高级搜索
蔡新玲, 康岚, 孙娴, 李茜, 毛明策. 2013: 2011年渭河和汉江上游秋汛期环流特征及暴雨致洪成因. 暴雨灾害, 32(2): 120-125. DOI: 10.3969/j.issn.1004-9045.2013.02.004
引用本文: 蔡新玲, 康岚, 孙娴, 李茜, 毛明策. 2013: 2011年渭河和汉江上游秋汛期环流特征及暴雨致洪成因. 暴雨灾害, 32(2): 120-125. DOI: 10.3969/j.issn.1004-9045.2013.02.004
CAI Xinling, KANG Lan, SUN Xian, LI Qian, MAO Mingce. 2013: Study of circulation characteristics in autumn flood period over Weihe and Hanjiang River basins and the causes of flood by the heavy rains in 2011. Torrential Rain and Disasters, 32(2): 120-125. DOI: 10.3969/j.issn.1004-9045.2013.02.004
Citation: CAI Xinling, KANG Lan, SUN Xian, LI Qian, MAO Mingce. 2013: Study of circulation characteristics in autumn flood period over Weihe and Hanjiang River basins and the causes of flood by the heavy rains in 2011. Torrential Rain and Disasters, 32(2): 120-125. DOI: 10.3969/j.issn.1004-9045.2013.02.004

2011年渭河和汉江上游秋汛期环流特征及暴雨致洪成因

Study of circulation characteristics in autumn flood period over Weihe and Hanjiang River basins and the causes of flood by the heavy rains in 2011

  • 摘要: 利用气候统计和天气分析方法,结合气象和水文资料,对2011年9月华西秋雨的时空分布特点、大尺度环流形势及相关流域的洪水与秋雨关系进行了分析。结果显示,2011年华西秋雨主雨区位于渭河、汉江上游及渠江流域,雨区集中和强降水时段集中是2011年华西秋雨的主要特点。分析大尺度环流表明,欧亚中高纬度地区位势高度距平场从西北到东南呈现“+- +”的典型波列分布,副热带高压的东西摆动和稳定维持直接影响雨带位置变化,西风槽与高原槽的叠加导致了大范围的强降水。渭河和汉江上游流域水位变化与流域强降水过程有很好的对应关系。与秋汛期历年洪涝年比较,2011年渭河和汉江上游流域秋汛期总降水量低于2003年,但暴雨过程集中、强度大导致该流域出现自1983年以来最大洪水。

     

    Abstract: Based on the meteorological and hydrological data, the spatial and temporal distribution characteristics and large-scale atmospheric circulation pattern of autumn rainfall in West China in September 2011 and the relationship between flood and autumn rainfall in the related basins are analyzed by using climatic statistics and synoptic analysis methods. The results show that the distributions of autumn rainfall in West China in 2011 are mainly located in the Weihe River basin, the upper basin of the Hanjiang River and Qujiang River basin with the main features of rainfall distribution concentration and severe precipitation duration concentration. Analysis on large-scale atmospheric general circulation indicates that geopotential height anomalies over the mid and high latitudes of Eurasia present a typical wave train distribution with“+, -, +”from northwest to southeast, and the rain belt location move is directly influenced by the subtropical high swinging between east and west and maintaining stably, and then the superposition of the westerly trough and the plateau trough result in a wide range severe precipitation. The changes of water level in the Weihe River basin and the upper basin of the Hanjiang River are corresponding with the severe precipitation processes in these basins. Comparing with flooding years in autumn flood season over the years, although the accumulated precipitation in the same season in the Weihe River basin and the upper basin of the Hanjiang River in 2011 is less than that in 2003, process
    concentration and higher intensity of heavy rain result in the most serious flood in these basins since 1983.

     

/

返回文章
返回