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Late Pleistocene Catastrophic Landslide from the Balaganchik Ridge: Evidence from the Mitoga 2 Reference Section (Western Kamchatka)

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Abstract

A new reference section of the Okhotsk seaside of Kamchatka in the Mitoga 2 River area is studied and dated for the first time (14C and 230Th/U). Sedimentary deposits were correlated with the previously known sections in the Khomutina‒Mitoga interfluve. It has been established that the sequence of “gray silts and clays” represents deposits of a large lake-type estuary, which began to swamp about 90–80 ka BP, and all sediments overlapping the silts began to form no earlier than 90 ka BP (second half of MIS 5). Deposits of a catastrophic collapse (clastic mass transport over about 100 km, area ≥1500 km2, volume ≥15 km3), which descended from the Balaganchik Ridge about 90‒80 ka BP, were identified. Two main facies were established: dispersed basal layer (“moraine-type loam” sequence) and landslide proper sediments (conglomerates). Valleys of the Bystraya and Plotnikova rivers were blocked by a collapse, resulting in the formation of a large dammed lake. The catastrophic drainage of the lake could occur about 37 ka BP. Deposits related to the dam breakthrough are recorded between the Mitoga 2 River and Zuikovo Settlement on the Okhotsk coast.

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Notes

  1. Hereinafter, data on the age and climate characteristics of marine oxygen isotope stages (MIS) are based on (Lisiecki and Raymo, 2005).

REFERENCES

  1. Aleshinskaya, Z.V., Boyarskaya, T.D., Voskresenskaya, T.N., and Svitoch, A.A., New data on Late Cenozoic sediments in western Kamchatka, Dokl. Akad. Nauk SSSR, 1976, vol. 226, no. 1, pp. 155‒158.

    Google Scholar 

  2. Barr, I.D. and Clark, C.D., Late Quaternary glaciations in Far Ne Russia; combining moraines, topography and chronology to assess regional and global glaciation synchrony, Quat. Sci. Rev., 2012, vol. 53, pp. 72‒87.

    Article  Google Scholar 

  3. Bazanova, L.I., Braitseva, O.A., Dirksen, O.V., et al., Ash fall of the largest Holocene eruptions on the Ust-Bol’sheretsk–Petropavlovsk–Kamchatka traverse: Sources, chronology, and frequency, Vulkanol. Seismol., 2005, no. 6, pp. 30‒46.

  4. Bespalyi, V.G., Schematic stratigraphy of Pleistocene deposits in Kamchatka, in Voprosy stratigrafii pleistotsena Kamchatki (Issues of the Stratigraphy of Pleistocene in Kamchatka), Lozhkin, A.V. et al., Eds., Magadan, 1974, pp. 109‒131.

  5. Bespalyi, V.G. and Davidovich, T.D., Pleistocene stratoregions in Kamchatka, in Voprosy stratigrafii pleistotsena Kamchatki (Issues of the Stratigraphy of Pleistocene in Kamchatka), Lozhkin, A.V. et al., Eds., Magadan, 1974, pp. 26‒82.

  6. Bischoff, J.L. and Fitzpatrick, J.A., U-series dating of impure carbonates: an isochron technique using total-sample dissolution, Geochim. Cosmochim. Acta, 1991, vol. 55, p. 543.

    Article  Google Scholar 

  7. Blahůt, J., Balek, J., Klimeš, J., et al., A comprehensive global database of giant landslides on volcanic islands, Landslides, 2019, vol. 16, pp. 2045–2052.

    Article  Google Scholar 

  8. Boyarskaya, T.D., Voskresenskaya, T.N., Svitoch, A.A., and Shlyukov, A.I., Stratigraphy of recent sediments and Pleistocene paleogeography in western Kamchatka, Vestn. MGU, Ser. Geogr., 1976, no. 1, pp. 93‒98.

