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1.
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
2.
石家庄极端冷暖天气气候事件及其与气候变暖 总被引:9,自引:2,他引:9
用石家庄市1955~2002年逐日气温资料,取其第95个和第5个百分位值作为确定极端高(低)温日的阈值来检测极端冷暖事件。对发生在2002年的极端冷暖事件进行检测分析证明,上述方法能比较有效地检测极端冷暖事件的发生。计算气温趋势变率表明,石家庄气候有明显的增暖趋势,随气候变暖夏季持续性强高温和破记录高温事件的出现频次增加;寒冷期趋于缩短;极端冷日趋于减少,极端暖日趋于增加。用季极端冷(暖)日数与气温求取相关的方法,分析各季极端冷暖事件与气候变暖的联系发现,气候变暖对冬季极端冷日减少的影响最甚。城市化效应使城市变暖趋势速率高于郊区,尤以最低气温表现明显;暖事件增多、冷事件减少的趋势速率也是城市高于郊区,且冷事件减少速率高于暖事件增多速率。在气候变暖背景下应特别重视冬季冷事件减少给人类带来的潜在影响。 相似文献
3.
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
4.
利用1970—2020年海南岛18个气象站点逐日气温资料和数字高程数据,选取12个适用于研究区的极端气温指数,结合气候倾向率、相关分析等方法,分析了海南岛近51 a极端气温事件时空分布特征,并探讨极端气温事件与海拔、区域的关系。结果表明:近51 a海南岛极端气温冷事件(霜日日数、冷夜日数、冷昼日数、冷持续日数)呈减少趋势,极端气温暖事件(夏日日数、暖夜日数、暖昼日数、热持续日数)呈增加趋势,且增加幅度明显大于冷事件减少的幅度,极端低温阈值和高温阈值、日最高温极小值和极大值以及日最低温极小值和极大值均存在升温倾向,升温幅度在0.25~0.47℃/(10 a)之间;极端气温冷事件的变化趋势与海拔存在显著负相关关系,极端气温暖事件的变化趋势与海拔相关性较小;各极端气温指数在海南岛不同地区变化趋势的方向一致,但变化幅度的空间差异性较大,大部分极端气温指数在中部山区变化最明显,极端低温、高温阈值、霜日日数和夏日日数在南部地区变化幅度小于其他地区。 相似文献
5.
根据1961-2010年天津市逐日气象要素,包括平均温度、最高温度、最低温度、相对湿度以及风速,采用统计学方法分析了近50 a天津市的冷暖度日变化以及冬季采暖期和夏季空调期的气候变化特征,探讨了冷暖度日、舒适日数与区域气候变化之间的关系。结果表明:近50 a天津市冷暖度日具有相反的变化趋势,暖度日(HDD)显著下降、冷度日(CDD)显著上升,且暖度日的变化幅度大于冷度日,变化主要集中于80年代之后。冷暖度日与极端温度之间具有显著相关性。采暖期低温日数呈下降趋势、空调期高温日数呈上升趋势。采暖期冷不舒适日数呈显著下降趋势,夏季空调期热不舒适日数呈显著上升趋势,与同期平均气温之间存在显著性相关,且不舒适气候的随机性呈增多趋势。说明在气候变暖背景下,区域气候变化对天津市采暖期和夏季空调期具有重要影响。 相似文献
6.
山东省极端气温事件的时空变化特征 总被引:1,自引:0,他引:1
根据1971—2013年山东省14个气象站点的逐日最高和最低气温资料,计算了6个极端气温指数,采用线性倾向率、M-K突变检验、EEMD、反距离加权插值和相关分析等方法对山东省极端气温事件的时空变化特征及其与西太平洋副高环流变化的关系进行了分析。结果表明:(1)冷暖指数变化趋势的方向和大小均表现出明显的不对称性,暖(冷)指数表现为上升(下降)趋势显著。冷暖指数表现出准2年和准5~7年的年际尺度波动,准10~15年和准20~28年的年代际尺度波动。(2)暖(冷)指数均表现为全区一致的增加(减少)趋势;除高温日数外,倾向率的空间分布总体上表现出东部和中部地区变化趋势较大,西部地区变化趋势较小。(3)极端气温事件的突变与气温突变具有较好的同步性,均在20世纪80年代末90年代初,表明极端气温指数的变化与区域性增暖有密切联系。(4)极端气温事件(除高温日数)的变化深受西太平洋副高变化的影响,西伸脊点、强度和面积指数变化的影响尤其显著。 相似文献
7.
