Reconciling Lagrangian Diffusivity and Effective Diffusivity in Contour-Based Coordinates

The present study reconciles theoretical differences between the Lagrangian diffusivity and effective diffusivity in a transformed spatial coordinate based on the contours of a quasi-conservative tracer. In the transformed coordinate, any adiabatic stirring effect, such as shear-induced dispersion,...

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Bibliographic Details
Published in:Journal of Physical Oceanography
Main Authors: Qian, Yu-Kun, Peng, Shiqiu, Liang, Chang-Xia
Format: Report
Language:English
Published: AMER METEOROLOGICAL SOC 2019
Subjects:
Oceanography
SURFACE CIRCULATION
STOCHASTIC-MODELS
EDDY DIFFUSIVITY
LATERAL DIFFUSIVITY
SOUTHERN-OCEAN
PART II
TRANSPORT
STATISTICS
PACIFIC
SEA
Pacific
Southern Ocean
Online Access:http://ir.gig.ac.cn/handle/344008/49935
https://doi.org/10.1175/JPO-D-18-0251.1
Description
Summary:The present study reconciles theoretical differences between the Lagrangian diffusivity and effective diffusivity in a transformed spatial coordinate based on the contours of a quasi-conservative tracer. In the transformed coordinate, any adiabatic stirring effect, such as shear-induced dispersion, is naturally isolated from diabatic cross-contour motions. Therefore, Lagrangian particle motions in the transformed coordinate obey a transformed zeroth-order stochastic (i.e., random walk) model with the diffusivity replaced by the effective diffusivity. Such a stochastic model becomes the theoretical foundation on which both diffusivities are exactly unified. In the absence of small-scale diffusion, particles do not disperse at all in the transformed contour coordinate. Besides, the corresponding Lagrangian autocorrelation becomes a delta function and is thus free from pronounced overshoot and negative lobe at short time lags that may be induced by either Rossby waves or mesoscale eddies; that is, particles decorrelate immediately and Lagrangian diffusivity is already asymptotic nomatter how small the time lag is. The resulting instantaneous Lagrangian spreading rate is thus conceptually identical to the effective diffusivity that only measures the instantaneous irreversible mixing. In these regards, the present study provides a new look at particle dispersion in contour-based coordinates.

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