EFFECTS OF RADIATION SCHEME ON THE SURFACE TEMPERATURE AND WIND OVER THE ANTARCTIC AND ON CIRCUMPOLAR LOWS
スポンサーリンク
概要
- 論文の詳細を見る
We have examined effects of radiation schemes including cloud emissivity on the surface temperature and wind over the Antarctic in May by performing one month integration of a global spectral model of the Meteorological Research Institute. It is found that radiation schemes have large effects on the surface and surface air temperatures; increase in longwave downward flux due to the improvement of radiation scheme directly results in temperature rises of surface and surface air. Above all, clouds play a crucial role in determining the surface temperature. When clouds are treated as non-black bodies, the surface temperature lowers through decrease in longwave downward flux. The surface temperature is found to be highly correlated to the surface pressure. When the surface temperature over the Antarctic rises, the surface pressure also rises, and the circumpolar lows move northward while weakening. It is also shown that in the Antarctic the surface air is subject to large cooling owing to radiation and heat exchange with the cold surface; however, the cooling is compensated for by heating by adiabatic compression in down draft process and entrainment of upper warmer air. Surface wind speed is to a great degree affected by surface temperature, while surface wind direction is nearly independent of surface temperature.
- 国立極地研究所の論文
著者
-
SHIBATA Kiyotaka
Meteorological Research Institute
-
CHIBA Masaru
Meteorological Research Institute
-
Chiba M
Meteorological Research Inst. Tsukuba
-
Shibata Kiyotaka
Meteorological Res. Inst.
関連論文
- Present-Day Climate and Climate Sensitivity in the Meteorological Research Institute Coupled GCM Version 2.3 (MRI-CGCM2.3)
- Apparent stratospheric ozone loss rate over Eureka in 1994/95, 1995/96, and 1996/97 inferred from ECC ozonesonde observations
- Stratospheric Ozone Loss over Eureka in 1999/2000 Observed with ECC Ozonesondes
- Development of a Dispersion Model for Volcanic Gas over Miyake Island
- Sensitivity Experiments of Direct Radiative Forcing Caused by Mineral Dust Simulated with a Chemical Transport Model(ADEC-Aeolian Dust Experiment on Climate Impact-)
- The Impact of Changing Meteorological Variables to Be Assimilated into GCM on Ozone Simulation with MRI CTM
- Finding abnormal events during the Iraq War monitored at Japan 8000km away from Iraq
- EFFECTS OF RADIATION SCHEME ON THE SURFACE TEMPERATURE AND WIND OVER THE ANTARCTIC AND ON CIRCUMPOLAR LOWS
- CLIMATE CHANGE : AN INTEGRETED CONCEPT OF GEOSPHERE
- On the comparison of the Difference of Trajectory between JMA's and CMA's Global trace transporting models for EER
- Representation of the Earth Spectral Topography and Its Effect on the MRI GCM
- The scheme for the Operational Forecasting System of the Potential Extremely Forest Fire in NMC, CMA
- Numerical modeling of dust storm in the Taklimakan Desert : Possibility of effective long-range transport
- Influence of Cumulus Convection Schemes on the ENSO-like Phenomena Simulated in a CGCM
- Global Simulation of Dust Aerosol with a Chemical Transport Model, MASINGAR(ADEC-Aeolian Dust Experiment on Climate Impact-)
- TRANSPORT SIMULATION OF PASSIVE TRACERS FROM THE NORTHERN HEMISPHERE TO THE SOUTHERN HEMISPHERE
- Interannual variation of the stratospheric circulation in the Southern Hemisphere during winter to spring -observation and simulation- (abstract)
- SOME CHARACTERISTICS OF SANDSTORM IN NORTHWEST OF CHINA
- A New Advection Scheme for Global Models
- Radiativery determined temperature in the middle atmosphere in the polar region (abstract)
- EFFECT OF VOLCANIC AEROSOLS ON THE POLAR STRATOSPHERIC TEMPERATURE
- RADIATIVELY DETERMINED TEMPERATURE IN THE MIDDLE ATMOSPHERE IN THE POLAR REGION