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1.
Jucundus Jacobeit Peter Jönsson Lars Bärring Christoph Beck Marie Ekström 《Climatic change》2001,48(1):219-241
Zonal circulation indices with monthly and seasonal resolutions are calculated based on gridded monthly mean sea-level pressure (SLP) reconstructed back to 1780 by Jones et al. (1999): an overall zonal index for the whole European area between 30°W and 40°E, a normalized index for the North Atlantic Oscillation (NAO), and a similar index for Central Europe. For most of the early time up to the mid-nineteenth century we get preferred negative anomalies in the NAO index for winter and preferred positive ones for summer. The turning points in cumulative anomalies - during the 1850s for winter and during the 1870s for summer - indicate a transition period in circulation modes from the "Little Ice Age" to the recent climate in Europe. Running correlations (time windows of 21 years with time steps of one year) between zonal indices and regional temperature time series from Central England, Stockholm and two Central European regions are all indicating major instationarities in these relationships with a particular decline in winter correlations around the turn from the nineteenth to the twentieth centuries. Aspects of different circulation patterns linked with these variabilities are discussed. 相似文献
2.
近百年长江下游作物生长季冷暖的变化与大型环流的振动 总被引:2,自引:1,他引:2
本文运用上海1373—1982年110年气温资料,配合1871—1980年110年月平均海平面气压场资料,分析了长江下游作物生长季冷暖的长期变化以及与之关联的大型环流变化特征。发现最近百余年里,年、季(代表月份)和关键旬的平均气温普遍经历了从偏冷期转为偏暖期约80—100年周期的振动,转折发生在本世纪20年代末、30年代初。70年代前后有转向偏冷期的趋势。这类低频振动与大型环流活动的低频振动有密切关联,主要表现在冬季亚洲大陆冷高压主体偏东和阿留申低压偏弱时期,相应夏季青藏高原热低压偏弱时期,对应长江下游偏冷期;反之,则对应偏暖期。讨论了生长季冷暖变化对农作物生长发育和产量的影响。 相似文献
3.
Analyzed are the anomalies of monthly mean values of surface pressure over Eurasia in winter seasons of 1901–2010. It is noted
that the centers of large monthly positive pressure anomalies (16–24 hPa) are usually located within the 60°–70°N latitude
zone. The Siberian high is well developed but the pressure anomalies in its center amount to 3–8 hPa only. The large monthly
pressure anomalies at the isobaric surface of 500 hPa in the first natural synoptic area are mainly accompanied by the E-type of circulation (according to G.Ya. Vangengeim). The number of days with the western (W) type of circulation is extremely small and is practically absent when the anomalies in the center exceed 20 hPa (blocking
process). The time periods of increase (decrease) in the annual number of days with W-circulation are well agreed with the periods of the Earth rotation acceleration (deceleration). The positive pressure anomalies
were four or five times more frequent in the periods of the Earth angular velocity decrease: in 1933–1972 and after 2004. 相似文献
4.
TeleconnectionPaternsintheNorthernHemisphereSimulatedbyIAPGCMXueFeng(薛峰)andZengQingcun(曾庆存)InstituteofAtmosphericPhysics,Chin... 相似文献
5.
Tree ring inferred summer temperature variations over the last millennium in western Himalaya, India 总被引:1,自引:1,他引:0
We report the first millennium-long reconstruction of mean summer (May–June–July–August) temperature extending back to AD 940 derived from tree-ring width data of Himalayan pencil juniper (Juniperus polycarpos C. Koch) from the monsoon-shadow zone in the western Himalaya, India. Centennial-scale variations in the reconstruction reveal periods of protracted warmth encompassing the 11–15th centuries. A decreasing trend in mean summer temperature occurred since the 15th century with the 18–19th centuries being the coldest interval of the last millennium, coinciding with the expansion of glaciers in the western Himalaya. Since the late 19th century summer temperatures increased again. However, current warming may be underestimated due to a weakening in tree growth-temperature relationship noticeable in the latter part of the 20th century. Mean summer temperature over the western Himalaya shows a positive correlation with summer monsoon intensity over north central India. Low-frequency variations in mean summer temperature anomalies over northwestern India are consistent with tree-ring inferred aridity in western North America. These far-distance linkages reported here for the first time underscore the utility of long-term temperature records from the western Himalayan region in understanding global-scale climatic patterns. 相似文献
6.
