Characteristics of Extreme Temperature Event and Its Response to Regional Warming in Northwest China in Past 45 Years 被引量：17

Characteristics of Extreme Temperature Event and Its Response to Regional Warming in Northwest China in Past 45 Years

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摘要 Using the daily maximum and minimum temperature dataset from 128 stations from 1960 to 2004 in Northwest China,daily extreme high temperature(EHT)and extreme low temperature(ELT)thresholds were deter-mined by centesimal method for different stations at first,then yearly EHT and ELT events were counted up in differ-ent stations,and the characteristics of their spatio-temporal distribution were diagnosed at last.The study drew follow-ing conclusions:1)The consistent anomaly distribution characteristic was the most important mode of the EHT and ELT events in Northwest China.2)The spatial distribution of the EHT and ELT events can be divided into five sub-regions,namely,the north of Qinghai and west of Gansu,the north of Xinjiang,the south of Xinjiang,the east of Northwest China and the south of Qinghai.3)The EHT events showed remarkable increasing trend in all of five sub-regions,but only in the north of Qinghai and west of Gansu area,sudden change phenomenon occurred;the ELT events showed decreasing trend in all of five sub-regions,and sudden change phenomenon occurred in Northwest China except for south of Qinghai.4)In all of five sub-regions the EHT events showed remarkable 12-14yr period os-cillation,and the ELT event showed significant 13-15yr and 7-8yr period oscillation.5)The EHT and ELT events displayed remarkable positive and negative responses to regional warming of Northwest China respectively. Using the daily maximum and minimum temperature dataset from 128 stations from 1960 to 2004 in Northwest China, daily extreme high temperature （EHT） and extreme low temperature （ELT） thresholds were determined by centesimal method for different stations at first, then yearly EHT and ELT events were counted up in different stations, and the characteristics of their spatio-temporal distribution were diagnosed at last. The study drew following conclusions： 1） The consistent anomaly distribution characteristic was the most important mode of the EHT and ELT events in Northwest China. 2） The spatial distribution of the EHT and ELT events can be divided into five sub-regions, namely, the north of Qinghai and west of Gansu, the north of Xinjiang, the south of Xinjiang, the east of Northwest China and the south of Qinghai. 3） The EHT events showed remarkable increasing trend in all of five sub-regions, but only in the north of Qinghai and west of Gansu area, sudden change phenomenon occurred; the ELT events showed decreasing trend in all of five sub-regions, and sudden change phenomenon occurred in Northwest China except for south of Qinghai. 4） In all of five sub-regions the EHT events showed remarkable 12-14yr period oscillation, and the ELT event showed significant 13-15yr and 7-8yr period oscillation. 5） The EHT and ELT events displayed remarkable positive and negative responses to regional warming of Northwest China respectively.

作者 YANG Jinhu REN Chuanyou JIANG Zhihong

机构地区 Lanzhou institute of Arid Meteorology of China Meteorological Administration Key Laboratory of Arid Climate Change and Reducing Disaster of Gansu Province Key Laboratory of Arid Climate Change and Disaster Reduction of China Meteorological Administration Department of Atmospheric Science Department of Applied Meteorology

出处《Chinese Geographical Science》 SCIE CSCD 2008年第1期70-76,共7页 中国地理科学（英文版）

基金 Under the auspices of National Natural Science Foundation of China (No. 40375032,No. 40675043)

关键词中国西北地区极值温度气候 extreme temperature response to warming Northwest China

分类号 P46 [天文地球—大气科学及气象学]

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参考文献2

1马柱国,符淙斌,任小波,杨赤.中国北方年极端温度的变化趋势与区域增暖的联系[J].地理学报,2003,58(z1):11-20. 被引量：182
2翟盘茂,潘晓华.中国北方近50年温度和降水极端事件变化[J].地理学报,2003,58(z1):1-10. 被引量：860

二级参考文献21

1[1]IPCC, 2001: Climate change 2001: the science of climate change. Houghton J T, Y Ding, D J Griggs et al. (eds.),Contribution of Working Group I to the Third Assessment Report of the Intergovernmental Panel on Climate Change Cambridge: Cambridge University Press, United Kingdom and New York, NY, USA, 156-159.
2[3]Easterling D R, Evana J L, Grosman PYa et al. Observed variability and trends in extreme climate events: A brief review. Bull. Amer. Metor. Soc., 2000, 81: 417-425.
3[4]Bonsal B R, Zhang X B, Vincent L A et al. Characteristics of daily and extreme temperature over Canada. J. Climate,2001, 5(14): 1959-1976.
4[5]Frich P, Alexander L V, Della-Marta P M et al. Observed coherent changes in climatic extremes during the second half of the 20th century. Clim. Res., 2002, 19: 193-212.
5[6]Manton M J, Della-Marta P M, Haylock M R et al. Trend in extreme daily rainfall and temperature in Southeast Asia and the South Pacific: 1961-1998. Int. J. Climatol., 2001, 21: 269-284.
6[8]Zhai P M, A J Sun, F M Ren et al. Changes of climate extremes in China. Climate Change, 1999, 42(1): 203-218.
7[9]Groisman P, Karl T, Easterling D et al. Changes in the probability of extreme precipitation: important indicators of climate change. Climatic Change, 1999, 42: 243-283.
8[13]Folland C K, Miller C, Bader D et al. Workshop on Indices and Indicators for Climate Extremes, Asheville, NC,USA, 3-6 June 1997, Breakout Group C: Temperature Indices for Climate Extremes. Clim. Change, 1999, 42: 31-41.
9[14]Kendall M G, Gibbons J D. Rank Correlation Methods, 5th. London, UK: Edward Arnold, 1981. 320.
10[1]Changnon S A, Roger A, Pielke Jr et al. Human factors explain the increased losses from weather and climate extremes. Bull. of the Amer. Mete. Soci., 2000, 81(3): 437-442.

