Konstantin Korotenko

Korotenko Konstantin Aleksandrovich

Chief Scientist, DSc (Research Professor)

Marine turbulence Laboratory
Ocean Physics

36, Nakhimovskiy prospect, Moscow, 117997

Research Interests

  • Ocean mesoscale structures and circulation (modeling and analysis)
  • Marine turbulence
  • Matter transport in the ocean
  • Numerical modeling of circulation and oil spill transport in the ocean

More details are given :

Google Scholar
ORCID    0000-0003-1581-1300 
РИНЦ     SPIN-код 5324-4028   authorID=58650
Scopus   authorID=6701677505

List of Publications (since 2000)


  • Dietrich D.E., M.J.Bowman, K.A. Korotenko, M.H. Bowman, Oil Spill Risk Management: Modeling Gulf of Mexico Circulation and Oil Dispersal Scrivener Publishing LLC & Willey, 2014, 212 P.
  • Korotenko К.А., P.O. Zavialov. R.-C. Kao, 2013. Submarine Groundwater and Coastal Ocean Pollution. Lambert Academic Publishing, OmniScriptum GmbH & Co. KG, Germany, 60 P. ISBN-13: 978-3-659-41098-7
  • Ozmidov R.V., Korotenko K.A. (Eds) Study Diffusion Processes in the Coastal Zone of the Black Sea. Moscow.; SIO AN USSR , 170 P.

Book Chapter:

