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Methods of hydrobiological studies of inland waters
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Citations:
Methods of hydrobiological studies of inland waters
Krylov Aleksandr 1
Baryshev Igor' Aleksandrovich 2
Bezmaternyh Dmitriy Mihaylovich 3
Berezina Nadezhda Aleksandrovna
Voronin L.
Gerasimova A. A.
Dudakov M. O.
Komulaynen S.
Kopytina N.
Korneva L. G.
Kosolapov D. 11
Krylova Yu. V.
Kurashov E. A.
Kurbatova S. A.
Lazareva V. I.
Mavrin Alexander Sergeevich 16
Meteleva N. Yu.
Mineeva N. M.
Muhin I. A.
Perova S. N.
Prokin A. A.
Pryanichnikova Ekaterina 22
Sazhnev A. 23
Semenova A. S.
Sigareva L. E.
Timofeeva N. A.
Tikhonenkov D.
Chugunov V. K.
Sharapova T. A.
Authors:
1.  Papanin Institute for Biology of Inland Waters Russian Academy of Sciences
Russian Federation
2.  Institute of Biology of the Karelian Research Centre of the Russian Academy of Sciences (Doctor of Sciences in Biology; Leading Researcher of the Laboratory of Ecology of Fish and Aquatic Invertebrates)
Russian Federation
3.  Institute for Water and Environmental Problems, Siberian Branch the Russian Academy of Sciences (Doctor of Biological Sciences, Assistant Professor; Deputy Director for Research Work)
Russian Federation
11.  Papanin Institute for Biology of Inland Waters Russian Academy of Sciences (PIBIW RAS) (Microbiology Laboratory, Head)
Russian Federation
16.  I. D. Papanin Institute of Biology of Inland Waters, Russian Academy of Sciences
22.  Yaroslavl, Russian Federation
23.  Institut biologii vnutrennih vod imeni I. D. Papanina RAN
Type:
Monographie
DOI:
https://doi.org/10.47021/monography_670cd0a47a4437.24064368
ISBN:
978-5-6052860-0-4
Status:
In work
Subject area:
574.5
Language:
Russian
Publisher:
Papanin Institute for Biology of Inland Waters Russian Academy of Sciences
Keywords:
metody, gidrobiologiya, soobschestva, plankton, bentos, perifiton, metabolom, eksperimenty
Abstract and keywords
Abstract (English):
V knige opisany osnovnye podhody i metody izucheniya soobschestv gidrobiontov kontinental'nyh vod. Predstavleny principy vybora stanciy, metody otbora prob planktona, bentosa i perifitona s uchetom taksonomicheskogo sostava gidrobiontov i tipa vodnyh ob'ektov, poryadok kameral'noy obrabotki i analiza dannyh. Krome etogo, nashli otrazhenie metody izucheniya drifta makrobespozvonochnyh, okolovodnyh nasekomyh, opredeleniya mertvyh osobey zooplanktona, nizkomolekulyarnogo metaboloma rasteniy, opisana organizaciya eksperimental'nyh issledovaniy v mikro- i mezokosmah, kul'tivirovanie i provedenie laboratornyh eksperimentov s rakoobraznymi, a takzhe perspektivy modernizacii gidrobiologicheskogo oborudovaniya. Kniga rasschitana na shirokiy krug gidrobiologov, prepodavateley i studentov profil'nyh special'nostey vysshey shkoly i srednih special'nyh uchebnyh zavedeniy, sotrudnikov gidrometeorologicheskoy sluzhby, rybovodcheskih predpriyatiy.

Keywords:
metody, gidrobiologiya, soobschestva, plankton, bentos, perifiton, metabolom, eksperimenty
Representatives
Krylov Aleksandr  — Executive editor
References

1. Abakumov V.A., Kachalova O.L. Zoobentos v sisteme kontrolya kachestva vod // Nauchn. osnovy kontrolya kachestva vod po gidrobiologicheskim pokazatelyam. Tr. Vses. konf., Moskva, 1–3 noyabrya, 1978 g. L.: Gidrometeoizdat, 1981. S. 167–175.

2. Abrosov V.N. Zonal'nye tipy limnogeneza. L.: Nauka, 1982. 144 s.

3. Azovskiy A.I., Chertoprud M.V. Masshtabno-orientirovannyy podhod k analizu prostranstvennoy struktury soobschestv // Zhurnal obschey biologii. 1998. T. 59. Vyp. 2. S. 117–136.

4. Alekin O.A., Semenov A.D., Skopincev B.A. Rukovodstvo po himicheskomu analizu vod sushi. L.: Gidrometeoizdat, 1973. 270 s.

