Identification of T-Waves in the Alboran Sea

Analyses of seismograms from ~1,100 north-Moroccan earthquakes recorded at stations of the Red Sísmica de Andalucía (Southern Spain) reveal the systematic presence of late phases embedded in the earthquake codas. These phases have distinctive frequency contents, similar to the P and S spectra and qu...

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Bibliographic Details
Published in:Pure and applied geophysics 2015-11, Vol.172 (11), p.3179-3188
Main Authors: Carmona, Enrique, Almendros, Javier, Alguacil, Gerardo, Soto, Juan Ignacio, Luzón, Francisco, Ibáñez, Jesús M.
Format: Article
Language:English
Subjects:
Channels
Coastal environments
Earth and Environmental Science
Earth Sciences
Earthquakes
Geophysics/Geodesy
Peninsulas
Phases
Seismic activity
Seismograms
Seismology
Stations
Trapping
Wave power
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Summary:Analyses of seismograms from ~1,100 north-Moroccan earthquakes recorded at stations of the Red Sísmica de Andalucía (Southern Spain) reveal the systematic presence of late phases embedded in the earthquake codas. These phases have distinctive frequency contents, similar to the P and S spectra and quite different to the frequency contents of the earthquake codas. They are best detected at near-shore stations. Their amplitudes decay significantly with distance to the shoreline. The delays with respect to the P-wave onsets of the preceding earthquakes are consistently around 85 s. Late phases are only detected for earthquakes located in a small region of about 100 × 60 km centered at 35.4°N, 4.0°W near the northern coast of Morocco. Several hypotheses could, in principle, explain the presence of these late phases in the seismograms, for example, the occurrence of low-energy aftershocks, efficient wave reflections, or Rayleigh waves generated along the source-station paths. However, we conclude that the most-likely origin of these phases corresponds to the incidence of T-waves (generated by conversion from elastic to acoustic energy in the north-Moroccan coast) in the southern coast of the Iberian Peninsula. T-waves are thought to be generated by energy trapping in low-velocity channels along long oceanic paths; in this case, we demonstrate that they can be produced in much shorter paths as well. Although T-waves have been already documented in other areas of the Mediterranean Sea, this is the first time that they have been identified in the Alboran Sea.
ISSN:0033-4553
1420-9136
DOI:10.1007/s00024-014-1018-1