M.S. Theses

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Browsing M.S. Theses by Subject "Earthquakes -- Turkey -- Marmara Region."

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    Reassessment of the seismic parameters from historical seismograms of 1912-Mürefte-Şarköy, 1935-Erdek-Marmara Island and 1963-Çınakcık earthquakes
    (Thesis (M.S.) - Bogazici University. Kandilli Observatory and Earthquake Research Institute, 2011., 2011.) Başarır, Nilay.; Özel, Nurcan Meral.
    Marmara Region has witnessed many destructive earthquakes where some of them caused tsunami. Examination of these earthquakes through analyzing of analog records is crucial for the interpretation of seismotectonics and to assess the level of seismic hazard in this region. Many geological field surveys and geophysical studies to date indicated that 1912, Sarköy-Mürefte event, occurred on the Ganos Fault Zone, was one of the largest earthquake in the western Marmara Sea and caused tsunami. The same is also valid for 04.01.1935, 14:41, M=6.4 and 16:20 M=6.3 Erdek-Marmara Island, and 18.09.1963, 1963, M=6.3 Çınarcık Earthquakes. The purpose of this study is to contribute to the seismotectonics of this region by examining these earthquakes and revaluate source parameters of these shocks using seismic waveforms, which were previously not carried out by modern techniques. In this study, the original seismograms from various countries for 1912 Sarköy- Mürefte, 1935, Erdek Marmara Island and 1963, Çınarcık Earthquakes were digitized. The magnitude Mw, seismic moment Mo, the radius of circular source zone R and stress drop Pσ values were redetermined using digitized original seismic waveforms from displacement spectra for these historical events. For this purpose, a large number of seismic station bulletins have been consulted for the instrumental information to remove the instrument response. In addition, the epicentral locations have been calculated using available readings from original records and also ISS bulletins for 04.01.1935-14:41 and 16:20 Marmara Island-Erdek Earthquake and 18.09.1963-16:58 Çınarcık Earthquake. For the 1912 event, the magnitude Mw=7.13 and radius of the fault area R=41 km were determined. Also, 04.01.1935- 14:41 and 16:20 Earthquakes showed a fault radius of about 15 km with magnitudes Mw=6.0 and Mw=5.9, respectively. The epicenter determinations showed that the first event in 04.01.1935 was located at 40.72 N- 27.72 E while the second one occurred at 40.61 N-27.43 E. The epicenter estimation for the first event in 04.01.1935 indicated a difference about 19 km from the macroseismic epicenter result of Ambraseys (1988), while the second event was located 27 km away from the result of Ambraseys and Jackson (2000). Another finding is of the 1963 event, which gave a fault radius of approximately 13 km with a magnitude Mw=5.9. It was found that the 1963 event was located at 40.80 N-29.18 E. Furthermore; in this study moment tensor inversion method was applied on these earthquakes by using original seismograms collected from various observatories. The fault mechanisms for 04.01.1935-14:41 and 16:20 Earthquakes were determined using moment tensor inversion from the original seismic waveforms for the first time. Likewise, fault mechanism for the 1963 Çınarcık Earthquake was also obtained. The results showed that these earthquakes have normal fault mechanism. Considering its epicenter and fault mechanism, the 1963 event may be related to the pull-apart structure of the Çınarcık Basin. The application of moment tensor inversion method to the historical earthquakes records will give an opportunity to understand the geometry of the known faults possibly shed light some unknown structures and illuminate the seismotectonic features of Marmara Region based on the retrieved fault mechanism solution.
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    The present day stress states in the Marmara region
    (Thesis (M.S.) - Bogazici University. Kandilli Observatory and Earthquake Research Institute, 2012., 2012.) Korkusuz, Yasemin.; Özel, Nurcan Meral.
    Stress tensors with the aid of a large number of fault plane solutions provide important contributions for the evaluation of the seismotectonic setting of a region. In this study, recent earthquake activity at Ganos offshore, Tekirdağ Basin, Çınarcık Basin, Yalova Region and Gemlik Region, which are all located on the western branches of the North Anatolian Fault Zone, were analyzed using a current data set of fault plane solutions derived from a very dense seismic network. For the analysis of high quality fault plane solutions, data from KOERI and the TURDEP project was merged. Data from a total of 105 stations, including 5 continuous SBO stations of KOERI was used. The earthquakes were selected with the following criteria; minimum local magnitude of 2.0, number of minimum P-wave first motion polarity of 10 and toleration of maximum misfit of 1. During the study 85, 75, 73, 102, and 63 source mechanisms were determined in Ganos Offshore, Tekirdağ Basin, Çınarcık Basin, Yalova Region and Gemlik Region, respectively. Through the determination of 9226 high quality P-wave first motion polarities for the selected 398 earthquakes, the number of average polarity per earthquake was 23. Average error depth, latitude, longitude, and GAP values were also obtained as 2.75 km, 0.98 km, 1.25 km and 63˚, respectively. Furthermore, using the algorithm of Horiuchi et al., (1995), simultaneous focal mechanism solutions of individual earthquakes and recent stress regimes along with R-values have been determined for the five clusters. As a result, it was found out that NW-SE trending trans-tensional stress structures leading mostly normal and oblique faulting systems are predominant in Tekirdağ Basin, Çınarcık Basin, Yalova and Gemlik clusters. Nevertheless, Ganos Cluster was presented as a dextral strike-slip deformation system through the transition from normal to reverse faulting system. Vertically oriented Sigma-2 axis was obtained for the Ganos Offshore cluster, whereas in all other regions Sigma-1 axis was vertical. Furthermore, data from KOERI and the TURDEP project was also merged in order to analyze 25.07.2011 Marmara Sea and 16.08.2011 Gemlik Gulf Earthquakes with local magnitudes of 5.2 and 4.0, respectively. It was stated that the stress tensor solutions obtained using mostly small size earthquakes fit the source mechanisms of these two moderate size earthquakes. Consequently, in this research, I have proposed a new and comprehensive approach to the fault geometries, present stress state, and seismotectonic structures of the Marmara Region by a detailed analysis of the results of the large number of fault plane solutions of earthquakes in the Marmara Region using the most dense seismic network of Turkey.