Biology Bulletin

, Volume 45, Issue 1, pp 91–99 | Cite as

Testate Amoebae Assemblages (Rhizopoda and Testacea) in the Peat Deposits of the Floodplain Terrace Swamp (the South of Forested Zone of Western Siberia)

Ecology
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Abstract

Testate amoebae assemblages were investigated in the peat deposits of the floodplain terrace swamp located in the southern taiga subzone of Western Siberia. It was revealed that tests of amoebae were well preserved in the minerotrophic peat. Variations in the structure of assemblages show that these bioindicators are sensitive to changes in the environment. The dynamics of the water table depth in the swamp within an 8500-year period was determined according to the analysis of testate amoebae. It reflects the fluctuations of climate humidity during the Holocene.

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References

  1. Alekseev, D.A., Testate amoebae of soils of swamp forests of the northern subzone of European taiga, Extended Abstract of Cand. Sci. (Biol.) Dissertation, Moscow: MGU, 1984.Google Scholar
  2. Baryshnikov, M.K., Sedge–hypnum bogs of Western Vasyugan’e, Byul. Inst. Lugovoi Bolotnoi Kul’tury im. Prof. V.R. Vil’yamsa, Moscow, 1929, pp. 1–38.Google Scholar
  3. Blyakharchuk, T.A., Western Siberia, a review of Holocene climatic changes, J. Sib. Fed. Univ. Biol., 2009, no. 1 (2), pp. 4–12.Google Scholar
  4. Bobrov, A.A., Historical dynamics of lake and bog ecosystems and successions of testate amoebae (Testacea), Zool. Zh., 2003, vol. 82, no. 2, pp. 215–223.Google Scholar
  5. Booth, R.K. and Jackson, S.T., A high-resolution record of late-Holocene moisture variability from a Michigan raised bog, USA, Holocene, 2003, vol. 13, no. 6, pp. 863–876.CrossRefGoogle Scholar
  6. Charman, D.J., Barber, K.E., Blaauw, M., Langdon, P.G., Mauquoy, D., Daley, T.J., Hughes, P.D.M., and Karofeld, E., Climate drivers for peatland palaeoclimate records, Quat. Sci. Rev., 2009, vol. 28, pp. 1811–1819.CrossRefGoogle Scholar
  7. Davis, S.R. and Wilkinson, D.M., The conservation management value of testate amoebae as “restoration” indicators: speculations based on two damaged raised mires in northwest England, Holocene, 2004, vol. 14, no. 1, pp. 135–143.CrossRefGoogle Scholar
  8. Dudova, L., Hajkova, P., Opravilova, V., and Hajek, M., Holocene history and environmental reconstruction of a Hercynian mire and surrounding mountain landscape based on multiple proxies, Quat. Res., 2014, vol. 82, pp. 107–120.CrossRefGoogle Scholar
  9. Evseeva, N.S., Geografiya Tomskoi oblasti. Prirodnye usloviya i resursy (Geography of Tomsk Oblast. Natural Conditions and Resources), Tomsk: Izd. Tomsk. Univ., 2001.Google Scholar
  10. Gel’tser, Yu.G., Korganova, G.A., and Alekseev, D.A., Prakticheskoe rukovodstvo po identifikatsii pochvennykh testatsii (A Practical Guide to Identification of Soil Testate Amoebae), Moscow: Izd. MGU, 1985.Google Scholar
  11. Heal, O.W., The distribution of testate amoeba (Rhizopoda: Testacea) in some fens and bogs in Northern England, J. Linn. Soc. Zool., 1961, vol. 44, pp. 369–382.CrossRefGoogle Scholar
  12. Hendon, D. and Charman, D.J., High-resolution peatland water table changes for the past 200 years: the influence of climate and implications for management, Holocene, 2004, vol. 14, no. 1, pp. 125–134.CrossRefGoogle Scholar
  13. Jauhiainen, S., Testacean amoebae in different types of mire following drainage and subsequent restoration, Eur. J. Protistol., 2002, vol. 38, pp. 59–72.CrossRefGoogle Scholar
