Ribogospod. nauka Ukr., 2017; 2(40): 5-28
DOI: https://doi.org/10.15407/fsu2017.02.003 
УДК 592/.595:574.5(28)

Invertebrate macrofaune of the Teremkivsky-3 pond (Nivka river)

A. Liashenko, This email address is being protected from spambots. You need JavaScript enabled to view it. , Institute of Hydrobiology of NAS of Ukraine, Kyiv
K. Zorina-Sakharova, This email address is being protected from spambots. You need JavaScript enabled to view it. , Institute of Hydrobiology of NAS of Ukraine, Kyiv
Iu. Volikov, This email address is being protected from spambots. You need JavaScript enabled to view it. , Institute of Hydrobiology of NAS of Ukraine, Kyiv
V. Makovskyi, This email address is being protected from spambots. You need JavaScript enabled to view it. , Institute of Hydrobiology of NAS of Ukraine, Kyiv
Iu. Sytnyk, This email address is being protected from spambots. You need JavaScript enabled to view it. , Institute of Hydrobiology of NAS of Ukraine, Kyiv
N. Kolesnyk, This email address is being protected from spambots. You need JavaScript enabled to view it. , Institute of Fisheries NAAS, Kyiv

Purpose. The study the biodiversity and structural organization of invertebrate macrofauna of the Teremkivsky-3 pond of the river Nyvka, seasonal dynamics and of parameters and determination of pond ecological state and water pollution level based on the calculation of biotic indices.

Methodology. The study of invertebrate macrofauna of the Teremkivsky-3 pond was performed during the vegetation season of 2005 (April, July, September). The study was carried out using standard hydroecological techniques with the use of main provisions of the Water Framework Directive of the European Community. In total, 34 quantitative and qualitative samples were collected, which were used for the determination of the structural characteristics of the macrofauna of phytophylous and periphyton invertebrates and following indices were calculated: Shannon diversity index, Woodiwiss index, the degree of the development of macrofauna communities and water saprobity based on indicator species .

Findings. The pond Teremkivsky-3 is characterized by relatively high development of submerged aquatic vegetation, especially in summer and autumn, mainly in the coastal zone, a large sandy beach in the central part of the reservoir and a relatively shallow depth (in our studies up to 3 m). A moderate overgrowth of submerged aquatic vegetation stimulates the processes of self-purification of the lake, provides additional shelter for many species of aquatic invertebrates and thus contributes to their development. The worst structural characteristics were recorded for bottom macrofauna of the central part of the lake, where black silty soils with admixtures of detritus and residues were located. Species diversity indices of all three studied biotic communities (zoobenthos, zooperiphyton zoophythos) were similar, quantitative parameters were characterized by relatively high biomass, mainly due to the development of gastropods. Based on the saprobity, water in the lake was characterized as β–α-mezosaprobic. Based on TBI calculated based on the total macrofauna, lake water belonged to the category of "slightly contaminated" in the spring to "clean" and "clean enough" in the summer and fall, respectively.

Originality. The studies of the structural organization of benthic, periphyton and phytophylous complexes of the Teremkivsky-3 pond based on quantitative parameters have been conducted and the ecological state of both individual groups of aquatic organisms and total macrofauna of the water body has been determined. The use of similarity indices allowed assessing the degree of species similarity of these macroinvertebrate groups and the originality assessment of each community type has been performed.

Practical value. Determining the environmental state of one of the ponds of the city of Kyiv will allow scientists to compare and track the status of other local water bodies in the dynamics of urban waters.

Keywords: Teremkivsky-3 pond, Nyvka river, invertebrate macrofauna, Shannon diversity, Woodiviss index, saprobity water.

