Volcanic eruptions are valuable calibrating sources of infrasonic waves worldwide detected by the International Moni-toring System (IMS) of the Comprehensive Nuclear Test-Ban-Treaty Organization (CTBTO) and other experimental stations. In this study, we assess the detection capability of the European infrasound network to remotely detect the eruptive activity of Mount Etna. This well-instrumented volcano offers unique opportunity to validate attenuation mod-elsusing multi-year near- and far-field recordings. The seasonal trend in the number of detections of Etna at the IS48 IMS station (Tunisia) is correlated to fine temporal fluctuations of the stratospheric waveguide structure. This observed trend correlates well with the variation of the effective sound speed ratio which is a proxy for the combined effects of refraction due to sound speed gradients and advection due to along-path wind on infrasound propagation. Modeling results are consistent with the observed detection capability of the existing regional network. In summer, during the downwind season, a minimum detectable amplitude of ~10 Pa at a reference distance of 1 km from the source is pre-dicted. In winter, when upwind propagation prevails, detection thresholds increase up to ~100 Pa. However, when add-ing four experimental arrays to the IMS network, the corresponding thresholds decrease down to ~20 Pa in winter. The simulation results provide here a realistic description of long- to mid-range infrasound propagation and allow predicting fine temporal fluctuations in the European infrasound network performance with potential application for civil aviation safety.
Remote Infrasound Monitoring of Mount Etna: Observed and Predicted Network Detection Capability / Dorianne Tailpied; Alexis Le Pichon; Emanuele Marchetti; Maurizio Ripepe; Mohamed Kallel; Lars Ceranna; Nicolas Brachet. - In: INFRAMATICS. - ISSN 2169-2696. - ELETTRONICO. - 2:(2013), pp. 1-11. [10.4236/inframatics.2013.21001]
Remote Infrasound Monitoring of Mount Etna: Observed and Predicted Network Detection Capability
MARCHETTI, EMANUELE;RIPEPE, MAURIZIO;
2013
Abstract
Volcanic eruptions are valuable calibrating sources of infrasonic waves worldwide detected by the International Moni-toring System (IMS) of the Comprehensive Nuclear Test-Ban-Treaty Organization (CTBTO) and other experimental stations. In this study, we assess the detection capability of the European infrasound network to remotely detect the eruptive activity of Mount Etna. This well-instrumented volcano offers unique opportunity to validate attenuation mod-elsusing multi-year near- and far-field recordings. The seasonal trend in the number of detections of Etna at the IS48 IMS station (Tunisia) is correlated to fine temporal fluctuations of the stratospheric waveguide structure. This observed trend correlates well with the variation of the effective sound speed ratio which is a proxy for the combined effects of refraction due to sound speed gradients and advection due to along-path wind on infrasound propagation. Modeling results are consistent with the observed detection capability of the existing regional network. In summer, during the downwind season, a minimum detectable amplitude of ~10 Pa at a reference distance of 1 km from the source is pre-dicted. In winter, when upwind propagation prevails, detection thresholds increase up to ~100 Pa. However, when add-ing four experimental arrays to the IMS network, the corresponding thresholds decrease down to ~20 Pa in winter. The simulation results provide here a realistic description of long- to mid-range infrasound propagation and allow predicting fine temporal fluctuations in the European infrasound network performance with potential application for civil aviation safety.File | Dimensione | Formato | |
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