Regional characteristics of radiation and propagation of seismic waves in the north-eastern Caucasus are estimated based on ∼40" role="presentation">∼40
Stochastic simulations, stress drop, quality function, geometrical spreading, local site amplification, strong motion duration
1. Abubakirov, I. R., A. A. Gusev (1990) , Estimation of scattering properties of lithosphere of Kamchatka based on Monte-Carlo simulation of record envelope of a near earthquake, Phys. Earth Planet. Inter., 64, p. 52-67, https://doi.org/10.1016/0031-9201(90)90005-I
2. Aki, K., K. Irikura (1991) , Characterization and mapping of earthquake shaking for seismic zonation, Proc. 4th Int Conf on Seismic Zonation, 1, p. 61-110, EERI, Stanford, California
3. Aki, K., P. G. Richards (1980) , Quantitative Seismology. Theory and Methods, Freeman, San Francisco
4. Anderson, J. G., S. E. Hough (1984) , A model for the shape of the Fourier amplitude spectrum of acceleration at high frequencies, Bull. Seism. Soc. Am., 74, p. 1969-1993
5. Arefiev, S. S., E. I. Stasyuk, L. Rivera (2004) , The source model of the Dagestan earthquake of 1970, Izvestiya, Phys. Solid Earth, 2, p. 15-27
6. Asmanov, O. A., A. R. Abdullaeva, et al. (2010) , The hodograph of seismic waves on the territory of Dagestan, Proc. Geol. Inst. Dagestan Sci. Cent., 56, p. 19-21
7. Atkinson, G. M., R. Mereu (1992) , The shape of ground motion attenuation curves in southeastern Canada, Bull. Seism. Soc. Am., 82, p. 2014-2031
8. Boore, D. M. (2003) , Simulation of Ground Motion Using the Stochastic Method, Pure Appl. Geoph., 160, p. 635-676, https://doi.org/10.1007/PL00012553
9. Boore, D. M., W. B. Joyner (1997) , Site amplifications for Generic Rock Sites, Bull. Seism. Soc. Am., 87, p. 327-341
10. Boore, D. M., E. M. Thompson (2014) , Path Durations for Use in the Stochastic-Method Simulation of Ground Motions, Bull. Seism. Soc. Am., 104, no. 5, p. 2541-2552, https://doi.org/10.1785/0120140058
11. Burger, R. W., P. G. Sommerville, et al. (1987) , The effect of crustal structure on strong ground motion attenuation relations in eastern North America, Bull. Seism. Soc. Am., 77, p. 420-439
12. Chapman, M. S., R. W. Godbee (2012) , Modeling Geometrical Spreading and the Relative Amplitudes of Vertical and Horizontal High-Frequency Ground Motions in Eastern North America, Bull. Seism. Soc. Am., https://doi.org/10.1785/0120110081
13. Emanov, A. F., A. A. Emanov, O. V. Pavlenko, et al. (2020) , Kolyvan Earthquake of 09.01.2019 with magnitude ML=4.3 and the features of induced seismicity in the Gorlovka coal basin, Probl. Eng. Seism., 3, p. 52-75
14. Halldorsson, B., A. S. Papageorgiou (2005) , Calibration of the Specific Barrier Model to Earthquakes of Different Tectonic Regions, Bull. Seism. Soc. Am., 95, no. 4, p. 1276-1300, https://doi.org/10.1785/0120040157
15. Hanks, T. C., R. K. McGuire (1981) , The character of high frequency strong ground motion, Bull. Seism. Soc. Am., 71, p. 2071-2095
16. Hardin, B. O., V. P. Drnevich (1972) , Shear modulus and damping in soils: design equations and curves, Proc. Am. Soc. Civil Eng., J. Soil Mech. Found Div., 98, p. 667-692
17. Joyner, W. B., T. F. Chen (1975) , Calculation of nonlinear ground response in earthquakes, Bull. Seism. Soc. Am., 65, p. 1315-1336
18. Kanamori, H. (1993) , Magnitude scale and quantification of earthquakes, Quantification of Earthquakes Tectonophysics, Duda S. J., Aki K. (eds.), p. 185-199, https://doi.org/10.1016/0040-1951(83)90273-1
19. Kharazova, Yu. V., O. V. Pavlenko, K. A. Dudinskii (2016) , The Correlation between the Characteristics of Seismic Wave Propagation in Western Caucasus and the Geological-Tectonic Features of the Region, Izvestiya, Phys. Solid Earth, 3, p. 399-412, https://doi.org/10.1134/S1069351316030046
