| Nome |
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Evidenze di tettonica attiva lungo la faglia della Val Roveto, media valle del fiume Liri (Appennino centrale)., file d4c0f388-dfb2-4588-8e29-f57a858e7562
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140
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Architecture of active extensional faults in carbonates: Campo Felice and Monte D'Ocre faults, Italian Apennines, file c80ae13a-e06f-4d3b-a929-11122409c502
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91
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Capable faults and seismogenic sources: assessing activity and seismogenic behavior for engineering practices. Cases from central Italy., file ca6e6e40-7f48-419e-b6a8-0baeec25e0f6
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51
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Assessing active and capable faulting as best practice for post-earthquake reconstruction activities: the Sant’ Eutizio Abbey case study, in the epicentral area of the 2016 central Italy seismic sequence., file bd1624ca-2a92-48b2-9a0b-476590dedd3d
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50
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- Ground displacements evaluation of areas affected by slope deformations through sar interferometric inspection: evidence in central – southern Italy, file 4e39f523-2cf0-49b1-ac67-702b367266c3
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42
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Spatial-temporal analysis of the subsidence in the city of Bologna, file 1ba5f032-c010-41e6-af94-63b37250581d
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41
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Combining earth sciences with archaeology to investigate natural risks related to the cultural heritage of the Marsica region (central Apennines, Italy), file afdecdb4-35e3-48da-a325-566798d20956
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35
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Geological Setting of the Southern Sector of the Roveto Valley (Central Appennines, Italy), file de2a6152-ff4b-86a2-e053-1705fe0a3017
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31
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Faglie attive e sismotettonica dell’Italia centrale: dalla sequenza sismica del 1997 a quella del 2016-2017. Venti anni di sismicità appenninica analizzati attraverso un approccio multidisciplinare., file 5272ccf6-1516-46c7-8c90-25eef9a413f8
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25
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Redefining the zoning of active and capable faults in urban areas: the case of the Mt. Marine fault across the Barete and Pizzoli towns (Central Apennines, Italy)., file 784099be-d0d3-45e5-bffd-84a86f861b92
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22
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First evidence of the Late Pleistocene—Holocene activity of the Roveto Valley Fault (Central Apennines, Italy, file 5650386c-3356-4690-b3ce-962cdb6beef0
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21
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Approccio neotettonico per l’individuazione e definizione dell’attività e capacità della faglia di Leonessa, Appennino centrale., file 56ab505f-a5ad-46e0-a822-cc56f1a47382
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21
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3D geological modelling in urban contexts: a case study of the city of Cassino (Central Italy), file 0339bc5d-9ae5-475a-a9a4-0adc732826fa
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18
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Dynamic analysis of a seismically induced mass movement after the December 2018 Etna volcano eruption, file a52ab91f-9d45-4251-907d-17eed06079b2
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18
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Looking Into the Entanglement Between Karst Landforms and Fault Activity in Carbonate Ridges: The Fibreno Fault System (Central Italy), file e9feb555-2071-430f-a695-c966ba3ccabb
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17
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Hydrogeological study of the Venafro Mts. (central-southern Italy) carbonate aquifer: numerical analysis and management scenarios., file fcfb8f7e-9b58-4e6b-8d1a-428082bb907f
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17
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Surface faulting and liquefaction hazard assessment in the central Apennines for land use practices: a case study from the L’Aquila urban area (central Italy), file 41c82590-d13e-4fa6-ad77-7e38154d71ff
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16
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Water-table and discharge changes associated with the 2016-2017 seismic sequence in central Italy: hydrogeological data and a conceptual model for fractured carbonate aquifers., file de2a6154-1d96-86a2-e053-1705fe0a3017
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16
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Local Seismic site effects estimated by detailed seismic surveys: the case of Castelnuovo village (L’Aquila Basin, central Italy), file 24900823-d9db-45f9-963a-545caf337d87
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15
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Active faulting and deep-seated gravitational slope deformation in carbonate rocks (Central Apennines, Italy), file 84b3bfa4-72b9-40c9-b449-9be68a9b7736
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14
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Analysis of a large, seismically-induced mass movement after the December 2018, Etna volcano (southern Italy) seismic swarm, file d621547b-d5e6-4c3f-ba55-38434b04f5a1
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13
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Gravitational Slope Deformation vs. Normal Faults: different hazards, similar microstructures?, file de2a6154-09ac-86a2-e053-1705fe0a3017
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12
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A unified numerical model for the simulation of the seismic cycle in dip-slip environments: examples from Italy, file de2a6154-0a48-86a2-e053-1705fe0a3017
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12
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New geological evidence of Quaternary and late Quaternary fault activity in the Norcia-Campi and L’Aquila-Paganica basin areas: seismotectonic and land use planning implications., file dba3c34e-eb72-4e4d-9d51-fc28de5ff6de
