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• Adamia, S., Chabukiani, A., Chkhotua, T., Sadradze, N., Zakaraia, S., Zakariadze, G., Geological Map of the Caucasus. Scale 1:1,000,000. 2010, University of Tbilisi, Georgia.
• Adamia, S., Zakariadze, G., Chkhotua, T., Sadradze, N., Tsereteli, N., Chabukiani, A., Gventsadze, A., Geology of the caucasus: a review. Turk. J. Earth Sci. 20 (2011), 489–544.
• Adamia, S., Alania, V., Tsereteli, N., Varazanashvili, O., Sadradze, N., Lursmanashvili, N., Gventsadse, A., Postcollisional tectonics and seismicity of Georgia. Sorkhabi, R., (eds.) Tectonic Evolution, Collision, and Seismicity of Southwest Asia: in Honor of Manuel Barberian's Forty-Five Years of Research Contributions, vol. 525, 2017, Geological Society of America Special Paper, 535–572.
• Agard, P., Omrani, J., Jolivet, L., Mouthereau, F., Convergence history across Zagros (Iran): constraints from collisional and earlier deformation. Int. J. Earth Sci. 94 (2005), 401–419.
• Alania, V., Chabukiani, A., Chagelishvili, R., Enukidze, O., Gogrichiani, K., Razmadze, A., Tsereteli, N., Growth structures, piggy-back basins and growth strata of the Georgian part of the Kura foreland fold-thrust belt: implications for late Alpine kinematic evolution. Sosson, M., Stephenson, R.A., Adamia, S.A., (eds.) Tectonic Evolution of the Eastern Black Sea and Caucasus, vol. 428, 2017, Geological Society, London, Special Publications, 171–185.
• Alania, V., Melikadze, G., Pace, P., Fórizs, I., Beridze, T., Enukidze, O., Giorgadze, A., Razmadze, A., Deformation structural style of the Rioni foreland fold-and-thrust belt, western Greater Caucasus: Insight from the balanced cross-section. Front. Earth Sci., 10, 2022, 10968386.
• Ali-Zadeh, S.A., Bayramov, A.A., Gavrilov, D.M., Ibragimova, N.S., Mamedov, A.V., Shirinov ринов, F.Sh, The Map of Quaternary Deposits of Azerbaijan SSR. Scale 1:500,000. М. 1975, Aerogeologiya, Ministry of Geology of USSR (in Russian).
• Alizadeh, A.A., Guliyev, I.S., Kadirov, F.A., Eppelbaum, L.V., Geosciences of Azerbaijan. Volume I: Geology. Regional Geology Reviews. 2016, Springer International Publishing, Switzerland, 214.
• Allen, M.B., Armstrong, H.A., Arabia-Eurasia collision and the forcing of mid-Cenozoic global cooling. Palaeogeogr. Palaeoclimatol. Palaeoecol. 265 (2008), 52–58.
• Allen, M., Jackson, J., Walker, R., Late Cenozoic reorganization of the Arabia- Eurasia collision and the comparison of short-term and long-term deformation rates. Tectonics, 23(16), 2004, TC2008, 10.1029/2003TC001530.
• Armijo, R., Rauld, R., Thiele, R., Vargas, G., Campos, J., Lacassin, R., Kausel, E., The West andean thrust, the san ramón fault, and the seismic hazard for santiago, Chile. Tectonics, 29, 2010, TC2007, 10.1029/2008TC002427.
• Avagyan, A., Sosson, M., Karakhanian, A., Philip, H., Rebai, S., Rolland, Y., Melkonyan, R., Davtyan, V., Recent tectonic stress evolution in the Lesser Caucasus and adjacent regions. Sosson, M., Kaymakci, N., Stephenson, R.A., Bergerat, F., Starostenko, V., (eds.) Sedimentary Basin Tectonics from the Black Sea and Caucasus to the Arabian Platform, vol. 340, 2010, Geological Society, London, Special Publications, 393–408.
• Babayev, G., Yetirmishli, G., Kazimova, S., Kadirov, F., Telesca, L., Stress field pattern in the Northeastern part of Azerbaijan. Pure Appl. Geophys. 177 (2020), 2739–2751.
• Babayev, G.R., Agayeva, S.T., Strong earthquakes in Azerbaijan for historical and contemporary periods (conceptual review). Geofiz. Zh. Orig. 43:3 (2021), 106–122.
