Supplementary Files
Keywords
biodiversity
dominant species
taxonomic structure
trophic status
water quality
West Siberia
How to Cite
Abstract
The characteristic of the phytoplankton of the Ket River (Tomsk region) is given based on the results of studies in July 2019 and 2021. The species composition and taxonomic structure of phytoplankton were established; a complex of dominant species was identified, and the abundance, biomass and biodiversity indices of phytoplanktocenosis were calculated. Green algae (Chlorophyta) and significant number of euglenids (Euglenophyta) form the basis of phytoplankton species richness. The dominant complex is formed by centric diatoms and cyanoprokaryotes. Biodiversity indices indicate high species richness, average complexity and balanced structure of phytoplanktocenosis. Trophic status of the river corresponds to eutrophic category of waters, the water quality corresponds to class 3 "satisfactory purity".
References
Abakumov VA (1977) Control of water quality by hydrobiological indicators in the system of hydrometeorological service of the USSR. Scientific bases of surface water quality control by hydrobiological indicators. Proceedings of the Soviet-English Seminar. Gidrometeoizdat, Leningrad, 93–100. [In Russian]
Abakumov VA (1991) Ecological modifications and development of biocenoses. Ecological modifications and criteria for ecological regulation. Proceedings of the international symposium. Gidrometeoizdat, Leningrad, 18–40. [In Russian]
Barinova SS, Medvedeva LA, Anisimova OV (2006) Biodiversity of environmental indicator algae. Pilies Studio, Tel Aviv, 498 pр. [In Russian]
Barinova SS, Bilous OP, Tsarenko PM (2019) Algal indication of water bodies in Ukraine: methods and perspectives. University of Haifa Publisher, Haifa-Kiev, 367 pр. [In Russian]
Barsukova N, Bazhenova O (2012) Phytoplankton and the ecological state of the tributaries of the middle Irtysh. LAP LAMBERT Academic Publishing, GmbH & Co. KG, 151 рp. [In Russian]
Barsukova NN, Bazhenova OP, Kolesnichenkо LG (2021) Phytoplankton as an indicator of the current ecological status of the Ob River. Acta Biologica Sibirica 7: 573–591. https://doi.org/10.3897/abs.7.e79236
Barsukova NN, Bazhenova OP, Kolesnichenkо LG (2022) Phytoplankton and water quality of some tributaries of the Ob River. Voprosy sovremennoi algologii (Issues of modern algology) 1 (28): 35–41. https://doi.org/10.33624/2311-0147-2022-1(28)-35-41 [In Russian]
Bazhenova OP (2005) Phytoplankton of the Upper and Middle Irtysh under conditions of regulated flow. Publishing House of FGOU VPO OmGAU, Omsk, 248 рp. [In Russian]
Bazhenova OP, Barsukova NN (2021) New and rare species of algae in the plankton of the Ob River. Problems of Botany of South Siberia and Mongolia 20 (1): 41–44. https://doi.org/10.14258/pbssm.2021008 [In Russian]
Bazhenova OP, Barsukova NN (2022) The First Information about the Phytoplankton and Ecological State of the Vasyugan River (Tomsk Oblast). Contemporary Problems of Ecology 15 (6): 683–689. https://doi.org/10.1134/S199542552206004X
Bazhenova OP, Gulchenko YaI (2017) Long-Term Succession of the Phytoplankton of the Irtysh River Middle Flow (Omsk, Russia). International Journal on Algae 19 (1): 85–98. https://doi.org/10.1615/INTERJALGAE.V19.I1.80
Bazhenova OP, Mikhailov VV (2021) Phytoplankton As an Indicator of the Modern Eco- logical State of the Novosibirsk Reservoir. Inland Water Biology 14 (6): 670–678. https://doi.org/10.1134/S1995082921050023
Bazhenova OP, Barsukova NN, Igoshkina IYu, Konovalova OA, Korzhova LV, Krents OO (2019) Phytoplankton of the Omsk Priirtyshiye. Bazhenova OP (Ed.) Publishing House of FGBOU VO OmSAU, Omsk, 320 рp. [In Russian]
Bulatov VI (2009) Radioecological monitoring of the Ob-Irtysh basin. Water problems of large river basins and ways to solve them. Advertising Technologies Agency LLC, Barnaul, 419–432. [In Russian]
Directive of the European Parliament and of the Council 2000/60EC (2000) Establishing a Framework for Community Action in the Field of Water Policy. European Commission PE-CONS 3639/1/100. Rev. 1. Luxembourg: EC Parliament and Council.
