Accounting for residual errors in atmosphere–ocean background models applied in satellite gravimetry

IF 3.9 2区 地球科学 Q1 GEOCHEMISTRY & GEOPHYSICS
Linus Shihora, Zhijun Liu, Kyriakos Balidakis, Josefine Wilms, Christoph Dahle, Frank Flechtner, Robert Dill, Henryk Dobslaw
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Abstract

The Atmosphere and Ocean non-tidal De-aliasing Level-1B (AOD1B) product is widely used in precise orbit determination and satellite gravimetry to correct for transient effects of atmosphere–ocean mass variability that would otherwise alias into monthly mean global gravity fields. The most recent release is based on the global ERA5 reanalysis and ECMWF operational data together with simulations from the general ocean circulation model MPIOM consistently forced with fields from the corresponding atmospheric dataset. As background models are inevitably imperfect, residual errors will consequently propagate into the resulting geodetic products. Accounting for uncertainties of the background model data in a statistical sense, however, has been shown before to be a useful approach to mitigate the impact of residual errors leading to temporal aliasing artefacts. In light of the changes made in the new release RL07 of AOD1B, previous uncertainty assessments are deemed too pessimistic and thus need to be revisited. We here present an analysis of the residual errors in AOD1B RL07 based on ensemble statistics derived from different atmospheric reanalyses, including ERA5, MERRA2 and JRA55. For the oceans, we investigate the impact of both the forced and intrinsic variability through differences in MPIOM simulation experiments. The atmospheric and oceanic information is then combined to produce a new time-series of true errors, called AOe07, which is applicable in combination with AOD1B RL07. AOe07 is further complemented by a new spatial error variance–covariance matrix. Results from gravity field recovery simulation experiments for the planned Mass-Change and Geosciences International Constellation (MAGIC) based on GFZ’s EPOS software demonstrate improvements that can be expected from rigorously implementing the newly available stochastic information from AOD1B RL07 into the gravity field estimation process.

Abstract Image

考虑卫星重力测量中应用的大气-海洋背景模型的残余误差
大气和海洋非潮汐去混叠 1B 级(AOD1B)产品广泛用于精确轨道测定和卫星重力测量,以校正大气-海洋质量变化的瞬时影响,否则这些影响会混叠到月平均全球重力场中。最新发布的产品基于全球ERA5再分析和ECMWF运行数据,以及利用相应大气数据集的场持续强迫的一般海洋环流模式MPIOM的模拟结果。由于背景模式不可避免地存在缺陷,因此残余误差会传播到由此产生的大地测量产品中。不过,统计意义上的本底模型数据不确定性的计算,已被证明是一种有用的方法,可减轻残余误差导致时间混叠伪影的影响。鉴于新版 AOD1B RL07 所做的改动,以前的不确定性评估被认为过于悲观,因此需要重新审视。在此,我们根据不同大气再分析(包括ERA5、MERRA2和JRA55)得出的集合统计数据,对AOD1B RL07的残余误差进行了分析。在海洋方面,我们通过 MPIOM 模拟实验的差异,研究了受迫变率和内在变率的影响。然后将大气和海洋信息结合起来,产生一个新的真实误差时间序列,称为 AOe07,与 AOD1B RL07 结合使用。新的空间误差方差-协方差矩阵进一步补充了 AOe07。计划中的质量变化和地球科学国际星座(MAGIC)的重力场恢复模拟实验结果表明,在重力场估算过程中严格执行 AOD1B RL07 中新提供的随机信息可望带来改进。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Journal of Geodesy
Journal of Geodesy 地学-地球化学与地球物理
CiteScore
8.60
自引率
9.10%
发文量
85
审稿时长
9 months
期刊介绍: The Journal of Geodesy is an international journal concerned with the study of scientific problems of geodesy and related interdisciplinary sciences. Peer-reviewed papers are published on theoretical or modeling studies, and on results of experiments and interpretations. Besides original research papers, the journal includes commissioned review papers on topical subjects and special issues arising from chosen scientific symposia or workshops. The journal covers the whole range of geodetic science and reports on theoretical and applied studies in research areas such as: -Positioning -Reference frame -Geodetic networks -Modeling and quality control -Space geodesy -Remote sensing -Gravity fields -Geodynamics
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