East Anatolian Fault

The East Anatolian Fault (Turkish: Doğu Anadolu Fay Hattı) is a ~700 km long major strike-slip fault zone running from eastern to south-central Turkey. It forms the transform type tectonic boundary between the Anatolian Plate and the northward-moving Arabian Plate.[1] The difference in the relative motions of the two plates is manifest in the left lateral motion along the fault. The East and North Anatolian faults together accommodate the westward motion of the Anatolian Plate as it is squeezed out by the ongoing collision with the Eurasian Plate.

East Anatolian Fault
The East Anatolian and neighbouring faults cover most of Turkey
LocationEastern and south-central Turkey
CountryTurkey
Tectonics
PlateAnatolian Plate
Arabian Plate
Earthquakes1866, 1893, 1998, 2010, 2020, 2023
Typestrike-slip, transform-type tectonic boundary

The East Anatolian Fault runs in a northeasterly direction, starting from the Maras Triple Junction at the northern end of the Dead Sea Transform, and ending at the Karlıova Triple Junction where it meets the North Anatolian Fault.

Discovery

Lake Hazar represents a sag pond on the East Anatolian Fault

In 1963, geologists published descriptions about a fault structure near Karlıova where the North Anatolian Fault terminates. In their findings, based on geomorphology, they described a fault extending over 70 km (43 mi) southwest from Karlıova to Bingöl. The fault to its southwest was not described. Geologist Clarence Allen explained in his 1969 journal regarding the abrupt termination of the North Anatolian Fault east of Karlıova; that a southwest-striking fault also terminated within the same area. He identified fault-related features such as linear valleys, sag ponds and scarps from Palu to Lake Hazar; fault scarps of the Quaternary age was discovered along Lake Hazar's shores. He calculated that this fault structure would intersect the left-lateral Dead Sea Transform if it continued along its southwest trend and suspected it also had a left-lateral slip sense.[2]

Significant attention to this structure arose following an earthquake in Bingöl on 22 May 1971. Ground cracks associated with the earthquake exhibited a dominant left-lateral component which aligned with the trend of valleys associated with the fault. The discovery supported the theory of a mainly left-lateral mechanism for the East Anatolian Fault. This mechanism and trend is also consistent with north–south convergence acting as the predominant tectonic regieme.[3]

In 1976, Dan McKenzie described the fault in the journal Earth and Planetary Science Letters; a 550 km (340 mi) strike-slip fault extending from the Gulf of Alexandretta to the North Anatolian Fault. The description of its southern end contradicts that of Allen. McKenzie also stated the fault represented a boundary between the Anatolian and Arabian plates.[4]

Main (Southern) strand

Orange line traces the rupture along the East Anatolian Fault during the earthquakes of 6 February 2023

The northeast–southwest trending main strand runs for 580 km (360 mi) from Karlıova in the north to Antakya in the south.[5]

Karlıova segment

The Karlıova segment represents the northeasternmost trace of the East Anatolian Fault and extends 25 km (16 mi) from the triple junction to Göynük.[6] Its morphology is charactierized by young scarps; streams offset from several to hundreds of meters; pressure ridges; linear valleys and hot springs. A 3.5 m (11 ft) offset located 1 km (0.62 mi) southeast of Boncukgöze could be associated with the 1866 Bingöl earthquake (Mw 7.1) surface rupture. This segment has not experienced a major earthquake since 1866.[7] The segment terminates at the Göynük restraining bend connecting the Ilıca segment.[5]

Ilıca segment

This segment runs through mountainous terrain from the Göynük restraining bend to Ilıca along a single branch. It traverses through Palaeozoic strata and volcanic-sedimentary strata from the Mio-Pliocene and Quaternary.[6] Previous studies of the East Anatolian Fault consider it part of the Karlıova segment rather than an independent segment. The 1971 Bingöl earthquake (Ms 6.8) produced 35 km (22 mi) of surface faulting on this segment, but did not extend beyond northeast of Göynük.[5]

Palu segment

This segment extends between Lake Hazar and Palu for 77 km (48 mi).[6] The northern part of the Palu segment was associated with a Mw 6.1 earthquake on 8 March 2010. Young scarps and offsets measuring 2.5–4 m (8 ft 2 in – 13 ft 1 in) were observed. The last major earthquake occurred on 3 May 1874, estimated at Mw 7.1. East of Lake Hazar, a 2.6 m (8 ft 6 in) offset was reported; the average offset associated with the event along the cental part was 3.5 + 0.5 m (11.5 + 1.6 ft).[5]

Pütürge segment

The area where the Pütürge segment runs through is mountainous and characterized by Paleozoic-Mesozoic metamorphic and Mesozoic ophiolite mélange and clastic rocks.[6] Measurements of basement rocks and offsets along the Euphrates revealed geologic offsets of 9–22 km (5.6–13.7 mi). Although there are Holocene scarps, the precise date when they formed is unknown. Earthquakes in 1875 and 1905 may have occurred on the Pütürge segment.[5] This segment was associated with a ~45 km (28 mi) rupture during the January 2020 Mw 6.7 earthquake.[8]

