| Инд. авторы: | Deev E.V., Zol'nikov I.D, Turova I.V., Rusanov G.G., Ryapolova Y.M., Nevedrova N.N., Kotler S.A. |
| Заглавие: | Paleoearthquakes in the Uimon basin (Gorny Altai) |
| Библ. ссылка: | Deev E.V., Zol'nikov I.D, Turova I.V., Rusanov G.G., Ryapolova Y.M., Nevedrova N.N., Kotler S.A. Paleoearthquakes in the Uimon basin (Gorny Altai) // Russian Geology and Geophysics. - 2018. - Vol.59. - Iss. 4. - P.351-362. - ISSN 1068-7971. - EISSN 1878-030X. |
| Идентиф-ры: | DOI: 10.1016/j.rgg.2017.07.011; РИНЦ: 35495796; SCOPUS: 2-s2.0-85045240723; WoS: 000429910700002; |
| Реферат: | eng: Paleoseismological studies confirm that the Uimon basin is thrust by its northern mountain border along the active South Terekta fault. The latest motion along the fault in the 7-8th centuries AD induced an earthquake with a magnitude of M-w = 7.4-7.7 and a shaking intensity of I = 9-11 on the MSK-64 scale. The same fault generated another event ( M >= 7, I = 9-10), possibly, about 16 kyr ago, which triggered gravity sliding. The rockslide dammed the Uimon valley and produced a lake, where lacustrine deposition began about 14 +/- 1 kyr ago, and a later M >= 7 (I = 9-10) earthquake at similar to 6 ka caused the dam collapse and the lake drainage. Traces of much older earthquakes that occurred within the Uimon basin are detectable from secondary deformation structures (seismites) in soft sediments deposited during the drainage of a Late Pleistocene ice-dammed lake between 100 and 90 ka and in similar to 77 ka alluvium. The magnitude and intensity of these paleoearthquakes were at least M >= 5.0-5.5 and I >= 6-7. (C) 2018, V.S. Sobolev IGM, Siberian Branch of the RAS. Published by Elsevier B.V. All rights reserved. |
| Ключевые слова: | SEDIMENTS; MAGNITUDE; DEFORMATION; MONGOLIA; TIEN-SHAN; CENTRAL-ASIA; RESISTIVITY DATA; EMPIRICAL RELATIONSHIPS; Gorny Altai; Uimon basin; large paleoearthquakes; primary and secondary seismic deformations; paleoseismology; ANCIENT EARTHQUAKES; DEPOSITS; |
| Издано: | 2018 |
| Физ. хар-ка: | с.351-362 |
| Цитирование: | 1. Adija, M., Ankhtsetseg, D., Baasanbat, T., Bayar, G., Bayarsaikhan, C., Erdenezul, D., Mungunsuren, D., Munkhsaikhan, A., Munkhuu, D., Narantsetseg, R., Odonbaatar, C., Selenge, L., Tsembel, B., Ulziibat, M., Urtnasan, K.H., One Century of Seismicity in Mongolia (19002000). 2003, RCAG-DASE, Ulaanbaatar. 2. Ambraseys, N.N., Engineering seismology. Earthquake Engineering and Structural Dynamics 17 (1988), 1–105. 3. Bronk, R.C., OxCal Version 4.2.3: A computer program for radiocarbon calibration and analysis of archaeological and environmental chronological information. 2013, University of Oxford Radiocarbon Accelerator Unit https://c14arch.ox.ac.uk. 4. Calais, E., Vergnolle, M., San'kov, V., Lukhnev, A., Miroshnitchenko, A., Amarjargal, S., Deverchere, J., GPS measurements of crustal deformation in the Baikal-Mongolia area (1994-2002): Implications for current kinematics of Asia. J. Geophys. Res., 108(B10), 2003, 2501. 5. Cunningham, D., Structural and topographic characteristics of restraining bend mountain ranges of the Altai, Gobi Altai and easternmost Tien Shan. Geol. Soc. London Spec. Publ. 290 (2007), 219–237. 6. Deev, E.V., Fault scarps produced by Late Holocene paleoearthquakes at the junction of the Chuya intermontane basin and the Kurai Ridge (Gorny Altai). Tectonophysics and Topical Problems in Geosciences, Proc. 4th Tectonophysical Conference at Institute of Physics of the Earth (IPE) [in Russian], 2016, IPE, Moscow, 403–409 Book 1. 