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Ptolemy-Pliny-Strabo Fay Zonu'nun Bozburun Yarımadası'ndaki (güneybatı Türkiye) etkisi: Yapısal verilerden ve odak mekanizma çözümlerinden elde edilen kanıtlar

Year 2024, , 1 - 16, 30.01.2024
https://doi.org/10.25288/tjb.1341249

Abstract

Güneybatı Türkiye’deki Bozburun Yarımadası’nda fay düzlemlerinden elde edilen yapısal veriler, daha önce bilinen diri normal fayların aslında doğrultu atımlı faylar olduğunu ortaya çıkarmıştır. Sol ve sağ yanal doğrultu atımlı segmentlerin ve yüksek çözünürlüklü uydu görüntülerinden saptanan çizgiselliklerin dağılımı ve Bozburun Yarımadası çevresinde 30 km’den daha sığ depremlerin odak mekanizması çözümlerinin birlikte değerlendirilmesi, çalışma alanının sol yanal Ptolemy-Pliny-Strabo Fay Zonu etkisinde olduğunu göstermektedir.

Project Number

UDAP-Ç-19-20

References

  • Alçiçek, M. C. (2015). Comment on “The Fethiye-Burdur Fault Zone: a component of upper plate extension of the subduction edge propagator fault linking Hellenic and Cyprus Arcs, Eastern Mediterranean. Tectonophysics, 635, 80-99.
  • Alçiçek, M. C., ten Veen J.H. & Özkul, M. (2006). Neotectonic development of the Çameli Basin, southwestern Anatolia, Turkey. Geological Society Special Publication, 260, 591-611.
  • Allmendinger, R. W., Cardozo, N. C. & Fisher, D. (2012). Structural Geology Algorithms: Vectors and Tensors. Cambridge University Press, 289 p.
  • Barka, A. & Reilinger, R. (1997). Active tectonics of the Eastern Mediterranean region: deduced from GPS, neotectonic and seismicity data. Annali Di Geofisica, XL, 587-610.
  • Dewey, J. F., Pitman III, W. C., Ryan, W. B. F. & Bonnin, J. (1973). Plate Tectonics and the evolution of the Alpine system. Geological Society of America Bulletin, 84, 3137-3180.
  • Dikbaş, A., Akyüz, H.S., Basmenji, M. & Kırkan, E. (2022). Earthquake history of the Gökova fault zone by paleoseismologic trenching, SW Turkey. Natural Hazards, 112, 2695-2716. https://doi.org/10.1007/s11069-022-05284-0
  • Elitez, İ. & Yaltırak, C. (2014). Miocene-Quaternary geodynamics of Çameli Basin, Burdur-Fethiye Shear Zone (SW Turkey). Geological Bulletin of Turkey, 57(3) 41-67. https://doi.org/10.25288/tjb.298714
  • Emre, Ö., Duman, T. Y. & Özalp, S. (2011). 1:250,000 Scale Active Fault Map Series of Turkey, Marmaris (NJ35-15) Quadrangle. Serial Number 8, General Directorate of Mineral Research and Exploration, Ankara-Türkiye.
  • Emre, Ö., Duman, T. Y., Özalp, S., Elmacı, H., Olgun, Ş. & Şaroğlu, F. (2013). Active Fault Map of Turkey with an Explanatory Text 1:1,250,000 scale. General Directorate of Mineral Research and Exploration, Special Publication Series 30.
  • Hall, J., Aksu, A.E., Elitez, İ., 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, 80-99. https://doi.org/10.1016/j.tecto.2014.05.002
  • Herrmann, R. B. (2013). Computer programs in seismology: An evolving tool for instruction and research. Seismological Research Letters, 84, 1081-1088. https://doi.org/10.1785/0220110096
