Local site effects in the town of Benevento (Italy) from noise measurements

-- The study of ground motion amplification produced by surface geology is extremely interesting in the Benevento area, Southern Italy, as it is characterized by high seismic hazard. The present moderate-to-low seismicity makes the noise method appropriate to estimate the seismic site response in th...

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Veröffentlicht in:	Pure and applied geophysics 2003-09, Vol.160 (9), p.1745-1764
Hauptverfasser:	MARESCA, Rosalba, CASTELLANO, Mario, DE MATTEIS, Raffaella, SACCOROTTI, Gilberto, VACCARIELLO, Pietro
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Sprache:	eng
Schlagworte:	Earth sciences Earth, ocean, space Earthquakes, seismology Exact sciences and technology Geology Ground motion Impedance Internal geophysics Measurement techniques Metropolitan areas Noise Sediments Seismic hazard
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container_title	Pure and applied geophysics
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creator	MARESCA, Rosalba CASTELLANO, Mario DE MATTEIS, Raffaella SACCOROTTI, Gilberto VACCARIELLO, Pietro
description	-- The study of ground motion amplification produced by surface geology is extremely interesting in the Benevento area, Southern Italy, as it is characterized by high seismic hazard. The present moderate-to-low seismicity makes the noise method appropriate to estimate the seismic site response in the area. The three components of seismic noise have been recorded in five sites in the Benevento metropolitan area characterized by different surface geology, in order to estimate the seismic site response. In evaluating site amplification effects we used the direct interpretation of amplitude spectra and standard spectral ratio techniques, evaluating sediment-to-bedrock, sediment-to-average and H/V spectral ratios. The temporal evolution of the noise spectra is analysed within one day, in order to assess the stationarity of the noise signal. The noise wavefield properties have been studied through polarization analyses in selected bands of frequency, where spectral peaks are observed to dominate, to better understand the real nature of those peaks. Results give evidence of low amplification levels, missing any correlation between spectral amplitudes and sediment thickness over the basement. We interpret this result as due to the poor impedance contrast between sediments and basement, which is characterized by low values of shear waves velocity. Moreover, sharp amplitude peaks are observed in the raw spectra of the sediment-sites, in the 2-4 Hz frequency band; a numerical simulation interprets this effect as possibly associated with a wide-scale structure, invoking the presence of a sharper impedance contrast at greater depth. At high frequencies the action of ambient noise sources, mainly active on horizontal components of motion, is retained dominant to generate the prominent peaks observed in the H/V spectral ratios; in some cases the presence of a near-surface low-velocity layer can contribute to amplify the seismic motion generated at these frequencies.[PUBLICATION ABSTRACT]
doi_str_mv	10.1007/s00024-003-2376-2
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The present moderate-to-low seismicity makes the noise method appropriate to estimate the seismic site response in the area. The three components of seismic noise have been recorded in five sites in the Benevento metropolitan area characterized by different surface geology, in order to estimate the seismic site response. In evaluating site amplification effects we used the direct interpretation of amplitude spectra and standard spectral ratio techniques, evaluating sediment-to-bedrock, sediment-to-average and H/V spectral ratios. The temporal evolution of the noise spectra is analysed within one day, in order to assess the stationarity of the noise signal. The noise wavefield properties have been studied through polarization analyses in selected bands of frequency, where spectral peaks are observed to dominate, to better understand the real nature of those peaks. Results give evidence of low amplification levels, missing any correlation between spectral amplitudes and sediment thickness over the basement. We interpret this result as due to the poor impedance contrast between sediments and basement, which is characterized by low values of shear waves velocity. Moreover, sharp amplitude peaks are observed in the raw spectra of the sediment-sites, in the 2-4 Hz frequency band; a numerical simulation interprets this effect as possibly associated with a wide-scale structure, invoking the presence of a sharper impedance contrast at greater depth. 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At high frequencies the action of ambient noise sources, mainly active on horizontal components of motion, is retained dominant to generate the prominent peaks observed in the H/V spectral ratios; in some cases the presence of a near-surface low-velocity layer can contribute to amplify the seismic motion generated at these frequencies.[PUBLICATION ABSTRACT]</abstract><cop>Basel</cop><pub>Springer</pub><doi>10.1007/s00024-003-2376-2</doi><tpages>20</tpages></addata></record>
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subjects	Earth sciences Earth, ocean, space Earthquakes, seismology Exact sciences and technology Geology Ground motion Impedance Internal geophysics Measurement techniques Metropolitan areas Noise Sediments Seismic hazard
title	Local site effects in the town of Benevento (Italy) from noise measurements
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