Investigation of Changes of the Kinematic Parameters of Antarctic Tectonic Plate Using Data Observations of Permanent GNSS Stations
More details
Hide details
National University Lviv Polytechnic. Institute of Geodesy. 79013 Lviv, 12 Bandera street, Lviv, Ukraine
Submission date: 2016-10-27
Acceptance date: 2017-06-14
Online publication date: 2017-08-01
Publication date: 2017-06-27
Reports on Geodesy and Geoinformatics 2017;103:119-135
The paper describes a modified algorithm of determination of the Euler pole coordinates and angular velocity of the tectonic plate, considering the continuous and uneven distribution of daily measurements of GNSS permanent stations. Using developed algorithm were determined the mean position of Euler pole and angular velocity of Antarctic tectonic plate and their annual changes. As the input data, we used the results of observations, collected on 28 permanent stations of the Antarctic region, within the period from 1996 to 2014.
Altamimi, Z., L. Métivier, & X. Collilieux (2012), ITRF2008 plate motion model, J.Geophys. Res., 117, B07402,.
Argus, D. F., Gordon, R. G., & DeMets, C., (2011). Geologically current motion of 56 plates relative to the no-net-rotation reference frame. Geochemistry, Geophysics, Geosystems, vol.12, no.11, DOI: 10.1029/2011GC003751.
Argus, D.F. & R.G. Gordon, (1991). No-net-rotation model of current plate velocities incorporating plate motion model NUVEL-1, Geophys. Res. Lett., 18, 2039-2042.
Bowin, C. (2010). Plate tectonics conserves angular momentum, eEarth, 5, 1-20, DOI:10.5194/ee-5-1-2010.
Berrocoso M., Fernández-Ros A., Prates G., García A. & Kraus S. (2016). Geodetic implications on block formation and geodynamic domains in the South Shetland Islands, Antarctic Peninsula, Tectonophysics 666 (2016) 211-219.
Capra A., Gandolfi S., Mancini F.,Sarti P. & Vittuari L. (2002),“VLNDEF project for crustal deformation control of northern Victoria land” AGS ’01 (Antarctic Geodesy Symposium), St.Petersburg, 2002, N.21, pp.8-10.
Capra, A., Dubbini, M., Galeandro, A., Gusella, L., Zanutta, A., Casula, G., Negusini, M., Vittuari, L., Sarti, P., Mancini, F., Gandolfi, S., Montaguti, M. & Bitelli, G. (2008), VLNDEF project for geodetic infrastructure definition for Northern Victoria Land. Antarctica Geodetic and geophysical observation in Antarctica An overview in the IPY perspective, Springer, 2008, pp. 1-11.
Dalziel, I.W.D., Smalley, R., Kendrick, E., Bevis, M., & Taylor, F.W. (2006) The West Antarctic GPS Network. GPS in the International Polar Year, The POLENET Project Workshop. Dresden, Germany. 04-06 October 2006.
Dietrich R. & Rulke A. (2008) A precise reference frame for antarcica from SCAR GPS campaing data and some geophysical implications Geodetic and geophysical observation in Antarctica An overview in the IPY perspective, Springer, pp. 1-11.
Dietrich R., Dach R. & Engelhardt G. (2001). ITRF coordinates and plate velocities from GPS campaigns in Antarctica - an analysis based on different individual solutions. Journal of Geodesy Vol.74, No.11, 756-766.
Dietrich, R., Rülke, A., Ihde, J., Lindner, K., Miller, H., Niemeier, W., Schenke, H. W. Seeber, G. (2004). Plate kinematics and deformation status of the Antarctic Peninsula based on GPS. Global and Planetary Change, 42 (1), pp. 313-321. DOI: 10.1016/j.gloplacha.2003.12.003.
Donnellan, A. & Luyendyk B. (1999) GPS measurement of isostatic rebound and tectonic deformation in Marie Byrd Land, West Antarctica GPS99 and Asian Pacific Space Geodynamics Program, Abstracts, 1999, Japan, 07-15.
Donnellana A. & Luyendyk Bruce P. (2004), GPS evidence for a coherent Antarctic plate and for postglacial rebound in Marie Byrd Land Global and Planetary Change, Vol. 42, pp. 305 - 311.
