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Geodinamica Acta Volume 30, 2018 - Issue 1
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Articles

Mechanics of plio-quaternary faulting around the Karliova triple junction: implications for the deformation of Eastern part of the Anatolian Scholle

Taylan SançarMühendislik Fakültesi, Jeoloji Mühendisliği Bölümü, Munzur Üniversitesi, Aktuluk, Tunceli, Turkey;Ayazağa Yerleşkesi, Avrasya Yer Bilimleri Enstitüsü, İstanbul Teknik Üniversitesi, Maslak, İstanbul, TurkeyCorrespondence[email protected]
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H. Serdar AkyüzAyazağa Yerleşkesi, Maden Fakültesi, Jeoloji Mühendisliği Bölümü, İstanbul Teknik Üniversitesi, Maslak, İstanbul, TurkeyORCID Iconhttp://orcid.org/0000-0001-9485-2017View further author information
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Guido SchreursInstitut für Geologie, Universität Bern, Bern, SchweizView further author information
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Cengiz ZabcıAyazağa Yerleşkesi, Maden Fakültesi, Jeoloji Mühendisliği Bölümü, İstanbul Teknik Üniversitesi, Maslak, İstanbul, TurkeyView further author information
Pages 287-305 | Received 12 Apr 2018, Accepted 05 Oct 2018, Published online: 14 Oct 2018

References

  • Aktuğ, B., Dikmen, U., Dogru, A., & Ozener, H. (2013a). Seismicity and strain accumulation around karliova triple junction (Turkey). Journal of Geodynamics, 67, 21–29.
  • Aktuğ, B., Parmaksız, E., Kurt, M., Lenk, O., Kılıçoğlu, A., Gürdal, M. A., & Özdemir, S. (2013b). Deformation of central anatolia: GPS implications. Journal of Geodynamics, 67(Supplement C), 78–96.
  • Akyuz, H. S., Altunel, E., Karabacak, V., & Yalciner, C. C. (2006). Historical earthquake activity of the northern part of the dead sea fault zone, southern Turkey. Tectonophysics, 426(3–4), 281–293.
  • Allen, C. R. (1969). Active faulting in northern Turkey (Vol. 1577, pp. 32). California: Division of Geological Sciences, California Institute of Technology. ContributionNo. 1577.
  • Ambraseys, N. N., & Jackson, J. A. (1998). Faulting associated with historical and recent earthquakes in the eastern mediterranean region. Geophysical Journal International, 133(2), 390–406.
  • Ambraseys, N. N., & Zatopek, A. (1968). The varto ustukran (Anatolia) earthquake of 19 august 1966 summary of a field report. Bulletin of the Seismological Society of America, 58(1), 47–102.
  • Arpat, E., & Şaroğlu, F. (1975). Türkiye’deki bazı önemli genç tektonik olaylar (on some important young tectonic events in Turkey). Bulletin of the Geological Society of Turkey, 18, 29–41.
  • Avagyan, A., Sosson, M., Karakhanian, A., Philip, H., Rebai, S., Rolland, Y., … Davtyan, V. (2010). Recent tectonic stress evolution in the lesser caucasus and adjacent regions. Geological Society, London, Special Publications, 340(1), 393.
  • Barka, A., Akyüz, H. S., Cohen, H. A., & Watchorn, F. (2000). Tectonic evolution of the niksar and tasova-erbaa pull-apart basins, North anatolian fault zone: Their significance for the motion of the anatolian block. Tectonophysics, 322(3–4), 243–264.
  • Barka, A. A. (1992). The North Anatolian fault zone. Annales Tectonicae, 6(Suppl.), 164–195.
  • Barka, A. A., & Gülen, L. (1988). New constraints on age and total offset of the North anatolian fault zone: Implications for tectonics of the Eastern mediterranean region, 1987 Melin Tokay Symposium (pp. 39–65). Ankara: Spec. Publ. Middle-east Technical University.
  • Barka, A. A., & Kadinsky-Cade, K. (1988). Strike-slip fault geometry in Turkey and its influence on earthquake activity. Tectonics, 7(3), 663–684.
  • Bozkurt, E. (2001). Neotectonics of Turkey; a synthesis. Geodinamica Acta, 14(1–3), 3–30.
