Resolution dependent relative dispersion statistics in a hierarchy of ocean models

In order to determine the effect of Eulerian spatial resolution on the two particle statistics of synthetic drifter trajectories, we examine a hierarchy of ocean models, starting from 2D turbulence simulations, progressing to idealized simulations of a buoyant coastal jet with ROMS, and finally to r...

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Bibliographic Details
Published in:Ocean modelling (Oxford) 2010, Vol.31 (1), p.36-50
Main Authors: Poje, Andrew C., Haza, Angelique C., Özgökmen, Tamay M., Magaldi, Marcello G., Garraffo, Zulema D.
Format: Article
Language:English
Subjects:
Buoyancy
Coastal
Computer simulation
Dispersion
Dispersions
Hierarchies
Lagrangian
Lyapunov exponents
Marine
Ocean models
Statistics
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Summary:In order to determine the effect of Eulerian spatial resolution on the two particle statistics of synthetic drifter trajectories, we examine a hierarchy of ocean models, starting from 2D turbulence simulations, progressing to idealized simulations of a buoyant coastal jet with ROMS, and finally to realistic HYCOM simulations of the Gulf Stream. In each case, particle dispersion at large time and space scales is found to be controlled by energetic meso-scale features of the flow that are relatively insensitive to the resolution of finer scale motions. In all cases, time-distance graphs given in terms of computed Finite Scale Lyapunov Exponents show an expected increase in the extent of exponential scaling with increasing spatial smoothing of the velocity field. The limiting value of the FSLE at small separation distances is found to scale remarkably well with the resolution of Eulerian velocity gradients as given by the average of positive Okubo–Weiss parameter values.
ISSN:1463-5003
1463-5011
DOI:10.1016/j.ocemod.2009.09.002