PROBLEMS OF INDUCED SEISMICITY AND ENGINEERING GEOLOGICAL PROTECTION OF RESERVOIRS OF THE BAIKALANGARA CASCADE

The paper presents results of analysis of induced seismicity and changes in processes related to engineering geology in coastal zones of reservoirs of the BaikalAngara cascade. It is proposed to establish a system for monitoring of geological and geophysical processes in order to avoid disturbances in the modes of operation of large hydrotechnical facilities and waterside structures.

induced seismicity, stresses, variations of water levels of natural and manmade reservoirs, landslides, destruction of banks

1. . Afanasiev A.N., 1976. Water Resources and Water Balance of Lake Basin. Nauka, Novosibirsk, 238 p. (in Russian) [Афанасьев А.Н. Водные ресурсы и водный баланс бассейна оз. Байкал. Новосибирск: Наука, 1976. 238 с.].

2. Baecher G.B., Keeney R.L., 1982. Statistical examination of reservoirinduced seismicity. Bulletin of the Seismological Society of America 72 (2), 553–569.

3. Chizhevsky A.L., 1976. The Echo of Solar Storms at the Earth. Mysl, Moscow, 367 p. (in Russian) [Чижевский А.Л. Земное эхо солнечных бурь. М.: Мысль, 1976. 367 с.].

4. Dem'yanovich N.I., 1976. Prediction of landslides at Angara reservoirs. Nauka, Novosibirsk, 86 p. (in Russian) [Демьянович Н.И. Прогноз оползней на ангарских водохранилищах. Новосибирск: Наука, 1976. 86 с.].

5. Dobretsov N.L., Psakh’e S.G., Ruzhich V.V., Popov V.L., Shil’ko E.V., Granin N.G., Timofeev V.Yu., Astafurov S.V., Dimaki A.V., Starchevich Ya., 2007. Ice cover of Lake Baikal as a model for studying tectonic processes in the Earth’s crust. Doklady Earth Sciences 413 (2), 155–159. http://dx.doi.org/10.1134/S1028334X07020018.

6. Dobretsov N.L., Ruzhich V.V., Psakhie S.G., Chernykh E.N., Shil’ko E.V., Levina E.A., Ponomareva E.I., 2011. On development of earthquake prediction methods by means of physical modeling in the ice cover of Lake Baikal. Fizicheskaya Mezomechanika 14 (4), p. 69–80 (in Russian) [Добрецов Н.Л., Ружич В.В., Псахье С.Г., Черных E.H., Шилько Е.В., Левина Е.А., Пономарева Е.И. О совершенствовании способов прогноза землетрясений средствами физического моделирования в ледовом покрове Байкала // Физическая мезомеханика. 2011. Т. 14. № 4. С. 69–80].

7. DuráGómez I., Talwani P., 2010. Reservoirinduced seismicity associated with the Itoiz Reservoir, Spain: a case study. Geophysical Journal International 181 (1), 343–356. http://dx.doi.org/10.1111/j.1365246X.2009.04462.x.

8. Dyad'kov P.G., 2003. Specific features of manifestation of induced seismicity at Lake Baikal: dependence on loading rates and regional activations of seismogeodynamic process. Fizicheskaya Mezomechanika 6 (1), 55–61 (in Russian) [Дядьков П.Г. Особенности проявления вызванной сейсмичности на оз. Байкал: зависимость от скорости нагружения и региональных активизаций cейсмогеодинамического процесса // Физическая мезомеханика. 2003. Т. 6. № 1. С. 55–61].

9. Emel’yanova E.P., 1972. Basic Regularities of Landslides. Nedra, Moscow, 297 p. (in Russian) [Емельянова Е.П. Основные закономерности оползневых процессов. М.: Недра, 1972. 297 с.].

10. Ferreira J.M., De Oliveira R.T., Assumpção M., Moreira J.A.M., Pearce R.G., Takeya M.K., 1995. Correlation of seismicity and water level in the Açu reservoir – an example from Northeast Brazil. Bulletin of the Seismological Society of America 85 (5), 1483–1489.

11. Ferreira J.M., França G.S., Vilar C.S., do Nascimento A.F., Bezerra F.H.R., Assumpção M., 2008. Induced seismicity in the Castanhão reservoir, NE Brazil – preliminary results. Tectonophysics 456 (1–2), 103–110. http://dx.doi.org/10.1016/ j.tecto.2006.11.011.

12. Galazy G.I., Loot B.F., 2000. Baikal earthquakes (one of possible causes). Geografiya i Prirodnye Resursy 2, 37–42 (in Russian) [Галазий Г.И., Лут Б.Ф. Байкальские землетрясения (одна из возможных причин) // География и природные ресурсы. 2000. № 2. С. 37–42].

13. Golenetskii S.I., 1997a. Earthquakes in Irkutsk. Imya, Irkutsk, 95 p. (in Russian) [Голенецкий С.И. Землетрясения в Иркутске. Иркутск: Имя, 1997. 95 с.].

