Litcius/Paper detail

Intensification of Near‐Surface Currents and Shear in the Eastern Arctic Ocean

Igor V. Polyakov, Tom P. Rippeth, Ilker Fer, Till M. Baumann, Eddy C. Carmack, Vladimir Ivanov, Markus Janout, Laurie Padman, Andrey V. Pnyushkov, Robert Rember

2020Geophysical Research Letters63 citationsDOIOpen Access PDF

Abstract

Abstract A 15‐year (2004–2018) record of mooring observations from the upper 50 m of the ocean in the eastern Eurasian Basin reveals increased current speeds and vertical shear, associated with an increasing coupling between wind, ice, and the upper ocean over 2004–2018, particularly in summer. Substantial increases in current speeds and shears in the upper 50 m are dominated by a two times amplification of currents in the semidiurnal band, which includes tides and wind‐forced near‐inertial oscillations. For the first time the strengthened upper ocean currents and shear are observed to coincide with weakening stratification. This coupling links the Atlantic Water heat to the sea ice, a consequence of which would be reducing regional sea ice volume. These results point to a new positive feedback mechanism in which reduced sea ice extent facilitates more energetic inertial oscillations and associated upper‐ocean shear, thus leading to enhanced ventilation of the Atlantic Water.

Topics & Concepts

GeologyOceanographyStratification (seeds)MooringCurrent (fluid)Ocean currentCanada BasinSea iceInertial waveClimatologyQuantum mechanicsLongitudinal waveWave propagationGerminationPhysicsBiologyBotanySeed dormancyDormancyMechanical waveArctic and Antarctic ice dynamicsOceanographic and Atmospheric ProcessesClimate variability and models