共查询到20条相似文献,搜索用时 15 毫秒
1.
基于华东399个气象站点逐日最高、最低气温数据,利用极端气候指数软件RClimdex和线性倾向估计、Mann-Kendall突变检验、概率密度函数等气候统计诊断方法,分析了华东极端气候的时空变化特征。结果表明,1961-2015年期间,华东最低气温极大值和极小值分别以0.2℃/10a和0.6℃/10a的趋势显著增加,最高气温极小值以0.3℃/10a的趋势显著增加,结冰、霜冻、冷夜和冷昼日数分别以0.5d/10a、3.7d/10a、2.0%/10a和0.7%/10a显著减少,夏天日数、热夜日数、暖夜和暖昼日数分别以2.9d/10a、2.8d/10a、1.8%/10a和0.8%/10a显著增加。期间华东最低和最高气温极值均发生升高突变,霜冻和结冰日数、冷夜和冷昼日数分别在20世纪80年代中后期和90年代发生减少突变,夏天日数、热夜日数、暖夜和暖昼日数则在2000年发生增多突变。与1961-1990年期间相比,1991-2015年间华东最低和最高气温极值的概率密度函数分布均右移,峰值多增大;霜冻、结冰、冷夜和冷昼日数的分布函数左移,峰值升高,形状变窄,而夏天日数、热夜日数、暖夜和暖昼日数恰好相反。 相似文献
2.
Changing Trends of Daily Temperature Extremes with Different Intensities in China 总被引:1,自引:0,他引:1 
下载免费PDF全文
下载免费PDF全文 By comparing two sets of quality-controlled daily temperature observation data with and without the inhomogeneity test and adjustment from 654 stations in China during 1956-2004 and 1956-2010, impacts of inhomogeneity on changing trends of four percentile temperature extreme indices, including occurrences of cold days, cold nights, warm days, and warm nights with varying intensities, were discussed. It is found that the inhomogeneity affected the long-term trends averaged over extensive regions limitedly. In order to minimize the inhomogeneity impact, the 83 stations identified with obvious inhomogeneity impacts were removed, and an updated analysis of changing trends of the four temperature extreme indices with varying intensities during 1956-2010 was conducted. The results show that annual occurrences of both cold nights and cold days decreased greatly while those of warm nights and warm days increased significantly during the recent 20 years. The more extreme the event is, the greater the magnitude of changing trends for the temperature extreme index is. An obvious increasing trend was observed in annual occurrences of cold days and cold nights in the recent four years. The magnitude of changing trends of warm extreme indices was greater than that of cold extreme indices, and it was greater in northern China than in southern China. Trends for summer occurrence of cold days were not significant. Decreasing trends of occurrences of both cold nights and cold days were the greatest in December, January, and February (DJF) but the least in June, July, and August (JJA), while increasing trends of warm nights were the greatest in JJA. Cold nights significantly decreased from 1956 to 1990, and then the decreasing trend considerably weakened. The decreasing trend also showed an obvious slowdown in recent years for occurrence of cold days. However, increasing trends of warm nights and warm days both have been accelerated continuously since the recent decades. Further analysis presents that the evolution of the trends for occurrences of the four temperature extreme indices was dominated by the changes in northern China. 相似文献
3.
Changes in Chinese temperature extremes are presented based on a six-hourly surface air
temperature dataset for the period 1961--2005. These temperature series are manually observed at
0200, 0800, 1400, and 2000 Beijing Time (LST), and percentile based extreme indices of these time
series are chosen for analysis. Although there is a difference in time among the different time
zones across China, as more than 80% of the stations are located in two adjacent time zones,
these indices for all the stations are called warm (cold) nights (0200 LST), warm (cold) mornings
(0800 LST), warm (cold) days (1400 LST), and warm (cold) evenings (2000 LST), respectively for
convenience. The frequency of the annual warm extremes has generally increased, while the frequency
of the annual cold extremes has decreased, and significant changes are mainly observed in northern
China, the Tibetan Plateau, and the southernmost part of China. Based on the national average, annual
warm (cold) nights increase (decrease) at a rate of 5.66 (-5.92) d (10 yr)-1, annual warm (cold)
days increase (decrease) at a rate of 3.97 (-2.98) d (10 yr)-1, and the trends for the annual warm
(cold) mornings and evenings are 4.35 (-4.96) and 5.95 (-4.35) d (10 yr)-1, respectively. For
China as a whole, the increasing rates for the occurrence of seasonal warm extremes are larger in the
nighttime (0200, 2000 LST) than these in the daytime (0800, 1400 LST), the maximal increase occurs at
2000 LST except in the summer and the minimal increase occurs at 1400 LST except in autumn; the maximal
decrease in the occurrence of seasonal cold extremes occurs at 0200 LST and the minimal decrease occurs
at 1400 LST. 相似文献
4.
