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Published November 8, 2019 | Version v1
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Overview of strong winds on the coasts of the Russian Arctic seas

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Shestakova, Anna A., Repina, Irina A. (2019): Overview of strong winds on the coasts of the Russian Arctic seas. Ecologica Montenegrina 25: 14-25, DOI: 10.37828/em.2019.25.2, URL: http://dx.doi.org/10.37828/em.2019.25.2

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urn:lsid:plazi.org:pub:4779FFA2FFA0FF92A13C2D1E2F70EF1A

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Figure: 10.5281/zenodo.13355779 (DOI)
Figure: 10.5281/zenodo.13355781 (DOI)
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Figure: 10.5281/zenodo.13355783 (DOI)
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Figure: 10.5281/zenodo.13355794 (DOI)

References

  • Bryazgin, N.N. & Dementiev, A.A. (1996) Dangerous meteorological phenomena in the Russian Arctic (in Russian). Roshydromet, Saint Petersburg, 156 pp.
  • Buzin, I.V. & Glazovskiy, A.F. (2005) Icebergs of Shokalsky glacier, Novaya Zemlya (in Russian). Materials of glaciological research, 99, 39-44
  • Bychkova, I.A. & Platonova, E.V. (2014) Long-term observations of iceberg-producing glaciers of Novaya Zemlya using satellite data (in Russian). In: Vaganov, E.A. (Ed.) Materialy mezhdunarodnoi nauchnoi konferentsii "Regional'nye problemy distantsionnogo zondirovaniya Zemli" (Proceedings of the International Scientific Conference "Regional Problems in Remote Sensing of the Earth"). Krasnoyarsk: SFU, pp. 60-64.
  • Dery, S. J., & Yau, M. K. (1999). A climatology of adverse winter-type weather events. Journal of Geophysical Research: Atmospheres, 104(D14), 16657-16672.
  • Efimov, V. V. & Komarovskaya, O. I. (2018) The Novaya Zemlya bora: Analysis and numerical modeling. Izvestiya, Atmospheric and Oceanic Physics, 54(1), 73-85.
  • Gavrikov, A.V. and Ivanov, A.Yu. (2015) Anomalously strong bora over the Black Sea: Observations from space and numerical modeling. Izvestiya, Atmospheric and Oceanic Physics, 51(5), 546-556.
  • GUNiO (2006a) Barents Sea Pilot. . GUNiO no 1112, 30 Apr 2011, 496 pp. (in Russian)
  • GUNiO (2009) Laptev Sea Pilot. GUNiO no 1118, 5 Feb 2011, 300 pp. (in Russian).
  • Hughes, M. & Cassano, J. J. (2015) The climatological distribution of extreme Arctic winds and implications for ocean and sea ice processes. Journal of Geophysical Research: Atmospheres, 120(15), 7358- 7377.
  • Ivanov, A. Y. (2016) Novaya Zemlya bora and polar cyclones in spaceborne SAR and optical imagery. Izvestiya, Atmospheric and Oceanic Physics, 52(9), 1142-1154.
  • Korablev, Yu.N. (2018) Operative notification of aircraft crews about hazardous weather phenomena in the areas of Arctic landing sites (in Russian). Scientific Bulletin of Moscow State Technical University of Civil Aviation, 21 (5), 137-149.
  • Kostianoy, A.G., Ginzburg, A.I. & Lebedev, S.A. (2014) Climatic variability of hydrometeorological parameters of the Russian seas in 1979-2011 (in Russian). Proceedings of the Main Geophysical Observatory. AI Voeikova, (570), 50-87.
  • Liu, Q., Babanin, A. V., Zieger, S., Young, I. R. & Guan, C. (2016). Wind and wave climate in the Arctic Ocean as observed by altimeters. Journal of Climate, 29(22), 7957-7975.
  • Federal Service for Hydrometeorology and Environmental Monitoring (Roshydromet) (2009) Manual on general short-term weather forecasts (in Russian)."IG-SOCIN", Obninsk, 62 pp.
  • Migala, K., Nasiolkowski, T. & Pereyma, J. (2008) Topoclimatic conditions in the Hornsund area (SW Spitsbergen) during the ablation season 2005. Polish Polar Research, 29(1), 73-91.
  • Moore, G. W. K. (2003) Gale force winds over the Irminger Sea to the east of Cape Farewell, Greenland. Geophysical Research Letters, 30(17).
  • Moore, G. W. K. (2013) The Novaya Zemlya Bora and its impact on Barents Sea air-sea interaction. Geophysical Research Letters, 40(13), 3462-3467.
  • Orlanski, I. (1975) A rational subdivision of scales for atmospheric processes. Bulletin of the American Meteorological Society, 527-530.
  • Pastusiak, T. (2016) Northern Sea Route as a Shipping Lane. New York, NY, Springer, 219 pp.
  • Prokh, L.Z. (1983) Dictionary of Winds (in Russian). Leningrad: Gidrometeoizdat
  • Radinovic, D., & Curic, M. (2013) Measuring system of adverse weather phenomena. Disaster advances, 6(3), 19-23.
  • Reeve, M. A. & Kolstad, E. W. (2011) The Spitsbergen south cape tip jet. Quarterly Journal of Royal Meteorological Society, 137(660), 1739-1748.
  • Samuelsen, E. M., & Graversen, R. G. (2019). Weather situation during observed ship-icing events off the coast of Northern Norway and the Svalbard archipelago. Weather and Climate Extremes, 24, 100200.
  • Sandvik, A. D. & Furevik, B. R. (2002) Case study of a coastal jet at Spitsbergen-Comparison of SAR-and model-estimated wind. Monthly Weather Review, 130(4), 1040-1051.
  • Shapaev, V.M. (1951) South-easterly storm wind ("yuzhak") in Pevek. Problems of Arctic, 2, 12-18 (in Russian)
  • Shestakova, A. A. & Moiseenko, K. B. (2018) Hydraulic Regimes of Flow over Mountains during Severe Downslope Windstorms: Novorossiysk Bora, Novaya Zemlya Bora, and Pevek Yuzhak. Izvestiya, Atmospheric and Oceanic Physics, 54(4), 344-353.
  • Skeie, P. and Gronas, S. (2000) Strongly stratified easterly flows across Spitsbergen. Tellus, 52A, 473-486
  • Wan, H., Wang, X. L. & Swail, V. R. (2010). Homogenization and trend analysis of Canadian near-surface wind speeds. Journal of Climate, 23(5), 1209-1225.
  • Zimich, P. I. (1991) Pevekskyi Yuzhak (in Russian). L.: Gidrometizdat, 120 pp.