Permanent tremor of Masaya Volcano, Nicaragua: Wave field analysis and source location

The Masaya Volcano, Nicaragua, is a basaltic caldera in a subduction zone. The permanent source of the volcanic tremor was located inside Santiago crater, at the lava lake's position and 400 m below the NE rim, and therefore corresponds to superficial magma activity. We used two tripartite arra...

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Main Authors: /Métaxian, Jean-Philippe, Lesage, P., Dorel, J.
Format: Text
Language:English
Published: 1997
Subjects:
Kamchatka
Online Access:https://www.documentation.ird.fr/hor/fdi:010087284
id ftird:oai:ird.fr:fdi:010087284
record_format openpolar
spelling ftird:oai:ird.fr:fdi:010087284 2024-09-15T18:16:02+00:00 Permanent tremor of Masaya Volcano, Nicaragua: Wave field analysis and source location /Métaxian, Jean-Philippe Lesage, P. Dorel, J. NICARAGUA 1997 https://www.documentation.ird.fr/hor/fdi:010087284 EN eng https://www.documentation.ird.fr/hor/fdi:010087284 oai:ird.fr:fdi:010087284 Métaxian Jean-Philippe, Lesage P., Dorel J. Permanent tremor of Masaya Volcano, Nicaragua: Wave field analysis and source location. 1997, 102 (B10), 22529-22545 text 1997 ftird 2024-08-15T05:57:43Z The Masaya Volcano, Nicaragua, is a basaltic caldera in a subduction zone. The permanent source of the volcanic tremor was located inside Santiago crater, at the lava lake's position and 400 m below the NE rim, and therefore corresponds to superficial magma activity. We used two tripartite arrays (90 m side), one semicircular array (r=120 m) in 1992, and two semicircular arrays (r=60 m) and a 2500 m long linear array radiating out from the source and on the flank of the crater in 1993. We used both a cross-spectrum method and a correlation method to determine the wave delay time between the reference station and the other stations of an array and to quantify the wave field. Using the delays therefore by intersecting the back azimuth wave directions from the arrays, we could pinpoint the source. Additionally, the correlation coefficients obtained as functions of frequency for the three components of motion confirm the inferred position of the source of tremor. The tremor's wave field is composed of comparable quantities of dispersed Rayleigh and Love surface waves, whose phase velocities lie in the ranges 730-1240 m/s at 2 Hz and 330-550 m/s at 6 Hz. The dispersive phase velocities were inverted to obtain crustal structures with a minimal number of layers. The resulting velocity models are similar for the northern and southern parts of the volcano. After geometrical spreading corrections, Q2Hz=14 and Q3Hz=31 were determined along the northern linear array. The typical low velocities and low Q corresponding to the cone structure and are similar to those of other basaltic volcanoes like Puu Oo, Hawaii, and Klyuchevskoy, Kamchatka. Text Kamchatka IRD (Institute de recherche pour le développement): Horizon
institution Open Polar
collection IRD (Institute de recherche pour le développement): Horizon
op_collection_id ftird
language English
description The Masaya Volcano, Nicaragua, is a basaltic caldera in a subduction zone. The permanent source of the volcanic tremor was located inside Santiago crater, at the lava lake's position and 400 m below the NE rim, and therefore corresponds to superficial magma activity. We used two tripartite arrays (90 m side), one semicircular array (r=120 m) in 1992, and two semicircular arrays (r=60 m) and a 2500 m long linear array radiating out from the source and on the flank of the crater in 1993. We used both a cross-spectrum method and a correlation method to determine the wave delay time between the reference station and the other stations of an array and to quantify the wave field. Using the delays therefore by intersecting the back azimuth wave directions from the arrays, we could pinpoint the source. Additionally, the correlation coefficients obtained as functions of frequency for the three components of motion confirm the inferred position of the source of tremor. The tremor's wave field is composed of comparable quantities of dispersed Rayleigh and Love surface waves, whose phase velocities lie in the ranges 730-1240 m/s at 2 Hz and 330-550 m/s at 6 Hz. The dispersive phase velocities were inverted to obtain crustal structures with a minimal number of layers. The resulting velocity models are similar for the northern and southern parts of the volcano. After geometrical spreading corrections, Q2Hz=14 and Q3Hz=31 were determined along the northern linear array. The typical low velocities and low Q corresponding to the cone structure and are similar to those of other basaltic volcanoes like Puu Oo, Hawaii, and Klyuchevskoy, Kamchatka.
format Text
author /Métaxian, Jean-Philippe
Lesage, P.
Dorel, J.
spellingShingle /Métaxian, Jean-Philippe
Lesage, P.
Dorel, J.
Permanent tremor of Masaya Volcano, Nicaragua: Wave field analysis and source location
author_facet /Métaxian, Jean-Philippe
Lesage, P.
Dorel, J.
author_sort /Métaxian, Jean-Philippe
title Permanent tremor of Masaya Volcano, Nicaragua: Wave field analysis and source location
title_short Permanent tremor of Masaya Volcano, Nicaragua: Wave field analysis and source location
title_full Permanent tremor of Masaya Volcano, Nicaragua: Wave field analysis and source location
title_fullStr Permanent tremor of Masaya Volcano, Nicaragua: Wave field analysis and source location
title_full_unstemmed Permanent tremor of Masaya Volcano, Nicaragua: Wave field analysis and source location
title_sort permanent tremor of masaya volcano, nicaragua: wave field analysis and source location
publishDate 1997
url https://www.documentation.ird.fr/hor/fdi:010087284
op_coverage NICARAGUA
genre Kamchatka
genre_facet Kamchatka
op_relation https://www.documentation.ird.fr/hor/fdi:010087284
oai:ird.fr:fdi:010087284
Métaxian Jean-Philippe, Lesage P., Dorel J. Permanent tremor of Masaya Volcano, Nicaragua: Wave field analysis and source location. 1997, 102 (B10), 22529-22545
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