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1.
The spatial and temporal variations of the instrument-based evaporation and actual evaporation in autumn during a 45-year period from 1960 to 2004 are studied using the observation data from 66 stations over South China. The results reveal that there are two main anomalous centers of the instrument-based evaporation in autumn in the central and northwestern parts of South China respectively. The instrument-based evaporation over the central part of South China in autumn experiences not only a decreasing trend but also a main interdecadal variation. The solar radiation is best correlated with the instrument-based evaporation among all affecting factors. For the actual evaporation, two main anomalous centers are located at the central and western parts of the South China respectively. The actual evaporation over the two regions illustrates an interannual variation. Among the affecting factors, precipitation is the most remarkable. The actual evaporation is usually 40 percent of the instrument-based one, and the overall rate has a slightly increasing trend from the southern part to the northern part of the South China in autumn. 相似文献
2.
利用NCEP再分析资料及台站和格点降水量资料分析了华南季风降水与周边大气环流的关系,并由此建立了反映6月华南降水强度的季风指数,这一季风指数利用菲律宾及其以东与华南850 hPa涡度差定义。华南季风指数具有很好的区域代表性,华南季风指数与亚洲格点日降水量的主要正相关区集中在华南。华南季风指数可以很好地描述华南降水的年际变化和极端年份,季风指数强 (弱) 的年份也是华南降水偏多 (少) 的年份,极端的华南季风指数年份对应极端的华南降水年份。华南季风指数高与低年份对应的华南降水量差值通过了0.01的显著性检验。在年代际尺度上,季风指数强 (弱) 的年代与华南降水偏多 (少) 的年代有很好的对应关系。华南季风指数包含了西南季风、副热带高压以及中高纬度西风槽等各影响系统的信息,可在业务上使用。 相似文献
3.
我国华南3月份降水异常的可能影响因子分析 总被引:4,自引:3,他引:1
利用1951~2005年华南地区3月份的降水资料、NOAA海温资料、Ni?o3.4指数和NCEP再分析资料,分析了华南3月份降水异常与同期环流场、全球海温场的关系,从环流和海温的角度揭示了华南3月份降水异常的可能原因。结果表明,当华南3月份降水偏多(少)时,在对流层中低层,北太平洋海区存在气旋(反气旋)性环流异常,西太平洋及南海海面上存在反气旋(气旋)性环流异常,这样的环流异常有利(不利)于东南暖湿气流与北方东部异常冷空气在华南地区形成水汽辐合,导致降水显著增多(减少)。进一步的分析表明,ENSO和北印度洋及南海附近海温是影响华南3月份降水异常的重要外强迫因子,ENSO对华南3月降水异常的影响是通过影响春季西太平洋副热带高压和低层风场异常实现的,而北印度洋及南海附近海温对华南3月降水异常的影响则是通过垂直环流场异常和低层风场以及西太平洋副热带高压异常来实现的。 相似文献
4.
本文基于观测和再分析资料,采用Brubaker二元模型评估了第六次国际耦合模式比较计划(CMIP6)中19个模式对中国东部季风区气候态水循环过程的模拟能力,并分析了模拟误差来源。结果表明,CMIP6模式集合平均(MME)能够合理再现观测降水和蒸发的年平均气候态空间分布及年循环特征,与观测值的空间相关系数分别为0.92和0.87。较之观测,MME高估了华北地区降水(0.55 mm d?1),低估了华南沿海地区降水(?0.3 mm d?1)。所有CMIP6模式均高估蒸发强度(偏差0.03~0.98 mm d?1),使得模拟的降水与蒸发之差偏少。模式整体能够模拟出我国东部季风区降水再循环率及不同边界水汽来源的贡献率,但低估了由南边界进入季风区的水汽贡献,导致东亚季风区偏干。通过分析模式对影响水汽通量的两个气象要素(风速和大气比湿)的模拟能力,发现研究区南边界的风速大小决定了模式间水汽输送差异。南边界风速越大的模式,由南边界进入的水汽通量越大,模式模拟的降水越多。西北太平洋辐合带的东西位置是影响南边界南风速的重要系统之一,辐合带位置偏东的模式模拟的南风强度较弱,使得水汽输送偏弱、降水偏少;反之,南边界水汽输送偏强、降水偏多。本文通过评估最新一代CMIP6模式在东亚水循环方面的模拟性能,指出了当前气候模式在模拟西太平洋辐合带位置方面存在的偏差及其对东亚水循环的影响。 相似文献
5.
