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1957 Farsinaj earthquake

January 01, 1970

The 1957 Farsinaj earthquake struck Hamadan, Iran on 13 December at 05:15 local time. The moment magnitude 6.5 earthquake destroyed 211 villages, killed approximately 1,130 people, and left another 900 injured.[2]

1957 Farsinaj earthquake
Tehran
UTC time1957-12-13 01:45:04
ISC event887684
USGS-ANSSComCat
Local dateDecember 13, 1957 (1957-12-13)
Magnitude6.5 Mw [1]
Depth15 km (9 mi) [1]
Epicenter34°23′17″N 47°44′53″E / 34.388°N 47.748°E / 34.388; 47.748 [1]
TypeStrike-slip
Areas affectedIran
Max. intensityMMI VII (Very strong)+
Casualties1,130 killed

Tectonic setting edit

Main article: Zagros fold and thrust belt
 
Geology of the Zagros Mountains

The Zagros Mountains stretching from Turkey to the Gulf of Oman, through Iran and Iraq for 1,500 km (930 mi) formed from continental collision involving the Arabian Plate and Central Iran. Its formation occurred during the late-Triassic, late-Jurassic, late-Cretaceous, Oligocene and Pliocene. During its early formation, some extensional tectonics is believed to have occurred. The mountain range is still accommodating deformation, evident in the present-day seismicity. Deformation is accommodated by thrust and strike-slip faulting within the range. Parallel to major thrust faults of the mountains is the Main Recent Fault, an active right-lateral strike-slip fault.[3] Convergence between the Arabian Plate and Iran occurs obliquely along the Zagros Mountains—approximately 30–50 percent of the ~25 cm (9.8 in)/yr convergence between the two plates is accommodated here.[4]

Earthquake edit

Three historical earthquakes were documented near the Main Recent Fault. Two earthquakes in May 912 and April 1008 occurred near the former settlement of Dinavar while a third occurred to the southeast of Dorud before 1889. The first two earthquakes brought heavy damage and casualties in Dinawar. Historic records of the 912 earthquake says a "mountain split open" and water gushed out, sinking many settlements. Ground cracks, possibly associated with tectonic origins was documented during the 1008 event. The Main Recent Fault was also associated with the Ms7.4 earthquake in 1909 which produced more than 40 km (25 mi) of surface rupture.[3]

Seismicity along the Main Recent Fault was nearly absent since 1909. In December 1955, an earthquake near Razan caused rockfalls and three deaths. A single foreshock was felt 26 hours before the mainshock. The mainshock was followed by 32 aftershocks within a month of its occurrence. Its epicenters were instrumentally recorded and located, revealing a northeast—southwest trend intersecting the Main Recent Fault (also perpenticular to the axis of meizoseismal area).[3] Ground deformations including rockfalls and fractures occurred, associated with the mainshock and aftershocks, but there was inconclusive evidence to show that these were of tectonic origin.[5]

Damage and casualties edit

A site investigation by Nicholas Ambraseys and other researchers revealed serious damage over a 2,800 km2 (1,100 sq mi) area. The earthquake lasted 10 seconds and was felt for 180,000 km2 (69,000 sq mi). Damage was greatest in the northeast than southwest due to the direction that seismic energy radiated. At least 1,130 people died, 900 were injured, and 15,000 became homeless—at least 20,000 animals also died.[5]

The mainshock and its aftershocks heavily damaged or destroyed 5,000 of the 9,000 homes in the area. Most homes were constructed of single-storey adobe or rubble masonry materials held together by mud, and heavy roofs from tampered earth. Some villages had double-storey adobe and single-storey brick homes with jack arches or iron sheets.[6]

In the epicenter area, the seismic intensity was considered modest, assigned VII+ on the Modified Mercalli intensity scale. The area of maximum damage was between Kangavar and Farsinaj, and the most affected areas were north of Sahneh. The severity of damage became inconsistent and repidly fell to the south. No serious damage occurred outside the 15 km (9.3 mi) radius around Farsinaj, and at Sonqor, only cracks appeared in buildings. At Sarab, the village was heavily damaged and 53 residents died, whereas at Sahneh, Gakul and Bisitun, damage was moderate. Northwest of Sahneh the mainshock produced cracks in the ground. Rockfalls and disruption of a natural spring was also recorded.[5]

At Farsinaj, 703 people, or about half the population, perished, and only 30 homes were left intact. The village was reconstructed 1 km (0.62 mi) away from the ruins. At Dehasiyab, 34 people died and 23 were injured—the village was razed and reconstructed several hundred meters away. Six people died, 20 were injured and two-thirds of homes in Sollantaher were destroyed. In two villages north of Farsinaj, the death toll totaled 63.[5]