7. Deev, E.V., Nevedrova, N.N., Zol'nikov, I.D., Rusanov, G.G., Ponomarev, P.V., Parametric resistivity surveys in the Chuya basin. Geofizika 1 (2011), 40–49. 8. Deev, E.V., Nevedrova, N.N., Zol'nikov, I.D., Rusanov, G.G., Ponomarev, P.V., Geoelectrical studies of the Chuya basin sedimentary fill (Gorny Altai). Russian Geology and Geophysics (Geologiya i Geofizika) 53:1 (2012), 92–107 (120-139). 9. Deev, E.V., Nevedrova, N.N., Rusanov, G.G., Sanchaa, A.M., Babushkin, S.M., Krechetov, D.V., El'tsov, I.N., Zol'nikov, I.D., New data on the structure of the Uimon intermontane basin (Gorny Altai). Geologiya i Mineral'no-Syr'evye Resursy Sibiri 1:9 (2012), 15–23. 10. Deev, E.V., Zolnikov, I.D., Goltsova, S.V., Rusanov, G.G., Emanov, A.A., Traces of paleoearthquakes in the Quaternary deposits of intermontane basins in central Gorny Altai. Russian Geology and Geophysics (Geologiya i Geofizika) 54:3 (2013), 312–323 (410-423). 11. Deev, E.V., Zol'nikov, I.D., Gol'tsova, S.V., Rusanov, G.G., Emanov, A.A., Guskov, S.A., Evidence of ancient earthquakes in the alluvial deposits of Katun River (Uimon Depression, Gorny Altai). Dokl. Earth Sci. 449:2 (2013), 386–391. 12. Deev, E.V., Zol'nikov, I.D., Lobova, E.Yu., Late Pleistocene-Holocene coseismic deformations in the Malyi Yaloman river valley (Gorny Altai). Russian Geology and Geophysics (Geologiya i Geofizika) 56:9 (2015), 1256–1272 (1601-1620). 13. Deev, E.V., Turova, I.V., Zol'nikov, I.D., Kotler, S.A., Borodovskiy, A.P., Lobova, E.Yu., Large paleoearthquakes in the Katun Fault zone (Gorny Altai). Tectonophysics and Topical Problems in Geosciences, Proc. 4th Tectonophysical Conference at Institute of Physics of the Earth (IPE) [in Russian], 2016, IPE, Moscow, 410–418 Book 1. 14. Deev, E.V., Turova, I.V., Borodovskiy, A.P., Zolnikov, I.D., Oleszczak, L., Unknown large ancient earthquakes along the Kurai fault zone (Gorny Altai): new results of palaeoseismological and archaeoseismological studies. Int. Geol. Rev. 59:3 (2017), 293–310. 15. Delvaux, D., Theunissen, K., Van-der-Meyer, R., Berzin, N.A., Dynamics and paleostress of the Cenozoic Kurai-Chuya Depression of Gorny Altai (south Siberia): tectonic and climatic control. Geologiya i Geofizika (Russian Geology and Geophysics) 36:10 (1995), 31–51 (26-5). 16. Delvaux, D., Cloetingh, S., Beekman, F., Sokoutis, D., Burov, E., Buslov, M.M., Abdrakhmatov, K.E., Basin evolution in a folding lithosphere: Altai-Sayan and Tien Shan belts in Central Asia. Tectonophysics 602 (2013), 194–222. 17. Devyatkin, E.V., Cenozoic Deposition and Neotectonics of Southeastern Altai (Transactions GIN AN SSSR, Issue 126) [in Russian]. 1965, Nauka, Moscow. 18. Fedak, S.I., Turkin, Y.A., Gusev, A.I., Shokalsky, S.P., Rusanov, G.G., Borisov, B.A., Belyaev, G.M., Leontyeva, E.M., 2011. State Geological Map of the Russian Federation. Scale 1:1,000,000. Third Generation. Series: Altai-Sayan. Sheet M-45—Gorno-Altaisk. Explanatory Note [in Russian]. VSEGEI, St. Petersburg. 19. Filina, A.G., Podkorytova, V.G., Podlipskaya, L.A., The M 20. Galli, P., New empirical relationships between magnitude and distance for liquefaction. Tectonophysics 324 (2000), 169–187. 21. Kalmetieva, Z.A., Mikolaychuk, A.V., Moldobekov, B.D., Meleshko, A.V., Zhantaev, M.M., Zubovich, A.V., Atlas of Earthquakes in Kyrgyzstan [in Russian]. 2009, CAIAG, Bishkek. 22. Khilko, S.D., Kurushin, R.A., Kochetkov, V.M., Misharina, L.A., Melnikova, V.I., Gileva, N.A., Lastochkin, S.V., Balzhinniam, I., Monhoo, D., Earthquakes and Fundamentals of Seismic Risk Mapping in Mongolia [in Russian]. 