Erkenek segment

This segment runs from Yarpuzlu to Gölbaşı. The cumulative offset along the Erkenek segment is 26–22.5 km (16.2–14.0 mi). Stream channels crossing the fault were observed to have been offset by several meters to 0.5 km (0.31 mi). Recent seismic activity was inferred by the precense of young fault scarps. In 1893, a Ms 7.2 earthquake produced a 4.5 m (15 ft) offset near Çelikhan. The northern part of the Erkenek segment produced 10 km (6.2 mi) of surface rupture during the Mw 7.8 earthquake of 2023.[9]

Pazarcık segment

The trace of the Pazarcık segment is reminiscent of a smooth sine curve; its northern half is concave while the southern half is also concave. This segment extends from Gölbaşı to Türkoğlu. Its cumulative geologic offset has been estimated at 19–25 km (12–16 mi); based on paleoseismological studies, the slip rate in the Holocene was estimated at 9 mm (0.35 in) per year. About 4 km (2.5 mi) southeast of Elmalar, 5 ± 0.2 m (16.40 ± 0.66 ft) of offset was reported along a stream, possibly associated with an earthquake in 1513.[5] The Pazarcık segment may have also produced surface ruptures during the 1114 earthquake. This was one of the segments that ruptured during the Mw 7.8 earthquake of 2023.[9]

Amanos segment

The Amanos segment,[10] also known as the Karasu segment, measures 120 km (75 mi) in length[5] and represents the southern part of the East Anatolian Fault.[11] However, some geologists also consider this segment a continuation of the Dead Sea Fault,[11] or a transition fault between the East Anatolian and Dead Sea Transform faults.[10] Its southernmost trace ends at the Amik Basin where it meets the Hacıpaşa Fault (part of the Dead Sea Transform) and Cyprus Arc Fault at a triple junction.[11] The Mw 7.2 earthquake of 1872 likely ruptured the southern portion of the Amanos segment.[12] The Amanos segment also ruptured during the Mw 7.8 earthquake in 2023. It was followed two weeks later by a Mw 6.4 aftershock at its southernmost tip.[13]

Northern strand

The East Anatolian Fault branches away from the main strand to form a northern strand near Çelikhan. This strand, also known as the Sürgü–Misis Fault System, also consists multiple left-lateral fault segments with a total length of 380 km (240 mi). It joins the Kyrenia–Misis Fault Zone under the Gulf of Alexandretta.[5]

Sürgü segment

This segment comprises a 17 km (11 mi)-long by 1 km (0.62 mi)-wide shutter ridge at its eastern portion before continuing west for 20 km (12 mi). The westernmost length consists two parallel fault strands which eventually integrate at Nurhak. A Holocene surface rupture through Holocene alluvial fan is evidence of a recent large earthquake. No surface rupturing occurred when the segment produced a Ms 5.8 earthquake in 1986.[5]

Çardak segment

The Çardak segment between Nurhak and Göksun is 85 km (53 mi) in length and separated into two sections by a right stepover.[5] Prior to 2023, the only known historical earthquake on this fault occurred in 1544, estimated at Muk 6.8.[13] Nine hours after the Mw 7.8 earthquake on 6 February 2023, a Mw 7.6 earthquake ruptured the Sürgü and Çardak segments. It produced 98 km (61 mi) of surface rupture and displayed a maximum surface offset of 10.0–12.6 m (32.8–41.3 ft); one of the largest surface offset ever observed from an earthquake.[14]

Savrun segment

The northeast–southwest striking Savrun segment connects the western Çardak segment via a restraining bend at Göksun. It can be traced southwest to Sumbas. At Çiğşar, the fault is divided into two via a right stepover. The 20 km (12 mi) northern half is characterized by scarps ranging in height of 0.5–5 m (1 ft 8 in – 16 ft 5 in). Gullies were observed to be displaced by 5 m (16 ft). The southern half measures 41 km (25 mi) long and exhibits Holocene fault scarps along some portions.[5]

Çokak segment

A left stepover separates the Çokak segment from the Savrun segment. The main strand strikes approximately northeast–southwest; its northern end consisting of a normal fault while the remaining, a left-lateral fault. Another left-lateral fault runs subparallel to the west along its southern half. It accumulated a total offset of 2.5 km (1.6 mi) during the Late Pliocene to Quaternary.[5]

