Abstract
The influence of Arctic Oscillation (AO) on the frequency of wintertime fog days in eastern China is studied based on the winter AO index, the wintertime fog-day data of national stations in China, and the National Centers for Environmental Prediction/National Center for Atmospheric Research (NCEP/NCAR) reanalysis data from 1954 to 2007. The results show that heavy fog and light fog are more likely to occur during winter in eastern China with the strong interannual variability. During the winter with the positive-phase AO, there are more days of heavy fog in North China but less in South China, while light fog days become more in the whole of eastern China. It is mainly because that when AO is in the positive phase, the pressure in the polar region decreases at 500 hPa; the pressure in East Asia increases anomalously; the East Asian trough decreases; and the low-level westerly jet moves northward, preventing the northwesterly cold air from moving southward. Therefore, the whole eastern China gets warmer and wetter air, and there are more light fog days with the enhanced water vapor. However, the atmosphere merely becomes more towards unstable in South China, where the precipitation increases but the heavy fog days decreases. Nevertheless, heavy fog days increase with the water vapor in North China because of moving towards a stable atmosphere, which is formed by the anomalous downdrafts north of the precipitation center in South China. When AO is in the negative phase, the situation is basically opposite to that in the positive phase, but the variations of the corresponding fog days and circulations are weaker than those in the AO-positive-phase winter, which may be related to the nonlinear effect of AO on climate.
Highlights
In recent years, the fog and haze have occurred frequently in China, affecting the traffic and economic development
Heavy fog days increase with the water vapor in North China because of moving towards a stable atmosphere, which is formed by the anomalous downdrafts north of the precipitation center in South China
North of the precipitation center, the anomalous descending motion appeared in North China, and the warm and moist air moved northward, heavy fog occurred in North China
Summary
The fog and haze have occurred frequently in China, affecting the traffic and economic development. The formation of fog is largely affected by factors such as the annual average temperature, relative humidity, depression of the dew point, low-level horizontal wind, atmospheric stability, vertical wind shear and the temperature. When AO is in the positive phase, the low pressure system in the Arctic region decreases, and the high pressure system in the middle latitudes strengthens, preventing the cold air in the polar region from intruding into the middle latitude region In this way, the polar pressure is lower than the climatology, and the high pressure in the middle latitude region around the polar region is higher than normal, which strengthens the pressure gradient force pointing to the polar region. As the pressure gradient force pointing to the polar region decreases, resulting in more southward movement of cold air mass and more low temperature weather such as cold waves and gales in the middle and low latitudes. As haze is more impacted by pollutant emissions than by meteorological conditions, it is not researched in this paper
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