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Atlas of the Arctic. (1985). Section 7. Types of synoptic processes and anomalies of the weather regime. Мoscow: Main Administration of Geodesy and Cartography under the USSR Council of Ministers. 89 p. (In Russian).
Belyakov, L. N., Volkov, V. A., Gazova, L. A., & Ponomarev, V. I. (1984a). Study of the interannual variability of the ocean water and ice circulation in the Arctic Ocean using a diagnostic model. Problems of the Arctic and Antarctic, 58, 45–54. In Russian.
Belyakov, L. N., Volkov, V. А., Ponomarev, V. I., & Chernyshev, А. F. (1984b). Peculiarities of interannual variability of water circulation of the Arctic Basin. Doklady Akademii Nauk, 276(4), 946–949. In Russian.
Belyshev, А. P., Klevantsov, Y. P., & Rozhkov, V. А. (1981). On illusions and reality in the methods of analysis of sea currents. Proceedings of the State Oceanographic Institute, 157, 3–19. (In Russian).
Belyshev, А. P., Klevantsov, Y. P., & Rozhkov, V. А. (1983). Probabilistic analysis of sea currents. Leningrad: Gidrometeoizdat. 1983. 264 p. (In Russian).
Borodachev, V. Е. (1998). Ice of the Kara sea. St. Petersburg: Gidrometeoizdat. 182 p. (In Russian).
Dmitriyev, А. А. (1994). Variability of the atmospheric processes of the Arctic and its account in long-range forecasts. Leningrad: Gidrometeoizdat. 207 p. (In Russian).
Dydina, L. А. (1964). Macro-circulation method of weather forecasts for 3–10 days for the Arctic. Leningrad: Gidrometeoizdat. 391 p. (In Russian).
Dydina, L. А. (1982). Peculiarity of development of synoptic processes in the Arctic and their use in medium-range forecasts. Leningrad: Gidrometeoizdat. 224 p. (In Russian).
Fowler, C. (2003). Polar pathfinder daily 25 km EASE-grid sea ice motion vectors. Boulder: National Snow and Ice Data Center. Digital media.
Fowler, C., Maslanik, J., Emery, W., & Tschudi, M. (2013). Polar pathfinder daily 25 km EASE-grid sea ice motion vectors. Version 2. (indicate subset used). Boulder: National Snow and Ice Data Center.
Frolov, I. Е., Karklin, V. P., & Gudkovich, Z. M. (2005). Intra-secular climate changes, ice cover area of the Eurasian Arctic, Seas and their possible causes. Meteorol Hydrol, 6, 5–14. In Russian.
Frolov, I. Е., Gudkovich, Z. M., Karklin, V. P., Kovalev Ye, G., & Smolyanitsky, V. M. (2007). Scientific studies in the Arctic. V. 2. Climatic changes of the ice cover of the Eurasian shelf seas. St. Petersburg: Nauka. 136 p. (In Russian).
Frolov, I. Е., Gudkovich, Z. M., Karklin, V. P., & Smolyanitsky, V. M. (2010). Changes of climate of the Arctic and the Antarctic – result of action of natural causes. Problemy Arktiki i Antarktiki, 2(85), 52–61. In Russian.
Gudkovich, Z. M. (1961). Relation of the ice drift in the Arctic Basin to ice conditions in the soviet Arctic seas. Proceedings of Oceanographic Commission of AN SSSR, 11, 13–20. In Russian.
IABP (E-resource). (n.d.). – URL: http://iabp.apl.washington.edu. Accessed date: 16.01 2019.
IPCC 2013. (2013). IPCC: Climate change 2013. The physical science basis. In T. F. Stocker, D. Qin, G.-K. Plattner, M. Tignor, S. K. Allen, J. Boschung, A. Nauels, Y. Xia, V. Bex, & P. M. Midgley (Eds.), Contribution of working group I to the fifth assessment report of the intergovernmental panel on climate change. Cambridge, UK/New York., 1535 p.: Cambridge University Press. https://doi.org/10.1017/CBO9781107415324.