  9. Braitseva, O.A. and Melekestsev, I.V., Quaternary glaciations, in Kamchatka, Kuril’skie i Komandorskie ostrova (Kamchatka: Kuril and Komandorsk Islands), Luchitskii, I.V., Ed., Moscow: Nauka, 1974, pp. 402‒425.

  10. Braitseva, O.A., Melekestsev, I.V., Evteeva, I.S., and Lupikina, E.G., Stratigrafiya chetvertichnykh otlozhenii i oledeneniya Kamchatki (Stratigraphy of Quaternary Deposits and Glaciations in Kamchatka), Moscow: Nauka, 1968.

  11. Bronk, R.C., Dealing with outliers and offsets in radiocarbon dating, Radiocarbon, 2009, vol. 51(3), pp. 1023‒1045. https://c14.arch.ox.ac.uk/oxcal.html

    Article  Google Scholar 

  12. Caballero, L. and Capra, L., Textural analysis of particles from El Zaguán debris avalanche deposit, Nevado deToluca volcano, Mexico: Evidence of flow behavior during emplacement, J. Volcanol. Geotherm. Res., 2011, vol. 200, no. 1/2, pp. 75‒82.

    Article  Google Scholar 

  13. Carrasco-Núñez, G., Díaz-Castellón, R., Siebert, L., et al., Multiple edifice-collapse events in the eastern Mexican volcanic belt: the role of sloping substrate and implications for hazard assessment, J. Volcanol. Geotherm. Res., 2006, vol. 158, no. 1/2, pp. 151‒176.

  14. Chetvertichnye oledeneniya na territorii SSSR (Quaternary Glaciations in the Soviet Union), Moscow: Nauka, 1987.

  15. Crandell, D.R., Miller, C.D., Glicken, H.X., et al., Catastrophic debris avalanche from ancestral Mount Shasta volcano, California, Geology, 1984, vol. 12, pp. 143‒146.

    Article  Google Scholar 

  16. Derkachev, A.N. and Portnyagin, M.V., Marker tephra layers in the Late Quaternary deposits of the Sea of Okhotsk as evidence of catastrophic eruptions in the Nemo Caldera Complex (Onekotan Island, Kuril Islands), Stratigr. Geol. Correl., 2013, vol. 21, no. 5, pp. 553–569.

    Article  Google Scholar 

  17. Duk-Rodkin, A. and Barendregt, R.W., Stratigraphical record of Glacials/Interglacials in Northwest Canada, Dev. Quat. Sci., 2011, vol. 15, pp. 661‒698.

    Google Scholar 

  18. Geyh, M.A., Reflections on the 230Th/U dating of dirty material, Geochronometria, 2001, vol. 20, pp. 9‒14.

    Google Scholar 

  19. Gorbach, N.V., Samoilenko, S.B., Plechova, A.A., and Mel’nikov, D.V., Avalanche on the Zhupanovsky Volcano (Kamchatka) in July 2015: First data and observations, Vestn. KRAUNTs, Nauki Zemle, 2015, no. 3, iss. 27, pp. 5‒11.

  20. Gorbarenko, S., Chebykin, E.P., Goldberg, E.L., et al., Chronicle of regional volcanic eruptions recorded in Okhotsk Sea sediments over the last 350 ka, Quat. Geochronol., 2014, vol. 20, pp. 29‒38.

    Article  Google Scholar 

  21. Gosudarstvennaya geologicheskaya karta Rossiiskoi Federatsii. Masshtab 1 : 200 000. Seriya Zapadno-Kamchatskaya. (State Geological Map of the Russian Federation, Scale 1 : 200 000, Ser. Western Kamchatka), Moscow: MINGEO, 1989, Sheets N-57-XXV (Ust-Bol’sheretsk), N-57-XXXI (Oktyabr’sk), and M-57-I (Ozernovsk).

  22. Gosudarstvennaya geologicheskaya karta Rossiiskoi Federatsii. Masshtab 1 : 1 000 000 Seriya Koryaksko-Kuril’skaya (State Geological Map of the Russian Federation, Scale 1 : 1 000 000, Ser. Koryak–Kuril), St. Petersburg: VSEGEI, 2006, Sheet N-57 (Petropavlovsk–Kamchatsky), Explanatory Note.