Domanitsky AP, Dubrovina RG, Isaeva AI (1971) Rivers and lakes of the Soviet Union. Gidrometeoizdat, Leningrad, 104 рp. [In Russian]
Evseeva NS (2001) Geography of the Tomsk region (Natural conditions and resources). Publishing House of Tomsk University, Tomsk, 223 рp. [In Russian]
Fedorov VD (1979) About methods of studying phytoplankton and its activity. Publishing House of Moscow University, Moscow, 168 рp. [In Russian]
Golubykh OS (1996) Phytoplankton of the Tom River. In: Tasks and problems of the development of fisheries in inland waters of Siberia. Publishing House of Tomsk University, Tomsk, 13–14. [in Russian]
Golubykh OS (2007) Dynamics of phytoplankton populations in the middle Ob and Tom rivers in 2005. In: Romanov VI (Ed.) Biological aspects of the rational use and protection of Siberian water bodies: Proceeding of the All-Russian conference. Lito-Print, Tomsk, 49–52. [In Russian]
Guiry MD, Guiry GM (2022) AlgaeBase. World-wide electronic publication, National University of Ireland, Galway. http://www.algaebase.org
Guseva TV, Molchanova YaP, Zaika EA, Vinichenko VN, Averochkin EM (2000) Hydrochemical indicators of the state of the environment: reference materials. Publishing House of the Social and Ecological Union, Moscow, 148 рp. [In Russian]
Ioganzen BG, Popov MA, Yakubova AI (1951) Reservoirs in the environs of Tomsk. Proceedings of Tomsk State University 115: 121–190. [In Russian]
Koltsova TI (1970) Determination of the volume and surface of phytoplankton. Scientific reports of higher school. Biology Series. 6: 114–120. [In Russian]
Korneva LG (2015) Phytoplankton of reservoirs of the Volga basin. Kostroma Printing House, Kostroma, 284 рp. [In Russian]
Kozhevnikova NA (2001) Species structure of the phytoplankton of the Krasnoyarsk reservoir (1977–2000). Modern problems of Siberian hydrobiology: Рroceedings All-Russian conference. Tomsk, 48–50. [In Russian]
Krachmalnyi AF (2011) Dinophyte algae of Ukraine. Alterpress, Kyiv, 444 рp. [In Russian]
Mitrofanova EYu (2007) Use of phytoplankton characteristics to assess the ecological state of the Tom River (Russia) during floods. Algology 17 (4): 476–484.
