摘要
观测的高空大气位势高度和温度可以应用物理分解的思路估算出纬圈平均的对称气候态、非对称气候态、纬圈平均的瞬变对称扰动和非对称扰动等四个分量。本文用美国NCEP/NCAR再分析资料分解出的非对称高度扰动和温度扰动可以作为发生在华北的2005年6月区域热浪和12月区域低温事件的早期信号。结果得到:地面区域极端气温事件是对流层和平流层大气扰动在地面的表现。这次热浪最强日对流层上部(250 hPa)正的高度扰动和对流层低层(850 hPa)正的温度扰动是在7d前从欧洲传播而来的,而这次低温最强日对流层上部(300 hPa)负的高度扰动和对流层低层(850 hPa)负的温度扰动也是在13 d前从欧洲传播而来的。物理分解后的瞬变扰动天气图是地面热浪和低温事件预报的一种可用工具。
The observed geopotential height and temperature in the troposphere-stratosphere can be physi- cally decomposed into four components to estimate climatic states and anomalies, namely zonal-mean sym- metric climate, asymmetric climate, zonal-mean instantaneous symmetric anomaly and instantaneous asym- metric anomaly. In this paper, the asymmetric anomaly was extracted from the NCEP/NCAR reanalysis data and used as early signals to indicate the regional heat wave and low temperature events that occurred in North China in June and December 2005, respectively. The result shows that the surface temperature events are some responses to atmospheric disturbances in troposphere and stratosphere. For the heat wave event, its early signals of positive temperature anomaly at 850 hPa and positive height anomaly at 250 hPa can be traced from Europe 7 days ahead, while the early signals of low temperature event are negative tem- perature anomaly at 850 hPa and negative height anomaly at 300 hPa which are also from Europe with a lead of 13 days. The anomalous synoptic chart provided by this physical decomposition is a useful tool to predict the surface temperature events.
出处
《气象》
CSCD
北大核心
2013年第6期665-674,共10页
Meteorological Monthly
基金
国家科技支撑计划(2009BAC51B04)
公益性行业(气象)科研专项(GYHY201006018)共同资助
关键词
物理分解
热浪
低温
前期信号
高度扰动
温度扰动
physical decomposition, heat wave, low temperature, early signal, height anomaly, tempera-ture anomaly
