About the laboratory

Laboratory of geophysical boundary layers

Period 2014–2017

The object of Laboratory’s study are the processes take place in boundary layers of atmosphere and ocean (surface and internal waves) and in oceanic crust (stability of gas hydrates).

Staff of the Laboratory:

  1. Zimin Alexey Vadimovich, Head of Laboratory, Doctor of Geography
  2. Chalikov Dmitry Viktorovich, Main Researcher, Doctor of Physics and Mathematics
  3. Aplonov Sergey Vitalyevich, Main Researcher, Doctor of Geology and Mineralogy
  4. Golmshtok Alexandr Yakovlevich, Main Researcher, Ph.D.
  5. Belevich Mihail Yurievich, Leading Researcher, Ph.D.
  6. Safrai Arkady Saulovich, Leading Researcher, Ph.D.
  7. Bulgakov Kirill Yurievich, Senior Researcher, Ph.D.
  8. Zegulin Gleb Viktorovich, Researcher
  9. Stetsuk Irina Vasilyevna, Lead Engineer
  10. Shindavina Kaleriya Ivanovna, Lead Engineer

Main directions of work during the period under review:

  • statistics and mechanics of extreme waves (freak waves) and methods for their forecasting;
  • investigation of nonlinear and short-period internal waves by contact and remote methods;
  • modeling of the interaction between ocean and atmosphere on the basis of a combined model of the atmospheric wave boundary layer and wind waves;
  • parametrization of ocean-atmosphere interaction for weather and climate models;
  • geodynamic analysis of deep sedimentary basins.

Projects

  1. Program of Basic Research of the Presidium of RAS №23 «Fundamental problems of oceanology: physics, geology, biology, ecology». Chapter 1. Hydrodynamics and heat exchange in the ocean. Project 1.10. Fundamental research on the creation of elements of the operational model for predicting hydrophysical fields in the Barents and the White Seas, including oil and gas producing areas. Deadline: 2012-2014. Performers: Safrai A.S., Zimin A.V., Chalikov D.V., Gordeeva S.M., Tkachenko I.V., Nikitin D.A., Zegulin G.V.
  2. RFBR grant №14-05-00422а, lead. Chalikov D.V. Development of methods for combining atmospheric and ocean models on the basis of a numerical model of gravitational waves. Deadline: 2014-2016. Performers: Chalikov D.V., Bulgakov K.Yu.
  3. RFBR grant №14-05-31361 мол_а, lead. Bulgakov K.Yu. Application of the modified similarity theory to the modeling of mixing processes in the upper layer of the ocean. Deadline: 2014-2015. Performers: Bulgakov K.Yu.
  4. RFBR grant 15-05-04639а. lead. Zimin A.V. Phenomenas and processes of the tidal Arctic Sea in the sub-mesoscale interval of variability. Deadline: 2015-2017. Performers: Zegulin G.V.
  5. RSF grant № 14-50-00095. The World Ocean in the 21st century: climate, ecosystems, resources, disasters. Deadline: 2015-2017. Performers: Zimin A.V., Chalikov D.V.
  6. RSF grant № 14-17-00800. Estimation according to quantitative characteristics of flowering of mass phytoplankton species in the European seas of Russia, their interrelation with climatic factors and influence on the ecological situation. Deadline: 2014-2016. Performers: Zimin A.V.
  7. Project of the Perspective Investigations Fund «Aquatorium», lead. А.А. Rodionov. Deadline: 2015-2018. Performers: Safrai A.S., Zimin A.V., Zegulin G.V.

All-Russian scientific conference with international «Nature, theory and modeling of the atmosphere-hydrosphere-terrestrial surface system». April 12-14, 2016. Saint-Petersburg.

  • Safrai A.S., Tkachenko I.V., Gordeeva S.M. On the evolution of a single internal wave in a channel. Numerical experiments.
  • Romanenkov D.A., Zimin A.V., Rodionov A.A., Atadjanova O.A., Kozlov I.E. Variability of frontal sections and features of mesoscale dynamics of the waters of the White Sea.
  • Belevich M.Yu. The connection between the equations of continuity and density diffusion.
  • Golmshtok A.Ya. Multichannel seismic profiling, gas hydrates and modeling of mud volcano formation conditions on Lake Baikal.
  • Bulgakov K.Yu. Surface effects in a joint model of the atmosphere – ocean – sea waves.

Youth scientific conference «Comprehensive studies of the seas of Russia: operational oceanography and expeditionary research». April 25-29, 2016. Sevastopol.

