Your search keyword '"Stefano Luigi Gariano"' showing total 3 results

1. A review of the recent literature on rainfall thresholds for landslide occurrence

Author

Samuele Segoni, Stefano Luigi Gariano, Luca Piciullo, Segoni, S, Piciullo, L, and Gariano, S

Subjects

validation, 021110 strategic, defence & security studies, 010504 meteorology & atmospheric sciences, Warning system, Rain gauge, Process (engineering), Computer science, media_common.quotation_subject, 0211 other engineering and technologies, Landslide, 02 engineering and technology, Geotechnical Engineering and Engineering Geology, 01 natural sciences, Data science, landslide prediction, Identification (information), slope failure, Natural hazard, Early warning system, Quality (business), Early warning system, Landslide prediction, Slope failure, Validation, rainfall thresholds, 0105 earth and related environmental sciences, media_common

Abstract

The topic of rainfall thresholds for landslide occurrence was thoroughly investigated, producing abundance of case studies at different scales of analysis and several technical and scientific advances. We reviewed the most recent papers published in scientific journals, highlighting significant advances and critical issues. We collected and grouped all the information on rainfall thresholds into four categories: publication details, geographical distribution and uses, dataset features, thresholds definition. In each category, we selected descriptive information to characterize each one of the 115 rainfall threshold published in the last 9 years. The main improvements that stood out from the review are the definition of standard procedures for the identification of rainfall events and for the objective definition of the thresholds. Numerous advances were achieved in the cataloguing of landslides too, which can be defined as one of the most important variables, together with rainfall data, for drawing reliable thresholds. Another focal point of the reviewed articles was the increased definition of thresholds with different exceedance probabilities to be employed for the definition of warning levels in landslide early warning systems. Nevertheless, drawbacks and criticisms can be identified in most part of the recent literature on rainfall thresholds. The main issues concern the validation process, which is seldom carried out, and the very frequent lack of explanations for the rain gauge selection procedure. The paper may be used as a guide to find adequate literature on the most used or the most advanced approaches followed in every step of the procedure for defining reliable rainfall thresholds. Therefore, it constitutes a guideline for future studies and applications, in particular in early warning systems. The paper also aims at addressing the gaps that need to be filled to further enhance the quality of the research products in this field. The contribution of this manuscript could be seen not only as a review of the state of the art, but also an effective method to disseminate the best practices among scientists and stakeholders involved in landslide hazard management.

Published

2018

2. Definition and performance of a threshold-based regional early warning model for rainfall-induced landslides

Author

Luca Piciullo(1), Stefano Luigi Gariano(2, 3)(*), Massimo Melillo(2), Maria Teresa Brunetti(2), Silvia Peruccacci(2), Fausto Guzzetti(2), Michele Calvello(1), Piciullo, L, Gariano, S, Melillo, M, Brunetti, M, Peruccacci, S, Guzzetti, F, and Calvello, M

Subjects

Campania, 021110 strategic, defence & security studies, Percentile, 010504 meteorology & atmospheric sciences, Meteorology, 0211 other engineering and technologies, EDuMaP method, rainfall threshold, Landslide, 02 engineering and technology, Geotechnical Engineering and Engineering Geology, 01 natural sciences, Geography, Frequentist inference, Natural hazard, Early warning model, Early warning system, shallow landslide, 0105 earth and related environmental sciences, Event (probability theory), early warning system

Abstract

A process chain for the definition and the performance assessment of an operational regional warning model for rainfall-induced landslides, based on rainfall thresholds, is proposed and tested in a landslide-prone area in the Campania region, southern Italy. A database of 96 shallow landslides triggered by rainfall in the period 2003–2010 and rainfall data gathered from 58 rain gauges are used. First, a set of rainfall threshold equations are defined applying a well-known frequentist method to all the reconstructed rainfall conditions responsible for the documented landslides in the area of analysis. Several thresholds at different exceedance probabilities (percentiles) are evaluated, and nine different percentile combinations are selected for the activation of three warning levels. Subsequently, for each combination, the issuing of warning levels is computed by comparing, over time, the measured rainfall with the pre-defined warning level thresholds. Finally, the optimal percentile combination to be employed in the regional early warning system, i.e. the one providing the best model performance in terms of success and error indicators, is selected employing the “event, duration matrix, performance” (EDuMaP) method.

Published

2016

3. Rainfall thresholds for the possible landslide occurrence in Sicily (Southern Italy) based on the automatic reconstruction of rainfall events

Author

Massimo Melillo (1), Maria Teresa Brunetti (1), Silvia Peruccacci (1), Stefano Luigi Gariano (1, and Fausto Guzzetti (1)

Subjects

021110 strategic, defence & security studies, Geography, 010504 meteorology & atmospheric sciences, Climatology, Natural hazard, 0211 other engineering and technologies, Early warning system, Landslide, 02 engineering and technology, Geotechnical Engineering and Engineering Geology, 01 natural sciences, Algorithm . Landslide . Rainfall . Rainfall event . Thresholds, 0105 earth and related environmental sciences

Abstract

Review of the literature on the reconstruction of the rainfall responsible for slope failures reveals that criteria for the identification of rainfall events are lacking or somewhat subjective. To overcome this problem, we developed an algorithm for the objective and reproducible reconstruction of rainfall events and of rainfall conditions responsible for landslides. The algorithm consists of three distinct modules for (i) the reconstruction of distinct rainfall events, in terms of duration (D, in h) and cumulated event rainfall (E, in mm), (ii) the identification of multiple ED rainfall conditions responsible for the documented landslides, and (iii) the definition of critical rainfall thresholds for possible landslide occurrences. The algorithm uses pre-defined parameters to account for different seasonal and climatic settings. We applied the algorithm in Sicily, southern Italy, using rainfall measurements obtained from a network of 169 rain gauges, and information on 229 rainfall-induced landslides occurred between July 2002 and December 2012. The algorithm identified 29,270 rainfall events and reconstructed 472 ED rainfall conditions as possible triggers of the observed landslides. The algorithm exploited the multiple rainfall conditions to define objective and reproducible empirical rainfall thresholds for the possible initiation of landslide in Sicily. The calculated thresholds may be implemented in an operational early warning system for shallow landslide forecasting.

Published

2016