НИТУ «МИСиС», Москва, Россия:

Батугин А. С., проф., д-р техн. наук, as-bat@mail.ru

На основе концепции предельно напряженного состояния земной коры рассматривается возможная природа Бачатского землетрясения в Кузбассе. Тектонофизическая модель этого землетрясения, как и сильных горно-тектонических ударов, представлена в виде смещения блоков земной коры по реактивированным нарушениям, что рассматривается как реализация тектонического процесса. Предполагается, что накануне землетрясения в районе Бачатского разреза в массиве от поверхности до глубины в несколько километров существовала зона предельно напряженного состояния, возникшая в результате взаимодействия блоков земной коры. Видимо, подобную природу имели и другие сильные землетрясения с глубиной очага в несколько километров.

1. Rasskazov I. Yu, Saksin B. G., Usikov V. I., Potapchuk M. I. Rock mass geodynamics and mininginduced rockbursting at Nikolaev complex deposit. Gornyi Zhurnal. 2016. No. 12. pp. 13–19. DOI: 10.17580/gzh.2016.12.03
2. Adushkin V. V. Technogenic tectonic seismicity in Kuzbass. Russian Geology and Geophysics. 2018. Vol. 59, No. 5. pp. 571–583.
3. Lasocki S., Orlecka-Sikora B., Mutke G., Pytel W., Rudzinski L. A catastrophic event in Rudna copper-ore mine in Poland on 29 November, 2016: what, how and why. Proceedings of the 9th International Symposium on Rockbursts & Seismicity in Mines. Santiago, Chile, 2017. pp. 316–324.
4. Manchao He, Hongman Xia, Xuena Jia , Weili Gong, Fei Zhao, Kangyuan Liang. Studies on classification, criteria and control of rockbursts. Journal of Rock Mechanics and Geotechnical Engineering. 2012. Vol. 4, Iss. 2. pp. 97–114.
5. Jun Han, Hongwei Zhang, Bin Liang, Hai Rong, Tianwei Lan et al. Influence of Large Syncline on In Situ Stress Field: A Case Study of the Kaiping Coalfield, China. Rock Mechanics and Rock Engineering. 2016. Vol. 49, Iss. 11. pp. 4423–4440.
6. Batugin A., Kolikov K., Ivannikov A., Ignatov Yu., Krasnoshtanov D. Transformation of the geodynamic hazard manifestation forms in mining areas. Proceedings of the 19th International Multidisciplinary Scientific GeoConference. Albena, 2019. Vol. 19, Iss. 1.3. pp. 717–724.
7. Emanov A. F., Emanov A. A., Fateev A. V., Leskova E. V., Shevkunova E. V., Podkorytova V. G. Mininginduced seismicity at open pit mines in Kuzbass (Bachatsky earthquake on June 18, 2013). Journal of Mining Science. 2014. Vol. 50, Iss. 2. pp. 224–228.
8. Yakovlev D. V., Lazarevich T. I., Tsirel S. V. Genesis and development of natural-technogenic seismic activity of Kuzbass. Ugol. 2013. No. 10. pp. 53–59.
9. Galchenko Yu. P., Eremenko V. A., Myaskov A. V., Kosyreva M. A. Solution of geoecological problems in underground mining of deep iron ore deposits. Eurasian Mining. 2018. No. 1. pp. 35–40. DOI: 10.17580/em.2018.01.08
10. Kaledina N. O., Kobylkin S. S., Kobylkin A. S. The calculation method to ensure safe parameters of ventilation conditions of goaf in coal mines. Eurasian Mining. 2016. No. 1. pp. 41–44. DOI: 10.17580/em.2016.01.07
11. Tatarinov V., Kaftan V., Morozov V., Kamnev E., Tatarinova T. Reduction of the geodynamic risk in the disposal of radioactive waste in geological formations. Proceedings of the 18th International Multidisciplinary Scientific GeoConference. Albena, 2018. Vol. 18, Iss. 4.3. pp. 11–18.
12. Slastunov S. V., Kolikov K. S., Ermak G. P., Yutyaev E. P. Safety of coal mining in long-run development. Gornyi Zhurnal. 2015. No. 4. pp. 46–49. DOI: 10.17580/gzh.2015.04.08
13. Foulger G. R., Wilson M. P., Gluyas J. G., Julian B. R., Davies R. J. Global review of hum an-induced earthquakes. Earth-Science Reviews. 2018. Vol. 178. pp. 438–514.
14. Bhaskar Kundu, Naresh Krishna Vissa, Gahalaut V. K. Influence of anthropogenic groundwater unloadingin Indo-Gangetic plains on the 25 April 2015 Mw 7.8 Gorkha, Nepal earthquake. Geophysical Research Letters. 2015. Vol. 42. pp. 607–613.