5. Aleksandrov B.G. Kaloriynost' bespozvonochnyh Azovskogo morya // Ekologiya morya. 2001. № 55. S. 5–10.

6. Aleksandrov S.V. Pervichnaya produkciya planktona v lagunah Baltiyskogo morya (Vislinskiy i Kurshskiy zalivy). Kaliningrad: AtlantNIRO, 2010. 228 s.

7. Alekseev V.A. Sistema toksobnosti i ee mesto v unificirovannoy sisteme kachestva vod SSSR // Vodnye resursy. 1984. № 5. S. 76–87.

8. Alekseev V.R. Diapauza rakoobraznyh: Ekologo-fiziologicheskie aspekty. M.: Nauka, 1990. 144 s.

9. Alekseev V.R. Znachenie diapauzy pri akklimatizacii rakoobraznyh // Sb. nauch. tr. GosNIORH. 1986. № 252. S. 621–631.

10. Alimov A.F. Funkcional'naya ekologiya presnovodnyh dvustvorchatyh mollyuskov // Tr. Zool. in-ta AN SSSR. L.: Nauka, 1981. T. 96. 247 s.

11. Alimov A.F. Strukturno-funkcional'nyy podhod k izucheniyu soobschestv vodnyh zhivotnyh // V s'ezd Vsesoyuznogo gidrobiologicheskogo obschestva: tez. dokl. Kuybyshev, 1986. S. 132–133.

12. Alimov A.F. Vvedenie v produkcionnuyu gidrobiologiyu. L.: Gidrometeoizdat, 1989. 147 s.

13. Alimov A.F. Osnovnye polozheniya teorii funkcionirovaniya vodnyh ekosistem // Gidrobiol. zhurn. 1990. T. 26, vyp. 6. S. 3–12.

14. Alimov A.F. Elementy funkcionirovaniya vodnyh ekosistem. SPb.: Nauka, 2001. 147 s.

15. Alimov A.F., Bogatov V.V., Golubkov S.M. Produkcionnaya gidrobiologiya. SPb.: Nauka, 2013. 342 s.

16. Alimov A.F., Finogenova N.P. Kolichestvennaya ocenka roli soobschestv donnyh zhivotnyh v processah samoochischeniya presnovodnyh vodoemov // Gidrobiologicheskie osnovy samoochischeniya vod. L.: Nauka, 1976. S. 5–14.

17. Andronikova I.N. Izmeneniya v soobschestve zooplanktona v svyazi s processom evtrofirovaniya // Evtrofirovanie mezotrofnogo ozera. L.: Nauka, 1980. S. 78–99.

18. Andronikova I.N. Ispol'zovanie strukturno-funkcional'nyh pokazateley zooplanktona v sisteme monitoringa // Gidrobiologicheskie issledovaniya morskih i presnyh vod. L.: Nauka, 1988. S. 47–53.

19. Andronikova I.N. Osnovnye itogi issledovaniy vetvistousyh rakoobraznyh gumificirovannyh vodoemov // Sovremennye problemy izucheniya vetvistousyh rakoobraznyh. SPb.: Gidrometeoizdat, 1992. S. 81–99.

20. Andronikova I.N. Strukturno-funkcional'naya organizaciya zooplanktona ozernyh ekosistem. SPb.: Nauka, 1996. 189 s.

21. Anisimova O.V., Shtaer O.V. Morfologiya porovyh kanalov kletochnoy stenki u predstaviteley roda Euastrum Ralfs (Desmidiales) // Vestnik Moskovskogo universiteta. Biologiya. Ser. 16. 2018. T. 73. № 1. S. 34–37.

22. Annotirovannyy spisok fauny ozera Baykal i ego vodosbornogo basseyna / red. O.A. Timoshkin, T.Ya. Sitnikova, O.T. Rusinek i dr. Novosibirsk: Nauka, 2001. T. 1: Ozero Baykal, kn. 1. 832 s.

23. Annotirovannyy spisok fauny ozera Baykal i ego vodosbornogo basseyna / red. O.A. Timoshkin, T.Ya. Sitnikova, O.T. Rusinek i dr. Novosibirsk: Nauka, 2004. T. 1: Ozero Baykal, kn. 2. 1679 s.

24. Antropogennoe vozdeystvie na malye ozera. L.: Nauka, 1980. 170 s.

25. Arinushkina E.V. Rukovodstvo po himicheskomu analizu pochv. M: Izd-vo MGU, 1961. 491 s.

26. Artemchuk N.Ya. Mikoflora morey SSSR. M.: Nauka, 1981. 190 s.

27. Are F.E., Tolstyakov D.N. O proniknovenii solnechnoy radiacii v vodu // Meteorol. gidrol. 1969. № 6. S. 58–64.

28. Astahov M.V. Drift bespozvonochnyh na predgornom uchastke reki Kedrovaya (Primorskiy kray) v teplyy period goda // Biologiya vnutr. vod. 2014. № 1. S. 52–59.

