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Sviluppo di un sistema di monitoraggio sismico da fondale marino: applicazioni all'area vulcanica dei Campi FlegreiVassallo, Maurizio <1975> 23 May 2007 (has links)
No description available.
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112 |
Development and application of a physical model for the estimate of the rate and probability of earthquake occurrenceCatalli, Flaminia <1977> 23 May 2007 (has links)
No description available.
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113 |
Development and application of stochastic models of earthquake occurrenceLombardi, Anna Maria <1973> 23 May 2007 (has links)
No description available.
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114 |
Surface wave tomography in the european and mediterranean regionSchivardi, Renata <1978> 15 June 2007 (has links)
No description available.
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115 |
Seismic rays and travel time tomography in strongly heterogeneous mantle structuresSerretti, Paola <1978> 15 June 2007 (has links)
No description available.
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116 |
Glacial isostasy and sea level change in the Mediterranean: near and far-field effects on a millennium to century time-scaleStocchi, Paolo <1977> 25 June 2007 (has links)
No description available.
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117 |
Magnetic structural evidences of the 41(st) parallel zone (Tyrrhenian Sea) inferred from potential field data: the 3D model of the discontinuityCocchi, Luca <1978> 07 May 2007 (has links)
No description available.
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118 |
A comprehensive study of the 26th December 2004 Sumatra earthquake: possible implications on Earth rotation and investigations on the coseismic and postseismic stress diffusion associated with the seismic rupturePisani, Anna Rita <1973> 09 June 2008 (has links)
In this work a multidisciplinary study of the December 26th, 2004 Sumatra
earthquake has been carried out. We have investigated both the effect of the
earthquake on the Earth rotation and the stress field variations associated
with the seismic event.
In the first part of the work we have quantified the effects of a water
mass redistribution associated with the propagation of a tsunami wave on the
Earth’s pole path and on the length-of-day (LOD) and applied our modeling
results to the tsunami following the 2004 giant Sumatra earthquake. We
compared the result of our simulations on the instantaneous rotational axis
variations with some preliminary instrumental evidences on the pole path
perturbation (which has not been confirmed yet) registered just after the
occurrence of the earthquake, which showed a step-like discontinuity that
cannot be attributed to the effect of a seismic dislocation.
Our results show that the perturbation induced by the tsunami on the
instantaneous rotational pole is characterized by a step-like discontinuity,
which is compatible with the observations but its magnitude turns out to be
almost one hundred times smaller than the detected one. The LOD variation
induced by the water mass redistribution turns out to be not significant because the total effect is smaller than current measurements uncertainties.
In the second part of this work of thesis we modeled the coseismic and
postseismic stress evolution following the Sumatra earthquake. By means of
a semi-analytical, viscoelastic, spherical model of global postseismic deformation
and a numerical finite-element approach, we performed an analysis
of the stress diffusion following the earthquake in the near and far field of
the mainshock source. We evaluated the stress changes due to the Sumatra
earthquake by projecting the Coulomb stress over the sequence of aftershocks
taken from various catalogues in a time window spanning about two years
and finally analyzed the spatio-temporal pattern.
The analysis performed with the semi-analytical and the finite-element
modeling gives a complex picture of the stress diffusion, in the area under
study, after the Sumatra earthquake. We believe that the results obtained
with the analytical method suffer heavily for the restrictions imposed, on the
hypocentral depths of the aftershocks, in order to obtain the convergence of
the harmonic series of the stress components. On the contrary we imposed no
constraints on the numerical method so we expect that the results obtained
give a more realistic description of the stress variations pattern.
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Joint inversion of GPS and strong motion data for earthquake rupture modelsCirella, Antonella <1977> 09 June 2008 (has links)
No description available.
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120 |
Shallow and deep deformation in northern Apennines region using seismological dataSalimbeni, Simone <1974> 09 June 2008 (has links)
For its particular position and the complex geological history, the Northern Apennines has
been considered as a natural laboratory to apply several kinds of investigations. By the
way, it is complicated to joint all the knowledge about the Northern Apennines in a unique
picture that explains the structural and geological emplacement that produced it. The main
goal of this thesis is to put together all information on the deformation - in the crust and at
depth - of this region and to describe a geodynamical model that takes account of it.
To do so, we have analyzed the pattern of deformation in the crust and in the mantle. In
both cases the deformation has been studied using always information recovered from
earthquakes, although using different techniques. In particular the shallower deformation
has been studied using seismic moment tensors information. For our purpose we used the
methods described in Arvidsson and Ekstrom (1998) that allowing the use in the inversion
of surface waves [and not only of the body waves as the Centroid Moment Tensor
(Dziewonski et al., 1981) one] allow to determine seismic source parameters for
earthquakes with magnitude as small as 4.0. We applied this tool in the Northern
Apennines and through this activity we have built up the Italian CMT dataset (Pondrelli et
al., 2006) and the pattern of seismic deformation using the Kostrov (1974) method on a
regular grid of 0.25 degree cells. We obtained a map of lateral variations of the pattern of
seismic deformation on different layers of depth, taking into account the fact that shallow
earthquakes (within 15 km of depth) in the region occur everywhere while most of events
with a deeper hypocenter (15-40 km) occur only in the outer part of the belt, on the Adriatic
side. For the analysis of the deep deformation, i.e. that occurred in the mantle, we used
the anisotropy information characterizing the structure below the Northern Apennines. The
anisotropy is an earth properties that in the crust is due to the presence of aligned fluid
filled cracks or alternating isotropic layers with different elastic properties while in the
mantle the most important cause of seismic anisotropy is the lattice preferred orientation
(LPO) of the mantle minerals as the olivine. This last is a highly anisotropic mineral and
tends to align its fast crystallographic axes (a-axis) parallel to the astenospheric flow as a
response to finite strain induced by geodynamic processes. The seismic anisotropy pattern
of a region is measured utilizing the shear wave splitting phenomenon (that is the
seismological analogue to optical birefringence). Here, to do so, we apply on teleseismic
earthquakes recorded on stations located in the study region, the Sileny and Plomerova
(1996) approach. The results are analyzed on the basis of their lateral and vertical
variations to better define the earth structure beneath Northern Apennines. We find
different anisotropic domains, a Tuscany and an Adria one, with a pattern of seismic
anisotropy which laterally varies in a similar way respect to the seismic deformation.
Moreover, beneath the Adriatic region the distribution of the splitting parameters is so
complex to request an appropriate analysis. Therefore we applied on our data the code of
Menke and Levin (2003) which allows to look for different models of structures with
multilayer anisotropy. We obtained that the structure beneath the Po Plain is probably
even more complicated than expected. On the basis of the results obtained for this thesis,
added with those from previous works, we suggest that slab roll-back, which created the
Apennines and opened the Tyrrhenian Sea, evolved in the north boundary of Northern
Apennines in a different way from its southern part. In particular, the trench retreat
developed primarily south of our study region, with an eastward roll-back. In the northern
portion of the orogen, after a first stage during which the retreat was perpendicular to the
trench, it became oblique with respect to the structure.
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