  • Howell, A., Jackson, J., Copley, A., McKenzie, D. & Nissen, E. (2017). Subduction and vertical coastal motions in the eastern Mediterranean. Geophysical Journal International, 211(1), 593-620. https://doi.org/10.1093/gji/ggx307
  • Kaymakçı, N., Langereis, C., Özkaptan, M., Özacar, A. A., Gülyüz, E., Uzel, B. & Sözbilir, H. (2018). Paleomagnetic evidence for upper plate response to a STEP fault, SW Anatolia. Earth and Planetary Science Letters, 498, 101-115. https://doi.org/10.1016/j.epsl.2018.06.022
  • Kılıç, T., Kartal, R. F., Kadirioğlu, F. T., Duman, T. Y. & Özalp, S. (2017). Türkiye ve yakın çevresi için düzenlenmiş moment tensor (1906-2012) kataloğu Mw=4,0). T. Y. Duman (Ed.), Türkiye Sismotektonik Haritası, Özel Yayınlar Serisi-34, Maden Tetkik ve Arama Genel Müdürlüğü, Ankara-Türkiye.
  • Koçyiğit, A. & Özacar, A. (2003). Extensional neotectonics regime through the NE edge of the outer Isparta angle, SW Turkey: New field and seismic data. Turkish Journal of Earth Sciences, 12, 67-90.
  • Le Pichon, X. & Angelier, J. (1979). The Hellenic Arc and Trench System: A key to the Neotectonic evolution of the Eastern Mediterranean Area. Tectonophysics, 60, 1-42.
  • Marrett, R. & Allmendinger, R. W. (1990). Kinematic analysis of fault-slip data. Journal of Structural Geology, 12, 973-986.
  • McKenzie, D. (1970). Plate Tectonics of the Mediterranean Region. Nature, 226, 239-243.
  • McKenzie, D. (1972). Active Tectonics of the Mediterranean Region. Geophysical Journal of the Royal Astronomical Society, 30, 109-185.
  • Nissen, E., Cambaz, M. D., Gaudreau, E., Howell, A., Karasözen, E. & Savidge, E. (2022). A reappraisal of active tectonics along the Fethiye - Burdur trend, southwestern Turkey. Geophysical Journal International, 230(2), 1030-1051. https://doi.org/10.1093/gji/ggac096
  • Ocakoğlu, N. (2012). Investigation of Fethiye-Marmaris Bay (SW Anatolia): seismic and morphologic evidences from the missing link between the Pliny Trench and the Fethiye-Burdur Fault Zone. Geo-Marine Letters, 32, 17-28. https://doi.org/10.1007/s00367-011-0234-2
  • Ocakoğlu, N., Nomikou, P., İşcan, Y., Loreto, M.F. & Lampridou, D. (2018). Evidence of extensional and strike-slip deformation in the offshore Gökova-Kos area affected by the July 2017 MW6.6 Bodrum-Kos earthquake, eastern Aegean Sea. Geo-Marine Letters, 38, 211-225. https://doi.org/10.1007/s00367-017-0532-4
  • Över, S., Pınar, A., Özden, S., Yılmaz, H., Ünlügenç, U. C. & Kamacı, Z. (2010). Late Cenozoic stress field in the Çameli basin, SW Turkey. Tectonophysics, 492, 60-72.
  • Özbakır, A. D., Şengör, A. M. C., Wortel, M. J. R. & Govers, R. (2013). The Pliny-Strabo trench region: A large shear zone resulting from slab tearing. Earth and Planetary Science Letters, 375, 188-195.