  • Kontar Y.A., K.A. Korotenko, V. Santiago-Fandino, 2013. Assessment and Modeling of Dispersal Contamination Incoming with Submarine Groundwater Discharge (SGD) in Tsunami Affected Coastal Areas. In Y.A. Kontar et al. (eds.), "Tsunami Events and Lessons Learned: Environmental and Societal Significance, Advances in Natural and Technological Hazards Research," V. 35, Springer Verlag, Dordrecht, 2013. ISBN-13: 978-94-007-7268-7
  1. Korotenko, K. A. 2017. Modeling Processes of the Protrusion of Near-Coastal Anticyclonic Eddies through the Rim Current in the Black Sea. Oceanology, 57(3), 394–401.
  2. Korotenko, K. A. 2016. High-Resolution Numerical Model for Predicting the Transport and Dispersal of Oil Spill in Result of Accidental Deepwater Blowout in the Black Sea // Proc of the 26th International Ocean and Polar Engineering Conference. Rhodes, Greece, June 26-July 1, 2016, Vol. III, 1534-1541. ISBN 978-1-880653-88-3; ISSN 1098-6189.
  3. Zatsepa, S.N., N.F. Diansky, V.I. Zhuravel, A.A. Ivchenko, K.A. Korotenko, V.V. Solbakov, V.V. Stanovoy, V.V. Fomin. 2016. Simulation of oil spills in the sea for planning measures to ensure environmental safety in oil and gas projects. Part II. Features of realization for applied problems. Problems of the Arctic and Antarctic. V. 1, 5-18.
  4. Korotenko, K.A. 2015. Modeling mesoscale circulation of the Black Sea, Oceanology, 55(6), 820–926.
  5. Zatsepa, S.N., N.F. Diansky, V.I. Zhuravel, A.A. Ivchenko, K.A. Korotenko, V.V. Solbakov, V.V. Stanovoy, V.V. Fomin. 2015, Simulation of oil spills in the sea for planning measures to ensure environmental safety in oil and gas projects. Part I. Methodology. Problems of the Arctic and Antarctic. V. 4, 26-38.
  6. Osadchiev, A,  K. A. Korotenko, P. O. Zavialov, W.-S. Chiang, and C.-C. Liu, 2016. Transport and bottom accumulation of fine river sediments under typhoon conditions and associated submarine landslides: case study of the Peinan River, Taiwan, Nat. Hazards Earth Syst. Sci. 16, 41-54, 2016. doi:10.5194/nhess-16-41-2016
  7. Korotenko, K.A. A.A. Osadchiev, P.O. Zavialov, R-C. Kao, C-F. Ding, 2014. Effects of bottom topography on dynamics of river discharges in tidal regions: case study of twin plumes in Taiwan Strait. Ocean Sci., 10, 863-879, doi:10.5194/os-10-863-2014; doi:10.5194/osd-11-1149-2014.
  8. Korotenko K.A., A. Sentchev, F.G. Schmitt, N. Jouanneau, 2013. Variability of turbulent quantities in the tidal bottom boundary layer: Case study in the eastern English Channel. Continental Shelf Research, V. 58. p. 21-31. http://dx.doi.org/10.1016/j.csr.2013.03.001
  9. Korotenko K.A., A. Sentchev, F.G. Schmitt, 2012. Effect of variable winds on current structure and Reynolds stresses in a tidal flow: analysis of experimental data in the eastern English Channel, Ocean Sciences, V. 8, p. 1025-1040. DOI: 10.5194/os-8-1025-2012.
  10. Korotenko К.А., M. J. Bowman, D.E. Dietrich, M. H Bowman. 2013. Modeling 3-D Transport and Dispersal of Oil Plume Released During BP/Horizon Accident in the Gulf of Mexico in 2010. J. Sustainable Energy Eng. V. 1(1), p. 85-104, Scrivener Publishing LLC, USA. DOI: 10.7569/JSEE.2012.629504.
  11. Zavialov, P.O., R.-C. Kao, V.V. Kremenetskiy, V.I. Peresypkin, C.-F. Ding, J.-T. Hsu, O.V. Kopelevich, K.A. Korotenko, Y.-S. Wu, P. Chen. 2012. Evidence for submarine groundwater discharge on the Southwestern shelf of Taiwan. Coast. Shelf. Res. 15, 18-25.
  12. Korotenko,K.A., P.O. Zavialov, R.-C. Kao, C.-F. Ding. 2012. Model for Predicting the Transport and Dispersal of Contaminants Incoming with Submarine Groundwaters: Case Study for the Southwestern Taiwan Coastal Zone. Open J. Mar. Sci., 2, 70-83. (http://www.SciRP.org/journal/ojms)
  13. Korotenko K.A., Sentchev A.V. 2011. Study turbulence in costal tidal zone. Oceanology 51(3), 394-406.
  14. Korotenko, K., M. Bowman and D. Dietrich. 2010. High-Resolution Model for Predicting the Transport and Dispersal of Oil Plumes Resulting from Accidental Discharges in the Black Sea. Recent Advances in Numerical Ocean Modeling and Prediction. Terr., Atmos. Oceanic Sci. 21 (1), 123–136.
  15. Korotenko, K., M. Bowman and D. Dietrich. 2010. Tracking and predicting the Gulf oil spill plume. Journal of Cosmology, 8, 2023-2025.