David P. Rowell 《Climate Dynamics》2005,25(7-8):837-849
A scenario of European climate change for the late twenty-first century is described, using a high-resolution state-of-the-art
model. A time-slice approach is used, whereby the atmospheric general circulation model, HadAM3P, was integrated for two periods,
1960–1990 and 2070–2100, using the SRES A2 scenario. For the first time an ensemble of such experiments was produced, along
with appropriate statistical tests for assessing significance. The focus is on changes to the statistics of seasonal means,
and includes analysis of both multi-year means and interannual variance. All four seasons are assessed, and anomalies are
mapped for surface air temperature, precipitation and snow mass. Mechanisms are proposed where these are dominated by straightforward
local processes. In winter, the largest warming occurs over eastern Europe, up to 7°C, mean snow mass is reduced by at least
80% except over Scandinavia, and precipitation increases over all but the southernmost parts of Europe. In summer, temperatures
rise by 6–9°C south of about 50°N, and mean rainfall is substantially reduced over the same area. In spring and autumn, anomalies
tend to be weaker, but often display patterns similar to the preceding season, reflecting the inertia of the land surface
component of the climate system. Changes in interannual variance are substantial in the solsticial seasons for many regions
(note that for precipitation, variance estimates are scaled by the square of the mean). In winter, interannual variability
of near-surface air temperature is considerably reduced over much of Europe, and the relative variability of precipitation
is reduced north of about 50°N. In summer, the (relative) interannual variance of both variables increases over much of the
continent. 相似文献
7.
Seasonal Temperature and Precipitation Fluctuations in Selected Parts of Europe During the Sixteenth Century 总被引:1,自引:1,他引:0
Rüdiger Glaser Rudolf Brázdil Christian Pfister Petr Dobrovolný Mariano Barriendos Vallvé Anita Bokwa Dario Camuffo Oldrich Kotyza Danuta Limanówka Lajos Rácz Fernando S. Rodrigo 《Climatic change》1999,43(1):169-200
The article in hand presents a comparative analysis of unweighted thermic and hygric index series of different European regions (northern Switzerland, Germany, the Czech Republic, northern Italy, ancient Hungary, Poland and Spain). Besides methodological aspects about the formation of indices, especially the progress as well as the question of similarity development of these series in the 16th century are discussed and shown on the balance sheet. It becomes evident that with respect to the temperature on the level of unweighted indices the European regions of Germany, the Czech Republic and Switzerland are very similar during all seasons. In winter and summer these correlations are especially evident, during the transitional seasons they are smaller. Larger differences exist between the central European core region and the adjacent areas of research. In principle, the hygric differences are larger than the thermic ones.In the course of the sixteenth century marked cooling phases occurred during all seasons with increasing accentuation. These phases were typical for the climate of the Little Ice Age. In addition to this long-term analysis, some outstanding years of extreme weather like those of 1540, 1573 and 1587 are presented, in the course of which questions of climatic impact are included. Finally, recent instrumental data was used to conduct an analysis that compared the similarities between the respective regions and the similarities between the empirical data and indices. On the one hand, this confirmed the spatial pattern, on the other hand the usability of the indices. 相似文献
8.
韵律与长期天气预报 总被引:4,自引:1,他引:4
本文讨论了对长期天气预报比较重要的韵律问题,共有三部分内容:(1)分析广大台站在相关普查中发现的隔季相关现象,相关间隔自2个月到11个月不等,其中大约半年左右的比较常见,并且地理分布区域性强,大洋上最明显,指出这是韵律现象。 (2)月平均环流与海温的相似性分析表明,北半球环流与海温都存在着隔季相似性。例如,春或夏海温距平相似时,大约6个月之后又相似。而秋冬春三季大气环流的相似容易造成夏季大气环流的相似。指出这是大气环流与海洋的韵律活动的表现。 (3)讨论了两种可能的韵律形成过程,一种是北太平洋西风漂流区夏季海温通过韵律关系影响半年后的冬季海温,从而影响大气环流和天气。另一种是冬季低纬东太平洋海温与大气环流相互作用,通过韵律关系影响半年之后夏季低纬太平洋的环流,从而影响西太平洋副高及我国天气。 相似文献
9.
