The authors investigate the dominant mode of climatological intraseasonal oscillation(CISO) of surface air temperature(SAT) and rainfall in China, and discuss the linkage of cold and wet climate in South China(SC) wit...The authors investigate the dominant mode of climatological intraseasonal oscillation(CISO) of surface air temperature(SAT) and rainfall in China, and discuss the linkage of cold and wet climate in South China(SC) with the Arctic circulation regime during the cold season(from November to March). Results show that a positive CISO displays a cold-dry climate in North China,whereas a cold-wet pattern prevails in SC with a quasi-30-day oscillation during the peak winter season. In SC, the intraseasonal variability of SAT plays a leading role, altering the cold-wet climate by the southward shift of a cold front. Evidence shows that the circulation regime related to the cold and wet climate in SC is mainly regulated by a pair of propagating ISO modes at the500-hPa geopotential height in the negative phase of Arctic Oscillation. It is demonstrated that the local cyclonic wave activity enhances the southward movement of the Siberian high, favoring an unstable atmosphere and resulting in the cold-wet climate over SC. Therefore, the cold-air activity acts as a precursor for subseasonal rainfall forecasting in SC.展开更多
The authors explore the intraseasonal oscillation(ISO)of rainfall anomalies in South China,the related circulation regimes,and discuss the possible causes of the large variability of the positive rainfall anomalies ov...The authors explore the intraseasonal oscillation(ISO)of rainfall anomalies in South China,the related circulation regimes,and discuss the possible causes of the large variability of the positive rainfall anomalies over South China during the winter of the 1982/83,1997/98 and 2015/16 super EI Nino events.Case-by-case analysis shows that the 10–20-day ISO associated with the successive heavy rainfall events lead to the positive anomalies of winter rainfall in the three winters.Meanwhile,the 20–50-day ISO is relatively stronger in the winter of 1982/83 and 2015/16 but weaker in the winter of 1997/98.Except for a different speed,the anomalies of the 200-hPa wave train associated with the two ISOs both propagate eastward along the westerly jet between 20 N and 30 N.In the winter of 1982/83 and 2015/16,when the upper-level subseasonal wave trains in different periods pass through South China,the in-phase enhancement of upper-level divergences and the pumping effect could induce the persistent heavy rainfall events,which facilitate the stronger seasonal-mean rainfall.Although the 10–20-day ISO alone in the winter of 1997/98 could cause the higher-frequency rainfall events,the weaker 20–50-day ISO attenuates the anomalies of the South China winter rainfall.Therefore,the joint effects of the 10–20-and 20–50-day ISOs are critical for the larger amount of above-normal rainfall over South China during the mature phase of super EI Nino events.展开更多
基金jointly supported by the National Natural Science Foundation of China [grant numbers 41475057,41775052,and41505049]the Special Fund for Public Welfare Industry [grant number GYHY20140619]+1 种基金the Basic Scientific Research and Operation Foundation of CAMS [grant numbers 2018Z006 and2017R001]the Jiangsu Collaborative Innovation Center for Climate Change
文摘The authors investigate the dominant mode of climatological intraseasonal oscillation(CISO) of surface air temperature(SAT) and rainfall in China, and discuss the linkage of cold and wet climate in South China(SC) with the Arctic circulation regime during the cold season(from November to March). Results show that a positive CISO displays a cold-dry climate in North China,whereas a cold-wet pattern prevails in SC with a quasi-30-day oscillation during the peak winter season. In SC, the intraseasonal variability of SAT plays a leading role, altering the cold-wet climate by the southward shift of a cold front. Evidence shows that the circulation regime related to the cold and wet climate in SC is mainly regulated by a pair of propagating ISO modes at the500-hPa geopotential height in the negative phase of Arctic Oscillation. It is demonstrated that the local cyclonic wave activity enhances the southward movement of the Siberian high, favoring an unstable atmosphere and resulting in the cold-wet climate over SC. Therefore, the cold-air activity acts as a precursor for subseasonal rainfall forecasting in SC.
基金jointly supported by the Special Fund for Public Welfare Industry[grant number GYHY20140619]the National Natural Science Foundation of China[grant numbers41475057,41775052 and 41505049]the Basic Scientific Research and Operation Foundation of CAMS[grant numbers2015Z001 and 2017R001]
文摘The authors explore the intraseasonal oscillation(ISO)of rainfall anomalies in South China,the related circulation regimes,and discuss the possible causes of the large variability of the positive rainfall anomalies over South China during the winter of the 1982/83,1997/98 and 2015/16 super EI Nino events.Case-by-case analysis shows that the 10–20-day ISO associated with the successive heavy rainfall events lead to the positive anomalies of winter rainfall in the three winters.Meanwhile,the 20–50-day ISO is relatively stronger in the winter of 1982/83 and 2015/16 but weaker in the winter of 1997/98.Except for a different speed,the anomalies of the 200-hPa wave train associated with the two ISOs both propagate eastward along the westerly jet between 20 N and 30 N.In the winter of 1982/83 and 2015/16,when the upper-level subseasonal wave trains in different periods pass through South China,the in-phase enhancement of upper-level divergences and the pumping effect could induce the persistent heavy rainfall events,which facilitate the stronger seasonal-mean rainfall.Although the 10–20-day ISO alone in the winter of 1997/98 could cause the higher-frequency rainfall events,the weaker 20–50-day ISO attenuates the anomalies of the South China winter rainfall.Therefore,the joint effects of the 10–20-and 20–50-day ISOs are critical for the larger amount of above-normal rainfall over South China during the mature phase of super EI Nino events.
