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1.
Observational and reanalysis data are used to investigate the different relationships between boreal spring sea surface temperature (SST) in the Indian and Pacific oceans and summer precipitation in China. Partial correlation analysis reveals that the effects of spring Indian Ocean SST (IO SST) and Pacific SST (PSST) anomalies on summer precipitation in China are qualitatively opposite. When IO SST anomalies are considered independently of PSST anomalies, precipitation decreases south of the Yangtze River, in most areas of Inner Mongolia, and in some parts of Liaoning Province, and increases in the Yangtze River valley, parts of southwestern and northern China, northeastern Inner Mongolia, and Heilongjiang Province. This results in a negative-positive-negative-positive pattern of precipitation anomalies in China from south to north. When PSST anomalies (particularly those in the Nin o3.4 region) are considered independently of IO SST anomalies, the pattern of precipitation anomalies in China is positive-negative-positive-negative from south to north. The genesis of summer precipitation anomalies in China is also examined when El Nin o-Southern Oscillation (ENSO) signals are removed from the ocean and atmosphere. An anticyclonic low-level wind anomaly forms in the South China Sea-Northwest Pacific area when the IO SST anomaly (SSTA) is warm and the Northwest Pacific SSTA is cold. This anticyclonic anomaly substantially influences summer precipitation in China. Anomalous warming of tropical IO SST induces positive geopotential height anomalies in the subtropics and an east-west dipole pattern in midlatitudes over Asia. These anomalies also affect summer precipitation in China.  相似文献   

2.
In present study,EOF analysis and extended singular value decomposition (ESVD) analysis are performed to explore the relationship between the winter tropical sea surface temperature anomalies (SSTAs) in the Pacific and the following summer rainfall anomalies in China.The two leading modes of winter tropical SSTAs in the Pacific are the SSTAs pattern characterized by "positive anomalies in the East and negative anomalies in the West" like the typical eastern Pacific El Nio and negative anomalies in the West and the central Pacific warming pattern characterized by "positive anomalies in the central region but negative anomalies in the East and West".The intraseasonal variations of the rainfall anomalies during the following summer in China that are associated with the eastern Pacific warming mode are characterized by positive anomalies south of the Yangtze River and negative anomalies in the Yangtze-Huai River Valley in June,and negative anomalies in South China and positive anomalies in the Yangtze River Valley and North China in July and August.In contrast,after the central Pacific warming mode,the corresponding intraseasonal variations of China’s summer rainfall are characterized by a nearly consistent pattern during the three summer months,which is positive in the South China coast and North China and negative in the Yangtze River Valley except for the positive anomalies in the Yangtze-Huai River Valley in July.These results may provide a reference for the seasonal prediction of the summer drought and flood distributions in China.  相似文献   

3.
1961-200年中国各季降水趋势变化   总被引:1,自引:0,他引:1       下载免费PDF全文
Trends in six indices of precipitation in China for seasons during 1961-2007 were analyzed based on daily observations at 587 stations. The trends were estimated by using Sen's method with Mann-Kendall's test for quantifying the significance. The geographical patterns of trends in the seasonal indices of extremes were similar to those of total precipitation. For winter, both total and extreme precipitation increased over nearly all of China, except for a small part of northern China. Increasing trends in extreme precipitation also occurred at many stations in southwestern China for spring and the midlower reaches of the Yangtze River and southern China for summer. For autumn, precipitation decreased in eastern China, with an increasing length of maximum dry spell, implying a drying tendency for the post-rainy season. Wetting trends have prevailed in most of western China for all seasons. The well-known 'flood in the south and drought in the north' trend exists in eastern China for summer, while a nearly opposite trend pattern exist for spring.  相似文献   

4.
Interdecadal variation of the relationships between ENSO and the summer interannual climate variability in China is investigated by using techniques of sliding correlation analysis with the tropical Pacific SSTA and the observed surface air temperature and precipitation from stations in China. The results indicate that there are stable and robust relations that the Northern China is relatively dry during the developing phase of ENSO while the Yangtze River valley is relatively wet during the decaying phase of ENSO. On the other hand, interdecadal variations of the relations are also found in other regions. Over the time both prior to the Pacific decadal climate shift (before the late 1970s) and after it (after the late 1970s), during the developing phases of ENSO the summer precipitation anomaly in South China changed from below to above normal, whereas that in Northeast China changed from above to below normal; the summer surface air temperature anomaly in North and Northeast China changed from cooling to warming, whereas that in South China changed to cooling; during the decaying phases of ENSO the North China changed from wetter to dryer while the Huai River valley changed from dryer to normal; North China, Yangtze River valley and South China tend to be warmer. Based on the composite analysis of the NCAR/NCEP reanalyze datasets, significant differences existing in ENSO-related atmospheric circulation anomaly in East Asia during pre- and post-shift periods may be responsible for the interdecadal variation of relationships between ENSO and surface air temperature and precipitation in China.  相似文献   