  • Bulgakov K.Yu., Chalikov D.V. Testing the method of combining ocean and atmosphere models using the wind wave forecast model.
  • Atadjanova O.A., Zimin A.V., Romanenkov D.A., Kozlov I.E. Investigation of sub-mesoscale whirls of the White, Barents and Kara Seas according to satellite observations.

XIII all-Russian conference «Applied technologies of hydroacoustics and hydrophysics» (HA-2016). May 24-26, 2016 . Saint-Petersburg.

  • Zegulin G.V. Probabilistic description of small-scale turbulence in the White Sea from experimental data.
  • Atadjanova O.A., Zimin A.V., Romanenkov D.A., Kozlov I.E. Statistical analysis of small whirl structures in the Kara and Barents Sea by satellite data.
  • Rodionov A.A., Nikitin D.A., Zimin A.V., Atadjanova O.A., Filin K.B. Estimation of the effect of sub-mesoscale whirl structures on the propagation of acoustic signals in the White Sea.
  • Zimin A.V., Rodionov A.A., Romanenkov D.A. Regularities of sub-mesoscale processes and phenomena in the White Sea.
  • Safrai A.S., Tkachenko I.V., Gordeeva S.M. Influence of variations of boundary conditions on the evolution of a single internal wave in a channel.

Scientific conference «World Ocean: models, data and operational oceanology», September 26-30, 2016. Sevastopol.

  • Rodionov A.A., Zimin A.V., Romanenkov D.A., Safrai A.S., Tkachenko I.V. Sub-mesoscale structure of the White Sea: results of observation and modeling.

XIV all-Russian open annual conference «Modern problems of remote sensing of the Earth from space» (Physical fundamentals, methods and technologies for monitoring the environment, natural and anthropogenic objects). November 14-18, 2016. Moscow.

  • Zimin A.V., Atadjanova O.A., Romanenkov D.A. Submesolution whirl structures and frontal dynamics in the White, Barents and Kara Seas.

General Assembly 2015 European Geosciences Union. 2016. Wien.

  • E. Sanina, A. Babanin, D. Chalikov. Interaction of two monochromatic waves at the water surface
  • E. Sanina, A. Babanin, D. Chalikov. Long-crested and short-crested waves of the three-dimensional fully-nonlinear potential wave fields.

XXV scientific session of the council for nonlinear dynamics, December 19–20, 2016. Moscow.

  • Bulgakov K.Yu. Transformation of a nonlinear wave at a finite depth.
  • Chalikov D.V. Little-known properties of surface waves.

General Assembly 2015 European Geosciences Union. April 12–17, 2015. Wien.

  • Sanina E., Chalikov D., Babanin A. Appearance of peaks and holes in the spectrum of three-dimensional fully-nonlinear potential wave fields.
  • Sanina E., Suslov S., Chalikov D., Babanin, A. Behavior of coherent groups in three-dimensional fully-nonlinear potential wave fields.

International conference «Flows and structures in liquids». June 23–26, 2015. Kaliningrad.

  • Atadjanova O.A., Zimin A.V., Romanenkov D.A., Kozlov I.E., Chapron B. Sub-mesoscale structures of the White sea: small eddies and short-period internal waves.

VIII International conference «Optics of natural waters». September 8–12, 2015. Saint-Petersburg.

  • Zegulin G.V., Zimin A.V., Rodionov A.A. The use of wavelet analysis to evaluate the relationship between hydrological and hydro-optical characteristics on the basis of full-scale measurements in the White Sea.
  • Atadjanova O.A., Zimin A.V., Saling I.V. Investigation of the effect of sub-mesoscale whirls on the distribution of phytoplankton in the surface layer of the White Sea according to satellite data.

III all-Russian conference on Applied Oceanography. October 20–21, 2015. Moscow.

  • Bulgakov K.Yu. Parametrization of turbulent mixing in the upper layer of the ocean based on the similarity theory.

IV Scientific and technical conference of young scientists and specialists «Applied technologies of hydroacoustics and hydrophysics». October 14–17, 2015. Saint-Petersburg.

  • Bulgakov K.Yu., Molchanov M.S. Parametrization of turbulent mixing in the upper layer of the ocean, the current state of the problem.
  • Zegulin G.V., Zimin A.V. The application of a continuous wavelet transform to extract internal waves and turbulence.
  • Atadjanova O.A., Zimin A.V., Romanenkov D.A., Kozlov I.E. Investigation of short-period internal waves and small whirl structures from satellite data.

