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Heterogeneities of the Field of S-Wave Attenuation in the Lithosphere of the Caucasus and Their Relationship with Seismicity

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Abstract

We have mapped a short-period S-wave attenuation field of in the lithosphere of the Caucasus. We have used a method based on the analysis of the ratio of the maximum amplitudes for Sn- and Pn-waves. We have processed more than 200 earthquakes records, recorded by the Kislovodsk station (KIV) at distances of ~200–750 km. It is shown that, in general, the highest attenuation of shear waves is observed in the western part of the region. It is established that increased and intermediate attenuation takes place for paths simultaneously crossing rupture zones of the 1988 Spitak (Mw = 6.8) and 1991 Racha (Mw = 7.0) earthquakes. At the same time, the source zone of the 1970 Dagestan earthquake with Mw = 6.8 is characterized by mainly lower attenuation. These data are consistent with an earlier conclusion that deep-seated fluids have been ascending into the Earth’s crust from the uppermost mantle for a few decades after large seismic events, and this process leads to a decrease in attenuation of Sn-waves. A high attenuation zone has been identified in the western part of the region, where, according to instrumental and historical data, no seismic events with M ≥ 6.0 have been recorded. It is assumed that processes of a large earthquake preparation may be taking place here.

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Authors and Affiliations

  1. Schmidt Institute of Physics of the Earth, Russian Academy of Sciences, 123242, Moscow, Russia

    Yu. F. Kopnichev

  2. Institute of Geophysical Research, Ministry of Energy of the Republic of Kazakhstan, 050020, Almaty, Kazakhstan

    I. N. Sokolova

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  1. Yu. F. Kopnichev
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  2. I. N. Sokolova
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Correspondence to Yu. F. Kopnichev.

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Translated by N. Astafiev

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Kopnichev, Y.F., Sokolova, I.N. Heterogeneities of the Field of S-Wave Attenuation in the Lithosphere of the Caucasus and Their Relationship with Seismicity. Izv. Atmos. Ocean. Phys. 55, 1526–1535 (2019). https://doi.org/10.1134/S0001433819100050

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