摘要
利用1951—2004年我国740站逐日降水资料对夏季长江中下游典型旱涝年季节内振荡周期、强度和位相等特征进行合成对比分析发现:长江中下游涝年降水季节内振荡周期较旱年长,涝年以30~60d周期为主,而旱年以10~30d周期为主。旱涝年长江中下游地区夏季降水的10~30d振荡整体上均强于30~60d振荡;10~30d及30~60d振荡,涝年的强度都大于旱年。季节内振荡在旱年的北传较涝年强,能达到50°N附近;而涝年不仅有明显的季节内振荡从低纬度地区向北传播,同时还有弱的振荡从中高纬度地区向南传播,两者汇合于长江流域形成强的振荡中心。影响我国低频降水的低频异常环流分布模态在旱涝年是一致的,但涝年的低频环流强于旱年,而这种低频环流场的差异正是造成涝年的低频降水强于旱年的原因之一。
In order to understand further climatic characters of the intraseasonal oscillation and its relationship with the interannual variation of summer rainfalls over the mid-lower Reaches of the Yangtze River, the composite comparison analysis is applied to the intraseasonal oscillation in between the flood and drought years. Firstly, eight flood years and 7 drought years are identified by using 740 stations daily rainfall datasets in China from 1951 to 2004. And then differences in the period, the intensity and the phase cycle of the intraseasonal oscillation of summer rainfalls in between the drought years and the flood years over the mid-lower Reaches of the Yangtze River are discussed. The main results are as follows. The period of the intraseasonal oscillation of summer rainfalls over the mid-lower Reaches of the Yangtze River is relatively longer in the flood years, with the dominating 30-60-day oscillation. While it is relatively shorter against a droughty interannual background, mainly being 10-30-day. Generally, the 10-30-day oscillation has greater amplitude than the 30-60 day oscillation in both flood and drought years, but the situation is opposite in certain areas over the lower Reaches of the Yangtze River or in some years. As for the intraseasonal oscillation, the amplitude is greater in the flood years than in the drought years. In the drought years, significant northward propagation can be observed to reach 50°N or so. But in the flood years, both the northward propagation from the low latitude and the weak southward propagation from the mid-high latitudes are obvious. And two branches of intraseasonal oscillations merge over the mid-lower Reaches of the Yangtze River and form strong oscillation centers. The phase composite analysis of the intraseasonal components of summer rainfalls in China and the corresponding low-level circulation show that the modes of the low-frequent anomalous circulation influencing the low-frequent summer rainfalls in China are similar in flood and drought years. However, the anomalous rainfalls and circulations on the intraseasonal scale are stronger under the flood background than the drought background, being an important cause for more rainfalls in flood years than in drought years. In conclusion, the intraseasonal oscillation has an important impact on the annual variation in aspects such as the period, the propagation, the intensity, the phase cycle and so on.
出处
《应用气象学报》
CSCD
北大核心
2008年第6期710-715,共6页
Journal of Applied Meteorological Science
基金
科技部国际合作项目"区域气候变化的监测
模拟和影响研究"(2005DFA20940)
国家科技支撑计划课题(2007BAC29B02)
国家自然科学基金项目(40775039)共同资助
关键词
长江中下游
夏季降水
季节内振荡
mid-lower Reaches of the Yangtze River
summer rainfalls
intraseasonal oscillations