利用1961—2000年我国194个测站逐日最高温度和最低温度器测资料,结合具有实际意义的季节极端温度指数,分析了我国近40年极端温度事件的年变化趋势和季节特征。对年极端气候指数的研究表明:绝对阈值定义的冷暖指数由于无法考虑南北气候差异,其结果不理想。百分比阈值所得的冷暖指数中,冷日指数和暖日指数具有不对称性,冷夜指数和暖夜指数具有较强的对称性。对季节极端温度指数研究表明:冬季极端冷指数变化趋势最为明显,夏季极端暖指数的变化趋势次之,春、秋两季极端冷指数的变化趋势不明显;年和季节尺度的极端冷暖指数均反映出增暖趋势。 相似文献
5.
This paper reports a comprehensive study on the observed and projected spatiotemporal changes in mean and extreme climate over the arid region of northwestern China, based on gridded observation data and CMIP5 simulations under the RCP4.5 and RCP8.5 scenarios. The observational results reveal an increase in annual mean temperature since 1961, largely attributable to the increase in minimum temperature. The annual mean precipitation also exhibits a significant increasing tendency. The precipitation amount in the most recent decade was greater than in any preceding decade since 1961. Seasonally,the greatest increase in temperature and precipitation appears in winter and in summer, respectively. Widespread significant changes in temperature-related extremes are consistent with warming, with decreases in cold extremes and increases in warm extremes. The warming of the coldest night is greater than that of the warmest day, and changes in cold and warm nights are more evident than for cold and warm days. Extreme precipitation and wet days exhibit an increasing trend, and the maximum number of consecutive dry days shows a tendency toward shorter duration. Multi-model ensemble mean projections indicate an overall continual increase in temperature and precipitation during the 21 st century. Decreases in cold extremes, increases in warm extremes, intensification of extreme precipitation, increases in wet days, and decreases in consecutive dry days, are expected under both emissions scenarios, with larger changes corresponding to stronger radiative forcing. 相似文献
6.
Changes of temperature extremes over China were evaluated using daily
maximum and minimum temperature data from 591 stations for the period
1961--2002. A set of indices of warm extremes, cold extremes and daily
temperature range (DTR) extremes was studied with a focus on trends. The
results showed that the frequency of warm extremes (F_WE) increased
obviously in most parts of China, and the intensity of warm extremes
(I_WE) increased significantly in northern China. The opposite
distribution was found in the frequency and intensity of cold extremes. The
frequency of high DTR extremes was relatively uniform with that of
intensity: an obvious increasing trend was located over western China and
the east coast, while significant decreases occurred in central,
southeastern and northeastern China; the opposite distribution was found for
low DTR extreme days. Seasonal trends illustrated that both F_WE and
I_WE showed significant increasing trends, especially over northeastern
China and along the Yangtze Valley basin in spring and winter. A correlation
technique was used to link extreme temperature anomalies over China with
global temperature anomalies. Three key regions were identified, as follows:
northeastern China and its coastal areas, the high-latitude regions above
40oN, and southwestern China and the equatorial eastern Pacific. 相似文献
7.
应用近50年我国234个测站的日平均温度资料,研究了最高(低)日平均温度、各种界限温度日数、生长季节长度及有效积温的变化趋势。结果表明:近50年,夏季最高日平均温度以上升为主,新疆南部和黄淮的部分地区为下降趋势;最低日平均温度北方大部地区有较明显的升温趋势,新疆南部及长江流域则有下降趋势;在冬季,无论是最高日平均温度还是最低日平均温度的变化趋势均以上升为主,北方尤为明显;日平均温度高于30℃的炎热日数近50年来基本上没有什么变化,但日平均温度为20~30℃的温暖日数却有增加。低于5℃的冷日日数基本上也是减少的。日平均温度低于-10℃的严寒日数,在40o~45 o N的新疆、内蒙古西部、东北中南部地区减少得更为明显。除西南东部等少数地方外,我国大部分地区近50年来生长季节延长,有效积温增加。 相似文献
8.