  • Özkaptan, M., Kaymakçı, N., Langereis, C. G., Gülyüz, E., Özacar, A. A., Uzel, B. & Sözbilir, H. (2018). Age and kinematics of the Burdur Basin: inferences for existence of the Fethiye - Burdur Fault Zone in SW Anatolia (Turkey). Tectonophysics, 744, 256-274. https://doi.org/10.1016/j.tecto.2018.07.009
  • Papazachos, B. C. & Comninakis, P. E. (1971). Geophysical and tectonic features of the Aegean Arc. Journal of Geophysical Research, 76, 8517-8533.
  • Reilinger, R., McClusky, S., Paradissis, D., Ergintav, S., Vernant, P. (2010). Geodetic constraints on the tectonic evolution of the Aegean region and strain accumulation along the Hellenic subduction zone. Tectonophysics, 488, 22-30.
  • Reilinger, R., McClusky, S., Vernant, P., Lawrence, S., Ergintav, S., Çakmak, 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), Article B05411. https://doi.org/10.1029/2005JB004051
  • Seyitoğlu, G., Aktuğ, B., Esat, K. & Kaypak, B. (2022a). Neotectonics of Turkey (Türkiye) and surrounding regions: a new perspective with block modelling. Geologica Acta, 20, 1-21. https://doi.org/10.1344/GeologicaActa2022.20.4
  • Seyitoğlu, G., Tunçel, E., Kaypak, B., Esat, K. & Gökkaya, E. (2022b). The Anatolian Diagonal: a broad left-lateral shear zone between the North Anatolian Fault Zone and the Aegean/Cyprus Arcs. Geological Bulletin of Turkey, 65(2), 93-116. https://doi.org/10.25288/tjb.1015537
  • Shaw, B. & Jackson, J. (2010). Earthquake mechanisms and active tectonics of the Hellenic subduction zone. Geophysical Journal International, 81, 966-984.
  • Tanülkü, E., Güvenli, B., Bilgiç, T., Koca, B. & Kaypak, B. (2022). Source parameters of the Gulf of Gökova and surrounding earthquakes. In K. Esat & S. Akıska (Eds.), 74th Geological Congress of Turkey, Abstracts Book (pp.: 399). Chamber of Geological Engineers of Turkey Publications, Ankara.
  • Taymaz, T., Jackson, J. & Westaway, R. (1990). Earthquake mechanisms in the Hellenic Trench near Crete. Geophysical Journal International, 102, 695-731.
  • ten Veen, J. H., Woodside, J. M., Zitter, T. A. C., Dumont, J. F., Mascle, J. & Volkonskaia, A. (2004). Neotectonic evolution of the Anaximander Mountains at the junction of the Hellenic and Cyprus arcs. Tectonophysics, 391, 35-65.
  • ten Veen, J. H., Boulton, S. J. & Alçiçek, M. C. (2009). From palaeotectonics to neotectonics in the Neotethys realm: The importance of kinematic decoupling and inherited structural grain in SW Anatolia (Turkey). Tectonophysics, 473, 261-281.
  • Tiryakioğlu, İ., Floyd, M., Erdoğan, S., Gülal, E., Ergintav, S., McClusky, S. & Reilinger, R. (2013). GPS Constraints on active deformation in the Isparta Angle region of SW Turkey. Geophysical Journal International, 195(3), 1455-1463. https://doi.org/10.1093/gji/ggt323
  • Tosun, L., Avşar, U., Avşar, Ö., Dondurur, D. & Kaymakçı, N. (2021). Active tectonics and kinematics of Fethiye – Göcek Bay, SW Turkey: Insight about the eastern edge of Pliny-Strabo Trenches. Journal of Structural Geology, 145, Article 104287. https://doi.org/10.1016/j.jsg.2021.104287

