Short Note Site Effect of the Strong-Motion Site at Tolmezzo-Ambiesta Dam in Northeastern Italy

A spectral analysis of strong-motion data and ambient noise at the Tolmezzo-Ambiesta dam accelerograph (TLM1) site is performed to explain the high horizontal peak acceleration of 0.36g recorded during the Mw 6.4, 6 May 1976 Friuli (northeastern Italy) earthquake. The spectral response of the accelerographic site is estimated from the mainshocks and aftershocks of the 1976 seismic sequence by different techniques. In addition, new seismic data are used to characterize the near- surface S-wave velocity distribution versus depth at TLM1 by means of an analysis of the phase-velocity dispersion of Rayleigh waves. An average, spectral amplifi- cation curve is computed for TLM1, whose mean value is at about 1.5. It features two main lobes of amplification with peaks at 2-3.5 Hz and 6-7 Hz that are explained, by the horizontal-to-vertical spectral ratio (HVSR) of noise measurements, as the effects of the vibration of a nearby relief and the dam-reservoir system, respectively. When the site response is evaluated from earthquake recordings, the frequency of resonance due to near-surface S-wave velocity profile at about 5 Hz is strongly at- tenuated in comparison with the 6-7 Hz peak due to the dam-reservoir system. Fi- nally, by filtering the site effects of the 1976 record, the acceleration peak is reduced from the original value of 349.99 cm/sec 2 to 188.76 cm/sec 2 .

[1]  Mihailo D. Trifunac,et al.  Analysis of the Pacoima dam accelerogram—San Fernando, California, earthquake of 1971 , 1971 .

[2]  J. Boatwright,et al.  Earthquake source mechanics , 1986 .

[3]  J. Douglas,et al.  Internet site for European strong-motion data , 2004 .

[4]  F. Sabetta,et al.  Estimation of response spectra and simulation of nonstationary earthquake ground motions , 1996, Bulletin of the Seismological Society of America.

[5]  J. Xia,et al.  Simple equations guide high-frequency surface-wave investigation techniques , 2006 .

[6]  R. Borcherdt Effects of local geology on ground motion near San Francisco Bay , 1970 .

[7]  Walter H. F. Smith,et al.  New, improved version of generic mapping tools released , 1998 .

[8]  Dario Slejko,et al.  Empirical Ground-Motion Attenuation Relations for the Eastern Alps in the Magnitude Range 2.5–6.3 , 2005 .

[9]  The 1984 Morgan Hill, California, Earthquake , 1984, Science.

[10]  G. McMechan,et al.  Analysis of dispersive waves by wave field transformation , 1981 .

[11]  D. Boore,et al.  A Study of Possible Ground-Motion Amplification at the Coyote Lake Dam, California , 2004 .

[12]  Antonio Pugliese,et al.  Attenuation of peak horizontal acceleration and velocity from italian strong-motion records , 1987 .

[13]  Martin J. Siegert,et al.  EOS Trans. AGU , 2003 .

[14]  Charles A. Langston,et al.  Structure under Mount Rainier, Washington, inferred from teleseismic body waves , 1979 .

[15]  Charles S. Mueller,et al.  Ground motion amplification in the Marina District , 1991 .

[16]  Francisco J. Chávez-García,et al.  Site effect evaluation using spectral ratios with only one station , 1993, Bulletin of the Seismological Society of America.

[17]  Francesca Pacor,et al.  Determination of the characteristic frequency of two dams located in the region of Calabria, Italy , 1998, Bulletin of the Seismological Society of America.

[18]  J. Bommer,et al.  PREDICTION OF HORIZONTAL RESPONSE SPECTRA IN EUROPE , 1996 .