Recent trends in winter temperature extremes in eastern China and their relationship with the Arctic Oscillation and ENSO 总被引:7,自引:0,他引:7
Interannual variations in the number of winter extreme warm and cold days over eastern China (EC) and their relationship with the Arctic Oscillation (AO) and E1 Nifio-Southern Oscillation (ENSO) were investigated using an updated temperature dataset comprising 542 Chinese stations during the period 1961- 2011. Results showed that the number of winter extreme warm (cold) days across EC experienced a significant increase (decrease) around the mid-1980s, which could be attributed to interdecadal variation of the East Asian Winter Monsoon (EAWM). Probability distribution functions (PDFs) of winter temperature extremes in different phases of the AO and ENSO were estimated based on Generalized Extreme Value Distribution theory. Correlation analysis and the PDF technique consistently demonstrated that interannual variation of winter extreme cold days in the northern part of EC (NEC) is closely linked to the AO, while it is most strongly related to the ENSO in the southern part (SEC). However, the number of winter extreme warm days across EC has little correlation with both AO and ENSO. Furthermore, results indicated that, whether before or after the mid-1980s shift, a significant connection existed between winter extreme cold days in NEC and the AO. However, a significant connection between winter extreme cold days in SEC and the ENSO was only found after the mid-1980s shift. These results highlight the different roles of the AO and ENSO in influencing winter temperature extremes in different parts of EC and in different periods, thus providing important clues for improving short-term climate prediction for winter temperature extremes. 相似文献
9.
基于均一化资料的中国大陆极端温度的长期趋势 总被引:1,自引:0,他引:1
近百年来,全球气候变暖。这与暖日和暖夜增加,冷日和冷夜减少相关联。文章研究结果进一步证实了这一发现。本文基于1960-2012年中国大陆542个台站均一化气温资料,通过将中国大陆划分为8个次区域,利用百分位定义法计算了极端温度指数序列,同时,运用时间趋势分析法,对中国大陆各区域极端温度和极端温度指数的时空分布及变化趋势特征进行了分析。结果表明:在全球变暖的背景下,从地理分布而言,中国大陆在过去53年除西南地区外,大部分地区最低和最高温度有显著的升高趋势,其中,东北温度升高最为明显;从季节而言,冬季极端温度升高最为明显,夏季升高最少;最低温度明显升高,最高温度也有所升高,但是最低温度的升高幅度更大。冷夜和冷日出现频率呈减少趋势,暖夜和暖日出现频率呈增加趋势,其中以冷夜指数变化最为突出,均呈现一种区域差异的现象。本文利用更新的资料验证了前人的工作,也进一步分区分析,结果可为更多地区评估以及进一步的相关研究提供参考。 相似文献
10.
Z. Yan P. D. Jones T. D. Davies A. Moberg H. Bergström D. Camuffo C. Cocheo M. Maugeri G. R. Demarée T. Verhoeve E. Thoen M. Barriendos R. Rodríguez J. Martín-Vide C. Yang 《Climatic change》2002,53(1-3):355-392
Ten of the longest daily temperature series presently available in Europe and China are analysed, focusing on changes in extremes since pre-industrial times. We consider extremes in both a relative (with respect to the time of year) and an absolute sense. To distinguish changes in extremes from changes affecting the main part of the temperature distribution, a percentile smaller than 10 (and/or larger than 90) is recommended for defining an extreme. Three periods of changes in temperature extremes are identified: decreasing warm extremes before the late 19th century; decreasing cold extremes since then and increasing warm extremes since the 1960s. The early decreases and recent increases of warm extremes dominate in summer, while the decrease of cold extremes for winter persists throughout the whole period. There were more frequent combined (warm plus cold) extremes during the 18th century and the recent warming period since 1961 at most of the ten stations, especially for summer. Since 1961, the annual frequency of cold extremes has decreased by about 7% per century with warm extremes increasing by more than 10% per century but with large spatial variability. Compared with recent annual mean warming of about 2–3 ° C/century, the coldest winter temperatures have increased atthree times this rate, causing a reduced within-season range and therefore less variable winters. Changes in the warmest summer temperatures since 1961 exhibit large spatial variability, with rates of change ranging from slightly negative to 6 ° C/century. More extensive station observations since 1961 indicate that the single site results are representative of larger regions, implying also that the extremes studied are the result of large-scale changes. Recent circulation changes in daily gridded pressure data, used as an indicator of wind speed changes, support the results by explaining some of the trends. 相似文献
11.