  14. Juggins, S., Rioja: Analysis of Quaternary Science Data, R Package Version (0.8-7), 2012. http://cran.r-project. org/package=rioja.Google Scholar
  15. Kats, N.Ya., Tipy bolot SSSR i Zapadnoi Evropy i ikh geograficheskoe rasprostranenie (Types of Bogs of the USSR and Western Europe and Their Geographical Distribution), Moscow: Geografgiz, 1948.Google Scholar
  16. Kats, N.Ya., Kats, S.V., and Skobeeva, N.I., Atlas rastitel’nykh ostatkov v torfakh (Atlas of Plant Residues in Peats), Moscow: Nedra, 1977.Google Scholar
  17. Khotinskii, N.A., Golotsen Severnoi Evrazii (Holocene of Northern Eurasia), Moscow: Nauka, 1977.Google Scholar
  18. Kur’ina, I.V., Bobrov, A.A., and Preis, Yu.I., Testate amoebae inhabiting middle taiga bogs in Western Siberia, Biol. Bull. (Moscow), 2010, vol. 37, no. 4, pp. 357–362.CrossRefGoogle Scholar
  19. Lamentowicz, L., Gabka, M., Rusinska, A., Sobczynski, T., Owsianny, P.M., and Lamentowicz, M., Testate amoeba (Arcellinida, Euglyphida) ecology along a poor-rich gradient in fens of Western Poland, Intern. Rev. Hydrobiol., 2011, vol. 96, pp. 356–380.CrossRefGoogle Scholar
  20. Lamentowicz, M., Galka, M., Lamentowicz, L., Obremska, M., Kuehl, N., Luecke, A., and Jassey, V.E.J., Reconstructing climate change and ombrotrophic bog development during the last 4000 years in northern Poland using biotic proxies, stable isotopes and trait-based approach, Palaeogeogr., Palaeoclimat., Palaeoecol., 2015, no. 418, pp. 261–277.CrossRefGoogle Scholar
  21. Landshafty bolot Tomskoi oblasti (Landscapes of Bogs of Tomsk Oblast), Evseeva, N.S., Ed., Tomsk: Izd. NTL, 2012.Google Scholar
  22. Lishtvan, I.I. and Korol’, N.T., Osnovnye svoistva torfa i metody ikh opredeleniya (The Basic Properties of Peat and the Methods of Their Determination), Minsk: Nauka i tekhnika, 1975.Google Scholar
  23. Loisel, J. and Garneau, M., Late Holocene paleoecohydrology and carbon accumulation estimates from two boreal peat bogs in eastern Canada: potential and limits of multi-proxy archives, Palaeogeogr., Palaeoclimat., Palaeoecol., 2010, no. 291, pp. 493–533.CrossRefGoogle Scholar
  24. Mazei, Yu.A. and Tsyganov, A.N., Presnovodnye rakovinnye ameby (Freshwater Testate Amoebae), Moscow: KMK, 2006.Google Scholar
  25. Mazei, Yu.A., Blinokhvatova, Yu.V., and Embulaeva, E.A., Specific features of the microspatial distribution of soil testate amoebae in the forests of the Middle Volga region, Arid. Ecosyst., 2011, vol. 1, no. 1, pp. 46–52.CrossRefGoogle Scholar
  26. Mitchell, E.A.D., van der Knaap, W.O., van Leeuwen, J.F.N., Buttler, A., Warner, B.G., and Gobat, J.-M., The palaeoecological history of the Praz-Rodet bog (Swiss Jura) based on pollen, plant macrofossils and testate amoebae (Protozoa), Holocene, 2001, vol. 11, no. 1, pp. 65–80.CrossRefGoogle Scholar
  27. Mitchell, E.A.D., Payne, R.J., and Lamentowicz, M., Potential implications of differential preservation of testate amoeba shells for paleoenvironmental reconstruction in peatlands, J. Paleolimnol., 2008, vol. 40, pp. 603–618.CrossRefGoogle Scholar
  28. Opravilova, V. and Hajek, M., The variation of testacean assemblages (Rhizopoda) along the complete base-richness gradient in fens: a case study from the Western Carpathians, Acta Protozool., 2006, vol. 45, pp. 191–204.Google Scholar
  29. Payne, R.J., Can testate amoeba-based palaeohydrology be extended to fens?, J. Quat. Sci., 2011, vol. 26, no. 1, pp. 15–27.CrossRefGoogle Scholar
