FEATURES OF THE STRUCTURE AND DYNAMICS OF THE ZOOPLANKTON IN LAKE NERO (YAROSLAVL REGION) DURING CLIMATE WARMING
Abstract and keywords
Abstract (English):
Data on the abundance, biomass, and composition of the dominant complex of zooplankton in the shallow hypertrophic lake Nero (Yaroslavl region) from 2007 to 2017 are present. The spatiotemporal distribution of zooplankton is analyze. The high zooplankton species richness is characteristic of Lake Nero (>100 species in the general list and up to 22–27 species in the sample). 2007 to 2011, a low amount of zooplankton was noted (<37.9 thous. ind./m3 and 0.15 g/m3), with a relatively high proportion of copepods (up to 83%). Since 2012, the abundance of planktonic animals has increased (313 thous. ind./m3 and 1.20 g/m3). In 2007–2017 the composition of dominants remained close to that in previous years; small crustaceans (Bosmina longirostris, Chydorus sphaericus, Mesocyclops leuckarti), rotifers (genera Asplanchna, Brachionus, Keratella, Trichocerca and Anuraeopsis) dominated the zooplankton community. Rotifer-dominated communities (with a high abundance of thermophilic Brachionus diversicornis) formed during abnormally warm summers. Two species groups are determined: the first dominates in spring, early summer, and autumn, and the second in the second half of summer. The high abundance of zooplankton (>5 mil. ind./m3 and 10 g/m3) is in the thickets of macrophytes, which is 8–9 times higher than in the open littoral and pelagic zones. In the western littoral zone, the low abundance of zooplankton (<1 g/m3) may be associated with local pollution, high concentration of chlorophyll a, high phytoplankton biomass, represented by low food cyanobacteria. The center part and the adjacent open littoral zone differed in composition and abundance of dominant species from the southern bays occupied by macrophytes. The trophic status of the lake ecosystem in terms of zooplankton is hypertrophic since the 1980s. The abundance, composition and structure of the community in the long-term aspect are stable with interannual fluctuations common for a high-trophic shallow lake.

Keywords:
hypertrophic lake, zooplankton, composition, indicator species, structure, dynamics, abundance and biomass
Text
Publication text (PDF): Read Download
References

1. Andronikova I.N. Strukturno-funkcional'naya organizaciya zooplanktona ozernyh ekosistem. SPb.: Nauka, 1996. 186 s.

2. Babanazarova O.V., Sidelev S.I., Semenova A.S., Zhdanova S.M., Pligin D.N., Korovkina K.P. Struktura fito- i zooplanktona vysokoevtrofnogo oz. Nero kak faktor vseleniya pantropicheskoy toksichnoy cianobakterii Cylindrospermopsis raciborskii // Morskie biologicheskie issledovaniya dostizheniya i perspektivy. Sb. mat. Vseros. nauchno-prakt. konf. s mezhdunar. uch., priurochennoy k 145-letiyu Sevastopol'skoy biologicheskoy stancii. Sevastopol'. 2016. S. 237-240.

3. Balushkina E.V. Vinberg G.G. Zavisimost' mezhdu dlinoy i massoy tela u planktonnyh rakoobraznyh // Eksperimental'nye i polevye issledovaniya biologicheskih osnov produktivnosti ozer. L.: Zool. in-t AN SSSR, 1979. S 58-79.

4. Bikbulatov E.S., Bikbulatova E.M., Litvinov A.C., Poddubnyy S.A. Gidrologiya i gidrohimiya ozera Nero. Rybinsk: Izd-vo OAO “Rybinskiy dom pechati”, 2003. 192 s.

5. Dovbnya I.V. Vysshaya vodnaya rastitel'nost' oz. Nero // Sovremennoe sostoyanie ekosistemy oz. Nero. Rybinsk. 1991. S. 62-73.

6. Doklad o sostoyanii i ob ohrane okruzhayuschey sredy Yaroslavskoy oblasti v 2014 godu. Yaroslavl', 2015. 358 s. https://www.yarregion.ru/depts/doosp/Pages/Reports.aspx data obrascheniya 11.02.2021

7. Doklad o sostoyanii i ob ohrane okruzhayuschey sredy Yaroslavskoy oblasti v 2015-2016 gg. Yaroslavl', 2017. 250 s. https://www.yarregion.ru/depts/doosp/Pages/Reports.aspx data obrascheniya 11.02.2021

8. Doklad ob osobennostyah klimata na territorii Rossiyskoy Federacii za 2015 god. Moskva, Rosgidromet, 2016. 68 s.

9. Doklad ob osobennostyah klimata na territorii Rossiyskoy Federacii za 2011 god. Moskva, Rosgidromet, 2012. 68 s.

10. Doklad ob osobennostyah klimata na territorii Rossiyskoy Federacii za 2017 god. Moskva, 2018. 69 s.

11. Kitaev S.P. Osnovy limnologii dlya gidrobiologov i ihtiologov. Petrozavodsk: Karel'skiy nauchnyy centr RAN. 2007. 395 s.

