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2022. T. 127. Vyp. 2.
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2022. T. 127. Vyp. 2.

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Fomina Yu.Yu., Syarki M.T., Slastina Yu.L.

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phytoplankton, zooplankton, species diversity, trophy level, water quality assessment, Republic of Karelia

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Fomina Yu.Yu., Syarki M.T., Slastina Yu.L. , Environmental Assessment Lake Munozero (Onego Lake Basin) by Plankton Indicators // Byul. MOIP. Otd. biol. 2022. T. 127. Vyp. 2. S. 37-50

Environmental Assessment Lake Munozero (Onego Lake Basin) by Plankton Indicators

Based on the results of seasonal studies in 2018, an assessment was made of the current ecological state of Lake Munozero. In terms of plankton indicators, the pelagic system is characterized as oligo-mesotrophic. Lake Munozero belongs to the transitional from oligosaprobic to β-mesosaprobic type, which corresponds to an intermediate between II (pure) and III (satisfactory purity) water quality class. To assess the relationship between plankton indicators and environmental factors, a component analysis was performed. A significant relationship was revealed between the biomass of Cyclopoida and Cladocera and BOD5 and total phosphorus, as well as the biomass of Cryptophyta and total phosphorus. The seasonal variability of phyto- and zoopankton was assessed under conditions of various levels of anthropogenic load. The increase in the content of cryptophyte algae in the total biomass in the southern reach of the lake (24% versus 5% in the northwestern reach) is due to the increased content of total phosphorus. High values of the abundance of zooplankton (3.004 g/m3) were noted in the fall of 2018, associated with the thermal regime and trophic conditions.

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Список литературы

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  • Makarova E.M. Strukturno-funktsional’nye osobennosti bakterioplanktona yuzhnogo plesa oz. Munozero (Kareliya) // Vestnik Nizhnevartovskogo gosudarstvennogo universiteta. 2020. № 2. S. 19–25.
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  • Smirnova V.S., Tekanova E.V., Kalinkina N.M., Chernova E.N. Sostoyanie fitoplanktona i tsianotoksiny v pyatne «tsveteniya» v ozere Svyatozero (bassein Onezhskogo ozera, Rossiya) // Voda i ekologiya: problemy i resheniya. 2021. № 1 (85). S. 50–59.
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  • Fomina Yu.Yu., Syarki M.T. Sovremennoe sostoyanie zooplanktona Petrozavodskoi guby Onezhskogo ozera i ego otklik na izmenenie klimata // Trudy Karel’skogo nauchnogo tsentra RAN. Ser. Limnologiya. Okeanologiya. 2018. № 9. C. 54–64.
  • Fomina YU.YU., Syarki M.T. Sovremennoe sostoyanie zooplanktona Petrozavodskoj guby Onezhskogo ozera i ego otklik na izmenenie klimata // Trudy Karel’skogo nauchnogo centra RAN. Ser. Limnologiya. Okeanologiya. 2018. № 9. C. 54–64.
  • Fomina Yu.Yu., Syarki M.T. Sovremennoe sostoyanie zooplanktona ozera Urozero (Respublika Kareliya) // Vodnye bioresursy i sreda obitaniya. 2020. T. 3. № 1. S. 54–61.
  • Chekryzheva T.A. Fitoplankton // Krupneishie ozera-vodokhranilishcha Severo-zapada evropeiskoi territorii Rossii: sovremennoe sostoyanie i izmeneniya ekosistem pri klimaticheskikh i antropogennykh vozdeistviyakh. Petrozavodsk. 2015. S. 271–277.
  • Chekryzheva T.A. Fitoplankton ozer razlichnykh landshaftov yuzhnoi chasti respubliki Kareliya (Vendyurskaya gruppa i Zaonezh’e) // Trudy Karel’skogo nauchnogo tsentra RAN. 2017. № 1. S. 62–74.
  • Chekryzheva T.A., Potakhin M.S. Fitoplankton raznotipnykh ozer basseina reki Shuya (Kareliya) // Trudy Karel’skogo nauch-nogo tsentra RAN. 2015. Vyp. 14. S. 148–156.
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  • Cole J.J., Carpenter S.R., Kitchell J.F., Pace M.L. Pathways of organic carbon utilization in small lakes: Results from a whole-lake 13C addition and coupled model // Limnology and Oceanography. 2002. Vol. 47. Iss. 6. P. 1664–1675.
  • Cole J.J., Carpenter S.R., Pace M.L., Van de Bogert M.C., Kitchell J.L., Hodgson J.R. Differential support of lake food webs by three types of terrestrial organic carbon // Ecology Letters. 2006. Vol. 9, Iss. 5. P. 558–568.
  • Hessen D.O., Jensen T.C., Kyle M., Elser J.J. RNA responses to N- and P-limitation; reciprocal regulation of stoichiometry and growth rate in Brachionus // Functional Ecology. 2007. Vol. 21. N 5. P. 956–962.
  • Knapp C.W., deNoyelles F., Graham D.W., Bergin S. Physical and chemical conditions surrounding the diurnal vertical migration of Cryptomonas spp. (Cryptophyceae) in a seasonally stratified Midwestern reservoir (USA) // Journal of Phycology. 2003. Vol. 39. Iss. 5. P. 855–861.
  • Lei C., Chaolun L., Konglin Z., Yongqiang S., Mengtan L. Effects of nutrient limitations on three species of zooplankton // Acta Oceanologica Sinica. 2018. Vol. 37 Iss.4. P. 58–68.
  • Pace M.L., Cole J.J., Carpenter S.R., Kitchell J.F., Hodgson J.R., Van de Bogert M.C., Bade D.L., Kritzberg E.S., Bastviken D. Whole-lake carbon-13 additions reveal terrestrial support of aquatic food webs // Nature. 2004, Vol. 427. Iss. 6971. P. 240–243.
  • Singh U.B., Ahluwalia A.S., Sharma C., Jindal R., Thakur R.K. Planktonic indicators: A promising tool for monitoring water quality (early-warning signals) // Ecology, Environment and Conservation. 2013. Vol. 19. Iss. 3. P. 793–800.
  • Solomon C.T., Carpenter S.R., Clayton M.K., Cole J.J., Coloso J.J., Pace M.L., Vander Zanden M.J., Weidel B.C. Terrestrial, benthic, and pelagic resource use in lakes: results from a three-isotope bayesian mixing model // Ecology. 2011. Vol. 92. Iss.5. P. 1115–1125.
  • Winder M., Schindler D.E. Сlimate change uncouples trophic interactions in an aquatic ecosystem // Ecology. 2004. Vol. 85. Iss. 8. P. 2100–2106.