GEYSERNAYA RIVER ALLUVIUM (KAMCHATKA): COMPOSITION AND FEATURES OF FORMATION2

Cover Page

Cite item

Full Text

Open Access Open Access
Restricted Access Access granted
Restricted Access Subscription Access

Abstract

A comprehensive compositional analysis of the alluvium from the river with active gas-hydrothermal manifestations was carried out for the first time. Geysernaya river alluvium is characterized by: poor roundness of boulders and pebbles (grades 1–2), poorly sorted fine-clastic component, abundance of rock fragments and intergrown minerals even in the fine sand fraction. All these indicate the sediment weak disintegration with significant amount of slope material in it, including redeposited by mudflows. The high content of smectite-zeolite and other newly formed (secondary) minerals aggregates (up to 70% of the light fraction 0.1–0.25 mm in size) and altered rock fragments (up to 70–80% in the pebble fraction of alluvium) indicate that a gas-hydrothermal activity significantly impact the bedrock and alluvium weathering within the thermal fields. The material accumulates predominant in the areas of: (1) active delivery of slope material (temporary dams), (2) the longitudinal profile flattening in dammed reservoirs, and (3) mudflow material removal. Formation of two dammed reservoirs over the past 15 years, as well as layers of fine sand found in the low terrace’s sediments, indicate that such short-lived basins form periodically in the Geysernaya river valley. The conditions of the fine sand deposition in sections of a single-branch channel and within dammed reservoirs are differ, which affects the heavy fraction leading minerals ratio. The well-rounded gravel and abundance of coarse sand, and their decrepit appearance indicates that, along with the processing of incoming slope and mudflow material large volumes the Geyzernaya river continues to cut in and erodes the ancient fluvial sediments.

About the authors

E. V. Lebedeva

Institute of Geography RAS

Author for correspondence.
Email: Ekaterina.lebedeva@gmail.com
Russia, Moscow

A. L. Zakharov

Institute of Geography RAS

Author for correspondence.
Email: zaanleo@gmail.com
Russia, Moscow

D. V. Mikhalev

Institute of Geography RAS; Lomonosov Moscow State University, Faculty of Geography

Author for correspondence.
Email: mikhalev.dmitry@gmail.com
Russia, Moscow; Russia, Moscow

