A GCM Study on the Roles of the Seasonal Marches of the SST and Land-Sea Thermal Contrast in the Onset of the Asian Summer Monsoon
スポンサーリンク
概要
- 論文の詳細を見る
The influences of the SST and land surface temperature on the onset of the Asian summer monsoon are studied by using an atmospheric GCM, Global Spectral Model (GSM) of Japan Meteorological Agency (JMA). After confirming from five-year control run with the climatological SST that the model performs the Asian summer monsoon well, we make the impacts of two kinds of main experiments, i.e., SST fixed run and solar fixed run, focusing on the Asian summer monsoon onset. In the SST fixed run, the model is run from April 1st until June 30th under the SST, which is fixed at the value of April 1st. To see impacts systematically, an ensemble average over five cases is compared with that of the control run. The fixed SST considerably reduces the Somali jet, the cross equatorial water vapor transport, the northern-hemispheric evaporation, and then suppresses the ITCZ jump from the southern hemisphere to the northern hemisphere. It also reduces the low-level westerlies from Southeast Asia, which brings the monsoon onset. In the solar fixed run, the model is run from April 1st until June 30th under the solar condition, which is fixed at that of April 1st. The fixed solar condition reduces the land-sea thermal contrast, suppresses the heat low over the continent, and reduces low level westerlies in a geostrophic sense. The above experiments indicate that both land-sea thermal contrast and SST considerably contribute to the onset of the Asian summer monsoon. The land-sea thermal contrast induces low-level wind surrounding the Eurasian continent, and makes a primary contribution to the formation of the Asian mon-soon westerlies. The seasonal march of the SST destabilizes the stratification, induces the ITCZ jump from the southern to the northern hemisphere, strengthens the Hadley circulation, and then enhances the monsoon westerlies through effective transport of the absolute angular momentum.
- 2006-02-27
著者
-
Iwasaki Toshiki
Department Of Geophysics Graduate School Of Science Tohoku University
-
Lestari Rosbintarti
Department Of Geophysics Graduate School Of Science Tohoku University
関連論文
- Impacts of Ice Phase Processes on Tropical Cyclone Development
- The Impact of Changing Meteorological Variables to Be Assimilated into GCM on Ozone Simulation with MRI CTM
- Resolution Dependence of Nonhydrostatic Models in Simulating the Formation and Evolution of Low-Level Clouds during a "Yamase" Event
- A GCM Study on the Roles of the Seasonal Marches of the SST and Land-Sea Thermal Contrast in the Onset of the Asian Summer Monsoon
- Comparisons of Brewer-Dobson Circulations Diagnosed from Reanalyses
- P232 A numerical study of horizontal convective rolls and near-surface streaks around Sendai Airport
- D160 A challenge to realize ultra-high-resolution weather prediction for big cities : system construction and experiments over Sendai area
- P318 Observation analysis on an extreme heavy rainfall case over southern China in June 2005
- P206 The comparison of a Mesoscale Convective System between observation and JMA-NHM Simulations
- P305 A mesoscale super-high-resolution modelling on the sea-breeze horizontal convective rolls: The impacts of landuse and buildings