Geo-kinematics of Central Europe inferred from long-term monitored regional and local GPS networks

• Autorzy: Hefty J.
• Konferencja: Studies of the Earth Crust Deformation in Central Europe / Procedings of the Seminar (29-30. 10. 2008; Astro-Geodetic Observatory in Józefosław)
• Języki publikacji: EN

Słowa kluczowe

EN

Central Europe; GPS networks; velocity field; geokinematics

PL

Europa Środkowa; sieci GPS; pole prędkości; geokinematyka

• Wydawca: Wydział Geodezji i Kartografii Politechniki Warszawskiej
• Czasopismo: Reports on Geodesy
• Rocznik: 2008
• Tom: z. 2/85
• Strony: 9--18
• Opis fizyczny: Bibliogr. 15 poz., rys.

Twórcy

autor

Hefty J.

• Department of Theoretical Geodesy, SIovak University of Technology, Radlinskeho 11, 813 68 Bratislava, Slovakia

Bibliografia

• 1. Altiner, Y., Bačič, Ž, Bašič, T., Coticchia, A., Medved, M., Mulič, M., Nurce, B. (2006) Present-day tectonics in andaround the Adria plateinferred from GPS measuremets.Geological Society of America Special Paper 409. pp. 43 – 55.
• 2. Caporali, A., Martin, S., Massioroni, M. (2003) Ave rage strain rate in the Italian crust inferred from a permanent GPS network – II. Strain rate versus seismicity and structural geology. Geophys. J. Int. 155. pp. 254 – 268.
• 3. Caporali, A. et al. (2008) Geokonematics of Central Europe: New insight from the CERGOP/2 Environment project. Journal of Geodynamics, Vol. 45, 4-5, 246-256.
• 4. EPN (2008) The EPN Coordinate Time Series Analysis Special Project. Available at www.epncb.oma.be
• 5. Fejes, I. and Pesec, P. (2003) CERGOP-2/Environment – a challenge for the next 3 years. Proc. Of EGS-AGU-EUG G17 Symposium, Nice, 2003. Reports on Geodesy No.1 (64), 13-22.
• 6. Grenerczy, Gy. (2002) Tectonic Processes in the Eurasian-African Plate Boundary Zone Revealed by Space Geodesy. Plate boundary zones, AGU Monograph Geodynamic Series Volume 30.
• 7. Hefty, J. (2006) Work Package 5 of the CERGOP-2/Environment: GPS data analysis and the definition of reference frames. Final report: April 2003 – July 2006. Reports on Geodesy 3 (78), pp 51-84.
• 8. Hefty, J. (2007) Geo-kinematics of Central and South-east Europe resulting from combination of various regional GPS velocity fields. Acta Geodyn. Geometer., Vol. 4 (148), 173-189.
• 9. Hefty, J. (2008) Densification of the Central Europe velocity field using velocities from local and regional geokinematical projects. Geophysical research abstracts, Vol. 10/2008, Abstracts of the Contributions of the EGU GA, Vienna, Austria, 13-18 April, 2008.
• 10. Hefty, J. and Kovac, M. (2004) Detection of intraplate motion within the territory of Slovakia and their importance for reference frame realisation. Recent status and progress in reference frames, Brno, Institute of Geodesy, Technical University in Brno, pp 60 – 68 (in Slovak).
• 11. Hefty, J., Igondová, M., Hrčka, M. (2005) Contribution of GPS permanent stations in Central Europe to regional geo-kinematical investigations. Acta geodynamica et geomaterialia 2, No. 3, (139), pp 75-86.
• 12. Hoeven, A., Scmitt, G., Dinter, G., Mocanu, V. and Spakman, W. (2004) GPS probes the kinematics of the Vrancea seismogenic zone. EOS transactions, 19, 85, 185-196.
• 13. Leitmannova, K., Klobusiak, M., Priam, S., Ferianc, D.: (2002) SKTRF 2001 – Reference frame for national spatial network. Geodetic reference systems, Bratislava, Slovak University of Technology, pp 137 – 148 (in Slovak).
• 14. Milev, G., Vassileva, K., Becker, M., Kirchner, M. (2005) Analysis of the EUREF stations stability on the territory of Bulgaria. EUREF Symposium 2005, Vienna, Austria.
• 15. Pany, T., Pesec, P., Stangl, G. (2001) Network monitoring at the OLG Analysis Centre. Presented at the Euref Symposium 2001, Dubrovnik, Croatia.