NOOS-Drift, an innovative operational transnational multi-model ensemble system to assess ocean drift forecast accuracy.

Sebastien Legrand; Knut-Frode Dagestad; Pierre Daniel; Michel Kapel; Samuël Orsi

doi:https://doi.org/10.5194/egusphere-egu2020-12653

[Back] [Session OS4.9]

EGU2020-12653

https://doi.org/10.5194/egusphere-egu2020-12653

EGU General Assembly 2020

© Author(s) 2020. This work is distributed under
the Creative Commons Attribution 4.0 License.

NOOS-Drift, an innovative operational transnational multi-model ensemble system to assess ocean drift forecast accuracy.

Sebastien Legrand¹, Knut-Frode Dagestad², Pierre Daniel³, Michel Kapel¹, and Samuël Orsi¹

Sebastien Legrand et al.

¹Royal Belgian Institute of Natural Sciences, Brussels, Belgium (sebastien.legrand@naturalsciences.be)
²Norwegian Meteorological Institute, Bergen, Norway (knutfd@met.no)
³Météo-France, Toulouse, France (pierre.daniel@meteo.fr)

In case of maritime pollution, man-overboard, or objects adrift at sea, national maritime authorities of the 9 countries bordering the European North West Continental Shelf (NWS) rely on drift model simulations in order to better understand the situation at stake and plan the best response strategy. So far, the drift forecast services are mainly managed at national levels with almost no integration at the transnational level. Designed as a support service to the national drift forecasting services, NOOS-Drift has the ambition to change this paradigm.

NOOS-Drift is a distributed transnational multi-model ensemble system to assess and improve drift forecast accuracy in the European North West Continental Shelf. Developed as a one-stop-shop web service, the service allows registered users (national drift model operators or trained maritime authorities) to submit on-demand drift simulation requests to be run by all the national drift forecasting services connected to NOOS-Drift. Within 15 minutes after activation, the NOOS-Drift users shall get access to the drift simulation results of the individual ensemble members, as well as the results of a multi-models joint analysis assessing the ensemble spread and delineating risk areas to locate possible maritime pollution. This operation of such a distributed multi-models service is to our knowledge a world premiere.

In this communication, we will present the technical and scientific developments that had to be done to make this service possible, including:

a robust, secure and latency-free communication system that coordinates the execution of the different national models
a strategy to build the multi-model ensemble
a definition of drift forecast accuracy
the joint multi-model analysis tools
the standard file formats and visualisation means

Finally we will illustrate on an example how the NOOS-Drift service could change the decision making process.

How to cite: Legrand, S., Dagestad, K.-F., Daniel, P., Kapel, M., and Orsi, S.: NOOS-Drift, an innovative operational transnational multi-model ensemble system to assess ocean drift forecast accuracy., EGU General Assembly 2020, Online, 4–8 May 2020, EGU2020-12653, https://doi.org/10.5194/egusphere-egu2020-12653, 2020

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