20. Kirsanov, V. I., O. V. Pavlenko (2019) , Assessment of quality factor of the crust and the upper mantle in the North-Eastern Caucasus based on the records of seismic station "Makhachkala", Probl. Eng. Seism., 2, p. 60-73
21. Kromsky, S. D., O. V. Pavlenko, I. P. Gabsatarova (2018) , Manifestations of the peculiarities of radiation and propagation of seismic waves in the North Caucasus in Coda waves of regional earthquakes, Izvestiya, Phys. Solid Earth, 3, p. 33-44
22. Natalenko, A. E. Ed. (2001) , The Structure of the crust and the upper mantle of Russian territory in maps and charts, Prospect and Protect of Mineral Resources, no. 2, p. 36 (in Russian)
23. Pavlenko, O. V. (2008) , Characteristics of seismic wave attenuation in the crust and upper mantle of the Northern Caucasus, Izvestiya, Phys. Solid Earth, 6, p. 487-494, https://doi.org/10.1134/S1069351308060049
24. Pavlenko, O. V. (2009) , The study of the radiation characteristics and propagation of seismic waves in the North Caucasus by modeling the accelerograms of the recorded earthquakes, Izvestiya, Phys. Solid Earth, 10, p. 874-884, https://doi.org/10.1134/S106935130910005X
25. Pavlenko, O. V. (2011) , Regional differences in the characteristics of seismic wave emission and propagation in Kamchatka and the Northern Caucasus, Doklady Earth Sciences, 438, no. 2, p. 846-852, https://doi.org/10.1134/S1028334X11060225
26. Pavlenko, O. V. (2013) , Simulation of Ground Motion from Strong Earthquakes of Kamchatka Region (1992-1993) at Rock and Soil Sites, Pure Appl. Geoph., 170, no. 4, p. 571-595, https://doi.org/10.1007/s00024-012-0529-x
27. Pavlenko, O. V. (2016a) , The Q-Factor Estimates for the Crust and Upper Mantle in the Vicinity of Sochi and Anapa (North Caucasus), Izvestiya, Phys. Solid Earth, 3, p. 353-363, https://doi.org/10.1134/S1069351316030101
28. Pavlenko, O. V. (2016b) , Characteristics of radiation and propagation of seismic waves in the Northern Caucasus, estimated based on records of seismic stations "Sochi" and "Anapa", Probl. Eng. Seism., 1, p. 49-61
29. Pavlenko, O. V. (2020) , Seismic wave absorption in the Eastern part of the North Caucasus Estimated from records of seismic station "Makhachkala", Izvestiya, Phys. Solid Earth, 1, p. 16-34
30. Pavlenko, V. A., O. V. Pavlenko (2016) , The Seismic Wave Absorption in the Crust and Upper Mantle in the Vicinity of the Kislovodsk Seismic Station, Izvestiya, Phys. Solid Earth, 4, p. 492-502, https://doi.org/10.1134/S1069351316030113
31. Pavlenko, O. V., Ts. A. Tubanov (2017) , Characteristics of Radiation and Propagation of Seismic Waves in the Baikal Rift Zone Estimated by Simulations of Acceleration Time Histories of the Recorded Earthquakes, Izvestiya, Phys. Solid Earth, 1, p. 18-31, https://doi.org/10.1134/S1069351317010116
32. Pavlenko, O., E. Kozlovskaya (2018) , Characteristics of radiation and propagation of seismic waves in the Northern Finland estimated based on records of local earthquakes, Pure Appl. Geoph., 12, p. 4197-4223, https://doi.org/10.1007/s00024-018-1919-5
33. Petukhin, A., K. Irikura, et al. (2003) , Estimation of Q-values in the Seismogenic and Aseismic Layers in the Kinki Region, Japan, by Elimination of Geometrical Spreading Effect Using Ray Approximation, Bull. Seism. Soc. Am., 93, p. 1498-1515, https://doi.org/10.1785/0120020205
34. Rosnedra, (2013) , Deep seismic sections on the profiles of Deep Seismic Sounding GSS, elaborated in 1972-1995, Basic geological-geophysical profiles of Russia, p. electronic edition, Rosnedra, VSEGEI, Moscow
35. Shumilina, L. S., A. A. Gusev, V. M. Pavlov (2000) , An improved technique for determination of seismic hazard, J. Earthq. Pred. Res., 8, p. 104-110
36. Wang, C. Y., B. B. Herrmann (1980) , A numerical study of P-, SV-, and SH-wave generation in a plane layered medium, Bull. Seism. Soc. Am., 70, p. 1015-1036