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71.
East Asian summer monsoon simulation by a 20-km mesh AGCM 总被引:1,自引:0,他引:1
East Asian summer monsoon climate simulated by a global 20-km mesh atmospheric general circulation model (AGCM) forced by
the global sea surface temperature during the period 1979–1998 is investigated. In comparison with a lower resolution (180-km
mesh) model experiment, it is revealed that the 20-km mesh AGCM shows the superiority in simulating orographic rainfall not
only its location but also its amount. The Baiu frontal structure is also better simulated in the higher resolution model,
which leads to stronger Baiu rainfall. The 20-km model also shows more intense extremes in precipitation. Interannual variability
of June–August mean precipitation and seasonal march of the monsoon rain band are also investigated.
This paper is a contribution to the AMIP-CMIP Diagnostic Sub-project on General Circulation Model Simulation of the East Asian
Climate, coordinated by W.-C. Wang. 相似文献
72.
Intraseasonal oscillations in 15 atmospheric general circulation models: results from an AMIP diagnostic subproject 总被引:16,自引:1,他引:16
73.
Intercomparison of the climatological variations of Asian summer monsoon precipitation simulated by 10 GCMs 总被引:24,自引:2,他引:24
74.
Takuya Moriguti Akio Makishima Eizo Nakamura 《Geostandards and Geoanalytical Research》2004,28(3):371-382
A precise and simple method for the determination of lithium concentrations in small amounts of silicate sample was developed by applying isotope dilution-inductively coupled plasma-mass spectrometry (ID-ICP-MS). Samples plus a Li spike were digested with HF-HClO4 , dried and diluted with HNO3 , and measured by ICP-MS. No matrix effects were observed for 7 Li/6 Li in rock solutions with a dilution factor (DF) of 97 at an ICP power of 1.7 kW. By this method, the determination of 0.5 μg g-1 Li in a silicate sample of 1 mg can be made with a blank correction of < 1%. Lithium contents of ultrabasic to acidic silicate reference materials (JP-1, JB-2, JB-3, JA-1, JA-2, JA-3, JR-1 and JR-2 from the Geological Survey of Japan, and PCC-1 from the US Geological Survey) and chondrites (three different Allende and one Murchison sample) of 8 to 81 mg were determined. The relative standard deviation (RSD) was typically < 1.7%. Lithium contents of these samples were further determined by isotope dilution-thermal ionisation mass spectrometry (ID-TIMS). The relative differences between ID-ICP-MS and ID-TIMS were typically < 2%, indicating the high accuracy of ID-ICP-MS developed in this study. 相似文献
75.
A multi-model analysis of the role of the ocean on the African and Indian monsoon during the mid-Holocene 总被引:1,自引:6,他引:1
Y. Zhao P. Braconnot O. Marti S.P. Harrison C. Hewitt A. Kitoh Z. Liu U. Mikolajewicz B. Otto-Bliesner S.L. Weber 《Climate Dynamics》2005,25(7-8):777-800
We investigate the role of the ocean feedback on the climate in response to insolation forcing during the mid-Holocene (6,000 year
BP) using results from seven coupled ocean–atmosphere general circulation models. We examine how the dipole in late summer
sea-surface temperature (SST) anomalies in the tropical Atlantic increases the length of the African monsoon, how this dipole
structure is created and maintained, and how the late summer SST warming in the northwest Indian Ocean affects the monsoon
retreat in this sector. Similar mechanisms are found in all of the models, including a strong wind evaporation feedback and
changes in the mixed layer depth that enhance the insolation forcing, as well as increased Ekman transport in the Atlantic
that sharpens the Atlantic dipole pattern. We also consider changes in interannual variability over West Africa and the Indian
Ocean. The teleconnection between variations in SST and Sahelian precipitation favor a larger impact of the Atlantic dipole
mode in this region. In the Indian Ocean, the strengthening of the Indian dipole structure in autumn has a damping effect
on the Indian dipole mode at the interannual time scale. 相似文献
76.
East Asian winter monsoon: results from eight AMIP models 总被引:6,自引:0,他引:6
Y. Zhang K. R. Sperber J. S. Boyle M. Dix L. Ferranti A. Kitoh K. M. Lau K. Miyakoda D. Randall L. Takacs R. Wetherald 《Climate Dynamics》1997,13(11):797-820
This study evaluates simulations of the East Asian winter monsoon in eight GCMs that participated in the Atmospheric Model
Intercomparison Project (AMIP). In addition to validating the mean state of the winter monsoon, the cold surge and its transient
properties, which includes the frequency, intensity, preferred propagation tracks, and the evolution patterns of the surges,
are examined. GCM simulated temporal distribution of the Siberian high and cold surges is also discussed. Finally, the forcing
of the cold surges on the tropical surface wind and convection, along with their interannual variation is analyzed. The mean
state of the winter monsoon is generally portrayed well in most of the models. These include the climatological position of
the Siberian high, the 200 hPa divergent center, and the large-scale wind patterns at the surface and the 200 hPa. Models
display a wide range of skill in simulating the cold surge and its transient properties. In some of the models, the simulated
cold surge trajectory, intensity, frequency, propagation patterns and source regions are in general agreement with those from
the observed. While in others, the models cannot adequately capture these observed characteristics. The temporal distribution
of the Siberian high and cold surges were realistically reproduced in most GCMs. Most models were able to simulate the effect
of the cold surges on the tropical surface wind, although a few models unrealistically generated subtropical southerly wind
in the mid-winter. The relationship between cold surges and the tropical convection was not satisfactorily simulated in most
models. The common discrepancies in the winter monsoon simulation can be attributed to many factors. In some models, the reason
is directly related to the improper location of the large-scale convective center near the western Pacific. The satisfactory
simulations of the monsoon circulation and the cold surges are partly due to the topographical characteristics of the East
Asian continent, i.e., the Tibetan Plateau to the west and the oceans to the east. The correct simulation of the interannual
variation of the surface wind near the South China Sea (SCS) and the maritime continent is a demanding task for most of the
models. This will require adequate simulations of many aspects, including tropical convection, the Siberian cold dome, the
extratropical-tropical linkage, and the air-sea interaction. The discrepancies noted here furnish a guide for the continuing
improvement of the winter monsoon simulations. Improved simulations will lead to an adequate delineation of the surface wind
and convection near the maritime continent, which is essential for portraying the winter monsoon forcing in a coupled model.
