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Variability of scaling time series in the sea ice drift dynamics in the Arctic Ocean
1Ioffe Physico-Technical Inst., Russian Academy of Sciences, 194021 St. Petersburg, Russia
2Arctic and Antarctic Research Inst., 38 Bering str., 199397 St. Petersburg, Russia
Abstract. A motion of an individual ice field in the Arctic Ocean was monitored at the Russian research station North Pole 35 established on the ice pack in 2008. The ice field velocity (V) was found to be correlated with wind velocity (v) in main features, such as the positions of maxima and minima of V and v. However, the fine structure of the V-variation cannot be explained by the wind forcing only. There were periods of time when the field drift was highly affected by either the tidal activity or the interactions of ice sheets between each other. These data were put in comparison with the "waiting times" statistics that is with the distributions of lengths of time intervals between subsequent important local accelerations of the ice field. These distributions were measured in several time windows differing in the average wind velocity and/or the mechanical state of the ice pack. The distribution functions N(>τ) (N is the number of successive events of accelerations separated by the time interval that exceeds τ) constructed in different time windows demonstrated fractal or multifractal nature in the consolidated ice pack but were truly random when the ice field drifted in the highly fragmented sea ice. The latter result evidences the existence of a relationship between the long-range mechanical interactions in the pack and long-term memory (time scaling behavior) of the sea ice motion.
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Citation: Chmel, A., Smirnov, V. N., and Sheikin, I. B.: Variability of scaling time series in the sea ice drift dynamics in the Arctic Ocean, Ocean Sci. Discuss., 6, 1595-1610, 2009. Bibtex EndNote Reference Manager
