近56年巢湖流域降水特征及其对旱涝灾害的影响
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摘要
通过1957—2012年巢湖流域56a间的9个气象站的降水数据,基于趋势分析、Mann-Kendall突变检验、小波分析和标准化降水指数分析等方法,对巢湖流域降水特征和降水趋势进行了研究。结果表明:56a间巢湖流域年降水量呈显著增加的趋势,线性增加率为28.09mm/10a。春季和秋季的降水略有递增,夏季和冬季降水量呈递减的趋势。年降水量在1963年、1969年、1976年、1978年存在4个降水突变点,并且在1990—1993年降水量趋势显著增加。56a间年降水量主要存在3~5,6~10,12~18,22~28a的周期变化规律。通过对巢湖流域年降水量标准化降水指数进行旱涝等级划分,并对其突变前后的变化分析可知巢湖流域在降水灾变后,洪涝灾害发生更加频繁,巢湖流域降水趋势逐渐向洪涝状态变化。
Through the precipitation data from 56 meteorological stations in Chaohu Basin in the last 56 years from 1957 to 2012and based on the methods such as Mann-Kendall mutation test,wavelet transform and SPI index,the precipitation time series of Chaohu Basin was analyzed including precipitation trend analysis,mutation analysis,periodic analysis and droughts and floods index analysis.The results showed that annual precipitation in the 56 years in Chaohu Basin presented the significant increasing trend,and the linear increase rate was 28.09mm/10 a.Precipitation in spring and autumn slightly increased,precipitation in summer and winter had the decreasing trend.The annual precipitation had 4events of mutation in 1963,1969,1976 and 1978,respectively,and reached the significant level from 1990 to 1993.Annual precipitation presented 3~5,6~10,12~18and 22~28years periodic variations over the 56 years.According to the drought grade division of the Chaohu Basin precipitation of the standardized precipitation index,and the changes before and after the mutation analysis in the Chaohu Basin precipitation after disaster,waterlog occurs more frequently in Chaohu Basin,and the precipitation readily causes the floods.
Through the precipitation data from 56 meteorological stations in Chaohu Basin in the last 56 years from 1957 to 2012and based on the methods such as Mann-Kendall mutation test,wavelet transform and SPI index,the precipitation time series of Chaohu Basin was analyzed including precipitation trend analysis,mutation analysis,periodic analysis and droughts and floods index analysis.The results showed that annual precipitation in the 56 years in Chaohu Basin presented the significant increasing trend,and the linear increase rate was 28.09mm/10 a.Precipitation in spring and autumn slightly increased,precipitation in summer and winter had the decreasing trend.The annual precipitation had 4events of mutation in 1963,1969,1976 and 1978,respectively,and reached the significant level from 1990 to 1993.Annual precipitation presented 3~5,6~10,12~18and 22~28years periodic variations over the 56 years.According to the drought grade division of the Chaohu Basin precipitation of the standardized precipitation index,and the changes before and after the mutation analysis in the Chaohu Basin precipitation after disaster,waterlog occurs more frequently in Chaohu Basin,and the precipitation readily causes the floods.
引文
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[2]翟盘茂,邹旭恺.1951—2003年中国气温和降水变化及其对干旱的影响[J].气候变化研究进展,2005(1):16-19.
[3]孙善宇,徐利岗.宁夏1951—2008年降水变化特征及趋势分析[J].人民黄河,2011,33(4):24-28.
[4]徐宗学,张楠.黄河流域近50年降水变化趋势分析[J].地理研究,2006,25(1):27-34.
[5]康淑媛,张勃.基于Mann-Kendall法的张掖市降水量时空分布规律分析[J].资源科学,2009,31(3):501-508.
[6]张剑明,章新平,黎祖贤,等.湖南省46年来降水的气候特征[J].热带气象学报,2008,24(5):512-518.
[7]黄玉霞,李栋梁.西北地区近40年降水异常的时空特征分析[J].高原气象,2004,23(2):245-252.
[8]杜海波,吴正方,张娜,等.近60a丹东极端温度和降水事件变化特征[J].地理科学,2013,33(4):473-480.
[9]Narisma G T,Foley J A,Licker R,et al.Abrupt changes in rainfall during the twentieth century[J].Geophysical Research Letters,2007,34(6):306-316.
[10]于文金,周鸿渐,占达颖,等.长江流域旱涝灾害特征研究[J].灾害学,2013,28(3):42-47.
[11]姚蕊,陈子燊.基于标准降水指数的广西旱涝特征演变分析[J].中山大学学报:自然科学版,2013,52(2):115-120.
[12]王志良,曹蕾.基于SPI的郑州市近60年旱涝特征分析[J].华北水利水电学院学报,2011,32(6):30-32.
[13]郑晓东,鲁帆,马静,等.基于标准化降水指数的淮河流域干旱演变特征分析[J].水利水电技术,2012,43(4):102-106.
[14]韩丹,程先富.安徽省1961—2007年降水特征分析[J].人民长江,2011,42(23):23-26.
[15]窦鸿身,姜加虎.中国五大淡水湖[M].合肥:中国科学技术大学出版社,2003.
[16]窦睿音,延军平.1960—2010年关中地区旱涝灾害对气候变化的响应[J].湖南农业大学学报:自然科学版,2012,38(5):542-547
[17]吴洪宝,吴蕾.气候变率诊断和预测方法[M].北京:气象出版社,2005.
[18]向红莲,丁晶,王文圣.小波分析在水文学中的应用研究及展望[J].水科学进展,2002,13(4):515-520.
[19]张建云,王国庆.气候变化对水文水资源影响研究[M].北京:科学出版社,2007.
[20]李贤彬,丁晶.水文时间序列的子波分析法[J].水科学进展,1999,10(2):144-149.
[21]McKee T B,Doesken N J,Kleist J.The relationship of drought frequency and duration to time scales[C]∥8th Conference on Applied Climatology.Anaheim,California:American Meteorological Society,1993:179-183.
[22]Kao S C,Govindaraju R S.A copula-based joint deficit index for droughts[J].Journal of Hydrology,2010,380(1):121-134.
[23]陈实,高超.不同季节划分尺度下巢湖流域气候变化趋势分析[J].长江流域资源与环境,2013,22(5):582-587.
目录
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