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Circulation and fjord-shelf exchange during the ice-covered period in Young Sound-Tyrolerfjord, Northeast Greenland (74°N)
Boone, W.; Rysgaard, S.; Kirillov, S.; Dmitrenko, I.A.; Bendtsen, J.; Mortensen, J.; Meire, L.; Petrusevich, V.; Barber, D.G. (2017). Circulation and fjord-shelf exchange during the ice-covered period in Young Sound-Tyrolerfjord, Northeast Greenland (74°N). Est., Coast. and Shelf Sci. 194: 205-216. https://dx.doi.org/10.1016/j.ecss.2017.06.021
In: Estuarine, Coastal and Shelf Science. Academic Press: London; New York. ISSN 0272-7714; e-ISSN 1096-0015, meer
Peer reviewed article  

Beschikbaar in  Auteurs 

Author keywords
    Fjord dynamics; Sills; Fast ice; Salt flux; Mooring systems; Hydrographic data

Auteurs  Top 
  • Boone, W., meer
  • Rysgaard, S.
  • Kirillov, S.
  • Dmitrenko, I.A.
  • Bendtsen, J.
  • Mortensen, J.
  • Meire, L., meer
  • Petrusevich, V.
  • Barber, D.G.

Abstract
    Fjords around Greenland connect the Greenland Ice Sheet to the ocean and their hydrography and circulation are determined by the interplay between atmospheric forcing, runoff, topography, fjord-shelf exchange, tides, waves, and seasonal growth and melt of sea ice. Limited knowledge exists on circulation in high-Arctic fjords, particularly those not impacted by tidewater glaciers, and especially during winter, when they are covered with sea-ice and freshwater input is low. Here, we present and analyze seasonal observations of circulation, hydrography and cross-sill exchange of the Young Sound-Tyrolerfjord system (74°N) in Northeast Greenland. Distinct seasonal circulation phases are identified and related to polynya activity, meltwater and inflow of coastal water masses. Renewal of basin water in the fjord is a relatively slow process that modifies the fjord water masses on a seasonal timescale. By the end of winter, there is two-layer circulation, with outflow in the upper 45 m and inflow extending down to approximately 150 m. Tidal analysis showed that tidal currents above the sill were almost barotropic and dominated by the M2 tidal constituent (0.26 m s−1), and that residual currents (∼0.02 m s−1) were relatively small during the ice-covered period. Tidal pumping, a tidally driven fjord-shelf exchange mechanism, drives a salt flux that is estimated to range between 145 kg s−1 and 603 kg s−1. Extrapolation of these values over the ice-covered period indicates that tidal pumping is likely a major source of dense water and driver of fjord circulation during the ice-covered period.

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