1. Analysis of Precipitation Anomaly and a Failed Prediction During the Dragon-boat Rain Period in 2022.
- Author
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DONG Shao-rou, YANG Song, LIU Wei, HU Ya-min, WANG Ming-sheng, and LIU Yan
- Subjects
PRECIPITATION anomalies ,RAINFALL ,METEOROLOGICAL stations ,ATMOSPHERIC circulation ,OCEAN temperature - Abstract
This study investigates the possible causes for the precipitation of Guangdong during dragon-boat rain period (DBRP) in 2022 that is remarkably more than the climate state and reviews the successes and failures of the prediction in 2022. Features of atmospheric circulation and sea surface temperature (SST) are analyzed based on several observational datasets for nearly 60 years from meteorological stations and the NCEP/NCAR Global Reanalysis Data. Results show that fluctuation of the 200-hPa westerly wind as well as the westerly jet is strengthened due to the propagation of wave energy, leading to strong updraft over southern China. Activities of a subtropical high and a shear line provide favorable conditions for the transport of moisture to Guangdong. With the support of powerful southwest winds, extreme precipitation is induced. ENSO is a good indicator of atmospheric circulation at mid-and high-levels during the DBRP in 2022 but it performs badly at low levels. During recent years, the influence of ENSO on precipitation during the DBRP has decreased obviously. The SSTA of tropical southeast Atlantic (SEA) in spring may become the key indicator. During the years with warm SEA, wave trains propagate from northwest to southeast over Eurasia with energy enhancing the westerly jet, conducive to updraft over southern China and the occurrence of heavy precipitation. Meanwhile, the Rossby wave is triggered over Maritime Continent by heat sources of southern Atlantic-western Indian Ocean through the Gill response. Thus, strong transport of moisture and heavy rainfall occur. [ABSTRACT FROM AUTHOR]
- Published
- 2023
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