The influence of pressure waves in tidal gravity records

IF 2.8 4区地球科学 Q2 GEOCHEMISTRY & GEOPHYSICS Geodesy and Geodynamics Pub Date : 2023-01-01 DOI:10.1016/j.geog.2022.07.005

Bernard Ducarme

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引用次数: 3

Abstract

For the reduction of atmospheric effects, observed gravity has initially been corrected by using the computed barometric admittance k of the in situ measured pressure, expressed in nms⁻²/hPa units and estimated by least squares method. However, the local pressure changes alone cannot account for the atmospheric mass attraction and loading when the coherent pressure field exceeds a specific size, i.e., with increasing periodicities. To overcome this difficulty, it is necessary to compute the total atmospheric effect at each station using the global pressure field. However, the direct subtraction of the total gravity effect, provided by the models of pressure correction, is not yet satisfactory for S2 and other tidal components, such as K2 and P1, which include solar heating pressure tides. This paper identifies the origin of the problem and presents strategies to obtain a satisfactory solution.

First, we set up a difference vector between the tidal factors of M2 and S2 after correction of the pressure and ocean tides effects. This vector, hereafter denoted as RES, presents the advantage of being practically insensitive to calibration errors. The minimum discrepancy between the tidal parameters of M2 and S2 corresponds to the minimum of the RES vector norm d.

Secondly we adopt the hybrid pressure correction method, separating the local and the global pressure contribution of the models and replacing the local contribution by the pressure measured at the station multiplied by an admittance k_ATM.

We tested this procedure on 8 stations from the IGETS superconducting gravimeters network (former GGP network). For stations at an altitude lower than 1000 m, the value of d_opt is always smaller than 0.0005. The discrepancy between the tidal parameters of the M2 and S2 waves is always lower than 0.05% on the amplitude factors and 0.025° on the phases. For these stations, a correlation exists between the altitude and the value k_opt. The results at the three Central European stations Conrad, Pecny and Vienna are in excellent agreement (0.05%) with the DDW99NH model for all the main tidal waves.

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重力潮汐记录中压力波的影响

为了减少大气效应，观测到的重力最初已通过使用原位测量压力的计算气压导纳k进行校正，以nms−2/hPa单位表示，并通过最小二乘法估计。然而，当相干压力场超过一定尺寸时，即周期性增加时，仅局部压力变化不能解释大气质量的吸引和载荷。为了克服这一困难，有必要利用全球压力场计算每个站的总大气效应。然而，对于S2和其他潮汐分量，如K2和P1，其中包括太阳加热压力潮，压力校正模型提供的直接减去总重力效应还不能令人满意。本文指出了问题的根源，并提出了获得满意解决方案的策略。首先，对压力和海潮效应进行校正后，建立M2和S2潮汐因子差向量。该矢量(以下记为RES)具有对校准误差不敏感的优点。M2和S2潮汐参数差值的最小值对应于RES矢量范数d的最小值。其次，采用混合压力校正方法，分离模型的局部和全局压力贡献，用站内实测压力乘以导纳kATM代替局部压力贡献。我们在IGETS超导重力仪网络(原GGP网络)的8个台站上测试了该程序。对于海拔低于1000m的台站，采用的值始终小于0.0005。M2波和S2波的潮汐参数在振幅因子上的差异小于0.05%，在相位上的差异小于0.025°。对于这些台站，海拔高度与kopt值之间存在相关性。在康拉德、佩尼和维也纳三个中欧台站的结果与DDW99NH模型对所有主要潮汐波的预测结果非常吻合(0.05%)。

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

Geodesy and Geodynamics GEOCHEMISTRY & GEOPHYSICS-

CiteScore

4.40

自引率

4.20%

发文量

566

审稿时长

69 days

期刊介绍： Geodesy and Geodynamics launched in October, 2010, and is a bimonthly publication. It is sponsored jointly by Institute of Seismology, China Earthquake Administration, Science Press, and another six agencies. It is an international journal with a Chinese heart. Geodesy and Geodynamics is committed to the publication of quality scientific papers in English in the fields of geodesy and geodynamics from authors around the world. Its aim is to promote a combination between Geodesy and Geodynamics, deepen the application of Geodesy in the field of Geoscience and quicken worldwide fellows'' understanding on scientific research activity in China. It mainly publishes newest research achievements in the field of Geodesy, Geodynamics, Science of Disaster and so on. Aims and Scope: new theories and methods of geodesy; new results of monitoring and studying crustal movement and deformation by using geodetic theories and methods; new ways and achievements in earthquake-prediction investigation by using geodetic theories and methods; new results of crustal movement and deformation studies by using other geologic, hydrological, and geophysical theories and methods; new results of satellite gravity measurements; new development and results of space-to-ground observation technology.