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Simulation of CO2 exchange processes in the atmosphere-surface biomes system by the climatic model ECSib

  • V. N. KRUPCHATNIKOV
Published/Copyright: October 22, 2009
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Russian Journal of Numerical Analysis and Mathematical Modelling
From the journal Volume 13 Issue 6

Published Online: 2009-10-22
Published in Print: 1998

Walter de Gruyter

Articles in the same Issue

  1. ON THE OCCASION OF VALENTIN P. DYMNIKOV 60th ANNIVERSARY
  2. Mesoscale modelling of wet convection and gas-aerosol interaction
  3. Stability of attractors in semidynamic systems
  4. Numerical model of the general circulation of the Arctic Ocean. A new version and preliminary calculation results
  5. Simulation of CO2 exchange processes in the atmosphere-surface biomes system by the climatic model ECSib
  6. Non-local turbulence closure for convective boundary layers
  7. On the statement and solution of inverse problems in satellite meteorology
  8. Circulation of the World ocean: the effect of physical factors on the formation and the long-term variability of hydrophysical fields
  9. Numerical modelling of physical characteristics in the neighbourhood of an isolated hydrological section in the Barents Sea
  10. Atmospheric circulation and weather prediction models using a semi-Lagrangian approach and high-order compact finite differences
https://doi.org/10.1515/rnam.1998.13.6.479

Articles in the same Issue

  1. ON THE OCCASION OF VALENTIN P. DYMNIKOV 60th ANNIVERSARY
  2. Mesoscale modelling of wet convection and gas-aerosol interaction
  3. Stability of attractors in semidynamic systems
  4. Numerical model of the general circulation of the Arctic Ocean. A new version and preliminary calculation results
  5. Simulation of CO2 exchange processes in the atmosphere-surface biomes system by the climatic model ECSib
  6. Non-local turbulence closure for convective boundary layers
  7. On the statement and solution of inverse problems in satellite meteorology
  8. Circulation of the World ocean: the effect of physical factors on the formation and the long-term variability of hydrophysical fields
  9. Numerical modelling of physical characteristics in the neighbourhood of an isolated hydrological section in the Barents Sea
  10. Atmospheric circulation and weather prediction models using a semi-Lagrangian approach and high-order compact finite differences
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