Separating Mesoscale and Submesoscale Flows from Clustered Drifter Trajectories

Oscroft, Sarah and Sykulski, Adam M. and Early, Jeffrey J. (2020) Separating Mesoscale and Submesoscale Flows from Clustered Drifter Trajectories. Fluids, 6 (1): 14. ISSN 2311-5521

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Abstract

Drifters deployed in close proximity collectively provide a unique observational data set with which to separate mesoscale and submesoscale flows. In this paper we provide a principled approach for doing so by fitting observed velocities to a local Taylor expansion of the velocity flow field. We demonstrate how to estimate mesoscale and submesoscale quantities that evolve slowly over time, as well as their associated statistical uncertainty. We show that in practice the mesoscale component of our model can explain much first and second-moment variability in drifter velocities, especially at low frequencies. This results in much lower and more meaningful measures of submesoscale diffusivity, which would otherwise be contaminated by unresolved mesoscale flow. We quantify these effects theoretically via computing Lagrangian frequency spectra, and demonstrate the usefulness of our methodology through simulations as well as with real observations from the LatMix deployment of drifters. The outcome of this method is a full Lagrangian decomposition of each drifter trajectory into three components that represent the background, mesoscale, and submesoscale flow.

Item Type:
Journal Article
Journal or Publication Title:
Fluids
Subjects:
?? driftersmesoscalesubmesoscalediffusivitystrainvorticitydivergencelagrangianfrequency spectrabootstrapuncertainty quantificationsplines ??
ID Code:
149792
Deposited By:
Deposited On:
09 Dec 2020 12:55
Refereed?:
Yes
Published?:
Published
Last Modified:
31 Aug 2024 00:12