  30. Payne, R.J. and Mitchell, E.A.D., Ecology of testate amoebae from mires in the Central Rhodope Mountains, Greece and development of a transfer function for palaeohydrological reconstruction, Protist, 2007, vol. 158, pp. 159–171.CrossRefPubMedGoogle Scholar
  31. Payne, R.J., Ryan, P.A., Nishri, A., and Gophen, M., Testate amoeba communities of the drained Hula wetland (Israel): implications for ecosystem development and conservation management, Wetlands Ecol. Manage., 2010, vol. 18, pp. 177–189.CrossRefGoogle Scholar
  32. Payne, R.J., Malysheva, E., Tsyganov, A., Pampura, T., Novenko, E., Volkova, E., Babeshko, K., and Mazei, Y., A multi-proxy record of Holocene environmental change, peatland development and carbon accumulation from Staroselsky Moch peatland, Russia, Holocene, 2016, vol. 26, no. 2, pp. 314–326.CrossRefGoogle Scholar
  33. Preis, Yu.I. and Kur’ina, I.V., High-resolution paleoreconstruction according to a comprehensive study of peat deposits of the southern taiga of Western Siberia, in Issledovanie prirodno-klimaticheskikh protsessov na territorii Bol’shogo Vasyuganskogo bolota (The Study of Natural and Climatic Processes in the Bol’shoe Vasyuganskoye Bog), Kabanov, M.V., Ed., Novosibirsk: Izd. SO RAN, 2012, pp. 14–38.Google Scholar
  34. R Core Team. R: A Language and Environment for Statistical Computing, R Foundation for Statistical Computing, Vienna, Austria, 2012.Google Scholar
  35. Schnitchen, C., Charman, D.J., Magyari, E., Braun, M., Grigorszky, I., Tothmeresz, B., Molnar, M., and Szanto, Zs., Reconstructing hydrological variability from testate amoebae analysis in Carpathian peatlands, J. Paleolimnol., 2006, vol. 36, pp. 1–17.CrossRefGoogle Scholar
  36. Swindles, G.T. and Roe, H.M., Examining the dissolution characteristics of testate amoebae (Protozoa: Rhizopoda) in low pH conditions: implications for peatland palaeoclimate studies, Palaeogeogr., Palaeoclimat., Palaeoecol., 2007, no. 252, pp. 486–496.CrossRefGoogle Scholar
  37. Tsyganov, A.N., Babeshko, K.V., Novenko, E.Yu., Malysheva, E.A., Pein, R.D., and Mazei, Yu.A., Quantitative reconstruction of peatland hydrological regime with fossil testate amoebae communities, Russ. J. Ecol., 2017, vol. 48, no. 2, pp. 191–198.CrossRefGoogle Scholar
  38. Tyuremnov, S.N., Largin, I.F., Efimova, S.F., and Skobeeva, E.I., Torfyanye mestorozhdeniya i ikh razvedka (Peat Deposits and Their Exploration), Moscow: Nedra, 1977.Google Scholar
  39. Ufimtseva, K.A., Pochvy yuzhnoi chasti taezhnoi zony Zapadno-Sibirskoi ravniny (Soils of the Southern Part of the Boreal Zone of the West Siberian Plain), Moscow: Kolos, 1974.Google Scholar
  40. Veretennikova, E.E., Kur’ina, I.V., Il’ina, A.A., and Savel’ev, V.V., Reconstruction of hydrothermal conditions of formation of ridge–hollow complexes during the Holocene in the south of Western Siberia, Vestn. Tomsk. Gos. Univ., Biol., 2014, no. 3 (27), pp. 6–22.CrossRefGoogle Scholar
  41. Volkova, V.S., Landscapes and climate of the Holocene, in Geologicheskaya istoriya, landshafty i klimaty pleistotsena Zapadnoi Sibiri (Geological History, Landscapes, and Climates of the Pleistocene of Western Siberia), Novosibirsk: NITs OIGGM SORAN, 1994, pp. 88–93.Google Scholar
  42. Warner, B.G. and Charman, D.J., Holocene changes on a peatland in Northwestern Ontario interpreted from testate amoebae (Protozoa) analysis, Boreas, 1994, vol. 23, pp. 270–279.CrossRefGoogle Scholar

Copyright information

© Pleiades Publishing, Inc. 2018

Authors and Affiliations

  1. 1.Institute of Monitoring of Climatic and Ecological Systems, Siberian BranchRussian Academy of SciencesTomskRussia

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