  • Byerlee, J. (1978). Friction of rocks. Pure and Applied Geophysics, 116(4–5), 615–626.
  • Cavalié, O., & Jónsson, S. (2014). Block-like plate movements in eastern anatolia observed by InSAR. Geophysical Research Letters, 41(1), 26–31.
  • Cronin, V. S. (1992). Types and kinematic stability of triple junctions. Tectonophysics, 207(3–4), 287–301.
  • Cummings, D. (1976). Theory of plasticity applied to faulting, Mojave Desert, southern California. Geological Society of America Bulletin, 87(5), 720–724.
  • Dewey, J. F., Hempton, M. R., Kidd, W. S. F., Şaroğlu, F., & Şengör, A. M. C. (1986). Shortening of continental lithosphere: The neotectonics of Eastern anatolia – A young collision zone. In M. P. Coward & A. C. Ries (eds.), Collision Tectonics (Vol. 19, pp. 3–36). London: Geological Society Special Publication.
  • Duman, T. Y., & Emre, Ö. (2013). The east anatolian fault: Geometry, segmentation and jog characteristics. In A. H. F. Robertson, O. Parlak, & U. C. Ünlügenç¸ (eds.), Geological development of anatolia and the Easternmost mediterranean region (Vol. 372, pp. 495–529). London: Geological Society, Special Publications.
  • Emre, Ö., Duman, T. Y., Olgun, Ş., Özalp, S., & Elmacı, H. (2012). 1:250.000 Ölçekli Türkiye Diri Fay Haritası Serisi, Erzurum (NJ37-4) Paftası, Seri No:48. Ankara-Türkiye: Maden Tetkik ve Arama Genel Müdürlüğü.
  • Emre, Ö., Özalp, S., Yildirim, C., Özaksoy, V., & Doğan, A. (2005). 12 ve 14 Mart Karlıova Depremleri’nin Değerlendirilmesi. Ankara, Turkey: Maden Tetkik ve Arama Genel Müdürlüğü.
  • Faccenna, C., Becker, T. W., Jolivet, L., & Keskin, M. (2013). Mantle convection in the middle east: reconciling afar upwelling, arabia indentation and aegean trench rollback. Arabia Indentation and Aegean Trench Rollback: Earth and Planetary Science Letters, 375, 254-269. doi:10.1016/j.epsl.2013.05.043
  • Fairbridge, R. W. (1968). The encyclopedia of geomorphology. New York: Reinhold Book Corporation.
  • Gordon, R. G. (1998). THE PLATE TECTONIC APPROXIMATION: Plate nonrigidity, diffuse plate boundaries, and global plate reconstructions. Annual Review of Earth and Planetary Sciences, 26(1), 615–642.
  • Gürboğa, Ş. (2016). The termination of the North anatolian fault system (NAFS) in Eastern Turkey. International Geology Review, 58(12), 1557–1567.
  • Hall, J., Aksu, A. E., Elitez, I., Yaltırak, C., & Çifçi, G. (2014). The fethiye–burdur fault zone: A component of upper plate extension of the subduction transform edge propagator fault linking Hellenic and Cyprus Arcs, Eastern mediterranean. Tectonophysics, 635(Supplement C), 80–99.
  • Hartleb, R. D., Dolan, J. F., Akyuz, H. S., & Yerli, B. (2003). A 2000-year-long paleoseismologic record of earthquakes along the central North anatolian fault, from trenches at Alayurt, Turkey. Bulletin of the Seismological Society of America, 93(5), 1935–1954.
  • Hartmann, W. (1928). in Nadai: Das gleichgewicht lockerer Massen: Plastizitat und Erdruck, Handbuch der Physik (Vol. 6, pp. 484–501). Berlin: Springer-Verlag.
  • Herece, A., & Akay, E. (2003). Kuzey Anadolu Fay (KAF) Atlası/Atlas of North Anatolian Fault (NAF) (pp. 61). Ankara: Maden Tetkik ve Arama Genel Müdürlüğü, Özel Yayın, Ser. 2.
  • Herece, E. 2008. Atlas of East anatolian fault. Special Publication Series. Ankara, Turkey: General Directorate of Mineral Research and Exploration, Special Publication Series.
