Catalog Record: Physical Oceanography of Alaska's Beaufort Sea
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Physical Oceanography of Alaska's Beaufort Sea

The Alaskan Beaufort Sea continental shelf spans approximately 600 km along-shore and 80 km in the cross-shore direction. Circulation patterns of the Chukchi and Beaufort Seas are schematically described in our transport pathway cartoon. The Beaufort shelf circulation is strongly influenced by ice, wind, fresh water (river discharge and ice melt) and air-sea heat fluxes. Tidal currents are generally quite small (< 5 cm/s). The shelf waters are covered by landfast and drifting pack ice during the winter but are often nearly ice-free in August and September. Other summers, however, very little open water develops [for example, 1983]. Mean winds are strong and normally directed from the northeast. Arctic rivers can discharge 90% of their total annual outflow in the weeks of the spring freshet. The Colville, Kuparuk and Mackenzie Rivers all discharge significant fresh water to the Beaufort coastal zone.

Major canyon systems bound the Alaskan Beaufort shelf to the west (Barrow Canyon) and to the east (Mackenzie Canyon). The shelf has low bathymetric relief but gouging and bulldozing by ice keels creates many small-scale features. Bottom gouging presents considerable risk to instruments deployed in the Beaufort. Before our field program, we did not know if it was possible to collect year-round measurements in the shallow Beaufort waters without great risk to the instruments. By developing a very compact mooring and choosing deployment locations with care, we have had reasonable success: to date, out of 16 deployments, only two have been destroyed by drifting ice. From these two, all instruments were nonetheless retrieved with at least some data intact.

Our short and squat moorings provide a platform from which we have made temperature, conductivity (salinity), pressure, transmissivity and current velocity measurements. Measurements are made every 20-60 minutes over the course of a year. The mooring design includes a popup buoy to facilitate revocery at the end of the deployment. An acoustic signal from the recovery vessel triggers a mechanism on the mooring to release the buoy. The buoy has a long tether attached, so the recovery crew can grab hold of the buoy and pull the entire mooring back on board.


Data and Resources

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Status: Complete
Start Date: 1999/08/01
Type: Report
End Date: 2007/09/30
Data Types: Report, Map, Image
Primary Contacts
Name: Tom Weingartner
Email: weingart@ims.uaf.edu
Primary Organizations
Institute of Marine Science UAF

Funding Organization
US Bureau of Ocean Energy Management

Other Organizations
Alaska Department of Environmental Conservation


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