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1.
罗亚丽 《气候变化研究进展》2012,8(2):90-98
自1950年以来的观测证据表明,有些极端天气和气候事件已经发生了变化。全球尺度上,人为影响可能已经导致极端日最低和最高温度升高;由于平均海平面上升,人类活动可能已对沿海极端高水位事件的增加产生了影响;具有中等信度的是,人为影响已导致全球强降水增加;由于热带气旋历史记录的不确定性、缺乏对热带气旋与气候变化之间关联的物理机制的完整认识及热带气旋自然变率的程度,将可检测到的热带气旋活动变化归因于人为影响仅具有低信度。将单一的极端事件变化归因于人为气候变化具有挑战性。对极端事件变化预估的信度取决于事件的类型、区域和季节、观测资料的数量和质量、基本物理过程的认知水平及模式对其模拟的可靠性。 相似文献
2.
Summary Planning, design, construction and operation of lakeshore structures require information about the future likely extremes
of the lake levels at a given risk percentage. Alternative future likely synthetic sequences can be numerically generated
provided that the underlying generating mechanism of the lake level fluctuation phenomenon is identified. Simple linear and
periodic nonlinear models are used for modeling the deterministic part in the lake level records. Linear trend is eliminated
from the original lake level historic data by regression line technique. The nonlinear part needs two stages for its identification.
First Fourier series is applied to model interannual periodicities in the lake level fluctuation series and then monthly standardization
procedure is applied for seasonal periodic nonlinear component modeling. A second order Markov model is found suitable for
the remaining stochastic parts. The application of the methodology is presented for the Lake Van monthly level data in eastern
Turkey. Suitable models are identified and their parameters are estimated for trend, periodic and stochastic parts. Likely,
synthetic lake levels are generated by the stochastic model and hence lake level extreme values are depicted for the next
2, 6, 12, 24, 60 and 120 months with risk calculations. Such risk calculations take into account the stochastic characteristics
of the lake level fluctuations only. The deterministic parts as linear trends and periodicities are added to the stochastic
extreme events for the actual simulation of the lake levels. The model presented in this paper is not for time prediction
of future lake levels but rather for the simulation of possible equally likely extreme lake level value occurrences over any
desired future period.
Received April 22, 1998/Revised July 28, 1999 相似文献
3.
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
4.
应用基于GEV(Generalized Extreme Value)分布的平稳/非平稳极值概率模型,拟合中国区域489站自建站至2013年极端最高、最低温度和日最大降水量的年极值序列,并导出极值的重现水平及其变率随重现期和时间变化的一般表达式。着重分析了气候极值的"常态"(重现期为2年)与"极端态"(重现期为50年)的变化趋势及其线性变率的空间格局。详细探讨了极值的常态与极端态变化趋势相反的原因以及可能的影响。结果表明,极端最高温度在东部季风区普遍适用平稳模型;在其他地区更适用非平稳模型,其常态和极端态都以增温为主。极端最低温度在全国范围内普遍适用非平稳模型,其常态和极端态也都以增温为主,但在东北局部地区极端态呈现与常态相反的降温趋势。日最大降水量则在全国范围内普遍适用平稳模型。当GEV分布的尺度参数随时间变化时,与极值的常态相比,极端态的变率范围要大得多,并可能导致两者的变率异号的情形;尤其是当气候极值的常态日趋平缓而极端态却日益极端时,可能导致更为剧烈的灾害性天气。 相似文献
5.
