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中国西南超级干旱的变化特征和多尺度异常叠加效应分析
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作者 王林 陈文 +7 位作者 黄刚 王婷 王秋琳 宿小蕴 任子璇 Chakrit CHOTAMONSAK atsamon limsakul Kritanai TORSRI 《中国科学:地球科学》 CSCD 北大核心 2024年第7期2114-2132,共19页
最近十几年来,中国西南地区超级干旱频发,导致了严重的经济损失和生态环境破坏.本文分析了1961~2022年中国西南超级干旱的变化特征,揭示了多尺度干旱的叠加效应,并探讨了驱动多尺度干旱异常的大气环流机制.超级干旱的本质是由多时间尺... 最近十几年来,中国西南地区超级干旱频发,导致了严重的经济损失和生态环境破坏.本文分析了1961~2022年中国西南超级干旱的变化特征,揭示了多尺度干旱的叠加效应,并探讨了驱动多尺度干旱异常的大气环流机制.超级干旱的本质是由多时间尺度极端干旱事件叠加引起的复合型干旱,通过对比2006年和2022年典型干旱个例,证实了多尺度干旱叠加的决定性作用.基于多尺度综合指数(CMI)识别, 2006~2014年间中国西南集中出现多次超级干旱事件.其中,长时间尺度的蒸发增强和降水亏缺的年代际背景是必要条件,决定了超级干旱的整体格局;短时间尺度的降水异常和蒸发异常激发了超级干旱的爆发,决定了超级干旱的确切发生时间,包括2006年8~9月、2009年11月至2010年5月、2011年7~10月、2012年4~5月以及2013年1~4月等.统计分析表明,降水异常叠加对超级干旱的贡献是蒸发作用的2.4倍.在影响多尺度降水的环流机制上,短期和长期尺度的异常空间模态相似,均为南海地区的气旋式环流和西南地区的东北风异常,以及西南地区的下沉异常中心. 2006~2014年期间,西南地区跨季节持续性降水减少的可能原因是北太平洋PDO极端负位相和西太平洋暖池异常增温.具体的动力过程为:PDO负位相在北太平洋激发反气旋式环流异常,西南侧的东北风延伸至亚洲东南部,不利于水汽输送;暖池增温在西北侧激发出气旋式环流异常,也在西南地区上空形成东北风异常,同时暖池地区的上升运动在高层辐散至西南地区上空辐合形成补偿下沉运动.上述两种遥强迫的共同作用,在长时间尺度上形成了气候背景状态中不利于西南地区降水的关键因素,为短时间尺度降水异常叠加形成超级干旱提供了重要的先决条件. 展开更多
关键词 超级干旱 多尺度 叠加效应 机理分析 中国西南地区
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Characteristics of super drought in Southwest China and the associated compounding effect of multiscalar anomalies
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作者 Lin WANG Wen CHEN +7 位作者 Gang HAUNG Ting WANG Qiulin WANG Xiaoyun SU Zixuan REN Chakrit CHOTAMONSAK atsamon limsakul Kritanai TORSRI 《Science China Earth Sciences》 SCIE EI CAS CSCD 2024年第7期2084-2102,共19页
In recent decades,Southwest China(SWC)has suffered from frequent super droughts,leading to severe economic losses and ecological degradation.This study investigates the characteristics of super droughts in SWC during ... In recent decades,Southwest China(SWC)has suffered from frequent super droughts,leading to severe economic losses and ecological degradation.This study investigates the characteristics of super droughts in SWC during 1961-2022,reveals the compounding effect of multiscalar anomalies,and explores the plausible atmospheric circulation mechanisms responsible.The nature of super drought is a compound drought caused by the superposition of extreme drought events across multiple time scales.By contrasting the typical drought cases in 2006 and 2022,the decisive role of multiscalar drought compounding is confirmed.Based on the Comprehensive Multiscalar Index(CMI),multiple super drought events in SWC were identified to be temporally clustered during 2006-2014.Among them,the decadal background of enhanced evaporation and precipitation deficit at long time scales is a necessary condition for shaping the overall pattern of super droughts,while the precipitation and evaporation anomalies at short time scales trigger the outbreak of super droughts,determining the exact timing of occurrence.These events include August-September 2006,November 2009 to May 2010,July-October 2011,April-May 2012,January-April 2013,etc.Statistical results suggest that the contribution of superposed precipitation anomalies to super drought is 2.4 times that of evaporation.As regards the circulation mechanisms affecting multiscalar precipitation,the anomalous spatial patterns at short-term and long-term scales are similar,featuring the cyclonic circulation over the South China Sea and the northeasterly wind anomalies together with the subsidence center over SWC.During 2006-2014,the possible causes for the cross-seasonal persistent precipitation reduction in SWC are the extreme negative phase of the Pacific Decadal Oscillation(PDO)in the North Pacific as well as the pronounced warming of the warm pool in the western Pacific.The key dynamic processes are outlined as follows.On the one hand,the negative PDO phase generates anomalous anticyclonic circulation in the North Pacific,with the northeasterly winds on its southwest flank extending to Southeast Asia,hindering moisture transport into SWC.On the other hand,the warming of the warm pool excites anomalous cyclonic circulation to its northwest,also giving rise to northeasterly wind anomalies over SWC.Meanwhile,the ascending motion over the warm pool region diverges at upper levels with outflows converging aloft over SWC,which further induces compensating downward motion there.The combined effect of the above two remote forcings establishes a climatic background state unfavorable for precipitation over SWC at long time scales,thus constituting a crucial prerequisite for the superimposition of short-term precipitation anomalies to develop into super droughts. 展开更多
关键词 Super drought Multiscalar Compounding effect Mechanism analysis Southwest China
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