1985, Nauka, Moscow. 23. Kondorskaya, N.V., Shebalin, N.V., (eds.) New Catalog of Large Earthquakes in the USSR from Ancient Times through 1975 [in Russian], 1977, Nauka, Moscow. 24. Kuribayashi, E., Tatsuoka, F., Brief review of liquefaction during earthquakes in Japan. Soils and Foundations 15 (1975), 81–92. 25. Le Pichon, X., Fournier, M., Jolivet, L., Kinematics, topography, shortening and extrusion in the India-Eurasia collision. Tectonics 11 (1992), 1085–1098. 26. Levitskiy, E.S., Bazhenova, S.N., Bortsova, A.V., 1964. Geological Map of the USSR. Scale 1:200,000. Ser. Gorny Altai. Sheet M-45-KHIV. Explanatory Note [in Russian]. Nedra, Moscow. 27. Lukina, N.V., Active faults and seismicity in Altai. Geologiya i Geofizika (Russian Geology and Geophysics) 37:1 (1996), 71–74 (68-71). 28. Lunina, O.V., Andreev, A.V., Gladkov, A.A., Geologic hazards associated with seismogenic faulting in southern Siberia and Mongolia: forms and location patterns. Russian Geology and Geophysics (Geologiya i Geofizika) 55:8 (2014), 1028–1042 (1294-1313). 29. Molnar, P., Tapponnier, P., Cenozoic tectonics of Asia: Effects of a continental collision. Science 189 (1975), 419–426. 30. Montenat, C., Barrier, P., d'Estevou, P.O., Hibsch, C., Seismites: An attempt at critical analysis and classification. Sedimentary Geol. 196 (2007), 5–30. 31. Nevedrova, N.N., Deev, E.V., Sanchaa, A.M., Deep structure and margins of the Kurai Basin (Gorny Altai), from controlled-source resistivity data. Russian Geology and Geophysics (Geologiya i Geofizika) 55:1 (2014), 98–107 (119-132). 32. Nevedrova, N.N., Deev, E.V., Ponomarev, P.V., Fault structures and their geoelectric parameters in the epicentral zone of the 27 September 2003 Chuya earthquake (Gorny Altai) from resistivity data. Russian Geology and Geophysics (Geologiya i Geofizika) 58:1 (2017), 123–132 (146-156). 33. Novikov, I.S., Cenozoic strike-slip tectonics of Altai. Geologiya i Geofizika (Russian Geology and Geophysics) 42:9 (2001), 1377–1388 (13111321). 34. Papathanassiou, G., Pavlides, S., Christaras, B., Pitilakis, K., Liquefaction case histories and empirical relations of earthquake magnitude versus distance from the boarder Aegean region. J. Geodynam. 40 (2005), 257–278. 35. Platonova, S.G., Seismic activity of the Charysh-Terekta fault and its position in the framework of seismogenic structures of Gorny Altai. Izvestiya Altaisk. Gos. Univ. 3 (1999), 33–39. 36. Radziminovich, N.A., Bayar, G., Miroshnichenko, A.I., Demberel, S., Ulzi-ibat, M., Ganzorig, D., Lukhnev, A.V., Focal mechanisms of earthquakes and stress field of the crust in Mongolia and its surroundings. Geodyn. Tectonophys. 7:1 (2016), 23–38. 37. Reimer, P.J., Bard, E., Bayliss, A., Beck, J.W., Blackwell, P.G., Ramsey, C.B., Buck, C.E., Cheng, H., Edwards, R.L., Friedrich, M., Grootes, P.M., Guilderson, T.P., Haflidason, H., Hajdas, I., Hatte, C., Heaton, T.J., Hoffmann, D.L., Hogg, A.G., Hughen, K.A., Kaiser, K.F., Kromer, B., Manning, S.W., Niu, M., Reimer, R.W., Richards, D.A., Scott, E.M., Southon, J.R., Staff, R.A., Turney, C.S.M., van der Plicht, J., IntCal13 and Marine13 radiocarbon age calibration curves 0-50,000 years cal BP. Radiocarbon 55:4 (2013), 1869–1887. 38. Rizza, M., Ritz, J.-F., Prentice, C., Vassallo, R., Braucher, R., Larroque, C., Arzhannikova, A., Arzhannikov, S., Mahan, S., Massault, M., Michelot, J.