29. Astahov M.V., Skripcova A.V. Potencial utilizacii allohtonnyh bespozvonochnyh amfipodami Gammarus koreanus Uéno // Tr. Instituta biologii vnutrennih vod im. I.D. Papanina RAN. 2020. Vyp. 92(95). S. 28–38.

30. Atlas bespozvonochnyh Kaspiyskogo morya. M.: Pischevaya promyshlennost', 1968. 420 s.

31. Afanas'ev S.A. Razvitie evropeyskih podhodov k biologicheskoy ocenke sostoyaniya gidroekosistem v monitoringe rek Ukrainy // Gidrobiol. zhurnal. 2001. T. 37. № 5. S. 3–18.

32. Afanas'ev S.A. Perifiton v biomonitoringe rechnyh sistem // Perifiton kontinental'nyh vod: sovremennoe sostoyanie izuchennosti i perspektivy dal'neyshih issledovaniy. Mat. dokl. Mezhd. simpoziuma. Tyumen': OOO “Opcion TM-Holding”, 2003. S. 86–87.

33. Babickiy V.A. Vertikal'noe raspredelenie mikrozoobentosa v donnyh osadkah ozera Naroch' // Biologicheskie i rybohozyaystvennye issledovaniya vodoemov Pribaltiki. Pskov, 1983. T. 1. S. 90–93.

34. Babickiy V.A. Mikrozoobentos treh ozer raznogo tipa // Gidrobiol. zhurn. 1980. T. 16. № 1. S. 37–45.

35. Babickiy V.A. Raspredelenie mikrofauny v tolsche otlozheniy mezotrofnogo ozera // Gidrobiol. zhurn. 1987. T. 23. № 2. S. 36–40.

36. Bakanov A.I. Nomogramma dlya ocenki neobhodimogo kolichestva prob bentosa // Biologiya vnutrennih vod: Inform. byul. 1978. № 39. S. 86–89.

37. Bakanov A.I. Nomogramma dlya ocenki kolichestva prob gidrobiontov v sluchae ih statisticheskogo raspredeleniya po zakonu Puassona // Biologiya vnutrennih vod: Inform. byul. 1979. № 41. S. 69–71.

38. Bakanov A.I. O planirovanii bentosnyh s'emok / IBVV AN SSSR. Borok, 1979. 16 s. Dep. v VINITI 07.05. 79, № 1596-79.

39. Bakanov A.I. Nomogramma dlya ocenki kolichestva prob pri agregirovannom raspredelenii gidrobiontov // Gidrobiol. zhurn. 1984. T. 20. № 6. S. 74–77.

40. Bakanov A.I. Ispol'zovanie zoobentosa dlya monitoringa presnovodnyh vodoemov (obzor) // Biologiya vnutr. vod. 2000. № 1. S. 68–82.

41. Bakanov A.I. Ob ocenke kachestva vody i gruntov presnovodnyh vodoemov po harakteristikam bentosnyh soobschestv // Ekologiya. 2004. № 6. S. 464–467.

42. Bakanov A.I. Kolichestvennaya ocenka dominirovaniya v ekologicheskih soobschestvah // Kolichestvennye metody ekologii i gidrobiologii. Tol'yatti: Samarskiy nauch. centr RAN, 2005. S. 37.

43. Balanda O.V., Medved' V.A., Sakevich A.I. Alkaloidy kubyshki zheltoy (Nuphar lutea (L.) Smith.) i ih vliyanie na zhiznedeyatel'nost' cianobakteriy i vodorosley // Gidrobiol. zhurn. 2004. T. 40. № 4. S. 106–118.

44. Balonov I.M. Podgotovka vodorosley k elektronnoy mikroskopii // Metodika izucheniya biogeocenozov vnutrennih vodoemov. M.: Nauka, 1975. S. 87–90.

45. Balushkina E.V. Hironomidy kak indikatory stepeni zagryazneniya vod // Metody biologicheskogo analiza presnyh vod. L.: Zool. in-t AN SSSR, 1976. S. 106–118.

46. Balushkina E.V. Zavisimost' massy tela lichinok hironomid ot ih dliny // Gidrobiol. zhurn. 1982. T. 27. № 3. C. 53–60.

47. Balushkina E.V. Zavisimost' skorosti potrebleniya kisloroda ot massy tela i temperatury u lichinok hironomid // Gidrobiol. zhurn. 1984. T. 20. № 5. C. 66–72.

48. Balushkina E.V. Primenenie integral'nogo pokazatelya dlya ocenki kachestva vod po strukturnym harakteristikam donnyh soobschestv // Reakciya ozernyh ekosistem na izmenenie bioticheskih i abioticheskih usloviy. SPb.: ZIN RAN, 1997. S. 266–292.