Mitrofanova EYu (2008) Influence of cities and settlements on the indicators of phytoplankton abundance in the Ob and Tom rivers. Mir nauki, kul'tury, obrazovaniya 2 (9): 11–14. [In Russian]
Naumenko YuV (1992) On the golden algae of the middle course of the river Ob. Siberian biological journal 5: 76–81. [In Russian]
Naumenko YuV (1993) New data on the species composition of algae of the river Tom. Siberian ecological journal 5: 67–72. [In Russian]
Naumenko YuV (1995) Phytoplankton algae of the Ob River. Preprint, Novosibirsk, 55 pp. [In Russian]
Naumenko YuV (1996) Phytoplankton of the Ob River: Abstract of the dissertation for the degree of Doctor of Biological Sciences. Novosibirsk, 33 pp. [In Russian]
Novikova AB (1991) Phytoplankton of the middle reaches of the Tom River. In: Problems of social progress in Siberia. KSU Press, Krasnoyarsk, 34–35. [In Russian]
Odum E (1986) Ecology. Mir Press, Moscow, 328 pp. [In Russian]
Oksiyuk OP, Zhukinskij VN, Braginskij LP, Linnik PN, Kuz'menko MI, Klenus VG (1993) Complex ecological classification of the quality of land surface waters. Hydrobiological journal 29 (4): 62–76. [In Russian]
PAST 4 – the Past of the Future https://www.nhm.uio.no/english/research/resources/past/
Puzanov AV, Bezmaternykh DM, Vinokurov YuI, Zinoviev AT, Kirillov VV, Kotovshchikov AV, Krasnoyarova BA, Rybkina ID, Dyachenko AV (2017) The current state of water resources and water management complex of the Ob-Irtysh basin. Water and environmental problems of Siberia and Central Asia. Рroceedings of III All-Russian scientific conference with the international participation. In 4 volumes. Volume 1. ARTIKA, 3–16. [In Russian]
Resources of surface waters of the USSR: Hydrological knowledge (1967) Volume 15. Altai and Western Siberia. Issue 2. Middle Ob. Gidrometeoizdat, Leningrad, 351 pp. [In Russian]
Rosenberg GS (2007) A few words about the Simpson diversity index. Samarskaya Luka 16 (3): 581–584. [In Russian]
Sadchikov AP, Makarov AA (2000) Consumption and Transformation of Low-Molecular Dissolved Organic Matter by Phyto- and Bacterioplankton in Two Water Bodies of Different Trophic Status. Water Resources 27 (1): 64–67. [In Russian]
Safonova TA (1972) On the distribution of the genus Trachelomonas Ehr. (Euglenic algae) in the water bodies of the Ob floodplain. Proceedings of Biological Institute of Siberian Branch of the USSR Academy of Sciences 19: 352–361. [In Russian]
Safonova TA (1987) Euglenic algae of Western Siberia. Nauka Publishing House, Novosibirsk, 191 pp. [In Russian]
Schitikov VK, Zinchenko TD, Rosenberg GS (2011) Macroecology of river communities: concepts, methods, models. Cassandra, Tolyatti, 255 pp. [In Russian]
Schmidt VM (1980) Statistical methods in comparative floristry. Publishing House of Leningrad State University, Leningrad, 176 pp. [In Russian]
Voloshko LN (2017) Golden algae of reservoirs of the North of Russia. Renome Publishing House, St. Petersburg, 380 pp. [In Russian]
Yakubova AI (1951) Seasonal changes in phytoplankton and biological productivity of water bodies in the environs of Tomsk. Proceedings of Tomsk State University 115: 191–218. [In Russian]
Acta Biologica Sibirica is a golden publisher, as we allow self-archiving, but most importantly we are fully transparent about your rights.
Authors may present and discuss their findings ahead of publication: at biological or scientific conferences, on preprint servers, in public databases, and in blogs, wikis, tweets, and other informal communication channels.
ABS allows authors to deposit manuscripts (currently under review or those for intended submission to ABS) in non-commercial, pre-print servers such as ArXiv.
Authors who publish with this journal agree to the following terms:
- Authors retain copyright and grant the journal right of first publication with the work simultaneously licensed under a Creative Commons Attribution License (CC BY 4.0) that allows others to share the work with an acknowledgement of the work's authorship and initial publication in this journal.
- Authors are able to enter into separate, additional contractual arrangements for the non-exclusive distribution of the journal's published version of the work (e.g., post it to an institutional repository or publish it in a book), with an acknowledgement of its initial publication in this journal.
- Authors are permitted and encouraged to post their work online (e.g., in institutional repositories or on their website) prior to and during the submission process, as it can lead to productive exchanges, as well as earlier and greater citation of published work (See The Effect of Open Access).