A new reconstruction of winter and summer temperatures in the Low Countries(the present-day Netherlands and Belgian Flanders), based upon documentary evidence from AD 764 to 1705 and extended by observationsto 1998, is compared with relevant paleo series from the European network. The Low Countries Temperature (LCT) reconstruction is well supported by existing evidence in both seasons from about 1300 onwards,on timescales ranging from annual to centennial.The spectral analysis confirms that the dominant oscillations in the LCT have counterparts in the independent data and that most of theperiodicities characteristic for the instrumental segment of the LCT are preserved in the reconstruction. Throughout thisperiod of reliable reconstruction there was no detectable inhomogeneity of the variances in either seasons.Prior to about 1300, there are few sources that can be used to evaluate LCT. It was possible to add some support for the LCT on decadal andcentennial timescales for the 12th and 13th centuries. However, there is no independent data for the first three centuriesof the reconstruction.The LCT series exhibits significant season-dependent variability on bidecadal and centennial timescales. The seasonality is particularly remarkable in the 10th and 15th centuries which were – on average – warm in the summer and cold in the winter.The 20th century was by far (three standard errors) the warmest century of the last millenniumin terms of winter temperatures, while the 13th century was warmest in terms of summer temperatures (by the narrow margin of one standard error).In both seasons, the coldest centennial period was centered around 1600. The present results place the reconstructed LCT series withinthe existing paleoclimatic network, and provide an insight into temperature variability in the Low Countries through the centuries. 相似文献
10.
Summary ¶Trends and low frequency fluctuations relying on 14 observed temperature and precipitation series 1901–1998 from Hungarian sites are presented. The statistical significances of systematic changes are calculated by the t-test for the linear trends and the Mann-Kendall test. Characteristics of long-term fluctuations are investigated by spectrum analysis (Fisher-test), fitting optimum-ranked polynomials as well as illustrated by smoothed curves of 15-point Gauss-filter application.While the increase of mean temperature in Hungary during the 20th century is not significant, the annual precipitation totals have substantially decreased. In the first half of the century mainly the precipitation totals in the transitional seasons decreased. By the second half of the century the seasonal structure of the precipitation trends has altered significantly: there was practically no systematic change in the transitional seasons, but winter precipitation decreased dramatically. The paper makes some comparisons with the same type climatic characteristics of the surrounding geographical regions, the temperature changes of the Northern Hemisphere, as well as discusses the relationship between winter precipitation in Hungary and the North Atlantic oscillation.A significant 50-year oscillation was found in the summer mean temperatures and the annual sums of extreme positive daily temperature anomalies in Hungary. This oscillation seems to be in tune with other processes over the Euro-Atlantic region. A cycle of 3.6 years in the annual precipitation totals was found to be significant at the 0.10 level.Received May 27, 2002; revised October 7, 2002; accepted November 4, 2002
Published online June 4, 2003 相似文献
11.
利用河南省49个地面气象台站1979—2011年的月平均地面水汽压资料,分析了近33a来河南省四季水汽压的时空分布特征,在此基础上,对夏季地面水汽压进行了分区。结果表明:①河南省四季地面水汽压多年平均的空间分布较为相似,都呈现出由西北向东南递增的趋势。②EOF分解表明,河南省四季地面水汽压空间变化的最主要分布是全省一致型。③河南省四季地面水汽压存在明显的年际和年代际变化,除冬季主要存在准15a的年代际变化外,其余季节则在多数时段存在着准5a左右的年际变化;各季地面水汽压均呈线性增加趋势,其中冬春(夏秋)季增加趋势(不)明显。④通过REOF分解,结合地理位置和气候特点,可将河南省夏季地面水汽压分为豫北、豫东南和豫西3个区。 相似文献
12.