观测序列的不均一性对估算北京和上海的平均温度与极端温度变化趋势的影响 总被引:19,自引:0,他引:19
根据北京和上海气象观测站的详细历史资料,修正了两站逐日温度序列的不均一性,并分析这种不均一性对长期气候变化趋势估计的影响。对北京序列,不同时期的主要修正幅度在-0.33-0.6℃;对上海序列则为-0.33-0.3℃。从逐日序列计算出年平均温度和年极端温度序列,并把修正之前和修正之后的序列趋势进行比较,修正之后的两站年平均温度序列自20世纪初起呈现出0.5℃/百年的变暖趋势,自20世纪60年代起这一趋势增强为2.0℃/百年。相比之下,上海的未修正资料显示出两倍于此的趋势;北京的未修正资料几乎没有长期趋势,而对近期的变暖趋势则高估了50%-30%。北京温度序列在20世纪40年代至70年代呈变冷趋势,极端事件的频率降低;此后又呈变暖趋势,极端事件的频率增加。上海温度极端事件的变化趋势基本呈相反趋。这意味着即使区域性平均温度变化一致,区域性强天气波动的变化趋势也会有所不同。 相似文献
6.
淮河流域水文极值预测模型研究 总被引:1,自引:0,他引:1
为探索气候变化影响下水文极值的非平稳性和预测方法,建立了水文极值非平稳广义极值(GEV)分布的统计预测模型。利用1952-2010年淮河上游流域累计面雨量和流量年最大值资料、同期500 hPa环流特征量资料以及17个CMIP5模式对环流特征量的模拟结果,筛选出对水文极值影响显著的年平均北半球极涡强度指数作为GEV分布参数的预测因子。分析了在RCP2.6、RCP4.5和RCP8.5情景下2006-2050年淮河上游流域水文极值对气候变化的响应。结果表明,10年以下与10年以上重现期的水文极值在非平稳过程中呈现前者下降而后者上升的相反变化趋势;多模型预测的集合平均在未来情景中均呈现上升趋势,情景排放量越大增幅越大,重现期越长增幅也越大。与极值的常态相比,极值的极端态更易受气候变化影响。 相似文献
7.
2016年汛期中国降水极端特征及与1998年对比 总被引:1,自引:0,他引:1
本文利用国家气象信息中心提供的1961—2016年全国2341个气象观测站日和小时降水量资料,分析了2016年中国汛期降水的极端特征,并与1998年进行比较。主要结论如下:2016年汛期全国平均降水量为1961年以来历史同期最多,共有140站汛期降水量突破1961年以来历史同期极大值,有112站出现历史次极大值,比1998年分别偏多54和47站。1998年降水极值主要出现在东北和长江中上游地区,2016年主要出现在华东地区,而且范围更加集中。共出现6972站次暴雨,其中大暴雨1251站次,为1961年以来最多。44次大范围暴雨过程持续时间达90 d,总体呈现“中间强、前后弱”的特征。有417站出现日降水量极端事件,其中88站突破历史纪录,创1961年以来新高;最大小时降水量共有113站突破历史极值,比1998年偏多29站。从空间分布来看,日降水量极端事件2016年主要位于华东和华北地区,1998年集中在中部地区;破纪录小时降水2016年主要在西部地区,而1998年东部地区更为突出。 相似文献
8.
2008年可能是自1850年开始有器测记录以来全球第10个最暖的年份,全球海面和陆面综合气温比1961-1990年的年平均高0.31℃,150 a来最热的10个年份都集中在最近12 a里,全球气候变暖的趋势仍在持续。北极的海冰面积在融化期降至自1979年卫星测量以来的第2个最低点;同时,2008年极端天气气候事件频发,世界许多地方出现了洪灾、持续性严重干旱、冰雪风暴、热浪和寒潮等;拉尼娜现象在2月份呈峰值状态,以后逐渐减弱至近中性状态;南极臭氧洞进一步增大。 相似文献
9.
Jose A. Marengo Matilde Rusticucci Olga Penalba Madeleine Renom 《Climatic change》2010,98(3-4):509-529
We analyze historical simulations of variability in temperature and rainfall extremes in the twentieth century, as derived from various global models run informing the Fourth Assessment Report of the Intergovernmental Panel on Climate Change (IPCC-AR4). On the basis of three indices of climate extremes, we compare observed and modeled trends in time and space, including the direction and significance of the changes at the scale of South America south of 10° S. The climate extremes described warm nights, heavy rainfall amounts and dry spells. The reliability of the GCM simulations is suggested by similarity between observations and simulations in the case of warm nights and extreme rainfall in some regions. For any specific extreme temperature index, minor differences appear in the spatial distribution of the changes across models in some regions, while substantial differences appear in regions in the interior of tropical and subtropical South America. The differences are in the relative magnitude of the trends. Consensus and significance are less strong when regional patterns are considered, with the exception of the La Plata Basin, where observed and simulated trends in warm nights and extreme rainfall are evident. 相似文献
10.
