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1.
Detection of urbanization signals in extreme winter minimum temperature changes over Northern China 总被引:2,自引:0,他引:2
Qingxiang Li Jiayou Huang Zhihong Jiang Liming Zhou Peng Chu Kaixi Hu 《Climatic change》2014,122(4):595-608
Although previous studies show that urbanization contributes to less than 10 % of the long-term regional total warming trend of mean surface air temperature in northeast China (Li et al. 2010), the urban heat island (UHI) impact on extreme temperatures could be more significant. This paper examines the urbanization impact on extreme winter minimum temperatures from 33 stations in North China during the period of 1957–2010. We use the Generalized Extreme Value (GEV) distribution to analyze the distribution of extreme minimum temperatures and the long-term variations of the three distributional characteristics parameters. Results suggest that among the three distribution parameters, the position parameter is the most representative in terms of the long-term extreme minimum temperature change. A new classification method based on the intercommunity (factors analysis method) of the temperature change is developed to detect the urbanization effect on winter extreme minimum temperatures in different cities. During the period of rapid urbanization (after 1980), the magnitude of variations of the three distribution parameters for the urban station group is larger than that for the reference station group, indicating a higher chance of occurrence of warmer weather and a larger fluctuation of temperatures. Among different types of cities, the three parameters of extreme minimum temperature distribution of the urban station group are, without exception, higher than those of the reference station group. The urbanization of different types of cities all show a warming effect, with small-size cities have the most evident effects on extreme minimum temperatures. 相似文献
2.
This study investigates the potential influences of anthropogenic forcings and natural variability on the risk of summer extreme temperatures over China.We use three multi-thousand-member ensemble simulations with different forcings(with or without anthropogenic greenhouse gases and aerosol emissions) to evaluate the human impact,and with sea surface temperature patterns from three different years around the El Ni ?no–Southern Oscillation(ENSO) 2015/16 event(years 2014,2015 and 2016) to evaluate the impact of natural variability.A generalized extreme value(GEV) distribution is used to fit the ensemble results.Based on these model results,we find that,during the peak of ENSO(2015),daytime extreme temperatures are smaller over the central China region compared to a normal year(2014).During 2016,the risk of nighttime extreme temperatures is largely increased over the eastern coastal region.Both anomalies are of the same magnitude as the anthropogenic influence.Thus,ENSO can amplify or counterbalance(at a regional and annual scale) anthropogenic effects on extreme summer temperatures over China.Changes are mainly due to changes in the GEV location parameter.Thus,anomalies are due to a shift in the distributions and not to a change in temperature variability. 相似文献
3.
北京地区夏季极端降水变化特征及城市化的影响 总被引:8,自引:2,他引:6
应用北京地区20站1971—2010年降水记录及城市发展数据,采用百分位方法定义极端降水事件的阈值,分析了北京地区夏季极端降水事件的时空变化特征及城市化的影响。结果表明:(1)北京夏季极端降水阈值及频数存在较强局地性特征,基本沿地形高度分布,极端降水频数多发区与高阈值区不完全对应;(2)近40年极端降水频率及强度均呈现下降趋势,年际及年代际差异显著;(3)城市化发展不同阶段极端降水强度及频数均有不同的分布形态,城市化对城市不同区域极端降水影响不一样,城市化导致城市下风向近郊区极端降水强度、次数均表现为增多趋势;(4)城市对极端降水的影响还与天气过程强度有关,强天气背景下城市对极端降水频数的影响程度高于对降水强度的影响。 相似文献
4.
着重论述极值统计分布在极端天气气候事件和重大工程设计中的重要意义,综述该领域国内外研究进展。例如,基于超门限峰值法(POT)的广义帕累托分布(GPD)和基于单元极大值法(BM)的广义极值分布(GEV)及其参数间的理论关系;采用极值分布模型与多状态一阶Markov链相结合构建降尺度模型模拟局地极端降水事件,推算一定重现期的极端降水量的分位数;探讨极值分布模型分位数估计误差问题,多维极值分布理论及其应用等问题。 相似文献
5.