David Barriopedro David Gallego M. Carmen Alvarez-Castro Ricardo García-Herrera Dennis Wheeler Cristina Peña-Ortiz Susana M. Barbosa 《Climate Dynamics》2014,43(3-4):939-955
A monthly index based on the persistence of the westerly winds over the English Chanel is constructed for 1685–2008 using daily data from ships’ logbooks and comprehensive marine meteorological datasets. The so-called Westerly Index (WI) provides the longest instrumental record of atmospheric circulation currently available. Anomalous WI values are associated with spatially coherent climatic signals in temperature and precipitation over large areas of Europe, which are stronger for precipitation than for temperature and in winter and summer than in transitional seasons. Overall, the WI series accord with the known European climatic history, and reveal that the frequency of the westerlies in the eastern Atlantic during the twentieth century and the Late Maunder Minimum was not exceptional in the context of the last three centuries. It is shown that the WI provides additional and complementary information to the North Atlantic Oscillation (NAO) indices. The analysis of WI series during the industrial era indicates an overall good agreement with the winter and high-summer NAO, with the exception of several multidecadal periods of weakened correlation. These decoupled periods between the frequency and the intensity of the zonal flow are interpreted on the basis of several sources of non-stationarity affecting the centres of the variability of the North Atlantic and their teleconnections. Comparisons with NAO reconstructions and long instrumental indices extending back to the seventeenth century suggest that similar situations have occurred in the past, which call for caution when reconstructing the past atmospheric circulation from climatic proxies. The robustness and extension of its climatic signal, the length of the series and its instrumental nature make the WI an excellent benchmark for proxy calibration in Europe and Greenland. 相似文献
13.
Simulations of late 20th and 21st century Arctic cloud amount from 20 global climate models (GCMs) in the Coupled Model Intercomparison Project phase 3 (CMIP3) dataset are synthesized and assessed. Under recent climatic conditions, GCMs realistically simulate the spatial distribution of Arctic clouds, the magnitude of cloudiness during the warmest seasons (summer–autumn), and the prevalence of low clouds as the predominant type. The greatest intermodel spread and most pronounced model error of excessive cloudiness coincides with the coldest seasons (winter–spring) and locations (perennial ice pack, Greenland, and the Canadian Archipelago). Under greenhouse forcing (SRES A1B emissions scenario) the Arctic is expected to become cloudier, especially during autumn and over sea ice, in tandem with cloud decreases in middle latitudes. Projected cloud changes for the late 21st century depend strongly on the simulated modern (late 20th century) annual cycle of Arctic cloud amount: GCMs that correctly simulate more clouds during summer than winter at present also tend to simulate more clouds in the future. The simulated Arctic cloud changes display a tripole structure aloft, with largest increases concentrated at low levels (below 700 hPa) and high levels (above 400 hPa) but little change in the middle troposphere. The changes in cloud radiative forcing suggest that the cloud changes are a positive feedback annually but negative during summer. Of potential explanations for the simulated Arctic cloud response, local evaporation is the leading candidate based on its high correlation with the cloud changes. The polar cloud changes are also significantly correlated with model resolution: GCMs with higher spatial resolution tend to produce larger future cloud increases. 相似文献
14.
我国四季极端雨日数时空变化及其与海表温度异常的关系 总被引:3,自引:0,他引:3
利用1960—2004年我国586个气象站的逐日降水观测资料,对每个季节和每个站点,以雨日降水量升序排列的第90个百分位值定义极端日降水阈值,分析揭示了我国四季极端雨日数的时空变化特征、与海表温度异常的关系以及相联系的大气环流异常型。结果表明,我国长江流域极端雨日数在冬季和夏季呈显著增加趋势,华北地区极端雨日数在冬季显著增加、而在夏季显著减少,华南地区极端雨日数在春季显著增加,东北地区极端雨日数在冬季和春季显著增加,而西北地区极端雨日数在四季均显著增加。各季极端雨日数在线性趋势变化之上表现年际和年代际变化特征,并且其典型异常型明显不同,春、秋季表现为长江以南与以北地区反位相的"偶极型"变化,夏季表现为长江流域与华南、华北地区反位相的"三极型"变化,冬季表现为全国大部分地区同位相的"单极型"变化。我国季节极端雨日数与印度洋-太平洋海表温度异常的关系主要表现为与ENSO的关系,而ENSO影响我国极端降水异常是通过相应的大气环流异常型来实现的。 相似文献
15.
