Volcanic tremor and local earthquakes at Copahue volcanic complex, Southern Andes, Argentina

Abstract In the present paper we describe the results of a seismic field survey carried out at Copahue Volcano, Southern Andes, Argentina, using a small-aperture, dense seismic antenna. Copahue Volcano is an active volcano that exhibited a few phreatic eruptions in the last 20 years. The aim of this experiment was to record and classify the background seismic activity of this volcanic area, and locate the sources of local earthquakes and volcanic tremor. Data consist of several volcano-tectonic (VT) earthquakes, and many samples of back-ground seismic noise. We use both ordinary spectral, and multi-spectral techniques to measure the spectral content, and an array technique [Zero Lag Cross Correlation technique] to measure the back-azimuth and apparent slowness of the signals propagating across the array. We locate VT earthquakes using a procedure based on the estimate of slowness vector components and S–P time. VT events are located mainly along the border of the Caviahue caldera lake, positioned at the South-East of Copahue volcano, in a depth interval of 1–3 km below the surface. The background noise shows the presence of many transients with high correlation among the array stations in the frequency band centered at 2.5 Hz. These transients are superimposed to an uncorrelated background seismic signal. Array solutions for these transients show a predominant slowness vector pointing to the exploited geothermal field of “Las Maquinitas” and “Copahue Village”, located about 6 km north of the array site. We interpret this coherent signal as a tremor generated by the activity of the geothermal field.

[1]  E. Del Pezzo,et al.  Analysis of the seismic wavefield properties of volcanic explosions at Volcán de Colima, México: insights into the source mechanism , 2009 .

[2]  W. Hildreth,et al.  Crustal contributions to arc magmatism in the Andes of Central Chile , 1988 .

[3]  Gilberto Saccorotti,et al.  Location of the Source and Shallow Velocity Model Deduced from the Explosion Quakes Recorded by Two Seismic Antennas at Stromboli Volcano , 2000 .

[4]  Gilberto Saccorotti,et al.  Seismic source dynamics at Vesuvius volcano, Italy , 2004 .

[5]  Gilberto Saccorotti,et al.  Array analyses of seismic noise at Mt. Vesuvius Volcano, Italy , 2001 .

[6]  A. Ouimette,et al.  Hydrothermal element fluxes from Copahue, Argentina: A "beehive" volcano in turmoil , 2001 .

[7]  Alicia García,et al.  Seismovolcanic signals at Deception Island volcano, Antarctica: Wave field analysis and source modeling , 2000 .

[8]  Daria Zandomeneghi,et al.  Array analyses of volcanic earthquakes and tremor recorded at Las Cañadas caldera (Tenerife Island, Spain) during the 2004 seismic activation of Teide volcano , 2007 .

[9]  A. Jurkevics Polarization analysis of three-component array data , 1988 .

[10]  A. Frankel,et al.  Observations of Loma Prieta aftershocks from a dense array in Sunnyvale, California , 1991, Bulletin of the Seismological Society of America.

[11]  E. Borzotta,et al.  Electric structure of the Copahue Volcano (Neuquén Province, Argentina), from magnetotelluric soundings: 1D and 2D modellings , 2000 .

[12]  E. Del Pezzo,et al.  Array tracking of the volcanic tremor source at Deception Island, Antarctica , 1997 .

[13]  Jens Havskov,et al.  Magnitude scales for very local earthquakes. Application for Deception Island Volcano (Antarctica) , 2003 .

[14]  D. Melnick,et al.  Structural control on arc volcanism: The Caviahue–Copahue complex, Central to Patagonian Andes transition (38°S) , 2006 .

[15]  R. Leet Saturated and subcooled hydrothermal boiling in groundwater flow channels as a source of harmonic tremor , 1988 .

[16]  Bernard A. Chouet,et al.  New Methods and Future Trends in Seismological Volcano Monitoring , 1996 .

[17]  A. Rietbrock,et al.  The Southern Andes between 36° and 40°S latitude: seismicity and average seismic velocities , 2002 .

[18]  G. Alguacil,et al.  A double seismic antenna experiment at teide Volcano: existence of local seismicity and lack of evidences of Volcanic tremor , 2000 .

[19]  H. Kanamori,et al.  The origin of harmonic tremor at Old Faithful geyser , 1996, Nature.

[20]  Gilberto Saccorotti,et al.  Probabilistic source location of explosion quakes at Stromboli volcano estimated with double array data , 2004 .

[21]  Vera Schlindwein,et al.  Nature, wavefield properties and source mechanism of volcanic tremor: a review , 2003 .

[22]  S. Kieffer Seismicity at Old Faithful Geyser: an isolated source of geothermal noise and possible analogue of volcanic seismicity , 1984 .

[23]  Edoardo Del Pezzo,et al.  Array analysis using circular-wave-front geometry: an application to locate the nearby seismo-volcanic source , 1999 .

[24]  Bernard A. Chouet,et al.  Long-period volcano seismicity: its source and use in eruption forecasting , 1996, Nature.

[25]  E. R. Kanasewich,et al.  Time sequence analysis in geophysics , 1973 .

[26]  Small-aperture Array for Seismic Monitoring of Mt. Vesuvius , 2005 .

[27]  Ramón Ortiz,et al.  The 1998–1999 seismic series at Deception Island volcano, Antarctica , 2003 .

[28]  Gilberto Saccorotti,et al.  Quantitative analysis of the tremor wavefield at Etna Volcano, Italy , 2002 .

[29]  J. Ibáñez,et al.  Observations of high-frequency scattered waves using dense arrays at Teide Volcano , 1997, Bulletin of the Seismological Society of America.

[30]  Jens Havskov,et al.  Instrumentation in Earthquake Seismology , 2005 .

[31]  Edoardo Del Pezzo,et al.  Shallow seismic attenuation and shear-wave splitting in the short period range of Deception Island volcano (Antarctica) , 2003 .

[32]  S. Lüth,et al.  A crustal model along 39°S from a seismic refraction profile- ISSA 2000 , 2003 .

[33]  H. M. Roa,et al.  Geochemical variations in Andean basaltic and silicic lavas from the Villarrica-Lanin volcanic chain (39.5° S): an evaluation of source heterogeneity, fractional crystallization and crustal assimilation , 1989 .