Climatic and biological simulations in a two-way coupled atmosphere-biosphere model (CABM)

Today, most land surface process models have prescribed seasonal change of vegetation with regard to the exchange processes between land and the atmosphere. However, in order to consider the real interaction between vegetation and atmosphere and represent it best in a climate model, the vegetation growth process should be included. In other words, "life' should be brought into climate models. In this study, we have coupled the physical and biological components of AVIM (Atmosphere-Vegetation Interaction Model), a land surface model including plant ecophysiological processes, into the IAP/LASG L9 R15 GOALS GCM. To exhibit terrestrial vegetation information, the vegetation is given a high resolution of 1.5 degrees by 1.5 degrees to nest and couple the fine grid cells of land with the coarse grid cells of atmosphere, which is 7.5 degrees longitude and 4.5 degrees latitude. The simulated monthly mean surface air temperature and precipitation is close to the observations. The monthly mean Leaf Area Index (LAI) is consistent with the observed data. The global annual mean net primary production (NPP) simulation is also reasonable. The coupled model is stable, providing a good platform for research on two-way interaction between land and atmosphere, and the global terrestrial ecosystem carbon cycle. (c) 2004 Elsevier B.V. All rights reserved.