Abstract
Abstract. This paper aims at presenting and comparing two methodologies adopted by the Emilia-Romagna region, northern Italy, to evaluate coastal vulnerability and to produce hazard and risk maps for coastal floods, in the framework of the EU Floods Directive. The first approach was adopted before the directive had been issued. Three scenarios of damage were designed (1-, 10-, 100-year return periods), produced by the concurrent occurrence of a storm, high surge levels and high-water spring tidal levels. Wave heights were used to calculate run-up values along 187 equally spaced profiles, and these were added to the tidal and atmospheric water level contributions. The result is a list of 10 vulnerability typologies. To satisfy the requirements of the directive, the Geological, Seismic and Soil Service (SGSS) recently implemented a different methodology that considers three scenarios (10-, 100- and > 100-year return periods) in terms of wave setup (not including run-up) plus the contribution of surge levels as well as the occurrence of high-water springs. The flooded area extension is determined by a series of computations that are part of a model built into ArcGIS®. The model uses as input a high-resolution lidar DEM that is then processed using a least-path cost analysis. Inundation maps are then overlapped with land use maps to produce risk maps. The qualitative validation and the comparison between the two methods are also presented, showing a positive agreement.
Highlights
Climate change, sea level rise and their impact on humans and the environment are key issues that were, and still are, addressed at European level by many EU-funded projects within the 7th European Union Research Framework (Quevauviller, 2011)
This paper aims at presenting and comparing two methodologies adopted by the Emilia-Romagna region, northern Italy, to evaluate coastal vulnerability and to produce hazard and risk maps for coastal floods, in the framework of the EU Floods Directive
The current paper aims at presenting in detail the methodology adopted at regional level in Emilia-Romagna to satisfy the requirements of the Floods Directive
Summary
Sea level rise and their impact on humans and the environment are key issues that were, and still are, addressed at European level by many EU-funded projects within the 7th European Union Research Framework (Quevauviller, 2011). The storm component (source) is put in relation to the receptor (the coastal area) through numerical modelling that is able to evaluate the extent of flooding (Barredo et al, 2008; Zanuttigh et al, 2011; Wadey et al, 2012; Villatoro et al, 2013) This includes the evaluation of defence failure and breaching (Wadey et al, 2012; Villatoro et al, 2013), the impact of the overflow of freshwater canals (Villatoro et al, 2013), and the importance of flow through underground pipes (Sto. Domingo et al, 2010). The need for highresolution digital elevation models (DEMs), when available, is agreed among experts worldwide and included in official flood assessment guidelines of different countries at EU and non-EU level
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