全球大气角动量变化的比较分析

利用日本气象局ＧＳＭ９６０３大气数值模式和客观分析资料以及美国环境预报中心大气再分析数据研究比较全球大气角动量变化。分析表明，三者大气质量再分布角动量东经９０°Ｅ分量的符合程度要好于格林威治方向的分量；而且ＧＳＭ９６０３对大气轴向相对角动量季节变化的强度模拟与其他两者一致，并明显优于第一阶段 ＡＭＩＰ ２３个大气环流模式的平均模拟结果。另外，ＧＳＭ９６０３大气相对角动量的年际变化基本显示了厄尔尼诺变化的主要历程。

The investigation of atmospheric angular momentum as a contributor to polar wobble and length of day change with AMIP II GCM data

The atmospheric angular momentum (AAM) functions in terms of contribution to polar wobble and length of day change, are calculated from the output data of GSM9603 global circulation model (GCM) of Japan Meteorological Agency (JMA), from the reanalysis data of the National Centers for the Environmental Prediction (NCEP) / National Center for Atmospheric Research (NCAR), and from the operational objective analysis data of JMA, respectively. The comparison shows that during the period from 1985 to 1995, the values of the pressure terms in the equatorial components of AAM functions calculated from three data sets agree with each other better along 90°E longitude than along Greenwich meridian direction. The axial component of relative AAM function estimated from GSM 9603 agrees well with those from the other two data sets in terms of seasonal variations with the moderate amplitudes, but not so well with the composite axial component of relative AAM functions estimated from 23 GCM models anticipating in the first phase of AMIP. In addition, its interannual variation from 1979 to 1996 shows the main characteristics of ENSO evolution, just as does the axial component of relative AAM function estimated from NCEP reanalysis data except for the period of anomalous ENSO from 1991 to 1993.