Aftershocks on 13 and 18 December near Kangavar and Firuzabad on 28 December caused further damage.[3] The aftershock on 14 December caused more than 20 deaths and left 50 injured. Another aftershock on the same day at Najafabad killed one and injured four, and destroyed more buildings. Fourteen people died in an aftershock on 18 December at Fash. An additional 20 people and more animals died from a snow storm on 21 December. On 31 December, another aftershock killed three at Kangavar.[5]

See also edit

References edit

  1. ^ a b c ISC (27 June 2022), ISC-GEM Global Instrumental Earthquake Catalogue (1900–2009), Version 9.1, International Seismological Centre
  2. ^ National Geophysical Data Center / World Data Service (NGDC/WDS) (1972), Significant Earthquake Database (Data Set), National Geophysical Data Center, NOAA, doi:10.7289/V5TD9V7K
  3. ^ a b c d Tchalenko, J. S.; Braud, J. (1974). "Seismicity and structure of the Zagros (Iran): the Main Recent Fault between 33 and 35° N". Philosophical Transactions of the Royal Society of London. Series A, Mathematical and Physical Sciences. 277 (1262): 1–25. doi:10.1098/rsta.1974.0044. S2CID 122302270.
  4. ^ Yamini-Fard, F.; Hatzfeld, D.; Tatar, M.; Mokhtari, M. (2006). "Microearthquake seismicity at the intersection between the Kazerun fault and the Main Recent Fault (Zagros, Iran)". Geophysical Journal International. 166 (1): 186–196. Bibcode:2006GeoJI.166..186Y. doi:10.1111/j.1365-246X.2006.02891.x. S2CID 130787307.
  5. ^ a b c d e Ambraseys, N. N.; Moinfar, A. A.; Peronaci, P. (1973). "The Seismieity of Iran the Farsinaj (Kermanshah) earthquake of 13 December 1957". Annals of Geophysics. 26 (4). doi:10.4401/ag-5030.
  6. ^ "Farsinaj Earthquake of 13 December 1957, Ms7.1". International Institute of Earthquake Engineering and Seismology. Retrieved 5 December 2022.

