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The Pieniny Geodynamic Test Field is situated in the middle of the region between the Inner and Outer Carpathians. Geodynamic research conducted in the past in the Pieniny Klippen Belt (PKB) region were suggestive of neotectonic activity. The goal of the investigation was to determine whether the nearby structures, the Podhale Flysh (FP) and the Magura Nappe (MN), are affected by neotectonic activity in the PKB. The goal of the study was to ascertain the velocity and direction of motion of stations situated close to the Pieniny Geodynamic Test Field’s 3 main structures. Twelve GNSS stations, including 6 in the PKB, 3 in the MN, and 3 in the FP, make up the Pieniny Geodynamic Test Field. Three GNSS sites in the Tatra Mountains (TM) complete the entire geodynamic test field. The satellite observations made between 2004 and 2020 (excluding the year 2005 due to lack of observation) were investigated to identify the horizontal movements. Using the IGb14 reference system, the station’s positions and velocities were calculated. First, daily sessions were used to process the horizontal coordinates of the points for an average observation epoch in a given year. Sixteen measurement epochs were included in the long-time solution. Based on the horizontal velocity residues in the north-south and east-west directions, the station’s movement was calculated. The collected results were compared to information from the EUREF Permanent GNSS Network (EUREF) and to the findings of prior research on the tectonic activity of the PKB. The results of horizontal displacements calculated using GNSS measurements in the area of the PKB and nearby structures-the MN and the FP are presented and analyzed in this article.
Słowa kluczowe
Rocznik
Tom
Strony
88--104
Opis fizyczny
Bibliogr. 18 poz., rys., tab.
Twórcy
autor
- Warsaw Univeristy of Technology, Faculty of Geodesy and Cartography, Warsaw, Poland
autor
- Warsaw Univeristy of Technology, Faculty of Geodesy and Cartography, Warsaw, Poland
autor
- Warsaw Univeristy of Technology, Faculty of Geodesy and Cartography, Warsaw, Poland
autor
- Warsaw Univeristy of Technology, Faculty of Geodesy and Cartography, Warsaw, Poland
autor
- Warsaw Univeristy of Technology, Faculty of Geodesy and Cartography, Warsaw, Poland
Bibliografia
- Altamimi Z., Rebischung P., Métivier L., Collilieux X. (2016) ITRF2014: A new release of the International Terrestrial Reference Frame modeling nonlinear station motions, J. Geophys. Res. Solid Earth 2016, 121, 6109-6131.
- Altamimi Z., (2018) EUREF Technical Note 1: Relationship and Transformation between the International and the European Terrestrial Reference Systems. Institut National de l’Information Géographique et Forestière (IGN) , France.
- Birkenmajer K. (1974) Carpathian Mountains. In: M.Spencer (ed.), Mesozoic - Cenozoic Orogenic Belts -data for Orogenic studies, Geological Society Special Publications, London-Edinburgh 4, 127-157.
- Birkenmajer K. (1986) Stages of the structural evolution of the Pieniny Klippen Belt, Carpathians, Studia Geologica Polonica, 88 7-32.
- Blewitt G., Plag H., Bar-Sever Yoaz., Kreemer Corne., Hammond W., Goldfarb J. (2013). GPS Time Series in ITRF and Derivative Frames: Trade-offs Between Precision, Frequency, Latency, and Spatial Filter Scale, 13362-.
- Bruyninx C., Habrich H., Sohne W., Kenyeres A., Stangl G., V ¨ olksen C. (2012), Enhancement ¨ of the EUREF permanent network services and products. Geodesy Planet Earth IAG Symp Ser 136(2012):27-35.
- Czarnecki, K., Barlik M., Czarnecka K., Olszak T., Pachuta A., Szpunar R., Walo J. (2004), Geodynamic studies of the Pieniny Klippen Belt in the Czorsztyn region in 2001-2003. Acta Geodynamica et Geomaterialia. Vol.2, No.3 (139), 33-41.
- Dach R., Andritsch F., Arnold D., Bertone S., Fridez P., Jäggi A., Jean Y., Maier A., Mervart L., Meyer U., Orliac E., Geist E., Prange L., Scaramuzza S., Schaer S., Sidorov D., Susnik A., Villiger A., Walser P., Thaller D. (2015) Bernese GNSS Software Version 5.2., 10.7892/boris.72297.
- Hofmann-Wellenhof B., Lichtenegger H., Wasle E. (2008) GNSS - Global Navigation Satellite Systems. Springer-Verlag Wien, Austria.
- Jurewicz E. (2005) Geodynamic evolution of the Tatra Mts.and the Pieniny Klippen Belt (Western Carpathians): problems and comments. Acta Geologica Polonica, 55, No. 3, 295-338.
- Kersten T., Schon S. (2016) Receiver Antenna Phase Center Models and Their Impact on ¨ Geodetic Parameters. 10.15488/3999.
- Liwosz, T. (2017) Wpływ niepływowych efektow obciążeniowych na współrzędne punktów i realizacje układu odniesienia w regionalnej sieci GPS. Oficyna Wydawnicza Politechniki Warszawskiej, Prace Naukowe Politechniki Warszawskiej. Geodezja, vol. 56, ISBN 978-83-7814-695-7.
- Mader G.L. (1999) GPS Antenna Calibration at the National Geodetic Survey. Journal of Geodesy, 3(1).
- Preweda E., Latoś S. (1997) Geometryczna interpretacja i własności jednopunktowej oraz globalnej oceny dokładności poziomych sieci geodezyjnych. Geodezja i Urządzenia Rolne, Wrocław, ZN AR, XIV ,324.
- Rothacher M., Mader G. (1996) Combination of antenna phase center offsets and variation: antenna calibration set IGS-01, anonymous ftp ubeclu.unibe.ch, June.
- Szafranek K. (2012) The problem of temporal validity of reference coordinates in the context of reliability of the ETRS89 system realization in Poland. Artificial Satellites, 47. 177-188. 10.2478/v10018-012-0023-9.
- Volksen Ch. (2013) EUREF‘s Reprocessing Initiative EPN-Repro 2. ¨ Commission for Geodesy and Glaciology (KEG) Bavarian Academy of Science and Humanities, Brussel.
- Walo J., Próchniewicz D., Olszak T., Pachuta A., Andrasik E., Szpunar R. (2016) Geodynamic studies in the Pieniny Klippen Belt in 2004-2015. Acta Geodynamica et Geomaterialia., 13. 351-362. 10.13168/AGG.2016.0017.
Uwagi
Opracowanie rekordu ze środków MEiN, umowa nr SONP/SP/546092/2022 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2022-2023).
Typ dokumentu
Bibliografia
Identyfikator YADDA
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