5.
The extreme summer precipitation over East China during 1982-2007 was simulated using the LASG/IAP regional climate model CREM(the Climate version of a Regional Eta-coordinate Model).The results show that the probability density functions(PDFs) of precipitation intensities are reasonably simulated,except that the PDFs of light and moderate rain are underestimated and that the PDFs of heavy rain are overestimated.The extreme precipitation amount(R95p) and the percent contribution of extreme precipitation to the total precipitation(R95pt) are also reasonably reproduced by the CREM.However,the R95p and R95pt over most of East China are generally overestimated,while the R95p along the coastal area of South China(SC) is underestimated.The bias of R95pt is consistent with the bias of precipitation intensity on wet days(SDII).The interannual variation for R95p anomalies(PC1) is well simulated,but that of R95pt anomalies(PC2) is poorly simulated.The skill of the model in simulating PC1(PC2) increases(decreases) from north to south.The bias of water vapor transport associated with the 95th percentile of summer daily precipitation(WVTr95) explains well the bias of the simulated extreme precipitation.  相似文献   

6.
In this study,the extremes of winter seasonal mean precipitation have been investigated by using daily precipitation data from 91 stations in East China,the National Centers for Environmental Prediction/the National Center for Atmospheric Research(NCEP/NCAR)monthly reanalysis,and sea surface temperature data from the Hadley Centre for 1979–2007.The largest anomalous rainfall amount was observed in regions south of the Yangtze River.In the most recent three decades,extreme events in the seasonal mean winter precipitation occurred in 1985 and 1997.Because it was influenced mainly by a La Ni a event,the precipitation in 1985 showed a deficit following a stronger winter monsoon.The rainfall amount in 1997 was influenced by El Ni o and was significantly larger than normal with a weaker winter monsoon.Both the circulation anomalies and wave energy dispersions during the winters of 1985 and 1997 differed significantly.In 1985,the North Atlantic Oscillation anomalously excited the Eurasian-Pacific teleconnection and circumglobal teleconnection phenomena.Consequently,Rossby wave energy propagated along the north and south branches of the westerlies,strengthening the East Asian trough along with a stronger winter monsoon,which facilitated the wintertime dry extreme in East China.In1997,however,Rossby wave energy propagated from low latitudes northeastward into the southern part of China,resulting in a weaker winter monsoon and the wettest winter.The results of this study will be helpful for future monitoring and prediction of extreme winter rainfall events in East China.  相似文献   

7.
By using NCEP GODAS monthly sea surface height(SSH) and 160-station monthly precipitation data in China,the seasonal and interannual characteristics of SSH are analyzed over the tropical Pacific,and correlations between SSH and summer rainfall are discussed.The results are shown as follows:(1) The tropical Pacific SSH takes on a "V" pattern in the climatic field with an eastward opening,and it is higher in the western part(in the northwestern part) than in the eastern part(in the southwestern part).The high-value areas are more stable in the northwest,and the value range(greater than 0.8 m) is larger in spring and summer than in autumn and winter.The high-value area in the southwestern part is the largest(smallest) and more northerly(southerly) in spring(summer).SSH is higher in spring and autumn than in summer and winter over the equatorial zone.(2) The interannual anomalies of the SSH are the strongest over the tropical western and southwestern Pacific and are stronger in winter and spring than in summer and autumn.The interannual anomalies are also strong over the equatorial middle and eastern Pacific.The distribution ranges are larger and the intensities are stronger in the autumn and winter.There is a close relationship between the SSH interannual anomalies and ENSO events in autumn,winter and spring.(3) When ENSO events take place in winter,according to the simultaneous relationship among the tropic Pacific SSH,850 hPa wind fields and the summer precipitation of China,it can be predicted that the precipitation will be significantly more than normal over the south of the Yangtze River,especially over Dongting Lake and Poyang Lake region,eastern Qinghai-Tibet Plateau,Yangtze-Huai River Valley,eastern part of Inner Mongolia and less than normal over the area of Great Band of Yellow River,North China and South China in successive summers.  相似文献   

