Modeling the components of heat and water balance for the land surface of the globe

Abstract

Physically-based model SWAP, developed by the authors earlier and describing the processes of heat and water exchange between the land surface and the atmosphere was adapted for calculating the components of heat and water balance for the entire land surface of the globe. An information base for the model was prepared as a version of global dataset with one-degree spatial resolution for three-hour hydrometeorological data and land surface parameters. The dynamics of various parameters of heat and water regimes of the soil-vegetation (snow) cover-atmosphere system was calculated by using a new version of the land surface model SWAP with a three-hour time step from July 1, 1982, to December 31, 1995. Calculation results were compared with estimates available from the literature.