Ewa Bednorz 《Theoretical and Applied Climatology》2011,106(3-4):547-556
The occurrence of daily air temperature extremes in winter in Central Spitsbergen in the period 1975–2008 was analysed. The mean winter temperature was found to be increasing by approximately 1.65°C per decade. Negative extremes were becoming less frequent, decreasing at a rate of approximately 5 days per decade, whereas the frequency of positive extremes showed a small (2 days per decade) but insignificant positive trend. Furthermore, circulation patterns responsible for positive and negative temperature extremes were analysed. Composite maps of the sea level pressure (SLP) and 500-hPa geopotential heights (z500 hPa) means and anomalies were constructed for the days with positive and negative extremes. Circulation patterns causing extremely warm winter days are characterised by a cyclonic centre or a low pressure trough over the Fram Strait. Cyclones located west of Spitsbergen with a warm sector over the archipelago bring warm air masses from the southern quadrant. On extremely cold days, the cyclone centres are usually located over the Barents Sea. This SLP pattern implies airflow from the north and northeast that brings cold Arctic air to the North Atlantic. Another factor in the occurrence of the temperature extremes in Central Spitsbergen is the sea-ice cover. Negative temperature extremes usually occur together with a high concentration of sea ice, particularly in the middle and end of winter. 相似文献
12.
利用漠河站点1961~2004年逐日平均、最高和最低气温资料计算得到的年均温、年变化和季节变化的持续暖口和冷夜频数,分析了它们的线性趋势、增量、显著性和平稳性.其中年均温升高了约1.61℃,年持续暖口频数增加了约4次,冬季持续暖日频数和夏季持续冷夜频数都呈显著增加趋势.分别对年均温和年持续频数的线性回归关系,以及年均温和季持续频数的线性回归关系进行了显著性检验.在线性回归关系显著的情况下,分别就各频数序列埘年均温的影响逐一进行显著性检验,从而揭示了年均温与符频数序列的变化关系.研究结果表明:从按年,变化的角度米分析,年均温的升高是由年持续暖日频数的增加和年持续冷夜频数的减少共同显著影响的;从按季变化的角度来分析,年均温的升高主要由春、夏季持续暖日频数的增加和春、秋季持续冷夜频数的减少共同显著影响的. 相似文献
13.
Changes of Climate Extremes in China 总被引:89,自引:0,他引:89
Changes in China's temperature and precipitation extremes have been studied by using observational data after 1950. The results reveal that mean minimum temperature has increased significantly in China during the past 40 years, especially in the winter in northern China. Meanwhile, nation-wide cold wave activity has weakened and the frequency of cold days in northern China has been reduced significantly. Mean maximum temperatures display no statistically significant trend for China as a whole. However, decreasing summer mean maximum temperatures are obvious in eastern China, where the number of hot days has been reduced. Seasonal 1-day extreme maximum temperatures mainly reflect decreasing trends, while seasonal 1-day extreme minimum temperatures are increasing.A statistically significant reduction of much above normal rain days in China has been detected. Contrarily, an increasing trend was detected in much above normal of precipitation intensity (precipitation/number of precipitation days) during the past 45 years. 相似文献
14.
不同升温阈值下中国地区极端气候事件变化预估 总被引:6,自引:1,他引:5
本文基于耦合模式比较计划第五阶段(CMIP5)的18个全球气候模式的模拟结果,预估了全球平均气温在不同典型浓度路径(RCPs)下达到2℃、3℃和4℃阈值时,中国地区气温和降水的变化,并采用了具有稳定统计意义的27个极端气候指标定量评估了全球平均气温达到不同阈值时,中国地区极端气候事件的可能变化。结果表明,未来我国平均气温增幅将高于全球平均增暖,极端暖事件(如暖夜、暖昼、热带夜)明显增多,达到4℃阈值时,暖夜指数相比参考时段增加约49.9%。极端冷事件(如冷夜、冷昼、霜冻)减少。随全球气温升高,中国北方平均降水增多。在不同升温阈值下,中国地区降水的极端性都体现出增强的趋势,强降水事件发生频率(如中雨日数、大雨日数)和强度(如五日最大降水量、极端强降水量)都明显增加。随升温阈值的升高,这些变化幅度更大,在 RCP8.5 情景下全球升温 3℃和4℃时,中国平均五日最大降水分别增加 12.5mm和17.0mm。我国西南地区极端降水强度的增幅高于其他地区。 相似文献
15.
