A dye tracer reveals cross-shelf dispersion and interleaving on the Oregon shelf

A. C. Dale; M. D. Levine; J. A. Barth; J. A. Austin

doi:10.1029/2005GL024959

A dye tracer reveals cross-shelf dispersion and interleaving on the Oregon shelf

A. C. Dale, M. D. Levine, J. A. Barth, J. A. Austin

Physics & Astronomy (Duluth)

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Abstract

A fluorescent dye tracer was injected into the pycnocline on the Oregon shelf at a depth of 9-10 m. It spread rapidly cross-shelf as two distinct layers, one above the other in the water column, split by interleaving dye-free water. The vertical scale of these layers, and associated density steps, was 1-2 m, and the horizontal extent of interleaving exceeded 1.6 km after an inertial period. The upper dye layer was sharply peaked and embedded in a strong vertical density gradient. The lower layer was slab-like and associated with weak stratification. Both layers were inclined slightly in density space. It is proposed that internal wave-induced mixing and the lateral collapse of mixing patches were important mechanisms. Analogies can be drawn between these dye structures and frequently-observed thin planktonic layers. By approximating the dye dispersion as a Fickian process, estimated isopycnal and diapycnal eddy diffusivities of κ _x = 4.1 m² s^-1 and κ _z = 1.4 × 10^-5 m² s^-1 are obtained.

Original language	English (US)
Article number	L03604
Journal	Geophysical Research Letters
Volume	33
Issue number	3
DOIs	https://doi.org/10.1029/2005GL024959
State	Published - Feb 16 2006

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abstract = "A fluorescent dye tracer was injected into the pycnocline on the Oregon shelf at a depth of 9-10 m. It spread rapidly cross-shelf as two distinct layers, one above the other in the water column, split by interleaving dye-free water. The vertical scale of these layers, and associated density steps, was 1-2 m, and the horizontal extent of interleaving exceeded 1.6 km after an inertial period. The upper dye layer was sharply peaked and embedded in a strong vertical density gradient. The lower layer was slab-like and associated with weak stratification. Both layers were inclined slightly in density space. It is proposed that internal wave-induced mixing and the lateral collapse of mixing patches were important mechanisms. Analogies can be drawn between these dye structures and frequently-observed thin planktonic layers. By approximating the dye dispersion as a Fickian process, estimated isopycnal and diapycnal eddy diffusivities of κ x = 4.1 m2 s-1 and κ z = 1.4 × 10-5 m2 s-1 are obtained.",

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AU - Dale, A. C.

AU - Levine, M. D.

AU - Barth, J. A.

AU - Austin, J. A.

PY - 2006/2/16

Y1 - 2006/2/16

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A dye tracer reveals cross-shelf dispersion and interleaving on the Oregon shelf

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