Phytoplankton Community of the Pelagic and the Macrophyte-Rich Littoral Zone in Some Bulgarian Inland Waters

1. Asaeda T., Trung V. K., Manatunge J. and Van Bon T., 2001 – Modelling macrophyte-nutrientphytoplankton interactions in shallow eutrophic lakes and the evaluation of environmental impacts, Ecology Engineering, 16, 3, 341-357.10.1016/S0925-8574(00)00120-8 Search in Google Scholar

2. Bakker E., Van Donk E., Declerck S., Helmsing N., Hidding B. and Nolet B., 2010 – Effect of macrophyte community composition and nutrient enrichment on plant biomass and algal blooms, Basic and Applied Ecology, 11, 5, 432-439.10.1016/j.baae.2010.06.005 Search in Google Scholar

3. Barinova S., Krupa E. and Kadyrova U., 2017 ‒ Spatial dynamics of species richness of phytoplankton of lake Balkhash in the gradient of abiotic factors, Transylvanian Review of Systematical and Ecological Research, 19.2, 1-18.10.1515/trser-2017-0009 Search in Google Scholar

4. Bilous O., Barinova S. and Klochenko P., 2013 ‒ Climatic influence on the phytoplankton communities of the upper reaches of the Southern Bug River (Ukraine), Transylvanian Review of Systematical and Ecological Research, 15.2, 61-86.10.2478/trser-2013-0020 Search in Google Scholar

5. Clarke R. and Gorley R., 2006 – PRIMER v6: User Manual/Tutorial. PRIMER ‒ E, Plymouth, UK: Plymouth Marine Laboratory, 190. Search in Google Scholar

6 Cunha D., Bottino F. and do Carmo Calijuri. M., 2012 – Can free-floating and emerged macrophytes influence the density and diversity of phytoplankton in subtropical reservoirs? Lake and Reservoir Management, 28, 4, 255-264.10.1080/07438141.2012.724520 Search in Google Scholar

7. Declerck S., Vanderstukken M., Pals A., Muylaert K. and De Meester L., 2007 – Plankton biodiversity along a gradient of productivity and its mediation by macrophytes, Ecology, 88, 9, 2199-2210.10.1890/07-0048.117918398 Search in Google Scholar

8. Erhard D. and Gross E., 2006 – Allelopathic activity of Elodea canadensis and Elodea nuttallii against epiphytes and phytoplankton, Aquatic Botany, 85, 3, 203-211.10.1016/j.aquabot.2006.04.002 Search in Google Scholar

9. Ferreira T., Crossetti L., Motta Marques D., Cardoso L., Fragoso C. and van Nes E., 2018 – The structuring role of submerged macrophytes in a large subtropical shallow lake: Clear effects on water chemistry and phytoplankton structure community along a vegetated-pelagic gradient, Limnologica, 69, 142-154.10.1016/j.limno.2017.12.003 Search in Google Scholar

10. Fonseca B. and Bicudo C., 2010 – How important can the presence/absence of macrophytes be in determining phytoplankton strategies in two tropical shallow reservoirs with different trophic status? Journal of Plankton Research, 32, 1, 31-46.10.1093/plankt/fbp107 Search in Google Scholar

11. Forsberg C., Kleiven S. and Willén T., 1990 – Absence of allelopathic effects of Chara on phytoplankton in situ, Aquatic Botany, 38, 2-3, 289-294.10.1016/0304-3770(90)90012-A Search in Google Scholar

12. Gasith A. and Hoyer M., 1998 – Structuring role of macrophytes in lakes: changing influence along lake size and depth gradients, in: The structuring role of submerged macrophytes in lakes, Jeppesen E., Søndergaard M., Søndergaard M. and Christoffersen K., (eds), Ecological Studies, New York: Springer, 131, 381-392.10.1007/978-1-4612-0695-8_29 Search in Google Scholar

