利用GRACE卫星重力资料解算气候驱动的地表周年垂直形变  被引量：13

作　　者：廖海华[1,2] 钟敏[1] 周旭华[1] 

机构地区：[1]中国科学院测量与地球物理研究所动力大地测量重点实验室,武汉430077 [2]中国科学院研究生院,北京100049

出　　处：《地球物理学报》2010年第5期1091-1098,共8页Chinese Journal of Geophysics

基　　金：中国科学院知识创新工程基金(KZCX2-YW-143);国家自然科学基金(40674013);国家高技术研究发展计划(863)(2006AA09Z153)资助

摘　　要：卫星重力和GPS测量技术可以监测地表流体(大气、海洋和陆地水)质量季节性迁移引起的地表周年形变;与陆地水等地表流体模型综合模拟的地表形变相比,卫星重力的形变监测结果避免了模型的精度不确定性带来的误差.本文利用前60阶GRACE卫星时变重力资料和"去相关"、组合滤波两类滤波方法分别解算了中国及邻区的地表季节性垂直形变,并与区内42个GPS台站上观测到的季节性信号进行了比较,发现采用"去相关"滤波方法处理后的结果优于采用组合滤波处理后的结果.文中采用"去相关"滤波方法,GRACE解算的周年垂直形变的振幅、相位和GPS结果总体上一致;少数站上GRACE和GPS得到的振幅或相位相差较大,主要因素可能与GPS解算策略、GPS观测资料的连续性或局部大气、水文过程等地球物理因素有关.在中国及邻区的陆地上GRACE解算的周年垂直形变的振幅最小值出现在TASH台站东南,约1×10^(-3)m;最大值出现在恒河澜沧江流域,可达10×10^(-3)m.文中的结果证实了在中国及邻区可以用GRACE卫星重力这种新手段监测大尺度的地表周年垂直形变.Atmosphere, ocean and continent water mass seasonal variations cause variation in surface deformation, which is detectable using Gravity Recovery and Climate Experiment and GPS observation. Comparing with surface deformation simulated from atmosphere, ocean and continent water models, the deformation derived from GRACE has no errors related with accuracy uncertainty of models. Climate-driven seasonal vertical deformation signals of the solid Earth in China and neighboring areas are calculated from GRACE monthly time-variable gravity field coefficients truncated to degree and order 60, and the results are compared with seasonal signals measured at 42 GPS sites located in the same region. In calculating we use De-stripes and De-stripes plus a 3×105 m Gaussian smoothing respectively, and we find the former filtering result is better than the latter one. In the annual vertical crustal deformation from GRACE using De-stripes, we find at all GPS sites the amplitudes and phases of deformation from GRACE are close to those from GPS observations. Obvious discrepancy at some sites suggests that it might be caused by a local geophysical process or GPS site analysis error and GPS time series discontinuity. In the mainland of China and neighboring areas the smallest amplitude of deformation of about 1×10-3 m is in the southeast of site TASH and the greatest amplitude of deformation of 10×10-3 m in the region of Ganges-Lancang River Basin. These results demonstrate that GRACE can be a new effective tool for monitoring annual vertical deformation on a large scale in China and neighboring areas.

关 键 词：GRACE GPS 气候 周年变化 地表垂直形变 

分 类 号：P223[天文地球—大地测量学与测量工程]