Mediterranean region. Geophys. J. Int. 133, pp. 390-406 Ambraseys, N.N., Jackson, J.A., 2000. Seismicity of the sea of Marmara (Turkey) 312

since 1500, Geophys. J. Int. 141, F1-F6 Andrews, D.C., Martin, G.R., 2000. Criteria for liquefaction of silty sands, In: 12 th World Conference on Earthquake Engineering, Auckland, New Zealand Andrus, R.D., Stokoe, K.H., 1997. Liquefaction resistance based on shear wave velocity, NCEER Workshop on evaluation of liquefaction resistance of soils, Nat. Ctr for earthquake Engrg. Res., Univ. of New York, pp. 89-128 Arango, I., 1996. Magnitude scaling factors for soil liquefaction evaluations, J. Geotech. Engrg., ASCE, 122 (11), pp. 929-936 Athanasopoulos, G., Pelekis, P., Leonidou, E., 1999. Effects of surface topography on seismic ground response in the Egion 15 June 1995 earthquake. Soil dyn. Earthq. Engin. 18, pp. 135-149 Aydan, O., Ulusay, R., Kumsar, H., Tuncay, E., 2000. Site investigation and engineering evaluation of the Duzce-Bolu earthquake of November 12, 1999. Turkish Earthquake Foundation, Instanbul. Report No. TDV/DR 09-51, 307pp. Barbiani, D.G., Barbiani, B.A., 1864. Memoire sur les tremblement de terre dans l'ile de Zante. Presented by A. Perrey in Ac. Imp. De Sciences, 1-112, Dijon Bardet, J.P., Mace, T., Tobita, T. and Hu, J., 1999. Large scale modelling of liquefaction-induced ground deformation Part I: A four-parameter MLR model, Proc. of the 7 th U.S-Japan Workshop on Earthquake Resistant design of lifelines facilities and Countermeasures against soil liquefaction, Technical Report No. MCEER-00-0019, Mid-America Center for Earthquake Engineering Research, Buffalo, New York. Bartlett, S.F., Youd, T.L., 1992. Empirical analysis of horizontal ground displacement generated by liquefaction-induced lateral spreads, Technical report NCEER- 92-0021, State University of New York at Buffalo. Βουδούρης, Κ., 2004. Στατιστική ανάλυση δεδοµένων στην εφαρµοσµένη και περιβαλλοντική γεωλογία, Εκπαιδευτικές σηµειώσεις Τµήµατος Γεωλογίας, Α.Π.Θ., Θεσσαλονίκη, 102 σελ. Boulanger, R.W., Idriss, I.M., Mejia, L.H, 1995. Investigation and evaluation of liquefaction related ground displacements at Moss Landing during the 1989 313

Loma Prieta Earthquake, Report No UCD/CGM-95/02, Center for Geotechnical Modeling, Department of Civil & Environmental Engineering, Univ. of California Davis Boulanger, R.W., Idriss, I.M., 2004. Evaluating the potential for liquefaction or cyclic failure of silts and clays, Rep. No. UCD/CGM-04/01, Univ. Davis, California, USA, 131 p. Bray, J.D., Sancio, R.B., Durgunoglu, H.T., Onalp, A., Seed, R.B., Stewart, J.P., Youd, T.L., Baturay, M.L., Cetin, K.O., Christensen, C., Karadayilar, T., Emrem, C., 2001. Ground failure in Adapazari, Turkey. Proc. Of earthquake Geot. Eng. Sat. conf of the XVth Int Conf on Soil Mechanics & Geot Eng, Instanbul, Turkey, August 24-25 Bray, J.D., Sancio, R.B., Youd, T.L., Durdunoglou, H.T., Onalp, A., Cetin, K.O., Seed, R.B., Stewart, J.P., Christensen, C., Baturay, M.B., Karadayilar, T., Emrem., C., 2001b. Documenting Incidents of Ground Failure Resulying from the August 17, 1999 Kocaeli, Turkey Earthquake: Data Report Characterizing Subsurface Conditions, 588 p. Chatzipetros, Al., Pavlides, Sp., Mountrakis, D., 1988. Understanding the 13 May 1995 western Macedonia earthquake.: A paleoseismological approach, J. Geodynamics, 26, pp. 327-339 CDMG, 1999. Guidelines for analyzing and mitigating liquefaction hazards in California, California Department of Conservation, Division of Mines and Geology, Special Publication 117, p. 63 Cetin, K.O., Seed, R.B., 2000. Earthquake induced nonlinear shear mass participation factor (rd), Geotech. Eng. Report No UCB/GT-2000/08, Univ. of California, Berkeley, USA Cetin, K.O., Seed, R.B., Moss, R.E.S., Der Kiureghian, A., Tokimatsu, K., Harder, Jr., LF., Kayen, R.E., 2000. Field case histories for SPT-based in-situ liquefaction potential evaluation. Report No: UCB/GT-2000/09. Univ. of California at Berkeley, 69 p. Cetin, K.O., Der Kiureghian, A., Seed, R.B., 2002. Probabilistic models fort he iniation of seismic soil liquefaction, Structural safety, Vol. 24, pp. 67-82 314