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10
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A Multidisciplinary Approach To Assess The Kinematics Of The Pisciotta Deep-Seated Gravitational Slope Deformation (Southern Italy), file 42a1462b-0a1b-4268-81d3-b54154b286e4
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9
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Nuovi dati paloesismologici dal settore orientale del bacino del Fucino (Italia centrale)., file de2a6152-ff4a-86a2-e053-1705fe0a3017
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8
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Slip surfaces associated with seismic faults and gravitational slope deformations in carbonate rocks., file e4e2d152-d8f4-4338-a973-640ae29ea480
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8
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Time intervals to assess active and capable faults for engineering practices in Italy, file de2a6153-0676-86a2-e053-1705fe0a3017
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7
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Subsidenza indotta da prelievi idrici nell'area di Bologna: interpretazione e modellazione teorica. 9-11Settembre 2009, file de2a6153-04c1-86a2-e053-1705fe0a3017
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6
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Large scale gravity driven phenomena movements detection, trough integrated approach of photogeological and InSAR analysis., file de2a6152-ff59-86a2-e053-1705fe0a3017
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5
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Campoli Appennino, file de2a6153-005e-86a2-e053-1705fe0a3017
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5
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A multidisciplinary approach for the seismic characterization of the Cassino plain (Central italy), file de2a6153-fafe-86a2-e053-1705fe0a3017
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5
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Influence of structural framework on mountain slope deformation in the Maiella anticline (Central Apennines, Italy), file de2a6153-046e-86a2-e053-1705fe0a3017
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4
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Constraining primary surface lenght along the Paganica fault (2009 L'Aquila earthquake) with geological and geodetic (DIn SAR and GPS) evidence, file de2a6153-0678-86a2-e053-1705fe0a3017
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4
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Subsidence induced by urbanisation in the city of Rome detected by advanced InSAR techinique an geotechnical investigations. Remote Sensing of Environment, file de2a6153-06a6-86a2-e053-1705fe0a3017
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4
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X- and C-band SAR surface displacement for the 2013 Lunigiana earthquake (Northern Italy): a breached relay ramp?, file de2a6153-07c2-86a2-e053-1705fe0a3017
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4
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Caratteristiche geologiche geomorfologiche ed effetti di sito a San Giuliano di Puglia (CB) e in altri abitati colpiti dalla sequenza sismica dell'Ottobre Novembre 2002, file de2a6153-0a36-86a2-e053-1705fe0a3017
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4
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Numerical analysis of the post-seismic effects on groundwater flow after the Amatrice-Visso-Norcia 2016 seismic sequence., file 00f73b60-6eb6-4709-98aa-5a1f7b106999
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3
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The October 23, 2011, Van (Turkey) earthquake and its relationship with
neighbouring structures, file de2a6153-0823-86a2-e053-1705fe0a3017
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3
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Hydrogeological study and numerical model of the Suio-Castelforte hydrothermal area (central Italy)., file de2a6153-85cf-86a2-e053-1705fe0a3017
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3
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The geology and hydrogeology of the Cassino plain (central Apennines, Italy): redefining the regional groundwater balance, file de2a6153-dd77-86a2-e053-1705fe0a3017
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3
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Insights into bedrock paleomorphology and linear dynamic soil properties of the Cassino intermontane basin (Central Italy)., file de2a6153-ef0e-86a2-e053-1705fe0a3017
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3
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New insights on bedrock morphology and local seismic amplification of the Castelnuovo village (L’Aquila Basin, Central Italy)., file aef279c8-a8bc-4dd2-8d24-4e6124dd783a
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2
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MASSIVE ROCK SLOPE FAILURE IN THE CENTRAL APPENNINES (ITALY): THE CASE OF THE CAMPO DI GIOVE ROCK AVALANCHE., file de2a6153-0470-86a2-e053-1705fe0a3017
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2
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Site effects “on the rock”: the case of Castelvecchio Subequo (L’Aquila, central Italy), file de2a6153-04ce-86a2-e053-1705fe0a3017
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2
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Historical earthquakes and variable kinematic behaviour of the 2009 L'Aquila seismic event (central Italy) causative fault, revealed by paleoseismological investigations, file de2a6153-067a-86a2-e053-1705fe0a3017
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2
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New geological data on the Cassino intermontane basin, central Apennines, Italy. Intermontane basins in central-southern Italy, file de2a6153-07c3-86a2-e053-1705fe0a3017
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2
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Active normal faulting, rupture segmentation and structural “complexities”: insight from geological, paleoseismological and seismological data along the middle Aterno river valley, in the 2009 L’Aquila earthquake region (Central Italy)., file de2a6153-0aa6-86a2-e053-1705fe0a3017
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2
