Salloum N., Jongmans D., Cornou Cécile, Massih D. Y. A., Chehade F. H., Voisin Christophe, Mariscal Armand. (2014). The shear wave velocity structure of the heterogeneous alluvial plain of Beirut (Lebanon) : combined analysis of geophysical and geotechnical data. Geophysical Journal International, 199 (2), p. 894-913. ISSN 0956-540X.
Titre du document
The shear wave velocity structure of the heterogeneous alluvial plain of Beirut (Lebanon) : combined analysis of geophysical and geotechnical data
Salloum N., Jongmans D., Cornou Cécile, Massih D. Y. A., Chehade F. H., Voisin Christophe, Mariscal Armand
Source
Geophysical Journal International, 2014,
199 (2), p. 894-913 ISSN 0956-540X
A geotechnical and geophysical campaign was performed at sites located in the alluvial plain of the river of Beirut (Lebanon), which is characterized by a significant lateral and vertical geological variability, along with anthropogenic disturbances in the first metres. The method combination has allowed detecting a shallow conductive low velocity layer of varying depth and thickness, corresponding to a soft clay layer embedded in coarser formations. This layer was found to exert strong control on the experimental dispersion curves (estimated from both active and passive experiments) characterized by a continuous mode superposition at high frequency, associated with an increase in phase velocity. Vs profiles in boreholes turned out to be of prime importance for adequately defining the parametrization before inversion and for ensuring the reliability of the inversion dispersive estimates at low frequency. A major output of this study is also to show that this low velocity layer, along with the strong shear velocity contrast at its bottom, significantly contributes to the site seismic response, and could make it difficult to use themeasured H/V peak frequency as a proxy for the soil thickness over bedrock.
