Por favor, use este identificador para citar o enlazar este ítem: http://hdl.handle.net/20.500.11765/15115
Assessing the coastal hazard of Medicane Ianos through ensemble modelling
Título : Assessing the coastal hazard of Medicane Ianos through ensemble modelling
Autor : Ferrarin, ChristianPantillon, FlorianDavolio, SilvioBajo, MarcoMiglietta, Mario MarceloAvolio, ElenioCarrió Carrió, Diego SaúlPytharoulis, IoannisSánchez, ClaudioPatlakas, PlatonGonzález-Alemán, Juan Jesús ORCID RESEARCHERID SCOPUSID Autor AEMETFlaounas, Emmanouil
Palabras clave : Medicane Ianos; Flooding; Severe damage; Intense cyclones; Sea storms; Mediterranean coastal
Fecha de publicación : 2023
Editor: Copernicus Publications; European Geosciences Union
Citación : Natural Hazards and Earth System Sciences. 2023, 23, p. 2273–2287
Versión del editor: https://doi.org/10.5194/nhess-23-2273-2023
Resumen : On 18 September 2020, Medicane Ianos hit the western coast of Greece, resulting in flooding and severe damage at several coastal locations. In this work, we aim at evaluating its impact on sea conditions and the associated uncertainty through the use of an ensemble of numerical simulations. We applied a coupled wave–current model to an unstructured mesh, representing the whole Mediterranean Sea, with a grid resolution increasing in the Ionian Sea along the cyclone path and the landfall area. To investigate the uncertainty in modelling sea levels and waves for such an intense event, we performed an ensemble of ocean simulations using several coarse (10 km) and high-resolution (2 km) meteorological forcings from different mesoscale models. The performance of the ocean and wave models was evaluated against observations retrieved from fixed monitoring stations and satellites. All model runs emphasized the occurrence of severe sea conditions along the cyclone path and at the coast. Due to the rugged and complex coastline, extreme sea levels are localized at specific coastal sites. However, numerical results show a large spread of the simulated sea conditions for both the sea level and waves, highlighting the large uncertainty in simulating this kind of extreme event. The multi-model and multi-physics approach allows us to assess how the uncertainty propagates from meteorological to ocean variables and the subsequent coastal impact. The ensemble mean and standard deviation were combined to prove the hazard scenarios of the potential impact of such an extreme event to be used in a flood risk management plan.
Patrocinador: This study has been partially supported by the Interreg Italy-Croatia STREAM project (Strategic development of flood management; project ID 10249186).
URI : http://hdl.handle.net/20.500.11765/15115
ISSN : 2195-9269
Colecciones: Artículos científicos 2023-2026


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