13. Gross E., Hilt S. (nee Körner), Lombardo P. and Mulderij G., 2007 – Searching for allelopathic effects of submerged macrophytes on phytoplankton ‒ state of the art and open questions, Hydrobiologia, 584, 1, 77-88.10.1007/s10750-007-0591-z Search in Google Scholar

14. Hillebrand H., Dürselen C. D., Kirschtel D., Pollingher U. and Zohary T., 1999 – Biovolume calculation for pelagic and benthic microalgae, Journal of Phycology, 35, 2, 403-424.10.1046/j.1529-8817.1999.3520403.x Search in Google Scholar

15. Hilt S., Henschke I., Rücker J. and Nixdorf B., 2010 – Can submerged macrophytes influence turbidity and trophic state in deep lakes? Suggestions from a case study, Journal of Environment Quality, 39, 2, 725.10.2134/jeq2009.012220176845 Search in Google Scholar

16. Jeppesen E., Søndergaard M., Søndergaard M. and Christoffersen K., 1998 – The Structuring Role of Submerged Macrophytes in Lakes, New York, Springer, 1-281.10.1007/978-1-4612-0695-8 Search in Google Scholar

17. Kalchev R., Berczik Á., Beshkova M., Dinka M., Kalcheva H., Kiss A. and Ágoston-Szabo E., 2016 ‒ Trophic status and phytoplankton limitation conditions in a few Bulgarian and Hungarian Danube River wetlands, Transylvanian Review of Systematical and Ecological Research 18.2, 19-28.10.1515/trser-2015-0084 Search in Google Scholar

18. Kohler A. 1978 – Methoden der Kartierung von Flora und Vegetation von Süßwasserbiotopen, Landschaft und Stadt, 10, 2, 73-85. (in German) Search in Google Scholar

19. Klochenko P., Shevchenko T. and Kharchenko G., 2015 – Structural and functional organization of phytoplankton in the thickets and in the sections free of vegetation in the lakes of Kiev, Hydrobiological Journal, 51, 3, 45-60.10.1615/HydrobJ.v51.i3.30 Search in Google Scholar

20. Krupa E., Barinova S., Ponamareva L. and Tsoy V., 2018 ‒ Statistical mapping and 3-D surface plots in phytoplankton analysis of the Balkhash Lake (Kazakhstan), Transylvanian Review of Systematical and Ecological Research, 20.1, 1-16.10.1515/trser-2018-0001 Search in Google Scholar

21. Lopes M., Marques R., Bicudo C. and Ferragut C., 2005 – Short term spatial and temporal variation of phytoplankton in a shallow tropical oligotrophic reservoir, southeast Brazil, Hydrobiologia, 542, 1, 235-247.10.1007/s10750-004-8332-z Search in Google Scholar

22. MoEW, 2020 – Ordinance No. Н-4 of 14.09.2012 for characterization of surface waters. Issued by the Minister of Environment and Water, promulgated, SG, no. 22 of 05.03.2013, in force from March 5, 2013, amended and add., no. 79 of 23.09.2014, in force since 23.09.2014, amended and ext. DV, 85, October 2, 2020. Sofia. Search in Google Scholar

23. Mukhortova О., Bykova S., Tarasova N., Unkovskaya E. and Bolotov S., 2015 – Plankton community in the pelagic and littoral zones of the overgrown lake Beloe (Volzhsko-Kamskiy Biosphere Natural State Reserve, Republic of Tatarstan, Russian Federation), Journal of Siberian Federal University Biology, 1, 8, 66-84.10.17516/1997-1389-2015-8-1-66-84 Search in Google Scholar

24. Mulderij G., Van Donk E. and Roelofs J. G. M., 2003 – Differential sensitivity of green algae to allelopathic substances from Chara, Hydrobiologia, 491, 1-3, 261-271.10.1023/A:1024483704903 Search in Google Scholar

25. Mulderij G., Van Nes E. and Van Donk E., 2007 – Macrophyte–phytoplankton interactions: The importance of allelopathy versus other factors, Ecological Modelling, 204, 1-2, 85-92.10.1016/j.ecolmodel.2006.12.020 Search in Google Scholar