Interannual Variability of Autumn Precipitation over
South China and its Relation to Atmospheric
Circulation and SST Anomalies 总被引:5,自引:0,他引:5
The interannual variability of autumn precipitation over South China and its relationship with atmospheric circulation and SST anomalies are examined using the autumn precipitation data of 160 stations in China and the NCEP-NCAR reanalysis dataset from 1951 to 2004. Results indicate a strong interannual variability of autumn precipitation over South China and its positive correlation with the autumn western Pacific subtropical high (WPSH). In the flood years, the WPSH ridge line lies over the south of South China and the strengthened ridge over North Asia triggers cold air to move southward. Furthermore, there exists a significantly anomalous updraft and cyclone with the northward stream strengthened at 850 hPa and a positive anomaly center of meridional moisture transport strengthening the northward warm and humid water transport over South China. These display the reverse feature in drought years. The autumn precipitation interannual variability over South China correlates positively with SST in the western Pacific and North Pacific, whereas a negative correlation occurs in the South Indian Ocean in July. The time of the strongest lag-correlation coefficients between SST and autumn precipitation over South China is about two months, implying that the SST of the three ocean areas in July might be one of the predictors for autumn precipitation interannual variability over South China. Discussion about the linkage among July SSTs in the western Pacific, the autumn WPSH and autumn precipitation over South China suggests that SST anomalies might contribute to autumn precipitation through its close relation to the autumn WPSH. 相似文献
6.
华南秋季蒸发量的时空演变特征 总被引:4,自引:0,他引:4
利用华南区域66个气象站点1960~2004年的观测数据分析了华南秋季蒸发皿蒸发量和实际蒸发量的时空变化.分析结果表明:华南中部和西北部是华南秋季蒸发皿蒸发量的两个主要气候变异中心区,华南中部秋季蒸发皿蒸发量具有以年代际变化为主的特征,并且在45年内总体上呈下降趋势.在影响蒸发皿蒸发量的因子中,太阳辐射与蒸发皿蒸发量的相关性最好,呈显著的正相关.对实际蒸发量而言,华南中部和西部偏西地区则是两个主要的变异中心,两区域的秋季实际蒸发量具有以年际变化为主的特征,降水对华南秋季实际蒸发量的影响最为显著,华南秋季实际蒸发量一般都在蒸发皿蒸发量的40%左右,并且比值总体上呈现微弱的由南向北递增趋势. 相似文献
7.
Based on the daily precipitation data taken from 17 stations over South China during the
period of 1961--2003, a sudden change in summer extreme precipitation events over South China in the
early 1990s along with the possible mechanism connected with the anomalies of the latent heat flux
over the South China Sea and the sensible heat flux over the Indochina peninsula are examined. The
results show that both the annual and summer extreme precipitation events have obvious interdecadal
variations and have increased significantly since the early 1990s. Moreover, the latent heat flux
over the South China Sea and the sensible heat flux over the Indochina peninsula also have obvious
interdecadal variations consistent with that of the extreme precipitation, and influence different
months' extreme precipitation, respectively. Their effects are achieved by the interdecadal increases
of the strengthening convection over South China through the South China Sea Summer Monsoon. 相似文献
8.
Using NCEP/NCAR reanalysis data, the China rainfall and surface temperature data of the China Meteorological Administration, and the Arctic Oscillation (AO) indices of NOAA, the author investigates relationships between the AO and the precipitation and temperature over China. There exists a good relationship between the AO index in December and the succeeding January precipitation over South China, indicating that when the December AO index is positive (negative), the January precipitation over South China increases (decreases). A remarkable negative correlation between the December AO index and the January surface temperature also exists over South China, indicating that when the December AO index is positive (negative), the January temperature over South China drops (rises). The occurrence of this anomalous climate is related to the anomalies of the atmospheric circulation systems. The December AO greatly influences circulation anomalies in January. A positive phase of the AO is found to lead to a stronger subtropical jet over the south side from the Iran Plateau to the Tibetan Plateau. Consequently, it results in a deepening pressure trough around the Bay of Bengal, which transports the warm and wet air to South China continuously. The Siberian High in January is stronger and extends farther southeastward. It results in continual cold air at 1000 hPa pouring into South China, inducing low temperature. Cooperating with the trough of the Bay of Bengal, anomalous precipitation occurs over South China. For the negative phase of the December AO, the opposite situation is observed. 相似文献
9.
