De Biasio, F.; Zecchetto, S. Tuning the Model Winds in Perspective of Operational Storm Surge Prediction in the Adriatic Sea. J. Mar. Sci. Eng.2023, 11, 544.
De Biasio, F.; Zecchetto, S. Tuning the Model Winds in Perspective of Operational Storm Surge Prediction in the Adriatic Sea. J. Mar. Sci. Eng. 2023, 11, 544.
De Biasio, F.; Zecchetto, S. Tuning the Model Winds in Perspective of Operational Storm Surge Prediction in the Adriatic Sea. J. Mar. Sci. Eng.2023, 11, 544.
De Biasio, F.; Zecchetto, S. Tuning the Model Winds in Perspective of Operational Storm Surge Prediction in the Adriatic Sea. J. Mar. Sci. Eng. 2023, 11, 544.
Abstract
Sea surface wind forecasts in the Adriatic Sea often suffer for unadequate modelling, especially for the wind speed. This has detrimental effects on the accuracy of sea level and storm surge predictions. We present a numerical method to reduce the bias between the sea surface wind observed by the scatterometers and that supplied by the European Centre for Medium-Range Weather Forecasts (ECMWF) global atmospheric model, for storm surge forecasting applications. The method, called “wind bias mitigation”, relies on scatterometer observations to determine a multiplicative factor ∆ws which modulates the standard model wind in order to decrease the bias between scatterometer and model. We compare four different mathematical approaches to this method, for a total of eight different formulations of the multiplicative factor ∆ws. Four datasets are used for the assessment of the eight different bias mitigation methods: a collection of 29 Storm Surge Events (SEVs) cases in the years 2004-2014, a collection of 48 SEVs in the years 2013-2016, a collection of 364 cases of random sea level conditions in the same period, and a collection of the seven SEVs in 2012-2016 that were worst predicted by the Centro Previsioni e Segnalazioni Maree, Comune di Venezia (Tide Forecast and Early Warning Centre of the Venice Municipality - CPSM). The statistical analysis shows that the bias mitigation procedures supplies a mean wind speed more accurate than the standard forecast, when compared with scatterometer observations, in more than 70% of the analyzed cases.
Keywords
scatterometer; sea surface wind; storm surge; atmospheric model
Subject
Environmental and Earth Sciences, Atmospheric Science and Meteorology
Copyright:
This is an open access article distributed under the Creative Commons Attribution License which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.