  • Higgins, M., Schoenbohm, L. M., Brocard, G., Kaymakci, N., Gosse, J. C., & Cosca, M. A. (2015). New kinematic and geochronologic evidence for the quaternary evolution of the Central Anatolian fault zone (CAFZ). Tectonics, 34(10), 2118–2141.
  • Hubert-Ferrari, A., Armijo, R., King, G., Meyer, B., & Barka, A. A. (2002). Morphology, displacement, and slip rates along the North anatolian fault, Turkey. Journal of Geophysical Research, 107(B10), 2235.
  • Hubert-Ferrari, A., King, G., Woerd, J. V. D., Villa, I., Altunel, E., & Armijo, R. (2009). Long-term evolution of the North anatolian fault: New constraints from its eastern termination. Geological Society, London, Special Publications, 311(1), 133–154.
  • Ingles, J., Dauch, C., Soula, J.-C., Viallard, P., & Brusset, S. (1999). Application of the prandtl-nadai cell model to a regional scale fault intersection: The grésigne-quercy block (SW France. Journal of Structural Geology, 21(4), 449–466.
  • Jarvis, A., Reuter, H., Nelson, A., & Guevara, E. (2008). Hole-filled seamless SRTM data V4. International Centre for tropical Agriculture (CIAT). http://srtm.csi.cgiar.org
  • Kanizay, S. P. (1962). Mohr’s theory of strength and prandtl’s compressed cell in relation to vertical tectonics: USGS Professional Paper. Vol. 414-B.
  • Karaoğlu, Ö., Selçuk, A. S., & Gudmundsson, A. (2017). Tectonic controls on the karliova triple junction (Turkey): Implications for tectonic inversion and the initiation of volcanism. Tectonophysics, 694, 368–384.
  • Kaymakçı, N., İnceöz, M., & Ertepınar, P. (2006). 3D- architecture and neogene evolution of the malatya basin: Inferences for the kinematics of the malatya and Ovacik Fault Zones. Turkish Journal of Earth Sciences, 15, 123–154.
  • Ketin, İ. (1969). Kuzey Anadolu Fayı Hakkında. Maden Tetkik ve Arama Dergisi, 72, 1–27.
  • Ketin, İ. (1976). San Andreas ve Kuzey Anadolu Faylari arasinda bir karşılaştırma. Türkiye Jeoloji Kurumu Bülteni, 19, 149–154.
  • Klinkmüller, M., Schreurs, G., Rosenau, M., & Kemnitz, H. (2016). Properties of granular analogue model materials: A community wide survey. Tectonophysics, 684, 23–38.
  • Koçyiğit, A., & Beyhan, A. (1998). A new intra-continental transcurrent structure: The central Anatolian Fault Zone, Turkey. Tectonophysics, 284, 317–336.
  • Kondo, H., Özaksoy, V., & Yıldirim, C. (2010). Slip history of the 1944 bolu-gerede earthquake rupture along the North anatolian fault system: Implications for recurrence behavior of multisegment earthquakes. Journal of Geophysical Research, 115(B4), 1–16.
  • Kozacı, O., Dolan, J. F., & Finkel, R. C. (2009). A late holocene slip rate for the central North anatolian fault, at Tahtaköprü, Turkey, from cosmogenic 10Be geochronology: Implications for fault loading and strain release rates. Journal of Geophysical Research: Solid Earth, 114(B1), 1–12.
  • Le Pichon, X. (1968). Sea-floor spreading and continental drift. Journal of Geophysical Research, 73(12), 3661–3697.
  • Le Pichon, X., Chamot-Rooke, N., L., S., Noomen, R., & Veis, G. (1995). Geodetic determination of the kinematics of central greece with respect to Europe: Implications for eastern mediterranean tectonics. Journal of Geophysical Research: Solid Earth, 100, 12675–12690.
  • Le Pichon, X., & Kreemer, C. (2010). The miocene-to-present kinematic evolution of the Eastern mediterranean and middle East and its implications for dynamics. Annual Review of Earth and Planetary Sciences, 38(1), 323–351.
  • Lohrmann, J., Kukowski, N., Adam, J., & Oncken, O. (2003). The impact of analogue material properties on the geometry, kinematics and dynamics of convergent sand wedges. Journal of Structural Geology, 25, 1691–1711.
