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51.
2011年日本MW9.0地震(简称日本地震)后沂沭断裂带及其两侧地区地震活动显著增强,研究日本地震对该地区地壳运动及地震潜势的影响十分必要.为此,本文通过112个连续GPS观测站获取了研究区高空间分辨率的日本地震同震形变场并得到如下认识:(1)8个定点地球物理观测的同震响应验证了本文同震形变场的可靠性;日本地震的东向拉张使研究区整体上处于张性同震应变状态,但存在局部挤压区域,其中莱州湾至海州湾的挤压条带穿过沂沭断裂带并对断裂带南北两段产生了不同的同震作用,对南段具有拉张作用,对北段产生挤压作用;(2)同震形变场在鲁东隆起和鲁西断块产生了显著的剪应变,地震b值显示上述区域的构造应力在日本地震后增强,因此同震形变场可能改变了这些区域的应力特征;(3)地震矩张量叠加分析显示,同震形变场短期内对鲁西断块、鲁东隆起区和沂沭断裂带南段累积了地震矩,可能有助于上述区域在日本地震以后的地震活动增强;日本地震对沂沭断裂带北段的地震矩具有释放作用,或许是该区域地震活动减弱的原因. 相似文献
52.
1. IntroductionInvestigations about atmospheric LFW have been a focus of research since Madden andJulian/s outstanding analysis works (1971, 1972). Many dynamical and thermal mechanisms(Chao et al., 1996; Fu et al., 1998; Hendon et al., 1998; Krishnamurti et al., 1988; Lau andChan, 1988) have been advised to explain LFW. Among them are oceanic effects, such as SSTeffect, thermal forcing and others. Usually atmosphere and ocean are taken as a coupled system, which is used to explain ENS… 相似文献
53.
54.
梅雨期中国东部降水的时空变化及其与大气环流、海温的关系 总被引:17,自引:7,他引:17
利用1961~2000年中国台站降水资料、 NCEP/NCAR再分析资料以及扩展重建海平面温度 (Extended Reconstructed Sea Surface Temperatures, ERSST) 资料, 采用EOF、小波变换、合成及相关方法探讨中国东部梅雨期降水的时空变化及其环流、水汽输送和海温异常特征.分析指出中国东部梅雨期 (6月11日~7月10日) 降水存在三种主要空间型: 江南北部多雨型、长江流域多雨型和江淮平原多雨型.三种降水型都存在多时间尺度特征, 由于年际和年代际振荡的周期和强度随时间的变化有不同表现, 三种雨型旱涝年出现的年份有所不同.三种雨型对应的东亚夏季风环流各子系统的强度、位置、水汽输送等也存在明显差异.梅雨期三种雨型与冬季海温的研究表明:赤道东太平洋海温偏高有利于出现江南北部降水型; 赤道印度洋、南海和西太平洋黑潮海温偏高有利于出现长江流域降水型; 北太平洋中纬度海温偏高则有利于出现江淮平原降水型. 相似文献
55.
Tong ZHU Da-Lin ZHANG 《大气科学进展》2006,23(1):14-22
The effects of storm-induced sea surface temperature (SST) cooling on hurricane intensity are investigated using a 5-day cloud-resolving simulation of Hurricane Bonnie (1998). Two sensitivity simulations are performed in which the storm-induced cooling is either ignored or shifted close to the modeled storm track. Results show marked sensitivity of the model-simulated storm intensity to the magnitude and relative position with respect to the hurricane track. It is shown that incorporation of the storm-induced cooling, with an average value of 1.3℃, causes a 25-hPa weakening of the hurricane, which is about 20 hPa per 1℃ change in SST. Shifting the SST cooling close to the storm track generates the weakest storm, accounting for about 47% reduction in the storm intensity. It is found that the storm intensity changes are well correlated with the air-sea temperature difference. The results have important implications for the use of coupled hurricane-ocean models for numerical prediction of tropical cyclones. 相似文献
56.
川渝地区夏季旱涝与海温异常浅析 总被引:5,自引:0,他引:5
利用1951—2006年6—8月降水资料计算了川渝地区旱涝指数Z指数,确定出该区域旱涝等级及其对应年份,分析这一带历年旱涝情况及年际变化特征,并用相关和合成分析法分析旱涝与海温的关系。结果表明,1950年代末至1970年代前期,这一带地区以旱为主,3个重旱年有2年出现在这个时段内;1970年代末至2003年,旱涝年均有,但以涝为主,2006年则出现了1951年以来最旱的年份。旱涝指数与SST的相关分析显示Z指数与前期SST,特别是1—3月SST有较好的相关关系,Z指数与赤道中东太平洋SST显著正相关。重涝年赤道中东太平洋广大海域SST呈明显的正距平,而重旱年则为大范围SST负距平。2006年1—3月赤道中东太平洋海温呈明显负距平、南太平洋20°S以南到40°S之间海域海温呈显著正距平有利于川渝地区出现严重干旱。 相似文献
57.
