Building a three dimensional model of the active Plio-Quaternary basin of Argostoli (Cephalonia Island, Greece): An integrated geophysical and geological approach

[1]  D. Clouteau,et al.  A holistic approach of numerical analysis of the geology effects on ground motion prediction: Argostoli site test , 2020, Journal of Seismology.

[2]  Matteo Albano,et al.  Insights into bedrock paleomorphology and linear dynamic soil properties of the Cassino intermontane basin (Central Italy) , 2020, Engineering Geology.

[3]  L. Podestá,et al.  Geophysical Study and 3-D Modeling of Site Effects in Viña del Mar, Chile , 2019, Earthquake Spectra.

[4]  F. Lopez-Caballero,et al.  Main Achievements of the Multidisciplinary SINAPS@ Research Project: Towards an Integrated Approach to Perform Seismic Safety Analysis of Nuclear Facilities , 2019, Pure and Applied Geophysics.

[5]  P. Bard,et al.  Wavefield Characteristics and Spatial Incoherency: A Comparative Study from Argostoli Rock‐ and Soil‐Site Dense Seismic Arrays , 2018, Bulletin of the Seismological Society of America.

[6]  S. Stiros,et al.  The 2014 Cephalonia Earthquakes: Finite Fault Modeling, Fault Segmentation, Shear and Thrusting at the NW Aegean Arc (Greece) , 2018, Pure and Applied Geophysics.

[7]  P. Bard,et al.  The ARGONET (Greece) Seismic Observatory: An Accelerometric Vertical Array and Its Data , 2018, Seismological Research Letters.

[8]  J. Regnier,et al.  Characterization of site conditions (soil class, VS30, velocity profiles) for 33 stations from the French permanent accelerometric network (RAP) using surface-wave methods , 2018, Bulletin of Earthquake Engineering.

[9]  Dario Albarello,et al.  Guidelines for the good practice of surface wave analysis: a product of the InterPACIFIC project , 2018, Bulletin of Earthquake Engineering.

[10]  M. Agate,et al.  Seismo-stratigraphic model of “La Bandita” area in the Palermo Plain (Sicily, Italy) through HVSR inversion constrained by stratigraphic data , 2018 .

[11]  N. Theodoulidis,et al.  Basin effects on ground motion: the case of a high-resolution experiment in Cephalonia (Greece) , 2018, Bulletin of Earthquake Engineering.

[12]  P. Bard,et al.  Accelerometer, Velocimeter Dense‐Array, and Rotation Sensor Datasets from the Sinaps@ Postseismic Survey (Cephalonia 2014–2015 Aftershock Sequence) , 2018 .

[13]  P. Bard,et al.  Analysis of rotation sensor data from the SINAPS@ Kefalonia (Greece) post-seismic experiment—link to surface geology and wavefield characteristics , 2017, Earth, Planets and Space.

[14]  N. Voulgaris,et al.  Seismic site characterization at the western Cephalonia Island in the aftermath of the 2014 earthquake series , 2017, International Journal of Geo-Engineering.

[15]  Panagiotis Kotronis,et al.  Toward an integrated seismic risk assessment for nuclear safety improving current French methodologies through the SINAPS@ research project , 2017 .

[16]  P. Bard,et al.  Spatial coherency analysis of seismic ground motions from a rock site dense array implemented during the Kefalonia 2014 aftershock sequence , 2017 .

[17]  G. Papathanassiou,et al.  Evaluation of the macroseismic intensities triggered by the January/February 2014 Cephalonia, (Greece) earthquakes based on ESI-07 scale and their comparison to 1867 historical event , 2017 .

[18]  N. Theodoulidis,et al.  Near-source high-rate GPS, strong motion and InSAR observations to image the 2015 Lefkada (Greece) Earthquake rupture history , 2017, Scientific Reports.

[19]  D. Bourlès,et al.  Transition from collision to subduction in Western Greece: the Katouna–Stamna active fault system and regional kinematics , 2017, International Journal of Earth Sciences.

[20]  P. Guéguen Predicting Nonlinear Site Response Using Spectral Acceleration Vs PGV/Vs30: A Case History Using the Volvi-Test Site , 2016, Pure and Applied Geophysics.

[21]  R. Gomes,et al.  Deeper VS profile from joint analysis of Rayleigh wave data , 2016 .

[22]  J. Borges,et al.  Inversion of ambient seismic noise HVSR to evaluate velocity and structural models of the Lower Tagus Basin, Portugal , 2016, Journal of Seismology.

[23]  Cécile Cornou,et al.  InterPACIFIC project: Comparison of invasive and non-invasive methods for seismic site characterization. Part II: Inter-comparison between surface-wave and borehole methods , 2016 .