  • Marques, F. O., Cobbold, P. R., & Lourenço, N. (2007). Physical models of rifting and transform faulting, due to ridge push in a wedge-shaped oceanic lithosphere. Tectonophysics, 443(1–2), 37–52.
  • McClusky, S., Balassanian, S., Barka, A., Demir, C., Ergintav, S., Georgiev, I., … Veis, G. (2000). Global positioning system constraints on plate kinematics and dynamics in the eastern mediterranean and caucasus. Journal of Geophysical Research, 105(B3), 5695–5719.
  • McKenzie, D. (1972). Active tectonics of the mediterranean region. Geophysical Journal of the Royal Astronomical Society, 30(2), 109–185.
  • McKenzie, D. (1976). The east anatolian fault: A major structure in Eastern Turkey. Earth and Planetary Science Letters, 29(1), 189–193.
  • McKenzie, D. P., & Morgan, W. J. (1969). Evolution of triple junctions. Nature, 224(5215), 125–133.
  • McKenzie, D. P., & Parker, R. L. (1967). The North Pacific: An example of tectonics on a sphere. Nature, 216(5122), 1276–1280.
  • Meghraoui, M., Aksoy, M. E., Akyüz, H. S., Ferry, M., Dikbaş, A., & Altunel, E. (2012). Paleoseismology of the North Anatolian Fault at Güzelköy (Ganos segment, Turkey): Size and recurrence time of earthquake ruptures west of the sea of Marmara. Geochemistry, Geophysics, Geosystems, 13, Q04005.
  • Morgan, W. J. (1968). Rises, trenches, great faults, and crustal blocks. Journal of Geophysical Research, 73(6), 1959–1982.
  • Nadai, A. (1950). Theory of fracture and flow of solids. New York: McGraw-Hill.
  • Nalbant, S. S., McCloskey, J., Steacy, S., & Barka, A. A. (2002). Stress accumulation and increased seismic risk in eastern Turkey. Earth and Planetary Science Letters, 195(3–4), 291–298.
  • Nyst, M., & Thatcher, W. (2004). New constraints on the active tectonic deformation of the Aegean. Journal of Geophysical Research: Solid Earth, 109(B11), 1-23.
  • Özener, H., Arpat, E., Ergintav, S., Dogru, A., Cakmak, R., Turgut, B., & Dogan, U. (2010). Kinematics of the eastern part of the North Anatolian Fault Zone. Journal of Geodynamics, 49(3–4), 141–150.
  • Panien, M., Schreurs, G., & Pfiffner, A. (2006). Mechanical behaviour of granular materials used in analogue modelling: Insights from grain characterisation, ring-shear tests and analogue experiments. Journal of Structural Geology, 28, 1170–1724.
  • Pantosti, D., Pucci, S., Palyvos, N., Martini, P. M. D., D’Addezio, G., Collins, P. E. F., & Zabcı, C. (2008). Paleoearthquakes of the duzce fault (North Anatolian Fault Zone): Insights for large surface faulting earthquake recurrence. Journal of Geophysical Research, 113, B01309–B01309.
  • Perinçek, D., & Çemen, İ. (1990). The structural relationship between the East anatolian and dead sea fault zones in southeastern Turkey. Tectonophysics, 172, 331–340.
  • Philip, H., Cisternas, A., Gvishiani, A., & Gorshkov, A. (1989). The caucasus: An actual example of the initial stages of continental collision. Tectonophysics, 161(1–2), 1–21.
  • Prandtl, L. (1924). Anwendungsbeispiele zu einem Henckyschen Satz iiber das plastische Gleichgewicht: Zeitschr. angew. Mathematik Und Mechanik, 3, 401–407.
  • Ratschbacher, L., Merle, O., Davy, P., & Cobbold, P. (1991). Lateral extrusion in the eastern alps, part 1: Boundary conditions and experiments scaled for gravity. Tectonics, 10(2), 245–256.
  • Reilinger, R., McClusky, S., Vernant, P., Lawrence, S., Ergintav, S., Cakmak, R., … Karam, G. (2006). GPS constraints on continental deformation in the Africa-Arabia-Eurasia continental collision zone and implications for the dynamics of plate interactions. Journal of Geophysical Research, 111(B5), B05411.
