北极和南极表面温度对中低纬度海洋热强迫的响应

利用耦合了平板海洋模型的全球气候模式进行了大量的格林函数实验,以探究两极地区对于施加在中低纬度海域的热强迫的气候响应。结果表明,北极地区的气候不仅受到距离较近的北太平洋与北大西洋的影响,远离北极的热带太平洋以及南太平洋也对其气候有显著的影响,南极地区的气候则主要是受到邻近的南大洋的影响。通过经验正交函数法的进一步分析发现,北极响应最显著的区域包括波弗特海(Beaufort Sea)、拉普捷夫海(Laptev Sea)以及北极中心区附近;南极地区的响应主要集中在别林斯高晋海(Bellinsgauzen Sea)区域。另外,利用温度归因法对辐射反馈过程和大气能量输运分解发现,北极地区表面温度的响应主要是受到了反照率反馈以及垂直递减率反馈的影响,而南极地区的响应则主要是反照率反馈发挥了作用。     

Temperature biases in modeled polar climate and adoption of physical parameterization schemes

An annual cycle of atmospheric variations for 1989 in the Arctic has been simulated with the Weather Research and Forecasting （WRF） model. A severe cold bias was found around a cold center in surface air temperature over the Arctic Ocean, compared with results from ERA-Interim reanalysis. Four successive numerical experiments have been carried out to find out the reasons for this. The results show that the sea ice albedo scheme has the biggest influence in summer, and the effect of the cloud microphysics scheme is significant in both summer and winter. The effect of phase transition between ice and water has the biggest influence over the region near the sea ice edge in summer, and contributes little to improvement of the severe cold bias. The origi- nal crude albedo parameterization in the surface process scheme is the main reason for the large simulated cold bias of the cold center in summer. With a different land surface scheme than in the control run, cold biases of simulated surface air temperature over the Arctic Ocean are greatly reduced, by as much as 10 K, implying that the land surface scheme is critical for polar climate simulation.     

第七次南极考察中山站越冬海洋气象考察报告

1991年中山站越冬海洋气象考察,主要是对南极中山站气温、气压、云量、风向风速,大气湿度和日照时间,进行日常地面气象观测,取得每日四次现场观测资料,对各种气象要素进行分析统计,并与前二年气象资料进行了对比,得出了1991年中山站地区,风暴多,风速大,气温比前年高的气象特点。在越冬期间还对中山站海冰、湖冰厚度进行测量,掌握沿岸海冰各月分布变化情况。1991年中山站最大风速达46.2m/s,这是中山站建站以来所观测到的最大风速。冬季最低气温为-28.6℃也是建站以来最高一年。     

南极海冰遥感现场对比实验

南极海冰区是影响全球气候 -环境变化的关键区域之一 ,卫星遥感资料是获取大区域海冰地球物理特征参数的最有效的手段。但是 ,在南半球晚冬-初春期间 ,卫星遥感反演的海冰资料的误差较大 ,精度较低。 2 0 0 3年 9- 1 0月 ,由澳大利亚南极局组织 ,包括中国等 7个国家 ,1 4个研究单位的科学家参加 ,以澳大利亚破冰船“南极光号”为现场工作平台 ,在东南极季节海冰带 ,通过与美国宇航局 (NASA)、日本宇宙开发促进会合作开展的卫星、飞机、船、冰站立体联合观测 ;对AMSR E等卫星遥感产生的海冰地球物理参数 (海冰密集度、雪盖厚度、海冰物理温度等 )进行地面详细验证 ,建立遥感数据与地面实测数据的统计关系 ,以发现各种卫星资料反演算式的使用范围和局限性 ,为改进卫星资料反演算式提供依据。     

一个区域海洋——海冰——大气耦合模式中的北极气候偏差：年结果检验

The Coupling of three model components, WRF/PCE （polar climate extension version of weather research and forecasting model （WRF））, ROMS （regional ocean modeling system）, and CICE （community ice code）, has been implemented, and the regional atmosphere-ocean-sea ice coupled model named WRF/PCE- ROMS-CICE has been validated against ERA-interim reanalysis data sets for 1989. To better understand the reasons that generate model biases, the WRF/PCE-ROMS-CICE results were compared with those of its components, the WRF/PCE and the ROMS-CICE. There are cold biases in surface air temperature （SAT） over the Arctic Ocean, which contribute to the sea ice concentration （SIC） and sea surface temperature （SST） biases in the results of the WRF/PCE-ROMS-CICE. The cold SAT biases also appear in results of the atmo- spheric component with a mild temperature in winter and similar temperature in summer. Compared to results from the WRF/PCE, due to influences of different distributions of the SIC and the SST and inclusion of interactions of air-sea-sea ice in the WRF/PCE-ROMS-CICE, the simulated SAT has new features. These influences also lead to apparent differences at higher levels of the atmosphere, which can be thought as responses to biases in the SST and sea ice extent. There are similar atmospheric responses in feature of distribution to sea ice biases at 700 and 500 hPa, and the strength of responses weakens when the pressure decreases in January. The atmospheric responses in July reach up to 200 hPa. There are surplus sea ice ex- tents in the Greenland Sea, the Barents Sea, the Davis Strait and the Chukchi Sea in winter and in the Beau- fort Sea, the Chukchi Sea, the East Siberian Sea and the Laptev Sea in summer in the ROMS-CICE. These differences in the SIC distribution can all be explained by those in the SST distributions. These features in the simulated SST and SIC from ROMS-CICE also appear in the WRF/PCE-ROMS-CICE. It is shown that the performance of the WRF/PCE-ROMS-CICE is determined to a l     

南极中山站天气系统和气象要素变化

本文分析了南极中山站建站以来（1989－1999年）天气资料，对气温、风速、湿度、气旋等进行了详细的分类统计，获得了中山站的气候特点和历年年平均气要素分布特征，造成中山站暴风雪、大风、寒冷等灾害性主要天气系统有：南极大陆冷高压、极地气旋、东移锋面扰动、南极下降风。