The ten-year mean anomalies of seasonal and annual temperatures were reconstructed on the basis ofhistorical documents of cold events such as severe snowing and freezing of lakes and rivers.The assorted eventswere calibrated with instrumental observations of temperature and transformed into ten-year mean anomalies.The reconstructed temperature series show predominance of cold climate in the first four hundred years of theperiod examined.The centenary seasonal temperature anomalies for the 16th to the 19th century vary between-0.1 and -0.7K.The coldest decades concentrated in the middle of 17th and 19th centuries.It provided theirrefutable evidence of the occurrence of the Little Ice Age in China.The minima of ten-year mean temperatureanomalies ranged about -1.5 to 2.0K in spring and winter.Meanwhile,the variance of ten-year mean tempera-ture was increased by more than 20% in comparison to the 20th century. 相似文献
16.
北京地区城市热岛强度变化对区域温度序列的影响 总被引:57,自引:2,他引:55
通过对北京地区20个台站1961~2000年月平均温度资料的对比分析,证实热岛效应对城市气象站记录的地表平均气温的绝对影响随时间显著增大,近20 a尤为突出,但其相对影响即热岛增温对全部增暖的贡献却呈下降趋势。近40 a来,北京地区的国家基本、基准站平均温度距平序列与被认为不受城市热岛影响的郊区站平均温度距平序列差异明显,由于热岛效应加强因素引起的国家基本、基准站平均年温度变化速率为0.16℃/(10 a),对整个时期全部增温的贡献达到71%;近20 a来热岛效应加强因素使北京地区国家基本、基准站年平均温度每10 a增暖0.33℃,对该时期全部增温的贡献达到49%。城市热岛效应加强因素对国家基本、基准站季节平均温度上升的贡献在夏、秋季高,冬季最小。本文的结果说明,目前根据国家基本、基准站资料建立的全国或较大区域平均温度序列可能在很大程度上保留着城市化的影响,有必要做进一步的检验和订正。 相似文献
17.
平流层30 hPa月平均高度场的气候特征 总被引:5,自引:4,他引:1
采用经验正交函数分解(EOF)方法对NCEP/NCAR全球再分析资料中1958—1997年共40年,30hPa月平均高度和月平均风场进行了分析,讨论了40年平流层的主要特征向量和相应时间系数的变化特征,发现高度场的EOF第一模态具有很好的空间整体性和明显的季节变化。在平流层中,北半球冬季为一较大的环极冷低压,夏季为一以整个半球为规模的环极暖高压。并以1月和7月代表冬、夏季,选取1月和7月的40年资料作为时间序列,用EOF分析了冬、夏季不同的空问振荡型的特征,运用小波分析方法考察了其年际及年代际变化周期。并据此定义了不同的振荡型指数,为以后分析平流层要素场与气候变化的关系奠定了基础。 相似文献
18.
