image: Snow-covered mountains in Japan. Winter cold spells and heavy snowfall in Japan are influenced not only by local weather conditions but also by distant climate patterns extending from the North Atlantic-European region to the tropical Indo-Pacific.
Credit: University of Tsukuba
Tsukuba, Japan—Researchers have uncovered a key mechanism behind Japan's extreme winter weather, revealing how distant climate patterns interact to intensify cold waves and heavy snowfall.
Extreme weather events—such as cold waves, heavy snowfall, and anomalously warm periods—are ubiquitous during Japanese winters. These events are closely associated with shifts in the subtropical jet stream, a fast-moving band of winds high in the atmosphere over the Eurasian continental area. While scientists have long known that weather patterns over the North Atlantic-European and tropical Indo-Pacific regions influence this jet stream, the way in which these two factors work together remained unclear.
In a new study, researchers demonstrate that the interaction between these distant climate systems plays a pivotal role. By analyzing 76 years of global atmospheric data and running advanced numerical simulations, the team found that when these two drivers align, they can substantially amplify disturbances in the jet stream.
Specifically, when atmospheric circulation linked to the North Atlantic Oscillation coincides with enhanced convective activity in the tropical Indo-Pacific, the resulting atmospheric wave train pattern amplifies and extends toward Japan. This results in colder and more severe winter conditions. Conversely, when these patterns oppose each other, the jet stream disturbances weaken, reducing their impact on Japan's weather.
The findings reveal that the combined influence of climate variability across the North Atlantic-European region and the tropical Indo-Pacific is a critical factor in determining winter severity in Japan. This enhanced understanding of the mechanisms underlying extreme weather and climate variability highlights the interconnected nature of the global climate system, with conditions thousands of kilometers away shaping local weather. The study also provides opportunities to improve seasonal weather forecasts, helping communities better prepare for extreme weather events.
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This work was supported by the Japan Society for the Promotion of Science, Grant/Award Numbers: JP23K20542, JP24K00705, and JP24H02193
Original Paper
Title of original paper:
How interference between the North Atlantic Oscillation and the tropical Indo-Pacific convection modulates wave trains along the subtropical jet: Impacts on the Asian winter climate
Journal:
Quarterly Journal of the Royal Meteorological Society
DOI:
10.1002/qj.70222
Correspondence
Professor UEDA, Hiroaki
Institute of Life and Environmental Sciences, University of Tsukuba
Related Link
Institute of Life and Environmental Sciences
Journal
Quarterly Journal of the Royal Meteorological Society
DOI
Article Title
How interference between the North Atlantic Oscillation and the tropical Indo-Pacific convection modulates wave trains along the subtropical jet: Impacts on the Asian winter climate
Article Publication Date
17-May-2026