Abstract
Abstract. Two high-resolution model simulations are used to investigate the spatiotemporal variability of the Arctic Ocean sea level. The model simulations reveal barotropic sea level variability at periods of < 30 d, which is strongly captured by bottom pressure observations. The seasonal sea level variability is driven by volume exchanges with the Pacific and Atlantic oceans and the redistribution of the water by the wind. Halosteric effects due to river runoff and evaporation minus precipitation ice melting/formation also contribute in the marginal seas and seasonal sea ice extent regions. In the central Arctic Ocean, especially the Canadian Basin, the decadal halosteric effect dominates sea level variability. The study confirms that satellite altimetric observations and Gravity Recovery and Climate Experiment (GRACE) could infer the total freshwater content changes in the Canadian Basin at periods longer than 1 year, but they are unable to depict the seasonal and subseasonal freshwater content changes. The increasing number of profiles seems to capture freshwater content changes since 2007, encouraging further data synthesis work with a more complicated interpolation method. Further, in situ hydrographic observations should be enhanced to reveal the freshwater budget and close the gaps between satellite altimetry and GRACE, especially in the marginal seas.
Highlights
The Arctic Ocean is experiencing pronounced changes (e.g., Perovich et al, 2020; AMAP, 2019)
Sea level change reflects changing ocean conditions caused by ocean dynamics, atmospheric forcing, and terrestrial processes (Stammer et al, 2013)
Ocean circulation changes in the Canadian Basin result in freshwater accumulation and release, which is very well correlated to sea level changes (Koldunov et al, 2014; Proshutinsky et al, 2002)
Summary
The Arctic Ocean is experiencing pronounced changes (e.g., Perovich et al, 2020; AMAP, 2019). Previous studies mainly focus on the decadal sea level variability (e.g., Koldunov et al, 2014; Proshutinsky et al, 2007; Proshutinsky and Johnson, 1997), and no study has yet fully explored the Arctic sea level variability at different spectral bands, and its dependence on the mass component and the vertical oceanic variability Such a study could help identify critical regions and environmental parameters that need to be observed coordinately and point out observational gaps that need to be filled in the future.
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
