2016
DOI: 10.1002/2015jb012595
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M ≥ 7 earthquake rupture forecast and time‐dependent probability for the sea of Marmara region, Turkey

Abstract: We forecast time‐independent and time‐dependent earthquake ruptures in the Marmara region of Turkey for the next 30 years using a new fault segmentation model. We also augment time‐dependent Brownian passage time (BPT) probability with static Coulomb stress changes (ΔCFF) from interacting faults. We calculate Mw > 6.5 probability from 26 individual fault sources in the Marmara region. We also consider a multisegment rupture model that allows higher‐magnitude ruptures over some segments of the northern branch o… Show more

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Cited by 52 publications
(57 citation statements)
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References 134 publications
(297 reference statements)
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“…In the central Marmara Sea, the 70 km long Istanbul-Silivri segment (ISS) of the NAF has had no significant seismic events since at least 1766 and perhaps as far back as 989 [Ambraseys, 2002]. The probability of rupture of NAF segments in the central part of the Marmara Sea is considered to be significant [Murru et al, 2016;Aochi and Ulrich, 2015;Parsons, 2004], and Schmittbuhl et al [2015] recently interpreted the low level of present-day seismicity along the ISS as the signature of a locked behavior. Although Bohnhoff et al [2016] suggest that the maximum expected earthquake in the Istanbul area would probably not exceed a magnitude 7.5, geomechanical models generally predict high strain accumulation along the ISS, sufficient to produce a magnitude 7+ event [Hergert and Heidbach, 2010;Pondard et al, 2007;Armijo et al, 2005;.…”
Section: Introductionmentioning
confidence: 99%
“…In the central Marmara Sea, the 70 km long Istanbul-Silivri segment (ISS) of the NAF has had no significant seismic events since at least 1766 and perhaps as far back as 989 [Ambraseys, 2002]. The probability of rupture of NAF segments in the central part of the Marmara Sea is considered to be significant [Murru et al, 2016;Aochi and Ulrich, 2015;Parsons, 2004], and Schmittbuhl et al [2015] recently interpreted the low level of present-day seismicity along the ISS as the signature of a locked behavior. Although Bohnhoff et al [2016] suggest that the maximum expected earthquake in the Istanbul area would probably not exceed a magnitude 7.5, geomechanical models generally predict high strain accumulation along the ISS, sufficient to produce a magnitude 7+ event [Hergert and Heidbach, 2010;Pondard et al, 2007;Armijo et al, 2005;.…”
Section: Introductionmentioning
confidence: 99%
“…Unfortunately, the seismic source model proposed by Gülerce and Ocak (2013) cannot be directly implemented in the PSHA for Istanbul since the model does not include the fault segments on the west of the 1999 Kocaeli earthquake rupture zone. The geometry of the fault segments defined in Murru et al (2016) is generally similar to the Erdik et al (2004) model. Furthermore, Murru et al (2016 provided the complete set of parameters required for a faultbased PSHA analysis (e.g., slip rates, fault widths, rupture models and rates, parameter uncertainties).…”
Section: O R T H a N A T O L I A N F A U L T Z O N Ementioning
confidence: 93%
“…Recently proposed SSC models for the western segments of the NAFZ (Gülerce and Ocak, 2013;Murru et al, 2016) are more detailed in terms of the segmentation models, magnitude recurrence relations, and estimation of the activity rates. In the Gülerce and Ocak (2013) SSC model, the length of segments and the segmentation points were determined and incorporated with the help of then-available fault maps and traced source lines on the satellite images.…”
Section: O R T H a N A T O L I A N F A U L T Z O N Ementioning
confidence: 99%
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