Your search keyword '"Revellino, Paola"' showing total 9 results

1. Defining Kinematic and Evolutive Features of Earth Flows Using Integrated Monitoring and Low-Cost Sensors

Author

Revellino, Paola, Guerriero, Luigi, Ruzza, Giuseppe, Guadagno, Francesco M., Sassa, Kyoji, Series Editor, Casagli, Nicola, editor, Tofani, Veronica, editor, Bobrowsky, Peter T., editor, and Takara, Kaoru, editor

Published

2021

2. Sediment Transport Along Earth Flows: Intermittent Cascade Effect Between Kinematic Zones

Author

Guerriero, Luigi, Bertello, Lara, Cardozo, Nestor, Berti, Matteo, Grelle, Gerardo, Revellino, Paola, Mikos, Matjaz, editor, Tiwari, Binod, editor, Yin, Yueping, editor, and Sassa, Kyoji, editor

Published

2017

3. The Contribution of Digital Image Correlation for the Knowledge, Control and Emergency Monitoring of Earth Flows.

Author

Mazza, Davide, Romeo, Saverio, Cosentino, Antonio, Mazzanti, Paolo, Guadagno, Francesco Maria, and Revellino, Paola

Subjects

DIGITAL image correlation, EARTHFLOWS, DIGITAL images

Abstract

Earth flows are complex geological processes that, when interacting with linear infrastructures, have the potential to cause significant damage. Consequently, conducting comprehensive investigations and continuous monitoring are becoming paramount in designing effective mitigation measures and ensuring sustainable risk management practices. The use of digital image correlation (DIC) algorithms for the displacement monitoring of earth flows is a relatively new and growing field with a limited number of dedicated works in the literature. Within this framework, the present paper contributes by evaluating DIC techniques at several earth flow sites. These assessments were founded upon data obtained from both low-cost and multi-platform sensors, used to assess the displacement field, pinpointing the most active sectors, and gauging their rates of movement during different kinematic phases. In this regard, the highest localized movement velocities reached in the Pietrafitta (0.01 m/day) and Grillo (0.63 m/day) earth flows experience different ongoing kinematic processes. The versatility of these techniques is notable, manifesting in the ease of installation, cost-effectiveness, and adaptability to various platforms. The proven reliability in terms of maximum accuracy (1 pixel) and sensitivity (0.05 m) lays the foundation for the extensive use of the presented techniques. The amalgamation of these attributes positions DIC techniques as competitive, adaptable, and readily deployable tools in earth flow studies. [ABSTRACT FROM AUTHOR]

Published

2023

4. Reconstruction of long-term earth-flow activity using a hydroclimatological model

Author

Guerriero, Luigi, Diodato, Nazzareno, Fiorillo, Francesco, Revellino, Paola, Grelle, Gerardo, and Guadagno, Francesco Maria

Published

2015

5. The Mount Pizzuto earth flow: deformational pattern and recent thrusting evolution.

Author

Guerriero, Luigi, Revellino, Paola, Luongo, Alessio, Focareta, Mariano, Grelle, Gerardo, and Guadagno, Francesco M.

Subjects

*EARTHFLOWS, *THRUST faults (Geology), *DEFORMATIONS (Mechanics)

Abstract

The Mount Pizzuto earth flow has been periodically active in recent decades. Early in 2006, it surged and created a dam across the Ginestra torrent. Episodic floods induced by the earth-flow dam periodically damaged a section of a local road and power and telephone service lines. This paper presents a map showing deformational structures along the flow and a geometric reconstruction of thrust faults at the earth-flow toe from 2006 to 2014. The map, produced on the basis of field observations, shows the spatial distribution of back-tilted surfaces, flank ridges and normal, thrust, and strike-slip faults. Springs, creeks, and ponds are also shown on the map. The map indicates that the earth flow is composed of five kinematic zones. Cartographic data and the spatial–temporal reconstruction of the thrusting evolution offer the basis for interpreting the (mid-term) kinematics of the flow and its controlling factors, and for assessing the influence of earth-flow movement on torrent channel capacity. [ABSTRACT FROM AUTHOR]

Published

2016

6. Multi-temporal Maps of the Montaguto Earth Flow in Southern Italy from 1954 to 2010.

Author

Guerriero, Luigi, Revellino, Paola, Coe, JeffreyA., Focareta, Mariano, Grelle, Gerardo, Albanese, Vincenzo, Corazza, Angelo, and Guadagno, FrancescoM.

Subjects

*EARTHFLOWS, *TOPOGRAPHIC maps, *BASAL area (Forestry), *GEOGRAPHIC boundaries, *REMOTE-sensing images

Abstract

Historical movement of the Montaguto earth flow in southern Italy has periodically destroyed residences and farmland, and damaged the Italian National Road SS90 and the Benevento-Foggia National Railway. This paper provides maps from an investigation into the evolution of the Montaguto earth flow from 1954 to 2010. We used aerial photos, topographic maps, LiDAR data, satellite images, and field observations to produce multi-temporal maps. The maps show the spatial and temporal distribution of back-tilted surfaces, flank ridges, and normal, thrust, and strike-slip faults. Springs, creeks, and ponds are also shown on the maps. The maps provide a basis for interpreting how basal and lateral boundary geometries influence earth-flow behavior and surface-water hydrology. [ABSTRACT FROM AUTHOR]

Published

2013

7. Influence of slip-surface geometry on earth-flow deformation, Montaguto earth flow, southern Italy.

Author

Guerriero, Luigi, Coe, Jeffrey A., Revellino, Paola, Grelle, Gerardo, Pinto, Felice, and Guadagno, Francesco M.