利用美国NCEP全球集合预报系统(GEFS)历史回算资料和中国均一化格点观测数据,分析了我国近30 a来极端温度变化特征,重点考察了该模式预报系统对这一变化特征的刻画性能。通过估算格点观测和模式资料中2 m温度的历史气候百分位,分析了我国冬夏两季极端温度的气候特征以及极端温度日数的气候分布和多年变化趋势。结果表明,我国冬季极端低温和夏季极端高温的空间分布表现出较强区域性特征:东北、华北和青藏高原区域冬季极端低温的百分位阈值对应的温度较低,而华南、西北和长江流域夏季极端高温的阈值温度则较高;近30 a来我国夏季平均温度和极端高温日数几乎都呈现上升趋势,冬季平均温度则在我国大部分区域呈上升趋势、西北和东北部分地区呈下降趋势,相应地冬季极端低温日数在大部分区域呈下降趋势、仅在西北、东北和华南部分地区略有上升。NCEP-GEFS回算资料能较好地再现我国冬夏两季平均气温、冬季极端低温和夏季极端高温日数的气候趋势和年际变化,但在各区域都有不同程度的冷偏差,冬季偏差明显大于夏季,并随着预报时长的增加,冬季冷偏差逐渐增强,而夏季冷偏差则逐渐减弱。因此,本文建议采用基于百分位阈值的相对极端性定义,可自动修正模式分析场和预报场中的系统性偏差。 相似文献
8.
极端温度事件不仅影响人类健康,而且易造成重大社会经济损失,是引起重大气候灾害的原因之一。对于易受气候变化影响的高敏感地区来说,确定区域气候对不同程度全球变暖的响应至关重要。本文基于区域气候降尺度试验-东亚区域(CORDEX-EAS)数据集,预估了1.5 ℃和2.0 ℃全球升温水平(Global Warming Levels,GWLs)下成渝经济区及周边地区极端温度的未来变化趋势。结果表明:成渝经济区及周边地区极端高温指数在两种升温水平下均呈现明显上升趋势,而极端低温指数呈现下降趋势。极端冷暖事件具有局部对称性特征,极端暖事件的变化幅度要大于极端冷事件的变化幅度。极端温度指数对两种升温水平的响应具有差异性,除气温日较差外,其他指数的变化幅度在2.0 ℃GWL下大于在1.5 ℃GWL下。此外,随着全球平均升温幅度的增大,未来极端温度事件的强度和发生频率也会相应提升,极端温度事件对额外0.5 ℃的GWL升温阈值具有高度敏感性。本文研究了1.5 ℃和2.0 ℃GWLs下成渝经济区及周边地区极端温度的未来演变,再次强调了将全球平均升温幅度限制在1.5 ℃以内的重要性。 相似文献
9.
