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    Journals >Acta Geographica Sinica >Volume 75 >Issue 5 >Page 989 > Article
    • Acta Geographica Sinica
    • Vol. 75, Issue 5, 989 (2020)
    Variability of the event-based extreme precipitation in the south and north Qinling Mountains
    Shuangshuang LI*, Chengbo WANG, Junping YAN, and Xianfeng LIU
    Author Affiliations
  • School of Geography and Tourism, Shaanxi Normal University, Xi'an 710119, China
    • show less
    DOI: 10.11821/dlxb202005008 Cite this Article
    Shuangshuang LI, Chengbo WANG, Junping YAN, Xianfeng LIU. Variability of the event-based extreme precipitation in the south and north Qinling Mountains[J]. Acta Geographica Sinica, 2020, 75(5): 989 Copy Citation Text show less
    秦岭南北地理环境与气象站点分布[12]Fig. 1
    Fig. 1. 秦岭南北地理环境与气象站点分布[12]Fig. 1
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    面向事件过程的极端降水事件定义与识别流程Fig. 2
    Fig. 2. 面向事件过程的极端降水事件定义与识别流程Fig. 2
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    1970—2017年秦岭南北年降水和极端降水变化特征Fig. 3
    Fig. 3. 1970—2017年秦岭南北年降水和极端降水变化特征Fig. 3
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    1970—2017年秦岭南北降水格局变化特征Fig. 4
    Fig. 4. 1970—2017年秦岭南北降水格局变化特征Fig. 4
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    秦岭南北不同极端降水事件累积频次和降水量占比的空间特征Fig. 5
    Fig. 5. 秦岭南北不同极端降水事件累积频次和降水量占比的空间特征Fig. 5
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    秦岭南北极端降水事件主导类型注:图中数字为各极端降水事件主导类型站点数。Fig. 6
    Fig. 6. 秦岭南北极端降水事件主导类型注:图中数字为各极端降水事件主导类型站点数。Fig. 6
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    秦岭南北4种极端降水事件降水量和降水日数变化趋势Fig. 7
    Fig. 7. 秦岭南北4种极端降水事件降水量和降水日数变化趋势Fig. 7
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    不同类型极端降水事件与秦岭南北气温的小波相干分析注:小波相干系数越大表明两者相关性越高。“→”表示两者同相位变化(正相关);“←”表示两者反相位变化(负相关);“↑”表示极端降水变化超前气温变化;“↓”表示极端降水变化滞后气温变化;黑色实线表示相关性通过0.05显著性检验。Fig. 8
    Fig. 8. 不同类型极端降水事件与秦岭南北气温的小波相干分析注:小波相干系数越大表明两者相关性越高。“→”表示两者同相位变化(正相关);“←”表示两者反相位变化(负相关);“↑”表示极端降水变化超前气温变化;“↓”表示极端降水变化滞后气温变化;黑色实线表示相关性通过0.05显著性检验。Fig. 8
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    秦岭南北长期趋势和变暖停滞期气温变化特征Fig. 9
    Fig. 9. 秦岭南北长期趋势和变暖停滞期气温变化特征Fig. 9
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    Shuangshuang LI, Chengbo WANG, Junping YAN, Xianfeng LIU. Variability of the event-based extreme precipitation in the south and north Qinling Mountains[J]. Acta Geographica Sinica, 2020, 75(5): 989
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