Snowfall accumulates to form snow cover, which can then influence other components of the Earth system at various scales, such as atmospheric circulation, climatic anomalies, hydrological cycle, and ecosystems.
A research team led by Prof. KANG Shichang from the Northwest Institute of Eco-Environment and Resources of the Chinese Academy of Sciences has revealed how the sea ice in the Barents-Kara seas in November was an important factor affecting the distribution and interannual variability of snow-cover extent in Eurasia from November to January (winter) during 1979-2021.
Their findings were published in Advances in Atmospheric Sciences on April 11.
The researchers used reanalysis data to analyze the atmospheric circulation and moisture transport in winter in relation to reduced sea ice. They found that changes in the circulation in both the troposphere and stratosphere induced a southward breakout of cold air in the Arctic, causing extreme wintertime cooling over Eurasia. Moreover, two prominent cyclonic anomalies near Europe and Lake Baikal affected the moisture transport and its convergence.
Further analysis revealed that the effects of moisture advection and wind divergence influenced the water vapor budget, thereby affecting precipitation.
As a result, snow cover increased in much of Europe, Central Asia, and East Asia under the necessary conditions of both water vapor transport and temperature. The results were evaluated in version 5 of the Community Atmosphere Model.
"This work can help to better understand and predict snowfall conditions in the middle latitudes," said Prof. KANG, corresponding author of the study.
