Nonlinear dynamics of global atmospheric and Earth-system processes
Abstract
General Circulation Model (GCM) studies of the atmospheric response to change boundary conditions are discussed. Results are reported on an extensive series of numerical studies based on the National Center for Atmospheric Research (NCAR) Community Climate Model (CCM) general circulation model. In these studies the authors determined the response to systematic changes in atmospheric CO2 ranging from 100 to 1000 ppm; to changes in the prescribed sea surface temperature (SST) in the Gulf of Mexico, such as occurred during the deglaciation phase of the last ice age; to changes in soil moisture over North America; and to changes in sea ice extent in the Southern Hemisphere. Study results show that the response of surface temperature and other variables is nearly logarithmic, with lower levels of CO2 implying greater sensitivity of the atmospheric state to changes in CO2. It was found that the surface temperature of the Gulf of Mexico exerts considerable control over the storm track and behavior of storm systems over the North Atlantic through its influence on evaporation and the source of latent heat. It was found that reductions in soil moisture can play a significant role in amplifying and maintaining North American drought, particularly when a negative soil moisture anomaly prevails late in the spring.
- Publication:
-
In NASA. Marshall Space Flight Center
- Pub Date:
- September 1991
- Bibcode:
- 1991gsap.rept...83S
- Keywords:
-
- Air Water Interactions;
- Atmospheric General Circulation Models;
- Atmospheric Physics;
- Boundary Conditions;
- Climate;
- Earth Atmosphere;
- Nonlinearity;
- Sea Surface Temperature;
- Soil Moisture;
- Atmospheric Composition;
- Carbon Dioxide;
- Carbon Dioxide Concentration;
- Drought;
- Glaciology;
- Gulf Of Mexico;
- Ice;
- Latent Heat;
- Sea Ice;
- Soils;
- Storms;
- Geophysics