Nome |
# |
Surface ruptures following the 30 October 2016 Mw 6.5 Norcia earthquake, central Italy, file e4233f16-9677-2860-e053-6605fe0a460a
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775
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New data on geometry, kinematics and segmentation of the active normal fault system along the north-easter border of the Matese Mts. (Molise) [Nuovi dati su geometria, cinematica e segmentazione del sistema di faglie attive lungo il margine nord-orientale del Matese (Molise)], file e4233f15-e820-2860-e053-6605fe0a460a
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165
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Site effects and widespread susceptibility to permanent coseismic deformation in the Avezzano town (Fucino basin, Central Italy): Constraints from detailed geological study, file e4233f17-7610-2860-e053-6605fe0a460a
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114
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Environmental effects and seismogenic source characterization of the December 2020 earthquake sequence near Petrinja, Croatia, file e4233f19-3141-2860-e053-6605fe0a460a
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80
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Width of surface rupture zone for thrust earthquakes: implications for earthquake fault zoning, file e4233f16-8cdf-2860-e053-6605fe0a460a
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78
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A worldwide and unified database of surface ruptures (SURE) for fault displacement hazard analyses, file e4233f18-42ac-2860-e053-6605fe0a460a
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77
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Mapping the geology of the 2016 Central Italy earthquake fault (Mt. Vettore – Mt. Bove fault, Sibillini Mts.): geological details on the Cupi – Ussita and Mt. Bove – Mt. Porche segments and overall pattern of coseismic surface faulting, file e4233f17-76f9-2860-e053-6605fe0a460a
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62
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High-Resolution Field Mapping and Analysis of the August–October 2016 Coseismic Surface Faulting (Central Italy Earthquakes): Slip Distribution, Parameterization, and Comparison With Global Earthquakes, file e4233f17-30af-2860-e053-6605fe0a460a
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60
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Mapping the geology of the 2016 Central Italy earthquake fault (Mt. Vettore – Mt. Bove fault, Sibillini Mts.): geological details on the Cupi – Ussita and Mt. Bove – Mt. Porche segments and overall pattern of coseismic surface faulting, file e4233f17-7756-2860-e053-6605fe0a460a
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57
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Ground deformation and source geometry of the 24 August 2016 Amatrice earthquake (Central Italy) investigated through analytical and numerical modeling of DInSAR measurements and structural-geological data, file e4233f15-f071-2860-e053-6605fe0a460a
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45
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Which Fault Threatens Me Most? Bridging the Gap Between Geologic Data-Providers and Seismic Risk Practitioners, file e4233f18-4276-2860-e053-6605fe0a460a
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38
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Paleoseismological Constraints on the Anghiari Normal Fault (Northern Apennines, Italy) and Potential Implications for the Activity of the Altotiberina Low‐Angle Normal Fault, file c37a68f7-bb33-472e-aecc-b9473c0011e8
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36
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Seismic response of a deep continental basin including velocity inversion: the Sulmona intramontane basin (Central Apennines, Italy)., file e4233f15-ea27-2860-e053-6605fe0a460a
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32
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A database of the coseismic effects following the 30 October 2016 Norcia earthquake in Central Italy, file e4233f16-d7ad-2860-e053-6605fe0a460a
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32
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Probability of Occurrence and Displacement Regression of Distributed Surface Rupturing for Reverse Earthquakes, file e4233f18-0583-2860-e053-6605fe0a460a
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32
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Fault2SHA Central Apennines database and structuring active fault data for seismic hazard assessment, file e4233f18-601a-2860-e053-6605fe0a460a
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25
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The Ferrara Basal Thrust (northern Italy): Geological and seismological evidence for a multi-layered crust-scale seismogenic source, file e4233f15-e550-2860-e053-6605fe0a460a
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24
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A Case Study of Multidisciplinary Surface Faulting Assessment in the Urbanized Fucino Basin, Italy, file e775a559-3ab8-45a1-a7d8-1eb633905b54
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23
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Surface ruptures following the 30 October 2016 Mw 6.5 Norcia earthquake, central Italy, file e4233f16-9f19-2860-e053-6605fe0a460a
