An observational study of Davis Strait transports

Thesis (Ph.D.)--University of Washington, 2013 Davis Strait is one of two main gateways where freshwater from the Arctic enters the North Atlantic. An observing system began operating in Davis Strait in September 2004 with the goal of providing sustained, long-term quantification of Arctic-subarctic...

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Bibliographic Details
Main Author: Curry, Mary Beth
Other Authors: Lee, Craig M
Format: Thesis
Language:English
Published: 2013
Subjects:
Arctic
Davis Strait
Freshwater
Transport
Physical oceanography
Environmental science
Canadian studies
oceanography
Greenland
Fram Strait
North Atlantic
Sea ice
Subarctic
Online Access:http://hdl.handle.net/1773/23765
Description
Summary:Thesis (Ph.D.)--University of Washington, 2013 Davis Strait is one of two main gateways where freshwater from the Arctic enters the North Atlantic. An observing system began operating in Davis Strait in September 2004 with the goal of providing sustained, long-term quantification of Arctic-subarctic exchange west of Greenland. The system, including moorings, Seaglider surveys and autumn hydrographic sections, was designed to quantify volume, freshwater and heat transports and associated uncertainties. The goal of this analysis is to quantify Davis Strait transport variability and identify atmospheric forcing mechanisms driving the variability to help aid in understanding how exchanges between the Arctic and North Atlantic are being modified due to recent changes observed in the Arctic. Data from six years (2004-10) of continuous measurements give annual volume, liquid freshwater and temperature transports through Davis Strait of -1.6 ± 0.5 Sv, -93 ± 6 mSv and 23 ± 2 TW, respectively (negative sign indicates southward transport). Sea ice export contributes additional 10 mSv of freshwater transport. The array provides the first year-round measurements in the upper 100 m and over the shelves, accounting for 38% (-0.6 Sv) of the net volume and 61% (-51 mSv) of the net freshwater transports. Davis Strait volume and freshwater fluxes are the same order of magnitude as those from Fram Strait, the other Arctic outflow gateway. Interannual and annual variability of the net transports are large, with average annual volume, freshwater and heat transport standard deviations of 0.7 Sv, 17 mSv and 12 TW and interannual standard deviations of 0.3 Sv, 15 mSv and 2 TW. Although there are no clear trends in the current transports, reanalysis of Davis Strait mooring data from 1987-90 reveals that less Arctic outflow and more warm, salty North Atlantic inflow occurred in 2004-10 as compared to the earlier period. A change in Arctic freshwater storage may have also caused a freshening event observed between September 2009 to ...

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