Christaras, B., Dimitriou, An., Lemoni, E., 1998. Soil quality as a factor of the distribution of damages at the meizoseismal area of the kozani-grevena 1995 earthquake, in Greece (Ms=6.6). J. Geodyn. 26, (2-4), pp. 393-411. Cooke C.H, Mitchell, K.J., 1999. Guide to Remedial Measures for Liquefaction Mitigation at Existing Highway Bridge Sites, Technical report MCEER-99-0015, Virginia Polytechnic Institute and State University, Blacksburg, Virginia Crespelliani, T., Madiai, C., Vannucchi, G., 1999. Zoning for liquefaction risk in an Italian coastal town, Earthquake Geotech. Eng., Balkema, Rotterdam, pp. 561-566 Critikos, N., 1916. L'ile de Leucade et ses sismes du 23 et 27 Novembre 1914. Ann. Obs. Nat. Athen. 7, pp. 62-81. Davis, R.O. Berrill, J.B., 1984. Discussion of Comparison of Liquefaction Theory with field observations, Geotechnique. Vol. 34, No.4, pp. 627-629 EAK, 2000. Ελληνικός Αντισεισµικός Κανονισµός, ΟΑΣΠ, Αθήνα, 72 σελ και 7 Παραρτήµατα Elgamal, A.-W.M., Dobry, R. Adalier, K., 1989. Study of effect of clay layers on liquefaction of sand using small-scale models. In T.D. O'Rourke and M. Hamada (Editors), Proceedings from the Second US-Japan Workshop on Liquefaction, Large Ground Deformation and Their Effects on Lifelines. State University of New York at Buffalo, National Center for Earthquake Engineering Research, Technical Report NCEER-89-0032, pp. 233-245. Γαλανόπουλος, Γ.Α., 1941. Η σεισµικότης της Μεσσηνίας, ιατριβή επί Υφηγεσία, Αθήνα Galanopoulos, G.A., 1941. Das erdbeben von Messenien vom 22 Januar 1899, Ανάτυπο Πρακτικών Ακαδηµίας Αθηνών, XVI, 1941, pp. 27 Galanopoulos, G.A., 1949. The Koroni (Messinia) earthquake of October 6, 1947. Bull. Seismol. Soc. Am. 39, pp. 33-39. Γαλανόπουλος, Γ.Α., 1955. Σεισµική γεωγραφία της Ελλάδας, Γεωλογικά Χρονικά Ελληνικών Χωρών, 6, σελ. 83-121 315

Γαλιατσάτος, Μ., 1959. Στις ώρες των σεισµών της Κεφαλονιάς, Αθήνα, 56 σελ. Galli, P., 2000. New empirical relationships between magnitude and distance for liquefaction, Tectonophysics, 324, pp. 169-187. Γεωργαλάς Γ.Κ., 1928. Οι σεισµοί της Κορίνθου του 1928., Αθήνα, σελ. 32-103. Γεωργαλάς Γ.Κ., 1962. Περί του καταποντισµού της αρχαίας Αχαϊκής πόλεως Ελίκης. Πρακτικά Ακαδ. Αθηνών, 37, σελ. 232-247 Guidoboni, E., Comastri, A., Traina, G., 1994. Catalogue of Ancient earthquakes in the Mediterranean Area Up to 10th Century. ING-SGA, Bologna 504 pp. Fear, C.E., McRoberts, E.C., 1995. Report on liquefaction potential and catalogue of case records, Internal Res. Rep., Univ. of Alberta, Canada. Hamada, M., Yasuda, S., Isoyama, R., and Emoto, K., 1986. Study on liquefaction induced permanent ground displacement, Report for the Association for the development of earthquake prediction. Hoernes, R. 1902. Das erdbeden von Saloniki am 5, Juli, 1902. Kaiserl. Akademie der Wissenschaften in Wien, pp. 1-91 Holzer, T.L. Bennett, M.J., Noce, T.E., Padovani, A.C., Tisnley, J. C. III., 2002. Liquefaction hazard and shaking amplification mpas of Alameda, Berkeley, Emeryville, Oakland, and Piedmont, California: A digital database. U.S. Geological Survey Open File Rep. 02-296 (version 1.0), U.S. Geological Survey, Menlo Park, Calif., (http://geopubs.wr.usgs.gov/open-file/of02-296) Hosseini, S.M.M.M., 1998. Micozonation for liquefaction Busehr, Iran, Proc. 11th European Conf. on Earthquake Engineering, Paris, pp. 1-9 Hynes, M.E., Olsen, R.S., 1999. Influence of confining stress on liquefaction resistance, Proc. Int. Workshop on Phys. and Mech. Of soil liquefaction, Balkema, Rotterdam, pp. 145-152 ΙΓΜΕ, 1983. Γεωλογικός χάρτης της Ελλάδας, σύνταξη: Μπορνόβας Ιωαν., Ροντογιάννη-Τσιαµπάου Θ., εύτερη Έκδοση, Αθήνα Idriss, I.M., 1999. An update to the Seed-Idriss simplified procedure for evaluating liquefaction potential, Proc., TRB workshop on new approaches to 316

