Strong Site Effect Revealed by a New Broadband Seismometer on the Continental Shelf Offshore Nice Airport (Southeastern France)

A broadband seismological station (PRIMA) installed offshore Nice airport (southeastern France) reveals a strong amplification effect of seismic waves. PRIMA station was in operation for 2 years (9/2016 to 10/2018) on the outer shelf at a water depth of 18 m. Situated at the mouth of the Var River,...

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Bibliographic Details
Published in:Pure and applied geophysics 2020-07, Vol.177 (7), p.3205-3224
Main Authors: Courboulex, Francoise, Mercerat, E. Diego, Deschamps, Anne, Migeon, Sébastien, Baques, Marion, Larroque, Christophe, Rivet, Diane, Hello, Yann
Format: Article
Language:English
Subjects:
Airports
Amplification
Broadband
Casualties
Computer simulation
Continental shelves
Earth and Environmental Science
Earth Sciences
Earthquakes
Geophysical data
Geophysics
Geophysics/Geodesy
Holocene
Landslides
Landslides & mudslides
Mathematical models
Numerical simulations
Offshore
P-waves
Pliocene
Sciences of the Universe
Sediments
Seismic activity
Seismic waves
Seismicity
Seismographs
Seismology
Seismometers
Tsunamis
Two dimensional models
Velocity
Water depth
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Summary:A broadband seismological station (PRIMA) installed offshore Nice airport (southeastern France) reveals a strong amplification effect of seismic waves. PRIMA station was in operation for 2 years (9/2016 to 10/2018) on the outer shelf at a water depth of 18 m. Situated at the mouth of the Var River, this zone is unstable and prone to landslides. A catastrophic landslide and tsunami already occurred in 1979, causing 10 casualties. Given the level of seismicity of the area, it is important to infer the impact of an earthquake on this zone. We analyze the recordings of earthquakes and seismic noise at the PRIMA station by comparing them to nearby inland stations. We find that the seismic waves are strongly amplified at PRIMA at some specific frequencies (with an amplification factor greater than 10 at 0.9 Hz). Using geological and geophysical data, we show that the main amplification frequency peak (at 0.9 Hz) is due to the velocity contrast between the Pliocene sedimentary layer and fine-grained sediments dated from the Holocene, at about 100 m depth. This velocity contrast is also present along the Var valley, but the level of amplification detected on PRIMA station is larger. Using numerical simulations of seismic waves in a 2D model that accounts for the pinch-out geometry related to the termination of the Holocene sedimentary layer, we can partially explain this amplification. This offshore site effect could have a crucial impact on the triggering of a submarine landslide by an earthquake in this region. More generally, this effect should be taken into account for the modeling of landslides and induced tsunamis triggered by seismic waves.
ISSN:0033-4553
1420-9136
DOI:10.1007/s00024-019-02408-9