On the correlation between seismicity characteristics and S-wave attenuation in the ring structures that appear before large earthquakes
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Bakirov, A.B., Zemnaya kora i verkhnyaya mantiya Tyan’-Shanya v svyazi s geodinamikoi i seismichnost’yu (The Tien Shan Crust and Upper Mantle in Relation to Geodynamics and Seismicity), Bishkek: Ilim, 2006.
Bufe, C., Comparing the November 2002 Denali and November 2001 Kunlun Earthquakes, Bull. Seismol. Soc. Amer., 2004, vol. 94, no. 3, pp. 1159–1165.
Butler, R., Lay, T., Creager, K., et al., The Global Seismographic Network Surpasses Its Design Goals, EOS Trans. AGU, 2004, vol. 85, no. 23, pp. 225–232.
Gold, T. and Soter, S., Fluid Ascent through the Solid Lithosphere and Its Relation to Earthquakes, Pure Appl. Geophys., 1984/1985, vol. 122, pp. 492–530.
Hier-Majumder, S. and Kohlstedt, D., Role of Dynamic Grain Boundary Wetting in Fluid Circulation beneath Volcanic Arcs, Geophys. Res. Lett., 2006, vol. 33, L08305.
Jaume, S. and Sykes, L., Evolving towards a Critical Point: A Review of Accelerating Seismic Moment/Energy Release prior to Large and Great Earthquakes, Pure Appl. Geophys., 1999, vol. 155, pp. 279–306.
Kaazik, P.B., Kopnichev, Yu.F., Nersesov, I.L., and Rakhmatullin, M. Kh., An Analysis of Fine Structure in Short Period Seismic Waves Recorded by an Array, Fizika Zemli, 1990, no. 4, pp. 38–49.
Kaazik, P.B. and Kopnichev, Yu.F., Numerical Modeling of the Sn Wave Group and Coda in an Earth with Varying Velocity and Attenuation, Vulkanol. Seismol., 1990, no. 6, pp. 74–87.
Kasahara, J., Toriumi, M., and Kawamura, K., Role of Water in Earthquake Generation, Bull. Earthq. Res. Inst., Special Issue, 2001, vol. 76, nos. 3/4.
Kocharyan, G.G. and Spivak, A.A., Dinamika deformirovaniya blochnykh massivov gornykh porod (The Dynamics of Deformation in Block Rock Massifs), Moscow: IKTs Akademkniga, 2003.
Kopnichev, Yu.F., Korotkoperiodnye seismicheskie volnovye polya (Short Period Seismic Wave Fields), Moscow: Nauka, 1985.
Kopnichev, Yu.F. and Arakelyan, A.R., On the Origin of Short Period Seismic Fields at Distances Less than 3000 km, Vulkanol. Seismol., 1988, no. 4, pp. 77–92.
Kopnichev, Yu.F. and Mikhailova, N.N., Geodynamic Processes in the Rupture Zone of the November 12, 1990 Baisorun Earthquake, Northern Tien Shan, Dokl. RAN, 2000, vol. 373, no. 1, pp. 93–97.
Kopnichev, Yu.F. and Sokolova, I.N., Space-Time Variations of the S Wave Attenuation Field in the Rupture Zones of Large Tien Shan Earthquakes, Fizika Zemli, 2003, no. 7, pp. 35–47.
Kopnichev, Yu.F. and Sokolova, I.N., Analysis of Space-Time Variations of the Shear Wave Attenuation Field in the Rupture Zones of Large Tien Shan Earthquakes Using Records of Underground Nuclear Explosions, Dokl. RAN, 2004, vol. 395, no. 6, pp. 818–821.
Kopnichev, Yu.F., Mikhailova, N.N., and Sokolova, I.N., On the Geodynamic Processes in Central Tien Shan: Identification of an Anomalous Region from Seismic Data, Vestnik NYaTs RK, 2004, Issue 3, pp. 111–118.