Toprakkale segment

The 50 km (31 mi)-long Toprakkale segment extends from Boynuyoğunlu to the Delihalil volcano. The fault segment in the south around Toprakkale is characterized by small volcanic cones. The fault displays 2–5 m (6 ft 7 in – 16 ft 5 in) of normal scarps cutting through the Quaternary basalt. It runs 12 km (7.5 mi) along a river valley carved by the Ceyhan River; some Holocene streams have been offset by 20–30 m (66–98 ft).[5]

Düziçi–İskenderun segment

The Düziçi–İskenderun segment are a series of normal faults trending northwest and east of the Toprakkale segment. This segment represents the western border of the Amanos Mountains. The total vertical offset at Erzin is 80–90 m (260–300 ft).[5]

Yakapınar segment

The Yakapınar segment runs from the mountainous area in the north to south in the Ceyhan plain. This northeast-striking left-lateral fault was the source of the 1998 Adana–Ceyhan earthquake (Mw 6.2).[15] Two other earthquakes in 1945 (Mw 6.0) and 1266 (Mw 6.3) occurred on this fault.[5]

Yumurtalık segment

This segment runs parallel to the northern shores of the Gulf of Alexandretta. This segment consists of two eastern and western sections measuring 16.5 km (10.3 mi) and 24.5 km (15.2 mi), respectively.[5]

Karataş segment

The Karataş segment runs for 64 km (40 mi) and is subparallel to the Yumurtalık segment but located north of that segment.[5]

Seismicity

The fault produced large earthquakes in 1789 (M 7.2), 1795 (M 7.0), 1872 (M 7.2), 1874 (M 7.1), 1875 (M 6.7), 1893 (M 7.1) and 1905 (Mw 6.8).[1] The Ms7.1 earthquake in 1893 killed over 800 people.[16] In 1866, a Ms 7.2 earthquake ruptured a segment of the fault that meets the Karlıova Triple Junction.[17]

Since 1998, there have been a series on or near the East Anatolian Fault. These started with the 1998 Adana–Ceyhan earthquake and include the 2003 Bingöl earthquake, the 2010 Elâzığ earthquake, the 2020 Elâzığ earthquake and the 2023 Turkey–Syria earthquake.[18][19][20] The 2003 earthquake did not rupture along the East Anatolian Fault; it ruptured a perpendicular strike-slip fault. The 1971 Bingöl earthquake produced surface ruptures along the fault.[21] The 2023 earthquake produced up to 400 km (250 mi) of surface rupture along the fault.[22]