• Bairamov, A.A., Geological Map of Azerbaijan Republic, Scale 1:500,000. other 14 authors, 2008, National Academy of Science of Azerbaijan Republic.
• Banks, C.J., Robinson, A.G., Williams, M.P., Structure and regional tectonics of the Achara-Trialet fold belt and the adjacent Rioni and Kartli foreland basins, Republic of Georgia. Robinson, A.G., (eds.) Regional and Petroleum Geology of the Black Sea and Surrounding Region, vol. 68, 1997, American Association of Petroleum Geologists Memoir, 331–346.
• Bard, P.-Y., et al. Microtremor measurements : a tool for site effect estimation. The effects of surface geology on seismic motion 3 (1999), 1251–1279.
• Berberian, M., Seismic sources of the Transcaucasian historical earthquakes. Historical and prehistorical earthquakes in the Caucasus. NATO ASI Series 28 (1997), 233–311.
• Blaser, L., Krüger, F., Ohrnberger, M., Scherbaum, F., Scaling relations of earthquake source parameter estimates with special focus on subduction environment. Bull. Seismol. Soc. Am. 100:6 (2010), 2914–2926.
• Bonini, M., Passive roof thrusting and forelandward fold propagation in scaled brittle-ductile physical models of thrust wedges. J. Geophys. Res. 106:B2 (2001), 2291–2311.
• Bonnefoy-Claudet, S., Nature du bruit de fond sismique : implications pour les études des effets de site. Thèse de doctorat, 2004, Université Joseph-Fourier - Grenoble I, Grenoble, 241.
• Bryant, W.A., Hart, E.W., Fault-Rupture hazard zones in California. Alquist-priolo earthquake fault zoning act with index to earthquake fault zones maps. California Geological Survey, spec. Publ., 42, 2007, 42.
• Bull, W.B., McFadden, L., Tectonic geomorphology north and south of the garlock fault, California. O Dohering, D., (eds.) Geomorphology in Arid Regions, Publ, 1977, Geomorphology, State University of New York, Binghamton, 115–138.
• Bull, W.B., Tectonic Geomorphology of Mountains. A New Approach to Paleoseismology. 2007, Blackwell Publishing, Oxford.
• Burbank, D.W., Anderson, R.S., Tectonic Geomorphology. 2001, Blackwell Scientific Publications, Oxford.
• Butler, R.W., The terminology of structures in thrust belts. J. Struct. Geol. 4:3 (1982), 239–245.
• Chapple, W.M., Mechanics of thin-skinned fold-and-thrust belts. Geol. Soc. Am. Bull. 89:8 (1978), 1189–1198.
• Coward, M.P., De Donatis, M., Mazzoli, S., Paltrinieri, W., Wezel, F.C., Frontal part of the northern Apennines fold and thrust belt in the Romagna-Marche area (Italy): shallow and deep structural styles. Tectonics 18:3 (1999), 559–574.
• Davis, D., Suppe, J., Dahlen, F.A., Mechanics of fold-and-thrust belts and accretionary wedges. J. Geophys. Res. Solid Earth 88:B2 (1983), 1153–1172.
• Dean, S.L., Morgan, J.K., Fournier, T., Geometries of frontal fold and thrust belts: insights from discrete element simulations. J. Struct. Geol. 53 (2013), 43–53.
• DeCelles, P.G., Gehrels, G.E., Quade, J., Kapp, P.A., Ojha, T.P., Upreti, B.N., Neogene foreland basin deposits, erosional unroofing, and the kinematic history of the Himalayan fold-thrust belt, western Nepal. Geol. Soc. Am. Bull. 110 (1998), 2–21, 10.1130/0017606(1998)110\0002:NFBDEU[2.3.CO;2.
• Demanet, D., Renardy, F., Vanneste, K., Jongmans, D., Camelbeeck, T., Meghraoui, M., The use of geophysical prospecting for imaging active faults in the Roer Graben, Belgium. Geophysics 66:1 (2001), 78–89, 10.1190/1.1444925.
• Dotduyev, S.I., Nappe structure of the greater caucasus range. Geotectonics 20:5 (1986), 420–430.
• Ershov, A.V., Brunet, M.F., Nikishin, A.M., Bolotov, S.N., Nazarevich, B.P., Korotaev, M.V., Northern Caucasus basin: thermal history and synthesis of subsidence models. Sediment. Geol. 156:1–4 (2003), 95–118.
