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Land surface schemes (LSS or terrestrial models) are a crucial component of both Numerical Weather Prediction (NWP) and Climate Modelling. One component is a lake. Lakes haven’t been recognized as significant “actors” in the climate system, as they cover less than 4% of the land surface. However, regional thermodynamic and dynamic effects of lakes on weather and climate are important for most of Canada, Finland, Western Siberia and other regions (Dutra et al., 2010; Martynov et al., 2012; Eerola et al., 2014). This motivated inclusion of thermodynamic lake models into many NWP and climate models (Martynov et al.,2012; Dutra et al., 2010; Mironov et al., 2010; Subin et al., 2012; Rontu et al., 2012). This motivated inclusion of thermodynamic lake models into many NWP and climate models. At the moment, the existing joint general circulation model of the atmosphere and ocean INM (Volodin et al., 2010) the LAKE model has been integrated (Stepanenko et al., 2011) with reverse interaction. Connected to the model INMCM4 consisting of 14 types of land created using a digital map of inland waters for the entire globe. Create a digital map of water bodies includes the two-dimensional array on the grid climate model: the proportion of the area of the cell occupied land reservoirs, and the average depth of water bodies in the cell. This digital map is based on a database consisting of the order of 14 000 freshwater lakes and data depths (Kourzeneva, E. 2012.). To be able to work together INM model and LAKE, in the LAKE model to epsilon-parameterization has been replaced by parameterization of the calculation of the diffusion coefficient Henderson-Sellers (Hendersson-Sellers, 1985). With change model INMCM numerical experiments were calculated for the global experiments of the historical period of the second half of the XX century. Analyzed the difference between the values of the surface temperature and heat flow for the parameterization of the old parametrization in INMCM and new parameterization (LAKE), averaged over the year.