References

  1. Güvercin, S.E.; Karabulut, H.; Konca, A.O.; Doğan, U.; Ergintav, S. (2022). "Active seismotectonics of the East Anatolian Fault". Geophysical Journal International. 230 (1): 50–69. doi:10.1093/gji/ggac045. Archived from the original on 10 October 2022. Retrieved 6 February 2023.
  2. Clarence R., Allen (1969). "Active Faulting in Northern Turkey". California Institute of Technology. {{cite journal}}: Cite journal requires |journal= (help)
  3. Arpat, Esen; Şaroğlu, Fuat. "The East Anatolian fault system: Thoughts on its development". Bull. Miner. Res. Explor. Inst. Turk. 78: 33–39.
  4. McKenzie, Dan (1976). "The East Anatolian Fault: A major structure in Eastern Turkey". Earth and Planetary Science Letters. 29 (1): 189–193. doi:10.1016/0012-821X(76)90038-8.
  5. Duman, Tamer Y.; Emre, Ömer (2013). "The East Anatolian Fault: geometry, segmentation and jog characteristics". Geological Society, London, Special Publications. 372: 495–529. doi:10.1144/SP372.14.
  6. Khalifa, Abdelrahman; Çakir, Ziyadin; Owen, Lewis A.; Kaya, Sinasi (2018). "Morphotectonic analysis of the East Anatolian Fault, Turkey". Turkish Journal of Earth Sciences. 27 (2): 110–126. doi:10.3906/yer-1707-16.
  7. Sançar, Taylan; Akyüz, H. Serdar; Schreurs, Guido; Zabcı, Cengiz (2018). "Mechanics of plio-quaternary faulting around the Karliova triple junction: implications for the deformation of Eastern part of the Anatolian Scholle". Geodinamica Acta. 30 (1): 287–305. doi:10.1080/09853111.2018.1533736.
  8. Chen, Kejie; Zhang, Zhenguo; Liang, Cunren; Xue, Changhu; Liu, Peng (2020). "Kinematics and Dynamics of the 24 January 2020 Mw 6.7 Elazig, Turkey Earthquake". Earth and Space Science. 7 (11). doi:10.1029/2020EA001452.
  9. Karabacak, Volkan; Özkaymak, Çağlar; Sözbilir, Hasan; Tatar, Orhan; Aktuğ, Bahadır; Özdağ, Özkan Cevdet; Çakir, Recep; Aksoy, Ercan; Koçbulut, Fikret; Softa, Mustafa; Akgün, Elif; Demir, Ahmet; Arslan, Gökhan (2023). "The 2023 Pazarcık (Kahramanmaraş, Türkiye) earthquake (Mw 7.7): implications for surface rupture dynamics along the East Anatolian Fault Zone". Journal of the Geological Society. 180 (3). doi:10.1144/jgs2023-020.
  10. Elhadidy, M.; Abdalzaher, M.S.; Gaber, H. (2021). "Up-to-date PSHA along the Gulf of Aqaba-Dead Sea transform fault". Soil Dynamics and Earthquake Engineering. 148: 106835. Bibcode:2021SDEE..14806835E. doi:10.1016/j.soildyn.2021.106835.
  11. Tarı, U.; Tüyüz, O.; Genç, Ş.C.; Imren, C.; Blackwell, B.A.B.; Lom, N.; Tekeşin, Ö; Üsküplü, S.; Altıok, S.; Beyhan, M. (2014). "The geology and morphology of the Antakya Graben between the Amik Triple Junction and the Cyprus Arc". Geodinimica Acta. 26 (1–2): 27–55. doi:10.1080/09853111.2013.858962. S2CID 128404168.
  12. Carena, Sara; Friedrich, Anke; Verdecchia, Alessandro; Kahle, Beth Shaw (2023). "Identification of Source Faults of Large Earthquakes in the Turkey-Syria Border Region Between AD 1000 and Present, and their Relevance for the 2023 Mw 7.8 Pazarcık Earthquake". ESS Open Archive. doi:10.22541/essoar.168276026.65414078/v1.
  13. Karabulut, Hayrullah; Güvercin, Sezim Ezgi; Hollingsworth, James; Konca, Ali Özgün (2023). "Long silence on the East Anatolian Fault Zone (Southern Turkey) ends with devastating double earthquakes (6 February 2023) over a seismic gap: implications for the seismic potential in the Eastern Mediterranean region". Journal of the Geological Society. 180. doi:10.1144/jgs2023-021.
  14. Yaltirak, Cenk; Tari, Ufuk; Dikbaş, Aynur; Özcan, Orkan; Elitez, İrem (2023). "Extreme "Catapult" ruptures of the Çardak Fault in the 6 February 2023 Mw 7.6 earthquake in Türkiye" (PDF). doi:10.21203/rs.3.rs-3199409/v1. {{cite journal}}: Cite journal requires |journal= (help)
  15. Westaway, Rob (2004). "Kinematic consistency between the Dead Sea Fault Zone and the Neogene and Quaternary left-lateral faulting in SE Turkey". Tectonophysics. 391 (1–4): 203–237. doi:10.1016/j.tecto.2004.07.014.
  16. Hubert-Ferrari, Aurélia; Lamair, Laura; Hage, Sophie; Schmidt, Sabine; Çagatay, M. Namık; Avşar, Ulaş (15 May 2020). "A 3800 yr paleoseismic record (Lake Hazar sediments, eastern Turkey): Implications for the East Anatolian Fault seismic cycle" (PDF). Earth and Planetary Science Letters. 538: 116152. doi:10.1016/j.epsl.2020.116152. S2CID 215728311.
  17. Ambraseys, N.N. (1997). "The little-known earthquakes of 1866 and 1916 in Anatolia (Turkey)". Journal of Seismology. 1 (3): 289–299. doi:10.1023/A:1009788609074. S2CID 127249225.
  18. Zukerman, Wendy (24 October 2011). "Turkey earthquake reveals a new active fault zone". New Scientist. Retrieved 25 October 2011.
  19. USGS (24 January 2020). "M 6.7 – 4km ENE of Doganyol, Turkey". United States Geological Survey. Retrieved 24 January 2020.
  20. Belam, Martin; Abdul, Geneva; Beazley, Jordyn; Lock, Samantha; Abdul, Martin Belam (now); Geneva; Lock (earlier), Samantha (2023-02-06). "Turkey and Syria: more than 1,700 people confirmed dead after two large earthquakes strike – latest updates". the Guardian. ISSN 0261-3077. Retrieved 2023-02-06.{{cite news}}: CS1 maint: multiple names: authors list (link)
  21. Milkereit, C.; Grosser, H.; Wang, R.; Wetzel, H.-U.; Woith, H.; Karakisa, S.; Zünbül, S.; Zschau, J. (2004). "Implications of the 2003 Bingöl Earthquake for the Interaction between the North and East Anatolian Faults". Bulletin of the Seismological Society of America. 94 (6): 2400–2406. Bibcode:2004BuSSA..94.2400M. doi:10.1785/0120030194.
  22. "Yer kabuğundaki kayma 7 metre 30 santimetreye kadar çıktı" [The slip in the earth's crust was up to 7 meters 30 centimeters] (in Turkish). Gazete Zebra. 15 February 2023. Retrieved 15 February 2023.

Further reading

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