12. Kozlovskaya L.S. Istoriya oz. Nero po dannym izucheniya zhivotnyh ostatkov // Tr. Lab. sapropelevyh otlozheniy. 1956. Vyp. 6. S. 173-180.

13. Korde N.V. Istoriya mikroflory i mikrofauny oz. Nero // Tr. Lab. sapropelevyh otlozheniy. 1956. Vyp. 6. S. 181-200.

14. Korneva L.G., Mitropol'skaya I.V., Sidelev S.I., Solov'eva V.V., Saharova E.G., Makarova O.S. Fitoplankton ozera Nero v letniy period 2017 g. // Tr. Inst. biol. vnutr. vod. 2020. Vyp. 91(94). C. 61−74. DOI:https://doi.org/10.47021/0320-3557-2020-61-73

15. Kuz'min G.V. Fitoplankton. Vidovoy sostav i obilie // Metodika izucheniya biogeocenozov vnutrennih vodoemov. M.: Nauka, 1975. S. 73-87.

16. Kutikova L.A. Kolovratki fauny SSSR. L.: Nauka, 1970. 744 s.

17. Lazareva V.I. Struktura i dinamika zooplanktona Rybinskogo vodohranilischa. M.: Tovarischestvo nauchnyh izdaniy KMK, 2010. 181 s.

18. Lazareva V.I. Poteplenie klimata i ego vliyanie na zooplankton vodohranilisch Volgi // Ekologicheskiy monitoring. Chast' 3. Sovremennye problemy monitoringa presnovodnyh ekosistem. Nizhniy Novgorod: Izd-vo Nizhegorodskogo gosuniversiteta, 2014. S. 181−207

19. Lazareva V.I., Smirnova S.M., Frolova A.N. Dominantnye kompleksy rakoobraznyh i kolovratok gipertrofnogo ozera Nero (Yaroslavskaya oblast') // Biologiya vnutrennih vod. 2007. №1. S. 61−72.

20. Lazareva V.I., Smirnova S.M. Rakoobraznye i kolovratki // Sostoyanie ekosistemy ozera Nero v nachale XXI veka Moskva: Nauka, 2008. S. 175−211.

21. Lyashenko O.A., Babanazarova O.V. Fitoplankton // Sostoyanie ekosistemy ozera Nero v nachale XXI veka. Moskva: Nauka, 2008. S. 71-89.

22. Metodicheskie rekomendacii po sboru i obrabotke materialov pri gidrobiologicheskih issledovaniyah na presnovodnyh vodoemah. Zooplankton i ego produkciya. L.: GosNIORH, ZIN AN SSSR, 1984. 34 s.

23. Monakov A.V. Pitanie presnovodnyh bespozvonochnyh. M.: Tip. Rossel'hozakademii, 1998. 318 s.

24. Monakov A. V., Ekzercev V. A. Soobschestva pribrezhnyh i vodnyh rasteniy oz. Nero i ih fauna // Ozera Yaroslavskoy oblasti i perspektivy ih hozyaystvennogo ispol'zovaniya. Yaroslavl': Yarosl. gos. ped. in-t; Yarosl. geogr. o-vo, 1970. S. 304-318.

25. Myaemets A.H. Izmeneniya zooplanktona // Antropogennoe vozdeystvie na malye ozera. L.: Nauka, 1980. S. 54−64

26. Opredelitel' zooplanktona i zoobentosa presnyh vod Evropeyskoy Rossii. Tom 1. Zooplankton. M.: T-vo nauchnyh izdaniy KMK, 2010. 495 s.

27. Pidgayko M.L. Zooplankton vodoemov evropeyskoy chasti SSSR. M.: Nauka, 1984. 206 s.

28. Riv'er I.K, Stolbunova V.N. Zooplankton ozera Nero // Sovremennoe sostoyanie ekosistemy ozera Nero. Rybinsk: Izd-vo IBVV RAN, 1991. S. 74-108.

29. Sigareva L.E. Spektrofotometricheskiy metod opredeleniya pigmentov fitoplanktona v smeshannom ekstrakte // Metodicheskie voprosy izucheniya pervichnoy produkcii planktona vnutrennih vodoemov. SPb.: Gidrometeoizdat, 1993. C. 75-85.