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22
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Coseismic ground rupture during the 20 and 29 may 2012 Ferrara earthquakes: morpho-lithologic control, tectonic origin or both?., file e4233f15-f22a-2860-e053-6605fe0a460a
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20
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Construction of a Level 2 microzonation abacus to evaluate local amplifications for the peri-Adriatic area in the Abruzzo region (Italy), file d42bbac7-8523-4563-afc8-9e75bb73dfdc
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18
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Ground deformation and source geometry of the 24 August 2016 Amatrice earthquake (Central Italy) investigated through analytical and numerical modeling of DInSAR measurements and structural-geological data, file e4233f15-e6c6-2860-e053-6605fe0a460a
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17
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SURE 2.0 – New release of the worldwide database of surface ruptures for fault displacement hazard analyses, file 740aafd7-2035-440e-af9d-e3e3080f3070
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13
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36Cl exposure dating of glacial features to constrain the slip rate along the Mt. Vettore Fault (Central Apennines, Italy), file e4233f18-fbbf-2860-e053-6605fe0a460a
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12
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Evaluation of liquefaction potential in an intermountain Quaternary lacustrine basin (Fucino basin, central Italy), file e4233f19-29ca-2860-e053-6605fe0a460a
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11
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Seismic response of a deep continental basin including velocity inversion: the Sulmona intramontane basin (Central Apennines, Italy)., file e4233f15-ea28-2860-e053-6605fe0a460a
|
10
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A worldwide and unified database of surface ruptures (SURE) for fault displacement hazard analyses, file e4233f17-767c-2860-e053-6605fe0a460a
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10
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Late Quaternary faulting in the southern Matese (Italy): implications for earthquake potential and slip rate variability in the southern Apennines, file e4233f18-efee-2860-e053-6605fe0a460a
|
10
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Segmentation pattern and structural complexities in seismogenic extensional settings: the north Matese fault system (central Italy), file e4233f15-f1ff-2860-e053-6605fe0a460a
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6
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Normal faulting along the western side of the Matese Mountains: Implications for active tectonics in the Central Apennines (Italy)., file e4233f15-fabe-2860-e053-6605fe0a460a
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5
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Layered Seismogenic Source Model and Probabilistic Seismic-Hazard Analyses in Central Italy, file e4233f14-ed61-2860-e053-6605fe0a460a
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4
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Earthquake-induced liquefaction features in a late Quaternary fine-grained lacustrine succession (Fucino Lake, Italy): Implications for microzonation studies, file e4233f18-9958-2860-e053-6605fe0a460a
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4
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Seismogenic sources in Central Italy: from causes to effects, file e4233f15-090b-2860-e053-6605fe0a460a
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3
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Slip localization on multiple fault splays accommodating distributed deformation across normal fault complexities, file bf4b3ab5-ff3b-4a4c-b604-05ebe892dac5
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2
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Coseismic ground deformation of the 6 April 2009 L’Aquila earthquake (central Italy, Mw6.3), file e4233f14-f74b-2860-e053-6605fe0a460a
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2
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Coseismic ground deformation of the 6 April 2009 L’Aquila earthquake (central Italy, Mw6.3), file e4233f14-f74c-2860-e053-6605fe0a460a
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2
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Zoning Surface Rupture Hazard along Normal Faults: Insight from the 2009 Mw 6.3 L’Aquila, Central Italy, Earthquake and Other Global Earthquakes, file e4233f14-f7b8-2860-e053-6605fe0a460a
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2
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The instrumental seismicity of the Abruzzo Region in Central Italy (1981-2003): Seismotectonic implications, file e4233f18-af59-2860-e053-6605fe0a460a
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2
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Active stress from earthquake focal mechanisms along the Padan–Adriatic side of the Northern Apennines (Italy), with considerations on stress magnitudes and pore-fluid pressures, file e4233f14-ea19-2860-e053-6605fe0a460a
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1
