Abstract
Northern Italy is a diverse geological region, including the wide and thick Po Plain sedimentary basin, which is bounded by the Alps and the Apennines. The seismically slow shallow structure of the Po Plain is difficult to retrieve with classical seismic measurements such as surface wave dispersion, yet the detailed structure of the region greatly affects seismic wave propagation and hence seismic ground shaking.Here we invert Rayleigh wave ellipticity measurements in the period range 10–60s for 95 stations in northern Italy using a fully non linear approach to constrain vertical vS,vP and density profiles of the crust beneath each station. The ellipticity of Rayleigh wave ground motion is primarily sensitive to shear-wave velocity beneath the recording station, which reduces along-path contamination effects. We use the 3D layering structure in MAMBo, a previous model based on a compilation of geological and geophysical information for the Po Plain and surrounding regions of northern Italy, and employ ellipticity data to constrain vS,vP and density within its layers. We show that ellipticity data from ballistic teleseismic wave trains alone constrain the crustal structure well. This leads to MAMBo-E, an updated seismic model of the region’s crust that inherits information available from previous seismic prospection and geological studies, while fitting new seismic data well. MAMBo-E brings new insights into lateral heterogeneity in the region’s subsurface. Compared to MAMBo, it shows overall faster seismic anomalies in the region’s Quaternary, Pliocene and Oligo-Miocene layers and better delineates the seismic structures of the Po Plain at depth. Two low velocity regions are mapped in the Mesozoic layer in the western and eastern parts of the Plain, which seem to correspond to the Monferrato sedimentary basin and to the Ferrara-Romagna thrust system, respectively.
Highlights
Introduction and geological contextThe Po Plain is the largest sedimentary basin in Italy
We invert for vS; vP and density simultaneously in each layer (vp and density are scaled from vS using relations by Brocher (2005)) using the approach tested through the synthetic tests presented in the previous section
We show only the results for vS because it is the parameter with the highest sensitivity, but ellipticity showed a non-negligible sensitivity to density
Summary
The Po Plain is the largest sedimentary basin in Italy It extends in a west-east direction from the western Alps to the Adriatic sea and it is bounded by the Apennines chain to the South with a total surface of % 48,000 km. It extends in a west-east direction from the western Alps to the Adriatic sea and it is bounded by the Apennines chain to the South with a total surface of % 48,000 km2 It is one of the most densely populated areas in Italy, with a population of % 20 millions, and one of the most important industrial districts. From a geological point of view, this sedimentary basin corresponds to the ancient African foreland environment, being squeezed between the Alps and the Apennines It is filled by a superposition of Pliocene-Quaternary deposits with thickness ranging between a few hundred meters (above the buried thrust systems) to 8 km (above the depocenters). A buried thrust system lies in the north, parallel to the Alpine chain, from western Alps to the Garda Lake region where it connects to the Giudicarie thrust system (GS, Fig. 1, Vannoli et al, 2015)
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