Connection of Kryvbas tectonics with natural and technogenic seismicity
- Details
- Category: Content №2 2023
- Last Updated on 28 April 2023
- Published on 30 November -0001
- Hits: 4116
Authors:
P.H.Pihulevskyi*, orcid.org/0000-0001-6163-4486, Institute of Geophysics by S.I.Subbotin name National Academy of Sciences of Ukraine, Kyiv, Ukraine, e-mail: This email address is being protected from spambots. You need JavaScript enabled to view it.
O.V.Kendzera, orcid.org/0000-0003-0691-0227, Institute of Geophysics by S.I.Subbotin name National Academy of Sciences of Ukraine, Kyiv, Ukraine, e-mail: This email address is being protected from spambots. You need JavaScript enabled to view it.
K.V.Babii, orcid.org/0000-0002-0733-2732, M.S.Poliakov Institute of Geotechnical Mechanics of the National Academy of Sciences of Ukraine, Dnipro, Ukraine, e-mail: This email address is being protected from spambots. You need JavaScript enabled to view it.
L.B.Anisimova, orcid.org/0000-0003-3398-5400, M.S.Poliakov Institute of Geotechnical Mechanics of the National Academy of Sciences of Ukraine, Dnipro, Ukraine, e-mail: This email address is being protected from spambots. You need JavaScript enabled to view it.
O.S.Kyryliuk, orcid.org/0000-0001-9248-0758, National Academy of the Security Service of Ukraine, Kyiv, Ukraine, e-mail: This email address is being protected from spambots. You need JavaScript enabled to view it.
* Corresponding author e-mail: This email address is being protected from spambots. You need JavaScript enabled to view it.
Naukovyi Visnyk Natsionalnoho Hirnychoho Universytetu. 2023, (2): 005 - 010
https://doi.org/10.33271/nvngu/2023-2/005
Abstract:
Purpose. Studying the tectonic features of the structure of the earth’s crust of Kryvyi Rih-Kremenchuk suture zone to clarify the nature of the origin of seismic events in the Kryvbas.
Methodology. To analyze and generalize the data on the Kryvbas seismicity with reference to large-scale geological and tectonic maps of exploration work. To study its tectonic structure based on geological, geophysical studies and drilling of Kryvyi Rih superdeep well.
Findings. In the period 2011–2021, about 1,200 seismic events were recorded on the territory of Kryvbas, the majority of which had a minor magnitude 2.0. Among them there were identified 13 powerful industrial explosions from mb = 2.7–3.5 and 20 earthquakes of tectonic origin with mb = 2.1–4.5. Powerful explosions in mines predominantly induce earthquakes. In recent years, local earthquakes began to occur in tectonic fault zones outside the ore mining area, which indicates a change in the elastic-deformation state of the geological environment. The analysis of the attributes of local earthquakes and their locations suggests that Kryvyi Rih tectonic system and the entire eastern flank of the earth’s crust of the West Inhulets-Kryvyi Rih-Kremenchuk suture zone are geodynamically active structures, where the processes of thrust and shear tectonics are also observed on a recent geological time scale.
Originality. A detailed analysis of the earthquakes shows that some of them occur at significant depths in the zones of tectonic faults outside of Kryvbas. At the same time, faults in separate directions are activated, where brittle deformations and viscous-plastic formations are manifested in the past geological time. The location of local earthquakes made it possible to single out two sections and five linear zones of seismic activity in the region.
Practical value. Based on the results from this research it is possible to create an applied model of the tectonic section of the earth’s crust to solve the problems of evolution and geodynamics of the lithosphere of the Ukrainian shield, mountain geology and to optimize mining. The identified faults of active inherited development are important in determining the development paths for quarries and mines in Kryvbas.
Keywords: fault tectonics, elastic deformation state, seismic activity, industrial explosion, local earthquake
References.
1. Vilkul, Yu. G., Azaryan, A. A., & Kolosov, V. O. (2022). Current state of Ukrainian mining industry. Mining bulletin, (110), 3-8. https://doi.org/10.31721/2306-5435-2022-1-110-3-9.
2. Andrushchenko, Yu. A. (2006). Control of industrial and emergency explosions on territory of Ukraine by seismic stations of the Main Center of Special Control. Geophysical Journal, 28(3), 110-115.
3. Kutas, V. V., Omelchenko, V. D., Drogitskaya, G. M., & Kalitova, I. A. (2009). Earthquake in Krivyi Rig December 25, 2007. Geophysical Journal, 31(1), 42-52.
4. Kendzera, O. V., Pigulevskiy, P. G., & Andrushchenko, Yu. A. (2021). Features of the Krivbas territory seismicity. Reports of the National Academy of Sciences of Ukraine, (6), 87-96. https://doi.org/10.15407/dopovidi2021.06.087.
5. Pustovitenko, B. G., Kul’chitskiy, V. E., Pustovitenko, A. A., & Sklyar, A. M. (2010). Instrumental and macroseismic data about processes in the focal zone of the earthquake in Krivoy Rog December 25, 2007. Geophysical Journal, 32(2), 75-97.