liquefaction, Publication No. FHWA-RD-99-165, Federal Highway Administration Idriss, I.M., Boulanger, R.W., 2006. Semi empirical procedures for evaluating liquefaction potential during earthquakes, Soil Dynamics and earthquake engineering, Vol. 26, pp. 115-130 Ishihara, K., 1985. Stability of natural soils during earthquakes, Proc. 11 th Int. Con. On Soil Mechanics and Foundation Engineering, San Francisco, Vol. 1, A.A. Balkema, Rotterdam, pp. 321-376 Ishihara, K., Yoshimine, M., 1992. Evaluation of settlements in sand deposits following liquefaction during earthquakes, Soils and Foundations, Vol. 32, No. 1, pp. 29-44 ITΣAK, 2003. Ο σεισµός της Λευκάδας 14.08.2003. Προκαταρκτική έκθεση των συνεπειών του σεισµού στο δοµηµένο και µη περιβάλλον, 61 σελ. Iyisan, R., 1996. Correlations between shear wave velocity and in-situ penetration test results. Technical Journal of Turkish Champer of Civil engineering, 7(2), 1187-1199. Iwasaki, T., Tatsuoka, F., Tokida, K., Yasyda, S., 1978. A practical method for assessing soil liquefaction potential based on case studies at various sites in Japan, Proc. 2 nd Int. Conf. on Microzonatin, San Francisco, Vol 2, pp. 885-896 Iwasaki, T. Tokida, K., Tatsuoka, F., Watanabe, S., Yasuda, S., Sato, H., 1982. Microzonation for soil liquefaction potential using simplified methods, Proc., 3 rd Int. Conf. on microzonation, Seattle, Vol. 3, pp. 1310-1330 Iwasaki, T., 1986. Soil liquefaction studies in Japan: state-of-the-art. Soil Dyn. Earthquake Eng., 5 (1), pp. 1-71 Juang, Hsein, C., Jiang, T., Andrus, R., 2002. Assessing probability-based methods gor liquefaction potential evaluation, J. of Geotech. And Geoenvironmental Eng., Vol 128, No 7, pp. 580-589 Καλλίνικος, Π., 2001. Επτανησιακά σύµµεικτα. 2 η Έκδοση, Εκδόσεις ρόµος, σελ. 137-157 Καµπούρης, Ζ., 1978. Θεοµηνίες στη Λέσβο το 19 ο αιώνα, 75 σελ., Μυτιλήνη 317