土壤湿度年际变化对中国区域极端气候事件模拟的影响研究 I. 基于CAM3.1的模式评估 总被引:6,自引:2,他引:4
利用NCAR大气模式CAM3.1对中国区域近40年的极端气候事件进行了模拟试验;在此基础上, 利用1961~2000年中国区域452站的逐日最高、最低气温和降水资料, 从气候平均、年际变化和长期变化趋势等方面全面评估了该模式对中国极端气候事件的模拟能力。结果表明:(1)模式对中国区域极端气候指数气候平均态的大尺度空间分布特征具有一定的模拟能力;模式对极端降水指标空间分布的模拟能力较好, 而对极端气温指标的模拟较差;模式对极端气候指标的模拟存在系统性的偏差, 模拟的极端降水的系统性偏差要远大于对极端温度的模拟。(2)模式对极端气温指数的年际变化特征具有较强的模拟能力, 而对极端降水指数的年际变化基本没有模拟能力;模式模拟的各极端降水指标的年际变幅与观测存在较大的偏差。(3)模式较好地模拟出了暖夜和暖昼指数在中国大部分区域的增加趋势, 但变幅较实测偏小;模式对热浪持续指数长期趋势的模拟则相对略差。模式对极端气温指标长期趋势的模拟能力总体优于对极端降水指标的模拟。模式对极端降水频次和中雨日数长期趋势的模拟尚可, 但对持续湿期长期趋势的空间分布模拟较差。研究结果可为该模式用于极端气候的模拟研究提供一定参考。 相似文献
10.
基于T213集合预报的中国极端温度预报方法研究 总被引:4,自引:0,他引:4
基于中国T213集合预报系统资料,根据Anderson-Darling检验原理,研究基于集合预报与模式历史预报累积概率密度(简称模式气候)分布函数连续差异特征的极端温度天气预报方法,建立极端温度天气预报指数(Extreme Temperature Forecast Index, 简称EFI)的数学模型。利用S指数评分方法确定发布极端温度预警信号的阈值,得出:1月的发布极端高温的预警信号的阈值为0.7或0.8,发布极端低温的预警信号的阈值为-0.7或-0.8。基于EFI指数以及该阈值,对2013年1月中国极端温度天气进行预报试验,得出:极端天气预报指数对极端温度天气具有较好的识别能力,可提前3~7 d发出极端温度预警信号,随着预报时效的延长,预报技巧逐渐降低。 相似文献
11.
利用卫星遥感资料对安徽省46个台站进行分类,统计分析了城市站、郊区站和乡村站1961-2010年的极端气温指数的年和季节的变化趋势及其受城市化的影响和贡献。结果表明:1) 近50年来,除最高气温年极大值外,其他气温年极值都有明显上升趋势,以最低温度极小值最显著;暖日、暖夜天数呈增加趋势,而冷日、冷夜天数呈减少趋势,其中暖夜和冷夜变化趋势更明显;各极端指数的变化趋势总体均表现为城市站较乡村站更显著,郊区站介于两者之间。2) 城市站最高气温极大值、最低气温极大值和最低气温极小值因城市化造成的增温分别为0.144、0.184和0.161℃/10a,增温贡献率分别达100.0%、58.8%和21.6%,但城市化对最高气温极小值影响较弱;季节尺度的城市化影响基本都造成增温,春、秋季更明显,而增温贡献率以春、夏季更明显,冬季最小或不显著。3) 城市化效应使暖日和暖夜天数增加、冷夜天数减少的趋势更加显著,城市化影响贡献率都在40%以上;暖日、暖夜和冷夜天数的城市化影响贡献率都在冬季最小或不显著。 相似文献
12.
Kumar Naresh Jaswal A. K. Mohapatra M. Kore P. A. 《Theoretical and Applied Climatology》2017,129(3-4):1227-1239
Spatial and temporal variations in summer and winter extreme temperature indices are studied by using daily maximum and minimum temperatures data from 227 surface meteorological stations well distributed over India for the period 1969–2012. For this purpose, time series for six extreme temperature indices namely, hot days (HD), very hot days (VHD), extremely hot days (EHD), cold nights (CN), very cold nights (VCN), and extremely cold nights (ECN) are calculated for all the stations. In addition, time series for mean extreme temperature indices of summer and winter seasons are also analyzed. Study reveals high variability in spatial distribution of threshold temperatures of extreme temperature indices over the country. In general, increasing trends are observed in summer hot days indices and decreasing trends in winter cold night indices over most parts of the country. The results obtained in this study indicate warming in summer maximum and winter minimum temperatures over India. Averaged over India, trends in summer hot days indices HD, VHD, and EHD are significantly increasing (+1.0, +0.64, and +0.32 days/decade, respectively) and winter cold night indices CN, VCN, and ECN are significantly decreasing (−0.93, −0.47, and −0.15 days/decade, respectively). Also, it is observed that the impact of extreme temperature is higher along the west coast for summer and east coast for winter.