14. Golenetskii S.I., 1997b. Problem of the induced seismicity in the area of the Irkutsk water reservoir at the southwestern ending of lake Baikal. Geologiya i Geofizika 38 (10), 1692–1698.

15. Golenetskii S.I., 1998. A rare earthquake in the south of the Siberian Platform. Doklady Earth Sciences 363 (9), 1257–1260.

16. Gupta H.K., 1985. The present status of reservoir induced seismicity investigations with special emphasis on Koyna earthquakes. Tectonophysics 118 (3–4), 257–279. http://dx.doi.org/10.1016/00401951(85)901258.

17. Gupta H.K., 2002. A review of recent studies of triggered earthquakes by artificial water reservoirs with special emphasis on earthquakes in Koyna, India. EarthScience Reviews 58 (3–4), 279–310. http://dx.doi.org/10.1016/S00128252(02)000 636.

18. Gupta H., Narain H., Rastogi B.K., Mohan I., 1969. A study of the Koyna earthquake of December 10, 1967. Bulletin of the Seismological Society of America 59 (3), 1149–1162.

19. Gupta H.K., Rastogi B.K., Chadha R.K., Mandal P., Sarma C.S.P., 1997. Enhanced reservoirinduced earthquakes in Koyna region, India, during 1993–95. Journal of Seismology 1 (1), 47–53. http://dx.doi.org/10.1023/A:1009742428657.

20. Gupta H.K., Rastogi B.K., Narain H., 1972. Common features of the reservoirassociated seismic activities. Bulletin of the Seismological Society of America 62 (2), 481–492.

21. Imetkhenov A.B., 2009. Conditions of engineering geology of the coast. In: Tulokhonova A.K. (Ed.), Baikal. Nature and People. EKOS Publishing House of BSC, SB RAS, UlanUde, p. 230–235 (in Russian) [Иметхенов А.Б. Инженерногеологические условия побережья // Байкал. Природа и люди / Под ред. А.К. Тулохонова. УланУдэ: ЭКОС, Издво БНЦ СО РАН, 2009. С. 230–235].

22. Kadetova B.V., Rybchenko A.A., Trzhtsinsky Y.B., 2008. The present geoecological situation within the territory of the city of Irkutsk. Geography and Natural Resources 29 (1), 43–49. http://dx.doi.org/10.1016/j.gnr.2008.04.008.

23. Kangi A., Heidari N., 2008. Reservoirinduced seismicity in Karun III dam (Southwestern Iran). Journal of Seismology 12 (4), 519–527. http://dx.doi.org/10.1007/s1095000891044.

24. Kaufmann G., Amelung F., 2000. Reservoirinduced deformation and continental rheology in vicinity of Lake Mead, Nevada. Journal of Geophysical Research: Solid Earth 105 (B7), 16341–16358. http://dx.doi.org/10.1029/2000JB900079.

25. Keith C.M., Simpson D.W., Soboleva O.V., 1982. Induced seismicity and style of deformation at Nurek Reservoir, Tadjik SSR. Journal of Geophysical Research: Solid Earth 87 (B6), 4609–4624. http://dx.doi.org/10.1029/JB087iB06p04609.

26. Kulkarni M.N., Radhakrishnan N., Rai D., 2006. Global positioning system in disaster monitoring of Koyna dam, Western Maharashtra. Survey Review 38 (301), 629–636. http://dx.doi.org/10.1179/003962606780732083.

27. Lashchilova V.M., 1972. Reconfiguration of the Bratsk reservoir shoreline near the Artumey settlement. Trudy GGI 190, 105–129 (in Russian) [Лащилова В.М. Переформирование берега Братского водохранилища у пос. Артумей // Труды ГГИ. 1972. Вып. 190. С. 105–129].

28. Levi K.G., Zadonina N.V., 2012. Heliogeodynamics: Natural Aspects of Global Solar Minima. ISU, Irkutsk, V. 1. Book 2, 668 p. (in Russian) [Леви К.Г., Задонина Н.В. Гелиогеодинамика: Природные аспекты глобальных солнечных минимумов. Иркутск: Издво ИГУ, 2012. Т. 1. Книга 2. 668 с.].

29. Levi K.G., Zadonina N.V., Berdnikova N.E., 2003. Modern geodynamics and heliogeodynamcs. The 500years chronology of anomalous phenomena in nature and society in Siberia and Mongolia: Textbook for universities. Irkutsk State Technical University, Irkutsk. Book II, 384 p. (in Russian) [Леви К.Г., Задонина Н.В., Бердникова Н.Е. Современная геодинамика и гелиогеодинамика. 500летняя хронология аномальных явлений в природе и социуме Сибири и Монголии: Учеб. пособие для вузов. Иркутск: Издво ИрГТУ, 2003. Книга II. 384 с.].

30. Manake A., Kulkarni M.N., 2002. Study of the deformation of Koyna dam using the Global Positioning System. Survey Re view 36 (285), 497–507. http://dx.doi.org/10.1179/003962602791483118.