Καρλής,., 2003. Πολυµεταβλητή στατιστική ανάλυση, Οικονοµικό Πανεπιστήµιο Αθηνών, Τµήµα Στατιστικής, Εκδόσεις Οικονοµικού Πανεπιστηµίου Αθηνών, 313 σελ. Kayen, R.E., Mitchell, J.K., Seed, R.B., Lodge, A., Nishio, S., Coutinho, R., 1992. Evaluation of SPT, CPT, and shear wave based methods for liquefaction potential assessment using Loma Prieta data, Proc. 4 th Japan-US Workshop on Earthquake-Resistant Des. Of Lifeline fac. And Countermeasures for soil liquefaction, Vol 1, pp. 177-204 ΚΕ Ε, 2004. Αποτελέσµατα γεωτεχνικής έρευνας στο νησί της Λευκάδας για την αξιολόγηση των ζηµιών από το σεισµό της 14-08-2003, ΥΠΕΧΩ Ε, Αθήνα Kociaj, S., Sulstarova, E., 1980. The earthquake of June 1, 1905, Shkodra, Albania; Intensity distribution and macroseismic epicentre. Tectonophysics, 67, pp. 319-332, Kociu, S., 1995. Induced seismic impact's assesment in coastal area of Albania (Seismological Institute of Albania, internal report) Koester, J.P., 1992. The influence of test procedure on correlation of Atterberg Limits with liquefaction in fine-grained soils, Geotechnical testing Journal, ASTM, Vol. 15, 4, pp. 352-361 Κούκης, Γ., Ρόζος,., 1982. Γεωλογικά και γεωτεχνικά στοιχεία των σεισµών Φεβρουαρίου Μαρτίου 1981 στον Κορινθιακό κόλπο. Πρακτικά Ακαδ. Αθηνών, 57, σελ. 406-421. Κούκης, Γ., Σαµπατάκης., 2002. Τεχνική Γεωλογία, Εκδόσεις Παπασωτηρίου, 515 σελ. Kramer, S.V., 1996. Geotechnical Earthquake Engineering. Practice Hall, New Jersey. 653pp. Κρεατσάς, Κ., 1952. Οι σεισµοί της Χίου της 21 ης Μαΐου και 23 Ιουλίου 1949, Πρακτικά Ακαδηµίας Αθηνών, 27, σελ. 329-340 Kuribayashi, E., Tatsuoka, F., 1975. Brief review of liquefaction during earthquakes in Japan. Soils and foundations 15, pp. 81-92. Λάµπρος, Σπ., 1910. Νέος Ελληνοµνήµων, 7, Αθήνα 318

Λέκκας, E., 1991. Μακροσεισµικές παρατηρήσεις µετά τον σεισµό της 16 ης Οκτωβρίου 1988 στην χερσόνησο της Κυλλήνης (Β Πελοπόννησος Ελλάδα). ελτίο Ελληνικής Γεωλογικής Εταιρείας, XXV/3, σελ. 313-328 Lekkas, E., 1994. Liquefaction-risk zonation and urban development at western peloponnesus. Proc. 7th Int. IAEG Cong. Λεµονή, Ελ., 2000. Φαινόµενα ρευστοποίησης εδαφών, Εργασία στα πλαίσια του ΜΠΣ του Τµήµατος Γεωλογίας του ΑΠΘ, σελ. 88 Liao, S., Whitamn, RV., 1986. Overbuden correction factor for SPT in sand, J. Geotech. Eng., ASCE, 114 (4), pp. 389-411 Liao, S., Veneziano, D., Whitman, R.V., 1988. Regression models for evaluating liquefaction probability, J. of Geotech. Engrg, Vol. 114, No. 4, pp. 389-409 Liu, H., Qiao, T., 1984. Liquefaction potential of saturated sand deposits underlying foundation of structure, Proc. 8 th World Conference on Earthquake Engineering, San Francisco, Vol. 3, pp. 199-206 Liu, Y., Xie, J.F. 1984. Seismic liquefaction of sand, Earthquake Press, China (in Chinese) Λυµούρης, Α., 2001. Οι σεισµοί στη Ζάκυνθο, Εκδόσεις Περίπλους, 156 σελ. Luna, R., Frost, D.J., 1998. Spatial liquefaction analysis system, J. Comput. Civ. Enf, Vol 12, No 1, pp. 48-56 Midorikawa, S., 1987. Prediction of Isoseismal Map in Kanto plain due to Hypothetical earthquake, Journal of structural dynamics, 33b, pp. 43-48 Μαραβελάκης, Μ.Ι., 1932. Οι γεωλογικοί και µακροσεισµικοί χαρακτήρες των σεισµών της Χαλκιδικής (Σεπτέµβριος 1932), Θεσσαλονίκη, σελ. 12-33. Μαραβελάκης, Μ.Ι., 1941. Μακροσεισµική σπουδή των σεισµών Κατερίνης, ηµοσιεύµατα της εταιρείας Μακεδονικών Σπουδών, Μακεδονική Βιβλιοθήκη, 9 σελ. Μαραβελάκης, Μ.Ι., 1943. Γεωλογική και µακροσεισµική σπουδή του ερηµωτικού σεισµού της Λαρίσης της 1 ης Μαρτίου 1941, Τριακονταπενταετηρίδα του καθηγητού Ν. Κρητικού 1907-1942, 27, σελ. 176-193 Μητσόπουλος, Κ., 1895. Ο µέγας της Λοκρίδος σεισµός κατά Απρίλιον του 1894, 27 319

