Борняков Сергей Александрович 

  канд. геол.-мин. наук

  Институт земной коры СО РАН, Иркутск, Россия

  ResearchGate  ORCID  

Научные интересы С.А. Борнякова связаны с исследованием общих закономерностей процессов разломообразования методом физического моделирования. За последнее десятилетие методология его исследований существенно расширилась за счет базовых идей синергетики, мезомеханики, фрактальной геометрии и теории информации. Разрабатывается новая тектонофизическая модель зоны разлома, основанная на принципах мезомеханики и синергетики; проводится комплекс исследований по изучению механизмов формирования Байкальской рифтовой зоны; изучается роль разломов в структуре контроля алмазоносных кимберлитовых тел в Якутской алмазоносной провинции; проводится комплекс исследований, направленных на поиски краткосрочных предвестников землетрясений.

Публикации 2010–2023

• Bornyakov S.A., Dobrynina A.A., Shagun A.N., Sankov V.A., Salko D.V., Miroshnichenko A.I., Vstovsky G.V., Sintsov A.E., 2023. On Similarities between Deformation Processes Preceding Ice Shocks and Tectonic Earthquakes. DOKLADY EARTH SCIENCES 508, 91–96. https://doi.org/10.1134/S1028334X22602097
• Dobrynina A.A., Sankov V.A., Bornyakov S.A., Korol S.A., Sankov A.V., 2023. Anomalous Seismic Noises from the December 9, 2020 MW=5.6 KUDARA Earthquake in the Baikal Basin. DOKLADY EARTH SCIENCES 508, 23–29. https://doi.org/10.1134/S1028334X22601912
• Seminsky K.Zh., Burzunova Yu.P., Bornyakov S.A., Miroshnichenko A.I., Cheremnykh A.S., Seminsky A.K., Buddo I.V., Smirnov A.S., Gorlov I.V., 2023. Analysis of the Fault-Block Structure and Stress State of the Sedimentary Cover in Gas-Condensate Deposits: Basics of the Tectonophysical Approach. GEODYNAMICS & TECTONOPHYSICS 14(2), 0689. https://doi.org/10.5800/GT-2023-14-2-0689
• Bornyakov S.A., Guo Y., Panteleev I.A., Zhuo Y-Q, Dobrynina A.A., Sankov V.A., Salko D.V., Shagun A.N., Karimova A.A., 2023. Stages of Stick-Slip Preparation on Precut Faults in Laboratory Models, and Verification of the Stages in Nature. Geology and Environment 3(1), 52–71. https://doi.org/10.26516/2541-9641.2023.1.52
• Seminsky K.Z., Dobrynina A.A., Bornyakov S.A., Sankov V.A., Pospeev A.V., Rasskazov S.V., Perevalova N.P., Seminskiy I.K., Lukhnev A.V., Bobrov A.A., Chebykin E.P., Edemskiy I.K., Ilyasova A.M., Salko D.V., Sankov A.V., Korol S.A., 2022. Integrated Monitoring of Hazardous Geological Processes in Pribaikalye: Pilot Network and First Results. GEODYNAMICS & TECTONOPHYSICS 13(5), 0677. (In Russ.) https://doi.org/10.5800/GT-2022-13-5-0677
• Bornyakov S.A., Miroshnichenko A.I., Vstovsky G.V., Sintsov A.E., Salko D.V., 2022. New Approach to Strong Earthquake Prediction in the South Baikal Region on the Basis of Rock Deformation Monitoring Data: Methodology and Results. GEODYNAMICS & TECTONOPHYSICS 13(2), 0588. (In Russ.) https://doi.org/10.5800/GT-2022-13-2-0588
• Bornyakov, S.A., Dobrynina, A.A., Seminsky, K.Z., Salko, D.V., Shagun, A.N. 2021. The Bystrinskii Earthquake in the Southern Baikal Region (Sep. 21, 2020, M w = 5.4): General Characteristics, Basic Parameters, and Deformation Signs of the Transition of the Focus to the Meta-Unstable State. DOKLADY EARTH SCIENCES 498(1), 427–431. https://doi.org/10.1134/S1028334X21050044
