Publication details.

Paper

Year:2015
Author(s):A. Jordi, D.-P. Wang
Title:Estimation of wind forcing and analysis of near-inertial motions generated by a storm in a submarine canyon with an ensemble Kalman filter
Journal:CONTINENTAL SHELF RESEARCH
ISSN:0278-4343
JCR Impact Factor:2.011
Volume:94
Pages:17-27
D.O.I.:10.1016/j.csr.2014.12.007
Web:https://www.scopus.com/inward/record.uri?partnerID=HzOxMe3b&scp=84920625848&origin=inward
Abstract:The impact of high-frequency winds on the generation and propagation of inertial currents in the Palamós submarine canyon (northwestern Mediterranean) during a severe storm on 9-16 November 2001 is evaluated in an ocean circulation model. Moored current meter time series collected in and around the canyon during the storm are assimilated with an ensemble adjustment Kalman filter (EAKF) to adjust wind forcing through a simultaneous state and parameter estimation approach. Winds are included as time-dependent parameters, which are updated in each assimilation step as part of the model state. A simulation forced by the estimated wind significantly improves simulation with winds from the atmospheric reanalysis (the RMS error reduction is about 50%). This is due to the higher energy for the estimated wind at inertial period in the clockwise rotating component, which enhances generation of near-inertial motions. The surface inertial energy however does not decay as rapidly compared to a simulation with data assimilation. It is suggested that the submesoscales, which are present in the data assimilated simulation, are effective in channeling a spatially heterogeneous vertical propagation of near-inertial motions.

Related research groups

  • Marine Ecosystems Dynamics