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  • 1
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    Surface wave scattering from 3-D obstacles (1991)
    In:  Geophys. J. Int., Leipzig, Birkhäuser Verlag, vol. 104, no. B12, pp. 351-370, pp. 2366, (ISBN: 0-12-018847-3)
    Details
    Publication Date: 1991
    Keywords: Surface waves ; Scattering ; Seismology ; Seismics (controlled source seismology) ; GJI
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    BIBLIOGRAPHY SEISMOLOGY
  • 2
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    The effect of forearc mantle serpentinization on ground motions from megathrust and intraslab events in the Cascadia subduction zone (2004)
    In:  Bulletin of the Seismological Society of America, New York, August, vol. 94, no. 1, pp. 147-154, pp. B05S05, (ISSN: 1340-4202)
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    Publication Date: 2004
    Keywords: Subduction zone ; USA ; Canada ; Site amplification ; water ; Seismology ; BSSA
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    BIBLIOGRAPHY SEISMOLOGY
  • 3
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    The effect of 3-D structure on Lg propagation patterns (1990)
    In:  Geophys. J. Int., Leipzig, Birkhäuser Verlag, vol. 101, no. B12, pp. 355-365, pp. 2366, (ISBN: 0-12-018847-3)
    Details
    Publication Date: 1990
    Keywords: Seismology ; Wave propagation ; CRUST ; Nuclear explosion ; GJI
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    BIBLIOGRAPHY SEISMOLOGY
  • 4
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    Reflection and transmission of surface waves in laterally varying media (1992)
    In:  Geophys. J. Int., Leipzig, Birkhäuser Verlag, vol. 109, no. B12, pp. 411-436, pp. 2366, (ISBN: 0-12-018847-3)
    Details
    Publication Date: 1992
    Keywords: Anisotropy ; Reflectivity ; Wave propagation ; Seismology ; Waves ; Surface waves ; GJI
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    BIBLIOGRAPHY SEISMOLOGY
  • 5
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    Investigating Canada's lithosphere and earthquake hazards with portable arrays (2005)
    In:  Eos, Trans., Am. Geophys. Un., London, Amer. Sc., vol. 86, no. 17, pp. 169 & 173, pp. 1001, (ISBN 0-471-26610-8)
    Details
    Publication Date: 2005
    Keywords: Earthquake hazard ; Seismic arrays ; Deep seismic sounding (espec. cont. crust) ; PolarizationIS ; Site amplification ; Electromagnetic methods/phenomena
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    BIBLIOGRAPHY SEISMOLOGY
  • 6
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    Seismic structure of the upper mantle beneath the northern Canadian cordillera from teleseismic travel-time inversion (1999)
    In:  Tectonophys., Heidelberg, 1, vol. 294, no. 1-2, pp. 43-55, pp. 8010, (ISBN: 0534351875, 2nd edition)
    Details
    Publication Date: 1999
    Keywords: Velocity depth profile ; Teleseismic events ; Travel time ; Inversion
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    BIBLIOGRAPHY SEISMOLOGY
  • 7
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    Magnitudes and moment-duration scaling of low-frequency earthquakes beneath southern Vancouver Island (2015)
    Wiley
    Details
    Publication Date: 2015-08-21
    Description: We employ 130 low-frequency-earthquake (LFE) templates representing tremor sources on the plate boundary below southern Vancouver Island to examine LFE magnitudes. Each template is assembled from 100's to 1000's of individual LFEs, representing over 269,000 independent detections from major episodic-tremor-and- slip (ETS) events between 2003 and 2013. Template displacement waveforms for direct P - and S -waves at near epicentral distances are remarkably simple at many stations, approaching the zero-phase, single pulse expected for a point dislocation source in a homogeneous medium. High spatio-temporal precision of template match-filtered detections facilitates precise alignment of individual LFE detections and analysis of waveforms. Upon correction for 1-D geometrical spreading, attenuation, free-surface magnification and radiation pattern, we solve a large, sparse linear system for 3-D path corrections and LFE magnitudes for all detections corresponding to a single ETS template. The spatio-temporal distribution of magnitudes indicates that typically half the total moment release occurs within the first 12–24 hours of LFE activity during an ETS episode when tidal sensitity is low. The remainder is released in bursts over several days, particularly as spatially extensive RTRs, during which tidal sensitivity is high. RTRs are characterized by large magnitude LFEs, and are most strongly expressed in the updip portions of the ETS transition zone and less organized at downdip levels. LFE magnitude-frequency relations are better described by power-law than exponential distributions although they exhibit very high b -values ≥ ∼ 7. We examine LFE moment-duration scaling by generating templates using detections for limiting magnitude ranges ( M W  〈 1.5, M W  ≥ 2.0). LFE duration displays a weaker dependence upon moment than expected for self-similarity, suggesting that LFE asperities are limited in fault dimension and that moment variation is dominated by slip. This behaviour implies that LFEs exhibit a scaling distinct from both large-scale slow earthquakes and regular seismicity.
    Print ISSN: 0148-0227
    Topics: Geosciences , Physics
    Published by Wiley on behalf of American Geophysical Union (AGU).
