1999
DOI: 10.3133/ofr99311
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Subduction zone and crustal dynamics of western Washington; a tectonic model for earthquake hazards evaluation

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Cited by 17 publications
(20 citation statements)
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“…Mount Rainier samples selected for their lower-than-typical K 2 O concentrations are also distinguished by low 206 Pb/ 204 Pb and approach Mount St. Helens Sr-Nd-Pb isotopic values. The buried eastern margin of Siletzia lies ~15 km west of Mount Rainier beneath the west Rainier seismic zone and the Carbon River anticlinorium (Stanley et al, 1995), whereas Mount St. Helens straddles the St. Helens seismic zone identifi ed as overlying Siletzia's buried eastern margin (Parsons et al, 1998), consistent with lower contributions from Siletzia basement to the Mount Rainier magmatic system. Mount Rainier is also farther from a possible offset in the subducted Juan de Fuca plate imaged at 90 km depth by S-wave tomography (Schmandt and Humphreys, 2010), so subordinate infl uence from slab-edge melts is also possible.…”
Section: Mount St Helens-type Magmas In the Mount Rainier Systemmentioning
confidence: 77%
“…Mount Rainier samples selected for their lower-than-typical K 2 O concentrations are also distinguished by low 206 Pb/ 204 Pb and approach Mount St. Helens Sr-Nd-Pb isotopic values. The buried eastern margin of Siletzia lies ~15 km west of Mount Rainier beneath the west Rainier seismic zone and the Carbon River anticlinorium (Stanley et al, 1995), whereas Mount St. Helens straddles the St. Helens seismic zone identifi ed as overlying Siletzia's buried eastern margin (Parsons et al, 1998), consistent with lower contributions from Siletzia basement to the Mount Rainier magmatic system. Mount Rainier is also farther from a possible offset in the subducted Juan de Fuca plate imaged at 90 km depth by S-wave tomography (Schmandt and Humphreys, 2010), so subordinate infl uence from slab-edge melts is also possible.…”
Section: Mount St Helens-type Magmas In the Mount Rainier Systemmentioning
confidence: 77%
“…It has previously been interpreted as only 6 km thick offshore Vancouver Island [ Hyndman et al , 1990]. Crescent‐Siletz terrane provides the backstop to a large accretionary sedimentary prism formed from the sediments scraped off the incoming oceanic plate [ Brandon and Calderwood , 1990; Hyndman , 1995b; Parsons et al , 1999; Stanley et al , 1999] (Figure 2). …”
Section: Geological and Tectonic Settingmentioning
confidence: 99%
“…However, if mafic rocks occur in the upper and lower plates without intervening sediments, then the thrust region may not become ductile until temperatures exceed 600 ø C (Bergman and Soloman, 1988). Stanley et al (1999) have inferred from seismic velocity models that part of the subduction thrust beneath Puget Sound at depths of 30-50 km has mafic/ultramafic rocks in the upper plate. They reviewed petrological considerations for the thrust contact and concluded that this deep part of the thrust could be partially locked.…”
Section: New Models For Cascadia Thrust Couplingmentioning
confidence: 99%