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Seismotectonics of strike–slip earthquakes within the deep crust of southern Italy: Geometry, kinematics, stress field and crustal rheology of the Potenza 1990–1991 seismic sequences (Mmax 5.7)., file e4233f14-ed46-2860-e053-6605fe0a460a
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1
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Defining a model of 3-D seismogenic sources for Seismic Hazard Assessment applications: The case of Central Apennines., file e4233f14-ee17-2860-e053-6605fe0a460a
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1
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Present activity and seismogenic potential of a low-angle normal fault system (Città di Castello, Italy): constraints from surface geology, seismic reflection data and seismicity., file e4233f14-eff5-2860-e053-6605fe0a460a
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1
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Geological and geophysical characterization of the Paganica – San Gregorio area after the April 6, 2009 L’Aquila earthquake (Mw 6.3, central Italy): implications for site response., file e4233f14-f5f7-2860-e053-6605fe0a460a
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1
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Shallow subsurface structure of the 2009 April 6 Mw 6.3 L’Aquila earthquake surface rupture at Paganica, investigated with ground-penetrating radar., file e4233f14-fb36-2860-e053-6605fe0a460a
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1
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Main geologic factors controlling site response during the 2009 L’Aquila earthquake, file e4233f15-0790-2860-e053-6605fe0a460a
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1
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Do static stress changes of a moderate-magnitude earthquake significantly modify the regional seismic hazard? Hints from the L’Aquila 2009 normal-faulting earthquake (Mw 6.3, Central Italy), file e4233f15-1220-2860-e053-6605fe0a460a
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1
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Local Seismic Response in a Large Intra-mountain Basin as Observed from Earthquakes and Microtremor Recordings: The Avezzano Area (Central Italy), file e4233f15-1224-2860-e053-6605fe0a460a
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1
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From surface geology to aftershock analysis: Constraints on the geometry of the L’Aquila 2009 seismogenic fault system, file e4233f15-f200-2860-e053-6605fe0a460a
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1
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From surface geology to aftershock analysis: Constraints on the geometry of the L’Aquila 2009 seismogenic fault system, file e4233f15-f201-2860-e053-6605fe0a460a
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1
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Studio di suscettibilità a liquefazione di sedimenti fini nel bacino del fucino (Avezzano, AQ): analisi XRD in supporto alle prove geotecniche, file e4233f17-3950-2860-e053-6605fe0a460a
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1
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Finite Element analysis of source geometry and slip distribution of the 2016 Amatrice Mw 6.2 earthquake (Central Italy) through the integration of geological and satellite data, file e4233f17-dc96-2860-e053-6605fe0a460a
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1
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Role of mechanical stratigraphy on fracture development in carbonate reservoirs: insights from outcropping shallow water carbonates in the Umbria-Marche Apennines, Italy, file e4233f18-8c65-2860-e053-6605fe0a460a
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1
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A structural model for active extension in Central Italy, file e4233f18-a185-2860-e053-6605fe0a460a
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1
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A geological model for the Colfiorito earthquakes (September-October 1997, Central Italy), file e4233f18-ca8b-2860-e053-6605fe0a460a
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1
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Seismogenesis in central Apennines, Italy: an integrated analysis of minor earthquake sequences and structural data in the Amatrice-Campotosto area., file e4233f18-d92f-2860-e053-6605fe0a460a
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1
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Analisi geometrica e cinematica del settore centrale della catena Narnese-Amerina (Umbria sud-occidentale), file e4233f18-da07-2860-e053-6605fe0a460a
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1
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Surface faulting during the 29 December 2020 Mw 6.4 Petrinja earthquake (Croatia), file e4233f19-1fc4-2860-e053-6605fe0a460a
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1
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Evaluation of liquefaction potential in an intermountain Quaternary lacustrine basin (Fucino basin, central Italy), file e4233f19-3aca-2860-e053-6605fe0a460a
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1
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Totale |
1.950 |