  • Reilinger, R. E., Ergintav, S., Bürgmann, R., McClusky, S., Lenk, O., Barka, A., … Töksoz, M. N. (2000). Coseismic and postseismic fault slip for the 17 august 1999, M = 7.5, Izmit, Turkey Earthquake. Science, 289(5484), 1519–1524.
  • Royer, J.-Y., & Gordon, R. G. (1997). The motion and boundary between the capricorn and Australian plates. Science, 277(5330), 1268.
  • Rudolf, M., Boutelier, D., Rosenau, M., Leever, K., Schreurs, G., & Oncken, O. (2016). Rheological benchmark of silicone oils used for analog modeling of short- and long-term lithospheric deformation. Tectonophysics, 684, 12–22.
  • Sançar, T. (2014). Karlıova Üçlü Eklemi’nin Kuvaterner Evrimi(Doktora). İTÜ-Avrasya Yer Bilimleri Enstitüsü. p. 239.
  • Sançar, T., & Akyüz, H. S. (2014). Kuzey Anadolu Fay Zonu, Ilıpınar Segmenti’nin (Karlıova, Bingöl) Paleosismolojisi. Türkiye Jeoloji Bülteni, 57(2), 35–52.
  • Sançar, T., Akyüz, H. S., & Zabcı, C. (2011a). Quaternary faulting mechanism around the karliova triple junction (EGU2011-5040). Vienna: EGU, Geophysical Research Abstracts.
  • Sançar, T., Zabcı, C., & Akyüz, H. S. (2011b). Morphometric analysis of secondary faults around the Karlıova Triple Junction (EGU2011-4991). Vienna: EGU, Geophysical Research Abstracts.
  • Sançar, T., Zabcı, C., Akyüz, H. S., Sunal, G., & Villa, I. M. (2015). Distributed transpressive continental deformation: The Varto Fault Zone, eastern Turkey. Tectonophysics, 661, 99–111.
  • Sançar, T., Zabci, C., Akçar, N., Karabacak, V., Yazıcı, M., Akyüz, H. S., … Vockenhuber, C. (2018). Intraplate deformation of the anatolian scholle: Insights from morphochronolgy-based uplift and slip rates of the Malatya fault (EGU2018-6442-3). Eastern Turkey: EGU General Assembly Vienna.
  • Sançar, T., Zabci, C., Karabacak, V., Yazıcı, M., & Akyüz, H. S. (2017). Paleoseismic history of the Malatya fault (Malatya-Ovacık Fault Zone, Eastern Anatolian scholle) for the last 10 ka (EGU2017-2948).Vienna: EGU General Assembly.
  • Sarıkaya, M. A., Yıldırım, C., & Çiner, A. (2015). No surface breaking on the ecemiş fault, central Turkey, since Late Pleistocene (~64.5 ka); new geomorphic and geochronologic data from cosmogenic dating of offset alluvial fans. Tectonophysics, 649, 33–46.
  • Şaroğlu, F. (1985). Doğu Anadolu’nun Neotektonik Dönemde Jeolojik ve Yapısal Evrimi(Doktora Unpublished PhD). İstanbul Üniversitesi, p. 240.
  • Şaroğlu, F. (1988). Age and offset of the North anatolian fault, 1987 melih tokay symposium (pp. 65–79). Ankara: Spec. Publ. Middle-East Technical University.
  • Şaroğlu, F., & Yılmaz, Y. (1991). Geology of the karliova region: Intersection of the North anatolian and East Anatolian Transform Faults. Bulletin Technical University Istanbul, 44, 475–493.
  • Şaroğlu, F., Emre, Ö., & Kuşçu, İ. (1992). Türkiye Diri Fay Haritasi (Active Faut Map of Turkey) (scale 1:2000000). one sheet. Maden Tetkik ve Arama Genel Müdürlüğü, Ankara, Turkey: Maden Tetkik ve Arama Genel Müdürlüğü.
  • Scholz, C. H. (2002). The Mechanics of Earthquake and Faulting(2nd ed., pp. 471). Cambridge University Press.