Kopnichev, Yu.F., Mikhailova, N.N., Sokolova, I.N., and Aristova, I.L., New Evidence Concerning the Geodynamic Processes in the Anomalous Zone of Northern Tien Shan: A Possible Precursory Period of a Large Earthquake, Vestnik NYaTs RK, 2006, no. 2, pp. 60–70.
Kopnichev, Yu.F. and Sokolova, I.N., Heterogeneities in the Field of Short Period Seismic Attenuation in the Lithosphere of Central Tien Shan, Vulkanol. Seismol., 2007, no. 5, pp. 54–70 [Journal of Volcanology and Seismology, 2007, vol. 1, no. 5, pp. 333–348].
Kopnichev, Yu.F., Gordienko, D.D., and Sokolova, I.N., Space-Time Variations of the Shear Wave Attenuation Field in the Upper Mantle of Seismic and Low Seismicity Areas, Vulkanol. Seismol., 2009, no. 1, pp. 49–64 [Journal of Volcanology and Seismology, 2009, vol. 3, no. 1, pp. 44–58].
Krestnikov, V.N., Belousov, T.P., Ermilin, V.I., et al., Chetvertichnaya tektonika Pamira i Tyan’-Shanya (Quaternary Tectonics of the Pamirs and Tien Shan), Moscow: Nauka, 1979.
Nakajima, J. and Hasegawa, A., Anomalous Low-Velocity Zone and Linear Alignment of Seismicity along It in the Subducted Pacific Slab beneath Kanto, Japan: Reactivation of Subducted Fracture Zone?, Geophys. Res. Lett., 2006, vol. 33, L16309.
Kondorskaya, N.V. and Shebalin, N.V., Novyi katalog sil’nykh zemletryasenii na territorii SSSR s drevneishikh vremen do 1975 g. (A New Catalog of Large Earthquakes in the USSR Area from Earliest Times Until 1975), Moscow: Nauka, 1977.
Rhie, J., Dreger, D., Burgmann, R., and Romanowicz, B., Slip of the Sumatra-Andaman Earthquake from Joint Inversion of Long-Period Global Seismic Waveforms and GPS Static Offsets, Bull. Seismol. Soc. Amer., 2007, vol. 97, no. 1A, pp. S115–S127.
Rong, Yu., Jackson, D., and Kagan, Ya., Seismic Gaps and Earthquakes, J. Geophys. Res., 2003, vol. 108, no. B10, doi: 10.1029/2002JB-002334.
Shchukin, Yu.K., Ryaboi, V.Z., et al., Glubinnoe stroenie slaboseismichnykh raionov SSSR (The Deep Structure of Low Seismicity Areas in the USSR), Moscow: Nauka, 1987.
Simoes, M., Avouac, J., Cattin, R., et al., The Sumatra Subduction Zone: A Case for a Locked Fault Zone Extending into the Mantle, J. Geophys. Res., 2004, vol. 109, no. B10, doi: 10.1029/2003JB002958.
Sobolev, G.A., Osnovy prognoza zemletryasenii (Principles of Earthquake Prediction), Moscow: Nauka, 1993.
Takei, Ya., Deformation-Induced Grain Boundary Wetting and Its Effects on the Acoustic and Rheological Properties of Partially Molten Rock Analogue, J. Geophys. Res., 2005, vol. 110, no. B12, B12203.
Tapponnier, P. and Molnar, P., Active Faulting and Tectonics in China, J. Geophys. Res., 1977, vol. 82, no. B20, pp. 2905–2930.
Van’yan, L.L. and Hyndman, R.D., On the Origin of Electrical Conductivity in the Consolidated Crust, Fizika Zemli, 1996, no. 4, pp. 5–11.
Velikhov, E.P., Golubchikov, L.G., and Karakin, A.V., On the Possibility of Using Electrophysical Methods for Prediction and Modification of Shallow Seismicity, Dokl. RAN., 2005, vol. 401, no. 2, pp. 238–241.