49. Balushkina E.V., Vinberg G.G. Zavisimost' mezhdu dlinoy i massoy tela planktonnyh rakoobraznyh // Eksperimental'nye i polevye issledovaniya biologicheskih osnov produktivnosti ozer. L.: ZIN AN SSSR, 1979. S. 59–79.

50. Barinova S.S., Belous E.P., Carenko P.M. Al'goindikaciya vodnyh ob'ektov Ukrainy: metody i perspektivy. Hayfa; Kiev: Izd-vo Universiteta Hayfy, 2019. 367 s.

51. Barkov D.V., Kurashov E.A. Osobennosti ekologii i biologii baykal'skoy endemichnoy amfipody Gmelinoides fasciatus (Stebbing, 1899) v Ladozhskom ozere // Litoral'naya zona Ladozhskogo ozera / Pod red. Kurashova E.A. SPb.: Nestor-Istoriya, 2011. S. 294–350.

52. Baryshev I.A. Metodiki izucheniya drifta gidrobiontov v malyh rekah: obzor // Biologiya vnutr. vod. 2006. № 3. S. 91–96.

53. Baryshev I.A. Makrozoobentos rek Vostochnoy Fennoskandii. Petrozavodsk: KarNC RAN, 2023. 334 s.

54. Baryshev I.A., Veselov A.E. Sezonnaya dinamika bentosa i drifta bespozvonochnyh organizmov v nekotoryh pritokah Onezhskogo ozera // Biologiya vnutr. vod. 2007. № 1. S. 80–86.

55. Baryshev I.A., Veselov A.E., Zubchenko A.V., Kalyuzhin S.M. Kormovaya baza atlanticheskogo lososya v basseyne reki Varzuga // Biologiya, vosproizvodstvo i sostoyanie zapasov anadromnyh i presnovodnyh ryb Kol'skogo poluostrova. Murmansk: Izd-vo PINRO, 2005. S. 21–30.

56. Bataeva Yu.V., Grigoryan L.N., Kurashov E.A., Krylova Yu.V., Fedorova E.V., Yavid E.Ya., Hodonovich V.V., Yakovleva L.V. Izuchenie metabolitov Streptomyces carpaticus RCAM04697 dlya sozdaniya ekologicheski bezopasnyh sredstv zaschity rasteniy // Teoreticheskaya i prikladnaya ekologiya. 2021. № 3. S. 172–178. DOI:https://doi.org/10.25750/1995-4301-2021-3-172-178

57. Bataeva Yu.V., Grigoryan L.N., Bogun A.G., Kislichkina A.A., Platonov M.E., Kurashov E.A., Krylova Yu.V., Fedorenko A.G., Andreeva M.P. Biologicheskaya aktivnost' i sostav metabolitov shtamma Streptomyces carpaticus K-11 RCAM04697 (SCPM-O-B-9993), perspektivnogo dlya ispol'zovaniya v rastenievodstve // Mikrobiologiya. 2023. T. 92. № 3. S. 318–328. DOI:https://doi.org/10.31857/S0026365622600730

58. Bezmaternyh D.M. Zoobentos kak indikator ekologicheskogo sostoyaniya vodnyh ekosistem Zapadnoy Sibiri analit. obzor // Gos. publich. nauch.-tehn. b-ka Sib. otd-niya RAN, In-t vod. i ekol. problem. Ser. Ekologiya. Vyp. 85. Novosibirsk, 2007. 87 s.

59. Bezmaternyh D.M. Zoobentos ravninnyh pritokov Verhney Obi / otv. red. V.V. Kirillov. Barnaul: Izd-vo Alt. un-ta, 2008. 186 s.

60. Bezmaternyh D.M., Vdovina O.N. Zoobentos ozer yuga Ob'-Irtyshskogo mezhdurech'ya // Ekologiya. Seriya analiticheskih obzorov mirovoy literatury. 2017. № 106. S. 1–180.

61. Bezmaternyh V.V., Scherbina G.H. Ob optimal'nom chisle prob dlya ocenki kolichestvennyh pokazateley makrozoobentosa na uchastke vodoema // Biologiya vnutr. vod. 2017. № 3. S. 83–87.

62. Belavskaya A.P. Vysshaya vodnaya rastitel'nost' // Metodika izucheniya biogeocenozov vnutrennih vodoemov. M.: Nauka, 1975. S. 117.

63. Belyaeva P.G. Struktura fitoperifitona i ego funkcional'naya rol' v r. Sylva (Basseyn Kamy) // Vestnik Tyumenskogo gosudarstvennogo universiteta. 2005. № 5. S. 32.

64. Belyakov V.P. Sostav i struktura zoobentosa pritokov Ladozhskogo ozera // Ocenka ekologicheskogo sostoyaniya rek basseyna Ladozhskogo ozera po gidrohimicheskim pokazatelyam i strukture gidrobiocenozov. SPb.: Izd-vo “Lema”. 2006. S. 108–113.