Influence of the Ptolemy-Pliny-Strabo Fault Zone in Bozburun Peninsula (southwest Türkiye): Evidence from structural data and focal mechanism solutions

Year 2024, , 1 - 16, 30.01.2024
https://doi.org/10.25288/tjb.1341249

Abstract

Structural data obtained from fault surfaces in the Bozburun Peninsula, southwest Türkiye indicate that the previously known active normal faults are indeed strike-slip structures. The configuration of left- and right-lateral strike-slip segments and lineaments observed from high-resolution satellite images, plus the evaluation of available focal mechanism solutions of the earthquakes having less than 30 km depth around Bozburun Peninsula, show that the study area is under influence of the left-lateral Ptolemy-Pliny-Strabo Fault Zone.

Supporting Institution

AFAD

Project Number

UDAP-Ç-19-20

Thanks

This paper is a part of a project titled “Investigation of the deep seismic velocity structure of the gulf of Gökova and surroundings by tomographic methods and associating with tectonic structures in the region (UDAP-Ç-19-20)” supported by AFAD.

References

  • Alçiçek, M. C. (2015). Comment on “The Fethiye-Burdur Fault Zone: a component of upper plate extension of the subduction edge propagator fault linking Hellenic and Cyprus Arcs, Eastern Mediterranean. Tectonophysics, 635, 80-99.
  • Alçiçek, M. C., ten Veen J.H. & Özkul, M. (2006). Neotectonic development of the Çameli Basin, southwestern Anatolia, Turkey. Geological Society Special Publication, 260, 591-611.
  • Allmendinger, R. W., Cardozo, N. C. & Fisher, D. (2012). Structural Geology Algorithms: Vectors and Tensors. Cambridge University Press, 289 p.
  • Barka, A. & Reilinger, R. (1997). Active tectonics of the Eastern Mediterranean region: deduced from GPS, neotectonic and seismicity data. Annali Di Geofisica, XL, 587-610.
  • Dewey, J. F., Pitman III, W. C., Ryan, W. B. F. & Bonnin, J. (1973). Plate Tectonics and the evolution of the Alpine system. Geological Society of America Bulletin, 84, 3137-3180.
  • Dikbaş, A., Akyüz, H.S., Basmenji, M. & Kırkan, E. (2022). Earthquake history of the Gökova fault zone by paleoseismologic trenching, SW Turkey. Natural Hazards, 112, 2695-2716. https://doi.org/10.1007/s11069-022-05284-0
  • Elitez, İ. & Yaltırak, C. (2014). Miocene-Quaternary geodynamics of Çameli Basin, Burdur-Fethiye Shear Zone (SW Turkey). Geological Bulletin of Turkey, 57(3) 41-67. https://doi.org/10.25288/tjb.298714
  • Emre, Ö., Duman, T. Y. & Özalp, S. (2011). 1:250,000 Scale Active Fault Map Series of Turkey, Marmaris (NJ35-15) Quadrangle. Serial Number 8, General Directorate of Mineral Research and Exploration, Ankara-Türkiye.
  • Emre, Ö., Duman, T. Y., Özalp, S., Elmacı, H., Olgun, Ş. & Şaroğlu, F. (2013). Active Fault Map of Turkey with an Explanatory Text 1:1,250,000 scale. General Directorate of Mineral Research and Exploration, Special Publication Series 30.
  • Hall, J., Aksu, A.E., Elitez, İ., 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, 80-99. https://doi.org/10.1016/j.tecto.2014.05.002
  • Herrmann, R. B. (2013). Computer programs in seismology: An evolving tool for instruction and research. Seismological Research Letters, 84, 1081-1088. https://doi.org/10.1785/0220110096
  • Howell, A., Jackson, J., Copley, A., McKenzie, D. & Nissen, E. (2017). Subduction and vertical coastal motions in the eastern Mediterranean. Geophysical Journal International, 211(1), 593-620. https://doi.org/10.1093/gji/ggx307
  • Kaymakçı, N., Langereis, C., Özkaptan, M., Özacar, A. A., Gülyüz, E., Uzel, B. & Sözbilir, H. (2018). Paleomagnetic evidence for upper plate response to a STEP fault, SW Anatolia. Earth and Planetary Science Letters, 498, 101-115. https://doi.org/10.1016/j.epsl.2018.06.022
  • Kılıç, T., Kartal, R. F., Kadirioğlu, F. T., Duman, T. Y. & Özalp, S. (2017). Türkiye ve yakın çevresi için düzenlenmiş moment tensor (1906-2012) kataloğu Mw=4,0). T. Y. Duman (Ed.), Türkiye Sismotektonik Haritası, Özel Yayınlar Serisi-34, Maden Tetkik ve Arama Genel Müdürlüğü, Ankara-Türkiye.
  • Koçyiğit, A. & Özacar, A. (2003). Extensional neotectonics regime through the NE edge of the outer Isparta angle, SW Turkey: New field and seismic data. Turkish Journal of Earth Sciences, 12, 67-90.
  • Le Pichon, X. & Angelier, J. (1979). The Hellenic Arc and Trench System: A key to the Neotectonic evolution of the Eastern Mediterranean Area. Tectonophysics, 60, 1-42.
  • Marrett, R. & Allmendinger, R. W. (1990). Kinematic analysis of fault-slip data. Journal of Structural Geology, 12, 973-986.
