[Altamimi, Z., L. Métivier, & X. Collilieux (2012), ITRF2008 plate motion model, J.Geophys. Res., 117, B07402,10.1029/2011JB008930]Search in Google Scholar
[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: 10.1029/2011GC00375110.1029/2011GC003751]Search in Google Scholar
[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, 2039-2042.10.1029/91GL01532]Search in Google Scholar
[Bowin, C. (2010). Plate tectonics conserves angular momentum, eEarth, 5, 1-20, DOI:10.5194/ee-5-1-2010.10.5194/ee-5-1-2010]Search in Google Scholar
[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) 211-219.10.1016/j.tecto.2015.10.023]Search in Google Scholar
[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]Search in Google Scholar
[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. 1-1110.1007/978-3-540-74882-3_3]Search in Google Scholar
[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.]Search in Google Scholar
[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]Search in Google Scholar
[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, 756-766.10.1007/s001900000147]Search in Google Scholar
[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.2003.12.00310.1016/j.gloplacha.2003.12.003]Search in Google Scholar
[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]Search in Google Scholar
[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]Search in Google Scholar
[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, 2009.10.1007/978-3-642-00860-3_15]Search in Google Scholar
[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.]Search in Google Scholar
[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]Search in Google Scholar
[International Earth Rotation Service [Electronic resource]: IERS. - link: https://www.iers.org]Search in Google Scholar
[Jiang Wei-Ping, (2009). New Model of Antarctic Plate Motion and Its Analysis. Chinese Journal of Geophysics Vol.52, No.1. 23-32.]Search in Google Scholar
[Johnstone G. (2002) SCAR Geodetic Control Database, Antarctic Geodesy Symposium 2002 Wellington, New Zealand, 25-27]Search in Google Scholar
[Konovalov G.V. & Mekkel A.M. (2009) Shkaly vremeni: istoriya, reglamentatsiya v rekomendatsiyakh MSE i voploshcheniyev modelyakh. Naukovі zapiski (Proceedings), 3 (11), 4 - 16.]Search in Google Scholar
[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.]Search in Google Scholar
[Nevada Geodetic Laboratory [Electronic resource]: NGL. - link: http://geodesy.unr.edu/index.php]Search in Google Scholar
[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) 32-4110.1016/j.epsl.2014.04.019]Search in Google Scholar
[Pandul Y.S. (2010) Heodezycheskaya astronomyya prymenytelno k reshenyyu ynzhenerno-heodezycheskyx zadach. SPb. Polytexnyka (Polytechnic), 328. ISBN 978-5-7325-0924-3]Search in Google Scholar
[Scientific Committee on Antarctic Research [Electronic resource]: SCAR http://www.scar.org/]Search in Google Scholar
[Script Orbit and Permanent Array Center [Electronic resource]: SOPAC. - link: http://sopac.ucsd.edu/]Search in Google Scholar
[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, 2002.10.1029/2000JB000033]Search in Google Scholar
[Sydorenkov N.S. (2004), Pryroda nestabylnostej vrashhenyya Zemly, Pryroda [Nature], 8, 8 - 18.]Search in Google Scholar
[Tretyak K.R. & Holubinka Yu.I. (2006). Ocinka ta dyferenciaciya ruxiv Zemnoyi kory Antarktydy, UAZh, № 4-5, 72-83]Search in Google Scholar
[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.2015.004610.13168/AGG.2015.0046]Search in Google Scholar
[Zharov V.Y. (2002). Sfericheskaya astronomiya, Moskva, 480.]Search in Google Scholar
[Zotov L.V. (2005). Vrashcheniye Zemli:analiz variatsiy i ikh prognozirovaniye. Gosudarstvennyy astronomicheskiy institut im. P.K. Shternberga. MGU, g. Moskva.]Search in Google Scholar