EGU2020-20429, updated on 13 Jan 2022
https://doi.org/10.5194/egusphere-egu2020-20429
EGU General Assembly 2020
© Author(s) 2022. This work is distributed under
the Creative Commons Attribution 4.0 License.

Validation of the SAMOA Operational Forecasting System in Spanish Mediterranean Ports

María Liste Muñoz1, Marc Mestres Ridge1, Manuel Espino Infantes1, Manel Grifoll Colls1, Agustín Sanchez-Arcilla1, Manuel García León2, Marcos García Sotillo2, and Enrique Álvarez Fanjul2
María Liste Muñoz et al.
  • 1Laboratori d’Enginyeria Marítima (LIM), Universitat Politècnica de Catalunya - BarcelonaTech (UPC), Barcelona, Spain.
  • 2Puertos del Estado, Madrid, Spain.

Working in the coastal marine environment is highly challenging, among other reasons, due to the variety of extreme, seasonal, short and long-term environmental conditions that affect the coastline, beaches, infrastructures and port operations. The maritime climate directly affects the construction and maintenance of port infrastructures, the access of ships to ports, the safety of cargo handling operations, emergency response or the environmental management of effects of port operations. Currently, the ability to predict the sea state from a few hours to days has reached levels of precision and reliability unbelievable a few years ago. And all this, in combination with numerical measurements and predictions, has enabled significant advances in knowledge about meteorological and oceanographic conditions, making possible the development of forecasting systems to provide real, accurate and safe support in decision making in ports.

SAMOA initiative (System of Meteorological and Oceanographic Support for Port Authorities), developed by Spanish Port System (Puertos del Estado), in cooperation with Spanish Port Authorities, provides high-resolution coastal operational prediction systems in domains such as harbours and nearby coastal waters.

We present a high-resolution coastal operational prediction system which simulates the hydrodynamic in the Spanish Mediterranean Ports from April to September 2019. Bathymetry was built using a combination of bathymetric data from GEBCO (General Bathymetric Chart of the Oceans), and specific local high-resolution sources provided by port authorities. Daily updated hourly winds and heat and water fluxes from the Spanish Meteorological Agency forecast services were used as a surface forcing. The Regional Ocean Modelling System, ROMS, was used to investigate the hydrodynamics.

Three-day forecast of three-dimensional currents and other oceanographic variables, such as temperature, salinity, and sea level, were produced. These results were compared with field campaigns data, displaying agreements between model outputs and in-situ observations. Finally, a look ahead to the future of the operational prediction systems is provided as a useful tool to make informed decisions around port safety and efficiency.

We would like to acknowledge financial support from ECOSISTEMA-BC Project (CTM2017-84275-R), funded by the Spanish State Research Agency.

How to cite: Liste Muñoz, M., Mestres Ridge, M., Espino Infantes, M., Grifoll Colls, M., Sanchez-Arcilla, A., García León, M., García Sotillo, M., and Álvarez Fanjul, E.: Validation of the SAMOA Operational Forecasting System in Spanish Mediterranean Ports, EGU General Assembly 2020, Online, 4–8 May 2020, EGU2020-20429, https://doi.org/10.5194/egusphere-egu2020-20429, 2020.

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