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1960-2005年澜沧江流域极端降水变化特征
Changes in Precipitation Extremes in Lancang River Basin,1960-2005

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李斌 1   李丽娟 1 *   李海滨 2   梁丽乔 1   李九一 1   柳玉梅 1   曾宏伟 1  
文摘 极端降水事件是气候变化的一个重要方面.澜沧江流域纵贯13个纬度,最大相对高差近5000 m,跨6种气候带,是全球少见的南北向大江,它在气候,水文,地理,生态学等多方面都具有重要的科学研究价值.自1960年以来,流域经历了显著的气温上升.探讨在气候变暖背景下这一复杂流域的极端降水变化具有重要意义.本文利用澜沧江流域及其周边35个气象站1961-2005年的日降水资料,分析了小于5 mm,5~10 mm,10~50 mm以及大于50 mm 4个不同量级降水的降水量,降水日数和日平均降水强度的变化趋势.并计算了每种量级降水占总降水量的百分比及降水频率.结果表明,各量级各项指标均存在明显的区域变化特征,流域总体上极端降水频率的增加态势明显.对典型地区站点分析表明,极端降水的增加可能与气候系统随机性变强有关
其他语种文摘 Extreme precipitation is an important aspect of climate change. According to the estimation using the latest climate models, the extreme precipitation events will become frequent in a warming world. Significant increases of the very heavy precipitation and decreases of light and moderate precipitations have indeed been observed over most land areas of the globe in the last few decades. The Lancang River, with a relative altitude difference of about 5000 m, flows through 13 latitudes and 6 climatic zones. It is rarely seen in the world and has important scientific values for climatology, hydrology, geography and ecology. Since 1960, the basin has experi-enced a significant increase in temperature like most parts of the world. Studying the changes of extreme precipi-tation events in the basin in the context of global warming is of great importance. Based on a daily precipitation dataset of 35 meteorological observation stations distributed in and around the Lancang River basin, trends of precipitation amounts, precipitation days and daily precipitation intensity during a 45-year period(1961-2005) of 4 different classes ranging from less than 5,5-10,10-50 and larger than 50 mm were analyzed, and the precipitation frequency and the proportion of precipitation amount of each precipitation class were calculated. The result showed that all the indexes varied spatially, and for the basin as a whole, the frequency of the extreme events increased obviously. Analysis of a typical station indicated that the increase of extreme precipitation and the randomness of the climatic system might be closely related with each other
来源 地理科学进展 ,2011,30(3):290-298 【核心库】
关键词 降水 ; 强度 ; 趋势 ; 澜沧江流域
地址

1. 中国科学院地理科学与资源研究所, 北京, 100101  

2. 普林斯顿大学, 新泽西州, 08540

语种 中文
文献类型 研究性论文
ISSN 1007-6301
学科 自然地理学
基金 国家科技基础性工作专项 ;  欧盟第六框架项目
文献收藏号 CSCD:4156383

参考文献 共 21 共2页

1.  Gallego M C. Changes in frequency and intensity of daily precipitation over the Iberian Peninsula. Journal of Geophysical Research,2006,111:D24105 被引 1    
2.  Trenberth K E. Atmospheric moisture residence times and cycling:Implications for rainfall rates with climate change. Climate Change,1998,39(4):667-694 被引 94    
3.  Allen M R. Constraints on the future changes in climate and the hydrological cycle. Nature,2002,419:224-232 被引 104    
4.  Trenberth K E. The changing character of precipitation. Bulletin of the American Meteorological Society,2003,84(9):1205-1217 被引 101    
5.  Intergovernmental Panel on Climate Change(IPCC). Summary for policymakers,in Climate Change 2007:The Physical Science Basis. Contribution of Working Group I to the Fourth Assessment Report of the Intergovernmental Panel on Climate Change,2007:1-18 被引 1    
6.  李少娟. 澜沧江-湄公河河川径流变化对气候及电站驱动的响应,2008 被引 1    
7.  Liu B. Observed trends of precipitation amount, frequency and intensity in China, 1960-2000. Journal of Geophysical Research,2005,110:D08103 被引 9    
8.  Wang X L. Changes in China's precipitation in various categories during 1957-2004. Journal of Tropical Meteorology,2008,24(5):460-466 被引 1    
9.  Lin Y P. Trends of Precipitation of Different Intensity in China. Acta Scientiarum Naturalium Universitatis Pekinensis,2009,45(6):995-1002 被引 1    
10.  Karl T R. Secular trends of precipitation amount, frequency, and intensity in the United States. Bulletin of the American Meteorological Society,1998,79(2):231-241 被引 111    
11.  Huang N E. The empirical mode decomposition and the Hilbert spectrum for nonlinear and non-stationary time series analysis, Proc. R.Soc., Ser. A, 1998, Proceedings of the Royal Society of London. Series A:Mathematical. Physical and Engineering Sciences,1998,454(1971):903-995 被引 5    
12.  Lin Z S. EMD analysis of northern hemisphere temperature variability during last 4 centuries. Journal of Tropical Meteorology,2004,20(2):90-96 被引 3    
13.  Liu H Y. Analysis on the fluctuation of grain output in China and its causes at multi-time scale based on empirical mode decomposition method. Journal of Natural Resources,2005,20(5):745-751 被引 1    
14.  Liu S C. Temperature dependence of global precipitation extremes. Geophysical Research Letters,2009,36:L17702 被引 14    
15.  Peel M C. Recent frequency component changes in interannual climate variability. Geophysical Research Letters,2006,33:L16810 被引 2    
16.  Tsonis A A. Is global warming injecting randomness into the climate system. Eos Transactions American Geophysical Union,2004,85(38):361-364 被引 1    
17.  Tsonis A A. Global temperature as a regulator of climate predictability. Physica D:Nonlinear Phenomena,1997,108(1/2):191-196 被引 1    
18.  O'GormanP A. Scaling of precipitation extremes over a wide range of climates simulated with an idealized GCM. Journal of Climate,2009,22(21):5676-5685 被引 1    
19.  Yang L M. Climate Change of Extreme Precipitation in Xinjiang. Acta Geographica Sinca,2003,58(4):577-583 被引 8    
20.  Hu H R. Temporal and Spatial Variations of Extreme Precipitation Events of Flood Season over Sichuan Basin in Last 50 Years. Acta Geographica Sinca,2009,64(3):278-288 被引 5    
引证文献 16

1 吴子怡 水文序列跳跃变异点的滑动相关系数识别方法 水利学报,2017,48(12):1473-1481,1489
被引 10

2 刘晓冉 近50a三峡库区汛期极端降水事件的时空变化 湖泊科学,2012,24(2):244-251
被引 3

显示所有16篇文献

论文科学数据集

1. 黑河流域中上游100m×100m空间分辨率气候平均年降水量(1967-2008)

2. 黑河流域中上游100m×100m空间分辨率的气候平均逐月降水量(1967-2008)

3. 黑河流域上游100m×100m空间分辨率逐年6-9月降水量(1967-2008)

数据来源:
国家青藏高原科学数据中心
PlumX Metrics
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