BCC_CSM1.1全球模式中极端气温变化的归因分析 总被引:1,自引:0,他引:1
利用1°×1°的ERA-Interim再分析资料和气候系统模式BCC_CSM1.1历史模拟(Historical)试验及气候归因试验(只考虑温室气体变化Historica1GHG试验和只考虑自然强迫变化的Historica1Nat试验)的结果,考查了BCC_CSM1.1模式对中国和全球陆地地区极端气温指数的模拟能力,并在此基础上分析了温室气体和自然强迫这两种外强迫的变化对极端气温变化的贡献。结果表明:BCC_CSM1.1可以对中国乃至全球陆地区域极端气温指数的气候态及其变化趋势进行合理模拟,主要偏差表现为模式对极端低温指数模拟值偏低,而对极端高温指数模拟值偏高。对于20世纪末极端气温指数的变化,只有考虑了温室气体变化的外强迫时,模式可以再现再分析资料中极端气温的变化趋势。这表明温室气体的变化对极端气温的变化有着关键性的影响。 相似文献
11.
1961—2008年淮河流域主汛期极端降水事件分析 总被引:1,自引:0,他引:1
利用淮河流域117个台站1961-2008年主汛期(6-8月)逐日降水资料,采用降水百分位数法划分极端降水阈值,建立极端降水事件时间序列;在此基础上揭示淮河流域极端主汛期降水事件时空演变特征。结果表明:淮河流域主汛期极端降水总量年际变化大,其强弱与旱涝格局基本对应。极端降水事件发生频次的多寡很大程度上影响着淮河流域主汛期降水量。一致性分布是淮河流域主汛期极端降水事件发生频次的最主要空间模态,其发生频次空间上可分为流域中东部、中北部、西南部、西北部及南部5个主要区域。极端降水事件总体上有增加趋势,特别是流域 相似文献
12.
This study was conducted using daily precipitation records gathered at 37 meteorological stations in northern Xinjiang, China, from 1961 to 2010. We used the extreme value theory model, generalized extreme value (GEV) and generalized Pareto distribution (GPD), statistical distribution function to fit outputs of precipitation extremes with different return periods to estimate risks of precipitation extremes and diagnose aridity–humidity environmental variation and corresponding spatial patterns in northern Xinjiang. Spatiotemporal patterns of daily maximum precipitation showed that aridity–humidity conditions of northern Xinjiang could be well represented by the return periods of the precipitation data. Indices of daily maximum precipitation were effective in the prediction of floods in the study area. By analyzing future projections of daily maximum precipitation (2, 5, 10, 30, 50, and 100 years), we conclude that the flood risk will gradually increase in northern Xinjiang. GEV extreme value modeling yielded the best results, proving to be extremely valuable. Through example analysis for extreme precipitation models, the GEV statistical model was superior in terms of favorable analog extreme precipitation. The GPD model calculation results reflect annual precipitation. For most of the estimated sites’ 2 and 5-year T for precipitation levels, GPD results were slightly greater than GEV results. The study found that extreme precipitation reaching a certain limit value level will cause a flood disaster. Therefore, predicting future extreme precipitation may aid warnings of flood disaster. A suitable policy concerning effective water resource management is thus urgently required. 相似文献
13.