65. Berseneva G.P. Feofitinizaciya hlorofilla v processe ekstrakcii pigmentov iz morskih odnokletochnyh vodorosley // Ekologiya morya. 1988. № 28. S. 36–39.

66. Biogeohimicheskie osnovy ekologicheskogo normirovaniya. M.: Nauka, 1993. 304 s.

67. Biologicheskie metody issledovaniya vodoemov v Finlyandii / Red.: Ruoppa M., Heynonen P. Suomen Ympäristökeskus. Helsinki, 2006. 111 s.

68. Bogatov V.V. Znachenie bentostoka v processah biologicheskogo producirovaniya v rekah // Ekologiya. 1984. № 3. S. 51–60.

69. Bogatov V.V. Klassifikaciya drifta rechnogo bentosa // Gidrobiol. zhurn. 1988. T. 24. № 1. S. 29–33.

70. Bogatov V.V. Nekotorye osobennosti dinamiki bentostoka v usloviyah dozhdevogo pavodka // Sistematika i ekologiya rechnyh organizmov. Vladivostok, 1989. S. 112–119.

71. Bogatov V.V. Ekologiya rechnyh soobschestv rossiyskogo Dal'nego Vostoka. Vladivostok: Dal'nauka, 1994. 218 s.

72. Bogatov V.V. Osnovnye metody izucheniya drifta rechnogo bentosa // Chteniya pamyati prof. Vladimira Yakovlevicha Levanidova. Vyp. 3. Vladivostok: Dal'nauka, 2005. S. 5–17.

73. Bogatov V.V. Sootnoshenie biomassy i drifta u rechnyh bentosnyh bespozvonochnyh // Biologiya vnutr. vod. 2014. T. 7. № 2. S. 69–75.

74. Bogatov V.V. Alimov A.F. Telesh I.V. Aktual'nye problemy gidrobiologii // Vestnik Rossiyskoy akademii nauk. 2007. T. 77. № 6. S. 556–559.

75. Bogatov V.V., Astahov M.V. Vertikal'noe raspredelenie dreyfuyuschih lichinok podenok i dvukrylyh na perekate r. Kedrovaya (Primorskiy kray) // Vestnik Severo-Vostochnogo nauchnogo centra DVO RAN. 2013. № 1. S. 39–48.

76. Bogatov V.V., Fedorovskiy  A.S. Osnovy rechnoy gidrologii i gidrobiologii. Vladivostok: Dal'nauka, 2017. 384 s.

77. Bolotov S.E., Romanenko A.V., Cvetkov A.I., Krylov A.V. Narushenie vertikal'nogo raspredeleniya planktona v ust'evoy oblasti pritoka ravninnogo vodohranilischa letom zharkogo goda // Povolzhskiy ekologicheskiy zhurnal. 2014. № 3. S. 304–310.

78. Bolotov S.E., Cvetkov A.I., Krylov A.V. Zooplankton zon sliyaniya nezaregulirovannyh rek // Biologiya vnutr. vod. 2012. № 2. S. 29–36.

79. Borzyh O.G. Bioraznoobrazie micelial'nyh gribov – associantov dvustvorchatyh mollyuskov zaliva Petra Velikogo Yaponskogo Morya. Avtoref. dis. … kand. biol. nauk. Vladivostok, 2013. 22 s.

80. Bravina I.V. Mikoflora komarov melkovodnyh zon Rybinskogo vodohranilischa i del'ty Volgi // Mikologiya i fitopatologiya. 1987. T. 21. Vyp. 1. S. 8–13.

81. Brehov O.G. Metodicheskie rekomendacii po vypolneniyu nauchno-issledovatel'skih rabot po entomologii. Volgograd: Peremena, 2006. 28 c.

82. Bubnova E.N. Izmeneniya kompleksov pochvoobitayuschih gribov pri perehode ot zonal'nyh pochv k morskim ekotopam (na primere poberezh'ya Kandalakshskogo zaliva Belogo morya). Avtoreferat diss. … kand. biol. M., 2005. 27 s.

83. Bul'on V.V. Pervichnaya produkciya planktona vnutrennih vodoemov. L.: Nauka, 1983. 150 s.

84. Bul'on V.V. Fotosinteticheskaya aktivnost' hlorofilla “a” v presnovodnom planktone // DAN SSSR. 1984. T. 274. № 4. S. 1002–1004.

85. Bul'on V.V. Vodoem i ego vodosbornaya ploschad' kak edinoe celoe // Ozernye ekosistemy: biologicheskie processy, antropogennaya transformaciya, kachestvo vody. Mater. III Mezhdunar. nauch. konf. Minsk: Izd. centr. Belorusskogo gos. un-ta, 2007. S. 10.