  • McKenzie, D. (1970). Plate Tectonics of the Mediterranean Region. Nature, 226, 239-243.
  • McKenzie, D. (1972). Active Tectonics of the Mediterranean Region. Geophysical Journal of the Royal Astronomical Society, 30, 109-185.
  • Nissen, E., Cambaz, M. D., Gaudreau, E., Howell, A., Karasözen, E. & Savidge, E. (2022). A reappraisal of active tectonics along the Fethiye - Burdur trend, southwestern Turkey. Geophysical Journal International, 230(2), 1030-1051. https://doi.org/10.1093/gji/ggac096
  • Ocakoğlu, N. (2012). Investigation of Fethiye-Marmaris Bay (SW Anatolia): seismic and morphologic evidences from the missing link between the Pliny Trench and the Fethiye-Burdur Fault Zone. Geo-Marine Letters, 32, 17-28. https://doi.org/10.1007/s00367-011-0234-2
  • Ocakoğlu, N., Nomikou, P., İşcan, Y., Loreto, M.F. & Lampridou, D. (2018). Evidence of extensional and strike-slip deformation in the offshore Gökova-Kos area affected by the July 2017 MW6.6 Bodrum-Kos earthquake, eastern Aegean Sea. Geo-Marine Letters, 38, 211-225. https://doi.org/10.1007/s00367-017-0532-4
  • Över, S., Pınar, A., Özden, S., Yılmaz, H., Ünlügenç, U. C. & Kamacı, Z. (2010). Late Cenozoic stress field in the Çameli basin, SW Turkey. Tectonophysics, 492, 60-72.
  • Özbakır, A. D., Şengör, A. M. C., Wortel, M. J. R. & Govers, R. (2013). The Pliny-Strabo trench region: A large shear zone resulting from slab tearing. Earth and Planetary Science Letters, 375, 188-195.
  • Özkaptan, M., Kaymakçı, N., Langereis, C. G., Gülyüz, E., Özacar, A. A., Uzel, B. & Sözbilir, H. (2018). Age and kinematics of the Burdur Basin: inferences for existence of the Fethiye - Burdur Fault Zone in SW Anatolia (Turkey). Tectonophysics, 744, 256-274. https://doi.org/10.1016/j.tecto.2018.07.009
  • Papazachos, B. C. & Comninakis, P. E. (1971). Geophysical and tectonic features of the Aegean Arc. Journal of Geophysical Research, 76, 8517-8533.
  • Reilinger, R., McClusky, S., Paradissis, D., Ergintav, S., Vernant, P. (2010). Geodetic constraints on the tectonic evolution of the Aegean region and strain accumulation along the Hellenic subduction zone. Tectonophysics, 488, 22-30.
  • Reilinger, R., McClusky, S., Vernant, P., Lawrence, S., Ergintav, S., Çakmak, 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), Article B05411. https://doi.org/10.1029/2005JB004051
  • Seyitoğlu, G., Aktuğ, B., Esat, K. & Kaypak, B. (2022a). Neotectonics of Turkey (Türkiye) and surrounding regions: a new perspective with block modelling. Geologica Acta, 20, 1-21. https://doi.org/10.1344/GeologicaActa2022.20.4
  • Seyitoğlu, G., Tunçel, E., Kaypak, B., Esat, K. & Gökkaya, E. (2022b). The Anatolian Diagonal: a broad left-lateral shear zone between the North Anatolian Fault Zone and the Aegean/Cyprus Arcs. Geological Bulletin of Turkey, 65(2), 93-116. https://doi.org/10.25288/tjb.1015537
  • Shaw, B. & Jackson, J. (2010). Earthquake mechanisms and active tectonics of the Hellenic subduction zone. Geophysical Journal International, 81, 966-984.
  • Tanülkü, E., Güvenli, B., Bilgiç, T., Koca, B. & Kaypak, B. (2022). Source parameters of the Gulf of Gökova and surrounding earthquakes. In K. Esat & S. Akıska (Eds.), 74th Geological Congress of Turkey, Abstracts Book (pp.: 399). Chamber of Geological Engineers of Turkey Publications, Ankara.
  • Taymaz, T., Jackson, J. & Westaway, R. (1990). Earthquake mechanisms in the Hellenic Trench near Crete. Geophysical Journal International, 102, 695-731.
  • ten Veen, J. H., Woodside, J. M., Zitter, T. A. C., Dumont, J. F., Mascle, J. & Volkonskaia, A. (2004). Neotectonic evolution of the Anaximander Mountains at the junction of the Hellenic and Cyprus arcs. Tectonophysics, 391, 35-65.
  • ten Veen, J. H., Boulton, S. J. & Alçiçek, M. C. (2009). From palaeotectonics to neotectonics in the Neotethys realm: The importance of kinematic decoupling and inherited structural grain in SW Anatolia (Turkey). Tectonophysics, 473, 261-281.
  • Tiryakioğlu, İ., Floyd, M., Erdoğan, S., Gülal, E., Ergintav, S., McClusky, S. & Reilinger, R. (2013). GPS Constraints on active deformation in the Isparta Angle region of SW Turkey. Geophysical Journal International, 195(3), 1455-1463. https://doi.org/10.1093/gji/ggt323
  • Tosun, L., Avşar, U., Avşar, Ö., Dondurur, D. & Kaymakçı, N. (2021). Active tectonics and kinematics of Fethiye – Göcek Bay, SW Turkey: Insight about the eastern edge of Pliny-Strabo Trenches. Journal of Structural Geology, 145, Article 104287. https://doi.org/10.1016/j.jsg.2021.104287
There are 37 citations in total.