利用1979—2010年ERA-Interim再分析资料、全球降水气候中心(Global Precipitation Climate Center,GPCC)的降水量资料和站点降水观测资料,通过引入水汽贡献率和水汽通过率,构建描述降水量对水汽源地蒸发量的敏感性指数等方法,揭示了8月流入低纬高原水汽的输送过程的气候特征,及其与8月低纬高原降水量极端异常的联系。结果表明:(1)8月流入低纬高原水汽的重要源地是中南半岛北部和华南一带的陆地区域,以及北部湾和孟加拉湾北部西南至东北的狭长海面。(2)8月流入低纬高原水汽的主要输送通道有两条:孟加拉湾上空狭长的西南季风;经17°N附近偏东季风在南海西北部110°E附近发生转向后的东南季风。那加丘陵和中南半岛北部的纵向岭谷明显阻挡了两支水汽输送通道。(3)8月流入低纬高原水汽主要受大气环流影响,受水汽源地蒸发量的直接影响有限。当流入低纬高原水汽异常偏多(少)时,使得可降水量偏多(少),最终导致降水量偏多(少)。 相似文献
10.
利用中国测站的逐日降水资料和NCEP/NCAR再分析资料,分析了近35年华南降水季节演变的年代际变化特征及其相关的大气环流异常特征。华南地区降水季节分布型在1990年代初期发生了年代际转变,其中,华南西部降水在1990年之前为双峰型分布,1990年之后变为以6月为峰值的单峰型分布;华南东部降水在1990年之前是以5月、8月为峰值的弱双峰型分布,1990年之后变为以6月、8月为峰值的显著双峰型分布。华南东、西部降水季节分布的年代际变化分别与华南全区6月降水量的年代际增加以及8月华南东、西部降水显著反相的年代际变化(东多西少)密切相关。1990年之后,大雨及以上强降水事件发生频率的增强是导致上述年代际变化的主要原因。华南6月降水年代际的增强与南海区域的西北太平洋副热带高压(简称西太副高)脊线位置的年代际异常偏南密切相关。7月华南地区降水的年代际增加与西太副高年代际东撤及影响华南地区的热带气旋频数年代际增多有关。8月华南东、西部降水显著反相的年代际变化(东多西少),一方面受印度洋及南海上空夏季风年代际减弱的影响,使得输送到华南西部的水汽减少,另一方面西太副高的年代际增强并西伸,使得源自副高西南侧的水汽更直接输送至华南东部地区有关;同时也与登陆和影响华南东、西部的热带气旋的年代际增多和减少有关。 相似文献
11.
全球变暖形势下中国陆表水分的变化 总被引:1,自引:1,他引:0
利用政府间气候变化委员会第四次评估报告(IPCCAR4)中的10个耦合模式CO:加倍试验和控制试验的模拟结果,分析了全球变暖背景下中国水分的变化。结果表明,随着全球变暖,东亚夏季风增强,冬季风减弱,使得冬夏季向中国区域输送的水汽都增强;中国区域降水,夏季除长江流域外基本都增加,冬季除华南外都增加。夏季降水蒸发差(P—E)除了在东北和南方增加外,从长江流域一直到西北有一带状减小带;冬季几乎所有模式的P—E表现为北方增加、南方减小。在全球变暖背景下,降水、蒸发和径流的综合结果以及积雪的作用使得土壤湿度在干旱区增加,且冬季干旱区土壤变湿的强度和范围大于夏季,然而在其他区域土壤湿度减少。上述结论是基于多模式集合平均结果,对未来气候的预估具有一定的参考价值,然而模式间存在较强差异性,仍具有较大不确定性。 相似文献
12.
