On data reduction methods for volcanic tremor characterization: the 2012 eruption of Copahue volcano, Southern Andes
Metadatos
Afficher la notice complèteAuteur
Melchor, Iván; Almendros González, Francisco Javier; Carniel, Roberto; Konstantinou, Kostas I.; Hantusch, Marcia; Caselli, AlbertoEditorial
Springer
Materia
Volcanic tremor Phreatic eruption Data reduction method Polarization degree Permutation entropy Copahue volcano
Date
2020-09-14Referencia bibliográfica
Melchor, I., Almendros, J., Carniel, R., Konstantinou, K. I., Hantusch, M., & Caselli, A. (2020). On data reduction methods for volcanic tremor characterization: the 2012 eruption of Copahue volcano, Southern Andes. Earth, Planets and Space, 72(1), 1-10. [doi: 10.1186/s40623-020-01270-7]
Patrocinador
Project BRAVOSEIS of the Spanish Ministry of Science CTM2016.77315; National University of Rio Negro PI40-A-548Résumé
Improving the ability to detect and characterize long-duration volcanic tremor is crucial to understand the longterm
dynamics and unrest of volcanic systems. We have applied data reduction methods (permutation entropy and
polarization degree, among others) to characterize the seismic wave field near Copahue volcano (Southern Andes)
between June 2012 and January 2013, when phreatomagmatic episodes occurred. During the selected period, a total
of 52 long-duration events with energy above the background occurred. Among them, 32 were classified as volcanic
tremors and the remaining as noise bursts. Characterizing each event by averaging its reduced parameters, allowed
us to study the range of variability of the different events types. We found that, compared to noise burst, tremors have
lower permutation entropies and higher dominant polarization degrees. This characterization is a suitable tool for
detecting long-duration volcanic tremors in the ambient seismic wave field, even if the SNR is low.