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- Title
High-resolution modeling of the mean flow and meso-scale eddy variability around the Grand Banks of Newfoundland.
- Authors
Zhai, Li; Lu, Youyu; Higginson, Simon; Davidson, Fraser; Dupont, Frédéric; Roy, François; Chanut, Jérôme; Smith, Gregory
- Abstract
The mean flow and meso-scale eddy variability in the region around the Grand Banks of Newfoundland (GBN) are quantified by analyzing surface drifter observations, mean dynamic topography (MDT), along-track satellite altimeter observations, and the solutions of two high-resolution ocean models. By increasing the horizontal resolution from 6.5 km (CREG12) to 2.2 km (GBN36), the modeled mean kinetic energy (MKE) decreases and the eddy kinetic energy (EKE) increases in the study area. GBN36 obtains the MKE of surface geostrophic currents and total currents similar to that derived from MDT and drifter data, whereas CREG12 overestimates these quantities by 40-53 %. CREG12 and GBN36 underestimate the EKE of surface geostrophic currents by 46 and 30 %, respectively, with respect to the EKE derived from along-track altimeter data. The models do not reproduce the strong eddy activity in the Gulf Stream and its downstream region, possibly related to a northward shift of the Gulf Stream position by 0.5° in latitude compared with observations. Both models obtain wavenumber spectra of sea level anomaly in close agreement with the spectrum derived from along-track altimeter data, with a slope of −5 at wavelengths near 100 km on logarithmic spectral density scales.
- Subjects
GRAND Banks of Newfoundland; NATURAL satellites; KINETIC energy; GEOSTROPHIC currents; WAVENUMBER; HIGH resolution spectroscopy
- Publication
Ocean Dynamics, 2015, Vol 65, Issue 6, p877
- ISSN
1616-7341
- Publication type
Article
- DOI
10.1007/s10236-015-0839-5