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Broadband ground-motion simulation of the 24 May 2014 Gokceada (North Aegean Sea) earthquake (Mw 6.9) in NW Turkey considering local soil effects
Authors:Ozlem Karagoz  Kosuke Chimoto  Hiroaki Yamanaka  Oguz Ozel  Seckin Citak
Affiliation:1.Department of Environmental Science and Technology,Tokyo Institute of Technology,Tokyo,Japan;2.Department of Geophysical Engineering,Canakkale Onsekiz Mart University,Canakkale,Turkey;3.Department of Geophysical Engineering,Istanbul University,Istanbul,Turkey;4.Earthquake and Tsunami Forecasting System Research Group R&D Center for Earthquake and Tsunami (CEAT),Japan Agency for Marine-Earth Science and Technology (JAMSTEC),Tokyo,Japan
Abstract:On 24 May 2014, a Mw 6.9 earthquake occurred in the west of Gokceada Island, northern Aegean Sea. The earthquake was close to Canakkale, Enez, Tekirdag cities, and damaged 300 buildings in the Marmara Region, NW Turkey. We simulated its broadband (0.1–10 Hz) ground motions including 1D deep and shallow structures soil amplification effects at the 12 strong ground motion stations in the western Marmara Region. The 1D deep velocity structures from the focal layer to the engineering bedrock with an S-wave velocity of 0.78 km/s in different azimuthal directions were tuned by comparing the observed group-velocity dispersion curves of Rayleigh and Love waves from the mainshock with theoretical ones. We also added the shallow parts from previous surveys into the 1D models. Synthetic seismograms on the engineering bedrock were generated using the discrete wave number method with a source model and the 1D deep velocity structures. Then the surface motion was generated considering shallow soil amplification. The synthetic seismograms are generally in good agreement with the observed low and high-frequency parts at most of the stations indicating an appropriateness of the source model and the 1D structural model.
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