An L-band interferometric synthetic aperture radar study on the Ganos section of the north Anatolian fault zone between 2007 and 2011: Evidence for along strike segmentation and creep in a shallow fault patch

An L-band interferometric synthetic aperture radar study on the Ganos section of the north Anatolian fault zone between 2007 and 2011: Evidence for along strike segmentation and creep in a shallow fault patch

We utilize L-band interferometric synthetic aperture radar (InSAR) data in this study to retrieve a ground velocity map for the near field of the Ganos section of the north Anatolian fault (NAF) zone. The segmentation and creep distribution of this section, which last ruptured in 1912 to generate a...

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Bibliographic Details
Published in:PloS one Vol. 12; no. 9; p. e0185422
Main Authors: de Michele, Marcello, Ergintav, Semih, Aochi, Hideo, Raucoules, Daniel
Format: Journal Article
Language:English
Published: United States Public Library of Science 29-09-2017
Public Library of Science (PLoS)
Subjects:
Analysis
Archives & records
Displacement
Dual polarization radar
Earth
Earth Sciences
Earthquakes
Emergency preparedness
Engineering and Technology
Fault lines
Geodetics
Geological hazards
Geology
Global positioning systems
GPS
Hazard assessment
Interferometric synthetic aperture radar
Interferometry
Interferometry - methods
Physical Sciences
Radar
Radar data
Satellite navigation systems
Sciences of the Universe
Segmentation
Segments
Seismic activity
Seismic hazard
Spatial distribution
Studies
Synthetic aperture radar
Synthetic aperture radar interferometry
Tectonics
Time series
Turkey
Velocity
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Summary:We utilize L-band interferometric synthetic aperture radar (InSAR) data in this study to retrieve a ground velocity map for the near field of the Ganos section of the north Anatolian fault (NAF) zone. The segmentation and creep distribution of this section, which last ruptured in 1912 to generate a moment magnitude (Mw)7.3 earthquake, remains incompletely understood. Because InSAR processing removes the mean orbital plane, we do not investigate large scale displacements due to regional tectonics in this study as these can be determined using global positioning system (GPS) data, instead concentrating on the close-to-the-fault displacement field. Our aim is to determine whether, or not, it is possible to retrieve robust near field velocity maps from stacking L-band interferograms, combining both single and dual polarization SAR data. In addition, we discuss whether a crustal velocity map can be used to complement GPS observations in an attempt to discriminate the present-day surface displacement of the Ganos fault (GF) across multiple segments. Finally, we characterize the spatial distribution of creep on shallow patches along multiple along-strike segments at shallow depths. Our results suggest the presence of fault segmentation along strike as well as creep on the shallow part of the fault (i.e. the existence of a shallow creeping patch) or the presence of a smoother section on the fault plane. Data imply a heterogeneous fault plane with more complex mechanics than previously thought. Because this study improves our knowledge of the mechanisms underlying the GF, our results have implications for local seismic hazard assessment.
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PMCID: PMC5621685
Competing Interests: The authors have declared that no competing interests exist.
ISSN:1932-6203
1932-6203
DOI:10.1371/journal.pone.0185422