Seasonality and forcing factors of the Alaskan Coastal Current in the Bering Strait from July 2011 to July 2012

Thesis (Master's)--University of Washington, 2019 A relatively narrow (~85km) and shallow (~50m) Bering Strait is the only connection between the Pacific and Arctic oceans. Flow through this strait dominates water properties of the Chukchi Sea, impacts Arctic sea ice and stratification, and may...

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Bibliographic Details
Main Author: Morris, Brett
Other Authors: Woodgate, Rebecca A
Format: Thesis
Language:English
Published: 2019
Subjects:
Alaskan Coastal Current
Arctic
Bering Strait
buoyant coastal current
Physical oceanography
Oceanography
Chukchi Sea
Pacific
Chukchi
Sea ice
Online Access:http://hdl.handle.net/1773/44415
Description
Summary:Thesis (Master's)--University of Washington, 2019 A relatively narrow (~85km) and shallow (~50m) Bering Strait is the only connection between the Pacific and Arctic oceans. Flow through this strait dominates water properties of the Chukchi Sea, impacts Arctic sea ice and stratification, and may influence global climate through freshwater input to the sinking zones of the global thermohaline circulation. A buoyant coastal current, the Alaskan Coastal Current (ACC), typically present in the eastern Bering Strait from approximately late April to late December, contributes significantly to the total heat and freshwater fluxes through the strait, (adding approximately 1020J/yr of heat (Tref=-1.9ºC) and 600km3/yr of freshwater (Sref=34.8psu)), and drives much of the spatial variability in water properties in the eastern Chukchi Sea. However, the seasonal variability of this current has not yet been quantified in any detail. We use temperature, salinity, and velocity data from a 6-mooring array deployed across the eastern channel of the Bering Strait from July 2011 to July 2012 to study the seasonality and driving mechanisms of the ACC. We find the ACC is present (and flowing strongly) in July 2011, but disappears from the strait in November 2011. It starts to reappear in May 2012, and is well established by July 2012. Building on the known high correlation between flow and local wind (r~0.7), we examine a single value decomposition of the meridional velocity flow structure in the strait and see that the dominant mode (59% of the variance) contains a strong surface intensified signal trapped to the eastern coast reminiscent of the ACC. Through the use of a simple linear interpolation “box” method, we improve previous transport estimates during the months of strongest ACC transport by ~34%. Using this analysis, we find the greatest monthly mean of ACC transport is in August 2011 at 0.44 ± 0.06 Sv, equivalent to ~29% of the entire Bering Strait throughflow. At the ACC’s peak in August 2011, mooring data suggests its ...

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