, Russian Federation
, Russian Federation
GRNTI 70.27 Качество воды
OKSO 35.04.07 Водные биоресурсы и аквакультура
BBK 472 Рыбное хозяйство
The role of algae and bacteria in the consumption and mineralization of dissolved organic matter (DOM) in a highly trophic aquatic ecosystem was studied. The phytoplankton and bacterioplankton community consumed 60% of added DOM in August and 56% of DOM in September. Of the uptaken DOM, a significant amount of organic carbon was mineralized. In August 42.7% and in September 29% of organic carbon (of the consumed organic matter) were used for respiration.
plankton, algae, bacteria, protein hydrolyzate, dissolved organic matter, heterotrophic activity, destruction processes, mineralization of organic matter
1. Sadchikov A.P., Makarov A.A. Potreblenie i transformaciya nizkomolekulyarnogo rastvorennogo organicheskogo veschestva fito-i bakterioplanktonom v dvuh vodoemah raznoy trofnosti // Vodnye resursy. – 2000. Tom 27, № 1. – S. 72-75.
2. Sadchikov A.P. Producirovanie i transformaciya organicheskogo veschestva razmernymi gruppami fito-i bakterioplanktona: Avtoref. diss. …dokt. biol. nauk. – M., MGU, 1997. – 53 s.
3. Ostroumov S.A. Gidrobionty v samoochischenii vod i biogennoy migracii elementov. Moskva, MAKS-Press. 2008, 200 s. https://www.researchgate.net/publication/266200066;
4. Ostroumov S.A. O bioticheskom samoochischenii vodnyh ekosistem. Elementy teorii. Doklady Akademii nauk. 2004. T. 396. № 1. – S. 136-141. https://www.researchgate.net/publication/265294672;
5. Ostroumov S.A. Gidrobionty v samoochischenii vod i biogennoy migracii elementov. Moskva, MAKS-Press. 2008, 200 s. https://www.researchgate.net/publication/266200066;
6. Ostroumov S.A. Kachestvo i kondicionirovanie vody v prirodnyh ekosistemah razrabotka teorii biologicheskih mehanizmov samoochischeniya vody // Ekologicheskaya himiya 2017, 26(4); 175–182. https://www.researchgate.net/publication/319955185.
7. Kuz'menko M.I. Miksotrofizm sinezelenyh vodorosley i ego ekologicheskoe znachenie. – Kiev: Naukova Dumka, 1981. – 210 s.
8. Sadchikov A.P., Kanikovskaya A.A. Rol' bakterioplanktona v destrukcii organicheskogo veschestva Mozhayskogo vodohranilischa // Mikrobiol. zhurn. – 1984. – T. 46, vyp. 4. – S. 10-14.
9. Sadchikov A.P., Ostroumov S.A. Formirovanie kachestva vody v presnovodnoy ekosisteme i potreblenie nizkomolekulyarnogo organicheskogo veschestva vodoroslyami i bakteriyami // Rybnoe hozyaystvo. – 2019. – № 2. – S. 65-69.
10. Ostroumov S.A., Sadchikov A.P. Dynamics of the content of nitrogen, phosphorus, and carbon in the detrital particles suspended in water phase of ecosystems: consideration of water quality formation and exometabolism. //Russian Journal of General Chemistry, 2018. Vol. 88 (13), P. 2912-2917. https://www.researchgate.net/publication/331099556 ;
11. Sadchikov A.P., Kozlov O.V. Produkciya nanno- i setnogo fitoplanktona v treh raznyh po trofnosti vodoemah // Gidrobiol. zhurn. – 1993. – T. 29, № 1. – S. 3-9.
12. Sadchikov A.P., Makarov A.A. Prizhiznennoe vydelenie organicheskogo veschestva fitoplanktonom v treh vodoemah raznoy trofnosti (metodicheskie aspekty) // Gidrobiol. zhurn. – 1997. – T. 33, № 2. – S. 104-108.