相似文献13.
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
14.
Assessment of climate extremes in the Eastern Mediterranean 总被引:4,自引:0,他引:4
Summary Several seasonal and annual climate extreme indices have been calculated and their trends (over 1958 to 2000) analysed to identify possible changes in temperature- and precipitation-related climate extremes over the eastern Mediterranean region. The most significant temperature trends were revealed for summer, where both minimum and maximum temperature extremes show statistically significant warming trends. Increasing trends were also identified for an index of heatwave duration. Negative trends were found for the frequency of cold nights in winter and especially in summer. Precipitation indices highlighted more regional contrasts. The western part of the study region, which comprises the central Mediterranean and is represented by Italian stations, shows significant positive trends towards intense rainfall events and greater amounts of precipitation. In contrast, the eastern half showed negative trends in all precipitation indices indicating drier conditions in recent times. Significant positive trends were revealed for the index of maximum number of consecutive dry days, especially for stations in southern regions, particularly on the islands.Current affiliation: National Observatory of Athens, Athens, Greece. 相似文献
15.
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
16.
Recent trends in observed temperature and precipitation extremes in the Yangtze River basin,China 总被引:14,自引:1,他引:14
Summary The present study is an analysis of the observed extreme temperature and precipitation trends over Yangtze from 1960 to 2002
on the basis of the daily data from 108 meteorological stations. The intention is to identify whether or not the frequency
or intensity of extreme events has increased with climate warming over Yangtze River basin in the last 40 years. Both the
Mann-Kendall (MK) trend test and simple linear regression were utilized to detect monotonic trends in annual and seasonal
extremes.
Trend tests reveal that the annual and seasonal mean maximum and minimum temperature trend is characterized by a positive
trend and that the strongest trend is found in the winter mean minimum in the Yangtze. However, the observed significant trend
on the upper Yangtze reaches is less than that found on the middle and lower Yangtze reaches and for the mean maximum is much
less than that of the mean minimum. From the basin-wide point of view, significant increasing trends are observed in 1-day
extreme temperature in summer and winter minimum, but there is no significant trend for 1-day maximum temperature. Moreover,
the number of cold days ≤0 °C and ≤10 °C shows significant decrease, while the number of hot days (daily value ≥35 °C) shows
only a minor decrease. The upward trends found in the winter minimum temperature in both the mean and the extreme value provide
evidence of the warming-up of winter and of the weakening of temperature extremes in the Yangtze in last few decades.
The monsoon climate implies that precipitation amount peaks in summer as does the occurrence of heavy rainfall events. While
the trend test has revealed a significant trend in summer rainfall, no statistically significant change was observed in heavy
rain intensity. The 1-day, 3-day and 7-day extremes show only a minor increase from a basin-wide point of view. However, a
significant positive trend was found for the number of rainstorm days (daily rainfall ≥50 mm). The increase of rainstorm frequency,
rather than intensity, on the middle and lower reaches contributes most to the positive trend in summer precipitation in the
Yangtze. 相似文献
17.