References

  1. Dvigalo V.N., Melekestsev I.V. (2009). The geological and geomorphic impact of catastrophic landslides in the Geyser Valley of Kamchatka: Aerial photogrammetryGeological and geomorphological consequences of catastrophic rockfall and rockfall – landslides processes in the Kamchatka Valley of Geysers (according to aerial photogrammetry). Vulkanologiya i seismologiya (Volcanology and Seismology). No. 5. P. 24–37. https://doi.org/10.1134/S0742046309050029 (in Russ.)
  2. Dvigalo V.N., Svirid I.Yu., Shevchenko A.V., Zharkov R.V. (2014). Monitoring and forecasting of mudflow processes in the Kamchatka Valley of Geysers based on photogrammetric studies. Selevye potoki: katastrofy, risk, prognoz, zashchita: materialy III Mezhdunarodnoi konferentsii, Yuzhno-Sakhalinsk, 22–26 sentyabrya 2014 g. (Mudflows: disasters, risk, forecast, protection: Materials III Int. conf.). Yuzhno-Sakhalinsk: Sakhalinskiy filial Dal’nevostochnogo geologicheskogo instituta DVO RAN (Sahal. Phil. Far East. Geol. Institute of FEB RAS) (Publ.), P. 105–108. (in Russ.)
  3. Egorova I.A. (1993). Age and paleogeography of formation of volcano-sedimentary deposits in the Uzon-Geysernaya caldera depression, Kamchatka (according to palynological data). Vulkanologiya i seismologiya (Volcanology and Seismology). No. 2. P. 27–43. (in Russ.)
  4. Frolova Yu.V., Zerkal’ O.V., Gvozdeva I.P. (2019). The influence of hydrothermal transformations on the physicomechanical properties of tuffogenic rocks of the Valley of Geysers and their role in the formation of landslides. Geodinamicheskie protsessy i prirodnye katastrofy: tezisy dokladov III Vserossiiskoi nauchnoi konferentsii s mezhdunarodnym uchastiem. Yuzhno-Sakhalinsk: Institut morskoi geologii i geofiziki DVO RAN (Publ.), P. 186. (in Russ.)
  5. Geologicheskaya karta (Geological map). Sheet N-57, scale 1 : 1,000,000, 3rd edition, 2011 [Electronic resource data]. Access way URL: https://vsegei.ru/ru/info/ggk_1000ns/ (date of access: 10.10.2022).
  6. Geologicheskaya karta (Geological map). Sheet N-57-XXI, N-57-XXII, scale 1 : 200,000, 1st edition, 1981. [Electronic resource data]. Access way URL: https://vsegei.ru/ ru/info/pub_ggk200-1/ (date of access: 10.10.2022).
  7. Khabakov A.V. (Ed.). (1962). Atlas tekstur i struktur osadochnykh gornykh porod. Chast’ 1. Oblomochnye i glinistye porody (Atlas of Textures and Structures of Sedimentary Rocks. Part 1. Clastic and clayey rocks.). Moscow: Gosgeoltekhizdat (Publ.), Part 1. Clastic and clayey rocks. 578 p. (in Russ.)
  8. Kraevaya T.S., Braitseva O.A., Sheimovich V.C. et al. (1979). Deposits of the Quaternary calderas of Kamchatka. Vulkanologiya i seismologiya (Volcanology and Seismology). No. 4. P. 3–11. (in Russ.)
  9. Kremenetskaya T.N. (1977). Rechnye, lagunnye, ozernye otlozhenia vulkanicheskikh regionov (Kamchatka). (Fluvial, lagoonal, lacustrine deposits of volcanic regions (Kamchatka)). Moscow: Nauka (Publ.), Vol. 299. 100 p. (in Russ.)
  10. Lebedeva E.V. (2018). Sequences of catastrophic geomorphic processes in the river valleys of volcanic regions. Geomorfologiya. No. 4. P. 36–52. (in Russ.). https://doi.org/10.7868/S0435428118040041
  11. Lebedeva E.V. (2019). Kinds of impacts of volcanic and post volcanic activity on fluvial relief. Geomorfologiya. No. 4. P. 49–66. (in Russ.). https://doi.org/10.31857/S0435-42812019449-66
  12. Lebedeva E.V., Sugrobov V.M., Chizhova V.P., Zavadskaya A.V. (2020). The valley of the river Geyzernaya (Kamchatka): hydrothermal activity and features of relief forming. Geomorfologiya. No. 2. P. 60–73. (in Russ.). https://doi.org/10.31857/S0435428120020066
  13. Lebedeva E.V., Zharkov R.V. (2022). Accumulative landforms in valleys with gas-hydrothermal manifestations (the Kuril-Kamchatka region as an example). Geomorfologiya. Vol. 53. No. 1. P. 81–100. (in Russ.). https://doi.org/10.31857/S0435428122010096 (in Russ.)
  14. Leonov V.L. (2007). Geological preconditions and the possibility of forecasting a landslide that took place on 3 June 2007 in the Valley of Geysers, Kamchatka. Problemy kompleksnogo geofizicheskogo monitoringa Dal’nego Vostoka Rossii. Pervaya regional’naya nauchno-tekhnicheskaya konferentsiya. Petropavlovsk-Kamchatskiy: Kamchatskii filial geofizicheskoi sluzhby RAN (Publ.), P. 19–27. (in Russ.)
  15. Leonov V.L. (2014). The collapse and landslide that occurred on January 4, 2014 in the Valley of Geysers, Kamchatka, and their consequences. Vestnik KRAUNTS. Nauki o Zemle. No. 1. Vol. 23. P. 7–20. (in Russ.)
  16. Leonov A.V. (2017). Katalog geizerov Kronotskogo zapovednika. Dolina geizerov i kal’dera vulkana Uzon: istoriya i sovremennost' (Catalog of geysers in the Kronotsky Reserve. Valley of Geysers and Uzon Volcano Caldera: Past and Present). M.: OOO Reart (Publ.), 384 p. (in Russ.)
  17. Leonov V.L., Grib E.N., Karpov G.A. et al. (1991). Caldera Uzon and the Valley of Geysers. Deistvuyushchie vulkany Kamchatki (Active volcanoes of Kamchatka). Iss. II. Moscow: Nauka (Publ.), P. 94–141 (in Russ.)
  18. Pinegina T.K., Delemen’ I.F., Droznin V.A. et al. (2008). Kamchatka Valley of Geysers after the catastrophe on 3 June 2007. Vestnik DVO RAN. No. 1. P. 33–44. (in Russ.)
  19. Shevchenko A.V., Dvigalo V.N., Svirid I.Yu. (2018). Remote Studies of Geomorphological Processes at Volcanic Objects of Kamchatka. ХХХVI Plenum GK RAN: Vserossiiskaya nauchno-prakticheskaya konferentsiya s mezhdunarodnym uchastiem “Geomorfologiya – nauka XXI veka”. Barnaul: ASU Publishing House, P. 403–410. (in Russ.)
  20. Sugrobov V.M., Sugrobova N.G., Droznin V.A. et al. (2009). Zhemchuzhina Kamchatki – Dolina Geizerov. Nauchno-populyarnyi ocherk, putevoditel' (The Pearl of Kamchatka is the Valley of Geysers. Popular science essay, guide). Petropavlovsk-Kamchatsky: Kamchatpress (Publ.), 108 p. (in Russ.)
  21. Ustinova T.I. (1955). Kamchatskie geizery (Kamchatka geysers). Moscow: Geografgiz (Publ.), 120 p. (in Russ.)
  22. Vorob’evsky I.B., Droznin V.A., Frolova N.L., Chizhova V.P. (2010). Hydrological and recreational consequences of catastrophic mudflow in the Valley of Geysers (Kamchatka). Vestnik Moskovskogo universiteta. Seriya 5. Geografiya (Bulletin of Moscow Univ. Series 5. Geography). No. 2. P. 46–52 (in Russ.)
  23. Zavadskaya A.V. (Ed.). (2015). Atlas doliny reki Geizernoi v Kronotskom zapovednike (Atlas of the valley of the River Geysernaya in Kronotsky Reserve). M.: KRASAND (Publ.), 88 p. (in Russ.)
  24. Zerkal’ O.V., Gvozdeva I.P., Frolova Yu.V. (2019). The development of landslide processes in the valley of the river Geysernaya. Geodinamicheskie protsessy i prirodnye katastrofy: tezisy dokladov III Vserossiiskoi nauchnoi konferentsii s mezhdunarodnym uchastiem, g. Yuzhno-Sakhalinsk, 27–31 maya 2019 g. Yuzhno-Sakhalinsk: Institut morskoi geologii i geofiziki DVO RAN (Publ.), P. 138. (in Russ.)

Supplementary files

Supplementary Files
Action
1. JATS XML
Download
2.

Download (1MB)
Indexing metadata
3.

Download (281KB)
Indexing metadata
4.

Download (357KB)
Indexing metadata
5.

Download (320KB)
Indexing metadata
6.

Download (302KB)
Indexing metadata

Copyright (c) 2023 Е.В. Лебедева, А.Л. Захаров, Д.В. Михалёв