  23. Gosudarstvennaya geologicheskaya karta Rossiiskoi Federatsii masshtaba 1 : 200 000. Seriya Khangarskaya (State Geological Map of the Russian Federation, Scale 1 : 200 000, Ser. Khagarsk), Moscow: VSEGEI, 2013, Sheet N-57-XXVI (Dal’nii), Explanatory Note.

  24. Hughesa, Ph.D. and Gibbard, Ph.L., Global glacier dynamics during 100 ka Pleistocene glacial cycles, Quat. Res., 2018, vol. 90, pp. 222–243.

    Article  Google Scholar 

  25. Kamchatka, Kuril’skie i Komandorskie ostrova (Kamchataka: Kuril and Komandor Islands), Luchitskii, I.V., Ed., Moscow: Nauka, 1974.

    Google Scholar 

  26. Korde, N.V., Biostratifikatsiya i tipologiya russkikh sapropelei (Biostratigraphy and Typology of Sapropels), Moscow: AN SSSR, 1960.

  27. Kuprina, N.P., Stratigrafiya i istoriya osadkonakopleniya pleistotsenovykh otlozhenii Tsentral’noi Kamchatki (Stratigraphy and History of the Deposition of Pleistocene Sediments), Moscow: Nauka, 1970.

  28. Linares-Guerrero, E., Goujon, C., and Zenit, R., Increased mobility of bidisperse granular avalanches, J, Fluid Mech., 2007, vol. 593, pp. 475‒504.

    Article  Google Scholar 

  29. Lisiecki, L.E. and Raymo, M.E., A Pliocene-Pleistocene stack of 57 globally distributed benthic δ18O records, Paleoceanography, 2005, vol. 20, PA1003.

    Google Scholar 

  30. Maksimov, F.E. and Kuznetsov, V.Yu., New version of 230Th/U dating of Upper and Middle Pleistocene buried organogenic deposits, Vestn. SPbGU, Ser. Geogr., 2010, no. 4, pp. 94‒107.

  31. Maksimov, F.E., Shchetnikov, A.A., Kuznetsov, V.Yu., et al., U–Th age of the Kazantsevo (MIS 5) Horizon of the Upper Neopleistocene Ust Oda reference section, Baikal region, Dokl. Earth Sci., 2017, vol. 473, no. 2, pp. 266–270.

    Article  Google Scholar 

  32. Maksimov, F.E., Pevzner, M.M., Petrov, A.Yu., et al., Age of a cross-layered sand sequence of the Yar Sredny reference section (central Kamchatka): Data on combined 230Th/238U and 14C dating of peat, Dokl. Earth Sci., 2019, vol. 488, no. 3, pp. 1046–1050.

    Article  Google Scholar 

  33. Melekestsev, I.V., Low-mountain massifs and pedimental plains in western and eastern Kamchatka, in Kamchatka, Kuril’skie i Komandorskie ostrova (Kamchatka: Kuril and Komandorsk Islands), Luchitskii, I.V, Eds., Moscow: Nauka, 1974, pp. 250‒259.

  34. Melekestsev, I.V., Explosive caldera-forming supereruption of Opala IV – the largest in Kamchatka over the last 50 ka, Vulkanol. Seismol., 2016, no. 1, pp. 21‒36.

  35. Melekestsev, I.V., Litasova, S.N., and Sulerzhitskii, L.D., Age and scale of catastrophic oriented eruptions of Avacha Volcano (Kamchatka) in the Late Pleistocene, Vulkanol. Seismol., 1991, no. 2, pp. 3–12.

  36. Melekestsev, I.V., Volynets, O.N., and Antonov, A.Yu., Caldera Nemo III (Onekotan Island, northern Kuril region): structure, 14C age, and dynamics of the caldera-forming eruption, and evolution of juvenile products, Vulkanol. Seismol., 1997, no. 1, pp. 32–51.

