Stress tensor computations at Mount St. Helens (1995-1998)
Fault plane solutions of 459 events occurring between 1995 and 1998 at Mount St. Helens (State of Washington, Northwest U.S.A.) were considered in order to infer the state of stress beneath the volcano. These events occurred in two distinct depth zones. The shallower zone is between 2 and 5.5 km, wi...
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Istituto Nazionale di Geofisica e Vulcanologia (INGV)
2000-06-01
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Online Access: | http://www.annalsofgeophysics.eu/index.php/annals/article/view/3681 |
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doaj-a8005c56d72548aa8e2182c9373032c52020-11-24T21:08:42ZengIstituto Nazionale di Geofisica e Vulcanologia (INGV)Annals of Geophysics1593-52132037-416X2000-06-0143510.4401/ag-3681Stress tensor computations at Mount St. Helens (1995-1998)S. GrestaE. GiampiccoloS. D. MaloneC. MusumeciFault plane solutions of 459 events occurring between 1995 and 1998 at Mount St. Helens (State of Washington, Northwest U.S.A.) were considered in order to infer the state of stress beneath the volcano. These events occurred in two distinct depth zones. The shallower zone is between 2 and 5.5 km, with shocks clustering in a tight cylindrical distribution about 1 km in radius directly beneath the crater. The deeper events are spread over a larger volume from 5.5 to 10 km depth and surround an aseismic zone below and slightly west of the lava dome. Faulting is characterized by a mixture of strike-slip, reverse and normal faults with maximum compression axes which do not cluster around a single direction. In the deep zone, between 5.5 and 10 km, P axes define a wheel-spoke pattern pointing radially away from the center of the aseismic zone. The 459 fault plane solutions were inverted for stress tensor parameters using the algorithm of Gephart and Forsyth. The inversion of the whole data set revealed that faulting was not produced by a uniform stress distribution. The subdivision of the zone into smaller volumes significantly reduced misfit and confidence areas of the solutions, whereas temporal subdivision of the sample did not lead to significant improvements in terms of stress uniformity. We suggest that the inhomogeneous stress field is consistent with a varying pressure source originating from the inferred crustal magma chamber and a thin conduit extending above it.http://www.annalsofgeophysics.eu/index.php/annals/article/view/3681Mount St. Helens (USA)fault-plane solutionsinversionstress field |
collection |
DOAJ |
language |
English |
format |
Article |
sources |
DOAJ |
author |
S. Gresta E. Giampiccolo S. D. Malone C. Musumeci |
spellingShingle |
S. Gresta E. Giampiccolo S. D. Malone C. Musumeci Stress tensor computations at Mount St. Helens (1995-1998) Annals of Geophysics Mount St. Helens (USA) fault-plane solutions inversion stress field |
author_facet |
S. Gresta E. Giampiccolo S. D. Malone C. Musumeci |
author_sort |
S. Gresta |
title |
Stress tensor computations at Mount St. Helens (1995-1998) |
title_short |
Stress tensor computations at Mount St. Helens (1995-1998) |
title_full |
Stress tensor computations at Mount St. Helens (1995-1998) |
title_fullStr |
Stress tensor computations at Mount St. Helens (1995-1998) |
title_full_unstemmed |
Stress tensor computations at Mount St. Helens (1995-1998) |
title_sort |
stress tensor computations at mount st. helens (1995-1998) |
publisher |
Istituto Nazionale di Geofisica e Vulcanologia (INGV) |
series |
Annals of Geophysics |
issn |
1593-5213 2037-416X |
publishDate |
2000-06-01 |
description |
Fault plane solutions of 459 events occurring between 1995 and 1998 at Mount St. Helens (State of Washington, Northwest U.S.A.) were considered in order to infer the state of stress beneath the volcano. These events occurred in two distinct depth zones. The shallower zone is between 2 and 5.5 km, with shocks clustering in a tight cylindrical distribution about 1 km in radius directly beneath the crater. The deeper events are spread over a larger volume from 5.5 to 10 km depth and surround an aseismic zone below and slightly west of the lava dome. Faulting is characterized by a mixture of strike-slip, reverse and normal faults with maximum compression axes which do not cluster around a single direction. In the deep zone, between 5.5 and 10 km, P axes define a wheel-spoke pattern pointing radially away from the center of the aseismic zone. The 459 fault plane solutions were inverted for stress tensor parameters using the algorithm of Gephart and Forsyth. The inversion of the whole data set revealed that faulting was not produced by a uniform stress distribution. The subdivision of the zone into smaller volumes significantly reduced misfit and confidence areas of the solutions, whereas temporal subdivision of the sample did not lead to significant improvements in terms of stress uniformity. We suggest that the inhomogeneous stress field is consistent with a varying pressure source originating from the inferred crustal magma chamber and a thin conduit extending above it. |
topic |
Mount St. Helens (USA) fault-plane solutions inversion stress field |
url |
http://www.annalsofgeophysics.eu/index.php/annals/article/view/3681 |
work_keys_str_mv |
AT sgresta stresstensorcomputationsatmountsthelens19951998 AT egiampiccolo stresstensorcomputationsatmountsthelens19951998 AT sdmalone stresstensorcomputationsatmountsthelens19951998 AT cmusumeci stresstensorcomputationsatmountsthelens19951998 |
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1716759818383917056 |