一次暴雨过程中GNSS信号的对流层延迟和水平梯度信息演变特征
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中国第二代卫星导航系统重大专项:基于北斗导航卫星的大气、海洋和空间监测预警示范应用(一期)项目(GFZX03030303)资助


Evolution Characteristics of GNSS Zenith Tropospheric Delay and Horizontal Gradient during a Heavy Rainfall Event
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    摘要:

    为了充分发挥目前密集的全球导航卫星系统(Global Navigation Satellite System,GNSS)测站的作用,本文建立了一套准实时的GNSS对流层总延迟(Zenith Total Delay, ZTD)和水平梯度(Horizontal Gradients,HG)解算系统,并基于中国气象局的格网降水产品和ERA5再分析资料对广州“5·7”暴雨下ZTD和HG的演变特征进行研究。结果表明:ZTD和HG的时序变化能够反映出降水的前兆信息,而HG的矢量性则在一定程度上揭示降雨的相关特征。ZTD和HG的时空特征对暴雨的短临预报具有一定指示作用,可作为对暴雨短临预报的辅助手段。

    Abstract:

    In order to fully utilize the capabilities of the densely distributed Global Navigation Satellite System (GNSS) network, this study has developed a comprehensive near real-time GNSS retrieval system for analyzing Zenith Total Delay (ZTD) and Horizontal Gradients (HG). This system is specifically applied to investigate the evolution characteristics of ZTD and HG during the heavy rainfall event on 7 May 2017 in Guangzhou. The analysis incorporates gridded precipitation products from the China Meteorological Administration and ERA5 reanalysis data, ensuring a robust comparison and validation of the results. The study’s findings reveal that the temporal variations in ZTD and HG had the potential to capture early indicators of precipitation, offering valuable insights into the atmospheric conditions preceding rainfall events. Specifically, the increase in ZTD values was observed to coincide with the onset of precipitation, suggesting that ZTD could serve as a precursor to heavy rainfall. Meanwhile, the horizontal gradients (HG) exhibited distinct directional patterns that correlated with the movement and intensity of rainfall, indicating that HG not only reflected the presence of precipitation but also provided information on its spatial distribution and dynamics. Furthermore, the vector characteristics of HG were found to reveal certain critical features related to rainfall, such as the direction of moisture convergence and the intensity of localised convective activity. Areas with high Horizontal Gradient (HG) delay tended to have higher Integrated Water Vapor (IWV) and were more likely to experience precipitation. In summary, the spatiotemporal characteristics of ZTD and HG, as derived from the GNSS network, offered significant potential for improving short-term precipitation forecasting, particularly for extreme weather events such as heavy rainfall. By providing early warning signals and detailed insights into the evolving atmospheric conditions, these GNSS-derived parameters served as a valuable auxiliary tool for meteorologists and researchers engaged in the nowcasting of severe weather. The integration of ZTD and HG data into existing forecasting models could have enhanced the accuracy and lead time of predictions, thereby contributing to better preparedness and risk mitigation efforts in regions prone to sudden and intense precipitation events.

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涂满红,欧书圆,刘艺朦,曹云昌,刘佳,郭丰赫.一次暴雨过程中GNSS信号的对流层延迟和水平梯度信息演变特征[J].气象科技,2024,52(6):841~849

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历史
  • 收稿日期:2023-10-09
  • 定稿日期:2024-09-29
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  • 在线发布日期: 2024-12-25
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