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  • 8
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    Tidal modulation and triggering of low frequency earthquakes in northern Cascadia (2014)
    Wiley
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    Publication Date: 2014-12-31
    Description: We analyze the influence of ocean tides on the triggering of low frequency earthquakes (LFEs) in northern Cascadia using 3 LFE catalogues for southern Vancouver Island and Washington state from episodic tremor and slip events between 2003-2013. Sensitivities of LFE families to tidally induced fault-normal stress, up-dip shear stress (UDSS) and corresponding time derivatives are computed and their geographic variability is mapped. We find localized areas showing higher sensitivity to UDSS than their surroundings suggesting that tidal sensitivity depends on laterally heterogeneous physical properties such as variable pore fluid pressures and frictional properties along the plate interface. We observe that sensitivity of LFEs to UDSS rises dramatically from near zero on the first day of strong activity to a maximum ~4 days later. In addition, the peak LFE rate transitions from a correlation with peak tidal shear stress rate to a correlation with peak tidal shear stress through large slow slip events. We identify 64 Rapid-Tremor-Reversals (RTRs) that start a few days after the main slip front. The RTRs have an average stress drop of ~0.8 kPa and a majority (72%) occur during periods of large positive UDSS. The combined observations imply that RTRs play an important role in slow slip processes and that modulation of creep rate due to tidal stress and tidal triggering of secondary events are jointly responsible for the observed tidal sensitivity.
    Print ISSN: 0148-0227
    Topics: Geosciences , Physics
    Published by Wiley on behalf of American Geophysical Union (AGU).
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  • 9
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    Low frequency earthquakes below southern Vancouver Island (2012)
    Wiley
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    Publication Date: 2012-11-08
    Description: The nature and distribution of low frequency earthquakes (LFEs) in subduction zones provide insight into plate boundary deformation downdip of the locked seismogenic zone. We employ network autocorrelation detection to identify LFE families beneath southern Vancouver Island and environs. An initial suite of 5775 LFEs detected in 2004 and 2005 at a select set of 7 stations is grouped into 140 families using waveform cluster analysis. These families are used as templates within an iterative network cross correlation scheme to detect LFEs across different tremor episodes, incorporate new stations, and improve LFE template signal-to-noise ratio. As in southwest Japan, representative LFE locations define a relatively tight, dipping surface several km above the locus of intraslab seismicity, within a prominent, dipping low-velocity zone (LVZ). LFE polarizations for near-vertical source-receiver geometries possess a remarkably uniform dipolar signature indicative of point-source, double-couple excitation. Focal mechanisms determined from P-wave first motions are characterized by a combination of strike-slip and thrust faulting. We suggest that LFEs and regular intraslab seismicity occur in distinct structural and stress regimes. The LVZ, inferred to represent weak, overpressured, porous and mylonitized metabasalts of oceanic crustal Layer 2, separates LFEs manifesting deformation within a plate boundary shear zone from intraslab earthquakes generated by tensional stresses and dehydration embrittlement within a more competent lower oceanic crustal Layer 3 and underlying mantle.
    Electronic ISSN: 1525-2027
    Topics: Chemistry and Pharmacology , Geosciences , Physics
    Published by Wiley on behalf of American Geophysical Union (AGU).
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  • 10
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    Crustal anisotropy in a subduction zone forearc: Northern Cascadia (2014)
    Wiley
    Details
    Publication Date: 2014-08-15
    Description: S -wave splitting analyses using low frequency earthquake templates at 3-component stations across southern Vancouver Island and northern Washington indicate the presence of a heterogeneous distribution of crustal anisotropy in the North American plate. For southern Vancouver Island, we investigate contributions to anisotropy from the Leech River Complex, a terrane comprised of strongly foliated phyllites and schists with steeply dipping foliations striking east–west. Fast directions across mainland southern Vancouver Island are subparallel to the dominant Leech River Complex foliation direction. East-to-west increases in delay times and small-scale azimuthal variations in fast directions indicate heterogeneous anisotropy. We test azimuthally anisotropic Leech River Complex models constrained by previous geological and seismic reflection studies, through forward modeling using 3D spectral element method simulations. The preferred model of a north/north-east shallowly dipping wedge ofLeech River Complex material with varying orientation of anisotropy terminating at mid-crustal levels explains the splitting observations at a majority of southern Vancouver Island stations. For stations where anisotropic Leech River Complex models do not recreate observations, fast directions are subparallel to local estimates of maximum compressive horizontal stress, suggesting fluid-filled cracks could be a source of anisotropy. We assert that the Leech River Complex is the primary source of crustal anisotropy beneath southern Vancouver Island, not cracks as suggested by prior studies. Fast directions at stations on northern Washington exhibit variations with azimuth and incidence angle suggesting complex anisotropy interpreted as due to a combination of cracks and preferred mineral orientation of metamorphosed slates of the Olympic core rocks. These slates may also underlay stations on southern Vancouver Island and represent another source of anisotropy.
    Print ISSN: 0148-0227
    Topics: Geosciences , Physics
    Published by Wiley on behalf of American Geophysical Union (AGU).
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