• Seminsky K.Zh., Bornyakov S.A., Dobrynina A.A., Radziminovich N.A., Rasskazov S.V. San’kov V.A., Mialle P., Bobrov A.A., Il’yasova A.M., Salko D.V., San’kov A.V., Seminsky A.K., 2021. The Bystrinskoe Earthquake in the Southern Baikal Region (21 September 2020, Mw = 5.4): Main Parameters, Precursors, and Accompanying Effects. RUSSIAN GEOLOGY AND GEOPHYSICS 62(5), 589–603. https://doi.org/10.2113/RGG20204296
• Rasskazov S.V., Ilyasova, A.M., Bornyakov, S.A., Chuvashova I.S., Chebykin E.P., 2020. Responses of a ²³⁴U/²³⁸U activity ratio in groundwater to earthquakes in the South Baikal Basin, Siberia. FRONTIERS OF EARTH SCIENCE 14, 711–737. https://doi.org/10.1007/s11707-020-0821-5
• Rasskazov S.V., Ilyasova A.M., Chuvashova I.S., Bornyakov S.A., Orgilyianov A.I., Kovalenko S.N., Seminsky A.K., Popov E.P., Chebykin E.P., 2020. Hydrogeochemical zoning of uranium isotopes (234U/ 238U) in the Southern Siberian paleocontinent: the role of the South Baikal reservoir in the groundwater formation. GEODYNAMICS & TECTONOPHYSICS. 11(3), 632-650. https://doi.org/10.5800/GT-2020-11-3-0496
• Seminsky K.Z., Bornyakov S.A., Bobrov A.A., Shagun A.N., 2020. Experience of Using Electrical Tomography, Radon Survey and Microseismic Sounding in Search for Pipes Controlled by Fault Zones. GEODYNAMICS & TECTONOPHYSICS 11(2), 431-446. https://doi.org/10.5800/GT-2020-11-2-0484
• Bornyakov S.A., Salko D.V, Shagun A.N., Dobrynina A.A., Usynin L.A., 2019. Slow Strain Waves in Rocks as Potential Precursors to Seismic Hazard. IOP CONFERENCE SERIES: EARTH AND ENVIRONMENTAL SCIENCE 324(1), 012002. https://doi.org/10.1088/1755-1315/324/1/012002
• Zhuo Y.-Q., Guo Y., Bornyakov S.A., 2019. Laboratory Observations of Repeated Interactions between Ruptures and the Fault Bend Prior to the Overall Stick-Slip Instability Based on a Digital Image Correlation Method. APPLIED SCIENCES-BASEL 9(5), 933. https://doi.org/10.3390/app9050933 
• Zhuo Y.-Q., Guo Y., Bornyakov S.A., Ma J., 2019. A Test of the Oblique-Rifting Model for Transfer Zone Deformation in the Northern Fen-Wei Rift: Implications from the 1989 m 6.1 Datong-Yanggao Earthquake Swarm. GEODYNAMICS AND TECTONOPHYSICS 10(1), 43-51. https://doi.org/10.5800/GT-2019-10-1-0403  
• Bornyakov S.A., Jin M., Miroshnichenko A.I., Guo Y.-S., Salko D.V., Zuev F.L., 2017. Diagnostics of Meta-Instable State of Seismically Active Fault. GEODYNAMICS AND TECTONOPHYSICS 8(4), 989–998. https://doi.org/10.5800/GT-2017-8-4-0328
• Bornyakov S.A., Salko D.V., Seminsky K.Z., Demberel S., Ganzorig D., Batsaihan T., Togtohbayar S., 2017. Instrumental recording of slow deformation waves in the South Baikal geodynamic study site. DOKLADY EARTH SCIENCES 473(1), 371–374. https://doi.org/10.1134/S1028334X17030229
• Bornyakov S.A., Tarasova A.A., Panteleev I.A., 2016. Discrete deformation wave dynamics in shear zones: Physical modelling results. GEODYNAMICS AND TECTONOPHYSICS 7(2), 289–302. https://doi.org/10.5800/GT-2016-7-2-0207
• Bornyakov S.A., Salko D.V., 2016. Instrumental deformation monitoring system and its trial in open-pit diamond mine. JOURNAL OF MINING SCIENCE 52(2), 388–393. https://doi.org/10.1134/S1062739116020550
• Bornyakov S.A., Miroshnichenko A.I., Salko D.V., 2016. Diagnostics of the preseismogenic state of heterogeneous media according to deformation monitoring data. DOKLADY EARTH SCIENCES 468 (1), 481–484. https://doi.org/10.1134/S1028334X16050032