Johannessen, O. M., Yu, A. V., Ye, F. I., Sandven, S., Pettersson, L. H., Bobylev, L. P., Kloster, K., Smirnov, V. G., Mironov, Y. U., & Babich, N. G. (2007). Remote sensing of sea ice in the Northern sea route. Studies and applications. Chichester: Springer-Praxis. 472 p.
Laboratoire d’oceanographie spatiale: Cersat, Ifremer (E-resource). (n.d.). URL: http://cersat.ifremer.fr/data/. Accessed date: 16.12.2018.
Makshtas, A. P., Shoutilin, S. V., & Andréas, E. L. (2003). Possible dynamic and thermal causes for the recent decrease in sea ice in the Arctic Basin. Journal of Geophysical Research, 108, C7. https://doi.org/10.1029/2001JC000878.
Methodological letter on the probabilistic analysis of vector time series of the velocities of currents and wind. (1984). Leningrad; Gidrometeoizdat, 1984, 62 p. (In Russian).
Nansen, F. (1902). The Norwegian polar expedition 1893–1896. Scientific Results, 3, 346–351.
Proshutinsky, A. Y., & Johnson, M. A. (1997). Two circulation regimes of the wind-driven arctic ocean. Journal of Geophysical Research, 15(102), 12493–12514.
Rozhkov, V. A. (2009). Methods and tools for statistical processing and analysis of the situation in the oceans on the example of hydrometeorology. Obninsk: VNIIGMI. World Data Center. 416 p. (In Russian).
Sokolov, A. L. (1962). Ice drift in the Arctic basin and changes of the ice conditions along the Northern sea route. Arctic and Antarctic Research, 11, 46–42. In Russian.
Timofeev, V. T. (1960). The water masses of the Arctic Basin. Leningrad: Gidrometeoizdat. 191 p. (In Russian).
Unified state information system on the situation in the world ocean (ESIMO (E-resource). (n.d.). URL: http://portal.esimo.ru/portal. Accession date: 16.12 2018.
Vinje, T. (2001). Anomalies and trends of sea ice extents and atmospheric circulation in the Nordic seas during the period 1864–1998. Journal of Climate, 14(3), 255–267.
Volkov, V. A., Johannessen, O. M., Borodachev, V. E., Voinov, G. N., Pettersson, L. H., Bobylev, L. P., & Kouraev, A. V. (2002). Polar seas oceanography: An integrated case study of the Kara sea. Chichester: Springer/Praxis. 495 p.
Volkov, V. A., Ivanov, N. E., & Demchev, D. M. (2012). Application of a vectoral-algebraic method for investigation of spatial-temporal variability of sea ice drift and validation of model calculation in the Arctic Ocean. Journal of Operational Oceanography, 5(2), 61–70.
Volkov, V. A., Mushta, A. V., Demchev, D. M., Korzhikov, A. Y., & Sandven, S. (2016). Relation of large-scale variations of the sea ice drift fields in the Arctic Ocean with climatic changes of total ice concentrations during last decades. Problems of the Arctic and Antarctic, 2, 50–63. In Russian.
Zakharov, V. F. (1996). Sea ice in climatic system. Leningrad: Gidrometeoizdat. 213 p. (In Russian).
Acknowledgements
The authors are grateful to Prof. Valentine A. Rozkov (St. Petersburg State University) for valuable advice given in the process of manuscript preparation (Chap. 7), as well as to members of the Oceanographic committee of the Russian Geographical Society for an efficient discussion during a seminar.
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Volkov, V.A., Mushta, A., Demchev, D. (2020). Sea Ice Drift in the Arctic. In: Johannessen, O., Bobylev, L., Shalina, E., Sandven, S. (eds) Sea Ice in the Arctic. Springer Polar Sciences. Springer, Cham. https://doi.org/10.1007/978-3-030-21301-5_7
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