[24]  Cécile Cornou,et al.  InterPACIFIC project: Comparison of invasive and non-invasive methods for seismic site characterization. Part I: Intra-comparison of surface wave methods , 2016 .

[25]  A. Aydin,et al.  A modified HVSR method to evaluate site effect in Northern Mississippi considering ocean wave climate , 2016 .

[26]  G. Papathanassiou,et al.  Recurrent liquefaction-induced failures triggered by 2014 Cephalonia, Greece earthquakes: Spatial distribution and quantitative analysis of liquefaction potential , 2016 .

[27]  I. Parcharidis,et al.  The seismic sequence of January–February 2014 at Cephalonia Island (Greece): constraints from SAR interferometry and GPS , 2015 .

[28]  S. Brouyère,et al.  Characterization of superficial deposits using electrical resistivity tomography (ERT) and horizontal-to-vertical spectral ratio (HVSR) geophysical methods: A case study , 2015 .

[29]  H. Akgün,et al.  Evaluation of site effect within the tectonic basin in the northern side of Ankara , 2015 .

[30]  L. Bonilla,et al.  In Situ Assessment of the G–γ Curve for Characterizing the Nonlinear Response of Soil: Application to the Garner Valley Downhole Array and the Wildlife Liquefaction Array , 2015 .

[31]  Ioannis Papoutsis,et al.  The February 2014 Cephalonia Earthquake (Greece): 3D Deformation Field and Source Modeling from Multiple SAR Techniques , 2015 .

[32]  G. Drakatos,et al.  Displacements recorded on continuous GPS stations following the 2014 M6 Cephalonia (Greece) earthquakes: Dynamic characteristics and kinematic implications , 2015 .

[33]  E. Pons‐Branchu,et al.  A geochemical perspective on Parisian urban history based on U–Th dating, laminae counting and yttrium and REE concentrations of recent carbonates in underground aqueducts , 2014 .

[34]  A. Aydin,et al.  Microtremor recordings in Northern Mississippi , 2014 .

[35]  Kirsten L. Hunter Evaluating the geological, geomorphic and geophysical evidence for the re-location of Odysseus’ homeland, “Ancient Ithaca” , 2013 .

[36]  R. Edwards,et al.  Improvements in 230Th dating, 230Th and 234U half-life values, and U–Th isotopic measurements by multi-collector inductively coupled plasma mass spectrometry , 2013 .

[37]  T. Kurtulmuş,et al.  Spectral Ratio Estimates for Site Effects on the Horst–Graben System in West Turkey , 2013, Pure and Applied Geophysics.

[38]  Fabrizio Novali,et al.  Combined Seismicity Pattern Analysis, DGPS and PSInSAR studies in the broader area of Cephalonia (Greece) , 2012 .

[39]  E. Zor,et al.  Investigation of 3‐D basin structures in the İzmit Bay area (Turkey) by single‐station microtremor and gravimetric methods , 2011 .

[40]  P. Guéguen,et al.  Multimethod Characterization of the French-Pyrenean Valley of Bagnères-de-Bigorre for Seismic-Hazard Evaluation: Observations and Models , 2011, 1201.0634.

[41]  Kyriazis Pitilakis,et al.  3D soil structure of the Mygdonian basin for site response analysis , 2010 .

[42]  D. Bowen Sea level ~400 000 years ago (MIS 11): analogue for present and future sea-level? , 2009 .

[43]  Nicolas Durand,et al.  Mineralogical determination of reef and periplatform carbonates: Calibration and implications for paleoceanography and radiochronology , 2009 .

[44]  Marc Wathelet,et al.  An improved neighborhood algorithm: Parameter conditions and dynamic scaling , 2008 .

[45]  M. McCulloch,et al.  High-precision U-series measurements of more than 500,000 year old fossil corals , 2008 .

[46]  Andrej Gosar,et al.  Microtremor HVSR study for assessing site effects in the Bovec basin (NW Slovenia) related to 1998 Mw5.6 and 2004 Mw5.2 earthquakes , 2007 .

[47]  Cécile Cornou,et al.  Assessing the reliability of the modified three-component spatial autocorrelation technique , 2007 .

[48]  Demitris Paradissis,et al.  GPS constraints on continental deformation in the Africa‐Arabia‐Eurasia continental collision zone and implications for the dynamics of plate interactions , 2005 .

[49]  P. Deschamps,et al.  Early diagenesis impact on precise U-series dating of deep-sea corals: Example of a 100- 200-year old Lophelia pertusa sample from the northeast Atlantic , 2005 .

[50]  M. Raymo,et al.  A Pliocene‐Pleistocene stack of 57 globally distributed benthic δ18O records , 2005 .

