Mikhail Yu. Bardin

Mikhail Yu. Bardin

Head, Department of Climate Monitoring and Probabilistic Forecast, Yu.A. Izrael Institute of Global Climate and Ecology (IGCE).

Graduated from Moscow State Pedagogical Institute in 1978, Department of Mathematics.

Academic degrees: PhD in Geophysics (1994). Dissertation “Characteristics of cyclone activity in the Northern Extratropics for Climate Diagnosis and Forecast

Research field: climate variability and change, atmospheric circulation, weather and climate extremes.

Since 1978 to present, works in Moscow, Russia at

  • 1978 – Department of Mathematics, Moscow State Pedagogical Institute;
  • 1980-1990 – Hydrometcenter of the USSR, research scientist;
  • 1991-1996 - Yu.A. Izrael Institute of Global Climate and Ecology (IGCE), senior research scientist;
  • 1997-2014 - Institute of Geography of the Russian Academy of Sciences, senior research scientist;
  • 2014- at present - Yu.A. Izrael Institute of Global Climate and Ecology (IGCE), Head, Department of Climate Monitoring and Probabilistic Forecast.

Scientific publications: over 50 papers.

Principal publications:

  • Bardin M.Yu., Rankova E.Ya., Platova T.V., Samokhina O.F., Korneva I.A. Modern surface climate change as inferred from routine climate monitoring data – Russian Meteorology and Hydrology, 2020, №5. С. 29-45
  • Bardin M.Yu. T.V. Platova Changes in seasonal air temperature extremes in Moscow and central regions of European Russia– Russian Meteorology and Hydrology, 2020, № 7. p. 20-35
  • Bardin M.Yu. T.V. Platova Long-period variations of extreme temperature statistics on the territory of Russia and their connections to the changes in the large-scale atmospheric circulation and the global warming– Russian Meteorology and Hydrology, 2019, № 12. p. 5-15
  • Bardin M.Yu., Platova T.V., Samokhina O.F. Variability of anti-cyclonic activity in the Northern Extratropics – Fundamental and Applied Climatology, 2019, v.3 p. 32-58
  • Voskresenskaya E., Bardin M., Kovalenko O. Climate variability of anticyclones in Black-Mediterranean region / Quaternary International. – 2016. – Vol. 409 (A). – P. 70
  • Bardin M.Yu. (lead author), O.N. Bulygina, T.V. Platova. Climate extremes – Second Roshydromet Assessment Report on climate change and its Consequences on the territory of the Russian Federation. Moscow, 2014, p 171-202
  • Bardin M.Yu. Scenary forecasts of air temperature variations for the regions of the Russian Federation up to 2030 using the empirical stochastic climate models – Russian Meteorology and Hydrology, 2011, № 4. p. 217-228.
  • Bardin M.Yu. Anticyclonic quasi-stationary circulation and its effect on air temperature anomalies and extremes over western Russia– Russian Meteorology and Hydrology, 2007, № 2. С. 75-84.
  • Bardin M.Yu., Polonsky A.B. North Atlantic Oscillation and synoptic variability in the Europe-Atlantic region in winter – Izvestia RAS, Physics of Atmosphere and Ocean, 2005, v. 41, No.2, p.3-13.
  • Bardin M.Yu. Air temperature variability over the western areas of Russia and adjacent countries in the 20th century - Russian Meteorology and Hydrology, 2002. № 8. p. 1-15.
  • Bardin M.Yu. Principal modes of variability of winter cyclone frequency in the Atlantic sector- Meteorologia i Gidrologia,, 2000, №1, p.42-52 (in rus.)
  • Bardin M.Yu. Regional quasi-stationary regimes of the extratropical Northern Hemisphere winter circulation. Part 2. distribution and horizontal structure of fluctuations- Russian Meteorology and Hydrology, 1999, №2, p.7-16.
  • Bardin M.Yu. Regional quasi-stationary regimes of the extratropical Northern Hemisphere winter circulation. Part I: geographic distribution and regime-related geopotential anomalies - Russian Meteorology and Hydrology, 1999, №1, p.1-12.
  • Bardin M.Yu. Definition of winter circulation regimes in northern extratropics using h500 data in key regions – Russian Meteorology and Hydrology, 1996, №5, p.11-28.
  • Bardin M.Yu. Variability of cyclone characteristics in the extratropical middle troposphere of the Northern Hemisphere – Meteorologia i Gidrologia, 1995, №11, p.24-37 (in rus.)

Published in 2013 - 2018:

  • Bardin M.Yu., Rankova E.Ya., Platova T.V., Samokhina O.F., Korneva I.A. Modern surface climate change as inferred from routine climate monitoring data – Russian Meteorology and Hydrology, 2020, №5. С. 29-45.
  • Bardin M.Yu. T.V. Platova Changes in seasonal air temperature extremes in Moscow and central regions of European Russia– Russian Meteorology and Hydrology, 2020, № 7. p. 20-35.
  • Bardin M. Yu., Korshunova N.N. 2020: Russia [in “State of the Climate in 2019"]. Bull. Amer. Meteor. Soc., 101 (8), S338–S339, https://doi.org/10.1175/2020BAMSStateoftheClimate_Chapter7.1.
  • Bardin M.Yu. T.V. Platova Long-period variations of extreme temperature statistics on the territory of Russia and their connections to the changes in the large-scale atmospheric circulation and the global warming– Russian Meteorology and Hydrology, 2019, № 12. p. 5-15.
  • Bardin M.Yu., Platova T.V., Samokhina O.F. Variability of anti-cyclonic activity in the Northern Extratropics – Fundamental and Applied Climatology, 2019, v.3 p. 32-58.
  • Bulygina O.N., Korshunova N.N. Bardin M.Yu., Davletshin S.G., 2018: Russia [in “State of the Climate in 2017”]. Bull. Amer. Meteor. Soc., 99 (8), S233–S239, doi:10.1175/2018BAMSStateoftheClimate.1.
  • Bardin M.Yu., Kislov A.V. Dynamics of the climate system on the territory of the Russian Federation – pp.42-47 in book: National report “Global climate and soil cover in Russia: assessment of risks and ecology – economy consequences of soil degradation. Adaptive systems and technologies of rational environmental management (agriculture and forestry). Ed. A.I. Bedritsky. M., GEOS, 2018 in rus.
  • Bardin M.Yu., Rankova E.Ya., Rocheva E.V., Samokhina O.F. Climatic anomalies of SAT in summer 2016. Meteorology and Hydrology. 2017, №2, pp. 137-142 in rus.
  • Kovalenko O., Bardin M., Voskresenskaya E., Changes in characteristics of extreme air temperatures over the Black Sea region and their variability due to relationships with interannual large-scale climatic processes. - Fundamental and Applied Climatology, 2017, v.2, pp.42-62 in rus.
  • Zolotokrylin, A.N., Cherenkova, E.A., Titkova, T.B., Mikhailov A.Yu., Bardin M.Yu., Shiryaeva, A.V., Vinogradova, V.V.Change in yields of cereal crops in European Russia caused by the quasi-biennial oscillation of atmospheric processes. Izvestiya Rossiiskoy Akademii Nauk, Seriya Geograficheskaya 2016. №2. С. 90-99 in rus.
  • Voskresenskaya E., Bardin M., Kovalenko O. Climate variability of anticyclones in Black-Mediterranean region / Quaternary International. – 2016. – Vol. 409 (A). – P. 70 – 74. DOI: 10.1016/j.quaint.2015.09.096