  37. Mikhailov, V.N., Gorin, S.L., and Mikhailova, M.V., A new approach for the determination and typification of estuaries, Vestn. MGU. Ser. Geogr., 2009, no. 5, pp. 3–11.

  38. Normark, W.R. and Reid, J.A., Extensive deposits on the Pacific Plate from Late Pleistocene North American glacial lake outbursts, J. Geol., 2003, vol. 111, no. (6), pp. 617‒637.

  39. Noveishie otlozheniya i paleografiya pleistotsena Zapadnoi Kamchatki (Recent Deposits and Pleistocene Paleogeography in Western Kamchatka), Vtyurin, B.I. and Svitoch, A.A., Eds., Moscow: Nauka, 1978.

    Google Scholar 

  40. Nürnberg, D., Dethleff, D., Tiedemann, R., et al., Okhotsk Sea ice coverage and Kamchatka glaciation over the last 350 ka—Evidence from ice-rafted debris and planktonic δ18O, Palaeogeogr. Palaeoclimatol. Palaeoecol., 2011, vol. 310, pp. 191‒205.

    Article  Google Scholar 

  41. Pevzner, M.M., Golotsenovyi vulkanizm Sredinnogo khrebta Kamchatki (Holocene Volcanism on the Sredinnyi Range, Kamchatka), Moscow: GEOS, 2015.

  42. Pevzner, M.M., Tolstykh, M.L., and Babanskii, A.D., The Shiveluch volcanic massif, Kamchatka: Evolution stages of the magmatic system (results of geochronological and thermobarogeochemical studies), Vulkanol. Seismol., 2018, no. 4, pp. 15–25.

  43. Pevzner, M.M., Yashina, O.V., Smyshlyaeva, O.I., et al., Reference sections of Late‒Middle Neopleistocene friable sediments in Kamchatka: Present-day state and issue of age, and perspectives of study, Lithol. Miner. Resour., 2019a, no. 2, pp. 119–144.

  44. Pevzner, M.M., Karimov, T.D., and Nechushkin, R.I., Age of friable sedimentd in reference sections of central Kamchatka based on radiocarbon dating in Geokhronologiya chetvertichnogo perioda: instrumental’nye metody datirovaniya noveishikh otlozhenii (Quaternary Geochronology: Instrumental Methods for Dating Recent Sediments), Moscow: IG RAN, 2019b, pp. 68–69.

    Google Scholar 

  45. Pevzner, M.M., Karimov, T.D., and Nechushkin, R.I., The Blue Clay sequence in central Kamchatka: Age and issue of origin, in Vulkanizm i svyazannye s nim protsessy (Volcanism and Associated Processes), Petropavlovsk-Kamchatsky: IViS DVO RAN, 2019c, pp. 102–105.

  46. Pevzner, M.M., Maksimov, F.E., Karimov, T.D., et al., Late Pleistocene natural catastrophes in central Kamchatka, Vulkanizm i svyazannye s nim protsessy (Volcanism and Associated Processes), Petropavlovsk-Kamchatsky: IViS DVO RAN, 2020, pp. 124–127.

  47. Ponomareva, V.V., Kyle, P.R., Melekestsev, I.V., et al., The 7600 (14C) year BP Kuril Lake caldera-forming eruption, Kamchatka, Russia: stratigraphy and field relationships, J. Volcanol. Geotherm. Res., 2004, vol. 136, no. 3/4, pp. 199–222.

    Article  Google Scholar 

  48. Ponomareva, V.V., Churikova, T.G., Melekestsev, I.V., et al., Late Pleistocene-Holocene Volcanism on the Kamchatka Peninsula, Northwest Pacific region in Volcanism and Tectonics of the Kamchatka Peninsula and Adjacent Arcs, Eichelberger, J., Ed., Washington: AGU, 2007, vol. 172, pp. 165‒198.