σελ. Moss, R., 2003. CPT-based probabilistic assessment of seismic soil liquefaction initiation, Dissertation thesis, Univ. of California Berkeley, Noble, S.K., Youd, T.L., 1998. Probabilistic evaluation of soil liquefaction resistance, Master of Science thesis, Brigham University, 77 p. Norusis, J., M., 2003. SPSS 12.0 Statistical Procedures Companion, Prentice Hall, New Jersey, 614 p. Obermeier, S.F., 1996. Using liquefaction-induced features for paleoseismic analysis - an overview of how seismic liquefaction features can be distinguished from other fatures and how their regional distrinution and properties of source sediment can be used to infer the location and strength of Holocene paleoearthqukaes, Engineering Geology, 44, pp. 1-76 Obermeier, S.F., Olson, M.S., Green, A.R., 2005. Filed occurrences of liquefactioninduced features: a primer for engineering geology analysis of paleoseismic shaking, Engineering Geology, 76, pp. 209-234 Papadopoulos, G., 1993. The 20 March 1992 South Aegean, Greece, earthquake (Ms=5.3): possible anomalous effects. Terra Nova 5, pp. 399-404. Papadopoulos, A.G., Profis, Th., 1990. Macroseismic observations related with the strong shock of October 16th, 1988, in NW Peloponnesus Greece: the important role of the microzonation conditions, J. Geodyn. 12, pp. 217-231. Papadopoulos, A.G., Lefkopoulos, G., 1993. Magnitude distance relation for liquefaction in soil from earthquakes, Bull. Seism. Soc. Am. 83, (3), pp. 925-938. Papadopoulos, A.G., Plessa, A., 2000. Magnitude-distance relations for earthquakeinduced landslides in Greece, Eng. Geol. 58, pp. 377-386 Παπασταµατίου,., Μουγιάρης, Ν., 1986. Ο σεισµός των Σοφάδων της 30 ης Απριλη 1954 Παρατηρήσεις υπαίθρου του Γιάννη Παπασταµατίου, ΙΓΜΕ, Γεωλ. Και Γεωφυσικές Μελέτες, σελ. 341-362 Παπαθανασίου, Γ., Παυλίδης, Σπ., Χρηστάρας, Βας., Πιτιλάκης, Κυρ., 2004. Φαινόµενα ρευστοποίησης που προκλήθηκαν από το σεισµό της Λευκάδας 320

(14/08/2003, Μs=6.4, ( Πρακτικά 10 ου Παν. Συν. Ελληνικής Γεωλογικής Εταιρείας, Θεσσαλονίκη, 15-17 Απριλίου, σελ. 1796-1805 Papathanassiou G., Pavlides S., Christaras B. & Pitilakis K., 2005a. Liquefaction case histories and empirical relations of earthquake magnitude versus distance from the broader Aegean Region. Journal of Geodynamics, 40, pp.257-278 Papathanassiou, G., Pavlides, S., Ganas, A., 2005b. The 2003 Lefkada earthquake : field observation and preliminary microzonation map based on liquefaction potential index for the town of Lefkada, Engineering Geology, 82, pp. 12-31 Papatheodorou, G., Ferentinos, G., 1997. Submarine and coastal sediment failure triggered by the 1995, M s =6.1 Aegion earthquake, Gulf of Corinth, Greece. Marine Geology, 137, pp. 287-304. Παπαζάχος, Βασ., Παπαζάχου, Κ., 1989. Οι σεισµοί της Ελλάδας, Εκδόσεις Ζήτη, Θεσσαλονίκη, 356pp. Papazachos, B.C., Papazachou, K., 1997. The earthquakes of Greece, Ziti Publ., Thessaloniki, 304 pp. Papazachos, B.C., Comninakis, P.E., Karakaisis, G.F., Karakostas, B.G., Papaioannou, Ch.A., Papazachos, C.B., Scordilis, E.M., 2000. A catalogue of earthquakes in Greece and surrounding area for the period 550BC-1999, Publ. Geoph. Lab., Univ. of Thessaloniki, 1, 333 pp. Papazachos, B.C., Karakostas, V.G., Kiratzi, A.A, Margaris, B.N., Papazachos, C.B., Scordilis, E.M., 2002. Uncertainties in the estimation of earthquake magnitudes in Greece, J. Seismology. 6, pp. 557-570. Παπαζάχος, Βασ., Παπαζάχου, Κ., 2003. Οι σεισµοί της Ελλάδας, Εκδόσεις Ζήτη, Θεσσαλονίκη, 286 σελ.. Partsch, J., 1892. Κεφαλληνία και Ιθάκη, Γεωγραφική Μονογραφία, σελ. 68-78 Pavlides, S., Syrides, G., 1997. Field trip to Mygdonia basin. 29 th Gen. Assembly IASPEI, 18-28 August 1997, Guide booklet, 45pp. Pavlides, S., Caputo, R., 2004. Magnitude versus faults surface parameters: quantitative relationships from the Aegean Region, Tectonophysics, 380, pp. 159-188 321