8.
Two ensemble experiments were conducted using a general atmospheric circulation model. These experiments were used to investigate the impacts of initial snow anomalies over the Tibetan Plateau(TP) on China precipitation prediction. In one of the experiments, the initial snow conditions over the TP were climatological values; while in the other experiment, the initial snow anomalies were snow depth estimates derived from the passive microwave remote-sensing data. In the current study, the difference between these two experiments was assessed to evaluate the impact of initial snow anomalies over the TP on simulated precipitation. The results indicated that the model simulation for precipitation over eastern China had certain improvements while applying a more realistic initial snow anomaly, especially for spring precipitation over Northeast China and North China and for summer precipitation over North China and Southeast China. The results suggest that seasonal prediction could be enhanced by using more realistic initial snow conditions over TP, and microwave remote-sensing snow data could be used to initialize climate models and improve the simulation of eastern China precipitation during spring and summer. Further analyses showed that higher snow anomalies over TP cooled the surface, resulting in lower near- surface air temperature over the TP in spring and summer. The surface cooling over TP weakened the Asian summer monsoon and brought more precipitation in South China in spring and more precipitation to Southeast China during summer.  相似文献   

9.
Based on observed snow and precipitation data and NCEP/NCAR reanalysis data,the relationship between the number of winter snow cover days in Northeast China and the following summer’s rainfall in the northern part of southern China is analyzed and the possible underlying mechanisms are discussed.The results indicate that a negative relationship is significant throughout the study period,especially more obvious after the 1980s.The pre-winter circulation patterns in years with more snow cover days and less summer rainfall in the south bank of the Yangtze River are almost the same.In years with more snow cover days,lower temperatures at the lower level over Northeast China are found in winter and spring.The winter monsoon is weaker and retreats later in these years than in those with fewer snow cover days.In spring of years with more snow cover days,anomalous cyclonic circulation is observed over Northeast China,and anomalous northerly wind is found in eastern China.In summer of these years,anomalous northeasterly wind at the lower level is found from the area south of the Yangtze River to the East China Sea and Yellow Sea;and with less southwesterly water vapor transport,the rainfall in the area south of the Yangtze River is less than normal,and the opposite patterns are true in years with fewer snow cover days.In recent years,the stable relationship between winter snow cover in Northeast China and summer rainfall in the Yangtze River basin can be used for summer rainfall prediction.The results are of great importance to short-term climate prediction for summer rainfall.  相似文献   

10.
studying the relationship between SST in the tropical Indian Ocean (TIO), tropical western Pacific (TWP), and tropical eastern Pacific (TEP) and East Asian summer rainfall (EASR), using data provided by NOAA/OAR/ESRL PSD and the National Climate Center of China for the period 1979-2008, an index, SSTDI, was defined to describe the SST difference between the TIO and TWP. In comparison with the winter ENSO, the spring SST contrast between the TIO and TWP was found to be more significantly associated with summer rainfall in East Asia, especially along the EASR band and in Northeast China. This spring SST contrast can persist into summer, resulting in a more significant meridional teleconnection pattern of lower-tropospheric circulation anomalies over the western North Pacific and East Asia. These circulation anomalies are dynamically consistent with the summer rainfall anomaly along the EASR band. When the SSTDI is higher (lower) than normal, the EASR over the Yangtze River valley, Korea, and central and southern Japan is heavier (less) than normal. The present results suggest that this spring SST contrast can be used as a new and better predictor of EASR anomalies.  相似文献   

11.
过去的几十年中,内蒙古冬季(11月至次年2月)出现极端气候事件的年份并不多。对于极端低温事件的发生,在中西部地区极少出现,多数发生在锡林郭勒盟中部及以东地区。特别是自1986年气候转暖以来,在暖的大背景下,更是较少出现极端低温事件;极端降水事件在冬季各月中也有发生,每个月有其各自的特点。文章着重研究分析11月的极端降水事件。通过对海温、大气环流的异常进行分析和研究,找出影响内蒙古冬季极端降水、极端低温的关键性因子,对今后的极端气候事件预测工作有所帮助和借鉴。  相似文献   