6. Pustovitenko, B. G., Pustovitenko, A. A., & Kapitanova, S. A. (2011). Processes in the focal zone of the earthquake in Krivoy Rog December 25, 2007. Seismological Bulletin of Ukraine for 2010. Sevastopol’. NPTs “EKOSI-Gidrofizika”, 17-22.
7. Kutas, V. V., Andrushchenko, Yu. A., & Omel’chenko, V. D. (2013). Deep structure of the Earth crust in area Kryvyi Rih structure base on geological and geophysical data and influence of anthropogenic factors to show of local seismicity. Geophysical Journal, 35(3), 156-165.
8. Pihulevskyi, P. G., Anisimova, L. B., Kalinichenko, O. O., Panteleeva, N. B., & Hanchuk, O. V. (2021). Analysis of natural and technogenic factors on the seismicity of Kryvyi Rih. Journal of Physics: Conference Series 2021. https://doi.org/10.1088/1742-6596/1840/1/012018.
9. Gintov, O. B. (2004). Fault zones of the Ukrainian shield. Influence of fault-formation processes on the formation of the Earth crust structure. Geophysical Journal, 26(3), 3-24.
10. Zakharov, V. V., Martyniuk, A. V., & Turner, Yu. M. (2002). State geological map of Ukraine. Scale 1:200,000. Sheet L-36-IV (Kryvyi Rih). Kyiv: Geoinform. Retrieved from https://www.geokniga.org › maps.
11. Kruglov, S. S., & Gursky, D. S. (2007). Tectonic Map of the Ukraine. Retrieved from https://www.geokniga.org › maps.
12. Shelly, D. (2010). Migrating tremors illuminate complex deformation beneath the seismogenic San Andreas fault. Nature, 463, 648-652. https://doi.org/10.1038/nature08755.
13. Madariaga, R. (2010). Earthquake scaling laws. In R. A. Meyers (Ed.). Extreme Environmental Events: Complexity in Forecasting and Early Warning, (Vol. 1, pp. 364-382). Springer.
14. Sibson, R. H. (2011). The scope of earthquake geology. Scope of earthquake geology. Geological Society London Special Publications, 319-331. https://doi.org/10.1144/SP359.18.
15. Shelly, D. R. (2010). Migrating tremors illuminate complex deformation beneath the seismogenic San Andreas fault. Nature, 463, 648-652.
16. Rice, J. R. (2006). Heating and weakening of faults during earthquake slip. Journal of Geophysical Research: Solid Earth, 11(B5), B05311. https://doi.org/10.1029/2005JB004006.
17. Scholz, C. H. (2002). The mechanics of earthquakes and faulting. Cambridge: Cambridge University Press. https://doi.org/10.1017/CBO9780511818516. ISBN: 9780521652230.
18. Svistun, V., & Pigulevskiy, P. (2021). Gravimetric survey and gravimetric database in Ukrain “Dniprogeofizika” during 2000–2011 carried out works on collection, analysis and formation of an electronic gravimetric data base (GDB) of the territory of Ukraine. Based on the results of the work car. 20 th International Conference Geoinformatics – Theoretical and Applied Aspectsthis, 11-13 May 2021, (pp. 1-7). https://doi.org/10.3997/2214-4609.20215521132.
19. Kurlov, N. S., Sheremet, E. M., Kozar, N. A., Gurskii, D. S., Geichenko, M. V., Shcherbak, N. P., …, & Foshchii, N. V. (2011). Kryvyi Rih super-deep well SG-8: monograph. Donetsk: Noulidge.
20. Nahornyi, V., Pigulevskiy, P., Svystun, V., & Shumlianska, L. (2020). To the question of verification of forecasting methods of earthquakes. XIV International Scientific Conference on Monitoring of Geological Processes and Ecological Condition of the Environment, Nov 2020, (pp.1-5). https://doi.org/10.3997/2214-4609.202056080.
Newer news items:
- The influence of the impeller design features on the combined operating process of the torque-flow pump - 28/04/2023 00:36
- Inner shear resistance increasing effect of Concrete Canvas in ballasted railway tracks - 28/04/2023 00:36
- Contact tensions under the sole of rigid deep laying foundations and ground anchors - 28/04/2023 00:36
- Patterns of air mixture movement in the operating area for the annular ejector of pneumatic transportation system - 28/04/2023 00:36
- Using nonlinear ultrasonic measurements to estimate parameters of the sedimentation of slurry solid phase in thickener - 28/04/2023 00:36
- Selection of the means of auxiliary transportation facilities and adaptation of their parameters to specific operation conditions - 28/04/2023 00:36
- Influence of underground mining activities on the topographic surface, case study of Nui Beo Coal Mine (Vietnam) - 28/04/2023 00:36
- Determining technological properties of drilling muds - 28/04/2023 00:36
- Geology, magmatism and specific features of mineralization of Bakyrchik ore field (Eastern Kazakhstan) - 28/04/2023 00:36
- An approach for ranking abandoned mines by the efficient use of their geothermal potential - 28/04/2023 00:36