Abstract
Coastal flooding is a global phenomenon that results in severe economic losses, threatens lives, and impacts coastal communities worldwide. While recent developments in real-time flood forecasting systems provide crucial information to support coastal communities during coastal disasters, there remains a challenge to implement such systems in data-poor regions. This study demonstrates an operational real-time coupled surge wave guidance system for the coastal areas of Southern Brazil. This system is based on the recently developed integrated flood (iFLOOD) model, which utilizes the coupled hydrodynamic and phase-averaged ADCIRC–SWAN wave numerical model, driven by astronomical tides and atmospheric forcing from the Global Forecast System (GFS). This numerical modeling framework can simulate water levels and waves with a lead time of 84 h. A version of the coupled ADCIRC–SWAN model calibrated for Brazil, i.e., iFLOOD-Brazil, was operationally implemented (i.e., twice a day) over a period of 4 months (April to September 2020) for normal daily weather validation, as well as during a recent “bomb” cyclone that strongly impacted the southern coast of the country in June 2020. The real-time water levels and waves forecasted by iFLOOD-Brazil showed promising results against observations, with root mean square error (RMSE) values of 0.32 m and 0.68 m, respectively, for normal daily weather. Additionally, the RMSE values were 0.23 m for water levels and 1.55 m for waves during extreme weather, averaged over eight water level and two wave recording stations. In order to improve real-time predictions, a bias correction scheme was introduced and was shown to improve the water level and wave forecasts by removing the known systematic errors resulting from underestimation of astronomical tides and inadequate initial boundary conditions. The bias-corrected forecasts showed significant improvements in forecasted wave heights (0.47 m, 0.35 m) and water levels (0.17 m, 0.28 m) during daily and extreme weather conditions. The real-time iFLOOD-Brazil forecast system is the first step toward developing an accurate prediction model to support effective emergency management actions, storm mitigation, and planning in order to protect these economically valuable and socially vulnerable coastal areas.
Highlights
Due to their relatively high frequency and intensity, coastal floods have long been considered to be among the most devastating natural hazards [1] on the planet, often resulting in the destructionWater 2020, 12, 3397; doi:10.3390/w12123397 www.mdpi.com/journal/waterWater 2020, 12, 3397 of coastal defenses and the consequential loss of lives and property [2]
The present study develops the first flood guidance system incorporating total water levels and waves in a user-friendly online platform for the coastal areas of Brazil
This study assessed a framework for forecasting of hydrodynamic and wave conditions in the coastal areas of Southern Brazil
Summary
Water 2020, 12, 3397 of coastal defenses and the consequential loss of lives and property [2] These extreme events are the result of a series of non-linear interactions between meteorological and oceanographic drivers, including astronomical tides, wind-generated waves, and storm surges [3,4,5]. Despite the evident complexity associated with the representation of the interactions between these mechanisms, it is well-known that the majority of deaths caused by coastal floods can be prevented with efficient emergency response strategies, improved planning, and accurate warning systems [11], which in turn intrinsically depend on timely and accurate flood forecasts [12]. A significant scientific effort has been made towards the development of reliable online real-time coastal flood forecast systems worldwide
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