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- Title
Characterizing GCM Land Surface Schemes to Understand Their Responses to Climate Change.
- Authors
Gedney, N.; Cox, P.M.; Douville, H.; Polcher, J.; Valdes, P.J.
- Abstract
The impact of land surface representation on GCM simulations of climate change is analyzed using eight climate change experiments, carried out with four GCMs each utilizing two different land surface schemes (LSSs). In the regions studied (Amazonia, the Sahel, and southern Europe) the simulations differ markedly in terms of their predicted changes in evapotranspiration and soil moisture. These differences are only partly as a result of differences in the predicted changes in precipitation and available energy. A simple "bucket model" characterization of each LSS demonstrates that the different hydrological sensitivities are also strongly dependent on properties of the LSS, most notably the runoff, which occurs when evaporation is marginally soil moisture limited. This parameter, "Yc ," varies significantly among the LSSs, and influences both the soil moisture in the 1 3 CO2 control climate, and the sensitivity of both evaporation and soil moisture to climate change. It is concluded that uncertainty in the predicted changes in surface hydrology is more dependent on such gross features of the runoff versus soil moisture curve than on the detailed treatment of evapotranspiration.
- Subjects
CLIMATE change; SOILS
- Publication
Journal of Climate, 2000, Vol 13, Issue 17, p3066
- ISSN
0894-8755
- Publication type
Article
- DOI
10.1175/1520-0442(2000)013<3066:CGLSST>2.0.CO;2