| Nome |
# |
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The effects of in-stream gravel mining on river incision: an example from Central Adriatic Italy, file e0ff0072-9a3e-9bac-e053-1705fe0af019
|
236
|
|
null, file e0ff0073-9b9f-9bac-e053-1705fe0af019
|
233
|
|
Geomorphological and geophysical investigations for the characterization of the Roman Carsulae site (Tiber basin, Central Italy), file e0ff0073-009a-9bac-e053-1705fe0af019
|
210
|
|
Publisher Correction: A database of the coseismic effects following the 30 October 2016 Norcia earthquake in central Italy (Scientific Data, (2018) 5, 10.1038/sdata.2018.49), file e0ff0074-1805-9bac-e053-1705fe0af019
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173
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|
Pliocene-Pleistocene geomorphological evolution of the Adriatic side of central Italy, file e0ff0072-bf36-9bac-e053-1705fe0af019
|
167
|
|
A Multi-Model Approach Using Statistical Index and Information Criteria to Evaluate the Adequacy of the Model Geometry in a Fissured Carbonate Aquifer (Italy), file e0ff0072-952a-9bac-e053-1705fe0af019
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162
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The significance of recent and short pluviometric time series for the assessment of flood hazard in the context of climate change: examples from some sample basins of the Adriatic Central Italy, file e0ff0073-ead5-9bac-e053-1705fe0af019
|
129
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A combined approach for a modern hydrogeological mapping: the case study of Tennacola stream catchment (central Apennine, Italy), file e0ff0073-d02c-9bac-e053-1705fe0af019
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124
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The August 24th 2016 Accumoli earthquake: surface faulting and Deep-Seated Gravitational Slope Deformation (DSGSD) in the Monte Vettore area, file e0ff0072-af34-9bac-e053-1705fe0af019
|
93
|
|
Application of the MRC method to the study of some mountain springs in the Tennacola stream catchment (central Apennine, Italy), file e0ff0073-a8fa-9bac-e053-1705fe0af019
|
90
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|
Surface ruptures following the 30 October 2016 Mw 6.5 Norcia earthquake, central Italy, file e0ff0073-1991-9bac-e053-1705fe0af019
|
77
|
|
La sequenza sismica 2016-2018 nel centro-Italia: effetti geomorfologici e variazioni idrologiche ed idrogeologiche nell'area epicentrale appenninica, file e0ff0074-8f84-9bac-e053-1705fe0af019
|
44
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|
null, file e0ff0074-5b93-9bac-e053-1705fe0af019
|
31
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|
A database of the coseismic effects following the 30 October 2016 Norcia earthquake in Central Italy, file e0ff0073-110b-9bac-e053-1705fe0af019
|
24
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|
Geo-environmental changes and historical events in the area of the Greek archaeological site of Selinunte (Western Sicily, Italy), file 1bf49bd8-664d-40cd-8102-676088c5bfcb
|
21
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Rainy Day Prediction Model with Climate Covariates Using Artificial Neural Network MLP, Pilot Area: Central Italy, file f8510a87-3300-45b3-9007-d01530c2bc97
|
20
|
|
Morphotectonic and sedimentary infill of the Colfiorito, Norcia, Castelluccio and Leonessa basins (Central Apennines, Italy), file e0ff0072-6071-9bac-e053-1705fe0af019
|
15
|
|
Analysis of Snow Cover in the Sibillini Mountains in Central Italy, file b5f31e25-048b-43aa-91dd-cecbf3f7c31e
|
14
|
|
The contribution of the "Sibilla Appenninica" legend to karst knowledge in the Sibillini Mountain (Central Apennines, Italy), file e0ff0072-5a6d-9bac-e053-1705fe0af019
|
14
|
|
Spatial Effects of NAO on Temperature and Precipitation Anomalies in Italy, file 233a31e6-b1a0-4942-a3c0-5c82d2f53cd2
|
10
|
|
DSGSDs induced by post glacial decompression in central Apennine (Italy), file e0ff0072-4779-9bac-e053-1705fe0af019
|
10
|
|
Morphotectonic characterization of the quaternary intermontane basins of the Umbria-Marche Apennines (Italy), file e0ff0072-8901-9bac-e053-1705fe0af019
|
9
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|
Soil Erosion and Deposition Rate Inside an Artificial Reservoir in Central Italy: Bathymetry versus RUSLE and Morphometry, file 78797488-eed5-46c1-abef-08644a91c669
|
8
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|
L’utilizzo delle serie pluviometriche storiche per la valutazione della pericolosità da esondazione nell’attuale contesto di cambiamento climatico, file e0ff0074-8f86-9bac-e053-1705fe0af019
|
8
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|
Calculation of Potential Evapotranspiration and Calibration of the Hargreaves Equation Using Geostatistical Methods over the Last 10 Years in Central Italy, file e0ff0074-cbc1-9bac-e053-1705fe0af019
|
8
|
|
Statistical analysis of landslide susceptibility, Macerata Province (Central Italy), file e0ff0074-cedc-9bac-e053-1705fe0af019
|
8
|
|
Prediction of Snowmelt Days Using Binary Logistic Regression in the Umbria-Marche Apennines (Central Italy), file e0ff0075-0d72-9bac-e053-1705fe0af019