30. Sigareva L.E., Timofeeva N.A., Meteleva N. Yu. Soderzhanie pigmentov v fitoplanktone, epifitone i donnyh otlozheniyah ozera Nero // Tr. Inst. biol. vnutr. vod. 2020. Vyp. 91(94). C. 49-60. DOI:https://doi.org/10.47021/0320-3557-2020-49-60

31. Sidelev S.I., Semenova A.A., Babanazarova O.V., Zhdanova S.M. Zooplankton i toksigennye cianobakterii: soglasuyutsya li polevye dannye s zaschitnoy gipotezoy? // Mezhdunarodnaya nauchnaya shkola-konferenciya “Cianoprokarioty (cianobakterii): sistematika, ekologiya, rasprostranenie”. Apatity 5-9 sentyabrya 2016 g. Tezisy dokladov. Apatity. 2016. S. 117-119.

32. Sostoyanie ekosistemy ozera Nero v nachale XXI veka. Moskva, Nauka, 2008. 406 s.

33. Stolbunova V.N. Zooplankton ozera Plescheevo. Moskva: Nauka, 2006. 152 s.

34. Ekologicheskie problemy verhney Volgi. Yaroslavl': Yarosl. gos. tehn. un-t, 2001. 427 s.

35. Adamczuk M., Pawlik-Skowrońska B., Solis M. 2020. Do anthropogenic hydrological alterations in shallow lakes affect the dynamics of plankton? // Ecological Indicators. Vol. 114. 106312. DOI:https://doi.org/10.1016/j.ecolind.2020.106312.

36. Adrian R., O’Reilly C.M., Zagareze H. et al. Lakes as sentinels of climate change // Limnol. Ocean. 2009. Vol.54. №6 (2). P. 2283-2297. DOI:https://doi.org/10.4319/lo.2009.54.6_part_2.2283

37. Babanazarova O.V., Sidelev S.I., Fastner J. 2015. Northern Expansion of Cylindrospermopsis raciborskii (Nostocales, Cyanoprokaryota) Observed in Shallow Highly Eutrophic Lake Nero (Russia) // International Journal on Algae. 2015. 17(2). P. 131-141. DOI:https://doi.org/10.1615/InterJAlgae.v17.i2.20

38. Babanazarova O.V., Sidelev S.I., Zhdanova S.M. et al. 2018. Water Level in a Shallow Highly Eutrophic Lake: Development Factor by Macrophyte or Phytoplankton Type: Case Study of Lake Nero, Yaroslavl Oblast // Water Resour. Vol. 45. P. 897-907. DOI:https://doi.org/10.1134/S0097807818060027

39. de Senerpont Domis L.N., Elser J.J., Gsell A.S., Huszar V.L.M., Ibelings B.W., Jeppesen E. et al. 2013. Plankton dynamics under different climatic conditions in space and time // Freshwater Biology. Vol. 58. P. 463- 482. DOI:https://doi.org/10.1111/fwb.12053

40. DeMott W.R., Gulati R.D., Van Donk E. 2001 Daphnia food limitation in three hypereutrophic Dutch lakes: evidence for exclusion of large-bodied species by interfering filaments of cyanobacteria // Limnol Oceanogr. Vol. 46. P.2054-2060. DOI:https://doi.org/10.4319/lo.2001.46.8.2054

41. Gyllström M., Hansson L.-A., Jeppesen E., Garcia-Criado F., Gross E., Irvine K., Kairesalo T., Kornijow R., Miracle M.R., Nykänen M., Nõges T., Romo S., Stephen D., Donk E. van, Moss B. 2005. The role of climate in shaping zooplankton communities of shallow lakes // Limnology and Oceanography. Vol. 50. № 6. P. 2008-2021. DOI:https://doi.org/10.4319/lo.2005.50.6.2008

42. Iglesias C., Mazzeo N., Meerhoff M., Lacerot G., Clemente J., Scasso F., Kruk C., Goyenola G., Garcıa J., Amsinck S.L., Paggi J.C., Jose de Paggi, S., Jeppesen E. 2011. High predation is the key factor for dominance of small-bodied zooplankton in warm lakes-evidence from lakes, fish exclosures and surface sediment // Hydrobiologia. Vol. 667. P. 133-147. DOI:https://doi.org/10.1007/s10750-011-0645-0

43. Jeppesen E., Brucet S., Naselli-Flores L., Papastergiadou E., Stefanidis K., Noges T., Noges P., Attayde J.L., Zohary T., Coppens J., Bucak T., Menezes R.F., Freitas F.R.S., Kernan M., Søndergaard M., Beklioglu M. 2015. Ecological impacts of global warming and water abstraction on lakes and reservoirs due to changes in water level and salinity // Hydrobiologia. Vol. 750. P. 201-227. DOI:https://doi.org/10.1007/s10750-014-2169-x