13. Sadchikov A.P., Ostroumov S.A. Metodicheskie aspekty izucheniya produkcionno-destrukcionnyh processov v vodnyh ekosistemah // Ecological Studies, Hazards, Solutions. 2018 a. Vol.25. – P.139-146.
14. Sadchikov A.P., Ostroumov S.A. Potreblenie nizkomolekulyarnogo organicheskogo veschestva vodoroslyami i bakteriyami (na primere mezotrofnoy ekosistemy) // Ecological Studies, Hazards, Solutions. 2018 b. Vol.25. –P.146-153.
15. Sadchikov A.P., Ostroumov S.A. Sovershenstvovanie metodologii pri izuchenii geterotrofnoy aktivnosti vodorosley i bakteriy // Ecological Studies, Hazards, Solutions. 2018 c. Vol.25. –P.153-160.
16. Sadchikov A.P., Kulikov A.S. Transformaciya prizhiznenno vydelennogo fitoplanktonom organicheskogo veschestva // Gidrobiol. zhurn. – 1990. – T. 26, № 6. – S. 13-16.
17. Enaki G.A. O kolichestvennom sostave organicheskogo veschestva vod dneprovskih vodohranilisch // Gidrobiol. zhurn. – 1972. – T. 8, № 1. S. 38-42.
18. Korableva A.I. Vzaimosvyaz' komponentov ROV i planktona v vodoemah intensivnogo kompleksnogo ispol'zovaniya // Vodnye resursy. – 1989. - № 2. – S. 171-174.
19. Sadchikov A.P., Kanikovskaya A.A. Sezonnye izmeneniya vzaimootnosheniy fito-i bakterioplanktona v tolsche vody mezotrofnogo vodoema. // zhurnal Nauchnye doklady vysshey shkoly. Biologicheskie nauki. Dep. VINITI, № 3360-85 ot 17.05.1985 (62 s.), – s.1-62.
20. Kanikovskaya A.A., Sadchikov A.P. Izuchenie sezonnyh izmeneniy vzaimootnosheniy fito- i bakterioplanktona Mozhayskogo vodohranilischa. 1. Sezonnye izmeneniya chislennosti i biomassy planktona v zavisimosti ot osnovnyh gidrobiologicheskih harakteristik. // V zhurnale Nauchnye doklady vysshey shkoly. Biologicheskie nauki, 1985, № 7. – s.55-62.
21. Ostroumov S.A. On the biotic self-purification of aquatic ecosystems: elements of the theory. // Doklady Biological Sciences, 2004, Vol. 396, Numbers 1-6, p. 206-211. https://www.researchgate.net/publication/200567576; https://www.researchgate.net/publication/259579685 ;
22. Ostroumov S.A. Biocontrol of water quality: Multifunctional role of biota in water self-purification // Russian Journal of General Chemistry, 2010, 80(13): 2754-2761; https://www.researchgate.net/publication/227303635;
23. Ostroumov S.A. Water quality and conditioning in natural ecosystems: biomachinery theory of self-purification of water. // Russian Journal of General Chemistry, 2017, Vol. 87, No. 13, pp. 3199–3204. https://www.researchgate.net/publication/323122008;
24. Ostroumov S.A., Kotelevcev S.V. Analiz koncepcii "uslugi ekosistem", "ustoychivoe razvitie" // Izuchenie biosfery i okruzhayuschey sredy. — 2017. — S. 113–117.
25. Schiaffino M.R., Diovisalvi N., Molina D.M., Fermani P., Puma C.L., Lagomarsino L., Quiroga M.V., and Perez G.L., 2019. Microbial food-web components in two hypertrophic human-impacted Pampean shallow lakes: interactive effects of environmental, hydrological, and temporal drivers. // Hydrobiologia, Vol. 830(1), pp.255-276.
26. Modley L.A.S., Rampedi I.T., Avenant-Oldewage A., and Van Dyk C., 2020. A comparative study on the biotic integrity of the rivers supplying a polluted, hyper-eutrophic freshwater system: A multi-indicator approach. // Ecological Indicators, Vol. 111, p.105940.
