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71.
DEVELOPMENT OF A COUPLED REGIONAL AIR-SEA MODEL AND ITS NUMERICAL SIMULATION FOR SUMMER MONSOON IN 1998 总被引:3,自引:0,他引:3
A coupled regional air-sea model is developed by using the regional climate model (P-σ RCM)and the regional ocean model (POM),which is used to simulate East Asian monsoon and oceanicelements in East Asian coastal waters.The simulated surface layer oceanic elements are basicallyconsistent with the reality and can reflect the interaction between the monsoon and the surfacelayer currents.The great difference with the reality is “cold drift” of the simulated surfacetemperature.The coupled model has certain ability to simulate the atmosphere geopotential heightfields,precipitation and low-level southwest wind from May to August in 1998.It can display theprocess of summer monsoon onset during the third dekad of May and the evolution features afterthe onset.The differences between the simulation results of the coupled model and that of thesingle P-a RCM are shown mainly in the low-level atmosphere and the model internal regions. 相似文献
72.
By Using the P-σ five-layer primitive equation model,three sets of numerical experiments are performedwith normal zonal mean SST(the control case),the positive SST anomalies in the Kuroshio current andeast-of-Japan Ocean(the midlatitude western Pacific),and positive SST anomalies over both the midlatitudeand the equatorial western Pacific.The experimental results show that the positive SST anomalies over themidlatitude western Pacific have great influence on the Asian summer monsoon:the Indian monsoon is weak-ened and the East Asian monsoon is intensified.This happens just reverse to the effects of positive SSTanomalies over the equatorial westero Pacific on the Asian summer monsoon.Further,the influence mechanismof the SST anomalies over the midlatitude westcrn Pacific on the Asian summer monsoon is discussed. 相似文献
73.
The effects of the land-sea contrast and the topography on the climatic properties are simulated in this paper by use of a p- σ incorporated coordinate system model in a zonal domain. In this paper we firstly discuss the statistical features of the model and find that the capability of the model is stable, with the same land-sea distribution and to-pography seven monthly mean climate states are close to one another, their variance is even less than the initial one. Secondly, we focally discuss the effects of the land-sea contrast and the topography on the modeled climate fields, It is pointed out that the land-sea contrast and the topography influence the atmosphere mainly through the heating ef-fect and the former has larger influences on the simulated large scale climate fields than the latter. 相似文献
74.
The effects of different sea surface temperature distributions over the western Pacific on the summer monsoon properties 总被引:8,自引:0,他引:8
Qian Yongfu 《海洋学报(英文版)》1993,12(4):535-547
A modified and improved primitive equation numerical model with p-sigma incorporated vertical coordinates is used to simulate the effects of different sea surface temperature distributions over the western Pacific on the summer monsoon properties. The different sea surface temperature (SST) distributions are automatically generated in the time integrations by using two different SST models, one of which is called the deep ocean model (DOM) and the other the shallow ocean model (SOM). The SST generated by the DOM has the distribution pattern of the initial SST which is similar to the pattern in the cold water years over the western Pacific, while the SST generated by the SOM has the pattern similar to that in the warm water years. The differences between the experimental results by using DOM and SOM are analyzed in detail. The analyses indicate that the most basic and important characteristics of the summer monsoon climate can be simulated successfully in both experiments, that means the climatic propert 相似文献
75.
The differences in the influences of the North Atlantic Oscillation (NAO) on the air–sea CO_2 fluxes (f CO_2) in the North Atlantic (NA) between different seasons and between different regions are rarely fully investigated. We used observation-based data of f CO_2, surface-ocean CO_2partial pressure (p CO_(2sea)), wind speed and sea surface temperature(SST) to analyze the relationship between the NAO and f CO_2 of the subtropical and subpolar NA in winter and summer on the interannual time scale. Based on power spectrum estimation, there are significant interannual signs with a 2–6 year cycle in the NAO indexes and area-averaged f CO_2 anomalies in winter and summer from 1980 to 2015. Regression analysis with the 2–6 year filtered data shows that on the interannual scale the response of the f CO_2 anomalies to the NAO has an obvious meridional wave-train-like pattern in winter, but a zonal distribution in summer. This seasonal difference is because in winter the f CO_2anomalies are mainly controlled by the NAO-driven wind speed anomalies, which have a meridional distribution pattern, while in summer they are dominated by the NAO-driven SST anomalies, which show distinct zonal difference in the subtropical NA. In addition, in the same season, there are different factors controlling the variation of p CO_(2sea)in different regions. In summer, SST is important to the interannual variation of p CO_(2sea)in the subtropical NA, while some biogeochemical variables probably control the p CO_(2sea) variation in the subpolar NA. 相似文献
76.
本文选用中国科学院大气物理研究所全球海洋模式(LICOM),对中尺度涡旋参数化方案(GM90方案)中等密度扩散系数和等密度面厚度扩散系数(统称为涡旋扩散系数Aρ)对物理场及CFC-11(一氟三氯甲烷)分布的影响进行了研究。本文做了两个试验,即涡旋扩散系数采用常系数方式(对照试验)和采用在非绝热层以下Aρ随海洋浮力频率垂直变化的参数化方案(浮力试验)。模拟结果表明,依浮力频率垂直变化的方案对模式物理场的模拟能力有一定程度的提升,如南极绕极流的输送强度比常系数方案增大了约20%~30%,与观测事实更接近;浮力试验对对照试验中过强的南极中层水有一定的削弱作用,使得模式对南大洋高纬次表层位密度的模拟有一定的改善。稍有不足的是,浮力试验对南极底层水也有一定的削弱,使得2000~3000 m深度位密度模拟较常系数方案偏低。通过对CFC-11分布、存储以及输送的研究发现,次网格参数取值的不同对南大洋CFC-11模拟情况有较大影响。浮力试验加大了南北高纬CFC-11海表的吸收通量,对南极大陆周边海域向南大洋主储藏区(34°S~60°S)的CFC-11输送能力有一定的增强,使得南大洋对CFC-11储藏量增大,大部分海区与观测资料更接近。通过CFC-11断面分析,浮力试验对南大洋上层海洋位密度模拟的改善使得CFC-11垂直结构与观测更接近。 相似文献
77.