本文选择天山开都河流域为研究区,基于巴音布鲁克和大山口2个水文站1957-2011年的日径流量观测资料,采用年最大值法(AM)抽取径流序列样本,用线性趋势法、Mann-Kendall趋势检验和Pettitt检验分析年最大日流量、春季最大日流量和夏季最大日流量序列的变化规律;并运用广义极值分布(GEV)对标准化的最大日流量序列进行拟合,分析洪水频率的变化特征。结果表明:提取的6个最大日流量序列均不存在明显的趋势性,且突变点不显著;其中巴音布鲁克站年最大日流量、春季最大日流量和大山口站年最大日流量序列近似服从Frechet分布,而大山口站春季最大日流量、夏季最大日流量和巴音布鲁克站夏季最大日流量序列则服从Gumbel分布。1980年代以来,开都河流域洪水的发生频次明显增加;巴音布鲁克站夏季洪水次数持续增加,大山口站春季和夏季洪水次数均呈增加趋势,且春季洪水出现时间均有所提前。春季显著升温与冬季降水增加,是春季融雪性洪水出现时间和水量变化的主要原因;而夏季降雨量和降雨频率显著增加,是夏季洪水形成与频率变化的主导因素。 相似文献
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7.
Using the hourly precipitation records of meteorological stations in Shanghai, covering a period of almost a century(1916–2014), the long-term variation of extreme heavy precipitation in Shanghai on multiple spatial and temporal scales is analyzed, and the effects of urbanization on hourly rainstorms studied. Results show that:(1) Over the last century, extreme hourly precipitation events enhanced significantly. During the recent urbanization period from 1981 to 2014, the frequency of heavy precipitation increased significantly, with a distinct localized and abrupt characteristic.(2) The spatial distribution of long-term trends for the occurrence frequency and total precipitation intensity of hourly heavy precipitation in Shanghai shows a distinct urban rain-island feature; namely, heavy precipitation was increasingly focused in urban and suburban areas.Attribution analysis shows that urbanization in Shanghai contributed greatly to the increase in both frequency and intensity of heavy rainfall events in the city, thus leading to an increasing total precipitation amount of heavy rainfall events. In addition,the diurnal variation of rainfall intensity also shows distinctive urban–rural differences, especially during late afternoon and early nighttime in the city area.(3) Regional warming, with subsequent enhancement of water vapor content, convergence of moisture flux and atmospheric instability, provided favorable physical backgrounds for the formation of extreme precipitation.This accounts for the consistent increase in hourly heavy precipitation over the whole Shanghai area during recent times. 相似文献
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9.
城市化对天津近60年平均温度和极端温度事件的增暖影响 总被引:1,自引:0,他引:1
基于天津均一化的逐日平均、最低和最高气温观测数据,以及利用天津区域自动站定时观测气温整合数据对城乡台站的划分结果,研究分析了天津地区1959~2000年、1959~2005年、1959~2012年、1959~2017年4个时段平均温度和极端温度事件的趋势特点及其变化幅度。结果表明,天津地区的气温增暖是毋庸置疑的,4个时段年平均气温增加幅度分别达1.35°C、1.65°C、1.71°C、2.05°C,其中,冬季上升幅度相对最大,分别为2.45°C、2.82°C、2.55°C、2.86°C。城市化导致的年平均气温增暖幅度在逐年增强,4个时段的增暖贡献分别达3.73%、3.71%、4.73%、5.17%,但对于冬季来说,乡村区域的增暖趋势幅度明显大于城市区域,这一特点在年和季节极端冷事件(TN10p、TX10p)和极端最低气温事件(TNn)中有明显表现。因此,在时间尺度上,城市化对天津地区的平均和极端温度增暖影响仍然是较为显著的,并且乡村区域的城市化进程相对城市区域更为突出。 相似文献
10.