    Google Scholar 

  49. Razjigaeva, N.G., Ganzey, L.A., Grebennikova, T.A., et al., Last interglacial climate changes and environments of the Lesser Kuril arc, north-western Pacific, Quat. Int., 2011, vol. 241, pp. 35‒50.

    Article  Google Scholar 

  50. Rovere, A., Stocchi, P., and Vacchi, M., Eustatic and relative sea level changes, Current Climate Change Rep., 2016, vol. 2, pp. 221–231.

    Article  Google Scholar 

  51. Siebert, L., Large volcanic debris avalanches: characteristics of source areas, deposits and associated eruptions, J. Volcanol. Geotherm. Res., 1984, vol. 22, pp. 163‒197.

    Article  Google Scholar 

  52. Skrypnikova, M., Uspenskaya, O., and Khokhlova, O., Paleoclimate study of mountain ecosystems by multiple group biological analysis, J. Mount. Sci., 2011, vol. 43, no. 1, pp. 24‒36.

    Article  Google Scholar 

  53. Spratt, R.M. and Lisiecki, L.E., A Late Pleistocene sea level stack, Climate Past, 2016, vol. 12, pp. 1079–1092.

    Article  Google Scholar 

  54. Stratigrafiya SSSR. Chetvertichnaya sistema (Stratigraphy of the Soviet Union: Quaternary System), Moscow: Nedra, 1984, vol. 2.

  55. Svitoch, A.A., Marine Pleistocene on coasts of the Russian Far East (stratigraphy and paleogeography), Tikhookean. Geol., 2004, vol. 23, no. 3, pp. 76‒93.

    Google Scholar 

  56. Topograficheskaya karta N-57-V, masshtab 1 : 500 000 (Petropavlovsk-Kamchatsky) (Topographic Map, Sheet N-57-V, Scale 1 : 500 000 (Petropavlovsk-Kamchatsky)), Khabarovsk: VTU GSh, 1972.

  57. Tost, M., Cronin, S.J., and Procter, J.N., Transport and emplacement mechanisms of channelised long-runout debris avalanches, Ruapehu volcano, New Zealand, Bull. Volcanol., 2014, vol. 76, p. 881.

    Article  Google Scholar 

  58. Ui, T. and Glicken, H., Internal structural variations in a debris-avalanche deposit from ancestral Mount Shasta, California, USA, Bull. Volcanol., 1986, vol. 48, pp. 189–194. https://doi.org/10.1007/BF01087673

    Article  Google Scholar 

  59. Uspenskaya, O.N., Other algae, in Obshchie zakonomernosti vozniknoveniya i razvitiya ozer. Metody izucheniya istorii ozer (General Regularities in the Origin and Evolution of Lakes: Methods for Studying the History of Lakes), Leningrad: Nauka, 1986, Ser. History of Lakes In the Soviet Union), pp. 146–151.

  60. Zelenin, E.A., Ponomareva, V.V., Mikhailyukova, P.G., and Mel’nikov, D.V., Avalanche on the active Zheltovsky Volcano (southern Kamchatka), Vestnik KRAUNTs. Nauki Zemle, 2015, no. 26, pp. 51‒59.

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ACKNOWLEDGMENTS

The authors thank the peer T.K. Pinegina for remarks that helped to refine the manuscript, as well as V.V. Ponomareva, V.V. Petrova, and E.V. Shchepetova for valuable advices and fruitful discussion of our materials.

Funding

This work was accomplished in accordance with the State Task of Geological Institute of the Russian Academy of Sciences (project no. 0135-2019-0059) and financially supported by the Russian Foundation for Basic Research (project nos. 17-05-00352 (field works and analytical studies) and 20-05-00085 (analysis of data and paper writing)).

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Correspondence to M. M. Pevzner.

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Pevzner, M.M., Maksimov, F.E., Karimov, T.D. et al. Late Pleistocene Catastrophic Landslide from the Balaganchik Ridge: Evidence from the Mitoga 2 Reference Section (Western Kamchatka). Lithol Miner Resour 56, 71–88 (2021). https://doi.org/10.1134/S002449022006005X

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