Enhanced Meiyu‐Baiu Rainfall in Early Summer 2020: Aftermath of the 2019 Super IOD Event

Enhanced Meiyu‐Baiu Rainfall in Early Summer 2020: Aftermath of the 2019 Super IOD Event

In early summer 2020, the Meiyu‐Baiu rainfall was markedly enhanced, triggering devastating floods in Japan and central China. We examined the underlying processes using a climate model and analysis. The enhanced Meiyu‐Baiu rainfall was reasonably predicted by the climate model initialized at the en...

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Veröffentlicht in:Geophysical research letters 2020-11, Vol.47 (22), p.n/a
Hauptverfasser: Takaya, Yuhei, Ishikawa, Ichiro, Kobayashi, Chiaki, Endo, Hirokazu, Ose, Tomoaki
Format: Artikel
Sprache:eng
Schlagworte:
Anomalies
Asian monsoon
Climate
Climate models
Climate prediction
Climatic analysis
Dipoles
Downwelling
Floods
Indian Ocean Dipole
Meiyu‐Baiu rainfall
Modulation
Monsoons
Ocean dynamics
Ocean temperature
Ocean warming
Oceans
Planetary waves
Rain
Rainfall
Rainfall forecasting
Rossby waves
Sea surface
Sea surface temperature
Sea surface temperature anomalies
Summer
Surface temperature
Temperature anomalies
Tropical climate
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Zusammenfassung:In early summer 2020, the Meiyu‐Baiu rainfall was markedly enhanced, triggering devastating floods in Japan and central China. We examined the underlying processes using a climate model and analysis. The enhanced Meiyu‐Baiu rainfall was reasonably predicted by the climate model initialized at the end of April. The sensitivity experiment indicated that Indian Ocean (IO) warming enhanced the Meiyu‐Baiu rainfall. Moreover, we found that the warm IO condition can be traced back to the super Indian Ocean Dipole (IOD) in 2019. The IO warmth was influenced by successive processes: record strong downwelling Rossby waves excited by the IOD and tripole sea surface temperature anomalies in the tropical IO‐western Pacific, their arrival to the southwestern IO in spring, and associated modulation of monsoon flow. The results suggest that the seasonal predictability of the Meiyu‐Baiu rainfall in 2020 originated from the super IOD. Plain Language Summary In early summer 2020, Japan and central China suffered from serious floods due to torrential rainfall associated with the intensified Meiyu‐Baiu front, which extends from central China to southern Japan. The results of climate model simulations indicated that a warm condition of the Indian Ocean (IO) was an underlying condition for the enhanced rainfall. We found that the warm IO condition can be traced back to the strong Indian Ocean Dipole (IOD) episode in 2019, which featured a pair of colder‐than‐normal and warmer‐than‐normal ocean temperatures west of the Sumatra coast and in the western IO, respectively. This IOD contributed to the IO warming in the following seasons through oceanic dynamics and monsoon modulation. Key Points The markedly enhanced rainfall in the Meiyu‐Baiu frontal zone in early summer 2020 was associated with the warm IO condition The warm IO condition can be traced back to the super IOD event in 2019 Ocean dynamics and associated modulation of monsoon flow in the IO sector facilitated IO warming
ISSN:0094-8276
1944-8007
DOI:10.1029/2020GL090671