Report at the roundtable «Fundamental Science for the Navy» at the International Maritime Defense Show. June 30, 2015. Srfint-Petersburg.

  • Rodionov A.A., Zimin A.V., Nikitin D.A. Submeso-scale phenomena in the White Sea and their influence on the propagation of hydroacoustic signals.

XIII all-Russian open annual conference «Modern problems of remote sensing of the Earth from space» (Physical fundamentals, methods and technologies for monitoring the environment, natural and anthropogenic objects). November 16–20, 2015. Moscow.

  • Kozlov I.E., Zubkova E.V., Kudryavtsev V.N., Zimin A.V., Myasoyedov A.G., Chapron B. «Hot spots» in the field of internal waves in the Arctic according to radar data as an indicator of areas of intensification of vertical mixing.
  • Zimin A.V., Romanenkov D.A., Atadjanova O.A., Kozlov I.E. Dynamics of hydrological fronts and short-period phenomena in the White Sea.
  • Zimin A.V., Atadjanova O.A., Romanenkov D.A., Artamonova A.V., Berezina A.V., Konik A.A., Santjeva E.K., Safonova K.A., Svergun E.I., Kozlov I.E. Statistical analysis of sub-mesoscale whirls of the Barents Sea by radar images.
  • Zimin A.V., Atadjanova O.A., Romanenkov D.A., Artamonova A.V., Berezina A.V., Konik A.A., Santjeva E.K., Safonova K.A., Svergun E.I., Kozlov I.E. Statistical analysis of sub-mesoscale whirls of the Kara Sea from radar images.

XIV International scientific and technical conference «Modern methods and means of oceanological research». May 19–21, 2015. Moscow.