英国CRU高分辨率格点资料揭示的20世纪中国气候变化 总被引:30,自引:1,他引:29
中国覆盖比较完整的台站观测始于1951年,1951年之前虽然有一些观测记录,但是残缺不全.所以要建立更长的气候序列就要吸收代用资料,但是代用资料可能与气候要素仅有一定程度的相关,不可能一一对应,因此应用代用资料重建的气候序列有一定的不确定性.英国East Anglia大学的Climatic Research Unit(简称CRU)通过整合已有的若干个知名数据库,重建了一套覆盖完整、高分辨率、且无缺测的月平均地表气候要素数据集,时间范围覆盖1901~2003年,空间为0.5°×0.5°经纬网格覆盖所有陆地.这套资料和中国已有的气候数据相比具有如下优点: 第一,中国西部20世纪前半期非常缺少观测,CRU资料尽管包含插值带来的误差,经比较仍可作为有一定信度的参考; 第二,中国现有的百年温度序列只是年或季分辨率,而CRU资料达到月分辨率; 第三,建立这个序列仅使用观测结果,做统计内插,不包括代用资料所带来的不确定性.因此,CRU的序列与用代用资料补充得到的序列在资料方面有较大不同,比较这两个序列,不仅可以进一步确认中国气候变化的特征,也可以彼此校正.结果表明:(1)CRU资料反映的全国年平均温度年际变化和考虑代用资料重建的序列吻合得很好,相关系数达到0.84;(2)区域尺度上,两者在10个典型分区的气温变率也相当一致,相关整体保持在0.8左右,仅新疆西南部和西藏西北部两者差异较大;(3)CRU资料揭示的中国年总降水量在1951~2000年的变化与160站观测吻合,相关系数达到0.93;(4)CRU资料的中国东部四季降水量和重建资料十分一致,秋季一致性最好,相关0.93;(5)CRU资料和重建的序列比较一致地表现出中国温度和降水年代际变化的主要特征,其给出的20世纪20年代中国大旱和20世纪40年代中国高温的空间分布与作者过去的结论相一致.这表明,作者过去重建的中国气候序列有比较大的可靠性,而CRU资料也提供了新的信息,特别是在20世纪前半期和中国西部. 相似文献
19.
热带和中纬太平洋海温异常对东北夏季低温冷害影响的诊断分析研究 总被引:19,自引:0,他引:19
利用1995~1997年东北地区23个测站的地面气温资料、1950~1996年太平洋地区月平均海温资料以及1980~1994年全球月平均风场资料,分析了东北夏季低温冷害的时空特征和变化规律,探讨了太平洋各区域的海温异常与低温冷害之间的可能联系及其影响机理。结果表明,用EOF分解得到的前三个特征向量(占总方差的84.28%)基本表示了东北夏季气温的变化,用这三个特征向量重建的气温距平场,存在着3~4年、6~8年和准16年的主周期,其中6~8年的主分量信号最强。在年代际尺度上,在1979年前后发生了由气温偏冷向偏暖的突变。热带西太平洋暖池(140°E~180°,10°S~10°N)是影响东北夏季气温的关键海域,那里前期冬季海表温度变化是预测东北夏季低温冷害的强信号。另一个关键海域是中纬西太平洋(130°E~180°,10~30°N),前期春季的海温变化也与东北夏季低温有较密切的联系。 相似文献
20.
Gridded monthly evaporation data for 1958–2006 from the Woods Hole Oceanographic Institution data set are used to investigate interannual variability of Mediterranean evaporation during cold and hot seasons and its relation to regional atmospheric dynamics, sea surface temperature and atmospheric elements of the hydrological cycle. The first EOF mode of Mediterranean evaporation, explaining more than 50% of its total variance, is characterized by the monopole pattern both in winter and summer. However, despite structural similarity, the EOF-1 of Mediterranean evaporation is affected by different climate signals in cold and hot seasons. During winter the EOF-1 is associated with the East Atlantic teleconnection pattern. In summer, there is indication of tropical influence on the EOF-1 of Mediterranean evaporation (presumably from Asian monsoon). Both in winter and summer, principal components of EOF-1 demonstrate clear interdecadal signals (with a stronger signature in summer) associated with large sea surface temperature anomalies. The results of a sensitivity analysis suggest that in winter both the meridional wind and the vertical gradient of saturation specific humidity (GSSH) near the sea surface contribute to the interdecadal evaporation signal. In summer, however, it is likely that the signal is more related to GSSH. Our analysis did not reveal significant links between the Mediterranean evaporation and the North Atlantic Oscillation in any season. The EOF-2 of evaporation accounts for 20% (11%) of its total variance in winter (in summer). Both in winter and summer the EOF-2 is characterized by a zonal dipole with opposite variations of evaporation in western and eastern parts of the Mediterranean Sea. This mode is associated presumably with smaller scale (i.e., local) effects of atmospheric dynamics. Seasonality of the leading modes of the Mediterranean evaporation is also clearly seen in the character of their links to atmospheric elements of the regional hydrological cycle. In particular, significant links to precipitation in some regions have been found in winter, but not in summer. 相似文献