January 01, 1970
1957, farsinaj, earthquake, struck, hamadan, iran, december, local, time, moment, magnitude, earthquake, destroyed, villages, killed, approximately, people, left, another, injured, tehranutc, time1957, 04isc, event887684usgs, ansscomcatlocal, datedecember, 195. The 1957 Farsinaj earthquake struck Hamadan Iran on 13 December at 05 15 local time The moment magnitude 6 5 earthquake destroyed 211 villages killed approximately 1 130 people and left another 900 injured 2 1957 Farsinaj earthquakeTehranUTC time1957 12 13 01 45 04ISC event887684USGS ANSSComCatLocal dateDecember 13 1957 1957 12 13 Magnitude6 5 Mw 1 Depth15 km 9 mi 1 Epicenter34 23 17 N 47 44 53 E 34 388 N 47 748 E 34 388 47 748 1 TypeStrike slipAreas affectedIranMax intensityMMI VII Very strong Casualties1 130 killed Contents 1 Tectonic setting 2 Earthquake 3 Damage and casualties 4 See also 5 ReferencesTectonic setting editMain article Zagros fold and thrust belt nbsp Geology of the Zagros Mountains The Zagros Mountains stretching from Turkey to the Gulf of Oman through Iran and Iraq for 1 500 km 930 mi formed from continental collision involving the Arabian Plate and Central Iran Its formation occurred during the late Triassic late Jurassic late Cretaceous Oligocene and Pliocene During its early formation some extensional tectonics is believed to have occurred The mountain range is still accommodating deformation evident in the present day seismicity Deformation is accommodated by thrust and strike slip faulting within the range Parallel to major thrust faults of the mountains is the Main Recent Fault an active right lateral strike slip fault 3 Convergence between the Arabian Plate and Iran occurs obliquely along the Zagros Mountains approximately 30 50 percent of the 25 cm 9 8 in yr convergence between the two plates is accommodated here 4 Earthquake editThree historical earthquakes were documented near the Main Recent Fault Two earthquakes in May 912 and April 1008 occurred near the former settlement of Dinavar while a third occurred to the southeast of Dorud before 1889 The first two earthquakes brought heavy damage and casualties in Dinawar Historic records of the 912 earthquake says a mountain split open and water gushed out sinking many settlements Ground cracks possibly associated with tectonic origins was documented during the 1008 event The Main Recent Fault was also associated with the Ms 7 4 earthquake in 1909 which produced more than 40 km 25 mi of surface rupture 3 Seismicity along the Main Recent Fault was nearly absent since 1909 In December 1955 an earthquake near Razan caused rockfalls and three deaths A single foreshock was felt 26 hours before the mainshock The mainshock was followed by 32 aftershocks within a month of its occurrence Its epicenters were instrumentally recorded and located revealing a northeast southwest trend intersecting the Main Recent Fault also perpenticular to the axis of meizoseismal area 3 Ground deformations including rockfalls and fractures occurred associated with the mainshock and aftershocks but there was inconclusive evidence to show that these were of tectonic origin 5 Damage and casualties editA site investigation by Nicholas Ambraseys and other researchers revealed serious damage over a 2 800 km2 1 100 sq mi area The earthquake lasted 10 seconds and was felt for 180 000 km2 69 000 sq mi Damage was greatest in the northeast than southwest due to the direction that seismic energy radiated At least 1 130 people died 900 were injured and 15 000 became homeless at least 20 000 animals also died 5 The mainshock and its aftershocks heavily damaged or destroyed 5 000 of the 9 000 homes in the area Most homes were constructed of single storey adobe or rubble masonry materials held together by mud and heavy roofs from tampered earth Some villages had double storey adobe and single storey brick homes with jack arches or iron sheets 6 In the epicenter area the seismic intensity was considered modest assigned VII on the Modified Mercalli intensity scale The area of maximum damage was between Kangavar and Farsinaj and the most affected areas were north of Sahneh The severity of damage became inconsistent and repidly fell to the south No serious damage occurred outside the 15 km 9 3 mi radius around Farsinaj and at Sonqor only cracks appeared in buildings At Sarab the village was heavily damaged and 53 residents died whereas at Sahneh Gakul and Bisitun damage was moderate Northwest of Sahneh the mainshock produced cracks in the ground Rockfalls and disruption of a natural spring was also recorded 5 At Farsinaj 703 people or about half the population perished and only 30 homes were left intact The village was reconstructed 1 km 0 62 mi away from the ruins At Dehasiyab 34 people died and 23 were injured the village was razed and reconstructed several hundred meters away Six people died 20 were injured and two thirds of homes in Sollantaher were destroyed In two villages north of Farsinaj the death toll totaled 63 5 Aftershocks on 13 and 18 December near Kangavar and Firuzabad on 28 December caused further damage 3 The aftershock on 14 December caused more than 20 deaths and left 50 injured Another aftershock on the same day at Najafabad killed one and injured four and destroyed more buildings Fourteen people died in an aftershock on 18 December at Fash An additional 20 people and more animals died from a snow storm on 21 December On 31 December another aftershock killed three at Kangavar 5 See also editList of earthquakes in 1957 List of earthquakes in IranReferences edit a b c ISC 27 June 2022 ISC GEM Global Instrumental Earthquake Catalogue 1900 2009 Version 9 1 International Seismological Centre National Geophysical Data Center World Data Service NGDC WDS 1972 Significant Earthquake Database Data Set National Geophysical Data Center NOAA doi 10 7289 V5TD9V7K a b c d Tchalenko J S Braud J 1974 Seismicity and structure of the Zagros Iran the Main Recent Fault between 33 and 35 N Philosophical Transactions of the Royal Society of London Series A Mathematical and Physical Sciences 277 1262 1 25 doi 10 1098 rsta 1974 0044 S2CID 122302270 Yamini Fard F Hatzfeld D Tatar M Mokhtari M 2006 Microearthquake seismicity at the intersection between the Kazerun fault and the Main Recent Fault Zagros Iran Geophysical Journal International 166 1 186 196 Bibcode 2006GeoJI 166 186Y doi 10 1111 j 1365 246X 2006 02891 x S2CID 130787307 a b c d e Ambraseys N N Moinfar A A Peronaci P 1973 The Seismieity of Iran the Farsinaj Kermanshah earthquake of 13 December 1957 Annals of Geophysics 26 4 doi 10 4401 ag 5030 Farsinaj Earthquake of 13 December 1957 Ms7 1 International Institute of Earthquake Engineering and Seismology Retrieved 5 December 2022 Retrieved from https en wikipedia org w index php title 1957 Farsinaj earthquake amp oldid 1189382937, wikipedia, wiki, book, books, library,

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