  • Zimin A.V., Romanenkov D.A., Kozlov I.E, Rodionov A.A. Experience in the development of a monitoring system for the short-period variability of hydrophysical fields and processes in the tidal Arctic Sea.
  1. Ocean and atmosphere in the studies of St. Petersburg oceanographers. To the 50th anniversary of the St. Petersburg branch of the Shirshov Institute of Oceanology of RAS / Ed. А.А. Rodionov, D.V. Chalikov. SPb.: Nestor-Istoriya, 2016. 152 с.
  2. Chalikov D. Numerical modeling of sea waves. 2016, Springer, ISBN 978-3-319-32914-7 330pp ISBN 978-3-319-32916-1 (eBook), DOI 10.1007/978-3-319-32916-1.
  3. Chalikov D.V. Mathematical modeling of wind waves. Models and methods in the problem of interaction between the atmosphere and the hydrosphere: tutorial. Ed. V.P. Dymnikov, V.N. Lykosov, E.P. Gordov. Tomsk: ТSU, 2014. Ch. 9. P. 326–366.
  4. Atadjanova O.A., Zimin A.V. Small whirls in the Onega Bay of the White Sea and their influence on the distribution of chlorophyll // Modern problems of remote sensing of the Earth from space. 2016. V. 13. № 6. P. 110–118 (IF RSCI 0.286).
  5. Zegulin G.V., Zimin A.V., Rodionov A.A. Analysis of the dispersion dependences and the vertical structure of internal waves in the White Sea from experimental data // Fundamental and applied hydrophysics. 2016. V. 9. № 4. P. 47–59 (IF RSCI 0.249).
  6. Chalikov D. Little-known properties of surface waves // Fundamental and applied hydrophysics. 2016. V. 9, № 1. P. 8–16 (IF RSCI 0.249).
  7. Chalikov D., Babanin A.V. 2016. Nonlinear sharpening during superposition of surface waves. Ocean dynamics, 66, 8, 931-937. DOI: 10.1007/s10236-016-0965-8 (IF WoS 1.892).
  8. Chalikov D., Babanin A.V. 2016. Comparison of linear and nonlinear extreme wave statistics. Acta Oceanologica Sinica, 35, 5, 99–105. DOI: 10.1007/s13131-016-0862-5 (IF WoS 0.631).
  9. Zhang H.D., Guedes Soares C., Chalikov D., Toffoli, A. 2016 Modeling the spatial evolutions of nonlinear unidirectional surface gravity waves with fully nonlinear numerical method. Ocean Engineering, 125, 60–69. DOI: 10.1016/j.oceaneng.2016.07.066 (IF WoS 1.488).
  10. Zimin A.V., Romanenkov D.A., Atadjanova O.A., Rodionov A.A., Moiseev A.V. Experience in developing a monitoring system for short-period processes and sub-mesoscale structures in the White Sea and the results of its testing in the summer of 2014 // Scientific notes of RSHU. 2015. № 41. P. 116–125 (IF RSCI 0.107).
  11. Safrai A.S., Tkachenko I.V., Gordeeva S.M. On the evolution of a single internal wave in a channel. Numerical experiments // Fundamental and applied hydrophysics. 2016. V. 9, № 1. P. 52–58 (IF RSCI 0.249).
  12. Rodionov A.A., Zimin A.V., Nikitin D.А. Complex studies of hydrodynamic and hydroacoustic phenomena in the meso- and sub-mesoscale interval of variability of hydrophysical fields in the Arctic seas (on the example of the White Sea) // Fundamental and applied hydrophysics. 2015. V. 8. № 4. P. 17–23 (IF RSCI 0.249).
  13. Romanenkov D.A., Zimin A.V., Rodionov A.A., Atadjanova O.A., Kozlov I.Е. Variability of frontal sections and features of mesoscale dynamics of the waters of the White Sea // Fundamental and applied hydrophysics. 2016. V. 9. № 1. P. 59– 72 (IF RSCI 0.249).
  14. Zimin A.V. Regularities of sub-mesoscale processes and phenomena in the White Sea // Scientific notes of RSHU. 2016. № 44. P.104–120 (IF RSCI 0.107).
  15. Belevich Т.А., Ilyash L.V., Zimin A.V., Kravchishina M.D., Novihin А.Е., Dobrotina Е.D. Dependence of the spatial distribution of summer phytoplankton of the Onega Bay of the White Sea on local hydrophysical conditions // Messenger of Moscow university. Ser. 16. Biology. 2016. № 3. P. 27–33 (IF RSCI 0.322).
  16. Belevich М.Yu. On the «spectral» form of the equations of hydromechanics. IV. «Spectral» liquid model and possible applications // Scientific notes of RSHU. 2016. № 43. P. 9 –25 (IF RSCI 0.107).
  17. Belevich М.Yu. The connection between the equations of continuity and density diffusion // Fundamental and applied hydrophysics. 2016. V. 9, № 1. P 73–82 (IF RSCI 0.249).
  18. Zegulin G.V. The use of wavelet analysis to estimate the relationship between hydrological and hydro-optical oscillations in the range of internal waves from the data of full-scale observations in the White Sea // Fundamental and applied hydrophysics. 2016. V. 9, № 3. P. 48–56 (IF RSCI 0.249).
  19. Golmshtok A.Yu. Multichannel seismic profiling, gas hydrates and modeling of mud volcano formation conditions on Lake Baikal // Fundamental and applied hydrophysics. 2016. V. 9, № 3. P. 18–31 (IF RSCI 0.249).
  20. Zimin A.V., Atadjanova O.A., Romanenkov D.A., Kozlov I.E., Chapron B. Submeso-scale vortices in the White Sea according to satellite radar measurements // Earth exploration from space. 2016. № 1–2. P. 129–135 (IF RSCI 1.203).
  21. Donelan, M., A. Babanin, E. Sanina, and D. Chalikov (2015). A comparison of methods for estimating directional spectra of surface waves, J. Geophys. Res. Oceans, 120, 5040–5053, doi:10.1002/2015JC010808 (IF WoS 3.426).
