3D Velocity field of Romania derived from more than 20 years of continuous GPS observations

Alexandra Muntean; Boudewijn Ambrosius; Eduard Ilie Nastase; Ioan Munteanu

doi:https://doi.org/10.5194/egusphere-egu24-17907

[Back] [Session TS4.3]

EGU24-17907, updated on 11 Mar 2024

https://doi.org/10.5194/egusphere-egu24-17907

EGU General Assembly 2024

© Author(s) 2024. This work is distributed under
the Creative Commons Attribution 4.0 License.

3D Velocity field of Romania derived from more than 20 years of continuous GPS observations

Alexandra Muntean¹, Boudewijn Ambrosius², Eduard Ilie Nastase¹, and Ioan Munteanu³

Alexandra Muntean et al.

¹National Institute for Earth Physics, National Seismic Network, Magurele, Romania (muntean@infp.ro; eduard_nastase@infp.ro )
²Faculty of Aerospace Engineering, Delft University of Technology, Delft, TheNetherlands (bacambrosius@gmail.com)
³Faculty of Geology and Geophysics, University of Bucharest, Bucharest, Romania (ioan.munteanu@unibuc.ro)

Abstract

The Earth's surface is continuously transformed, with deep and superficial processes contributing to the present-day morphology. Evaluating the contribution of each process and interaction between tectonics, climate, and human activities is difficult, especially in areas with relatively low crustal deformation.

With this study, we aim to better understand the tectonic and sub-surface geodynamic processes that result in (small) surface motions in Romania. We are particularly interested in the Eastern Carpathians Bending Zone (Vrancea region), where strong deep earthquakes occur. Furthermore, we are focused on the interaction between the Eurasian, and Aegean tectonic plates. For this purpose, we processed more than 20 years of cGPS data from various networks in Romania (more than 100 stations), using the GipsyX software. To put our results in a broader perspective, we also included similar results published in open-source online literature including countries around Romania. Combining all these solutions we generated a velocitiy horizontal and vertical velocity fields for this extended region. All solutions were converted to the Eurasian tectonic reference plate in the ITRF14 plate rotation model.

We find that in general, the horizontal velocity vectors in Romania have small values, ranging from 0.0 mm/yr in the north to 1.5 mm/yr in the south, and notably, the majority of stations indicate a subtle yet significant downward motion of 1.0 -2.0 mm/yr. In contrast, to our expectations, we did not find any significant horizontal and vertical motions in the Vrancea region. The horizontal motions exhibit a strong, generally southward, and gradually increasing trend, starting south of the South Carpathians. The trend is in the direction of the tectonic plates in southeast Europe. It means that the intraplate deformation zone extends to south Romania. The observed patterns contribute to our understanding of intraplate deformation and emphasize the need for continued regional research.

Keywords: crustal deformations, GPS, geophysics, tectonics

Acknowledgments

This paper was carried out within Nucleu Program SOL4RISC, supported by MCI, project no PN23360101, and PNRR- DTEClimate Project nr. 760008/31.12.2023, Component Project Reactive, supported by Romania - National Recovery and Resilience Plan

How to cite: Muntean, A., Ambrosius, B., Nastase, E. I., and Munteanu, I.: 3D Velocity field of Romania derived from more than 20 years of continuous GPS observations, EGU General Assembly 2024, Vienna, Austria, 14–19 Apr 2024, EGU24-17907, https://doi.org/10.5194/egusphere-egu24-17907, 2024.