-L., Todbileg, M., ASTER Team. Earthquake geology of the Bulnay Fault (Mongolia). Bull. Seismol. Soc. Am. 105:1 (2015), 72–93. 39. Rodriguez-Pascua, M.A., Calvo, J.P., De Vicente, G., Gomez-Gras, D., Soft-sediment deformation structures interpreted as seismites in lacustrine sediments of the Prebetic Zone, SE Spain, and their potential use as indicators of earthquake magnitudes during the Late Miocene. Sedimentary Geol. 135 (2000), 117–135. 40. Rogozhin, E.A., Bogachkin, B.M., Nechaev, Y.V., Platonova, S.G., Chichagov, V.P., Chichagova, O.A., Traces of large earthquakes in the surface topography of Gorny Altai. Geomorfologiya 1 (1999), 82–95. 41. Rogozhin, E.A., Ovsyuchenko, A.N., Marakhanov, A.V., Major earthquakes of the southern Gornyi Altai in the Holocene. Izvestiya, Physics of the Solid Earth 44 (2008), 469–486. 42. Rusanov, G.G., Deev, E.V., Ryapolova, Y.M., Zolnikov, I.D., Paleo- hydrothermal activity of faults in the Gorny Altai based on travertine dating. Geologiya i Poleznye Iskopaemye Sibiri 4 (2013), 53–64. 43. Rusanov, G.G., Deev, E.V., Zolnikov, I.D., Khazin, L.B., Khazina, I.V., Kuz'mina, O.B., Reference section of Neogene-Quarternary deposits in the Uimon Basin (Gorny Altai). Russian Geology and Geophysics (Geologiya i Geofizika) 58 (2017), 973–983 (1220-1233). 44. Schmidt, G.A., On the origin of fault scarps on the southern slope of the Terekta Range in Central Altai. Bull. Commission of Quaternary Stratigraphy 28 (1963), 161–164. 45. Smekalin, O.P., Chipizubov, A.V., Imaev, V.S., Paleoearthquakes of the Baikal region: Methods and results of dating. Geodinamika i Tektonofizika 1:1 (2010), 55–74. 46. Thomas, J.C., Lanza, R., Kazansky, A., Zykin, V., Semakov, N., Mitrokhin, D., Delvaux, D., Paleomagnetic study of Cenozoic sediments from the Zaisan basin (SE Kazakhstan) and the Chuya depression (Siberian Altai): tectonic implications for Central Asia. Tectonophysics 351 (2002), 119–137. 47. Timush, A.V., Seismotectonics of the Lithosphere in Kazakhstan [in Russian]. 2011, Luxe Media Group, Almaty. 48. Trifonov, V.G., Soboleva, O.V., Trifonov, R.V., Vostrikov, G.A., Recent Geodynamics of the Alpine-Himalayan Collision Belt [in Russian]. 2002, GEOS, Moscow. 49. Ulomov, V.I., Bogdanov, M.I., Trifonov, V.G., Gusev, A.A., Gusev, G.S., Akatova, K.N., Aptikaev, F.F., Danilova, T.I., Kozhurin, A.I., Medvedeva, N.S., Nikonov, A.A., Peretokin, S.A., Pustovitenko, B.G., Strom, A.L., General seismic risk mapping of the Russian Federation territory. Set of Maps GSR-2016. Explanatory Note and List of Populated Localities. Inzhenernye Izyskaniya v Stroitelstve 7 (2016), 49–121. 50. Volkov, V.V., Sergeev, V.P., 1961. Geological Map of the USSR. Scale 1:200,000. Ser. Gorny Altai, Sheet M-45-KHV. Explanatory Note [in Russian]. Gosgeoltekhizdat, Moscow. 51. Wells, D.L., Coppersmith, K.J., New empirical relationship among magnitude, rupture length, rupture width, rupture area and surface displacement. Bull. Seismol. Soc. Am. 84:4 (1994), 974–1002. 52. Yang, S., Li, J., Wang, Q., The deformation pattern and fault rate in the Tianshan Mountains inferred from GPS observations. Science in China series D: Earth Sciences 51 (2008), 1064–1080. 53. Yin, A., Cenozoic tectonic evolution of Asia: A preliminary synthesis. Tectonophysics 488 (2010), 293–325. 54. Zol'nikov, I.D., Deev, E.V., Kotler, S.A., Rusanov, G.G., Nazarov, D.V., New results of OSL dating of Quaternary sediments in the Upper Katun’ valley (Gorny Altai) and adjacent area. Russian Geology and Geophysics (Geologiya i Geofizika) 57:6 (2016), 933–943 (1184-1197). |