• Forte, A.M., Cowgill, E., Bernardin, T., Kreylos, O., Hamann, B., Late cenozoic deformation of the Kura fold-thrust belt, southern greater caucasus. Geol. Soc. Am. Bull. 122 (2010), 465–486.
• Forte, A.M., Cowgill, E., Murtuzayev, I., Kangarli, T., Stoica, M., Structural geometries and magnitude of shortening in the eastern Kura fold-thrust belt, Azerbaijan: implications for the development of the Greater Caucasus Mountains. Tectonics 32 (2013), 688–717.
• Forte, A.M., Cowgill, E., Whipple, K.X., Transition from a singly vergent to doubly vergent wedge in a young orogen: the Greater Caucasus. Tectonics, 33(11), 2014, 2014TC003651.
• Forte, A.M., Whipple, K.X., Cowgill, E., Drainage network reveals patterns and history of active deformation in the eastern Greater Caucasus. Geosphere 11 (2015), 1343–1364.
• Hammerstein, J.A., Di Cuia, R., Cottam, M.A., Zamora, G., Butler, R.W., Fold and thrust belts: structural style, evolution and exploration–an introduction. Geological Society, London, Special Publications 490:1 (2020), 1–8.
• Havenith, H.B., Jongmans, D., Faccioli, E., Abdrakhmatov, K., Bard, P.Y., Site effect analysis around the seismically induced Ananevo rockslide, Kyrgyzstan. Bull. Seismol. Soc. Am. 92:8 (2002), 3190–3209, 10.1785/0120010206.
• Hung, J.H., Wiltschko, D.V., Lin, H.-C., Hickman, J., Fang, P., Bock, Y., Structure and motion of the southwestern taiwan fold and thrust belt. TAO 10:3 (1999), 543–568.
• Ismail-Zadeh, A., Adamia, S., Chabukiani, A., Chelidze, T., Cloetingh, S., Floyd, M., Gorshkov, A., Gvishiani, A., Ismail-Zadeh, T., Kaban, M.K., Kadirov, F., Karapetyan, J., Kangarli, T., Kiria, J., Koulakov, I., Mosar, J., Mumladze, T., Müller, B., Sadradze, N., Safarov, R., Schilling, F., Soloviev, A., Geodynamics, seismicity, and seismic hazards of the Caucasus. Earth Sci. Rev., 207, 2020, 103222, 10.1016/j.earscirev.2020.103222.
• Jackson, J., Partitioning of strike-slip and convergent motion between Eurasia and Arabia in eastern Turkey. J. Geophys. Res. 97 (1992), 12471–12479.
• Jones, P.B., Triangle zone geometry, terminology, and kinematics. Bull. Can. Petrol. Geol. 44:2 (1996), 139–152.
• Kadirov, F., Floyd, M., Alizadeh, A., Guliev, I., Reilinger, R., Kuleli, S., King, R., Nafi Toksoz, M., Kinematics of the eastern caucasus near baku, Azerbaijan. Nat. Hazards 63 (2012), 997–1006.
• Kadirov, F., Floyd, M., Reilinger, R., Alizadeh, AkA., Guliyev, I.S., Mammadov, S.G., Safarov, R.G., Active geodynamics of the Caucasus region: implications for earthquake hazards in Azerbaijan. Proc. Azerb. Nat. Acad. Sci., Sci. Earth 3 (2015), 3–17.
• Kadirov, F., Mammadov, S., Reilinger, R., McClusky, S., Some new data on modern tectonic deformation and active faulting in Azerbaijan (according to Global Positioning System measurements). Proc. Azerbaijan Natl. Acad. Sci. Earth's Sci. 1 (2008), 82–88.
• Kangarli, T.N., Kadirov, F.A., Etirmishli, G.D., Aliev, F.A., Kazimova, S.E., Aliev, A.M., Safarov, R.T., Vakhabov, U.G., Geodynamics, active faults and earthquake source mechanisms in the zone of pseudosubduction interaction of continental microplates in the South and North Caucasus (southern slope of the Greater Caucasus, Azerbaijan). Geodyn. Tectonophys. 9 (2018), 1099–1126, 10.5800/GT-2018-9-4-0385.
