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Earthquake-Rotated Objects (EROs) induced by the 2016 Mw6.0 Amatrice (Central Italy) earthquake: the contribution from site and source effects
Author(s)
Language
English
Obiettivo Specifico
5T. Sismologia, geofisica e geologia per l'ingegneria sismica
Status
Published
JCR Journal
JCR Journal
Title of the book
Issue/vol(year)
/16 (2018)
Pages (printed)
1061–1077
Issued date
2018
Subjects
Abstract
The 2016 August 24th, Mw6.0 Amatrice (Central Italy) normal faulting earthquake
produced a remarkable number of Earthquake-Rotated Objects (EROs) that affected
chimneys, as well as pillars and capitals on gates and walls. In this paper we present the
EROs dataset, and perform some qualitative analyses to evaluate if specific geological and
seismological features such as intensity, epicentral distance, potential amplification of the
seismic shaking at the site, heterogeneities of the rupture on the fault and directivity
effects, and peak ground accelerations, favoured the distribution of EROs observed after
the earthquake. A first important outcome is that the distribution of the EROs of Amatrice
2016 mimics the general pattern of damage, and that EROs occurrence should be regarded
as a diagnostic element of intensity degrees lower than those presently established by
formalized scales. We also find that site factors, namely the surface geology and the local
amplification, are the most significant contributors to the EROs occurrence. In addition, we
find that the position respect to the fault can enhance the occurrence of local rotations. The
distinctive features characterizing the 2016 EROs dataset resemble and substantiate the
most important findings produced by previous studies carried out following the 2009
L’Aquila and 2012 Emilia seismic sequences, and allow to calibrate the empirical relations
on the EROs distribution presented in the world Catalog of Earthquake-Rotated Objects
produced a remarkable number of Earthquake-Rotated Objects (EROs) that affected
chimneys, as well as pillars and capitals on gates and walls. In this paper we present the
EROs dataset, and perform some qualitative analyses to evaluate if specific geological and
seismological features such as intensity, epicentral distance, potential amplification of the
seismic shaking at the site, heterogeneities of the rupture on the fault and directivity
effects, and peak ground accelerations, favoured the distribution of EROs observed after
the earthquake. A first important outcome is that the distribution of the EROs of Amatrice
2016 mimics the general pattern of damage, and that EROs occurrence should be regarded
as a diagnostic element of intensity degrees lower than those presently established by
formalized scales. We also find that site factors, namely the surface geology and the local
amplification, are the most significant contributors to the EROs occurrence. In addition, we
find that the position respect to the fault can enhance the occurrence of local rotations. The
distinctive features characterizing the 2016 EROs dataset resemble and substantiate the
most important findings produced by previous studies carried out following the 2009
L’Aquila and 2012 Emilia seismic sequences, and allow to calibrate the empirical relations
on the EROs distribution presented in the world Catalog of Earthquake-Rotated Objects
Type
article
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10.1007_s10518-017-0242-3.pdf
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