Instrumental evidence of normal mode rock slope vibration

Burjánek, Jan; Moore, Jeffrey R.; Molina, F. X. Yugsi; Fäh, Donat

doi:10.1111/j.1365-246x.2011.05272.x

Cited by 138 publications

(116 citation statements)

References 44 publications

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“…Similar to what is observed across sediment-filled valleys in numerical simulations (e.g., Bouchon 1985, Frischknecht andWagner 2004) and in real data (e.g., Tucker and King 1984, Roten et al 2006), we expect the resonance frequency for such a normal mode resonance to be approximately equal over the entire extent of the landslide body, regardless of its thickness at each site, alike Burjanek et al (2012). Using classical 1D transfer function theory and the obtained velocity model (e.g., for S13 and S20, see Figure 6) one might pre-estimate that a thickness of the lowvelocity body of around 30 to 35 m will correspond to a fundamental frequency of around 2.5 Hz.…”

Section: Discussionsupporting

confidence: 58%

“…Several cracks can be observed at the surface, in particular near S3 of array 2. Such fractures, having preferred orientation perpendicular to the highest slope directions, might generate even stronger amplification effects (Burjanek et al 2012) and probably enhance instability by a local reduction of the shear strength within the upper layer.…”

Section: Discussionmentioning

confidence: 99%

“…Burjanek et al (2010) estimated amplification factors and identified the range of resonant frequencies for a large unstable rock mass by noise polarization analysis. Burjanek et al (2012) used small seismic arrays to identify normal mode motion (standing waves) within an unstable rock mass. Renalier et al (2010) correlated seismic noise to resolve 2D profiles of the shear-wave velocity structure of a landslide composed of clayey soil deposits.…”

Section: Introductionmentioning

confidence: 99%

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Combining Seismic Noise Techniques for Landslide Characterization

Pilz

Parolai

Bindi

et al. 2013

Pure Appl. Geophys.

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The strong topographic relief and the presence of weakly consolidated sediments create favorable conditions for the development of landslides around the eastern rim of the Fergana Basin (Central Asia). In summer 2012, a field experiment employing small aperture seismic arrays was carried out on an unstable slope, using ambient vibration recordings. The aim of the study was to constrain the seismic response of a potential future landslide and to map

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Section: Discussionsupporting

confidence: 58%

Section: Discussionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Combining Seismic Noise Techniques for Landslide Characterization

Pilz

Parolai

Bindi

et al. 2013

Pure Appl. Geophys.

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“…In our study, a tendency seems evident for the entire landslide body to generally vibrate with a northeast azimuth and, accordingly, during a strong earthquake the ground motion would be amplified in this direction. Studies of Burjánek et al (2010Burjánek et al ( , 2012 point out that the ambient noise polarization is at about a 90-degree angle to the observed fractures which are perpendicular to the sliding direction. In the present study the polarization angle is parallel to the opening cracks, which appears in contrast to the above mentioned results.…”

Section: Directional Effects From Hvsr and Polarization Analysismentioning

confidence: 99%

“…Recordings of ambient noise and the use of the HVSR technique have recently had widespread use in studying landslides (e.g. Del Gaudio et al, 2008;Burjánek et al, 2010;Del Gaudio and Wasowski 2011;Burjánek et al, 2012).…”

Section: Introductionmentioning

confidence: 99%

Seismic site response of unstable steep slope using noise measurements: the case study of Xemxija Bay area, Malta

Panzera

D’Amico

Lotteri

et al. 2012

Nat. Hazards Earth Syst. Sci.

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Abstract. Landslide phenomena involve the northern coast of Malta, affecting in particular the urban area of Xemxija. Limestones overlying a clayey formation represent the shallower lithotypes that characterize the surficial geology of this area, where lateral spreading phenomena and rockfalls take place.Ambient noise records, processed through spectral ratio techniques, were analysed in order to characterize the dynamic behavior of the rock masses affected by the presence of fractures linked to the landslide body existing in the area. Experimental spectral ratios were also calculated after rotating the horizontal components of the seismic signal, and a direct estimate of the polarization angle was also performed in order to investigate the existence of directional effects in the ground motion.The results of the morphologic survey confirmed the existence of large cliff-parallel fractures that cause cliff-edge and unstable boulder collapses. Such phenomena appear connected to the presence, inside the clay formation, of a sliding surface that was identified through the interpretation of the noise measurement data. The boundaries of the landslide area appear quite well defined by the pronounced polarization effects, trending in the northeastern direction, observed in the fractured zone and in the landslide body in particular.

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Orthogonal relation between wavefield polarization and fast S wave direction in the Val d'Agri region: An integrating method to investigate rock anisotropy

et al. 2014

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[1] Wavefield polarization is investigated using 200 seismograms recorded by a network of 20 stations installed on rock outcrops in the Val d'Agri region that hosts the largest oil fields in the southern Apennines (Italy). Polarization is assessed both in the frequency and time domains through the individual-station horizontal-to-vertical spectral ratio and covariance-matrix analysis, respectively. We find that most of the stations show a persistent horizontal polarization of waveforms, with a NE-SW predominant trend. This direction is orthogonal to the general trend of Quaternary normal faults in the region and to the maximum horizontal stress related to the present extensional regime. According to previous studies in other areas, such a directional effect is interpreted as due to the presence of fault-related fracture fields, polarization being orthogonal to their predominant direction. A comparison with S wave anisotropy inferred from shear wave splitting indicates an orthogonal relation between horizontal polarization and fast S wave direction. This suggests that wavefield polarization and fast velocity direction are effects of the same cause: The existence of an anisotropic medium represented by fractured rocks where shear wave velocity is larger in the crack-parallel component and compliance is larger perpendicularly to the crack strike. The latter is responsible for the observed anisotropic pattern of amplitudes of horizontal ground motion in the study area.

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Instrumental evidence of normal mode rock slope vibration

Cited by 138 publications

References 44 publications

Combining Seismic Noise Techniques for Landslide Characterization

Combining Seismic Noise Techniques for Landslide Characterization

Seismic site response of unstable steep slope using noise measurements: the case study of Xemxija Bay area, Malta

Orthogonal relation between wavefield polarization and fast S wave direction in the Val d'Agri region: An integrating method to investigate rock anisotropy

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