Received: 10 March 1997/Accepted: 4 June 1997 相似文献
77.
Akio Yoshida Kohji Hososno Toshimitsu Tsukakoshi Akio Kobayashi Hiromi Takayama Stefan Wiemer 《Tectonophysics》2006,417(1-2):17
We investigate the relationship between changes in seismicity and crustal deformations in the Tokai region. We describe how seismicity in the subducted slab increased remarkably in the fall of 2000 and decreased in the fall of 2001, while in contrast, the crust seismicity decreased in the fall of 2000 and increased in the fall of 2001. We note that the trend of horizontal displacement at GPS stations changed coincidentally and we propose interpreting the increase and decrease in seismic activities and the changes in crustal deformations in a unified way based on changes in the state of the interplate coupling, i.e., the back-slip rate was reduced in the fall of 2000 and was partially restored in the fall of 2001. We explain why reduction of the back-slip rate increases seismogenic stress in the slab and decreases stress in the crust. We also describe the substantial positive dilatation observed in the region around Mt. Fuji in the fall of 2000 and suggest that the remarkable increase of low-frequency earthquakes beneath Mt. Fuji in October 2000 may have been caused by deceleration of the converging motion of the Izu micro-plate with the Eurasian plate. The decrease of the subduction velocity of the Izu micro-plate on the Suruga Trough in late 2000 would also have contributed to weakening of the interplate coupling beneath the Tokai region, since reduction of the relative velocity between overriding and subducting plates produces the same effect on the plate interface as a diminishing back-slip rate. However, subduction of the Izu micro-plate on the Suruga Trough was accelerated in early 2003, which may have caused increases in both slab and crust seismicities in that period. 相似文献
78.
Akio Kitoh 《Natural Hazards》2007,42(2):261-272
There is a close relationship between interannual variability of the Indian summer monsoon rainfall and the El Niño/Southern Oscillation (ENSO) (drought conditions over India accompany warm ENSO events and vice versa). However, recent observations suggest a weakening of this ENSO-monsoon relationship that may be linked to global warming. We report here an analysis of the ENSO-monsoon relationship within the framework of a 1000-year control simulation of the MRI-coupled general circulation model (GCM), MRI-CGCM2.2. An overall correlation between the June-July-August (JJA) Nino3.4 sea surface temperature and the JJA Indian monsoon rainfall is –0.39, with reasonable circulation characteristics associated with the modeled ENSO. The simulated ENSO-monsoon relationship reveals long-term variations, from –0.71 to +0.07, in moving 31-year windows. This modulation in the ENSO-monsoon relationship is associated with decadal variability of the climate system. 相似文献
79.
Sawanoike Pond, an artificial reservoir constructed ca. 150 yrs. ago, lies in an area geologically sensitive to acidification and contains water that is presently weakly acidic (pH 5.5; alkalinity 15 eq 1-1). Sediments from a core obtained from the northern part and a core from the central part of the pond were analyzed for organic matter, total organic carbon, total nitrogen, natural and artificial radionuclides, pollen, diatoms, metals and spheroidal carbonaceous particles. A peaty silt layer at the bottom of the central core was replaced by a silt layer initially rich in humic substances, but became more mineral-rich near the surface. Although most of the dominant diatoms throughout the cores were acidophilous taxa, some acidobiontic species increased moderately in abundance after the middle 1960's. Diatom-inferred pH values for the northern core are relatively low before about 1930, then increase, reaching a maximum level between the 1930's and the late 1940's. They then decrease to the surface and reach minimum level during the middle 1980's. Diatom-inferred pH declined by 0.4-0.5 units in the northern core and 0.2-0.3 units in the central core since ca. 1910, when vegetation around the shore changed to a community similar to that of recent years. An increase in labile Pb, Zn, Cd and spheroidal carbonaceous particles, indicative of atmospheric deposition of fossil fuel combustion by-products, preceded the decline in inferred pH. The inferred pH decline of the pond could be an acidification due to acidic precipitation caused by fossil fuel combustion. 相似文献
80.
Currently, air pollution in Beijing has become a complex problem with two types of source pollutants: coal smoke and photochemical smog. Furthermore the maximum hourly mean concentration of O3 increases continuously, especially in the summer. In order to simulate the photochemical reaction, develop an air quality simulation model and further improve the air quality of Beijing, a precisely temperature-controlled, indoor, smog chamber facility was designed and constructed at Tsinghua University. Characterization experiments have been carried out to acquire the basic parameters of the smog chamber, such as the wall loss rates of NO2, NO, O3, C3H6 and particulate matter (PM), the intensity of ultraviolet (UV) light in the chamber, the reactivity of the purified air and the reproducibility of the experimental results. The results indicate that the facility performs up to specifications, and can meet the demands required for simulating the photochemical reaction. The effect of high primary contaminated PM on the formation of ozone and secondary organic aerosol (SOA) is under investigation. 相似文献