共引文献959

1曲美慧,涂钢,冯喜媛.1961-2019年东北地区作物生长不同阶段极端干期时空分布特征分析[J].自然灾害学报,2022,31(2):242-251. 被引量：2
2ZHANG Kexin,DAI Shengpei,DONG Xiaogang.Dynamic Variability in Daily Temperature Extremes and Their Relationships with Large-scale Atmospheric Circulation During 1960–2015 in Xinjiang, China[J].Chinese Geographical Science,2020,30(2):233-248. 被引量：2
3尹明丽,徐华君,赵国永,韩艳.1961-2016年黑龙江省极端气温事件变化特征[J].水土保持研究,2020,27(2):238-245. 被引量：4
4张克新,董小刚,廖空太,蒋志成,曹立国.1960-2017年黄河流域极端气温的季节变化特征及其与ENSO的相关性分析[J].水土保持研究,2020,27(2):185-192. 被引量：27
5马伟东,刘峰贵,周强,陈琼.青藏高原极端降水数据集(1961-2017)的研发与内容[J].全球变化数据学报（中英文）,2021,5(1):67-72. 被引量：1
6郭兴苗,李丽平,刘璞,朱杰,李芬.ECMWF极端降水指数对2016年夏季华东地区极端降水预报的检验[J].兰州大学学报（自然科学版）,2019,55(5):693-700. 被引量：1
7张天峰,车向军,王娟,何树洲,郭海英,冯建全.气候变化背景下提高气候资源利用率途径探讨——以甘肃省庆阳市为例[J].湖北农业科学,2022,61(S01):128-134.
8许吟隆,黄晓莹,张勇,林万涛,林而达.中国21世纪气候变化情景的统计分析[J].气候变化研究进展,2005,1(2):80-83. 被引量：158
9王春红,张讲社,延晓冬,秦旭.1961～2004年漠河年均温与持续极端气温频数的变化分析[J].气候与环境研究,2009,14(5):546-552. 被引量：3
10格桑,拉巴次仁,陈定梅.西藏1971～2008年最高最低气温时空变化及分布特征(英文)[J].Meteorological and Environmental Research,2010,1(4):52-55.

同被引文献283

1翟盘茂,潘晓华.中国北方近50年温度和降水极端事件变化[J].地理学报,2003,58(z1):1-10. 被引量：860
2马柱国,符淙斌,任小波,杨赤.中国北方年极端温度的变化趋势与区域增暖的联系[J].地理学报,2003,58(z1):11-20. 被引量：182
3周雅清,任国玉.城市化对华北地区最高、最低气温和日较差变化趋势的影响[J].高原气象,2009,28(5):1158-1166. 被引量：102
4刘颖杰,林而达.气候变暖对中国不同地区农业的影响[J].气候变化研究进展,2008,4(z1):51-55. 被引量：9
5翁笃鸣,高庆先,姚志国.CLIMATIC CHARACTERISTICS OF ATMOSPHERIC NET RADIATION OVER CHINA[J].Acta meteorologica Sinica,1997,11(2):246-254. 被引量：1
6杨修群,黄士松.外强迫引起的夏季大气环流异常及其机制探讨[J].大气科学,1993,17(6):697-702. 被引量：20
7严中伟,李兆元,王晓春.历史上10年—100年尺度气候跃变的分析[J].大气科学,1993,17(6):663-672. 被引量：52
8马波.历史时期河套地区的农业开发[J].古今农业,1991(1):56-64. 被引量：4
9江志红,李建平,屠其璞,张强.20世纪全球温度年代和年代际变化的区域特征[J].大气科学,2004,28(4):545-558. 被引量：16
10丁裕国,张耀存.降水气候特征的随机模拟试验[J].南京气象学院学报,1989,12(2):146-155. 被引量：18

