Abstract
The El Niño-Southern Oscillation (ENSO) has seasonally distinct impacts on the East Asian climate so that its seasonal transition depends on the phases of El Niño and La Niña. Here, we investigate the seasonal transition of surface temperature in East Asia from boreal summer to winter based on the warm/cold ENSO developing phases. During La Niña years, from summer to winter the continuous temperature drop in East Asia tends to be faster than that during El Niño, indicating a latter start and earlier termination of fall. This different seasonal transition in East Asia according to phases of ENSO is mostly explained by atmospheric responses to the seasonally-dependent tropical/subtropical precipitation forcings in ENSO developing phases. The anomalous positive precipitation in the subtropical North Pacific exists only in September and leads to the subtropical cyclonic flow during El Niño years. The resultant northerly anomalies on the left side of the subtropical cyclone are favorable for transporting cold advection towards East Asia. However, the positive subtropical precipitation disappears and teleconnection to East Asia is strongly controlled by the negative precipitation anomalies in the western North Pacific, modulating the anticyclonic anomalies in East Asia during the early winter (November). Therefore, these seasonally sharp precipitation changes in the tropics/extratropics associated with ENSO evolution induce distinctive teleconnection changes from northerly (summer) to southerly (winter) anomalies, which eventually affect seasonal transition in East Asia. Also, the Coupled Model Intercomparison Project Phase 5 models reasonably simulate the relatively rapid temperature transition in East Asia during La Niña years, supporting the observational argument.
Highlights
Considerable progress has been made towards understanding the extratropical atmospheric response to the tropical forcing associated with El Niño-Southern Oscillation (ENSO) sea surface temperature (SST) anomalies (Yeh et al 2018)
The El Niño-Southern Oscillation (ENSO) has seasonally distinct impacts on the East Asian climate so that its seasonal transition depends on the phases of El Niño and La Niña. The El Niño (La Niña)
From September to November, the southerly tendency in East Asia occurs slower during El Niño, and faster during La Niña. These results clearly demonstrate that the seasonal transition of atmospheric circulation over East Asia, from summer to winter, is relatively rapid during the La Niña years
Summary
Considerable progress has been made towards understanding the extratropical atmospheric response to the tropical forcing associated with El Niño-Southern Oscillation (ENSO) sea surface temperature (SST) anomalies (Yeh et al 2018). An observational study (Nitta 1987) hypothesized that during post-El Niño summers an anomalous anticyclone in the western North Pacific (WNP) can affect the summer climate in East Asia through atmospheric meridional dipoles, referred to as the Pacific-Japan (PJ) pattern. According to Wu et al (2003), the most robust influence of ENSO is seen as a positive correlation that migrates from southern China in the fall of the ENSO developing phase to eastern-central China and southern Japan through the following spring Another is a negative correlation over northern China in summer and fall during the ENSO developing years. These two main rainfall anomalies in East Asia are induced by different anomalous atmospheric circulation systems (Wu et al 2003).
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