Model estimates of the changes in actual evaporation of boreal forests in the taiga zone of European part of Russia due to climate warming in the 21st century are conducted. Future regional climate projection is based on the ensemble output of the MGO regional climate model (RCM). Spatiotemporal downscaling of the RCM output is carried out using the atmospheric boundary layer model (ABLM). Dependence of the predicted changes in evaporation on the calculation method is analyzed. Calculations based on “complementary ratio” approach which determines the actual evaporation using standard meteorological parameters are compared with observations and calculations based on a detailed model of energy transfer in the forest area. Model estimates of actual evaporation in the 21st century are projected to increase throughout the territory of European Russia. The influence of droughts on the evolution of actual evaporation is analyzed. It is shown that despite the increase in climate aridity, the impact of droughts on taiga forests will be moderately adverse.