15. Hast N. The measurement of rock pressure in mines. Stockholm : Norstedt, 1958. 183 p.
16. Batugin S. A., Shamanskaya A. T. Investigations of the stressed state of a rock mass by the stressrelieving method under conditions of the tashtagol iron-ore deposit. Soviet Mining. 1965. Vol. 1, Iss. 2. pp. 100–104.
17. Zoback M. L., Zoback M. D., Adams J., Assumpção M., Bell S. et al. Global patterns of tectonic stress. Nature. 1989. Vol. 341, Iss. 6240. pp. 291–298.
18. Petukhov I. M., Batugina I. M. Geodynamics of bowels. 2nd enlarged and revised edition. Moscow : Nedra communications LTD, 1999. 256 p.
19. Dobretsov N. L., Buslov M. M., Delvaux D., Berzin N. A., Ermikov V. D. Meso- and Cenozoic Tectonics of the Central Asian Mountain Belt: Effects of Lithospheric Plate Interaction and Mantle Plumes. International Geology Review. 1996. Vol. 38, Iss. 5. pp. 430–466.
20. Nielsen S. B., Stephenson R., Thomsen E. Dynamics of Mid-Palaeocene North Atlantic rifting linked with European intra-plate deformations. Nature. 2007. Vol. 450, Iss. 7172. pp. 1071–1074.
21. Sobolev G. A., Ponomarev A. V. Physics of earthquakes and the precursors. Moscow : Nauka, 2003. 270 p.
22. Ellsworth W. L. Injection-Induced Earthquakes. Science. 2013. Vol. 341, DOI: 10.1126/science.1225942
23. Batugina I. M., Petukhov I. M. Geodynamic zoning of mineral deposits in mine construction and operation. Moscow : Nedra, 1988. 165 p.
24. Smirnov V. A. Physical processes in rockburst sources and their regional prediction by geophysical fields : thesis of inauguration of Dissertation … of Doctor of Engineering Sciences. Saint-Petersburg, 1991. 49 p.
25. Sadovsky M. A. Selected works: Geophysics and Phypsics of Explosion. Moscow : Nauka, 2004. 440 p.
26. Belitskiy A. A. Mechanism of jointing and tectonic faults. Problems of Tectonophysics : Collected Papers. Moscow : Gosgeologotekhizdat, 1960. pp. 201–215.
27. Egorov P. V., Shamanskaya A. T., Aman I. P. Studies of stress state in Gornaya Shoria and south Kusbass. Problems of Rock Mechanics : Rock Mechanics Conference Proceedings. Novosibirsk : Nauka, 1971. pp. 246–249.
28. Batugin A. S., Lazarevich T. I. Stress-strain behavior and block structure of some mine fields in Kuzbass. Improvement of Rockburst-Hazardous Mineral Mining : Collection of Scientific Papers. Leningrad : VNIMI, 1986. pp. 34–38.
29. Batugin A. S. Reactivation of major faults during strong rock bursts as realization of tectonic process. Rock Mechanics for Natural Resources and Infrastructure Development – Full Papers: Proceedings of the 14th International Congress on Rock Mechanics and Rock Engineering. Ed. by S. A. B. da Fontoura, R. J. Rossa, J. P. Mendoza. CRC Press/Balkema, 2020. Vol. 6. pp. 1261–1268.
30. Lovchikov A. V. Behavior of tectonic rockbursts and induced earthquakes in mines in Russia. Prediction and Prevention of Tectonic Rockbursts and Earthquakes: Measurement of Strains and Residual and Effective Stresses in Rocks. I International Symposium Proceedings. Bishkek : NAN KR, 2016. pp. 39–49.
31. Simpson D. W., Leith W. The 1976 and 1984 Gazli, USSR, earthquakes – were they induced. Bulletin of the Seismological Society of America. 1985. Vol. 75, No. 5. pp. 1465–1468.
32. Kai Deng, Shiyong Zhou, Rui Wang, Robinson R., Cuiping Zhao, Wanzheng Cheng. Evidence that the 2008 Mw 7.9 Wenchuan Earthquake Could Not Have Been Induced by the Zipingpu Reservoir. Bulletin of the Seismological Society of America. 2010. Vol. 100, No. 5B. pp. 2805–2814.
33. Polets A. Yu., Zlobin T. K. Features of focal zone of the disruptive 1995 Neftegorsk Earthquake on May 27 (28). Geodynamic Processes and Natural Catastrophes. Neftegorsk Experience: Proceedings of the Russian Conference with International Participation. Vladivostok : Dalnauka, 2015. Vol. 1. pp. 141–145.
34. McGarr A. On a possible connection between three major earthquakes in California and oil production. Bulletin of the Seismological Society of America. 1991. Vol. 81, No. 3. pp. 948–970.