Pease, J.W., O Rourke, T.D., 1995. Liquefaction hazards in the San Francisco Bay region: Site investigation, modelling and hazard assessment at areas most seriously affected by the 1989 Loma Prieta earthquake: final report submitted to the U.S Geological Survey, Cornell Univ., School of Civil and Environmental Engineering, Ithaca, NY, 176 pp. Petrovski, J., Paskalov, Tr., 1980. The Montenegro, Yogoslavia earthquake of April 15, 1979. Pub. Instit. Earthq. Engine. Engine. Seismol. No.65 Πιτιλάκης Κ., Αργυρούδης, Σ., 2004. Προσδιορισµός µόνιµων εδαφικών µετακινήσεων, ΑΣΤΕ05: Αντισεισµιός σχεδιασµός θεµελιώσεων, αντιστηρίξεων και γεωκατασκευών, Α.Π.Θ., 27 σελ. Port and Harbour Institute, 1997. Handbook on Liquefaction remediation of reclaimed land, Balkema, Rotterdam, The Netherlands, 312 p. Olson, S.M., 2001. Liquefaction analysis of level and sloping ground using field case histories and penetration resistance, Dissertation thesis, Univ. of Illinois, 547 pp. Rauch, A.F., Martin II, J.R., 2000. EPOLLS Model for predicting average displacements on lateral spreads, Journal of Geotechnical and Geoenvironmental Engineering, Vol 126, No.4, pp. 360-371 Rauch, A.F., Martin II, J.R., 2001. Prediction the Maximum and distribution of displacements on liquefaction induced lateral spreads, Proc. 4 th Int. Conf. Recent advances in Geot. Earthquake Engineering and Soil Dynamics, San Diego, California Rix, G.J., 2002. Liquefaction susceptibility mapping in Mephis / Shelby County, TN, Program Element: CU-I, 10 p. Robertson, P.K. Wride, C.E., 1998. Evaluating cyclic liquefaction potential using the cone penetration test, Can. Geotech. J., 35 (3), pp. 442-459 Ροντογιάννης Π., 1995. Σεισµολόγιο της Λευκάδος, Επετηρίς, Ετ. Λευκ. Μελ., Τοµ. Η, σελ.151-205, Αθήνα Sancio, R.B., Bray, J.D., Stewart, J.P., Youd, T.L., Durgunoglu, H.T., Onalp, A., Seed, R.B., Christensen, C., Baturay, M.L., Karadayilar, T., 2002. Correlation 322

between ground failure and soil condition in Adapazari, Tureky, Soil dynamics and Earthquake Engineering, 22, pp. 1093-1102 Sancio, R.B., Bray, J.D., Riemer, M.F., Durgunoglu, H.T., 2003. An assessment of the liquefaction susceptibility of Adapazari Silt, Paper 172, Pacific Conf on Eartqhuake Engineering, Proceedings, New Zealand Schmidt, J., 1867a. Πραγµατεία περί του γενοµένου τω 1861ω εκεµβρίω 26 η (14 η ), 52 σελ. Αθήνα Schmidt, J., 1867b. Πραγµατεία περί του γενοµένου τω 1867ω Γενάρη 23 η, Αθήνα, σελ. 30 Seed, H.B., 1983. Earthquake resistant design of earth dams, Proc. Symp. Seismic Des. Of earth dams and caverns, ASCE, New York, pp. 41-64 Seed, R.B., 1991. Liquefaction manual, Course notes for CE 275: Geotechnical Eatrthquake Engineering, College of Engineering, University of California, Berkeley. Seed, H.B., Idriss, I.M., 1971. Simplified Procedure for evaluation Soil liquefaction potential, J. Soil Mech. Found. Div., ASCE, 97 SM9, pp. 1249-1273 Seed, H.B., Idriss, I.M., 1982. Ground motion and soil liquefaction during earthquakes, monograph, EERI, Oakland, Ca, 134 pp. Seed, H.B., Tokimatsu, K., Harder, L.F., Chung, R.M., 1984. The influence of SPT procedures in soil liquefaction resistance evaluations, Report No. EERC84-15, Univ. of Calf., Berkeley, 50 pp. Seed, H.B., Tokimatsu, K., Harder, L.F., Chung, R.M., 1985. The influence of SPT procedures in soil liquefaction resistance evaluations, J. Geotech. Engrg, ASCE, 111 (12), pp. 1425-1445 Seed, R.B., Cetin, O.K., Moss, R.E.S., Kammerer, A.M., Wu, J., Pestana, J.M., Riemer, M.F., Sancio, R.B., Bray, J.D., Kayen, R.E., Faris, A., 2003. Recent advances in soil liquefaction engineering: a unified and consistent framework, 26 th annual ASCE L.A. Geot. Spring Sem., Long Beach, California, April 30, 71 pp. Skarlatoudis, A.A., Papazachos, C.B., Margaris B.N., Theodoulidis, N., Papaioannou, 323