未来情景下南水北调中线工程水源区极端降水分布特征 总被引:1,自引:0,他引:1
利用南水北调中线工程水源区9个气象站点1961-2008年的日降水资料和IPCC第四次评估报告多模式数据结果,抽取逐年的最大日降水量序列样本,运用广义极值分布(GEV)和广义帕累托分布 (GPD)两种极值统计模型对样本进行拟合,遴选出描述流域最大日降水量分布规律的最优概率模型,推算重现期对应的降水量值,并预估该流域极端降水事件在未来气候变化情景下的响应。研究表明:南水北调中线工程水源区降水极值均符合GEV和GPD分布,但GPD模型更适合用于描述该流域降水极值分布;未来气候变化情景下用GPD分布拟合的降水极值优于使用GEV分布;A2情景下极端降水事件的发生将更频繁、更强烈,A1B情景下次之,B1情景下相对较小,表明未来高排放气候情景对极端降水事件的影响比中、低排放情景大。 相似文献
11.
中国大陆地区小时极端降水阈值的计算与分析 总被引:3,自引:0,他引:3
利用广义极值分布和百分位两种阈值确定方法,对我国465个气象站点不同极端程度的小时降水强度阈值进行了分析。广义极值分布结果表明,重现期为2、5、10、50a的降水强度阈值具有一致的空间分布特征:华南沿海阈值最高,长江中下游地区北部、四川盆地西部、华北地区东部次之,云南中西部、华北西部和东北西部阈值相对更低,最小值出现在我国西部地区。百分位法得到的阈值空间分布呈现出与广义极值分布结果较为一致的东南大、西北小的整体特征。考察465站中位数发现,第99.9百分位的强度阈值与二年一遇降水的阈值接近。具体分析各站第99.9百分位降水阈值对应的重现期发现,长江流域及其以南地区重现期大多低于2a;35°N一带重现期长于4a;我国北方和西北部分地区重现期长于8a。 相似文献
12.
汉江流域极端水文事件时空分布特征 总被引:1,自引:0,他引:1
利用1960-2012年汉江流域15个气象站点的日降雨资料和3个水文站同时期日径流资料,分析了9个极端降雨指数的空间分布规律,运用广义极值分布(GEV)、Gamma分布两种极值统计模型对各站点的最大1 d降雨、最大3 d降雨极值样本进行拟合,遴选描述降雨极值分布规律最优概率模型,进而推算给定重现期下的降雨设计值,并分析其空间分布规律;选用Gumbel、Clayton和Frank这3种Copula函数建立降雨-洪量极值联合分布模型,优选最合适的Copula函数,由此计算给定重现期下的洪量设计值。结果表明:GEV分布模型能更好地模拟降雨极值序列,不同重现期下的降雨极值在空间上均呈西低东高的特征;3种Copula函数中,Frank Copula函数能更好地拟合降雨-洪量相关关系,由此推求的洪量设计值大于单变量拟合设计值。 相似文献
13.
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
14.
采用中国南方湖南、湖北、贵州、广西、江西和安徽6省近50 a 1月份降水和气温资料,运用正交函数分解法和SYM8小波分析了它们的时空分布特征,并对极端低温的区域均值进行了广义极值模型拟合,同时研究了降水与气温的相关性.结果表明,该地区1月份降水量主要有全区域分布型和南北分布型,极端低温主要有全区域分布型、南北分布型和东西分布型.1月份降水量的全区域总和以及南北部差值都有先增后减的趋势.全区域的极端低温缓慢增长,南北部的差值先减后增,东西部的差值在1975年以前递增,随后几乎趋于稳定.6省1月份极端低温区域均值服从Weibull分布,在95%置信水平下,预测50 a一遇和100 a一遇的极小值达-6.78 ℃和-7.41 ℃.1月份降水量与极端低温的相关不显著,与平均气温在局部地区为负相关. 相似文献
15.