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Rockfill dam monitoring through ground-based and remote sensing techniques, file de2a6153-480c-86a2-e053-1705fe0a3017
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2
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Aftershock rate and pore fluid diffusion: Insights from the Amatrice‐Visso‐Norcia (Italy) 2016 seismic sequence, file de2a6153-df18-86a2-e053-1705fe0a3017
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2
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A Macroscale Hydrogeological Numerical Model of the Suio Hydrothermal System (Central Italy)., file de2a6153-e090-86a2-e053-1705fe0a3017
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2
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Active Faulting and Deep-Seated Gravitational Slope Deformation in Carbonate Rocks (Central Apennines, Italy): A New “Close-Up” View, file de2a6154-39fc-86a2-e053-1705fe0a3017
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2
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Towards an IoT measurement system for Radon concentration monitoring: a preliminary proposal., file e22e8704-e142-4f4b-b5c5-eb852080b82f
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2
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Multi-source data analysis to assess the kinematics of the Pisciotta deep-seated gravitational slope deformation (Southern Italy)., file 8b7db3d0-6bbb-44c2-843a-277ad6a290dd
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1
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Studio della subsidenza indotta da prelievi idrici nell’area di Bologna. Incontro Annuale dei Ricercatori di Geotecnica – IARG. Salerno, 4-6 Luglio 2007, file de2a6152-ff52-86a2-e053-1705fe0a3017
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1
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The Apennines orogenic system., file de2a6153-005a-86a2-e053-1705fe0a3017
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1
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The interaction between active normal faulting and large scale gravitational mass movements revealed by paleoseismological techniques: a case study from central Italy, file de2a6153-04cb-86a2-e053-1705fe0a3017
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1
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Analysis of large, seismically induced, gravitational deformations imaged by high resolution COSMO-SkyMed SAR, file de2a6153-04cd-86a2-e053-1705fe0a3017
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1
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Spatial analysis of subsidence induced by groundwater withdrawal, file de2a6153-0724-86a2-e053-1705fe0a3017
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1
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Quaternary normal faulting along the western side of the Matese Mountains (Central Apennines, Italy), file de2a6153-082e-86a2-e053-1705fe0a3017
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1
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DInSAR techniques for studying the October 23, 2011, Van earthquake (Turkey), and its relationship with neighboring structures., file de2a6153-0995-86a2-e053-1705fe0a3017
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1
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Analysis of the deep-seated gravitational slope deformations over
Mt. Frascare (Central Italy) with geomorphological assessment
and DInSAR approaches, file de2a6153-0a6c-86a2-e053-1705fe0a3017
|
1
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Monitoring long-term ground movements and Deep Seated Gravitational Slope Deformations By InSAR time series: cases studies in Italy., file de2a6153-0aa7-86a2-e053-1705fe0a3017
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1
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An innovative procedure for monitoring the change in soil seismic response by InSAR data: application to the Mexico City subsidence., file de2a6153-6236-86a2-e053-1705fe0a3017
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1
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Active and capable fault? The case study of Prata D'Ansidonia (L'Aquila, Central Apennine), file de2a6153-8121-86a2-e053-1705fe0a3017
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1
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Did Anthropogenic Activities Trigger the 3 April 2017 Mw 6.5 Botswana Earthquake?, file de2a6153-9c06-86a2-e053-1705fe0a3017
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1
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The Campotosto seismic gap in between the 2009 and 2016–2017 seismic sequences of central Italy, file de2a6153-d78b-86a2-e053-1705fe0a3017
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1
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Machine Learning Models for Spring Discharge Forecasting, file de2a6153-db0d-86a2-e053-1705fe0a3017
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1
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Landslide susceptibility mapping by remote sensing and geomorphological data: case studies on the Sorrentina Peninsula (Southern Italy), file de2a6153-dedb-86a2-e053-1705fe0a3017
|
1
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Active faults and related hazards: new insights on the central Apennine seismotectonics and surface faulting zonation., file de2a6153-e399-86a2-e053-1705fe0a3017
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1
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Hydrogeological insights and modelling for sustainable use of a stressed carbonate aquifer in the Mediterranean area: From passive withdrawals to active management., file de2a6154-08e3-86a2-e053-1705fe0a3017
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1
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Numerical analysis of interseismic, coseismic and post-seismic phases for normal and reverse faulting earthquakes in Italy, file de2a6154-34e9-86a2-e053-1705fe0a3017
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1
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Analysis of a large seismically induced mass movement after the December 2018 Etna volcano (southern Italy) seismic swarm, file de2a6154-3c27-86a2-e053-1705fe0a3017
|
1
|
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Towards an IoT measurement system for Radon concentration monitoring: A preliminary proposal, file de2a6154-5190-86a2-e053-1705fe0a3017
|
1
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| Totale |
879 |