ARCUS | Arctic Research Consortium of the United States

7th Annual ARCUS Award for Arctic Research Excellence

Submitted by		John Sanchez
Authors		John J. Sánchez , M. Wyss, and S. R. McNutt
Category		Physical Science
Title		Temporal-Spatial Variations of Stress at Redoubt Volcano, Alaska, Inferred from Inversion of Fault Plane Solutions
Affiliation		Geology and Geophysics, University of Alaska, Fairbanks, Fairbanks, AK, USA

Abstract

We inverted fault plane solutions (FPS) of 420 earthquakes, with a largest magnitude of 3.1, mostly occupying a 4x4x10-km³ volume beneath Redoubt volcano, for principal stress directions during 1989-1998. On average, FPS were computed with 8 P-wave readings, inversions performed with 48 FPS, yielding misfits of 7° and the size of the 95% confidence regions of the stress directions is 30°. During the 1989-1990 eruptions stresses were typically: sub-horizontal σ₁ and σ₂ striking ESE-WNW and NNE-SSW, respectively, and near-vertical σ₃, whereas during July 1991-January 1998 we found: near-vertical σ₁, and sub-horizontal σ₂ and σ₃ striking SSE-NNW and ENE-WSW, respectively. We found differences in plunge of σ₁, up to 60°, between 1990 and 1991, and sub-volumes with different stress at the 99% confidence level, evaluated with the z test. Based on the changes in stress directions from the eruptive to the inactive period, we infer that the magnitude of principal stresses increased progressively during the eruptions and subsequently decreased by the post-eruption period. The observations can be explained by expansion and contraction of a plexus-like magma body together with changes in physical properties of the magmas involved. We estimate that the absolute values of principal stresses are similar to each other and are in the range 182 to 187 Mpa.