Ch., Kalogeras, I., Skordilis, E.M., Karakostas, V., 2003. Empirical Peak ground-motion predictive relations for shallow earthquakes in Greece, Bull. Seism. Soc. Am., 96 (6), pp. 2591-2603 Skempton, A.K., 1986. Standard penetration test procedures and the effects in sand of overburden pressure, relative density, particle size, aging and overconsolidation, Geotechnique, 36 (3), pp. 425-447 Sonmez, H., 2003. Modification of the liquefaction potential index and liquefaction susceptibility mapping for a liquefaction-prone area (Inegol, Turkey), Env. Geology, 44, 862-871 Σπυρόπουλος., 1997. Χρονικό των σεισµών στην Ελλάδα από την αρχαιότητα έως σήµερα, Αθήνα Ιωάννινα, Εκδόσεις ωδώνη, σελ. 453 Stewart, J.P., 2003. Documentation of soil conditions at liquefaction sites from 1999 Chi Chi (Taiwan) earthquake, PEER Lifelines Project 3A02, UCLA Σταµατέλος, Ν.Ι., 1870. Αι δεκατρείς µνηµονευόµεναι καταστροφαί της Λευκάδος από του 1612 µέχρι του 1869. Εφηµερίς των Φιλοµαθών, αριθ. 726. Tasdemiroglu, M., 1971. The 1970 Gediz earthquake in Western Anatolia, Turkey. Bull. Seism. Soc. Am., 61, pp. 1507-1527 Terzaghi, K., Pech, R., 1967. Soil mechanics in engineering practice, 2 nd edition, John Wiley and sons, New York, 729p. Τίκα Θ.Ε., Πιτιλάκης Κ.., Αναγνωστόπουλος Χ.Τ., Πετράκις Ν.Ε., Κούγκουλος Μ.Β., 1997. Αστοχία λόγω ρευστοποίησης στο ανάχωµα της γέφυρας Ρυµνίου κατά τον σεισµό Κοζάνης-Γρεβενών, 3ο Παν. Συνέδριο Γεωτεχνικής Μηχανικής, σελ. 543-550 Tokimatsu, K., Seed, H.B., 1987. Evaluation of settlements in sands due to earthquake shaking, Journal of the Geotechnical Engineering Division, ASCE, Vol 113, No.8 Toprak, S., Holzer, T.L., Bennett, M.J., Tinsley, J.C., 1999. CPT and SPT-based probabilistic assessment of liquefaction potential, Proc. 7 th US-Japan workshop on earthquake resistant design of lifeline facilities and countermeasures against liquefaction, MCEER-99-0019, pp. 69-86 324

Toprak, S., Holzer, T.L., 2003. Liquefaction Potential Index: Field Assessment, J. of Geotech. And Geoenvironmental Eng., Vol 129, No 4, pp. 315-322 Tosun, H., Ulusay, R., 1997. Engineering geological characterization and evaluation of liquefaction susceptibility of foundation soils at a dam site, southwest Turkey, Env., Eng., Geosci., 3,(3), 389-409 Τσατσανίφος, Χρ., 1987. Ο σεισµός της 9 ης Ιουλίου 1980 στη Μαγνησία., Πρακτικά Ηµερίδας ΤΕΕ Τµ. Μαγνησίας, Η σεισµικότητα στο Ν. Μαγνησίας, 25-5-87, Βόλος, 23 σελ Tsuchida, H., 1971. Estimation of liquefaction potential of sandy soils, In: Proc. 3 rd Joint Meeting, US-Japan, UNJR Ulusay, R., Kuru, T., 2004. 1998 Adana-Ceyhan (Turkey) earthquake and a preliminary Microzonation based on liquefaction potential for Ceyhan town, Natural Hazards, 32, 59-88 Ulusay, R., Aydan, O., Erken, A., Tuncay, E., Kumsar, H., Kaya, Z., 2004. An overview of geotechnical aspects of the Cay-Eber (Turkey) earthquake, Eng. Geol. 73, pp. 51-70. Utsu, T., 2002. Relationships between Earthquake Magnitude Scales, International Handbook of Earthquake and Engineering Seismology, Part A, CD 1, IASPEI, Academic Press. Youd, T.L., 1977. Brief review of liquefaction during earthquakes in Japan, discussion, Soils and Foundation 17, pp. 82-85. Youd, T.L., 1984α. Reccurence of liquefaction at the same site, Proc 8 th World Conf on Earthquake Engineering, Vol. 3, pp. 231-238 Youd, T.L., 1984β. Geological effects Liquefaction and associated ground failures, Proc. Geologic and Hydrologic Hazards Training Program, Open File report 84-760, USGS, Menlo Park, California, pp. 210-232 Youd, T.L., 1993. Liquefaction-induced lateral spread displacement, Report TN-1862, Naval Civil Engineering Laboratory, Port Hueneme, California, 44 pp. Youd, T.L., 1998. Screening guide for rapid assessment of liquefaction hazard at highway bridge site, Technical report MCEER-98-0005, 58 pp. 325

