Abstract
We have investigated variations in the travel times ofPs converted phases from the upper mantle 410 and 660 km discontinuities recorded on the western stations of the Canadian National Seismograph Network using a variant of the technique introduced byVinnik (1977). Clear and unambiguous signals for both discontinuities are observed at 8 of the 11 stations considered and exhibit variations which correlate well with regional tectonic setting. Stations located in regions which are currently tectonically active are characterized by largerPs arrival times relative to directP than those situated on the North American craton. In addition the difference in arrival times between the 410 and 660Ps phases suggest that most of the variation is the result of structure above the transition zone but below the Moho. Stations located in the Cascadia subduction zone generally exhibit poorer signal quality than those elsewhere, a feature that may result from upper mantle velocity heterogeneity, discontinuity topography or a combination of both. A detailed investigation of possible lateral variations in discontinuity topography associated with subduction awaits the compilation of a more comprehensive data set which will permit the monitoring of an azimuthal dependence in signal.
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Bina, C. R., andSilver, P. G. (1990),Constraints on Lower Mantle Composition and Temperature from Density and Bulk Sound Velocity Profiles, Geophys. Res. Lett.17, 1153–1156.
Bock, G. (1994),Synthetic Seismogram Images of Upper Mantle Structure: No Evidence for a 520-km Discontinuity, J. Geophys. Res.99, 15843–15851.
Bock, G., andKind, R. (1991),A Global Study of S-to-P and P-to-S Conversions from the Upper Mantle Transition Zone, Geophys. J. Int.107, 117–130.
Bostock, M. G., andCassidy, J. F. (1995),Variations in Shear Wave Splitting over the Canadian National Seismograph Network, Geophys. Res. Lett.22, 5–8.
Bostock, M. G., andVanDecar, J. C. (1995),Upper Mantle Structure of the Northern Cascadia Subduction Zone, Can. J. Earth. Sci.32, 1–12.
Buchbinder, G., andPoupinet, G. (1984),P-wave Residuals in Canada, Can. J. Earth. Sci.21, 715–726.
Cassidy, J. F. (1995),A Comparison of the Receiver Structure beneath Stations of the Canadian National Seismograph Network, Can. J. Earth. Sci.32, in press.
Crosson, R. S., andOwens, T. J. (1987),Slab Geometry of the Cascadia Subduction Zone from Earthquake Hypocenters and Teleseismic Converted Waves, Geophys. Res. Lett.15, 824–827.
Davis, E. E., andLewis, T. E. (1984),Heat Flow in a Backarc Environment: Intermontane and Omineca Crystalline Belts, Southern Canadian Cordillera, Can. J. Earth. Sci.21, 715–726.
Gough, D. I. (1984),Electrical Conductivity under Western North America and Plate Dynamics, J. Geomagn. Geo-Electr.26, 105–123.
Gough, D. I. (1986),Mantle Upflow Tectonics in the Canadian Cordillera, J. Geophys. Res.91, 1909–1919.
Grand, S. P. (1994),Mantle Shear Structure beneath the Americas and Surrounding Oceans, J. Geophys. Res.99, 11591–11622.
Gurrola, H., Minster, J. B., andOwens, T. (1994),The Use of Velocity Spectrum for Stacking Receiver Functions and Imaging Upper Mantle Discontinuities, Geophys. J. Int.117, 427–440.
Kanasewich, E. R., Hemmings, C. D., andAlpaslan, T. (1973),Nth-root Stack Nonlinear Multichannel Filter, Geophys.38, 327–338.
Kennett, B. L. N., andEngdahl, E. R. (1991),Travel Times for Global Earthquake Location and Phase Identification, Geophys., J. Int.105, 313–329.
Kind, R., andVinnik, L. P. (1988),The Upper-mantle Discontinuities underneath the GRF Array from P-to-S Converted Phases, J. Geophys.62, 138–147.
Muirhead, K. J. (1968),Eliminating False Alarms when Detecting Seismic Events Automatically, Nature186, 704.
Paulssen, H. (1988),Evidence for a Sharp 670-km Discontinuity as Inferred from P-to-S Converted Waves, J. Geophys. Res.93, 10489–10500.
Petersen, N., Vinnik, L., Kosarev, G., Kind, R., Oreshin, S., andStammler, K. (1993),Sharpness of the Mantle Discontinuities, Geophys. Res. Lett.20, 859–862.
Revenaugh, J., andJordan, T. H. (1991),Mantle Layering from ScS Reverberations 2. The Transition Zone, J. Geophys. Res.96, 19,763–19,780.
Richards, M. A., andWicks, C. W. (1990),S-P Conversions from the Transition Zone beneath Tonga and the Nature of the 670-km Discontinuity, Geophys. J. Int.101, 1–35.
Shearer, P. M. (1991),Constraints on Upper Mantle Discontinuities from Observations of Long-period Reflected and Converted Phases, J. Geophys. Res.96, 18147–18182.
Stammler, K., Kind, R., Kosarev, G., Plesinger, A., Horálek, J., Qiyuan, L., andVinnik, L. P. (1991),Broadband Observations of PS Conversions from the Upper Mantle in Eurasia, Geophys. J. Int.105, 801–804.
Stammler, K., Kind, R., Petersen, N., Kosarev, G., Vinnik, L. P., andQiyuan, Liu (1992),The Upper Mantle Discontinuities: Correlated or Anticorrelated? Geophys. Res. Lett.15, 1563–1566.
Van der Lee, S., Paulssen, H., andNolet, G. (1994),Variability of P660s Phases has a Consequence of Topography of the 660-km Discontinuity, Phys. Earth Planet. Inter.86, 147–164.
Vidale, J. E., andBenz, H. M. (1992),Upper-mantle Seismic Discontinuities and the Thermal Structure of Subduction Zones, Nature356, 678–683.
Vinnik, L. P. (1977),Detection of Waves Converted from P to SV in the Mantle, Phys. Earth Planet. Inter.15, 39–45.
Vinnik, L. P., Avetisian, R. A., andMikhailova, N. G. (1983),Heterogeneities in the Mantle Transition Zone from Observations of P-to-SV Converted Waves, Phys. Earth Planet. Inter.33, 149–163.
Wickens, A. J., andBuchbinder, G. (1980),S-wave Residuals in Canada, Bull. Seismol. Soc. Am.70, 809–822.
Yamazaki, A., andHirahara, K. (1994),The Thickness of Upper Mantle Discontinuities, as Inferred from Short-period J-array Data, Geophys. Res. Lett.21, 1811–1814.
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Bostock, M.G., Cassidy, J.F. The upper mantle discontinuities in western Canada fromPs conversions. PAGEOPH 145, 219–233 (1995). https://doi.org/10.1007/BF00880268
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DOI: https://doi.org/10.1007/BF00880268