|
8
|
|
Landslide Hazard Assessment in a Monoclinal Setting (Central Italy): Numerical vs. Geomorphological Approach, file e0ff0074-c14f-9bac-e053-1705fe0af019
|
7
|
|
Geomorphological Hazard in Active Tectonics Area: Study Cases from Sibillini Mountains Thrust System (Central Apennines), file e0ff0074-c798-9bac-e053-1705fe0af019
|
7
|
|
Advances in egyptian mediterranean coast climate change monitoring, file e0ff0074-ff68-9bac-e053-1705fe0af019
|
7
|
|
Analysis of landslide Susceptibility and Tree Felling Due to an Extreme Event at Mid-Latitudes: Case Study of Storm Vaia, Italy, file 65262f85-0724-4118-ba96-4f6237cff568
|
6
|
|
Large landslides in sea-cliff areas of the central Adriatic coast (Italy), file e0ff0072-4778-9bac-e053-1705fe0af019
|
6
|
|
From traditional to modern ‘full coverage’ geomorphological mapping: a study case in the Chienti river basin (Marche region, central Italy), file e0ff0074-b7e0-9bac-e053-1705fe0af019
|
6
|
|
GEV Analysis of Extreme Rainfall: Comparing Different Time Intervals to Analyse Model Response in Terms of Return Levels in the Study Area of Central Italy, file 78c236ee-5eb5-43d2-9c33-73843fc9d36e
|
4
|
|
The Role of Wastewater in Controlling Fluvial Erosion Processes on Clayey Bedrock, file 95e4dd78-a057-41ef-a9d3-155c1006cb58
|
4
|
|
Groundwater recharge estimation using spring hydrographs: the case of the Tennacola carbonate aquifer (central Apennine, Italy), file e0ff0072-bb54-9bac-e053-1705fe0af019
|
4
|
|
Comparison of data from rain gauges and the IMERG product to analyse precipitation in mountain areas of central Italy, file e0ff0074-f909-9bac-e053-1705fe0af019
|
4
|
|
Reliability of the IMERG product through reference rain gauges in Central Italy, file 5aed8f16-7e6b-4c92-9bbe-6a2b58ed2bcb
|
3
|
|
Landslide Susceptibility Using Climatic–Environmental Factors Using the Weight-of-Evidence Method—A Study Area in Central Italy, file 839e47d5-2c50-4e56-a88c-a2d365b4d0d2
|
3
|
|
Trend Analysis of Streamflows in Relation to Precipitation: A Case Study in Central Italy, file 8526466d-62cf-47f0-8afa-3f7a0a00c8b7
|
3
|
|
Geomorphological evidences of natural disasters in the Roman archaeological site of Carsulae (Tiber basin-central Italy)., file e0ff0072-4c4e-9bac-e053-1705fe0af019
|
3
|
|
Assessment of Variations in the Temperature-Rainfall Trend in the Province of Macerata (Central Italy), Comparing the Last Three Climatological Standard Normals (1961–1990; 1971–2000; 1981–2010) for Biosustainability Studies., file e0ff0073-ead3-9bac-e053-1705fe0af019
|
3
|
|
Landslide Susceptibility Analysis with Artificial Neural Networks Used in a GIS Environment, file 54a58490-19fb-4051-8866-9edec19a856a
|
2
|
|
The geo-itinerary of “Anello della Sibilla” between sciences, history and myth: a vehicle for the renaissance of the territories affected by the earthquake using GIS technologies, file c923e116-f3cc-49c3-a0a6-8f4bbc0d5318
|
2
|
|
Active tectonics and paleoseismicity of a transverse lineament in the Fabriano valley, Umbria-Marche Apennine (central Italy), file d6e45998-ef94-4449-903b-d965720df5c7
|
2
|
|
Late Quaternary catchment evolution and erosion rates in the Tyrrhenian side of central Italy, file e0ff0072-477c-9bac-e053-1705fe0af019
|
2
|
|
Geomorphological and geophysical investigations for the characterization of the Roman Carsulae site (Tiber basin, Central Italy), file e0ff0073-a9c7-9bac-e053-1705fe0af019
|
2
|
|
Co-seismic and post-seismic changes in groundwater discharge: first results from the epicentral region of the Central Italy earthquake 2016, file e0ff0073-d173-9bac-e053-1705fe0af019
|
2
|
|
Developing new approaches and strategies for teaching Physical Geography and Geomorphology: the role of the Italian Association of Physical Geography and Geomorphology (AIGeo), file e0ff0074-0386-9bac-e053-1705fe0af019
|
2
|
|
Temperature variations in Central Italy (Marche region) and effects on wine grape production, file e0ff0074-0555-9bac-e053-1705fe0af019
|
2
|
|
Coseismic surface geological effects following the 30 October 2016 Mw 6.5 earthquake, central Italy., file e0ff0074-1666-9bac-e053-1705fe0af019
|
2
|
|
Effects of Climate Change on Vegetation in the Province of Macerata (Central Italy), file e0ff0074-ff70-9bac-e053-1705fe0af019
|
2
|
|
Note illustrative della Carta Geologica d'Italia alla scala 1:50.000, foglio 302 TOLENTINO, file e0ff0072-4648-9bac-e053-1705fe0af019
|
1
|
|
Mass movement in adriatic central Italy: activation and evolutive control factors., file e0ff0072-4c4b-9bac-e053-1705fe0af019
|
1
|
|
null, file e0ff0072-5eb6-9bac-e053-1705fe0af019
|
1
|
|
null, file e0ff0072-5eb7-9bac-e053-1705fe0af019
|
1
|
|
Geomorphological evolution of the middle-lower reach of the Tronto river (central Italy), during the last 200 years: impacts on flood hazard, file e0ff0072-5f1c-9bac-e053-1705fe0af019
|
1
|
|
Analysis of mountain springs discharge time series in the Tennacola stream catchment (central Apennine, Italy), file e0ff0072-bc7a-9bac-e053-1705fe0af019
|
1
|
|
Slope stability integrate analyses: the study case of Mount Falcone (Central Italy), file e0ff0074-1efc-9bac-e053-1705fe0af019
|
1
|
| Totale |
2.043 |