12.
近45年来河北省极端降水事件的变化研究   总被引:7,自引:1,他引:6  
高霞  王宏  于成文  戴新刚  史丽红 《气象》2009,35(7):10-15
利用河北省1961-2005年逐日降水资料,采用通用的极端气候指数,分析了近45年河北省极端降水事件频率变化的时空特征.结果表明,全省平均年最大日降水量呈下降趋势,1980年为由多向少的转折点;强降水日数和暴雨日数变化不大,但南部平原地区一般减少,北部山地区域多有增加,暴雨日数和强度在1990年代中后期显著增加;降水日数有较明显减少,南部和东南部平原减少更显著;降水日数的减少主要是中、小雨(雪)日数减少造成的.这些结果说明,河北省强降水日数和暴雨日数在降水日数中的比重有增大趋势,强降水量和暴雨降水量在总降水量中的比重可能增加了.这种相对增加趋势主要发生在1990年代中期以后.  相似文献   

13.
On Prediction of Record-Breaking Daily Temperature Events   总被引:1,自引:0,他引:1       下载免费PDF全文
The daily maximum/minimum temperature data at 740 stations in China from 1960 to 2005 were ana-lyzed to reveal the statistical characteristics of record-breaking(RB)daily extreme temperature events in the past 46 yr.It is verified that the observational daily extreme temperatures obey the Gaussian distribution. The expected values of RB extreme temperatures were obtained based on both the Gaussian distribution model and the initial condition of observed historical RB high/low temperature events after tedious the-oretical derivation.The results were then compared with those obtained by the iteration computation of the pure theoretical model.The comparison suggests that the results from the former are more consistent with the observations than those from the latter.Based on the above analyses,prediction of future possible RB high/low temperature events is made,and the spatial distributions of maximum/minimum theoretical values of their intensities are also given.It is indicated that the change amplitudes of future extreme temperatures differ evidently from place to place,showing a remarkable regional feature:the future extremely high temperature events will have a strong rising intensity in Southwest China,and a relatively weak rising intensity in western China;while the largest decrease of the future extremely low temperature events will appear in Northeast China and the north of Northwest China,and the decrease will be maintained relatively stable in space in Central China and Southwest China,in comparison with the historical low temperature pattern.Features in the occurrence time of the future RB temperature events are also illustrated.  相似文献   

14.
漠河极端气温气候特征及其变化   总被引:3,自引:0,他引:3  
采用相关系数法和对比分析法,分析了1963-2000年38年间中国最北部的漠河极端最低气温和极端最高气温的气候特征及其气候变化.结果表明:漠河是中国最冷的地方,不仅在中国气象史上创下了-52.3℃的极端最低气温最低极值,且每年极端最低气温都在-38℃以下;年极端最高气温为38.0℃;极端气温年较差很大,最小为73.1℃,最大为87.0℃,1980年代后明显变小;极端最低气温总体变化不明显,但1990年代上升显著,10年间平均升高1.6℃;极端最高气温总体变化显著,为升降交替变化,1970年代显著升高,10年问平均升高了1.6℃;1980年代明显下降,10年间平均下降了1.1℃;1990年代上升,10年间平均上升0.7℃;年极端最低气温出现在11月、12月、1月和2月,1月最多,占52%;年极端最高气温出现在5-9月,7月最多,占47%;日极端最低气温多出现在4-7时;日极端最高气温多出现在14-16时;特别值得一提的是:漠河1963-2000年间1-12月的月极端最低气温都曾经出现过零下的记录.  相似文献   

15.
近50 a齐齐哈尔市极端气候事件特征分析   总被引:2,自引:2,他引:0  
利用目前国际上较流行的极端气候指数方法对1951~2006年齐齐哈尔市24种极端气候指数进行计算和分析,得到了齐齐哈尔市极端气候事件的事实和变化特征。结果表明:齐齐哈尔市的年最低气温、暖夜、热夜日数和生长季长度呈显著上升趋势;冷夜、冷日、霜日、冰日和日平均温差均呈显著下降趋势。各种降水指数的变化趋势都不显著;极端气温和降水指数均存在阶段性特征和突变特征;最低气温的增暖主要发生在20世纪80年代中期以后,而最高气温则在90年代以后变暖明显,夜间气温的上升对增暖进程的贡献更大;极端降水事件的强度和频率呈增加趋势,2000年以后增加趋势尤为明显。  相似文献   