Many analyses of the paleoclimate record include conclusions about extremes, with a focus on the unprecedented nature of recent climate events. While the use of extreme value theory is becoming common in the analysis of the instrumental climate record, applications of this framework to the spatio-temporal analysis of paleoclimate records remain limited. This article develops a Bayesian hierarchical model to investigate spatially varying trends and dependencies in the parameters characterizing the distribution of extremes of a proxy data set, and applies it to the site-wise decadal maxima and minima of a gridded network of temperature sensitive tree ring density time series over northern North America. The statistical analysis reveals significant spatial associations in the temporal trends of the location parameters of the generalized extreme value distributions: maxima are increasing as a function of time, with stronger increases in the north and east of North America; minima are significantly increasing in the west, possibly decreasing in the east, and exhibit no changes in the center of the region. Results indicate that the distribution varies as a function of both space and time, with tree ring density maxima becoming more extreme as a function of time and minima having diverging temporal trends, by spatial location. Results of this proxy-only analysis are a first step towards directly reconstructing extremal climate behavior, as opposed to mean climate behavior, by linking extremes in the proxy record to extremes in the instrumental record. 相似文献
14.
极端事件对人类系统的影响 总被引:1,自引:0,他引:1
在IPCC特别报告《管理极端事件和灾害风险,推进气候变化适应》中,极端天气气候事件对人类系统的影响是最重要的影响评估内容之一,其评估结果为:极端影响可能缘于极端天气气候事件,但也可能并非极端事件的后果。暴露度和脆弱性是灾害风险的重要决定因素;极端和非极端天气气候事件的严重程度和影响在很大程度上取决于对这些事件的脆弱性和暴露度水平;人居模式、城市化和社会经济状况的变化已经影响观测到的脆弱性和暴露度的变化趋势;无论在发达国家还是发展中国家,沿海人居环境均暴露于极端事件,并受其影响,如小岛屿国家和亚洲大三角洲地区;脆弱人口还包括难民、国内流离失所的人和那些生活在边远地区的人;极端事件将极大地影响与气候联系密切的部门,如水、农业、食物安全、健康和旅游业。 相似文献
15.
Climate Extremes: Selected Review and Future Research Directions 总被引:10,自引:0,他引:10
16.
Monitoring sea level changes 总被引:3,自引:0,他引:3
Vivien Gornitz 《Climatic change》1995,31(2-4):515-544
Future sea level rise arouses concern because of potentially deleterious impacts to coastal regions. These will stem not only from the loss of land through inundation and erosion, but also from increased frequency of storm floods, with a rising base level, even with no change in storm climatology, and from saltwater intrusion and greater amounts of waterlogging. Current sea level trends are important in formulating an accurate baseline for future projections. Sea level, furthermore, is an important parameter which integrates a number of oceanic and atmospheric processes. The ocean surface demonstrates considerable variability on diurnal, seasonal, and interannual time scales, induced by winds, storm waves, coastal upwelling, and geostrophic currents. Secular trends in sea level arise from changes in global mean temperature and also from crustal deformation on local to regional scales. The challenge facing researchers is how best to extract the climate signal from this noise.This paper re-examines recent estimates of sea level rise, discusses causes of variability in the sea level records, and describes methods employed to filter out some of these contaminating signals. Evidence for trends in long-term sea level records and in extreme events is investigated. Application of satellite geodesy to sea level research is briefly reviewed. 相似文献
17.