  • Schreurs, G. (2003). Fault development and interaction in distributed strike-slip shear zones: An experimental approach. In F. Storti, R. E. Holdsworth, & F. Salvini (eds.), Intraplate strike-slip deformation belts (Vol. ume 210, pp. 35–52). London: Geological Society, Special Publications.
  • Schreurs, G., & Colletta, B. (1998). Analogue modelling of faulting in zones of continental transpression and transtension. Geological Society, London, Special Publications, 135(1), 59–79.
  • Searle, M. P., Chung, S.-L., & Lo, C.-H. (2010). Geological offsets and age constraints along the northern dead sea fault, Syria. Journal of the Geological Society, 167, 1001–1008.
  • Şengör, A. M. C. (1979). The North Anatolian transform fault; its age, offset and tectonic significance. Journal of the Geological Society of London, 136(Part 3), 269–282.
  • Şengör, A. M. C. (1980). Türkiye Neotektoniğinin Esasları (Principles of the Neotectonism of Turkey) (pp. 40). Ankara, Turkey: Türkiye Jeoloji Kurumu Yayını.
  • Şengör, A. M. C., & Canıtez, N. (1982). The North Anatolian Fault. In H. Berekhemer & K. Hsü (eds.), Alpine mediterranean geodynamics (Vol. 7, pp. 205–216). American Geophysical Union.
  • Şengör, A. M. C., Görür, N., & Şaroğlu, F. (1985). Strike slip faulting and related basin formations in zones of tectonic escape: Turkey as a case study. In K. T. Biddle & N. Christie-Blick (eds.), Strike-slip faulting and basin formation, society of economic paleontologists and mineralogists (pp. 227–264). Tulsa, Oklahoma: Special Publication No. 37.
  • Şengör, A. M. C., Tüysüz, O., İmren, C., Sakınç, M., Eyidoğan, H., Görür, N., … Rangin, C. (2005). The North Anatolıan fault: A new look. Annual Review of Earth and Planetary Sciences, 33(1), 37–112.
  • Şengör, A. M. C., Özeren, M. S., Keskin, M., SakInç, M., Özbakir, A. D., & Kayan, I. (2008). Eastern Turkish high plateau as a small Turkic-type orogen: Implications for post-collisional crust-forming processes in Turkic-type orogens. Earth-Science Reviews, 90(1–2), 1–48.
  • Şengör, A. M. C., Grall, C., İmren, C., Le Pichon, X., Görür, N., Henry, P., … Siyako, M. (2014). The geometry of the North anatolian transform fault in the sea of Marmara and its temporal evolution: Implications for the development of intracontinental transform faults. Canadian Journal of Earth Sciences, 51(3), 222–242.
  • Şengör, A. M. C. (2014). Triple Junction. In J. Harff, M. Meschede, S. Petersen, & J. Thiede (eds.), Encyclopedia of marine geosciences (pp. 1–13). Dordrecht: Springer Netherlands.
  • Shaw, B., & Jackson, J. (2010). Earthquake mechanisms and active tectonics of the hellenic subduction zone. Geophysical Journal International, 181(2), 966–984.
  • Tapponnier, P., Peltzer, G., & Armijo, R. (1986). On the mechanics of the collision between India and Asia. Geological Society, London, Special Publications, 19(1), 113–157.
  • Taylor, M., & Yin, A. (2009). Active structures of the himalayan-tibetan orogen and their relationships to earthquake distribution, contemporary strain field, and cenozoic volcanism. Geosphere, 5(3), 199–214.
  • Tutkun, S. Z., & Hancock, P. L. (1990). Tectonic landforms expressing strain at the Karliova continental triple junction (E. Turkey). Annales Tectonicae, 4, 182–195.
  • Varnes, D. J. (1962). Analysis of plastic deformation according to von mises’ theory, with application to the South Silverton area, San Juan County, Colorado. USGS Professional Paper. Vol. 378-B.
  • Walters, R. J., Parsons, B., & Wright, T. J. (2014). Constraining crustal velocity fields with InSAR for Eastern Turkey: Limits to the block-like behavior of Eastern Anatolia: Journal of geophysical research. Solid Earth, 119(6), 5215–5234.
  • Wessel, P., Smith, W. H. F., Scharroo, R., Luis, J., & Wobbe, F. (2013). Generic mapping tools: Improved version released. Eos, Transactions American Geophysical Union, 94(45), 409–410.