16.
2006年极端天气和气候事件及其他相关事件的概要回顾   总被引:1,自引:2,他引:1  
2006年1月中旬欧洲东部地区经历10年来的最低温天气;2月,非洲南部地区遭遇20年以来的最强降水;2006年上半年美国路易斯安那州经历111年来最干旱的时期;7月,欧美地区经历破纪录的高温炎热天气;菲律宾、印尼、印度等东南亚国家遭受暴雨洪灾。2006年春季,我国北方地区遭受18次沙尘天气的侵袭;夏季重庆等地区遭遇百年一遇的大旱;我国东南沿海等地受到多次强台风袭击;波及全国31个省(市、区)的冰雹、雷雨等强对流天气……。2006年是全球有气象记录以来的第6个高温年,极端天气和气候灾害并没有缓和的迹象;我国又经历了许多极端天气和气候灾害。  相似文献   

17.
利用全国综合气象信息共享平台(CIMISS)地面站点降水资料、欧洲中期天气预报中心逐小时再分析资料,分析 “黑格比”台风登陆后在浙江嘉兴、上海金山交界地区(简称“关注区”)产生的极端降水及相关物理量特征,结果表明:(1) 此次降水过程的小时雨强、日降水和过程降水均具有很强的极端性,部分测站达十年一遇甚至是百年一遇标准,杭州湾北岸强降水的极端性比南岸更显著;(2) 关注区对流层低层充足的水汽,以及高低层冷、暖平流的叠加,为极端降水发生发展提供了有利的水汽条件和不稳定条件;(3) 根据物理量的逐小时演变,呈现出低层辐散、高层辐合的环流增强,以及低层强烈的涡旋运动,关注区强降水也随之发生;(4) 此次极端暴雨过程850 hPa第二类热成风螺旋度极值和地面散度经极值排序后呈现较高的百分位置,在相似台风中均具有显著的极端性,对类似路径、小体积台风极端降水的发生具有较好的指示意义。  相似文献   

18.
重庆极端高温的变化特征及其对区域性增暖的响应   总被引:7,自引:0,他引:7  
张天宇  程炳岩  刘晓冉  向波  王勇 《气象》2008,34(2):69-76
利用重庆1961-2006年31个站逐日最高温度资料,统计出年极端高温发生频次、年极端高温强度、年极端最高温度,分析了它们近46年来的变化情况.结果表明:近46年来重庆年极端高温发生频次呈西减东增的趋势,但增加/减少趋势并不显著.年极端高温的强度和年极端最高气温均在不断增强.年极端高温发生频次的增加对于重庆区域增暖的响应最显著,而年极端最高温度的升高比年极端高温频次的增加对重庆区域性增暖的响应偏弱,但又比年极端高温强度的增强对重庆区域性增暖的响应程度要偏强.  相似文献   

19.
2008年1~2月,我国南方地区遭受50年不遇的雨雪冰冻天气.2008年3月上旬,澳大利亚南部大部分地区经历破纪录的热浪.5月2日,20年来亚洲破坏力最强的热带气旋"纳吉斯(Nargis)"给缅甸造成有史以来最严重的灾害.2008年大西洋飓风季,"古斯塔夫(Gustav)","汉娜(Hanna)"和"艾克(Ike)"等强飓风给加勒比海地区和美国部分地区造成严重洪灾.入秋以后,我国华北、黄淮、西北东北部及四川西部、西藏等地遭遇严重干旱.2008年,全球平均气温比过去30年(1961~1990年)的平均温度高出0.31℃,全球极端天气和气候灾害并没有缓和的迹象;我国也经历了许多极端天气和气候灾害.  相似文献   

20.
本文采用阿勒泰地区7个国家级气象站近54a(1960~2013年)夏季(6~8月)的日有效降水量(20~20h降水量≥0.1mm)资料,用WMO推荐的百分位法计算了全地区过去54a夏季极端强降水的阈值、进一步分析了当地夏季时空分布特征及变化趋势,结果表明:阿勒泰地区夏季极端强降水阈值呈西部、南部小,北部、东部大,并且空间异常分布特征如下: 夏季以及夏季各月的极端强降水日数和强度均可总结出5种最主要模型;极端强降水量可总结出8种最主要模型;并且通过时间标准化序列分析各种模型都有对应的降水日数、量级、强度明显偏多(强)和偏少(弱)的时段。日数、量级、强度近54a来,除吉木乃略有下降以外,其余各县(市)均为增长趋势,尤其是北部、东部地区.同时上述三指标存在着显著的年代际和年纪尺度的周期变化,上世纪90年代和2010年至今为三个指标最多(强)的年代,而上世纪70年代为最少(最差)的年代.并通过周期分析(小波分析)可知,均有对应的显著变化周期。  相似文献   

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