Mark W. Shephard Eva Mekis Robert J. Morris Yang Feng Xuebin Zhang Karen Kilcup 《大气与海洋》2014,52(5):398-417
Short-duration (5 minutes to 24 hours) rainfall extremes are important for a number of purposes, including engineering infrastructure design, because they represent the different meteorological scales of extreme rainfall events. Both single location and regional analyses of the changes in short-duration extreme rainfall amounts across Canada, as observed by tipping bucket rain gauges from 1965 to 2005, are presented. The single station analysis shows a general lack of a detectable trend signal, at the 5% significance level, because of the large variability and the relatively short period of record of the extreme short-duration rainfall amounts. The single station 30-minute to 24-hour durations show that, on average, 4% of the total number of stations have statistically significant increasing amounts of rainfall, whereas 1.6% of the cases have significantly decreasing amounts. However, regional spatial patterns are apparent in the single station trend results. Thus, for the same durations regional trends are presented by grouping the single station trend statistics across Canada. This regional trend analysis shows that at least two-thirds of the regions across Canada have increasing trends in extreme rainfall amounts, with up to 33% being significant (depending on location and duration). Both the southwest and the east (Newfoundland) coastal regions generally show significant increasing regional trends for 1- and 2-hour extreme rainfall durations. For the shortest durations of 5–15 minutes, the general overall regional trends in the extreme amounts are more variable, with increasing and decreasing trends occurring with similar frequency; however, there is no evidence of statistically significant decreasing regional trends in extreme rainfall amounts. The decreasing regional trends for the 5- to 15-minute duration amounts tend to be located in the St. Lawrence region of southern Quebec and in the Atlantic provinces. Additional analysis using criteria specified for traditional water management practice (e.g., Intensity-Duration-Frequency (IDF)) shows that fewer than 5.6% and 3.4% of the stations have significant increasing and decreasing trends, respectively, in extreme annual maximum single location observation amounts. This indicates that at most locations across Canada the traditional single station IDF assumption that historical extreme rainfall observations are stationary (in terms of the mean) over the period of record for an individual station is not violated. However, the trend information is still useful complementary information that can be considered for water management purposes, especially in terms of regional analysis. 相似文献
18.
极端天气气候事件监测与预测研究进展及其应用综述 总被引:8,自引:2,他引:6
极端天气气候事件(简称"极端事件")分为单站极端事件和区域性极端事件。本文回顾了极端事件的研究进展,首先回顾了单站极端温度、极端降水和干旱事件的观测研究及相关指数,进而对近年来不断增多的区域性极端事件研究做了简要回顾,最后还回顾了极端事件气候预测研究进展。同时,对国内外在极端事件气候监测和预测业务现状进行了初步总结,并指出:在极端事件气候监测方面中国的业务产品较丰富,并率先开展了针对区域性极端事件的监测业务,但在产品表现形式上缺乏统一组织,特别是英文产品表现力严重不足;在极端事件气候预测方面,国家气候中心发展了两种方法:一个是基于物理统计的BP-CCA和OSR的干旱预测方法,另一个基于国家气候中心月动力延伸预报模式(DERF)的高温预测方法。最后,对极端事件监测和预测业务发展及相关科学问题给出展望,指出应根据极端事件的业务需求继续加强相关研究和业务能力建设。 相似文献
19.
Potential changes in precipitation extremes in July–August over China in response to CO 2 doubling are analyzed based on the output of 24 coupled climate models from the Twentieth-Century Climate in Coupled Models (20C3M) experiment and the 1% per year CO 2 increase experiment (to doubling) (1pctto2x) of phase 3 of the Coupled Model Inter-comparison Project (CMIP3). Evaluation of the models’ performance in simulating the mean state shows that the majority of models fairly reproduce the broad spatial pattern of observed precipitation. However, all the models underestimate extreme precipitation by ~50%. The spread among the models over the Tibetan Plateau is ~2–3 times larger than that over the other areas. Models with higher resolution generally perform better than those with lower resolutions in terms of spatial pattern and precipitation amount. Under the 1pctto2x scenario, the ratio between the absolute value of MME extreme precipitation change and model spread is larger than that of total precipitation, indicating a relatively robust change of extremes. The change of extreme precipitation is more homogeneous than the total precipitation. Analysis on the output of Geophysical Fluid Dynamics Laboratory coupled climate model version 2.1 (GFDL-CM2.1) indicates that the spatially consistent increase of surface temperature and water vapor content contribute to the large increase of extreme precipitation over contiguous China, which follows the Clausius–Clapeyron relationship. Whereas, the meridionally tri-polar pattern of mean precipitation change over eastern China is dominated by the change of water vapor convergence, which is determined by the response of monsoon circulation to global warming. 相似文献
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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