我国华南4、5月份降水年代际变化的特征及其与中西太平洋海温的可能关系 总被引:4,自引:3,他引:1
利用1951~2005年华南4、5月份降水资料、NOAA海温资料以及NCEP再分析资料,对华南4、5月份降水年代际变化的特征、及其所对应的大尺度环流以及与中西太平洋海温的关系作了分析。结果表明,华南4、5月份降水均在1970年代初期发生显著的年代际转变,从之前的降水偏少转变为降水偏多。华南4月份降水与前一年7~11月份的中西太平洋海温、华南5月份降水与当年2~5月份的中西太平洋海温有显著的负相关。在4、5月份年代际降水偏少(多)时期,前期中西太平洋海温偏暖(冷);同期亚洲大陆南部及非洲大陆的海平面气压显著偏低(高),北太平洋海区海平面气压偏高(低);我国华南上空存在反气旋性(气旋性)环流异常,我国华南地区北边界存在显著的南(北)风异常,造成华南地区北边界异常水汽输出增强(减弱)。同时,我国大陆对流层中上层大气显著偏暖(冷),东亚高空急流显著偏北(南),副热带高压偏弱(强)偏东(西),向华南地区输送的水汽减少(增加),从而在华南地区形成异常的水汽辐散(辐合),最终导致华南地区4、5月份降水的减少(增加)。 相似文献
13.
采用1979~2015年ERA-Interim再分析资料和中国756个站点的逐日降水观测资料,利用百分位法定义了华南冬季强降水事件,通过K-均值聚类方法分析发现中国冬季强降水的中心主要集中在5个地区:长江中下游地区、华南中西部、华南东南部、淮河流域以及中国西南部.为了揭示华南南部大范围强降水的成因,对比分析了由西南地区... 相似文献
14.
华北地区水资源多时间尺度分析 总被引:49,自引:9,他引:40
利用华北地区26个站的1951 ̄1997年月降水量(P)和月平均气温(T)资料,用高浩一郎的蒸发计算公式计算了地面蒸发量(E),并通过Morlet小波变换法分析了华北地区的水资源各分量(P,E及可利用降水P-E)的时间-频率的多层次结构物突变特征。 相似文献
15.
Changes in Persistent and Non-Persistent Flood Season Precipitation over South China During 1961-2010 总被引:2,自引:0,他引:2
The characteristics and possible causes of changes in persistent precipitation(PP) and non-persistent precipitation(NPP) over South China during flood season are investigated using daily precipitation data from 63 stations in South China and NCEP/NCAR reanalysis data from 1961 to 2010. This investigation is performed using the Kendall's tau linear trend analysis, correlation analysis, abrupt climate change analysis, wavelet analysis, and composite analysis techniques. The results indicate that PP dominates total precipitation over South China throughout the year. The amounts of PP and NPP during flood season vary primarily on a 2–5-yr oscillation. This oscillation is more prominent during the early flood season(EFS; April–June). NPP has increased significantly over the past 50 years while PP has increased slightly during the whole flood season. These trends are mainly due to a significant increase in NPP during the EFS and a weak increase in PP during the late flood season(LFS; July–September). The contribution of EFS NPP to total flood season precipitation has increased significantly while the contribution of EFS PP has declined. The relative contributions of both types of precipitation during LFS have not changed significantly. The increase in EFS NPP over South China is likely related to the combined efects of a stronger supply of cold air from the north and a weaker supply of warm, moist air from the south. The increase in NPP amount may also be partially attributable to a reduction in the stability of the atmosphere over South China. 相似文献
16.
Changes in precipitation minus evaporation (P -E) are analyzed to investigate the possible impacts of climate change on water resource conditions in China. Simulations of SRES A1B and 20C3M scenarios from the WCRP CMIP3 GCMs are employed in the study. Time slice analysis shows that there would be more annual mean P -E across China in 2040-2055 and 2080-2099, compared to 1980-1999, with the largest percentage change over Northwest China and the Bohai Rim area. Precipitation and evaporation would also increase over entire China during these two periods. Annual mean P -E, precipitation, and evaporation averaged over the whole China and its eight sub-areas all yield generally upward trends during the 21st century. This indicates that on annual mean scale, the global warming related precipitation dominates the hydroclimate conditions in China. On seasonal mean scale, although precipitation is projected to increase over China, P -E exhibits both decreasing and increasing trends over certain regions of China. This suggests that the variation of global warming related evaporation dominates hydroclimate conditions over some parts of China, especially in northern China. Therefore, in hydroclimate condition projections, considering both evaporation and precipitation changes should be more reasonable than considering only precipitation. 相似文献
17.