86. Bul'on V.V. Modelirovanie bioticheskogo potoka energii v planktonnom soobschestve ekosistemy ozernogo tipa pri uchastii mikrobial'nyh processov // Biologiya vnutr. vod. 2019. № 3. S. 3–10. DOI:https://doi.org/10.1134/S032096521904003X

87. Bul'on V.V., Nikulina V.N., Pavel'eva E.B. i dr. Mikrobial'naya “petlya” v troficheskoy seti ozernogo planktona // Zhurnal obschey biologii. 1999. T. 60. № 4. S. 431.

88. Bykova S.N. Vliyanie makrofitov na sukcessiyu mikroperifitonnyh soobschestv // Biologiya vnutrennih vod: materialy dokladov XIII Mezhdunar. molodezhnoy shkoly-konferencii (Borok, 23–26 oktyabrya 2007 g.). Nizhniy Novgorod: Vektor TiS, 2007. S. 33–40.

89. Vaynshteyn M.B., Laurinavichus K.S. Uchet i kul'tivirovanie anaerobnyh bakteriy. Metodicheskie rekomendacii. Puschino: ONTI NCBI AN SSSR, 1988. 64 s.

90. Vaynshteyn M.B., Alferov V.A., Vacurina V.A. Vodnaya mikrobiologiya i biogeohimiya: Ucheb. posobie. Tula: Izd-vo TulGU, 2007. 145 s.

91. Vasilevich V.I. Statisticheskie metody v geobotanike. L.: Nauka, 1969. 232 s.

92. Vvedenie v biomonitoring presnyh vod: uchebnoe posobie / Vshivkova T.S., Ivanenko N.V., Yakimenko L.V., Drozdov K.A. Vladivostok: Izd-vo VGUES, 2019. 241 s.

93. Vedernikov I.I., Mikaelyan A.S. Kolichestvennyy uchet morskogo fitoplanktona s ispol'zovaniem yadernyh fil'trov // Okeanologiya. 1981. T. 21. № 5. S. 927–933.

94. Vinberg G.G. Pervichnaya produkciya vodoemov. Minsk: Izd-vo AN BSSR, 1960. 329 s.

95. Vinberg G.G. Potok energii v ekosisteme evtrofnogo ozera // DAN SSSR. 1969. T. 186. № 1. S. 198–201.

96. Vinberg G.G. Formirovanie predstavleniy o produkcii // Obschie osnovy izucheniya vodnyh ekosistem. L.: Nauka, 1979. S. 114–118.

97. Vinberg G.G. Temperaturnyy koefficient Vant-Goffa i uravnenie Areniusa v biologii // Zhurn. obsch. biol. 1983. T. 44. № 1. S. 31–42.

98. Vinberg G.G. Nekotorye itogi praktiki primeneniya produkcionno-gidrobiologicheskih metodov // Produkciya populyaciy i soobschestv vodnyh organizmov i metodov ee izucheniya. Sverdlovsk: Ural. centr AN SSSR, 1985. S. 3–18.

99. Vinberg G.G. Obschie osobennosti produkcionnyh processov v Narochanskih ozerah // Ekologicheskaya sistema Narochanskih ozer. Minsk: Belorusskiy un-t, 1985. S. 269–284.

100. Vinberg G.G., Pechen' G.A., Shushkina E.A. Produkciya planktonnyh rakoobraznyh v treh ozerah raznogo tipa // Zool. zhurn. 1965. T. 44. Vyp. 5. S. 676–687.

101. Vinogradov G.A., Tagunov V.B. Ustanovka dlya izucheniya vliyaniya razlichnyh veschestv na ryb i bespozvonochnyh v protochnyh usloviyah // Gidrobiol. zhurn. 1989. T. 25. № 3. S. 7477.

102. Vorob'eva L.V. Meyobentos ukrainskogo shel'fa Chernogo i Azovskogo morey. Kiev: Nauk. Dumka, 1999. 300 s.

103. Vorob'eva L.V., Zaycev Yu.P., Kulakova I.I. Intersticial'naya meyofauna peschanyh plyazhey Chernogo morya / AN Ukrainy. In-t biologii yuzh. morey im. A.O. Kovalevskogo. Kiev: Naukova dumka, 1992. 144 s.

104. Voronin L.V. Griby, razvivayuschiesya na leschah i sudakah nekotoryh presnyh vodoemov// Mikologiya i fitopatologiya. 1986. T. 20. Vyp. 5. S. 353–361.

105. Voronin L.V. Griby roda Phoma Sacc. iz vody i ryb presnyh vodoemov // Mikologiya i fitopatologiya. 1989a. T. 23. Vyp. 1. S. 19–28.

106. Voronin L.V. Osnovnye gruppy saprotrofnyh gribov na poverhnosti tela schuki// Biologiya vnutr. vod: Inform. byulleten'. L.: Nauka, 1989b. № 83. S. 16–19.