44. Jeppesen E., Moss B., Bennion H., Carvalho L., DeMeester L., Feuchtmayr H., Friberg N., Gessner M.O., Hefting M.,Lauridsen T.L., Liboriussen L., Malmquist H.J., May L., Meerhoff M., Olafsson J.S., Soons M. B., Verhoeven J.T.A. Interaction of Climate Change and Eutrophication // Climate Change Impacts on Freshwater Ecosystems (Eds. Kernan M., Battarbee R. and Moss B.). Blackwell Publishing Ltd. 2010. P. 119-151. DOI:https://doi.org/10.1002/9781444327397.ch6

45. Jeppesen E., Noges P., Davidson T.A, Haberman J., Noges T., Blank K. et al .2011. Zooplankton as indicators in lakes: ascientific-based plea for including zooplankton in theecological quality assessment of lakes according to the European Water Framework Directive (WFD) // Hydrobiologia. Vol. 676. P. 279-297.

46. Jiang X., Xie J., Xu Y., Zhong W., Zhu X., Zhu Ch. 2017. Increasing dominance of small zooplankton with toxic cyanobacteria // Freshwater Biology. Vol. 62. №2. P. 429-443. DOI:https://doi.org/10.1111/fwb.12877

47. Kosten S., Huszar V.L.M., Becares E., Costa L.S., van Donk E., Hansson L.A. et al. 2012. Warmer climates boost cyanobacterial dominance in shallow lakes // Global Change Biology. Vol. 18. № 1. P. 118-126. DOI:https://doi.org/10.1111/j.1365-2486.2011.02488.x

48. Lazareva V.I., Mineeva N.M., Zhdanova S.M. 2014. Spatial Distribution of Plankton from the Upper and Middle Volga Reservoirs in Years with Different Thermal Conditions // Biol. Bull. Russ. Acad. Sci. Vol. 41. № 10. P. 869-878. DOI:https://doi.org/10.1134/S1062359014100070

49. Leira M., Cantonati M. 2008. Effects of water-level fluctuations on lakes: an annotated bibliography // Hydrobiologia. Vol. 613. P. 171-184. DOI:https://doi.org/10.1007/s10750-008-9465-2

50. Meerhoff M., Teixeira-de Mello F., Kruk C., Alonso C., González-Bergonzoni I., Pacheco J.P., Lacerot G., Arim M., Beklioğlu M., Brucet S., Goyenola G., Iglesias C., Mazzeo N., Kosten S., Jeppesen E. 2012. Environmental Warming in Shallow Lakes: A Review of Potential Changes in Community Structure as Evidenced from Space-for-Time Substitution Approaches // Advances in Ecological Research. Vol. 46. P. 259-349. DOI:https://doi.org/10.1016/B978-0-12-396992-7.00004-6.

51. Ruttner-Kolisko A. Suggestions for biomass calculation of plankton rotifers //Arch. Hydrobiol. Beih. Ergebn. Limnol. 1977. №.8. P. 71-76.

52. Scheffer M., Hosper S.H., Meijer M-L., Moss B., Jeppesen E. 1993. Alternative equilibria in shallow lakes // Trends in Ecology and Evolution. Vol. 8. № 8. P. 275-279.

53. Scheffer M., van Nes E.H. 2007. Shallow lakes theory revisited: various alternative regimes driven by climate, nutrients, depth and lake size // Hydrobiologia. Vol. 584. P. 455-466. DOI:https://doi.org/10.1007/s10750-007-0616-7

54. Špoljar M., Dražina T., Lajtner J., Kovačević G., Pestić A., Matijašec D. & Tomljanović T. 2018. Impact of water level fluctuation in the shaping of zooplankton assemblage in a shallow lake // Croatian Journal of Fisheries. Vol. 76. № 1. P. 27-34. DOI:https://doi.org/10.2478/cjf-2018-0003.

55. Vadadi-Fülöp C., Sipkay C., Mészáros G. et al. 2012. Climate change and freshwater zooplankton: what does it boil down to? // Aquat. Ecol. Vol. 46. P. 501-519. DOI:https://doi.org/10.1007/s10452-012-9418-8

56. Wagner C., Adrian R. 2011. Consequences of changes in thermal regime for plankton diversity and trait composition in a polymictic lake: a matter of temporal scale // Freshwater Biology. Vol. 56. P. 1949-1961. DOIhttps://doi.org/10.1111/j.1365-2427.2011.02623.x

57. Zhdanova S.M. 2018. Diaphanosoma mongolianum Ueno, 1938 (Cladocera: Sididae) in Lakes of Yaroslavl Oblast (Russia) // Inland Water Biol. Vol. 11. P. 145-152.https://doi.org/10.1134/S1995082918020207

Login or Create
* Forgot password?