两类ENSO对中国北方冬季平均气温和极端低温的不同影响 总被引:2,自引:0,他引:2
利用1961-2012年观测、再分析资料以及全球大气环流模式数值试验,探讨了中国北方冬季平均气温对于不同类型(即东部型和中部型)ENSO事件的气候响应,并分析了不同类型ENSO对极端低温事件的可能影响,重点关注了北大西洋涛动(NAO)在其中的桥梁作用。结果表明,ENSO信号能通过调制北大西洋地区的大气环流改变欧亚中高纬度地区的纬向温度平流输送和西伯利亚高压的强度,进而影响中国北方冬季气温,由于不同类型ENSO事件海温分布的差异,这种影响具有明显的非线性特征。在两类厄尔尼诺和东部型拉尼娜事件冬季,北大西洋涛动均呈现负位相,不利于北大西洋的暖湿空气向欧亚大陆输送,西伯利亚高压偏强,因而中国北方地区较气候态偏冷。中部型厄尔尼诺和东部型拉尼娜事件冬季气温负异常的显著区域分别位于东北大范围地区、内蒙古河套附近;东部型厄尔尼诺事件冬季显著的冷异常信号仅局限于黑龙江北部与大兴安岭地区;而中部型拉尼娜事件冬季虽伴随北大西洋涛动正位相,但其空间结构向西偏移,对下游中国北方地区气温的直接影响并不显著,可能受局地信号干扰较大。数值试验再现了北大西洋涛动以及中国北方冬季气温对不同类型ENSO的响应,进一步佐证了上述结论。此外,两类厄尔尼诺事件冬季中国东北地区日平均气温容易偏低,极端低温事件的发生频次增多;而两类拉尼娜事件对极端低温的影响较弱。 相似文献
16.
基于中国均一化气温数据集CN05.1的观测数据,结合暖昼指数(TX90)、冷昼指数(TX10)、暖夜指数(TN90)、冷夜指数(TN10)、暖日持续指数(WSDI)和冷日持续指数(CSDI)6个极端温度指数,从气候平均、概率分布、年际变率和年际趋势方面,系统评估区域气候模式(Climate–Weather Research and Forecasting model, CWRF)对1980~2015年间我国极端温度指数区域分布和年际变化的模拟能力,为改进并利用模式研究我国未来区域极端温度的预测提供科学依据。结果显示:观测的冷暖指数在北方的年际变率幅度高于南方,其中暖指数在我国大部分地区为增暖趋势,冷指数在北方地区的变冷趋势显著,尤其暖夜增暖、冷夜变冷,极端暖事件(WSDI)的持续性比冷事件(CSDI)显著。CWRF模式较好再现了极端温度指数的年均分布和年际变化趋势特征,尤其对暖日和冷日持续指数的模拟优势显著,但仍存在系统性的区域偏差,如低估暖昼和冷夜的极值强度;对华东地区暖(冷)指数变暖(冷)的趋势存在低(高)估;尤其是低估青藏高原地区暖、冷指数的强度,并且高估其暖昼变冷、暖夜变暖的年际变化趋势。因此,该模式对华东及高原地区极端温度的强度和年际变率的模拟仍亟需改善。 相似文献
17.
Changes in Canada's Climate: Trends in Indices Based on Daily Temperature and Precipitation Data 总被引:1,自引:0,他引:1
ABSTRACTTrends in indices based on daily temperature and precipitation are examined for two periods: 1948–2016 for all stations in Canada and 1900–2016 for stations in the south of Canada. These indices, a number of which reflect extreme events, are considered to be impact relevant. The results show changes consistent with warming, with larger trends associated with cold temperatures. The number of summer days (when daily maximum temperature >25°C) has increased at most locations south of 65°N, and the number of hot days (daily maximum temperature >30°C) and hot nights (daily minimum temperature >22°C) have increased at a few stations in the most southerly regions. Very warm temperatures in both summer and winter (represented by the 95th percentile of their daily maximum and minimum temperatures, respectively) have increased across the country, with stronger trends in winter. Warming is more pronounced for cold temperatures. The frost-free season has become longer with fewer frost days, consecutive frost days, and ice days. Very cold temperatures in both winter and summer (represented by the 5th percentile of their daily maximum and minimum temperatures, respectively) have increased substantially across the country, again with stronger trends in the winter. Changes in other temperature indices are consistent with warming. The growing season is now longer, and the number of growing degree-days has increased. The number of heating degree-days has decreased across the country, while the number of cooling degree-days has increased at many stations south of 55°N. The frequency of annual and spring freeze–thaw days shows an increase in the interior provinces and a decrease in the remainder of the country. Changes in precipitation indices are less spatially coherent. An increase in the number of days with rainfall and heavy rainfall is found at several locations in the south. A decrease in the number of days with snowfall and heavy snowfall is observed in the western provinces, while an increase is found in the north. There is no evidence of significant changes in the annual highest 1-day rainfall and 1-day snowfall. The maximum number of consecutive dry days has decreased, mainly in the south. 相似文献
18.