31. Meade R.B., 1991. Reservoirs and earthquakes. Engineering Geology 30 (3–4), 245–262. http://dx.doi.org/10.1016/00137952(91)90062P.

32. Osipov V.I., 1996. Megacities endangered by natural catastrophes. Vestnik RAN 66 (9), 771–782 (in Russian) [Осипов В.И. Мегаполисы под угрозой природных катастроф // Вестник РАН. 1996. Т. 66. № 9. С. 771–782].

33. Ovchinnikov G.I., 2003. The dynamics of the shoreline zone of the Angara reservoirs. Abstract of the Ph. D. thesis. Irkutsk, 50 p. (in Russian) [Овчинников Г.И. Динамика береговой зоны ангарских водохранилищ: Автореф. дис. … докт. геогр. наук. Иркутск, 2003. 50 с.].

34. Pavlenov V.A., Chernykh E.N., 2004. Problems of induced seismicity of the Angarsk cascade of hydropower stations. In: Modern geodynamics and hazardous natural processes in Central Asia. Irkutsk, p. 190–196 (in Russian) [Павленов В.А., Черных Е.Н. Проблемы наведенной сейсмичности Ангарского каскада ГЭС // Современная геодинамика и опасные природные процессы в Центральной Азии. Иркутск, 2004. С. 190–196].

35. Ping H., Yuliang H., 1992. Advances in reservoirinduced seismicity research in China. Tectonophysics 209 (1–4), 331–337. http://dx.doi.org/10.1016/00401951(92)900436.

36. Potapov V.A., Tabulevich V.N., Chernykh E.N., 1997. The impact of storm microseismic vibrations on seismicity in the area of the Kuril islands in the Pacific Ocean and at Lake Baikal. Geologiya i Geofizika 38 (8), 1411–1419 (in Russian) [Потапов В.А., Табулевич В.Н., Черных Е.Н. Влияние штормовых микросейсмических колебаний на сейсмичность в районе Курильских островов Тихого океана и на озере Байкал // Геология и геофизика. 1997. Т. 38. № 8. С. 1411–1419].

37. Psakhie S.G., Shilko E.V., Astafurov S.V., Dimaki A.V., Ruzhich V.V., Panchenko A.Yu., 2008. Model study of the formation and evolution of deformationinduced structures of the subduction type in the ice cover of Lake Baikal. Physical Mesomechanics 11 (1), 55–65.

38. Ruzhich V.V., Psakhie S.G., Chernykh E.N., Bornyakov S.A., Granin N.G., 2009. Deformation and seismic effects in the ice cover of Lake Baikal. Russian Geology and Geophysics 50 (3), 214–221. http://dx.doi.org/10.1016/j.rgg.2008.08.005.

39. Simpson D.W., Leith W.S., Scholz C.H., 1988. Two types of reservoirinduced seismicity. Bulletin of the Seismological Society of America 78 (6), 2025–2040.

40. Simpson D.W., Negmatullaev S.K., 1981. Induced seismicity at Nurek Reservoir, Tadjikistan, USSR. Bulletin of the Seismological Society of America 71 (5), 1561–1586.

41. Talwani P., 1997. On the nature of reservoirinduced seismicity. Pure and Applied Geophysics 150 (3–4), 473–492. http://dx.doi.org/10.1007/s000240050089.

42. Trzhtsinsky Yu.B., Kozyreva E.A., Radziminovich Ya.B., 2007. The effect of seismic events on sliding deformations of the Bratsk water reservoir shores. Russian Geology and Geophysics 48 (7), 614–615. http://dx.doi.org/10.1016/j.rgg.2007. 06.002.

43. Trzhtsinsky Yu.B., Kozyreva E.A., Verkhozin I.I., 2005. Specific Features of Engineering Geology of the Irkutsk Amphitheater. Irkutsk State Technical University, Irkutsk, 124 p. (in Russian) [Тржцинский Ю.Б., Козырева Е.А., Верхозин И.И. Инженерногеологические особенности Иркутского амфитеатра. Иркутск: Издательство ИрГТУ, 2005. 124 c.].

44. Trzhtsinskii Yu.B., Levi K.G., 2009. Natural and humaninduced processes water reservoirs at the coordinated hydroelectric system on the Angara River and the problem of induced seismicity. Geoekologiya 1, 71–79.

45. Vologina E.G., Sturm M., Radziminovich Ya.B., Vorob'eva S.S., Shchetnikov A.A., 2012. The 1912 earthquake in South Baikal: traces in bottom sediments and gas release into the water column. Russian Geology and Geophysics 53 (12), 1342–1350. http://dx.doi.org/10.1016/j.rgg.2012.10.007.

46. Zadonina N.V., 2007. Dynamics of Temporal Variations of Natural Hazard Intensity. The Analysis of Time Series. Irkutsk State Technical University, Irkutsk, 102 p. (in Russian) [Задонина Н.В. Динамика временных вариаций интенсивности опасных природных процессов. Анализ временных рядов. Иркутск : Издво ИрГТУ, 2007. 102 с.].