对江淮地区63站1957—2003年6—7月平均的月降水、梅雨期降水量和入梅期进行旋转经验正交展开, 将江淮梅雨区分为中心区、东南区和西北区。三子区入梅出梅的早晚顺序依次为东南区、中心区、西北区, 与雨带地理位置的时间变化一致。三子区梅雨参数存在不同的年际、年代际变化特征。在趋势变化上, 西北区与其他两区的差异很明显。中心区和东南区的梅雨长度和梅雨量存在上升趋势, 出梅期推迟; 西北区梅雨参数的变化与中心区、东南区相反。分析江淮各子区梅雨异常所对应的环流形势结果表明:北半球500 hPa高度场各区多雨年减少雨年的差值图上都呈现正负相间的波状结构, 东南区与中心区的正负差值分布型类似, 但比中心区的略偏东和偏南; 西北区与中心区、东南区呈现出相反的形势。各区早入梅年减晚入梅年北半球的500 hPa高度场正负差值分布形势基本类似, 但东南区较中心区偏东, 西北区较之偏西。 相似文献
78.
应用一个嵌套了海洋生物地球化学循环的太平洋环流碳循环模式,分析了1960~2000年太平洋不同海区海气碳通量随时间的变化。模拟结果显示,赤道太平洋为大气CO2的排放区,南、北太平洋(南、北纬15°至模式计算区域南、北边界)为吸收区。3个海区海气碳通量随时间均存在显著的波动,其中赤道太平洋海气碳通量年际波动最显著。3个海区海气碳通量年际波动对气候事件的响应并不一致,在El Niño年赤道太平洋冷舌的强度和总溶解无机碳(DIC)的浓度以及输出生产力均会受到上升流减弱的影响而降低,La Niña年这些海气碳通量控制要素的分布情况则正好相反,但在南北太平洋副热带以及高纬度海区,El Niño和La Niña对这些要素带来的影响却并不一定相反,对输出生产力的影响甚至是一致的。以海表温度(SST)为例考察海气碳通量与物理场之间的关系表明,在赤道太平洋上升流对DIC的影响是控制海气碳通量变化的主要因素,而在其他海区,尤其是副热带海区,由于垂直运动的年际变化较小,且生物生产力水平较低,SST的波动对海气碳通量年际变化的影响更加重要。 相似文献
79.
The Role of Land–sea Distribution and Orography in the Asian Monsoon. Part I: Land–sea Distribution 总被引:3,自引:3,他引:0
A number of AGCM simulations were performed by including various land--sea
distributions (LSDs), such as meridional LSDs, zonal LSDs, tropical
large-scale LSDs, and subcontinental-scale LSDs, to identify their effects
on the Asian monsoon. In seven meridional LSD experiments with the
continent/ocean located to the north/south of a certain latitude, the LSDs
remain identical except the southern coastline is varied from 40o to
4oN in intervals of 5.6o. In the experiments with the coastline
located to the north of 21oN, no monsoon can be found in the subtropical
zone. In contrast, a summer monsoon is simulated when the continent extends
to the south of 21oN. Meanwhile, the earlier onset and stronger
intensity of the tropical summer monsoon are simulated with the southward
extension of the tropical continent. The effects of zonal LSDs were
investigated by including the Pacific and Atlantic Ocean into the model
based on the meridional LSD run with the coastline located at 21oN. The
results indicate that the presence of a mid-latitude zonal LSD induces a
strong zonal pressure gradient between the continent and ocean, which in
turn results in the formation of an East Asian subtropical monsoon. The
comparison of simulations with and without the Indian Peninsula and
Indo-China Peninsula reveals that the presence of two peninsulas remarkably
strengthens the southwesterly winds over South Asia due to the tropical
asymmetric heating between the tropical land and sea. The tropical zonal LSD
plays a crucial role in the formation of cumulus convection. 相似文献
80.
The coupled models of both the Global Ocean-Atmosphere-Land System (GOALS) and the Atmosphere-Vegetation
Interaction Model (GOALS-AVIM) are used to study the main characteristics of interannual variations. The simulated
results are also used to investigate some significant interannual variability and correlation analysis of the
atmospheric circulation and terrestrial ecosystem. By comparing the simulations of the climate model GOALS-AVIM
and GOALS, it is known that the simulated results of the interannual variations of the spatial and temporal
distributions of the surface air temperatures and precipitation are generally improved by using AVIM in GOALS-AVIM.
The interannual variation displays some distinct characteristics of the geographical distribution. Both the Net
Primary Production (NPP) and the Leap Area Index (LAI) have quasi 1-2-year cycles. Meanwhile, precipitation and
the surface temperatures have 2--4-year cycles. Conditions when the spectrum density values of GOALS are less
than those of GOALS-AVIM, tell us that the model coupled with AVIM enhances the simulative capability for
interannual variability and makes the annual cycle variability more apparent. Using Singular Value Decomposition
(SVD) analysis, the relationship between the ecosystem and the atmospheric circulation in East Asia is explored.
The result shows that the strengthening and weakening of the East Asian monsoon, characterized by the geopotential
heights at 500 hPa and the wind fields at 850 hPa, correspond to the spatiotemporal pattern of the NPP. The
correlation between NPP and the air temperature, precipitation and solar radiation are different in interannual
variability because of the variation in vegetation types. 相似文献