Drewes, H. (2009). The Actual Plate Kinematic and Crustal Deformation Model APKIM2005 as basis for a non-rotating ITRF, Geodetic Reference Frames, H. Drewes (Ed.), IAG Symposia, 134, 95-99, Springer, DOI:10.1007/978-3-642-00860-3_15, 2009.
Drewes, H., (1998). Combination of VLBI, SLR and GPS determined station velocities for actual plate kinematic and crustal deformation models. In: M. Feissel (Ed.): Geodynamics, IAG Symposia, Springer 1998.
Drewes, H., & D. Angermann, (2001). The Actual Plate Kinematic and Crustal Deformation Model 2000 (APKIM2000) as a Geodetic Reference System, AIG 2001 Scientific Assembly, Budapest.
International Earth Rotation Service [Electronic resource]: IERS. - link: https://www.iers.org.
Jiang Wei-Ping, (2009). New Model of Antarctic Plate Motion and Its Analysis. Chinese Journal of Geophysics Vol.52, No.1. 23-32.
Johnstone G. (2002) SCAR Geodetic Control Database, Antarctic Geodesy Symposium 2002 Wellington, New Zealand, 25-27.
Konovalov G.V. & Mekkel A.M. (2009) Shkaly vremeni: istoriya, reglamentatsiya v rekomendatsiyakh MSE i voploshcheniyev modelyakh. Naukovі zapiski (Proceedings), 3 (11), 4 - 16.
Marchenko O. M., Tretyak K. R., Kulchyckyj A. Ya., Holubinka Yu. I., Marchenko D. O. amp; Tretyak N. P. (2012) Doslidzhennya hravitacijnoho polya, topohrafiyi okeanu ta ruxiv zemnoyi kory v rehioni Antarktyky. Lviv, Vydavnyctvo Lvivkoyi politexniky (Lviv Polytechnic Publisher), 306.
Nevada Geodetic Laboratory [Electronic resource]: NGL. - link: http://geodesy.unr.edu/index.p....
Nield Grace A., Barletta Valentina R., Bordoni Andrea, King Matt A., Whitehouse Pippa L., Clarke Peter J., Domack Eugene, Scambos Ted A. & Berthier Etienne (2014). Rapid bedrock uplift in the Antarctic Peninsula explained by viscoelastic response to recent ice unloading, Earth and Planetary Science Letters 397 (2014) 32-41.
Pandul Y.S. (2010) Heodezycheskaya astronomyya prymenytelno k reshenyyu ynzhenerno-heodezycheskyx zadach. SPb. Polytexnyka (Polytechnic), 328. ISBN 978-5-7325-0924-3.
Scientific Committee on Antarctic Research [Electronic resource]: SCAR http://www.scar.org/.
Script Orbit and Permanent Array Center [Electronic resource]: SOPAC. - link: http://sopac.ucsd.edu/.
Sella, G.F., T.H. Dixon, & A. Mao (2002). REVEL: A model for recent plate velocities from space geodesy. J. Geophys. Res., 107, B4, DOI:10.1029/2000JB000033, 2002.
Sydorenkov N.S. (2004), Pryroda nestabylnostej vrashhenyya Zemly, Pryroda [Nature], 8, 8 - 18.
Tretyak K.R. & Holubinka Yu.I. (2006). Ocinka ta dyferenciaciya ruxiv Zemnoyi kory Antarktydy, UAZh, № 4-5, 72-83.
Tretyak K.R. & Vovk A.I. (2016). Differentation of the rotational movements of the european continents earth crust. Acta Geodynamica et Geomaterialia, Vol. 13, No. 1 (181), 5 - 18. DOI: 10.13168/AGG.2015.0046.
Zharov V.Y. (2002). Sfericheskaya astronomiya, Moskva, 480.
Zotov L.V. (2005). Vrashcheniye Zemli:analiz variatsiy i ikh prognozirovaniye. Gosudarstvennyy astronomicheskiy institut im. P.K. Shternberga. MGU, g. Moskva.
Journals System - logo
Scroll to top