26. Muntean H., 2013 ‒ Relations between river chemistry and its phytoplankton. Case study ‒ Timiş River, Transylvanian Review of Systematical and Ecological Research, 15, 43-50.10.2478/trser-2013-0032 Search in Google Scholar

27. Muntean H. and Alexoaie L., 2013 ‒ Flood effects on the phytoplankton diversity of Bega River (Romania), Transylvanian Review of Systematical and Ecological Research, 15, 207-214.10.2478/trser-2013-0042 Search in Google Scholar

28. Novoselova T., Barinova S. and Protasov A., 2021 ‒ Long-term dynamics of trophic state indicators in phytoplankton of the cooling reservoir of a nuclear plant, Transylvanian Review of Systematical and Ecological Research, 23.1, 1-14.10.2478/trser-2021-0001 Search in Google Scholar

29. Pełechata A., Pukacz A., Kaczmarek L. and Pełechaty M., 2020 – Do charophytes influence biomass and species composition of phytoflagellates?, Aquatic Botany, 103240.10.1016/j.aquabot.2020.103240 Search in Google Scholar

30. Rott E., 1981 – Some results from phytoplankton counting intercalibrations, Schweizerische Zeitschrift für Hydrologie, 43, 1, 34-62.10.1007/BF02502471 Search in Google Scholar

31. Sakharova E. and Korneva L., 2018 – Phytoplankton in the littoral and pelagial zones of the Rybinsk reservoir in years with different temperature and water-level regimes, Inland Water Biology, 11, 1, 6-12.10.1134/S1995082918010157 Search in Google Scholar

32. Scheffer M., 1998 – Ecology of Shallow Lakes, Chapman & Hall, London, Kluwer, 358. Search in Google Scholar

33. Scheffer M., Hosper H., Meijer M. L., Moss B. and Jeppesen E., 1993 – Alternative equilibria in shallow lakes, Trends in Ecology & Evolution, 8, 8, 275-279.10.1016/0169-5347(93)90254-M21236168 Search in Google Scholar

34. Schneider-Binder E., 2018 ‒ Aquatic macrophyte communities of the Gorgova-Isac-Uzlina area (Danube Delta, Romania), Transylvanian Review of Systematical and Ecological Research, 20.3, 39-57.10.2478/trser-2018-0018 Search in Google Scholar

35. Sender J., 2012 ‒ Possibilities of macrophyte indicators, application for assessment of ecological status of lakes, Transylvanian Review of Systematical and Ecological Research, 14, 115-128. Search in Google Scholar

36. Sender J. and Maslanko W., 2013 ‒ Long- and short-term changes of the structure of macrophytes in lake Piaseczno in relation to land use in the Łęczna-Włodawa Lakeland (Poland), Transylvanian Review of Systematical and Ecological Research, 15.2, 101-110.10.2478/trser-2013-0022 Search in Google Scholar

37. Shannon C. and Weaver W., 1964 – The mathematical theory of communication, University of Illinois Press, Urbana, U.SA., 125. Search in Google Scholar

38. Søndergaard M. and Moss B., 1998 – Impact of submerged macrophytes on phytoplankton in shallow freshwater lakes, in The structuring role of submerged macrophytes in lakes, Jeppesen E., Søndergaard M., Søndergaard M. and Christoffersen K., (eds), Ecological Studies, New York, Springer, 131, 115-132.10.1007/978-1-4612-0695-8_6 Search in Google Scholar

39. Takamura N., Kadono Y., Fukushima M., Nakagawa M. and Baik-H. Kim O., 2003 – Effects of aquatic macrophytes on water quality and phytoplankton communities in shallow lakes, Ecological Research, 18, 381-395.10.1046/j.1440-1703.2003.00563.x Search in Google Scholar

40. They N. H. and da Motta Marques D., 2019 – The structuring role of macrophytes on plankton community composition and bacterial metabolism in a large subtropical shallow lake, Acta Limnologica Brasiliensia, 31, e19.10.1590/s2179-975x10017 Search in Google Scholar