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MODELING OF THE 1939 ERZINCAN, TURKEY (MS~7.8) EARTHQUAKE: OBSERVATIONS ON ANTICIPATED GROUND MOTIONS AND FELT INTENSITY DISTRIBUTION
Date
2018-06-06
Author
Karim Zadeh Naghshineh, Shaghayegh
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Located within a pull-apart basin at the conjunction of three active faults (North Anatolian, North East Anatolian and Ovacik Faults), Erzincan city center is one of the most hazardous regions of the world. Combination of the seismotectonic and geological settings of the region has resulted in series of significant seismic activities including the 27 December 1939 (Ms=8.0) and the 13 March 1992 (Mw=6.6) events. The former earthquake was in the pre-instrumental era in the region with no available local seismograms. However, despite the sparse local network, the 1992 earthquake has been studied extensively. The objective of this study is to model the 1939 Erzincan earthquake using the regional seismic and geological parameters available mostly from the previous studies on the 1992 event. Despite several uncertainties involved, such an effort to quantitatively simulate the 1939 earthquake is promising, given the historical reports of extensive damage and fatalities in the area. The results are expressed in terms of anticipated spatial distribution of selected ground motion parameters and felt-intensity maps in the region. These shaking maps are obtained using local correlations between intensity and peak ground motion values. Comparisons of simulated motions against empirical prediction equations and the existing damage observations indicate a reasonable modeling of the 1939 earthquake.
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https://hdl.handle.net/11511/79395
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Modeling of the 1939 Erzincan (Ms~7.8) Earthquake: Observations on Anticipated Ground Motions and Damage Distribution
(2017-10-11)
Located within a pull-apart basin at the conjunction of three active faults (North Anatolian, North East Anatolian and Ovacik Faults), Erzincan city center is one of the most hazardous regions in the world. Combination of the seismotectonic and geological settings of the region has resulted in series of significant seismic activities including the 27 December 1939 (Ms~7.8) and the 13 March 1992 (Mw=6.6) events. The former earthquake was in the preinstrumental era in the region with no available local seismo...
MODELING OF THE 1939 ERZINCAN, TURKEY (MS~7.8)EARTHQUAKE: OBSERVATIONS ON ANTICIPATED GROUNDMOTIONS AND FELT INTENSITY DISTRIBUTION
Karimzadeh, Shaghayegh; Askan Gündoğan, Ayşegül (2018-06-18)
Located within a pull-apart basin at the conjunction of three active faults (North Anatolian, North East Anatolian and Ovacik Faults), Erzincan city center is one of the most hazardous regions of the world. Combination of the seismotectonic and geological settings of the region has resulted in series of significant seismic activities including the 27 December 1939 (Ms=8.0) and the 13 March 1992 (Mw=6.6) events. The former earthquake was in the pre-instrumental era in the region with no available local seism...
Modeling of a historical earthquake in Erzincan, Turkey (Ms similar to 7.8, in 1939) using regional seismological information obtained from a recent event
Karim Zadeh Naghshineh, Shaghayegh; Askan Gündoğan, Ayşegül (2018-06-01)
Located within a basin structure, at the conjunction of North East Anatolian, North Anatolian and Ovacik Faults, Erzincan city center (Turkey) is one of the most hazardous regions in the world. Combination of the seismotectonic and geological settings of the region has resulted in series of significant seismic activities including the 1939 (Ms similar to 7.8) as well as the 1992 (Mw = 6.6) earthquakes. The devastative 1939 earthquake occurred in the pre-instrumental era in the region with no available local...
Numerical Modeling of the 1939 Erzincan Earthquake
Karim Zadeh Naghshineh, Shaghayegh; Askan Gündoğan, Ayşegül (null; 2019-06-26)
Erzincan İli, Kuzey Anadolu Fay Hattı, Kuzey Doğu Anadolu Fay Hattı ve Ovacık Fayları arasında derin bir basen yapısı içerisinde yer almakta olup, dünyanın sismik aktivite açısından en yoğun bölgelerinden birisidir. Bölgenin sismotektonik ve jeolojik koşulları, 1939 (Ms~7.8) ve 1992 (Mw= 6.6) depremleri dahil olmak üzere bir çok tarihi ve aletsel dönem depremlerine sebep olmuştur. 1939 Erzincan depremi çok yıkıcı bir deprem olmakla birlikte, aletsel dönemden önceye denk geldiği için bu depreme ait kayıt bul...
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Groningen Gas Field is located within the southern part of the South Permian Basin in the northeast Netherlands. Since several wells have been producing from the Carboniferous-Permian Petroleum System, the field is considered as mature for hydrocarbon exploration. More detailed work is necessary to evaluate further exploration and development opportunities. Thus, evaluation of the subsurface has been carried out as part of the petroleum system concept by using the basin modeling. In this study, seismic inte...
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S. Karim Zadeh Naghshineh, “MODELING OF THE 1939 ERZINCAN, TURKEY (MS~7.8) EARTHQUAKE: OBSERVATIONS ON ANTICIPATED GROUND MOTIONS AND FELT INTENSITY DISTRIBUTION,” 2018, Accessed: 00, 2021. [Online]. Available: https://hdl.handle.net/11511/79395.