Astronomy and Astrophysics – Astronomy
Scientific paper
Sep 2010
adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=2010geoji.182.1603z&link_type=abstract
Geophysical Journal International, Volume 182, Issue 3, pp. 1603-1618.
Astronomy and Astrophysics
Astronomy
2
Surface Waves And Free Oscillations, Site Effects
Scientific paper
To provide quantitative information on the shear wave velocity structure of the İzmit Bay area, we conduct active-passive array surface wave and single-station microtremor measurements at 60 sites. We process these array measurements to produce combined Rayleigh wave dispersion curves that span a broad-frequency range (0.5-20 Hz). We also make use of horizontal-to-vertical spectral ratio (HVSR) curves obtained from the single-station microtremor measurements to benefit from their close relation to the ellipticity of Rayleigh waves. Using the dispersion curve sensitivity to the absolute velocities and the shape of the HVSR curve sensitivity to the velocity contrasts of the velocity-depth model, we have applied a combined inversion technique to derive better constrained shear velocity models at each site. The derived shear velocity models are used to provide a Vs30 site classification map and information on the sediment-bedrock structure for the İzmit Bay area. The Vs30 map shows that the entire shoreline regions including artificial infill areas of the İzmit Bay have Vs30 values less than 200 m s-1, locally as low as 80 m s-1. The older sediment areas of the İzmit basin have Vs30 values ranging between 250 and 350 m s-1. The highest Vs30 values are associated with rock sites reaching about 950-1300 m s-1. We also present a high correlation between the Vs30 values and the phase velocity of Rayleigh wave corresponding to the 40 m wavelength (C40). The important implication of this correlation is that Vs30 may be estimated from C40 without inverting the dispersion curve. The inferred sediment-bedrock interface along a cross-section shows an antisymmetric V shaped basin with a sedimentary cover thickness reaching about 1200 m at the deepest part of the İzmit basin. This deepest part coincides in the map view where the North Anatolian fault zone crosses the basin in the east-west direction. The sedimentary cover thickness is found to be 750 m in the Gölcük-Derince basin.
Erkan Bora
Karaaslan Aylin
Özalaybey Serdar
Özalaybey Suna Ç.
Tapırdamaz Cengiz M.
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