引证文献17

1陈磊,王式功,尚可政,杨德保.中国西北地区大范围极端高温事件的大气环流异常特征[J].中国沙漠,2011,31(4):1052-1058. 被引量：22
2JIANG Dejuan,LI Zhi,WANG Qiuxian.Trends in Temperature and Precipitation Extremes over Circum-Bohai-Sea Region,China[J].Chinese Geographical Science,2012,22(1):75-87. 被引量：7
3丁婷,钱维宏.中国热浪前期信号及其模式预报[J].地球物理学报,2012,55(5):1472-1486. 被引量：16
4陈尚锋,陈文,魏科.Recent Trends in Winter Temperature Extremes in Eastern China and their Relationship with the Arctic Oscillation and ENSO[J].Advances in Atmospheric Sciences,2013,30(6):1712-1724. 被引量：31
5杨宝玲,杨婧,陈彦虎,方宁莲,何耀龙,金卫平.西北地区夏季极端高温异常特征及其成因[J].农业科学研究,2014,35(1):20-28. 被引量：6
6徐玮平,张杰,陈志恒.两类春季极端低温的年代际特征与欧亚环流异常关系对比[J].高原气象,2018,37(6):1655-1670. 被引量：8
7岳平,张强,韩涛,王小平,荐圣淇,杨金虎,张良,王胜,韩兰英.基于现代观测体系的雨养农业生态干旱特征及监测预警技术研究[J].中国科技成果,2016,0(18):26-28.
8张心萍,陈建宇,陈宏飞.气候变化下河套地区1960～2013年极端气温变化特征研究[J].江西农业学报,2017,29(5):86-93. 被引量：1
9王安乾,苏布达,王艳君,王国杰,黄金龙,赵成义.中国极端低温事件特征及其耕地暴露度研究[J].资源科学,2017,39(5):954-963. 被引量：9
10王安乾,苏布达,王艳君,黄金龙,温姗姗,姜彤.全球升温1.5℃与2.0℃情景下中国极端低温事件变化与耕地暴露度研究[J].气象学报,2017,75(3):415-428. 被引量：30

二级引证文献147

1齐四清,刘春晖,陈更,许才.极端温度条件对无线传感器通信可靠性影响的实验研究[J].中国测试,2021,47(S01):188-192.
2钱维宏.瞬变涡扰动法在极端天气事件预报中的应用[J].气象科技进展,2012,2(5):44-48. 被引量：4
3丑纪范.一个创新研究——大气数值模式变量的物理分解及其在极端事件预报中的应用[J].地球物理学报,2012,55(5):1433-1438. 被引量：8
4钱维宏.如何提高天气预报和气候预测的技巧?[J].地球物理学报,2012,55(5):1532-1540. 被引量：28
5陈文垲,乔春华,方泰惠,许惠琴.仙附、芪地强心口服液对实验性心衰血流动力学的影响[J].南京中医药大学学报,2000,16(1):37-39. 被引量：5
6张宗婕,钱维宏.中国冬半年区域持续性低温事件的前期信号[J].大气科学,2012,36(6):1269-1279. 被引量：26
7王国华,赵文智,刘冰,常学向,张智慧.河西走廊荒漠-绿洲蒸散对夏季高温天气响应的初步研究[J].干旱区研究,2013,30(1):173-181. 被引量：4
8王楠,李栋梁,张杰.黄河中上游季节内强降水的时间非均匀性特征及其对大气环流的响应[J].中国沙漠,2013,33(1):239-248. 被引量：13
9董满宇,王炳钦,廖剑宇,江源,邢开雄.近50年东江流域极端降水事件变化特征[J].资源科学,2013,35(3):521-529. 被引量：15
10钱维宏,于甜甜.大气变量物理分解法在极端温度事件前期信号提取中的应用[J].气象,2013,39(6):665-674. 被引量：8

1闫少锋,张金池,张波,王永平,俞红,闵俊杰,张增信.南京极值温度长期变化及其与平均温度的关系[J].气象与环境学报,2011,27(3):33-39. 被引量：7
2邓学友.萍乡市气象局历史资料综合处理系统简介[J].气象与减灾研究,2000,24(3):39-40.
3张茂.玛曲地区1998年4月28日强对流天气过程分析[J].青海气象,1998(4):10-11.
4蒲红铮,韩添丁,成鹏,李向应,焦克勤.天山南北坡流域气温时空变化特征[J].高原气象,2015,34(3):753-761. 被引量：6
5冰川[J].中国地理科学文摘,2001(3):17-18.
6闫岩.寻找地外文明[J].科学新闻,2011(12):64-65.
7欧洲拟建世界最大天文望远镜[J].国外科技动态,2006(12):2-2.
8BJORN CAREY.世界上最大的望远镜[J].科技新时代,2008(2):80-81.
9丁幼亮,王高新.Estimating extreme temperature differences in steel box girder using long-term measurement data[J].Journal of Central South University,2013,20(9):2537-2545. 被引量：5
10吴剑坤,高丽,乔林,陈静.基于T213集合预报的中国极端温度预报方法研究[J].气象科学,2015,35(4):438-444. 被引量：11

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