Spatial and temporal characteristics of temperature extremes have been investigated in Huang-Huai-Hai (HHH) region based on the daily series of temperature observations from 162 meteorological stations. A total of 11 indices were used to assess the changes of temperature pattern. Linear trend analyses revealed that the daily maximum temperature (TXx) increased at α = 0.05 level with a magnitude of 0.15 °C per decade on the regional scale during the period of 1961–2014. More pronounced warming trend of the daily minimum temperature (TNn) was detected at a rate of 0.49 °C per decade (α = 0.01 level). Consequently, a decreasing trend of the temperature range of TXx and TNn (extreme temperature range) was observed. The frequency of hot days (TXf90) and annual average of warm events (warm spell duration indicator, WSDI) showed significant increasing trends, while that of cold nights (TNf10) and cold events (cold spell duration indicator, CSDI) showed opposite behaviors. Both warm winter (W-W) and hot summer (H-S) series displayed significant increasing trends at α = 0.01 confidence level. The cold winter (C-W) series showed a decreasing trend at α = 0.01 confidence level, while the cool summer (C-S) series showed a nonsignificant decreasing trend that is not passing the 90% confidence level (α = 0.1). Abrupt increments of warmrelated extremes (TXx, TXf90, WSDI) have been detected since 1990s, and a steadily decreasing trend of cold related extremes (TNf10, CSDI) was found since 1970s. Ten hot summers out of 11 and nine warm winters out of 10 occurred after 1990s. Altitude has a large impact on spatial pattern of extreme temperature indices, and the urban heat island effect also has an impact on amplitude of variation in extreme temperature. Trend magnitudes are significantly larger at sites with high altitudes for warmrelated indices (TXx, TXf90, WSDI), while those involving cold-related indices (TNn, TNf10) are remarkably larger for stations with low altitudes. 相似文献
18.
Daily precipitation series at 15 stations in the Beijing metropolitan region (BMR) during 1960-2012 were homogenized using the multiple analysis of series for homogenization method, with additional adjustments based on analysis of empirical cumulative density function (ECDF) regarding climate extremes. The cumulative density functions of daily precipitation series, the trends of annual and seasonal precipitation, and summer extreme events during 1960-2012 in the original and final adjusted series at Beijing station were comparatively analyzed to show the necessity and efficiency of the new method. Results indicate that the ECDF adjustments can improve the homogeneity of high-order moments of daily series and the estimation of climate trends in extremes. The linear trends of the regional-mean annual and seasonal (spring, summer, autumn, and winter) precipitation series are -10.16, 4.97, -20.04, 5.02, and -0.11 mm (10 yr)-1, respectively. The trends over the BMR increase consistently for spring/autumn and decrease for the whole year/summer; however, the trends for winter decrease in southern parts and increase in northern parts. Urbanization affects local trends of precipitation amount, frequency, and intensity and their geographical patterns. For the urban-influenced sites, urbanization tends to slow down the magnitude of decrease in the precipitation and extreme amount series by approximately -10.4% and -6.0%, respectively; enhance the magnitude of decrease in precipitation frequency series by approximately 5.7%; reduce that of extremes by approximately -8.9%; and promote the decreasing trends in the summer intensity series of both precipitation and extremes by approximately 6.8% and 51.5%, respectively. 相似文献
19.
利用信阳气象站1961-2013年的观测资料计算逐日人体舒适度指数(CIHB),运用线性倾向估计、滑动平均和滑动标准差,分析了信阳CIHB的变化趋势,以及舒适日数变化趋势。在此基础上,运用R/S分析法对CIHB及舒适日数变化趋势进行了预测。结果表明:1)信阳的年均CIHB呈显著上升趋势,线性趋势为0.016/a。春、冬季的平均CIHB呈显著上升趋势,且趋势强度相当。秋季平均CIHB虽呈上升趋势,但趋势不显著。夏季平均CIHB呈显著下降趋势。冬季CIHB标准差总体上没有明显的增大或减小趋势,夏季CIHB标准差不断减小,表明信阳出现极端天气气候事件的概率没有增加。2)信阳舒适日数呈显著增加趋势,达0.359天/a,冷、热日数呈减少趋势,趋势强度冷日数的大于热日数的。3)通过R/S分析,年、季平均CIHB具有长期相关的特征,未来的年及春、秋、冬季平均CIHB将继续上升,夏季平均CIHB将继续下降。年舒适日数具有长期相关的特征,未来年舒适日数仍将增加,年冷、热日数继续减少。 相似文献