Youd, T.L., Garris, C.T., 1995. Liquefaction induced ground surface disruption. ASCE Journal of Geotechnical Engineering, 121 (11), pp. 805-809 Youd, T.L., Idriss, I.M., 1978. Mapping of liquefaction induced ground failure potential, J. of the Geotech Eng Div., ASCE, Vol. 117, No 1, pp. 35-50 Youd, T.L., Idriss, I.M., 1987. Mapping of liquefaction severity index, J. of the Geotech Eng, ASCE, Vol 113, No 11, pp. 1374-1392 Youd, T.L., Idriss, I.M., eds, 1997. Proceeding of the NCEER Workshop on evaluation of liquefaction resistance of soils, National Center for earthquake engineering research technical report, NCEER 97 0022, 276 p. Youd, T.L., Idriss, I.M., 2001. Liquefaction resistance of soils: summary report from the 1996 NCEER and 1998 NCEER/NSF workshops on evaluation of liquefaction resistance of soils, J. Geotec. Geoenv. Eng., 817-833 Youd, T.L., Noble, S.K., 1997. Magnitude scaling factors, Proc. NCEER Workshop on Evaluation of Liquefaction Resistance of soils, Nat. Ctr. For earthquake Engrg. Res. State Univ. of New York, pp. 149-165 Youd, T.L., Perkins, D.M., 1978. Mapping of liquefaction induced ground failure potential, J. Geotechnical Engineering Division, Am. Soc. Civ. Engrg., Vol 104, 4, pp. 433-446 Youd, T.L., Perkins, D.M., 1987. Mapping of Liquefaction Severity Index, Journal of Geotechnical Engineering, ASCE, Vol. 113, No 11, pp. 1374-1392 Youd, T.L., Hansen, C.M., and Bartlett, S.F., 2002. Revised MLR equations for prediction of lateral Spread displacement, Journal of Geotechnical and Geoenvirnomental Engineering, ASCE, Vol. 128, No.12, pp. 1 7-1017 Youd, T.L., Bardet, J.P., Bray, J.D., 2000. Kocaeli Turkey Earthquake of August 17, 1999 reconnaissance report. In: Youd, T.L., Bardet, J-P., Bray, J.D (Eds.), Earthquake, A (16), EERI 2000-03, 439pp. Youd, T.L., Idriss, I.M., Andrus, R.D., Arango, I., Castro, G., Christian, J.T., Dobry, R., Finn, W.D.L., Harder, L.F., Hynes, M.E., Ishihara, K., Koester, J.P., Liao, S.S.C., Marcurson, III WF, Marti, G.R., Mitchell, J.K., Moriwaki, Y., Power, M.S., Robertson, P.K., Seed, R.B., Stokoe II K.H. 2001. Liquefaction resistance of soils: summary report from the 1996 NCEER and 1998 326

NCEER/NSF workshops on evaluation of liquefaction resistance of soils, J. Geotec. Geoenv. Eng., 817-833 Wakamatsu, K., 1993. History of Soil liquefaction in Japan and Assessment of Liquefaction Potential based on Geomorphology, A Thesis in the Department of Architecture Presented in Partial Fulfillment of the Requirements for the Degree of Doctor of Engineering, Waseda Univ. Tokyo, Japan, 245pp. Wang, W., 1979. Some findings in soil liquefaction, Research report, water conservancy and hydroelectric power scientific research institute, Beijing, August. Wu, J., 2003. Liquefaction triggering and post liquefaction deformation of Monterey 0/30 sand under unidirectional cyclic simple shear loading, dissertation in partial fulfillment for the degree of doctor of philosophy, University of California, Berkeley Ζέρβας, Σπ., 1987. Σχέση µεταξύ του εδάφους θεµελιώσεως και των καταστροφικών αποτελεσµάτων των σεισµών. Ερµηνεία της σεισµικής επικινδυνότητας βασισµένη στις φυσικοχηµικές συνθήκες των αργίλων, ελτ. Ελλην. Γεωλ. Ετ., ΧΙΧ, σελ. 165-175 327