近55年来江苏省气候灾害时空变化特征分析
摘要:随着全球气候变化,极端灾害事件发生的频率不断增加,人们的生产生活受到了重大影响。本文基于江苏省13个气象站点1960-2014年数据,利用Mann-Kendall检验以及克里金插值分析了气候灾害(低温、高温、极端降水和干旱)的时空变化规律。结果表明:1)高温灾害日趋严重,高温强度(TXX)、暖昼日数(TX90p)和热日持续指数(WSDI)增加趋势分别为0。036ºC/年、0。108d/年和0。111d/年;2)极端低温有所减少,冷夜日数(TN10p)和冷日持续指数(CSDI)均呈下降趋势,变化幅度分别-0。219d/年和-。0。555d/年;3)降水不断减少,尤其以大雨日数(R20)减少最为显著;4)江苏省各地区均有干旱迹象,但趋势不显著。该研究是对江苏省气象灾害时空规律的有益尝试,可以为江苏省防灾减灾工程提供一定的帮助。91087
毕业论文关键词:气候灾害,Mann-Kendall检验,克里格插值,江苏省
Abstract:The frequency of climatic Disaster is increasing under the background of climate change, which leads to a significant impact on production and livelihood。
Based on meteorological data by the China Meteorological Administration at 13 meteorological stations in the Jiangsu province from 1960 to 2014, variation characteristics and space distribution of climatic disaster have been analyzed using
Mann Kendall test and Kriging interpolation。 The results indicated that:1) Disaster of
high temperature is gradually becoming more and more serious; Max Tmax (TXX)、 Warm days(TX90p) and Warm spell duration indicator (WSDI) changes most significantly, increasing by 0。036ºC/year、0。108d/year and 0。111d/year; 2) Cool nights
(TN10p)and Cold spell duration indicator (CSDI) had a slow downward trend, with magnitude of -0。219d/year and -0。555d/year, respectively; 3) Precipitation extremes were observed decreasing trend, especially for heavy precipitation days (R20); 4) The drought has a increase trend, but those change is insignificant。 This study is of great significance for us to grasp the features of present climatic disasters, and also has important significance to disaster prevention and reduction in Jiangsu province。
Keyword:climate disasters, Mann-Kendall Test, Kriging Interpolation , Jiangsu province
目 录
1前言 5
2研究区域概况 5
3数据来源与研究方法 6
3。1数据来源 6
3。2研究方法 7
3。2。1Mann-Kendall检验 7
3。2。2克里格插值 8
4结果分析 8
4。1高温时空变化特征 8
4。2低温时空变化特征 11
4。3极端降水时空变化特征 13
4。4干旱时空变化特征 14
结论 17
参考文献 18
致 谢 20
1前言
近年来,由于人类活动、气候变化等因素的综合影响,极端气候事件频繁发
海陆表面平均温度呈上升趋势,2003-2012年比1850-1990年的平均温度平均升高了0。78℃,且1983年到2012年是世界在过去1400年以来最热的30年[2]。因此研究气候变化背景下极端气候灾害时空变化特征对防灾减灾工程有着不可或缺的意义。来自优I尔Y论S文C网WWw.YoueRw.com 加QQ7520~18766