• Karakhanian, A., Vernant, P., Doerflinger, E., Avagyan, A., Philip, H., Aslanyan, R., Champollion, C., Arakelyan, S., Collard, P., Baghdasaryan, H., Peyret, M., Davtyan, V., Calais, E., Masson, F., GPS constraints on continental deformation in the Armenian region and Lesser Caucasus. Tectonophysics 592 (2013), 39–45.
• Keller, E.A., Pinter, N., Active Tectonics: Earthquakes, Uplift, and Landscape. second ed., 2002, Prentice Hall.
• Koçyiğit, A., Yılmaz, A., Adamia, S., Kuloshvili, S., Neotectonics of east anatolia plateau (Turkey) and lesser caucasus: implication for transition from thrusting to strike-slip faulting. Geodin. Acta 14 (2001), 177–195.
• Lachet, C., Bard, P.-Y., Numerical and theoretical investigations on the possibilities and limitations of Nakamura's Technique. J. Phys. Earth 42:5 (1994), 377–397, 10.4294/jpe1952.42.377.
• Lander, A.V., The FA2002 Program System to Determine the Focal Mechanisms of Earthquakes in Kamchatka, the Commander Islands and the Northern Kuriles. 2004, Report KEMSD GS RAS, Petropavlovsk-Kamchatsky, 250.
• Lazarev, S., Jorissen, E., van de Velde, S., Rausch, L., Stoica, M., Wesselingh, F., Van Baak, C., Yanina, T., Aliyeva, E., Krijgsman, W., Magneto-biostratigraphic age constraints on the palaeoenvironmental evolution of the South Caspian basin during the Early-Middle Pleistocene (Kura basin, Azerbaijan). Quat. Sci. Rev., 222, 2019, 10.1016/j.quascirev.2019.105895.
• Lee, W., Larh, S., HYPO-71 (Revised): a Computer Program for Determining Hypocenter, Magnitude and First-Motion Pattern of Local Earthquakes., 1975, U.S. Geological Survey Open File Report 75-311.
• McCalpin, J.P., Carver, G.A., Paleoseismology of compressional tectonic environments. Int. Geophys. 95 (2009), 315–419.
• McQuarrie, N., van Hinsbergen, D.J.J., Retrodeforming the Arabia-Eurasia collision zone: age of collision versus magnitude of continental subduction. Geology 41 (2013), 315–318.
• Mosar, J., Kangarli, T., Bochud, M., Glasmacher, U.A., Rast, A., Brunet, M.F., Sosson, M., Cenozoic–recent tectonics and uplift in the greater caucasus: a perspective from Azerbaijan. Sosson, M., Kaymakci, N., Stephenson, R.A., Bergerat, F., Starostenko, V., (eds.) Sedimentary Basin Tectonics from the Black Sea and Caucasus to the Arabian Platform, vol. 340, 2010, Geological Society, London, Special Publication, 261–280.
• Mugnier, J.L., Huyghe, P., Gajurel, A.P., Becel, D., Frontal and piggy-back seismic ruptures in the external thrust belt of Western Nepal. J. Asian Earth Sci. 25:5 (2005), 707–717.
• Mukul, M., The geometry and kinematics of the Main Boundary Thrust and related neotectonics in the Darjiling Himalayan fold-and-thrust belt, West Bengal, India. J. Struct. Geol. 22:9 (2000), 1261–1283.
• Nakamura, Y., A method for dynamic characteristics estimation of subsurface using microtremor on the ground surface. Railway Technical Research Institute, Quarterly Reports, 30(1), 1989.
• Nalivkin, D.V., Geologic Map of the Caucasus (In Russian): Ministry of Geology, Union of Soviet Socialist Republics. 1976 scale 1:500,000.
• Nalivkin, V.D., Dynamics of the development of the Russian platform structures. Dev. Geotectonics 12 (1976), 247–262.
• Nikonov, A.A., A very powerful earthquake in the greater caucasus mountains, january 14, 1668. Izvestiya Phys. Solid Earth 18 (1982), 713–724.
• Nogoshi, M., Igarashi, T., On the propagation characteristics of microtremors. J. Seism. Soc. Japan 23 (1970), 264–280.
• Okay, A.I., Zattin, M., Cavazza, W., Apatite fission-track data for the Miocene Arabia-Eurasia collision. Geology 38 (2010), 35–38.
• Onur, T., Gok, R., Godoladze, T., Gunia, I., Boichenko, G., Buzaladze, A., Tumanova, N., Dzmanashvili, M., Sukhishvili, L., Javakishvili, Z., Cowgill, E., Bondar, I., Yetirmishli, G., Probabilistic Seismic Hazard Assessment for Georgia (No. LLNL-TR-771451). 2019, Lawrence Livermore National Lab., Livermore, CA, USA.