  22. Chalikov D.V., Bulgakov K.Yu. Wind waves as an element of the thermodynamic ocean-atmosphere system // Izvestiya of the Russian Academy of Sciences. Atmosphere and ocean physics. 2015. V. 51. № 3. P. 386-391 (IF RSCI 1.234).
  23. Sanina E.V., Suslov S.A., Chalikov D., Babanin, A.V. (2015) Detection and analysis of coherent groups in three-dimensional fully-nonlinear potential wave fields, Ocean Modelling (SI: Ocean Surface Waves). doi:10.1016/j.ocemod.2015.09.012 (IF WoS 1.307).
  24. Belevich М.Yu. On the «spectral» form of hydromechanical equations. I. Description of the problem and example of the approach // Scientific notes of RSHU, 2014. № 37. P. 44–53 (IF RSCI 0.061).
  25. Belevich М.Yu. On the «spectral» form of hydromechanical equations. II. Functions as infinite-dimensional tensors // Scientific notes of RSHU, 2015. № 38. P. 59–65 (IF RSCI 0.061).
  26. Belevich М.Yu. On the «spectral» form of hydromechanical equations. III. Integral transformations as a basis replacement and integral relations of fluid mechanics // Scientific notes of RSHU, 2015. № 40. P. 81–95 (IF RSCI 0.061).
  27. Kozlov I.E., Kudryavtsev V.N., Zubkova E.V., Atadjanova O.A., Zimin A.V., Romanenkov D.A., Chapron B., Myasoyedov A.G. Regions of generation of nonlinear internal waves in the Barents, Kara and White Seas based on satellite SAR measurements // Modern problems of remote sensing of the Earth from space. 2014. V. 11. № 4. P. 338–345 (IF RSCI 0.187).
  28. Zimin A.V., Kozlov I.E., Atadjanova O.A., Chapron B. Complex monitoring of short-period internal waves in the White Sea // Earth exploration from space. 2015. № 5. P. 51–61 (IF RSCI 1.082).
  29. Kozlov I.E., Kudryavtsev V.N., Zubkova E.V., Zimin A.V., Chapron B. Characteristics of the field of short-period internal waves in the Kara Sea according to satellite radar measurements // Earth exploration from space. 2015. № 4. P. 44–59 (IF RSCI 1.082).
  30. Chalikov D., Babanin A.V., Sanina E. 2014. Numerical modeling of 3D fully nonlinear potential periodic waves // Ocean dynamics. Vol. 64 (10). P. 1469–1486 (IF WoS 1.683).
  31. Chalikov D., Babanin A.V. 2014. Simulation of one-dimensional evolution of wind waves in a deep water // Physics of fluids. Vol. 26 (9). Article Number 096607 (IF WoS 2.040).
  32. Babanin A.V., Babanina A.V., Chalikov D. 2014. Interaction of surface waves at very close wavenumbers // Ocean dynamics. Vol. 64 (7). P. 1019–1023 (IF WoS 1.683).
  33. Golmshtok A.Yu. Shattering and stability conditions of gas hydrates in the sediments of Lake Baikal // Physics of the Earth. 2014, №4. P. 70–85 (IF RSCI 0.335).
  34. Zimin A.V., Romanenkov D.A., Rodionov A.A., Zegulin G.V., Rodionov M.A. Expeditionary studies of the short-period variability of the hydrophysical fields of the White Sea in August 2013 // Fundamental and applied hydrophysics. 2014. V. 7, № 1. P. 85–92 (IF RSCI 0.114).
  35. Kozlov I., Romanenkov D., Zimin A., Chapron B. SAR observing large-scale nonlinear internal waves in the White Sea // Remote Sensing of Environment 147. (2014). 99–107. doi:10.1016/j.rse.2014.02.017 (IF WoS 4.769).
  36. Zimin A.V., Romanenkov D.A., Kozlov I.E., Chapron B., Rodionov A.A., Atadjanova O.A., Myasoyedov A.G., Kollar F. Short-period internal waves in the White Sea: operational sub-satellite experiment in the summer of 2012 // Earth exploration from space. 2014. № 3. P. 41–55 (IF RSCI 0.572).
  37. Rodionov A.A., Romanenkov D.A., Zimin A.V., Kozlov I.E., Chapron B. Submeso-scale structures of the waters of the White Sea and their dynamics. Status and directions of research // Fundamental and applied hydrophysics. 2014. V. 7. № 3. P. 29–41 (IF RSCI 0.114).
  38. Belevich M. Thermodynamics from an observer’s viewpoint (on the example of the viscous fluid) // Continuum Mechanics and Thermodynamics. Vol. 26 (3). (2014). P. 303–320 (IF WoS 1.431).
  39. Vladimirona E.M., Konovalov А.А., Litvin А.D., Poletajeva M.А., Stetsuk I.V. The interaction of background internal waves and the trace behind the sphere when it moves horizontally in a stratified fluid // Fundamental and applied hydrophysics. 2015. V. 8, № 4 (IF RSCI 0.249).
  1. Muravjev E.V., Zimin A.V., Rodionov A.A. «СУБД ЭИ ИО СПб» Certificate of official registration of the program № 2014614227 (18.04.2014).
  2. Muravjev E.V., Zimin A.V., Rodionov A.A. «БД ЭИ ИО СПб» Certificate of state registration of the database № 2014620281 (08.05.2014).
  3. Zegulin G.V., Zimin A.V. Program «Wavelet velocity field analysis». Certificate of state registration № 2015612448 (18.02.2015).
  4. Zegulin G.V., Zimin A.V. Program «Wavelet analysis of internal waves». Certificate of state registration № 2014662534 (02.12.2014).
  5. Zimin A.V., Moiseev A.V. «Short-period variability of HPF» Certificate of state registration of the database № 2015620427 (03.03.2015).
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