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Yıl 2018, Cilt: 4 Sayı: 1, 40 - 45, 05.07.2018

Öz

Kaynakça

  • Ambraseys, N. (2002). The seismic activity of the Marmara Sea region over the last 2000 years. Bulletin of the Seismological Society of America, 92(1), 1-18.
  • Bayrakci, G., Laigle, M., Bécel, A., Hirn, A., Taymaz, T., Yolsal-Cevikbilen, S., & Team, S. (2013). 3-D sediment-basement tomography of the Northern Marmara trough by a dense OBS network at the nodes of a grid of controlled source profiles along the North Anatolian fault. Geophysical Journal International, 194(3), 1335-1357.
  • Beck, J. L., & Hall, J. F. (1986). Factors contributing to the catastrophe in Mexico City during the earthquake of September 19, 1985. Geophysical Research Letters, 13(6), 593-596.
  • Celebi, M., Prince, J., Dietel, C., Onate, M., & Chavez, G. (1987). The culprit in Mexico City—amplification of motions. Earthquake spectra, 3(2), 315-328.
  • Gurbuz, C., Aktar, M., Eyidogan, H., Cisternas, A., Haessler, H., Barka, A., Kuleli, S. (2000). The seismotectonics of the Marmara region (Turkey): results from a microseismic experiment. Tectonophysics, 316(1), 1-17.
  • Koketsu, K., Hatayama, K., Furumura, T., Ikegami, Y., & Akiyama, S. (2005). Damaging long-period ground motions from the 2003 M w 8.3 Tokachi-oki, Japan earthquake. Seismological Research Letters, 76(1), 67-73.
  • Koketsu, K., & Miyake, H. (2008). A seismological overview of long-period ground motion. Journal of Seismology, 2(12), 133-143.
  • Okay, A. I., Kaşlılar-Özcan, A., Imren, C., Boztepe-Güney, A., Demirbağ, E., & Kuşçu, İ. (2000). Active faults and evolving strike-slip basins in the Marmara Sea, northwest Turkey: a multichannel seismic reflection study. Tectonophysics, 321(2), 189-218.
  • Smith, A. D., Taymaz, T., Oktay, F., Yüce, H., Alpar, B., Başaran, H.,Şimşek, M.(1995). High-resolution seismic profiling in the Sea of Marmara (northwest Turkey):Late Quaternary sedimentation and sea-level changes. Geological Society of America Bulletin, 107(8), 923-936.

Long Period Seismic Waves Developed at Local Distances

Yıl 2018, Cilt: 4 Sayı: 1, 40 - 45, 05.07.2018

Öz




















Long period seismic waves has two types.
One of them is caused from far-source earthquakes and the other one is caused
from near field type earthquakes. (Koketsu and Miyake, 2008)  Long period seismic waves could be really
destructive since these kind of waves amplify their effect when they are
passing through the sediman areas. There are many examples in literature. A
devastating example is Mexico City, which is located 400 km away from the 1985
Michoacan Earthquake (Mw=8.0) (Celebi et al, 1987). This study’s aim is to
detect the long period seismic waves which will effect Marmara Region and
generate relationship according to path and source.  On May 24, 2014 Mw=6.9 Gökçeada earthquake
was occurred and after this event, there were far source long period ground
waves observed at Marmara Region. We used 5 stations to compare the wave
characteristic. Gökçeada station is the closest station and 40 km away, the
other 4 stations are 300 km away from the epicenter and they are located at
near İstanbul. We observed long period seismic waves at these stations.  For future works, the aim is to make a long
period ground waves map for Marmara Region especially for İstanbul, and
calculate their effect.

Kaynakça

  • Ambraseys, N. (2002). The seismic activity of the Marmara Sea region over the last 2000 years. Bulletin of the Seismological Society of America, 92(1), 1-18.
  • Bayrakci, G., Laigle, M., Bécel, A., Hirn, A., Taymaz, T., Yolsal-Cevikbilen, S., & Team, S. (2013). 3-D sediment-basement tomography of the Northern Marmara trough by a dense OBS network at the nodes of a grid of controlled source profiles along the North Anatolian fault. Geophysical Journal International, 194(3), 1335-1357.
  • Beck, J. L., & Hall, J. F. (1986). Factors contributing to the catastrophe in Mexico City during the earthquake of September 19, 1985. Geophysical Research Letters, 13(6), 593-596.
  • Celebi, M., Prince, J., Dietel, C., Onate, M., & Chavez, G. (1987). The culprit in Mexico City—amplification of motions. Earthquake spectra, 3(2), 315-328.
  • Gurbuz, C., Aktar, M., Eyidogan, H., Cisternas, A., Haessler, H., Barka, A., Kuleli, S. (2000). The seismotectonics of the Marmara region (Turkey): results from a microseismic experiment. Tectonophysics, 316(1), 1-17.
  • Koketsu, K., Hatayama, K., Furumura, T., Ikegami, Y., & Akiyama, S. (2005). Damaging long-period ground motions from the 2003 M w 8.3 Tokachi-oki, Japan earthquake. Seismological Research Letters, 76(1), 67-73.
  • Koketsu, K., & Miyake, H. (2008). A seismological overview of long-period ground motion. Journal of Seismology, 2(12), 133-143.
  • Okay, A. I., Kaşlılar-Özcan, A., Imren, C., Boztepe-Güney, A., Demirbağ, E., & Kuşçu, İ. (2000). Active faults and evolving strike-slip basins in the Marmara Sea, northwest Turkey: a multichannel seismic reflection study. Tectonophysics, 321(2), 189-218.
  • Smith, A. D., Taymaz, T., Oktay, F., Yüce, H., Alpar, B., Başaran, H.,Şimşek, M.(1995). High-resolution seismic profiling in the Sea of Marmara (northwest Turkey):Late Quaternary sedimentation and sea-level changes. Geological Society of America Bulletin, 107(8), 923-936.
Toplam 9 adet kaynakça vardır.

Ayrıntılar

Birincil Dil İngilizce
Konular Mühendislik
Bölüm Makaleler
Yazarlar

Esra Kalkan Ertan

Ali Pınar

Ümit Dikmen Bu kişi benim

Yayımlanma Tarihi 5 Temmuz 2018
Yayımlandığı Sayı Yıl 2018 Cilt: 4 Sayı: 1

Kaynak Göster

Chicago Kalkan Ertan, Esra, Ali Pınar, ve Ümit Dikmen. “Long Period Seismic Waves Developed at Local Distances”. Disaster Science and Engineering 4, sy. 1 (Haziran 2018): 40-45.