107. Voronin L.V. Vliyanie promyshlennyh stokov na sostoyanie mikobioty lescha Rybinskogo vodohranilischa // Mikologiya i fitopatologiya. 1992. T. 26. Vyp. 1. S. 15–19.

108. Voronin L.V. Mikologicheskaya indikaciya sostoyaniya ekosistem vodoemov Vorkuty i ee okrestnostey // Bioindikaciya sostoyaniya prirodnoy sredy Vorkutinskoy tundry (Tr. Komi nauchnogo centra UrO RAN, № 143). Syktyvkar, 1996. S. 83–91.

109. Voronin L.V. Vodnye i vozdushno-vodnye gifomicety v malyh ozerah okrestnostey Vorkuty // Mikologiya i fitopatologiya. 1997. T. 31. Vyp. 2. S. 9–17.

110. Voronin L.V. Mikobiota malyh ozer tundrovoy i lesnoy zon. Yaroslavl': Izd-vo YaGPU, 2010. 156 s.

111. Voronin L.V. Griby i gribopodobnye organizmy v presnovodnyh ekosistemah. Yaroslavl': Filigran', 2023. 123 s.

112. Voronin L.V., Zhdanova S.M. Porazhenie mikoparazitami vetvistousogo rachka Daphnia cucullata (Crustacea, Cladocera, Daphniidae) v oz. Plescheevo (Yaroslavskaya obl., Rossiya) // Biologiya vnutr. vod. 2021. № 6. S. 655–659. DOI:https://doi.org/10.1134/S1995082921060146

113. Voronin L.V., Zhdanova S.M. Rasprostranenie i rol' gribov i gribopodobnyh organizmov v zooplanktone presnovodnyh ekosistem (Obzor) // Trudy Instituta biologii vnutrennih vod im. I.D. Papanina RAN. 2023. Vyp. 103(106). S. 7–16. DOI:https://doi.org/10.47021/0320-3557-2023-7-16

114. Voronin L.V., Mikryakov V.R. Rol' Phoma glomerata (Cda.) Wr. et Hochapfel v mikobiote ryb // Mikologiya i fitopatologiya. 1992. T. 26. Vyp. 6. S. 456–459.

115. Voronin L.V., Solnceva I.O. Gifal'nye griby i drozhzhi v ozerah, podverzhennyh acidifikacii // Struktura i funkcionirovanie ekosistem acidnyh ozer. SPb.: Nauka, 1994a. S. 125–143.

116. Voronin L.V., Solnceva I.O. Mikobiota filloplany Nuphar lutea (L.) Smith v ozerah Darvinskogo zapovednika // Mikologiya i fitopatologiya. 1994b. T. 28. Vyp. 1. S. 18–27.

117. Voronina N.M. Gorizontal'noe raspredelenie zooplanktona v severnyh otrogah Rybinskogo vodohranilischa // Tr. Vses. gidrobiol. obschestva. M.: Izd-vo AN SSSR. 1959. S. 249–278.

118. Vudiviss F.S. Sovmestnye anglo-sovetskie biologicheskie issledovaniya v Nottingeme v 1977 g. // Nauchnye osnovy kontrolya kachestva poverhnostnyh vod po gidrobiologicheskim pokazatelyam. L.: Gidrometeoizdat, 1981. S. 117–189.

119. Gavrilov N.I., Turlapov V.E., Patrushev I.V., Sem'yanov A.V. Lokal'noe chislennoe issledovanie morfologii 3D-rekonstrukciy biologicheskih ob'ektov v velichinah SVR – otnosheniya ploschadi k ob'emu // Vestnik Nizhegorodskogo universiteta im. N.I. Lobachevskogo. 2012. № 5–2. S. 49–58.

120. Gavrilko D.E., Shurganova G.V., Kudrin I.A., Yakimov V.N. Vyyavlenie funkcional'nyh grupp presnovodnogo zooplanktona na osnove funkcional'nyh priznakov vidov // Povolzhskiy ekologicheskiy zhurnal. 2020. № 3. S. 290–306. DOI:https://doi.org/10.35885/1684-7318-2020-3-290-306

121. Gaevskaya N.S. Rol' vysshih vodnyh rasteniy v pitanii zhivotnyh presnyh vodoemov. M.: Nauka, 1966. 326 s.

122. Gaevskiy N.A., Kolmakov B.I., Popel'nickiy V.A. i dr. Ocenka vliyaniya svetovogo faktora pri fluorescentnom opredelenii intensivnosti fotosinteza u planktonnyh mikrovodorosley // Fiziologiya rasteniy. 2000. T. 47. № 6. S. 930–935.