Although the urban heat island (UHI) is a well-documented phenomenon, relatively little information in the literature is available about its impact on summer extreme heat event (EHE). As UHI is characterized by increased temperature, it can potentially increase the magnitude and duration of EHEs within cities. Based on daily maximum temperature records from 62 observation stations in Zhejiang province from the period 1971-2011 and satellite-measured nighttime light imagery from the Defense Meteorological Satellite Program (DMSP) Operational Linescan System (OLS) during 1992-2010, we analyzed the long-term change of summer EHEs and its association with the rapid urbanization process. The results could be concluded as follows: (1) Zhejiang has experienced rapid urbanization and dramatic growth in urban areas in the past two decades, especially after 2000. (2) The summer mean maximum temperature and the 95th percentile of summer daily maximum temperature in most of its stations have increased, with the most significant increase occurring in the highly urbanized areas including the city belt around Hangzhou Bay, Taizhou–Wenzhou and Jinghua–Yiwu city belts. (3) The hot days and hot-day degrees, defined by both daily 95th percentile and the threshold of 35℃, show that the UHI effect causes additional hot days and heat stress in urban stations compared to rural stations. The results in this study suggest that the UHI effect should be determined and incorporated in preparing high temperature forecasts in cities. 相似文献
16.
Bin LIU Zhenghui XIE Peihua QIN Shuang LIU Ruichao LI Longhuan WANG Yan WANG Binghao JIA Si CHEN Jinbo XIE Chunxiang SHI 《大气科学进展》2021,38(3):430-445
With economic development and rapid urbanization,increases in Gross Domestic Product and population in fastgrowing cities since the turn of the 21st Century have led to increases in energy consumption.Anthropogenic heat flux released to the near-surface atmosphere has led to changes in urban thermal environments and severe extreme temperature events.To investigate the effects of energy consumption on urban extreme temperature events,including extreme heat and cold events,a dynamic representation scheme of anthropogenic heat release(AHR)was implemented in the Advanced Research version of the Weather Research and Forecasting(WRF)model,and AHR data were developed based on energy consumption and population density in a case study of Beijing,China.Two simulations during 1999?2017 were then conducted using the developed WRF model with 3-km resolution with and without the AHR scheme.It was shown that the mean temperature increased with the increase in AHR,and more frequent extreme heat events were produced,with an annual increase of 0.02?0.19 days,as well as less frequent extreme cold events,with an annual decrease of 0.26?0.56 days,based on seven extreme temperature indices in the city center.AHR increased the sensible heat flux and led to surface energy budget changes,strengthening the dynamic processes in the atmospheric boundary layer that reduce AHR heating efficiency more in summer than in winter.In addition,it was concluded that suitable energy management might help to mitigate the impact of extreme temperature events in different seasons. 相似文献
17.
Stanley A. Changnon 《Climatic change》1999,42(3):531-538
A long-term set of deep soil temperature data collected over a 64-year period beginning in 1889 in a rural Illinois area provide a rare opportunity to assess the natural shifts in temperatures in a pristine environment without any urban or instrument bias. Temperatures from 1901 to 1951 increased 0.4 °C, and this was 0.2 °C less than nearby values from two high quality surface temperature data sets that supposedly are without any influence of urban heat islands, shifts in station locations or instrumentation, or other changes with time. Comparison of the soil values with surface air temperatures from a nearby weather station in a growing university community revealed a heat island effect of 0.6 °C. This value is larger than the adjustment based on population that has been recommended to eliminate the urban bias in long-term temperature trends in the U.S. Collectively, the results suggest that additional efforts may be needed to eliminate the urban influence on air temperatures, beyond techniques that simply use population as the basis. Population is only an approximation of urban factors affecting surface temperatures, and the heat island influences inherent in the values from weather stations in smaller communities which have been used as control, or data assumed to be unaffected by their urban environment in the adjustment procedures, have not been adequately accounted for. 相似文献
18.
