| 华南前汛期持续性暴雨年代际变化特征及成因 |
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| 引用本文: | 陈思,高建芸,黄丽娜,游立军.华南前汛期持续性暴雨年代际变化特征及成因[J].应用气象学报,2017,28(1):86-97. |
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| 作者姓名: | 陈思 高建芸 黄丽娜 游立军 |
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| 作者单位: | 1.福建省气候中心, 福州 350001 |
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| 基金项目: | 资助项目: 福建省科技厅科技计划重点项目(2011Y0008),公益性行业(气象)科研专项(GYHY201306032),国家自然科学基金项目(41575052),中国气象局气候变化专项(CCSF201619),福建省气象局青年科技专项项目(2016Q07,2015Q18,2013Q05) |
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| 摘 要: | 应用福建、广东、广西243个气象站1961-2012年逐日降水资料,构建华南前汛期暴雨强度指数,揭示了前汛期持续性暴雨年代际变化特征及其可能机理。研究表明:前汛期持续性暴雨经历了多发(1961-1972年)-少发(1973-1991年)-多发(1992-2012年)3个阶段,目前仍处于多发期,具有持续时间较长且强度增强的特点;由于前汛期降水的低频振荡受热带低频信号北传的调制,因此,导致这种显著年代际变化的可能成因是热带低频信号北传的周期和强度的年代际差异,当热带低频信号北传至华南时低频周期长(短)且强度强(弱),则前汛期易出现持续时间长(短)且强度强(弱)的持续性暴雨。
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| 关 键 词: | 前汛期 持续性暴雨 年代际变化 |
| 收稿时间: | 2016/4/21 0:00:00 |
| 修稿时间: | 2016/11/10 0:00:00 |
Decadal Variation Characteristics of South China Pre flood Season Persistent Rainstorm and Its Mechanism |
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| Chen Si,Gao Jianyun,Huang Lina and You Lijun.Decadal Variation Characteristics of South China Pre flood Season Persistent Rainstorm and Its Mechanism[J].Quarterly Journal of Applied Meteorology,2017,28(1):86-97. |
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| Authors: | Chen Si Gao Jianyun Huang Lina and You Lijun |
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| Institution: | 1.Fujian Provincial Climate Center, Fuzhou 3500012.Putian Meteorological Office of Fujian, Putian 351100 |
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| Abstract: | Based on the daily precipitation data of 243 stations in Fujian, Guangdong, Guangxi during 1961-2012, indices (intensity of daily rainstorm IRD, intensity of persistent rainstorm IRS, intensity of South China pre-flood season persistent rainstorm IRZ) are calculated and persistent rainstorm processes are selected. Indices reveal decadal variation characteristics of pre-flood season persistent rainstorm by kinds of mutation test and percentile method. It indicates that the decadal variation of pre-flood season persistent rainstorm can be divided into three sections, multiple (1961-1972)-fewer (1973-1991)-multiple (1992-2012). The present stage is in multiple sections with stronger intensity and longer duration; pre-flood season precipitation exhibits a significant low-frequency oscillation characteristic. The decadal variation of duration and intensity of persistent rainstorm during pre-flood season are closely related to that of configuration and intensity of low-frequency periodic signal. There is a positive correlation between the intensity of pre-flood season persistent rainstorm and the low-frequency intensity of 10-60 days with the intensity strongest in 10-20 days, the second in 30-60 days' and the third in 20-30 days'. The low-frequency signal of Guangdong and Fujian is more obvious than Guangxi in all sections. Frequent, strong and long persistent rainstorm is more likely to occur in multiple sections as the precipitation intensity of low-frequency signal oscillating acutely, and vice versa. The decadal meridional propagation features of tropical intraseasonal oscillation and mechanism and its possible impact on the decadal variation of pre-flood season persistent rainstorm are also studied by using East Asia-western NorthPacific ISO index (EAWNP ISO). The position of the meridional propagation of the East Asia-Pacific Northwest Pacific with different phases can be seen according to different phases' reconstruction of 850 hPa wind speed and OLR anomaly field. The decadal variation of tropical low-frequency northward movement signal cycle and intensity may probably be one of the main causes that lead to the decadal variation of pre-flood season persistent rainstorm. Since tropical low-frequency signal has various cycles, it may cause low-frequency variation of circulation system advantage to the precipitation of pre-flood season, which corresponds to the low-frequency variation characteristics of precipitation there and leading to changes of the intensity and duration of persistent rainstorm when low-frequency convection propagates northward to southeast coast of China. The longer (shorter) cycle and stronger (weaker) intensity of tropical low-frequency signal northward to southeast coast of China is, the longer (shorter) duration and stronger (weaker) intensity of pre-flood season persistent rainstorm may be. |
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| Keywords: | pre flood season persistent rainstorm decadal variation |
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