• Onur, T., Gok, R., Godoladze, T., Gunia, I., Boichenko, G., Buzaladze, A., Tumanova, N., Dzmanashvili, M., Sukhishvili, L., Javakishvili, Z., Cowgill, E., Bondár, I., Yetirmishli, G., Probabilistic seismic hazard assessment using legacy data in Georgia. Seismol Res. Lett. 91:3 (2020), 1500–1517.
• Pandey, M.R., Tandukar, R.P., Avouac, J.P., Lavé, J., Massot, J.P., Evidence for recent interseismic strain accumulation on a mid-crustal ramp in the central Himalaya of Nepal. Geophys. Res. Lett. 22 (1995), 751–758, 10.1029/94GL02971.
• Pánek, T., Břežný, M., Havenith, H.B., Tibaldi, A., Landslides and growing folds: a lesson from the Kura fold-and-thrust belt (Azerbaijan, Georgia). Geomorphology, 449, 2024, 109059.
• Pasquarè Mariotto, F., Tormey, D., Vezzoli, L., Okrostsvaridze, A., Tutberidze, B., Mitigating the consequences of extreme events on strategic facilities: evaluation ofvolcanic and seismic risk affecting the Caspian oil and gas pipelines in the Republic of Georgia. J. Environ. Manag. 92 (2011), 1774–1782.
• Philip, H., Cisternas, A., Gvishiani, A., Gorshkov, A., The Caucasus: an actual example of the initial stages of continental collision. Tectonophysics 161 (1989), 1–21, 10.1016/0040-1951(89)90297-7.
• Pierce, I., Guliyev, I., Yetirmishli, G.J., Muradov, R., Kazimova, S., Javanshir, R., Johnson, B., Marshall, N., Walker, R.T., Wordsworth, P., Surface rupturing earthquakes of the greater caucasus frontal thrusts, Azerbaijan. Author, 2022, 10.22541/essoar.167152213.30022523/v1 submitted for publication.
• Rajendran, C.P., John, B., Rajendran, K., Medieval pulse of great earthquakes in the central Himalaya: viewing past activities on the frontal thrust. J. Geophys. Res. Solid Earth 120:3 (2015), 1623–1641.
• Rautian, T.G., On the determination of the energy of earthquakes at a distance of 3000 km. Eksperimental'naia seismika. Trudy IFZ ANSSSR(32), 1964, 199.
• Rautian, T.G., Khalturin, V.I., The use of the coda for determination of the earthquake source spectrum. Bull. Seismol. Soc. Am. 68:4 (1978), 923–948.
• Reilinger, R., Barka, A., GPS constraints on fault slip rates in the Arabia-Africa-Eurasia plate collision zone: implications for earthquake recurrence times. Giardini, D., Balassanian, S., (eds.) Historical and Prehistorical Earthquakes in the Caucasus, 1997, Kluwer Academic, Dordrecht, 91–108.
• Reilinger, R., McClusky, S., Vernant, P., Lawrence, S., Ergintav, S., Çakmak, R., Özener, H., Kadirov, F., Guliev, I., Stepanyan, R., Nadariya, M., Hahubia, G., Mahmoud, S., Sakr, K., Ar Rajehi, A., Paradissis, D., Al-Aydrus, A., Prilepin, M., Guseva, T., Evren, E., Dmitrotsa, A., Filikov, S.V., Gomez, F., Al-Ghazzi, R., Karam, G., GPS constraints on continental deformation in the Africa–Arabia–Eurasia continental collision zone and implications for the dynamics of plate interactions. J. Geophys. Res., 111, 2006, B05411, 10.1029/2005JB004051.
• Saintot, A., Brunet, M.-F., Yakovlev, F., Sebrier, M., Stephenson, R.A., Ershov, A.V., Chalot-Prat, F., McCann, T., The mesozoic–cenozoic tectonic evolution of the greater caucasus. Gee, D.G., Stephenson, R.A., (eds.) European Lithosphere Dynamics, vol. 32, 2006, Geological Society, London, Memoir, 277–289.