REFERENCES

1. EU Water Framework Directive 2000/60/EC. Definitions of Main Terms. (2006). Kyiv.
2. Unifitsirovannye metody issledovaniya kachestva vod: Metody biol. analiza vod. Ch. 3. (1976). Moskva: SEV.
3. Konstantinov, A. S. (1986). Obshchaya gidrobiologiya. Moskva: Vyssh. shkola.
4. Romanenko, V. D. (2001). Osnovy hidroekolohii: Pidruchnyk. Kyiv: Oberehy.
5. Zimbalevskaya, L. N. (1981). Fitofil'nye bespozvonochnye ravninnykh rek i vodokhranilishch: ekologicheskiy ocherk. Kiev: Nauk. dumka.
6. Protasov, A. A. (1994). Presnovodnyy perifiton. Kiev: Nauk. dumka.
7. Metodicheskie rekomendatsii po sboru i obrabotke materialov pri gidrobiologicheskikh issledovaniyakh na presnovodnykh vodoemakh: Zoobentos i ego produktsiya. Vinberg, G. G., & Lavrent'eva G. N. (Eds.) (1984). Leningrad: GosNIORKh.
8. Zhadin, V. I. (1956). Metodika izucheniya donnoy fauny vodoemov i ekologii donnykh bespozvonochnykh. Zhizn' presnykh vod SSSR, T. 4, ch. 1. Moskva; Leningrad: AN SSSR, 279-382.
9. Sladečkova, A. (1962). Limnological investigation methods for the periphyton (Aufwuchs) communities. Bot. Review, 28, 2, 286-350. https://doi.org/10.1007/BF02860817 
10. Chekanovskaya, O. V. (1962). Vodnye maloshchetinkovye chervi fauny SSSR. Moskva; Liningrad: Nauka.
11. Pankratova, V. Ya. (1970). Lichinki i kukolki komarov podsemeystva Chironomidae fauny SSSR. (Diptera, Chironomidae=Tendopedidae). Leningrad: Nauka.
12. Pankratova, V. Ya. (1983). Lichinki i kukolki komarov podsemeystva Orthocladiinae fauny SSSR. (Diptera, Chironomidae=Tendopedidae). Leningrad: Nauka.
13. Opredelitel' presnovodnykh bespozvonochnykh Evropeyskoy chasti SSSR. (1977). Leningrad: Gidrometeoizdat.
14. Opredelitel' presnovodnykh bespozvonochnykh Rossii i sopredel'nykh territoriy. (1994). T. 1. Nizshie bespozvonochnye. Sankt-Peterburg.
15. Opredelitel' presnovodnykh bespozvonochnykh Rossii i sopredel'nykh territoriy. (1995). T. 2. Sankt-Peterburg.
16. Opredelitel' presnovodnykh bespozvonochnykh Rossii i sopredel'nykh territoriy. (1999). T. 4. Vysshie nasekomye. Dvukrylye.
17. Sheliah-Sosonko, Iu. R., & Yemelianov, I. H. (1997). Kontseptsiia bioriznomanittia v aspekti funktsionuvannia ta okhorony biosystem i landshaftiv. Bioriznomanittia Karpatskoho biosfernoho zapovidnyka. Kyiv: INTEREKOTsENTR, 478-495.
18. Woodiwiss, F. S. (1964). The biological system of stream classification used by Trent River Board. Chemistry and Industry, 11, 443-447.
19. Metcalfe, J. L. (1989). Biological water quality assessment of running waters based on macroinvertebrate communities: history and present status in Europe. Environmental pollution, 60, 101-139. https://doi.org/10.1016/0269-7491(89)90223-6 
20. Afanas'ev, S. A., & Grodzinskiy, M. D. (2004). Metodika otsenki ekologicheskikh riskov, voznikayushchikh pri vozdeystvii istochnikov zagryazneniya na vodnye ob'ekty. Kiev: AyBi.
21. Oksiyuk, O. P., Zimbalevskaya, L. N., Protasov, A. A., Pligin, Yu. V., & Lyashenko, A. V. (1994). Otsenka sostoyaniya vodnykh ob'ektov Ukrainy po gidrobiologicheskim pokazatelyam: bentos, perifiton i zoofitos. Gidrobiol. zhurn., 30, 4, 31-35.
22. Romanenko, V. D., Zhukynskyi, V. M., & Oksiiuk, O. P., et al. (1998). Metodyka ekolohichnoi otsinky yakosti poverkhnevykh vod za vidpovidnymy katehoriiamy. Kyiv.
23. Sladecek, V. (1973). System of water quality from the biological point of view. Ergebnisse der Limnologie, 7, 1-128.
24. Golubeva, G. V. (1988). Indikatsionnoe znachenie otdel'nykh form khironomid. Ekologiya gidrobiontov vodoemov zapadnogo Urala. Perm': Perm. un-t, 43-51.
25. Makrushin, A. V. (1974). Bibliograficheskiy ukazatel' po teme «Biologicheskiy analiz kachestva vod» s prilozheniem spiska organizmov-indikatorov zagryazneniya. Leningrad: Zoologicheskiy institut AN SSSR.
26. Toderash, I. K. (1984). Funktsional'noe znachenie khironomid v ekosistemakh vodoemov Moldavii. Kishinev: Shtiintsa.
27. Unifitsirovannye metody issledovaniya kachestva vod. (1977). Ch. 3: Metody biologicheskogo analiza vod. Prilozhenie 1: Indikatory saprobnosti. Moskva: SEV.
28. Pesenko, Yu. A. (1982). Printsipy i metody kolichestvennogo analiza v faunisticheskikh issledovaniyakh. Moskva: Nauka.
29. Faktornyy, diskriminantnyy i klasternyy analiz. (1989). Moskva: Finansy i statistika.
30. Alimov, A. F., & Finogenova, N. P. (1984). Metody rascheta produktsii. Metodicheskie rekomendatsii po sboru i obrabotke materialov pri gidrobiologicheskikh issledovaniyakh na presnykh vodoemakh. Zoobentos i ego produktsiya, 9-25.
31. Kharchenko, T. A., Liashenko, A. V., & Zoryna-Sakharova, K. Ie. (2006). Otsinka oryhinalnosti skladu tsenoziv estuariiv Ukrainy za pokaznykamy bioriznomanitnosti makrozoobentosu. Pryrodnychyi almanakh, 8. 273-282.