Subjects

*SURFACE geometry, *EARTHFLOWS, *DEFORMATIONS (Mechanics), *BOREHOLES, *TEMPORAL distribution (Quantum optics), *PLATE tectonics

Abstract

We investigated relations between slip-surface geometry and deformational structures and hydrologic features at the Montaguto earth flow in southern Italy between 1954 and 2010. We used 25 boreholes, 15 static cone-penetration tests, and 22 shallow-seismic profiles to define the geometry of basal- and lateral-slip surfaces; and 9 multitemporal maps to quantify the spatial and temporal distribution of normal faults, thrust faults, back-tilted surfaces, strike-slip faults, flank ridges, folds, ponds, and springs. We infer that the slip surface is a repeating series of steeply sloping surfaces (risers) and gently sloping surfaces (treads). Stretching of earth-flow material created normal faults at risers, and shortening of earth-flow material created thrust faults, back-tilted surfaces, and ponds at treads. Individual pairs of risers and treads formed quasi-discrete kinematic zones within the earth flow that operated in unison to transmit pulses of sediment along the length of the flow. The locations of strike-slip faults, flank ridges, and folds were not controlled by basal-slip surface topography but were instead dependent on earth-flow volume and lateral changes in the direction of the earth-flow travel path. The earth-flow travel path was strongly influenced by inactive earth-flow deposits and pre-earth-flow drainages whose positions were determined by tectonic structures. The implications of our results that may be applicable to other earth flows are that structures with strikes normal to the direction of earth-flow motion (e.g., normal faults and thrust faults) can be used as a guide to the geometry of basal-slip surfaces, but that depths to the slip surface (i.e., the thickness of an earth flow) will vary as sediment pulses are transmitted through a flow. [ABSTRACT FROM AUTHOR]

Published

2014

8. Unsteady sediment discharge in earth flows: A case study from the Mount Pizzuto earth flow, southern Italy.

Author

Guerriero, Luigi, Bertello, Lara, Cardozo, Nestor, Berti, Matteo, Grelle, Gerardo, and Revellino, Paola

Subjects

*UNSTEADY flow, *EARTHFLOWS, *SEDIMENT transport, *KINEMATICS, *THRUST faults (Geology)

Abstract

Surface mapping, GPS surveys, T-Lidar surveys, boreholes, seismic profiles, and HVSR measurements were used to study the mechanisms of sediment transport along the Mount Pizzuto earth flow in southern Italy. The earth flow has several kinematic zones, with transitional areas marked by changing structural styles, from compressional structures (thrusts) upslope to extensional structures (normal faults) downslope. We relate sediment discharge at these transitional zones to internal strain. The results suggest that during surge events, flow acceleration starts within the head and propagates downslope inducing a cascade effect between kinematic zones. During surge events, the average sediment discharge is nearly constant, and a change from sliding to flowing allows propagation of movement towards the toe. During slow movement, kinematic zones are independent and sediment discharge varies along the flow. In general, the velocity profile and the structural style are controlled by the basal slip surface. The implications are: i) sediment discharge is not constant but is a function of the earth flow activity, ii) during surge, earth flow material behaves similar to an incompressible fluid, and iii) the distribution of surface structures can provide information about the geometry of the slip surface and the velocity profile. Additionally, earth flows with a well-defined neck seem to be more likely to surge with respect to those without. [ABSTRACT FROM AUTHOR]

Published

2017

9. Unsteady sediment discharge in earth flows: A case study from the Mount Pizzuto earth flow, southern Italy

Author

Matteo Berti, Nestor Cardozo, Paola Revellino, Luigi Guerriero, Gerardo Grelle, Lara Bertello, Guerriero, Luigi, Bertello, Lara, Cardozo, Nestor, Berti, Matteo, Grelle, Gerardo, Revellino, Paola, Guerriero, L., Bertello, L., Cardozo, N., Berti, M., Grelle, G., and Revellino, P.

Subjects

010504 meteorology & atmospheric sciences, Sediment discharge, Borehole, Surface structure, Kinematics, Slip (materials science), 010502 geochemistry & geophysics, Kinematic, 01 natural sciences, surface structures, Extensional definition, Mount, Basal slip surface, earth flow, surface structures, basal slip surface, kinematics mechanics, sediment discharge, Earth flow, Mechanic, Compressibility, Surge, Geomorphology, Sediment transport, Geology, 0105 earth and related environmental sciences, Earth-Surface Processes

Abstract

Surface mapping, GPS surveys, T-Lidar surveys, boreholes, seismic profiles, and HVSR measurements were used to study the mechanisms of sediment transport along the Mount Pizzuto earth flow in southern Italy. The earth flow has several kinematic zones, with transitional areas marked by changing structural styles, from compressional structures (thrusts) upslope to extensional structures (normal faults) downslope. We relate sediment discharge at these transitional zones to internal strain. The results suggest that during surge events, flow acceleration starts within the head and propagates downslope inducing a cascade effect between kinematic zones. During surge events, the average sediment discharge is nearly constant, and a change from sliding to flowing allows propagation of movement towards the toe. During slow movement, kinematic zones are independent and sediment discharge varies along the flow. In general, the velocity profile and the structural style are controlled by the basal slip surface. The implications are: i) sediment discharge is not constant but is a function of the earth flow activity, ii) during surge, earth flow material behaves similar to an incompressible fluid, and iii) the distribution of surface structures can provide information about the geometry of the slip surface and the velocity profile. Additionally, earth flows with a well-defined neck seem to be more likely to surge with respect to those without. © 2017 Elsevier B.V.

Published

2017