印度洋海表温度主模态及其与亚洲夏季季风的关系 总被引:7,自引:0,他引:7
分析了印度洋SST主模态的时空特征,并探讨其对亚洲夏季季风的影响,结果表明:印度洋SST主模态的主要特征为整个海盆一致的增温趋势,主要具有准3 a和准11 a周期,在1976/1977年和1997/1998年分别具有两次年代际显著增温。印度洋SST主模态与中国雨区夏季降水有很好的关系,其增温趋势与华北、东北南部、华南东部和西南西部降水减少,长江中下游地区、东北北部和西北地区降水增多具有很好的关系,并与长江中下游梅雨雨量具有较好的正相关关系;其变化趋势对亚洲夏季季风系统具有显著影响,在高空,使南亚高压、高原南侧的高空东风以及从南海、东南亚至西南印度洋的高空越赤道气流减弱,但增强10°—20°N、40°—110°E的北风;在中层,使西北太平洋副热带高压强度偏强,面积偏大;在低层,增强索马里越赤道气流,但却削弱印度夏季季风低层环流,并且在加强东亚地区的低层南风在中国长江中下游地区及其以南地区的同时减弱华北地区的低层西南风;地面,使亚洲大陆的气压升高;与对流层整层垂直积分水汽输送通量的相关分布与低层环流的相似。因此,印度洋SST主模态的上升趋势是亚洲夏季季风趋于减弱和中国雨带南移的一个原因。 相似文献
58.
Effects of mesoscale sea-surface temperature fronts on the marine atmospheric boundary layer 总被引:1,自引:0,他引:1
Eric D. Skyllingstad Dean Vickers Larry Mahrt Roger Samelson 《Boundary-Layer Meteorology》2007,123(2):219-237
A numerical modelling study is presented focusing on the effects of mesoscale sea-surface temperature (SST) variability on
surface fluxes and the marine atmospheric boundary-layer structure. A basic scenario is examined having two regions of SST
anomaly with alternating warm/cold or cold/warm water regions. Conditions upstream from the anomaly region have SST values
equal to the ambient atmosphere temperature, creating an upstream neutrally stratified boundary layer. Downstream from the
anomaly region the SST is also set to the ambient atmosphere value. When the warm anomaly is upstream from the cold anomaly,
the downstream boundary layer exhibits a more complex structure because of convective forcing and mixed layer deepening upstream
from the cold anomaly. An internal boundary layer forms over the cold anomaly in this case, generating two distinct layers
over the downstream region. When the cold anomaly is upstream from the warm anomaly, mixing over the warm anomaly quickly
destroys the shallow cold layer, yielding a more uniform downstream boundary-layer vertical structure compared with the warm-to-
cold case. Analysis of the momentum budget indicates that turbulent momentum flux divergence dominates the velocity field
tendency, with pressure forcing accounting for only about 20% of the changes in momentum. Parameterization of surface fluxes
and boundary-layer structure at these scales would be very difficult because of their dependence on subgrid-scale SST spatial
order. Simulations of similar flow over smaller scale fronts (<5 km) suggest that small-scale SST variability might be parameterized
in mesoscale models by relating the effective heat flux to the strength of the SST variance. 相似文献
59.
The impacts of the seasonal and interannual SST variability in the East Asia coastal regions (EACRSST) on the East Asian summer monsoon (EASM) have been examined using a regional climate model (PδRCM9) in this paper. The simulation results show that the correlation between the EACRSST and the EASM is strengthened after the mid-1970s and also the variability of the EACRSST forcing becomes much more important to the EASM interannual variability after the mid-1970s. The impacts of the EACRSST on the summer precipitation over each sub-region in the EASM region become weak gradually from south to north, and the temporal evolution features of the summer precipitation differences over North and Northeast China agree well with those of the index of EASM (IEASM) differences.
The mechanism analyses show that different EACRSST forcings result in the differences of sensible and latent heat flux exchanges at the air-sea interface, which alter the heating rate of the atmosphere. The heating rate differences induce low level air temperature differences over East Asia, resulting in the differences of the land-sea thermal contrast (LSTC) which lead to 850 hPa geopotential height changes. When the 850 hPa geopotential height increases over the East Asian continent and decreases over the coast of East China and the adjacent oceans during the weakening period of weakens consequently. On the contrary, the EASM enhances during the strengthening period of the LSTC. 相似文献
The mechanism analyses show that different EACRSST forcings result in the differences of sensible and latent heat flux exchanges at the air-sea interface, which alter the heating rate of the atmosphere. The heating rate differences induce low level air temperature differences over East Asia, resulting in the differences of the land-sea thermal contrast (LSTC) which lead to 850 hPa geopotential height changes. When the 850 hPa geopotential height increases over the East Asian continent and decreases over the coast of East China and the adjacent oceans during the weakening period of weakens consequently. On the contrary, the EASM enhances during the strengthening period of the LSTC. 相似文献
60.
Land and Sea Surface Temperatures (LST and SST) are both recognized as Essential Climate Variables, and are routinely retrieved by a wealth of satellites. However, for validated approaches, the latest data are usually not available to the general public. We offer to bridge this gap, by using Meteosat Second Generation (MSG) Spinning Enhanced Visible and InfraRed Imager (SEVIRI), with its 15 min temporal resolution. Here, we present generic algorithms for the retrieval of both LST and SST, valid for the SEVIRI instrument onboard MSG platforms 8–11, which we validate using hourly data of 4 ground stations and 11 buoys in Spain over the years 2015 to 2018. These validations show that in the best conditions of surface homogeneity (cloud-free summer nights), errors in our LST estimation are below 1.5 K for stations with good thermal homogeneity. Comparison with LSA-SAF (Land Surface Analysis - Satellite Application Facility) LST shows differences below 2 K for most of SEVIRI disk, with higher differences in arid areas and during daytime. As for SST retrieval, the average error amount to 0.67 K for cloud-free buoy data. These algorithms have been implemented in a near-real time processing chain, which provide actualized LST and SST maps every 15 min within 5 min of image reception. These maps, along with other products, can be freely consulted from a dedicated webpage (https://www.uv.es/iplsat). 相似文献