Tsunami resonance and coupled oscillation of shelf and bays modes has been reported to be important in tsunami wave amplification. The main objective of this work is to study the spatial pattern of natural oscillation modes and to analyze the influence of several resonators on the coast of the central Chile, which has a complex morphology with several bays, submarine canyons, and a wide continental shelf. First, natural oscillation modes were computed by means of modal analysis of local and regional domains. Second, a dense network of tide gauges and pressure sensors was analyzed to obtain background spectra inside bays. Third, tsunami spectra were computed from both tsunami records and numerical simulations. The results show that the use of modal analysis and background and tsunami spectra is effective for identifying natural oscillation modes. In addition, a dense network of tide gauges is useful to validate the spatial pattern of these natural modes. It was observed that larger resonators and the shelf are important in coupling oscillation with local bays, such that large amplification can be observed. Finally, this analysis allowed the diverse effects of 2010 and 2011 tsunamis in the bays of central Chile to be explained, making it possible to better address tsunami mitigation measures and the preparedness of coastal communities.

Aranguiz, R., Catalan, P.A., Cecioni, C., Bellotti, G., Henriquez, P., Gonzalez, J. (2019). Tsunami Resonance and Spatial Pattern of Natural Oscillation Modes With Multiple Resonators. JOURNAL OF GEOPHYSICAL RESEARCH. OCEANS, 124(11), 7797-7816 [10.1029/2019JC015206].

Tsunami Resonance and Spatial Pattern of Natural Oscillation Modes With Multiple Resonators

Cecioni C.;Bellotti G.;
2019-01-01

Abstract

Tsunami resonance and coupled oscillation of shelf and bays modes has been reported to be important in tsunami wave amplification. The main objective of this work is to study the spatial pattern of natural oscillation modes and to analyze the influence of several resonators on the coast of the central Chile, which has a complex morphology with several bays, submarine canyons, and a wide continental shelf. First, natural oscillation modes were computed by means of modal analysis of local and regional domains. Second, a dense network of tide gauges and pressure sensors was analyzed to obtain background spectra inside bays. Third, tsunami spectra were computed from both tsunami records and numerical simulations. The results show that the use of modal analysis and background and tsunami spectra is effective for identifying natural oscillation modes. In addition, a dense network of tide gauges is useful to validate the spatial pattern of these natural modes. It was observed that larger resonators and the shelf are important in coupling oscillation with local bays, such that large amplification can be observed. Finally, this analysis allowed the diverse effects of 2010 and 2011 tsunamis in the bays of central Chile to be explained, making it possible to better address tsunami mitigation measures and the preparedness of coastal communities.
2019
Aranguiz, R., Catalan, P.A., Cecioni, C., Bellotti, G., Henriquez, P., Gonzalez, J. (2019). Tsunami Resonance and Spatial Pattern of Natural Oscillation Modes With Multiple Resonators. JOURNAL OF GEOPHYSICAL RESEARCH. OCEANS, 124(11), 7797-7816 [10.1029/2019JC015206].
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11590/360687
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