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These studies point to the importance of understanding the processes involving heat and water/salt transfer between the atmosphere, sea ice, and the upper ocean in the Labrador Sea.In this paper, we conduct a modeling study of several winter processes in the upper ocean which are important to climate change study of the subarctic North Atlantic. From the model results, we hope to gain a better understanding of the factors that control the processes. Three aspects of air-ice-ocean interaction in the Labrador Sea will be addressed in particular: (1) the surface mixed layer, (2) salinity effects, and (3)

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A dynamical model for wind‐driven ice motion: Application to ice drift on the Labrador Shelf

Tang¹,

Gui²

1996

J. Geophys. Res.

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A three‐dimensional coupled ice‐ocean model has been developed to study short‐term ice motion over the eastern Canadian continental shelf. The model consists of a Hibler ice model and a diagnostic ocean model. Ice is coupled to the ocean through a surface Ekman layer. The model is implemented for the Labrador Sea using 6‐hourly winds and atmospheric pressures as input forcings. The results show that the model is able to produce many desired features of ice motion and ocean currents including wind‐generated coastal currents, an ice velocity field reflecting the influence of permanent and transient currents, and an increased sea surface tilt and ice internal stress at the coast. The model is used to simulate ice drift trajectories from six ice beacons deployed over the Labrador and Newfoundland Shelves in 1992. In the subtidal frequency range the modeled and observed ice velocities are in excellent agreement. Model errors, measured by the rms separation between the modeled and observed positions, increase with time. The increase is 10 km d−1 in the first 2 days and slower after 2 days. The model results are compared with a model run without ice‐ocean coupling and a calculation using an empirical relationship and parameters (speed ratio and turning angle). The errors are 20% (no ice‐ocean coupling) and 70% (empirical relationship) larger than the errors in the coupled model in the first 2 days and much larger after several days.

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Q. Gui

Barotropic Response of the Labrador/Newfoundland Shelf to a Moving Storm

Modeling the Mean Circulation of the Labrador Sea and the Adjacent Shelves

A modeling study of upper ocean winter processes in the Labrador Sea

A dynamical model for wind‐driven ice motion: Application to ice drift on the Labrador Shelf

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