  • Westaway, R., & Arger, J. (2001). Kinematics of the malatya-ovacik fault zone. Geodinamica Acta, 14(1–3), 103–131.
  • Westaway, R., Demir, T., & Seyrek, A. (2008). Geometry of the Turkey-Arabia and Africa-Arabia plate boundaries in the latest miocene to mid-pliocene: The role of the malatya-ovacik fault zone in eastern Turkey. eEarth, 3(1), 27–35.
  • Wilson, J. T. (1965). A new class of faults and their bearing on continental drift. Nature, 207(4995), 343–347.
  • Yazıcı, M., Zabcı, C., Sançar, T., & Natalin, B. A. (2018b). The role of intraplate strike-slip faults in shaping the surrounding morphology: The ovacik fault (eastern Turkey) as a case study. Geomorphology, 321, 129–145.
  • Yazıcı, M., Zabcı, C., Sançar, T., Sunal, G., & Natalin, B. A. (2016). Preliminary results on the tectonic activity of the Ovacık Fault (Malatya-Ovacık Fault Zone, Turkey). Vienna, Austria: Implications of the morphometric analyses, EGU General Assembly.
  • Yazıcı, M., Zabci, C., Natalin, B. A., Sançar, T., & Akyüz, H. S. (2018a). Strike-slip deformation in a converging setting: Insights from the Ovacık Fault (Anatolia, Turkey) (EGU2018-1052). Vienna: EGU General Assembly.
  • Yıldırım, C. (2014). Relative tectonic activity assessment of the tuz gölü fault zone; Central Anatolia, Turkey. Tectonophysics, 630, 183–192.
  • Yıldırım, C., Sarıkaya, M. A., & Çiner, A. (2016). Late pleistocene intraplate extension of the central anatolian Plateau, Turkey: Inferences from cosmogenic exposure dating of alluvial fan, landslide, and moraine surfaces along the Ecemiş Fault Zone. Tectonics, 35(6), 1446–1464.
  • Yin, A. (2010). Cenozoic tectonic evolution of Asia: A preliminary synthesis. Tectonophysics, 488(1–4), 293–325.
  • Yin, A., & Taylor, M. H. (2011). Mechanics of V-shaped conjugate strike-slip faults and the corresponding continuum mode of continental deformation. Geological Society of America Bulletin, 123(9–10), 1798–1821.
  • Zabcı, C., Sançar, T., Akyüz, H. S., & Kıyak, N. G. (2015a). Spatial slip behavior of large strike-slip fault belts: Implications for the holocene slip rates of the eastern termination of the North anatolian Fault, Turkey. Journal of Geophysical Research: Solid Earth, 120(12), 8591–8609.
  • Zabcı, C., Sançar, T., Tikhomirov, D., S., I. -O., Vockenhuber, C., Friedrich, A. M., Yazıcı, M., Akçar, N. (2017). Cosmogenic 36 Cl Geochronology of Offset Terraces Along The Ovacık Fault (Malatya-Ovacık Fault Zone, Eastern Turkey): Implications for the Intra-plate Deformation of the Anatolian Scholle, The International Conference on Astronomy & Geophysics in Mongolia, Ulaanbaatar-Mongolia.
  • Zabcı, C., Sançar, T., Tikhomirov, D., Ivy-Ochs, S., Vockenhuber, C., & Akçar, N. (2015b). The preliminary slip rates of the Ovacık Fault (Turkey) for the last 16 ka: Implications for the intraplate deformation of the Anatolian ‘scholle’, XIX INQUA (T01074). Nagoya Japan.
  • Zabcı, C., Sançar, T., Tikhomirov, D., Vockenhuber, C., & Ivy-Ochs, S. 2014. Preliminary geologic slip rates of the Ovacık Segment (Malatya-Ovacık Fault, Turkey) for the last 15 ka: Insights from cosmogenic 36Cl dating of offset fluvial surfaces. Proceedings EGU, Wien.
  • Özeren, M. S., & Holt, W. E. (2010). The dynamics of the Eastern Mediterranean and Eastern Turkey. Geophysical journal international, 183(3), 1165-1184. doi:10.1111/j.1365-246X.2010.04819.x

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