• Seeber, L., Armbruster, J., Great detachment earthquakes along the Himalayan Arc and long-term forecasting. Simpson, D.W., Richards, P.G., (eds.) Earthquake Prediction: an International Review Maurice Ewing Ser., vol. 4, 1981, AGU, 259–277.
• Smeraglia, L., Fabbri, O., Choulet, F., Buatier, M., Boulvais, P., Bernasconi, S.M., Castorina, F., Syntectonic fluid flow and deformation mechanisms within the frontal thrust of a foreland fold-and-thrust belt: example from the Internal Jura, Eastern France. Tectonophysics, 778, 2020, 228178.
• Sokhadze, G., Floyd, M., Godoladze, T., King, R., Cowgill, E.S., Javakhishvili, Z., Hahubia, G., Reilinger, R., Active convergence between the Lesser and Greater Caucasus in Georgia: constraints on the tectonic evolution of the Lesser-Greater Caucasus continental collision. Earth Planet Sci. Lett. 481 (2018), 154–161.
• Sukhishvili, L., Forte, A.M., Merebashvili, G.L.J., Whipple, K.X., Javakhishvili, Z., Heimsath, A., Godoladze, T., Active deformation and Plio-Pleistocene fluvial reorganization of the western Kura fold–thrust belt, Georgia: implications for the evolution of the Greater Caucasus Mountains. Geol. Mag. 158 (2021), 583–597.
• Suppe, J.O.H.N., Namson, J., Fault-bend origin of frontal folds of the western Taiwan fold-and-thrust belt. Petrol. Geol. Taiwan, 16(22), 1979, 1.
• Takaku, J., Tadono, T., Doutsu, M., Ohgushi, F., Kai, H., Updates of ‘AW3D30'ALOS global digital surface model with other open access datasets. Int. Arch. Photogram. Rem. Sens. Spatial Inf. Sci. 43 (2020), 183–189.
• Tan, O., Taymaz, T., Active tectonics of the Caucasus: earthquake source mechanisms and rupture histories obtained from inversion of teleseismic body waveforms. Dilek, Y., Pavlides, S., (eds.) Postcollisional Tectonics and Magmatism in the Mediterranean Region and Asia, vol. 409, 2006, Geological Society of America Special Paper, 531–578.
• Tari, G., Vakhania, D., Tatishvili, G., et al. Stratigraphy, structure and petroleum exploration play types of the Rioni Basin, Georgia. Geol. Soc. Lond. Spec. Publ. 464 (2018), 403–438.
• Tavani, S., Storti, F., Lacombe, O., Corradetti, A., Muñoz, J.A., Mazzoli, S., A review of deformation pattern templates in foreland basin systems and fold-and-thrust belts: implications for the state of stress in the frontal regions of thrust wedges. Earth Sci. Rev. 141 (2015), 82–104.
• Tevelev, A.V., Blyumkin, E.I., Comparative tectonics from space images of the Kura and Surkhandar'ya depressions. Sov. J. Rem. Sens. 7:3 (1990), 509–516.
• Thakur, V.C., Pandey, A.K., Suresh, N., Late quaternary-holocene frontal fault zone of the garhwal sub himalaya, NW India. J. Asian Earth Sci. 29 (2007), 305–319.
• Tibaldi, A., Russo, E., Bonali, F.L., Alania, V., Chabukiani, A., Enukidze, O., Tsereteli, N., 3-D anatomy of an active fault-propagation fold: a multidisciplinary case study from Tsaishi, western Caucasus (Georgia). Tectonophysics 717 (2017), 253–269.
• Tibaldi, A., Alania, V., Bonali, F.L., Enukidze, O., Tsereteli, N., Kvavadze, N., Varazanashvili, O., Active inversion tectonics, simple shear folding and back-thrusting at Rioni Basin, Georgia. J. Struct. Geol. 96 (2017), 35–53.
• Tibaldi, A., Bonali, F.L., Russo, E., Pasquarè Mariotto, F., Structural development and stress evolution of an arcuate fold-and-thrust system, southwestern Greater Caucasus, Republic of Georgia. J. Asian Earth Sci. 156 (2018), 226–245.
• Tibaldi, A., Tsereteli, N., Varazanashvili, O., Babayev, G., Barth, A., Mumladze, T., Bonali, F.L., Russo, E., Kadirov, F., Yetirmishli, G., Kazimova, S., Active stress field and fault kinematics of the Greater Caucasus. J. Asian Earth Sci., 188, 2020, 104108.
