2012
DOI: 10.1029/2012jb009178
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The 2010–2011 Canterbury, New Zealand, seismic sequence: Multiple source analysis from InSAR data and modeling

Abstract: The 2010–2011 Canterbury sequence is a complex system of seismic events that started with a Mw7.1 earthquake and continued with large aftershocks with dramatic consequences, particularly for the city of Christchurch. We model the main earthquakes using InSAR data, providing displacement maps and the respective modeling for the September 4th, 2010, February 22nd, 2011 and June 13th, 2011 events. Relocated aftershocks, field and GPS surveys are used to constrain models obtained by inversion of InSAR data; the fa… Show more

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Cited by 54 publications
(25 citation statements)
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“…8b). This alignment compares very well to an area of SAR signal decorrelation, whose origin is likely due to co-seismic modifications of the surface scattering properties caused by the expulsion of ground waters as already observed by Atzori et al (2012) for the 2011 Christchurch earthquake in New Zealand. Along and close to the eastern section of this alignment, complex ground deformations occur, indicated by sharp bending (up to 90 • ) of the local fringe trends (white arrow in Fig.…”
Section: Discussionmentioning
confidence: 73%
“…8b). This alignment compares very well to an area of SAR signal decorrelation, whose origin is likely due to co-seismic modifications of the surface scattering properties caused by the expulsion of ground waters as already observed by Atzori et al (2012) for the 2011 Christchurch earthquake in New Zealand. Along and close to the eastern section of this alignment, complex ground deformations occur, indicated by sharp bending (up to 90 • ) of the local fringe trends (white arrow in Fig.…”
Section: Discussionmentioning
confidence: 73%
“…Here, we successfully apply synthetic aperture radar (SAR) interferometry (In-SAR), derived from satellite data, to identify and map soil liquefaction. Satellite-based remote sensing methods hold promise for providing broad and dense information on the Earth's surface (Massonnet and Feigl, 1998;Bürgmann et al., 2000; Simons and Rosen, 2007) and have shown a potential advantage for investigating soil liquefaction (Atzori et al, 2012). To our knowledge, this study is the first application of InSAR analysis to mapping soil liquefaction caused by the 2011 Tohoku earthquake.…”
Section: Introductionmentioning
confidence: 98%
“…Many phenomena can contribute to ground deformation after strong earthquakes, including the fault slip [10], the compaction induced by liquefaction [11,12], and the earthquake-triggered slope instabilities [13][14][15][16][17]. All these phenomena play different roles depending on the geological, geotechnical, and hydrogeological features of the epicentral area.…”
Section: Introductionmentioning
confidence: 99%