Abstract 2020 and 1998 are the strongest Meiyu years in recent decades. The
characteristics of the super-strong Meiyu precipitation and water vapor sources in 2020 and …

To an extent, large‐scale circulation situations and moisture transport are responsible for
extreme precipitation occurrence. The aim of our study is to investigate the possible …

Abstract Knowledge of the raindrop size distribution (DSD) is crucial for disaster prevention
and mitigation. The record-breaking rainfall in the summer of 2020 caused some of the worst …

Meiyu is an important climate phenomenon in East Asia, and predicting its onset is critical for
local community. Traditionally, the onset of Meiyu is determined by regional operational …

Previous studies have reported the large-scale meteorological conditions and dynamic
causes of the extreme period of meiyu rainfall in 2020. However, the microphysical …

An exceptional rainy season occurred in the Yangtze River valley of eastern China in June–
July 2020. The relative importance of the dynamic and thermodynamic effects on this …

Abstract Meiyu occurs in Yangtze‐Huaihe River valley (YHRV) every summer. Its intensity,
distribution, and intraseasonal variation are greatly influenced by atmospheric forcings from …

The timing of the cessation of Meiyu is closely connected to the amount of Meiyu rainfall and
the commencement of the rainy season in North China. Accurately forecasting the Meiyu …

Global warming has posed non-negligible effects on regional extreme precipitation changes
and increased the uncertainties when meteorologists predict such extremes. More …

Currently, there is variability in the spectral band thresholds for snow cover recognition using
remote sensing in different regions and for complex terrains. Using Fengyun-3B Visible and …