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双语推荐：TRMM/TMI

选取热带测雨卫星（Tropical Rainfall Measuring Mission，TRMM）微波成像仪（TRMM Microwave Imager，TMI）液态水路径（liquid water path，LWP）轨道像元数据为研究对象，探讨了将瞬时探测以及逐月的像元数据进行格点化（0.1°、0.25°、0.5°、1.0°和2.5°五种格点分辨率）时，格点数据的失真情况。对TMI瞬时探测的个例分析结果表明，细分辨率（0.1°、0.25°和0.5°）格点能保留原始像元数据的细节；而随着网格变粗，细节受到较大的平滑。因此对于中尺度到天气尺度的天气系统分析而言，将卫星轨道数据处理到网格尺度不大于0.5°的格点更合适。对逐月LWP像元资料格点化处理的分析表明，细分辨率格点能保留LWP空间分布细节，尽管5种分辨率下LWP的概率密度分布（probability density function，PDF）均相近。因此，对月尺度及以上的气候分析研究而言，格点尺度大小对卫星像元数据格点化的影响不显著。最后利用本实验室计算的TMI/LWP格点数据与欧洲中期数值预报中心再分析资料（European Centrefor Medium-range Weather Forecasts Interimreanalysis，ERA-Interim）和NCEP再分析资料（NCEP Climate Forecast System Reanalysis，NCEPCFSR）进行了对比，发现两种再

Satellite observation data are valuable for model evaluation, but to readily compare satellite-based data with model simulations, swath pixel data must first be gridded. In this study, data distortions caused by gridding (0.1°, 0.25°, 0.5°, 1.0°, and 2.5° gridding resolutions) are investigated using instantaneous and monthly pixel data from the Tropical Rainfall Measuring Mission (TRMM) Microwave Imager (TMI) liquid water path (LWP) data. Results from this case study show that data gridded at grid scales of 0.1°, 0.25°, and 0.5° retain more local details in the instantaneous pixel data, while the details tend to be smoothed out at coarser grid resolutions. So data with grid scales no coarser than 0.5° are suitable for analyzing weather activities from the mesoscale to the synoptic scale. In terms of the monthly pixel LWP, data with gridding resolutions of 0.1°, 0.25°, and 0.5° also retain more detail. Although, probability density functions (PDF) of the LWP show s

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利用热带测雨卫星(TRMM)搭载的微波成像仪(TMI)探测结果,在像元分辨率上同步反演的10年海表温度(SST)和海表风速(SSW)资料,研究了热带地区非降水条件下SSW变化对SST日变化的影响。结果表明热带地区SST日变化显著,SST日最小值多出现在早晨03:00(当地时间,下同)至06:00,日最大值多出现在午后17:00至19:00,SST日绝对振幅为1.9~3.4℃,日相对振幅为5%~7%。SSW变化对SST日最小值和日最大值的出现时间及SST日振幅均有明显的影响,且均呈现出区域性差异。热带地区SST日绝对振幅随SSW增大而减小,当SSW增加至9 m/s之后,SST日绝对振幅变化不再明显;二者符合特定的正弦函数关系。在风速小的情况下,暖池区域平均SST日绝对振幅异常减小了0.16℃;在风速大的情况下,秘鲁沿岸区域平均SST日绝对振幅异常增大了0.17℃,且SST随时间变化波动较大。上述研究结果为下一步研究海表感热和潜热日变化打下了基础。

Based on sea surface temperature (SST) and sea surface wind speed (SSW) data retrieval from the tropical rainfall measuring mission (TRMM) microwave imager (TMI) from 1998 to 2007, the authors investigated the features of diurnal variation of SST under the influence of SSW in the tropics under non-precipitation conditions. The retrieved SST and SSW data were matched at TMI resolution within the TMI orbit swath. The results suggest a notable diurnal variation of SST over the topical ocean. The minimum value of the diurnal cycle of SST appears during 0300 LST to 0600 LST and the maximum occurred during 1700 LST to 1900 LST. The diurnal absolute amplitude of SST is about 1.9-3.4 °C, and the relative amplitude is about 5%-7%. The effect of SSW on the diurnal SST amplitude is significant and shows the regional characteristics, just as it influences the time of the minimum/maximum value. The diurnal SST amplitude decreases with an increase of the SSW, but it changes only slightly