  16. Korotenko, K. 2009. Modeling an unusual upwelling event observed along the western Adriatic coast in the summer of 2003. Geophyzika, 25(2), 171-189.
  17. Korotenko K.A., Sentchev A.V. 2008. Effects of Particle Migration on the Features of Their Transport by Tidal Currents in a Region of Freshwater Influence. Oceanology, 2008, Vol. 48( 5), 622–633.
  18. Sentchev A., Korotenko K. 2007. Modeling distribution of flounder larvae in the eastern English Channel: sensitivity to physical forcing and biological behavior. Marine Ecology Progress Series. 3. P. 233-345.
  19. Korotenko K.A. 2007. Modeling mesoscale variability of the Adriatic Sea. Океанология. 47(3). 340-353.
  20. Korotenko K.A. 2007. A regression method for estimation of salinity in the ocean. Oceanology. 47(4). 464–475.
  21. Cushman-Roisin B., Korotenko K.A., Dietrich D., Calos C., 2007. Simulation and characterization of the Adriatic Sea Variability. J Geophys Res. 2007. 112, C03S14. doi: 10.1029/2006JC003515.2007
  22. Cushman-Roisin, B., Korotenko K. A. 2007, Mesoscale-resolving simulations of summer and winter bora events in the Adriatic Sea, J. Geophys. Res., 112, C11S91, doi:10.1029/2006JC003516.
  23. Kontar E., Lobkovsky L., Korotenko K.A. 2006. Oil Risk Assessment and Sustainable Industrial Development of Shelf Zones. In "Recent Geodynamics, Georisk and Sustainable Development in the Black Sea to Caspian Sea Region". A. Ismail-Zadeh (Ed.) Amer. Institute of Physics, 3-6 July 2005. 84-94.
  24. Sentchev А.В., Korotenko K.A., 2005. Dispersion processes and transport patterns in the ROFI systems of the eastern English Channel derived from a particle-tracking model. Continental Shelf Research, 25, 2294-2308.
  25. Korotenko K.A., R.M. Mamedov, A.E. Kontar, L.A. Korotenko, 2004. Particle tracking method in the approach for prediction of oil slick transport in the sea: modelling oil pollution resulting from river input J. Marine Systems. 48(1-4), 159-170.
  26. Sentchev А. V., Korotenko K.A., 2004. Stratification and tidal current effects on larval transport in the eastern English Channel: Observations and 3D modeling. J. Environ. Fluid Mech., 3, 305-331.
  27. Korotenko K.A., Sentchev A.V. 2004. To the Formation of Ichthyoplankton Assemblages Along the Eastern English Channel French Coast: Numerical Approach. Oceanology. 44(5), 729-741.
  28. Moudid L.A., Ouasine A., Korotenko K.A. 2003. Estimation de la diffusion effective d'une consentration passive dans un ecoulement instationnaire. Etude analitique et numericque. Proc. 16 eme Congres Francais de Mecahnique. Nice, 1-5 Septembre. 2003, 1-6.
  29. Korotenko, K.A. 2003. Warfare Chemicals Dumped in the Baltic Sea: Modeling Transport Processes of Pollution Resulting from Possible Leakages.” Oceanology. 43(1), 11-23.
  30. Korotenko, K., M. Bowman and D. Dietrich. 2003. Modeling Circulation and Oil Spill Transport and Dispersal in the Black Sea. Oceanology. 43(4), 411-421.
  31. Eckstein Y., Mamedov R.M., Korotenko K.A. 2003. Development of a 3-D Model to Predict the Fate of Hydrocarbon and Other Contaminant Spills into the Largest Lake of the World. Proc. of the Conference Achieving Sustainable Ware Resources in Areas Experiencing Rapid Population Growth. American Institute of Hydrology, 2003 Annual Meeting, Denver Proc. of the Annual Research Conference, April 8, 2003, Denver.
  32. Korotenko K.A., Mamedov R.M., Mooers C. N. K. 2002. Prediction of the Transport and Dispersal of Oil Transport in the South Caspian Sea Resulting from Blowouts. J. Environ. Fluid Mech. 1, 383-414.
  33. Spaulding M., Korotenko K, Calagan C. 2001. TRANSMAP: An Integrated, Real Time Environmental Monitoring and Forecasting System for Highways and Waterways in Rhode Island-Phase I (with M. Spaulding). University of Rhode Island Transportation Center. (URITC FY99-0). 34p.
  34. Korotenko, K.A., R.M. Mamedov. 2002. Modeling oil spill transport processes in sea coastal waters of the Caspian Sea. Oceanology, 40(1), 34-45.
  35. Korotenko, K.A., R.M. Mamedov, and C. N. K. Mooers. 2000. Prediction of the Dispersal of Oil Transport in the Caspian Sea Resulting from a Continuous Release. Spill Science and Technology Bulletin, 6(5/6), 323-339.
  36. Korotenko K.A., 2000. Matter Transport in Meso-Scale Oceanic Fronts of River Discharge Type. J. Marine Systems. 24(1-2). 85-95.