应用均一化逐日气象观测资料,分析了北京地区1960—2008年气候变暖及主要极端气温指数的统计特征。结果表明:近49年来北京年平均气温增温速率约为0.39℃/10a,最高、最低气温变化具有明显的非对称性。霜冻日数和气温年较差呈现下降趋势,暖夜指数及热浪指数呈现上升趋势,除气温年较差外,其他极端气温指数的气候变率均在加大。北京年平均气温及极端气温指数主要存在21年、15~17年及准10年周期特征。年平均气温与极端气温指数之间存在较强相关性,气候变暖突变发生前后某些极端气温指数发生频率表现出明显差异。自1980年起,北京市区极端最高气温及其增温率明显高于近郊和远郊,高温日数市区多于近郊,近郊多于远郊;近、远郊极端最低气温温差高于城、近郊温差。 相似文献
19.
ON TEMPERATURE CHANGES OF SHANGHAI AND URBANIZATION IMPACTS 总被引:1,自引:1,他引:0
To understand how temperature varies in urban Shanghai under the background of global
climate change and how it is affected by urbanization, the Shanghai temperature responses to global
warming were analyzed, and then the temperature trends of urban and suburb stations under
different climatic backgrounds were obtained. The urbanization effects on temperature were studied
by comparing urban stations to suburb stations, the relationship between urbanization variables and
temperature components were obtained, and observation data of surface and high level were
combined to assess the contribution of urbanization effect. In the last part of the paper, the cause of
urbanization effects on temperature was discussed. The results indicated: The long term change
trend of Shanghai annual mean temperature is 1.31/100a from 1873 to 2004, the periods of 1921 –
1948 and 1979 – 2004 are warmer, and the 1979 – 2004 period is the warmest; compared to suburb
stations, the representative urban station has slower decreases in the cool period and faster increases
in the warm one; the urban and suburb temperatures have distinct differences resulting from
urbanization and the differences are increasing by the year, with the difference of mean temperature
and minimum temperature being the greatest in fall and that of maximum temperature being the
largest in summer between the urban and suburban areas. The urbanization process accelerates the
warming speed, with the minimum temperature being the most obvious; the urbanization effect
contributes a 0.4°C increase in 1980s and 1.1°C in 1990s to the annual mean temperature. 相似文献
20.
Urban impacts on precipitation 总被引:4,自引:0,他引:4
Ji-Young Han Jong-Jin Baik Hyunho Lee 《Asia-Pacific Journal of Atmospheric Sciences》2014,50(1):17-30
Weather and climate changes caused by human activities (e.g., greenhouse gas emissions, deforestation, and urbanization) have received much attention because of their impacts on human lives as well as scientific interests. The detection, understanding, and future projection of weather and climate changes due to urbanization are important subjects in the discipline of urban meteorology and climatology. This article reviews urban impacts on precipitation. Observational studies of changes in convective phenomena over and around cities are reviewed, with focus on precipitation enhancement downwind of cities. The proposed causative factors (urban heat island, large surface roughness, and higher aerosol concentration) and mechanisms of urban-induced and/or urban-modified precipitation are then reviewed and discussed, with focus on downwind precipitation enhancement. A universal mechanism of urban-induced precipitation is made through a thorough literature review and is as follows. The urban heat island produces updrafts on the leeward or downwind side of cities, and the urban heat island-induced updrafts initiate moist convection under favorable thermodynamic conditions, thus leading to surface precipitation. Surface precipitation is likely to further increase under higher aerosol concentrations if the air humidity is high and deep and strong convection occurs. It is not likely that larger urban surface roughness plays a major role in urbaninduced precipitation. Larger urban surface roughness can, however, disrupt or bifurcate precipitating convective systems formed outside cities while passing over the cities. Such urban-modified precipitating systems can either increase or decrease precipitation over and/or downwind of cities. Much effort is needed for in-depth or new understanding of urban precipitation anomalies, which includes local and regional modeling studies using advanced numerical models and analysis studies of long-term radar data. 相似文献