Multidecadal changes in the relationship between extreme temperature events in Uruguay and the general atmospheric circulation 总被引:1,自引:0,他引:1
We analyze changes in the relationship between extreme temperature events and the large scale atmospheric circulation before and after the 1976 climate shift. To do so we first constructed a set of two temperature indices that describe the occurrence of warm nights (TN90) and cold nights (TN10) based on a long daily observed minimum temperature database that spans the period 1946?C2005, and then divided the period into two subperiods of 30?years each (1946?C1975 and 1976?C2005). We focus on summer (TN10) and winter (TN90) seasons. During austral summer before 1976 the interannual variability of cold nights was characterized by a negative phase of the Southern Annular Mode (SAM) with a cyclonic anomaly centered off Uruguay that favoured the entrance of cold air from the south. After 1976 cold nights are associated not with the SAM, but with an isolated vortex at upper levels over South Eastern South America. During austral winter before 1976, the El Ni?o phenomenon dominated the interannual variability of warm nights through an increase in the northerly warm flow into Uruguay. However, after 1976 the El Ni?o connection weakened and the variability of warm nights is dominated by a barotropic anticyclonic anomaly located in the South Atlantic and a low pressure center over South America. This configuration also strengthens the northward flow of warm air into Uruguay. Our results suggest that changes in El Ni?o evolution after 1976 may have played a role in altering the relationship between temperature extreme events in Uruguay and the atmospheric circulation. 相似文献
19.
E. J. M. van den Besselaar A. M. G. Klein Tank G. van der Schrier 《Theoretical and Applied Climatology》2010,99(3-4):431-439
The aim of this study is to determine the influence of atmospheric circulation on the recently observed changes in the number of warm days and cold days in Europe. The temperature series for stations in the European Climate Assessment and Data set project and the Grosswetterlagen (GWL) were used here. The temperature series were first adjusted for global warming before determining the indices for cold and warm extremes. The 29 GWLs were grouped in ten circulation types. Then, the number of days a certain circulation type occurred was determined for each winter (December, January and February) and summer (June, July and August). The relation between the circulation type frequencies and the temperature indices was modelled with a multi-regression fit over the period 1947–1974 and tested for the period 1974–2000. The difference between the observed indices and the calculated indices in the second period (using the fit coefficients for the first period) shows a warming effect for both winter and summer and for at least the warm day index, which is unaccounted for by the global warming trend. A simple snow model shows that variations in the European snow cover extent are likely influencing the cold and warm day indices in winter: there is a correlation between the decreasing trend of the snow cover extent in Europe and the increasing (decreasing) trend of the number of warm (cold) days for stations throughout Europe. 相似文献
20.
本文基于中国地面气温日值网格数据集(V2.0),采用滑动相关和相关分析等方法,揭示了冬季北大西洋涛动(NAO)对中国北方极端低温影响的事实,进一步证实了东北后冬(1、2月)冷日(夜)与同期NAO相关性的年代际变化。研究发现:在20世纪80年代中期前,东北后冬冷日(夜)频发,与NAO的相关性较好,而在80年代中期后东北后冬冷日(夜)少发,与NAO的相关性减弱。其中,1月在1969~1988阶段,东北冷日(夜)与NAO的相关性最好,相关区域显著,相关系数可达-0.68(-0.66),而在1989~2009阶段二者相关性最弱,相关区域不显著。进一步分析发现,在不同年代际背景下,NAO引起的大气环流异常是导致东北1月冷日(夜)与1月NAO相关性年代际变化的重要原因。相关性较好的年代,NAO引起的环流异常有利于冷涡等天气系统维持在贝加尔湖到东北一带,使东北地区气温偏低,冷日(夜)频发;相关性较弱的年代,不利于冷空气南下,使东北地区气温偏高,冷日(夜)少发。 相似文献