• Tibaldi, A., Babayev, G., Bonali, F.L., Pasquaré Mariotto, F., Russo, E., Tsereteli, N., Corti, N., Active kinematics of the greater caucasus from seismological and GPS data: a review. Building Knowledge for Geohazard Assessment and Management in the Caucasus and other Orogenic Regions, 2021, 33–57.
• Tibaldi, A., de Nardis, R., Torrese, P., Bressan, S., Pedicini, M., Talone, D., Bonali, F.L., Corti, N., Russo, E., Lavecchia, G., A multi-scale approach to the recent activity of the Stradella thrust in the seismotectonic context of the Emilia Arc (northwestern Italy). Tectonophysics, 857, 2023, 229853.
• Trexler, C.C., Cowgill, E., Spencer, J.Q.G., Godoladze, T., Rate of active shortening across the southern thrust front of the Greater Caucasus in western Georgia from kinematic modeling of folded river terraces above a listric thrust. Earth Planet Sci. Lett., 544, 2020, 116362.
• Trexler, C.C., Cowgill, E., Niemi, N.A., Vasey, D.A., Godoladze, T., Tectonostratig-raphy and major structures of the Georgian Greater Caucasus: implications for structural architecture, along-strike continuity, and orogen evolution. Geosphere 18 (2022), 211–240.
• Trexler, C., Cowgill, E., Vasey, D., Niemi, N., Total shortening estimates across the western Greater Caucasus mountains from balanced cross sections and area balancing. Tektonika 1:2 (2023), 198–208.
• Tsereteli, N., Danciu, L., Varazanashvili, O., Sesetyan, K., Qajaia, L., Sharia, T., Svanadze, D., Khvedelidze, I., The 2020 national seismic hazard model for Georgia (sakartvelo). Building Knowledge for Geohazard Assessment and Management in the Caucasus and Other Orogenic Regions, 2021, Springer, Netherlands, 131–168.
• Tsereteli, N., Tibaldi, A., Alania, V., Gventsadse, A., Enukidze, O., Varazanashvili, O., Muller, B.I.R., Active tectonics of central-western Caucasus, Georgia. Tectonophysics 691 (2016), 328–344.
• Vann, I.R., Graham, R.H., Hayward, A.B., The structure of mountain fronts. J. Struct. Geol. 8:3–4 (1986), 215–227.
• Vasey, D.A., Cowgill, E., Roeske, S.M., Niemi, N.A., Evolution of the greater caucasus basement and formation of the main caucasus thrust. Tectonics, 39, 2020, e2019TC005828, 10.1029/2019TC005828.
• von Suchodoletz, H., Gärtner, A., Hoth, S., Umlauft, J., Sukhishvili, L., Faust, D., Late Pleistocene river migrations in response to thrust belt advance and sediment-flux steering—the Kura River (southern Caucasus). Geomorphology 266 (2016), 53–65.
• Walker, R., Yetirmishli, G.J., Pierse, I., Kazimova, S.E., Kazimov, I.E., The first results of paleoseismological studies between oxford university and republican seismic survey center of Anas. Seismoprognosis Observations in the Territory of Azerbaijan 22:2 (2022), 3–8.
• Wathelet, M., GEOPSY geophysical signal database for noise array processing. Software, LGIT, Grenoble, France. https://www.geopsy.org/, 2005.
• Wathelet, M., Chatelain, J.L., Cornou, C., Giulio, G.D., Guillier, B., Ohrnberger, M., Savvaidis, A., Geopsy : a user-friendly open-source tool set for ambient vibration processing. Seismol Res. Lett. 91:3 (2020), 1878–1889, 10.1785/0220190360.
• Wells, D.L., Coppersmith, K.J., New empirical relationships among magnitude, rupture length, rupture width, rupture area, and surface displacement. Bull. Seismol. Soc. Am. 84:4 (1994), 974–1002.
• Yetirmishli, G.J., Kazimov, I.E., Kazimova, A.F., Analysis of modern movements of Earth crust blocks in Azerbaijan according to the data of GPS stations in 2020-2021. Seism. Obs. Territ. Azerbaijan 21 (2022), 19–24.
• Zelenin, E., Bachmanov, D., Garipova, S., Trifonov, V., Kozhurin, A., The Active Faults of Eurasia Database (AFEAD): the ontology and design behind the continental-scale dataset. Earth Syst. Sci. Data 14:10 (2022), 4489–4503.