• Zhuo Y.-Q., Bornyakov S.A., Guo Y.-S., Ma J., Sherman S.I., 2016. Influences of obliquity angle difference on the evolution of Fen-Wei rift: a study from segmented transtension clay model. DIZHEN DIZHI 38 (2), 259–277. https://doi.org/10.3969/j.issn.0253-4967.2016.02.003
• Bornyakov S.A., Panteleev I.A., Tarasova A.A., 2016. Dynamics of intrafault deformation waves: Results of physical simulation. DOKLADY EARTH SCIENCES 471(2), 1316–1318. https://doi.org/10.1134/S1028334X16120175
• Rasskazov S.V., Chebykin E.P., Ilyasova A.M., Vodneva E.N., Chuvashova I.S., Bornyakov S.A., Seminsky A.K., Snopkov S.V., Chechel'nitsky V.V., Gileva N.A., 2015. Creating the Kultuk polygon for earthquake prediction: variations of (²³⁴U/²³⁸U) and ⁸⁷Sr/⁸⁶Sr in groundwater from active faults at the western shore of Lake Baikal. GEODYNAMICS AND TECTONOPHYSICS 6(4), 519–554. https://doi.org/10.5800/GT-2015-6-4-0192
• Chebykin E.P., Rasskasov S.V., Vodneva E.N., Ilyasova A.M., Chuvashova I.S., Bornyakov S.A., Seminsky A.K., Snopkov S.V., 2015. First results of ²³⁴U/²³⁸U monitoring in water from active faults on the western coast of South Baikal. DOKLADY EARTH SCIENCES 460(2), 142–145. https://doi.org/10.1134/S1028334X15020075
• Sherman S.I., Seminsky K.Z., Bornyakov S.A., 2014. Faulting in the lithosphere: the 35th anniversary of the Irkutsk school of tectonophysics. GEODYNAMICS AND TECTONOPHYSICS 5(2), 329–352. https://doi.org/10.5800/GT-2014-5-2-0132
• Bornyakov S.A., Seminsky K.Z., Buddo V.Y., Miroshnichenko A.I., Cheremnykh A.V., Cheremnykh A.S., Tarasova A.A., 2014. Main regularities of faulting in lithosphere and their application (based on physical modelling results). GEODYNAMICS AND TECTONOPHYSICS 5(4), 823–861. https://doi.org/10.5800/GT-2014-5-4-0159
• Seminsky K.Zh., Demberel S., Tugarina M.A., Ganzorig D., Bornyakov S.A., 2013. First estimates of soil radon activity in the fault zones of central Mongolia. DOKLADY EARTH SCIENCES 448 (1), 21–24. https://doi.org/10.1134/S1028334X12110128
• Bornyakov S.A., Semenova N.V., 2011. Dissipative processes in fault zones (based on physical modeling results). RUSSIAN GEOLOGY AND GEOPHYSICS 52(6), 676–683. https://doi.org/10.1016/j.rgg.2011.05.010
• Vstovsky G.V., Bornyakov S.A., 2010. First experience of seismodeformation monitoring of Baikal rift zone (by the example of South-Baikal earthquake of 27 August 2008). NATURAL HAZARDS AND EARTH SYSTEM SCIENCE 10(4), 667–672. https://doi.org/10.5194/nhess-10-667-2010
• Gladkov A.S., Makovchuk I.V., Lunina O.V., Bornyakov S.A., Potekhina I.A., 2010. The Yubileinaya kimberlite pipe site, Russia: 3D model of the fault-block structure. GEOLOGY OF ORE DEPOSITS 52(3), 234–251. https://doi.org/10.1134/S1075701510030049
• Bornyakov S.A., 2010. Deformation precursors of the Ust-Barguzin earthquake of May 20, 2008. Doklady Earth Sciences 431 (1), 406–408. https://doi.org/10.1134/S1028334X1003030X
• Bornyakov S.A., Vstovskii G.V., 2010. The first experiment of seismodeformational monitoring of the Baikal Rift Zone: Example of the August 27, 2008, South-Baikal earthquake. DOKLADY EARTH SCIENCES 431(2), 469–473. https://doi.org/10.1134/S1028334X10040136