Characterizing the surface circulation in Ebro Delta (NW Mediterranean) with HF radar and modeled current data

Quality-controlled current observations from a High Frequency radar (HFR) network deployed in the Ebro River Delta (NW Mediterranean) were combined with outputs from IBI operational ocean forecasting system in order to comprehensively portray the ocean state and its variability during 2014. Accurate...

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Bibliographic Details
Published in:Journal of marine systems 2016-11, Vol.163, p.61-79
Main Authors: Lorente, P., Piedracoba, S., Sotillo, M.G., Aznar, R., Amo-Balandron, A., Pascual, A., Soto-Navarro, J., Alvarez-Fanjul, E.
Format: Article
Language:English
Subjects:
Circulation
Coastal circulation
Deltas
Dynamics
Forecasting
High frequency radar
Mathematical models
Model skill assessment
Oceans
Operational oceanography
Rivers
Skill metrics
Skills
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Summary:Quality-controlled current observations from a High Frequency radar (HFR) network deployed in the Ebro River Delta (NW Mediterranean) were combined with outputs from IBI operational ocean forecasting system in order to comprehensively portray the ocean state and its variability during 2014. Accurate HFR data were used as benchmark for a rigorous validation of the Iberia-Biscay-Ireland (IBI) regional system, routinely operated in the frame of the Copernicus Marine Environment Monitoring Service (CMEMS). The analysis of skill metrics and monthly averaged current maps showed that IBI reasonably captured the prevailing dynamic features of the coastal circulation previously observed by the HFR, according to the moderate resemblance found in circulation patterns and the spatial distribution of eddy kinetic energy. The model skill assessment was completed with an exploration of dominant modes of spatiotemporal variability. The EOF analysis confirmed that the modeled surface current field evolved both in space and time according to three significantly dominant modes of variability which accounted for the 49.2% of the total variance, in close agreement with the results obtained for HFR (46.1%). The response of the subtidal surface current field to prevailing wind regime in the study area was examined in terms of induced circulation structures and immediacy of reaction by performing a conditional averaging approach and a time-lagged vector correlation analysis, respectively. This observations-model synergistic strategy has proved to be valid to operationally monitor the complex coastal circulation in Ebro Delta despite the observed model drawbacks in terms of reduced energy content in surface currents and some inaccuracies in the wind-driven low frequency response. This integrated methodology aids to improve the prognostic capabilities of IBI ocean forecasting system and also to facilitate high-stakes decision-making for coastal management in the Ebro River Delta marine protected area. •Integrated observations-model approach to study the circulation in the Ebro Delta•HF radar current data were used as benchmark for the IBI model skill assessment•The dominant modes of spatiotemporal variability were explored•IBI reasonably captured the prevailing dynamic features of the coastal circulation•The response of the surface current field to prevailing wind regime was examined
ISSN:0924-7963
1879-1573
DOI:10.1016/j.jmarsys.2016.07.001