The determination of interseismic, coseismic and postseismic deformations caused by the Gökçeada-Samothraki earthquake (2014, Mw: 6.9) based on GNSS data. (September 2017)
- Record Type:
- Journal Article
- Title:
- The determination of interseismic, coseismic and postseismic deformations caused by the Gökçeada-Samothraki earthquake (2014, Mw: 6.9) based on GNSS data. (September 2017)
- Main Title:
- The determination of interseismic, coseismic and postseismic deformations caused by the Gökçeada-Samothraki earthquake (2014, Mw: 6.9) based on GNSS data
- Authors:
- Tiryakioglu, Ibrahim
Yigit, Cemal Ozer
Yavasoglu, Hakan
Saka, Mehmet Halis
Alkan, Reha Metin - Abstract:
- Abstract: Since the 1990s, seismic deformations have been commonly determined using the Global Navigation Satellite System (GNSS). Recently, the GNSS systems have become even more powerful with the use of new technologies in innovative studies. In this study, the GNSS data was used to investigate interseismic, coseismic and postseismic deformation and velocity of the Gökçeada-Samothraki earthquake (Mw = 6.9) that occurred on May 24, 2014. The data was obtained at 30 s (0.033 Hz) and 1 s (1 Hz) intervals from the GNSS receivers in the network of Continuously Operating Reference Stations, Turkey (CORS-TR). For the interseismic period, the daily coordinate time series of 12 stations located within 90–250 km of the earthquake epicenter was evaluated for the displacement of stations over a period of approximately 2000 days prior to the day of the earthquakes, from October 1, 2008 to May 23, 2014. In order to analyze the ground motion displacement during the Gökçeada-Samothraki earthquake, 1 Hz data from 8 continuous GNSS stations was processed using precise point positioning (PPP) and relative positioning methods to estimate the epoch-by-epoch positions of the stations. During the earthquake, coseismic displacements of approximately 7 and 30 mm were detected in the NW direction at the YENC and CANA stations, respectively. However, at the IPSA station, a coseismic deformation of 20 mm was observed in the NE direction. There were no significant changes at the other stations duringAbstract: Since the 1990s, seismic deformations have been commonly determined using the Global Navigation Satellite System (GNSS). Recently, the GNSS systems have become even more powerful with the use of new technologies in innovative studies. In this study, the GNSS data was used to investigate interseismic, coseismic and postseismic deformation and velocity of the Gökçeada-Samothraki earthquake (Mw = 6.9) that occurred on May 24, 2014. The data was obtained at 30 s (0.033 Hz) and 1 s (1 Hz) intervals from the GNSS receivers in the network of Continuously Operating Reference Stations, Turkey (CORS-TR). For the interseismic period, the daily coordinate time series of 12 stations located within 90–250 km of the earthquake epicenter was evaluated for the displacement of stations over a period of approximately 2000 days prior to the day of the earthquakes, from October 1, 2008 to May 23, 2014. In order to analyze the ground motion displacement during the Gökçeada-Samothraki earthquake, 1 Hz data from 8 continuous GNSS stations was processed using precise point positioning (PPP) and relative positioning methods to estimate the epoch-by-epoch positions of the stations. During the earthquake, coseismic displacements of approximately 7 and 30 mm were detected in the NW direction at the YENC and CANA stations, respectively. However, at the IPSA station, a coseismic deformation of 20 mm was observed in the NE direction. There were no significant changes at the other stations during the earthquake. For the postseismic period, the daily coordinate time series of the 12 stations were evaluated for station displacements for 570 days after the day of the earthquakes, from May 24, 2014 to January 1, 2016. The results demonstrated that no significant postseismic deformation with the exception of the EDIR station. An abnormal deformation caused by local factors was determined at the EDIR station. In this study, the PPP and the relative solution were also compared in terms of capturing the earthquake wave motion. The results demonstrated that the PPP-based solutions showed good agreement with those of relative positioning in terms of the ability to capture coseismic displacement. Highlights: Interseismic, coseismic and postseismic deformations were determined based on daily GNSS data. 1 Hz GNSS data was used to evaluate earthquake wave motion. Performance of relative kinematic positioning and kinematic PPP were compared for capturing wave motion. … (more)
- Is Part Of:
- Journal of African earth sciences. Volume 133(2017)
- Journal:
- Journal of African earth sciences
- Issue:
- Volume 133(2017)
- Issue Display:
- Volume 133, Issue 2017 (2017)
- Year:
- 2017
- Volume:
- 133
- Issue:
- 2017
- Issue Sort Value:
- 2017-0133-2017-0000
- Page Start:
- 86
- Page End:
- 94
- Publication Date:
- 2017-09
- Subjects:
- GNSS -- Interseismic -- Coseismic -- Postseismic deformation rate -- Earthquake wave motion -- North Anatolian fault -- GAMIT/Track -- PPP
Earth sciences -- Africa -- Periodicals
Earth sciences -- Middle East -- Periodicals
Geology -- Africa -- Periodicals
Geology -- Middle East -- Periodicals
Sciences de la terre -- Afrique -- Périodiques
Sciences de la terre -- Moyen-Orient -- Périodiques
Géologie -- Afrique -- Périodiques
Géologie -- Moyen-Orient -- Périodiques
Earth sciences
Geology
Africa
Middle East
Periodicals
Electronic journals
556.05 - Journal URLs:
- http://www.sciencedirect.com/science/journal/1464343X ↗
http://www.elsevier.com/journals ↗ - DOI:
- 10.1016/j.jafrearsci.2017.05.012 ↗
- Languages:
- English
- ISSNs:
- 1464-343X
- Deposit Type:
- Legaldeposit
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- British Library DSC - 4919.989000
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