Technical Note: An operational landslide early warning system at regional scale based on space–time-variable rainfall thresholds
| Autor: | Sandro Moretti, Daniela Lagomarsino, Samuele Segoni, Nicola Casagli, Filippo Catani, Guglielmo Rossi, Alessandro Battistini, Ascanio Rosi |
|---|---|
| Jazyk: | angličtina |
| Rok vydání: | 2018 |
| Předmět: |
lcsh:GE1-350
Warning system Meteorology Computer science business.industry Interface (computing) lcsh:QE1-996.5 lcsh:Geography. Anthropology. Recreation Landslide Hazard lcsh:TD1-1066 lcsh:Geology Variable (computer science) lcsh:G General Earth and Planetary Sciences Early warning system landslide early warning system rainfall thresholds lcsh:Environmental technology. Sanitary engineering Scale (map) business lcsh:Environmental sciences Remote sensing Subdivision |
| Zdroj: | Natural Hazards and Earth System Sciences, Vol 15, Iss 4, Pp 853-861 (2015) |
| ISSN: | 1684-9981 |
| Popis: | We set up an early warning system for rainfall-induced landslides in Tuscany (23 000 km2). The system is based on a set of state-of-the-art intensity-duration rainfall thresholds (Segoni et al., 2014b), makes use of LAMI rainfall forecasts and real-time rainfall data provided by an automated network of more than 300 rain-gauges. The system was implemented in a WebGIS to ease the operational use in civil protection procedures: it is simple and intuitive to consult and it provides different outputs. Switching among different views, the system is able to focus both on monitoring of real time data and on forecasting at different lead times up to 48 h. Moreover, the system can switch between a very straightforward view where a synoptic scenario of the hazard can be shown all over the region and a more in-depth view were the rainfall path of rain-gauges can be displayed and constantly compared with rainfall thresholds. To better account for the high spatial variability of the physical features, which affects the relationship between rainfall and landslides, the region is subdivided into 25 alert zones, each provided with a specific threshold. The warning system reflects this subdivision: using a network of 332 rain gauges, it allows monitoring each alert zone separately and warnings can be issued independently from an alert zone to another. An important feature of the warning system is the use of thresholds that may vary in time adapting at the conditions of the rainfall path recorded by the rain-gauges. Depending on when the starting time of the rainfall event is set, the comparison with the threshold may produce different outcomes. Therefore, a recursive algorithm was developed to check and compare with the thresholds all possible starting times, highlighting the worst scenario and showing in the WebGIS interface at what time and how much the rainfall path has exceeded or will exceed the most critical threshold. Besides forecasting and monitoring the hazard scenario over the whole region with hazard levels differentiated for 25 distinct alert zones, the system can be used to gather, analyze, visualize, explore, interpret and store rainfall data, thus representing a potential support to both decision makers and scientists. |
| Databáze: | OpenAIRE |
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