[51]  N. Feuillet,et al.  Dating open systems by the 238 U– 234 U– 230 Th method: application to Quaternary reef terraces , 2003 .

[52]  M. Frechen,et al.  Geology of El Misti volcano near the city of Arequipa, Peru , 2001 .

[53]  P. Bodin,et al.  Microtremor observations of deep sediment resonance in metropolitan Memphis , 2001 .

[54]  P. Charvis,et al.  Seismic structure and the active Hellenic subduction in the Ionian islands , 2000 .

[55]  Yann Hello,et al.  Western Hellenic subduction and Cephalonia Transform: local earthquakes and plate transport and strain , 2000 .

[56]  Anastasia Kiratzi,et al.  The Cephalonia Transform Fault and its extension to western Lefkada Island (Greece) , 1999 .

[57]  E. Papadimitriou,et al.  3D crustal structure from local earthquake tomography around the Gulf of Arta (Ionian region, NW Greece) , 1999 .

[58]  R. Snieder,et al.  Identifying sets of acceptable solutions to non-linear, geophysical inverse problems which have complicated misfit functions , 1995 .

[59]  X. Le Pichon,et al.  Geodetic determination of the kinematics of central Greece with respect to Europe: Implications for eastern Mediterranean tectonics , 1995 .

[60]  S. Stiros,et al.  The 1953 earthquake in Cephalonia (Western Hellenic Arc): coastal uplift and halotectonic faulting , 1994 .

[61]  G. Bizon,et al.  Calage stratigraphique de l9age et de la duree des phases compressives des Hellenides externes (Grece nord-occidentale et Albanie), du Miocene a l9actuel , 1992 .

[62]  D. Panagiotopoulos,et al.  The Hellenic subduction beneath the Peloponnesus: first results of a microearthquake study , 1989 .

[63]  J. Underhill Late Cenozoic deformation of the Hellenide foreland, western Greece , 1989 .

[64]  D. Panagiotopoulos,et al.  Evidence for transform faulting in the Ionian sea: The Cephalonia island earthquake sequence of 1983 , 1985 .

[65]  R. Rogers The Holistic Approach , 1983 .

[66]  G. McMechan,et al.  Analysis of dispersive waves by wave field transformation , 1981 .

[67]  E. J. Douze,et al.  Statistics of semblance , 1979 .

[68]  M. Taner,et al.  SEMBLANCE AND OTHER COHERENCY MEASURES FOR MULTICHANNEL DATA , 1971 .

[69]  Xavier Landes Geo-Engineering , 2020, Encyclopedia of Sustainable Management.

[70]  E. Pamuk,et al.  3D Bedrock Structure of Bornova Plain and Its surroundings (İzmir/Western Turkey) , 2017, Pure and Applied Geophysics.

[71]  B. N. Margaris,et al.  The Cephalonia, Greece, January 26 (M6.1) and February 3, 2014 (M6.0) earthquakes: near-fault ground motion and effects on soil and structures , 2015, Bulletin of Earthquake Engineering.

[72]  Roberto Basili,et al.  The European Database of Seismogenic Faults (EDSF) compiled in the framework of the Project SHARE. , 2013 .

[73]  R. Edwards,et al.  Improvements in 230 Th dating , 230 Th and 234 U half-life values , and U – Th isotopic measurements by multi-collector inductively coupled plasma mass spectrometry , 2013 .

[74]  Donat Fäh,et al.  From Non-invasive Site Characterization to Site Amplification: Recent Advances in the Use of Ambient Vibration Measurements , 2010 .

[75]  Salvatore Barba,et al.  Database of Individual Seismogenic Sources (version 3.0.2): A compilation of potential sources for earthquakes larger than M 5.5 in Italy and surrounding areas. , 2006 .

[76]  Stratos Zacharopoulos,et al.  Guidelines for the implementation of the H/V spectral ratio technique on ambient vibrations measurements, processing and interpretation , 2004 .

[77]  Charlotte Nielsen dit Christensen Etude des zones de subduction en convergence hyper-oblique : exemples de la ride méditerranéenne et de la marge indo-birmane , 2003 .

[78]  Cécile Cornou,et al.  Analysis of dense array noise measurements using the modified spatial auto-correlation method (SPAC): application to the Grenoble area , 2001 .

[79]  D. Sorel L'évolution structurale de la Grèce nord-occidentale depuis le miocène, dans le cadre géodynamique de l'arc égéen , 1989 .

[80]  Y Nakamura,et al.  A METHOD FOR DYNAMIC CHARACTERISTICS ESTIMATION OF SUBSURFACE USING MICROTREMOR ON THE GROUND SURFACE , 1989 .

[81]  J. Aubouin,et al.  Zone preapulienne, zone ionienne et zone du Gavrovo en Peloponnese occidental , 1962 .