华北地区降水、蒸发和降水蒸发差的时空变化特征 总被引:18,自引:4,他引:14
利用华北地区1951~2000年80个观测台站的降水、气温的逐日观测资料分析京津唐地区、华北西部、华北中南部和胶东半岛地区降水、蒸发和降水蒸发差在1951~1965年、1966~1976年和1977~2000年3个时期年代际变化特征。京津唐地区和华北西部地区夏季降水和降水蒸发差从1977年开始减少得比较明显;而胶东地区和华北中南部地区从1965年开始减少,1977年之后减少的更加严重,但4个区域5、6月的降水和降水蒸发差却出现明显的增加。分析还指出,胶东地区和京津唐地区可利用水资源量减少最多。另外还利用欧洲中心(ECMWF)1958~2000年的700 hPa风场资料分析了华北地区夏季降水异常的可能成因,分析结果表明:东亚夏季风在1977年之后明显减弱,造成我国华北地区夏季降水偏少。 相似文献
18.
Chu Qucheng Wang Qiguang Qiao Shaobo Feng Guolin 《Theoretical and Applied Climatology》2017,127(3-4):911-921
To expand torrential rain, which is a meso- and microscale weather process, to a meso- and long-scale weather process, in this paper, we choose South China as a sample region and propose the conception of the “Cumulative Effect” of torrential rain (CETR) by using daily precipitation observational data from 740 stations. Through a statistical analysis of the observations, three indexes—continuous time (L d), control area (A r), and precipitation contribution rate (Q s)—are used to define the CETR and indicate the torrential rain processes. The relationships between the CETR and simultaneous total precipitation over South China are analyzed in the pre-flooding and latter flooding seasons. This analysis shows that on both interannual and interdecadal scales, the three indexes are highly correlated with simultaneous total precipitation over South China in the pre-flooding season and latter flooding season. Moreover, an empirical orthogonal function (EOF) analysis is performed to classify the spatial distribution of the CETR. In both the pre-flooding season and the latter flooding season, the four major spatial models of torrential rain are similar to those of total precipitation over South China. With regard to the amount of precipitation caused by the CETR, the latter flooding season is affected more significantly than the pre-flooding season. Regarding the geographical distribution of precipitation, the opposite result occurs. In conclusion, in both the pre-flooding season and the latter flooding season, the CETR influences and even determines the amount and distribution of precipitation over South China.
相似文献19.
利用1960—2010年中国降水资料、NCEP/NCAR再分析资料、NOAA提供的海表温度资料以及太平洋年代际振荡(Pacific Decadal Oscillation,PDO)指数,分析了华南春季降水的年代际变化特征及其与大气环流和海温的关系。结果表明:华南春季降水经历了偏少(1960—1971年)—偏多(1972—1992年)—次偏少(1993—2010年)三个阶段。第一阶段少雨期,500 hPa上西风气流较平直,不利于北方冷空气南下,华南地区的暖气团也不活跃,对应的水汽通量散度为异常辐散。第二阶段多雨期,500 hPa高度上,高原北部脊偏强,利于冷空气南下,与华南地区活跃的暖湿气团汇合,对应的水汽场上为水汽异常辐合。第三阶段少雨期,500 hPa西风气流上的槽脊系统偏强,利于北方强冷空气南下,孟加拉湾地区的南支槽填塞,南方暖湿空气向华南的输送减弱。华南春季降水与PDO指数存在正相关关系,从不同季节来看,在年代际时间尺度上,前期秋季的PDO指数与华南春季降水的正相关显著,PDO处于负位相时,华南春季降水偏少,反之亦然;从华南春季降水年代际变化的不同阶段来看,PDO指数与华南春季降水的正相关在1960—1971年少雨期较显著。 相似文献
20.
基于JRA55再分析资料、观测的降水量和海表温度等数据,利用统计诊断方法分析了华南冬季气候准静止锋的主要变异特征,并探讨了其与环流、海温及东亚气候的联系。华南冬季气候准静止锋的主要变异模态表现为强度变异模态和经向位置变异模态,它们以年际变化为主。类东部型ENSO海温异常及热带中西印度洋海温异常对华南准静止锋强度的年际变异有显著影响;而类中部型ENSO海温异常型显著影响着华南气候准静止锋的南北位置。华南冬季准静止锋的强度变异对东亚副热带地区的降水、以及我国东部内陆地区的近地面气温有显著影响;华南冬季准静止锋南北位置变异则显著影响我国江淮流域降水、以及我国华南至东南沿海一带的近地面气温。华南冬季准静止锋的强度变异模态对东亚的降水和近地面气温的影响范围较位置变异模态都要大。 相似文献