Evaluation of a Soviet-Era Gravimetric Survey Using Absolute Gravity Measurements and Global Gravity Models: Toward the First National Geoid of Kazakhstan
Shoganbekova D. Urazaliyev A. Sermiagin R. Nurakynov S. Kozhakhmetov M. Zhaksygul N. Islyamova A.
October 2025Multidisciplinary Digital Publishing Institute (MDPI)
Geosciences (Switzerland)
2025#15Issue 10
Determining a high-precision national geoid is a fundamental step in modernizing Kazakhstan’s vertical reference system. However, the country’s vast territory, complex topography, and limited coverage of modern terrestrial and airborne gravimetric surveys present significant challenges. In this context, Soviet-era gravimetric maps at a 1:200,000 scale remain the only consistent nationwide data source, yet their reliability has not previously been rigorously assessed within modern gravity standards. This study presents the first comprehensive validation of Soviet-era gravimetric surveys using two independent approaches. The first approach is about the comparison of gravity anomalies with the global geopotential models EGM2008, EIGEN-6C4 and XGM2019e_2159. The second approach is about the direct evaluation against absolute gravity measurements from the newly established Qazaqstan Gravity Reference Frame (QazGRF). The analysis demonstrates that, after applying systematic corrections, the Soviet-era gravimetric survey retains high information content. The mean discrepancy with QazGRF measurements is 0.7 mGal with a standard deviation of 2.5 mGal, and more than 90% of the evaluated points deviate by less than ±5 mGal. Larger inconsistencies, up to 20 mGal, are confined to mountainous and geophysically complex regions. In addition, several artifacts inherent to the global models were identified, suggesting that the integration of validated regional gravimetric data can also support future improvements of global gravity models. A key finding was the detection of an artifact in the global models on sheet M43. Its presence was confirmed by comparison with terrestrial gravimetric data and inter-model differences. It was established that the anomaly is caused by inaccuracies in the terrestrial “fill-in” component of the EGM2008 model, which subsequently inherited by later global solutions. The results confirm that Soviet gravimetric maps, once critically re-evaluated and tied to absolute observations, can be effectively integrated with global models. This integration delivers reliable, high-resolution inputs for regional gravity-field modeling. It establishes a robust scientific and practical foundation for constructing the first national geoid of Kazakhstan and for implementing a unified state coordinate and height system. It also helps enhance the accuracy of global geopotential models.
EGM2008 , EIGEN-6C4 , gravity anomaly , gravity field modelling , gravity survey , national geoid , Soviet-era gravimetric maps , XGM2019e_2159
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Institute of Ionosphere, Almaty, 050020, Kazakhstan
International Education Corporation, Almaty, 050043, Kazakhstan
Department of Surveying and Geodesy, Mining and Metallurgical Institute Named After O.A. Baikonurov, Satbayev University, Almaty, 050013, Kazakhstan
RSE National Centre of Geodesy and Spatial Information, Astana, 010000, Kazakhstan
Institute of Ionosphere
International Education Corporation
Department of Surveying and Geodesy
RSE National Centre of Geodesy and Spatial Information
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