Abstract
Due to Climate change, unpredictable and uncertain weather conditions increase the likelihood of natural disasters, which correlates to major impacts on Cultural Landscapes and Heritage sites. Thanks to SAR sensors, continuous and rapid information can be collected with satellite data. When a sensor generates a directed beam of pulses, terrain returns high-resolution radar-frequency reflected energy, enabling a first effective data implementation, helping to quickly localize where damage occurred during a flash-flood event. This could facilitate after-disaster response through rapid delivery and coordination of rescue operations. Synthetic Aperture Radar (SAR) data is capable of passing through clouds and weather phenomena and continuously monitor a flooding event by plotting its patterns for a cost-effective flood mapping. Free availability of SAR data through the European Space Agency’s (ESA) Sentinel-1 SAR mission created a major opportunity for flood extent monitoring. The chosen case study is the area of the Metaponto Plain in Basilicata, southern Italy, which recently earned a candidacy as UNESCO site. In the effort of protecting Cultural Landscape and archeological Heritage, local authorities have to face multiple challenges coming from climate change and the impact of human activity. The object of this study is the flash-flooding event occurred on the 12th of November 2019, which was reported to be an extreme hydrological event, causing important damages to the agricultural landscapes and cultural heritage sites. The Metaponto area exemplifies multiple pressures deriving from climate change and human activity, thus having to cohabit within an important cultural landscape and archeological heritage. The workflow here presented can be quickly implemented to extract information through simple and effortless algorithms, providing mid-regional scale event maps with a good resolution, and it is formally aimed at user-end Control Centres for putting in place rapid risk mitigation actions.
Highlights
Emergencies happen, and it is essential for government institutions to respond as soon as possible, estimate damage rapidly, and administer support payments in a short space of time (NEREUS, 2018)
The flood risk management cycle is comprehensive of different intricate phases, it is important to stress the crucial intake given by the flood monitoring and mapping activities
To better understand and spatially locate the flooded areas in the Cultural Landscape and its Heritage, the mask layer was transferred to a QGIS environment and vectorized
Summary
Emergencies happen, and it is essential for government institutions to respond as soon as possible, estimate damage rapidly, and administer support payments in a short space of time (NEREUS, 2018). Mapping the flood during or after a flooding event helps to monitor water expansion and regression and to delineate what are the areas which, in different time threshold, have been invested by the hazard, and so where to concentrate further investments for monitoring flood hazards and land vulnerability overtime (Sanyal & Lu, 2004; Franci, Mandanici, & Bitelli, 2015) These products can be used for flood-prone area delineation in order to prevent future floods, providing crucial information to identify appropriate protection measures and strategies for risk mitigation and producing efficient response plans (Lacava et al, 2019; Dasgupta et al, 2018)
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