Details

Primary Language English
Subjects General Geology
Journal Section Makaleler - Articles
Authors

Gürol Seyitoğlu 0000-0001-7993-898X

Bülent Kaypak 0000-0003-4650-9171

Edanur Tanülkü 0000-0001-7353-7261

Tolga Karabıyıkoğlu 0000-0001-8862-7526

Begüm Koca 0000-0002-4226-0244

Project Number UDAP-Ç-19-20
Early Pub Date December 5, 2023
Publication Date January 30, 2024
Submission Date August 11, 2023
Acceptance Date October 12, 2023
Published in Issue Year 2024

Cite

APA Seyitoğlu, G., Kaypak, B., Tanülkü, E., Karabıyıkoğlu, T., et al. (2024). Influence of the Ptolemy-Pliny-Strabo Fault Zone in Bozburun Peninsula (southwest Türkiye): Evidence from structural data and focal mechanism solutions. Türkiye Jeoloji Bülteni, 67(1), 1-16. https://doi.org/10.25288/tjb.1341249
AMA Seyitoğlu G, Kaypak B, Tanülkü E, Karabıyıkoğlu T, Koca B. Influence of the Ptolemy-Pliny-Strabo Fault Zone in Bozburun Peninsula (southwest Türkiye): Evidence from structural data and focal mechanism solutions. Türkiye Jeol. Bült. January 2024;67(1):1-16. doi:10.25288/tjb.1341249
Chicago Seyitoğlu, Gürol, Bülent Kaypak, Edanur Tanülkü, Tolga Karabıyıkoğlu, and Begüm Koca. “Influence of the Ptolemy-Pliny-Strabo Fault Zone in Bozburun Peninsula (southwest Türkiye): Evidence from Structural Data and Focal Mechanism Solutions”. Türkiye Jeoloji Bülteni 67, no. 1 (January 2024): 1-16. https://doi.org/10.25288/tjb.1341249.
EndNote Seyitoğlu G, Kaypak B, Tanülkü E, Karabıyıkoğlu T, Koca B (January 1, 2024) Influence of the Ptolemy-Pliny-Strabo Fault Zone in Bozburun Peninsula (southwest Türkiye): Evidence from structural data and focal mechanism solutions. Türkiye Jeoloji Bülteni 67 1 1–16.
IEEE G. Seyitoğlu, B. Kaypak, E. Tanülkü, T. Karabıyıkoğlu, and B. Koca, “Influence of the Ptolemy-Pliny-Strabo Fault Zone in Bozburun Peninsula (southwest Türkiye): Evidence from structural data and focal mechanism solutions”, Türkiye Jeol. Bült., vol. 67, no. 1, pp. 1–16, 2024, doi: 10.25288/tjb.1341249.
ISNAD Seyitoğlu, Gürol et al. “Influence of the Ptolemy-Pliny-Strabo Fault Zone in Bozburun Peninsula (southwest Türkiye): Evidence from Structural Data and Focal Mechanism Solutions”. Türkiye Jeoloji Bülteni 67/1 (January 2024), 1-16. https://doi.org/10.25288/tjb.1341249.
JAMA Seyitoğlu G, Kaypak B, Tanülkü E, Karabıyıkoğlu T, Koca B. Influence of the Ptolemy-Pliny-Strabo Fault Zone in Bozburun Peninsula (southwest Türkiye): Evidence from structural data and focal mechanism solutions. Türkiye Jeol. Bült. 2024;67:1–16.
MLA Seyitoğlu, Gürol et al. “Influence of the Ptolemy-Pliny-Strabo Fault Zone in Bozburun Peninsula (southwest Türkiye): Evidence from Structural Data and Focal Mechanism Solutions”. Türkiye Jeoloji Bülteni, vol. 67, no. 1, 2024, pp. 1-16, doi:10.25288/tjb.1341249.
Vancouver Seyitoğlu G, Kaypak B, Tanülkü E, Karabıyıkoğlu T, Koca B. Influence of the Ptolemy-Pliny-Strabo Fault Zone in Bozburun Peninsula (southwest Türkiye): Evidence from structural data and focal mechanism solutions. Türkiye Jeol. Bült. 2024;67(1):1-16.

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