123. Gaevskiy N.A., Shatrov I.Yu., Gol'd V.M. Fluorescentnyy analiz pigmentov fitoplanktona // Metodicheskie voprosy izucheniya pervichnoy produkcii vnutrennih vodoemov. SPb: Gidrometeoizdat. 1993. S. 101–109.

124. Galagovec E.A., Prusova I.Yu. Pervye obnaruzheniya opuholepodobnyh anomaliy u planktonnyh kopepod v pribrezhnyh vodah Kryma // Zhurnal Sibirskogo federal'nogo universiteta. Biologiya. 2016. T. 9. № 4. S. 441–451.

125. Galkovskaya G.A. O raschete produkcii estestvennyh populyaciy kolovratok // Produkciya populyaciy i soobschestv vodnyh organizmov i metody ee izucheniya. Sverdlovsk, 1985. S. 48–57.

126. Galkovskaya G.A., Vinberg G.G. Zavisimost' skorosti potrebleniya kisloroda kolovratkami ot massy tela // Obschie osnovy izucheniya vodnyh ekosistem. L.: Nauka, 1979. 273 s.

127. Gal'cova V.V. Meyobentos v morskih ekosistemah (na primere svobodnozhivuschih nematod) // Tr. Zoologicheskogo Instituta AN SSSR. 1991. T. 224. 240 s.

128. Geptner M.V., Zaikin A.N., Rudyakov Yu.A. Mertvye kopepody v planktone: fakty i gipotezy // Okeanologiya. 1990. T. 30. № 1. S. 132–137.

129. Gerasimova A.A., Gerasimov A.G., Sharapova T.A. Kolonial'nye bespozvonochnye v zooperifitone vodoema-ohladitelya TEC (Zapadnaya Sibir') // Biologiya vnutr. vod. 2021. № 2. S. 1–8.

130. Gerasimov Yu.V., Poddubnaya N.Ya., Vahnenko A.F., Semenova A.S., Zhdanova S.M., Cvetkov A.I., Pavlov D.D., Bolotov S.E., Borisenko E.S. Vliyanie vysokonapornoy Bratskoy GES na zooplankton Bratskogo vodohranilischa // Biologiya vnutr. vod. 2023. № 4. S. 473–490.

131. Gidrobiologicheskiy rezhim malyh rek v usloviyah antropogennogo vozdeystviya. Riga: Zinatne, 1981. 166 s.

132. Gidroekologiya ust'evyh oblastey pritokov ravninnogo vodohranilischa / red. A.V. Krylov. Yaroslavl': Filigran', 2015. 466 s.

133. Gilyarov A.M. Sootnoshenie biomassy i vidovogo raznoobraziya v planktonnom soobschestve // Zool. zhurn. 1969. T. 48. № 4. S. 485–493.

134. Gladyshev M.I. Sutochnaya dinamika vertikal'nogo raspredeleniya massovyh vidov zooplanktona v Sydinskom zalive Krasnoyarskogo vodohranilischa // Izvestiya Sib. otdel. AN SSSR. Ser. Biologicheskie nauki. 1990. Vyp. 3. S. 78–85.

135. Gladyshev M.I. Ustroystvo dlya okrashivaniya organizmov zooplanktona s cel'yu differenciacii zhivyh i mertvyh osobey v fiksirovannyh probah // Gidrobiologicheskiy zhurnal. 1993. T. 29. № 2. S. 94–97.

136. Glamazda V.V. Rost i razmnozhenie nekotoryh kopepod v Cimlyanskom vodohranilische // Tr. Volgogradskogo otd. Gos. in-ta. ozer. i rech. rybnogo hoz-va. 1971. T. 5. S. 45–50.

137. Glotov N.V., Zhivotovskiy L.A., Hovanov N.V., Hromov‑Borisov N.N. Biometriya. L.: Izd-vo LGU, 1982. 264 s.

138. Golovatyuk L.V., Zinchenko T.D. Bioticheskie identifikatory v ocenke kachestva vody etalonnoy reki: sravnitel'nyy analiz bioindikacionnyh indeksov reki Baytugan (Vysokoe Zavolzh'e) // Uchenye zapiski Kazanskogo universiteta. 2020. T. 162. Kn. 1. S. 134–150.

139. Golovatyuk L.V., Zinchenko T.D., Shitikov V.K. Indikatornaya ocenka organizmov makrozoobentosa tekuchih vod // Biologiya vnutr. vod. 2008. № 3. S. 66–79.

140. Golovatyuk L.V., Mihaylov R.A., Grekov I.M., Kurina E.M. Fauna makrozoobentosa rek basseyna Volgogradskogo vodohranilischa (na primere r. Eruslan) // Byul. Moskovskogo obsch-va ispytateley prirody. Otd. biologicheskiy. 2023. T. 128. № 4. S. 14–26. DOI:https://doi.org/10.55959/MSU0027-1403-BB-2023-128-4-14-26.

141. Golub V.B., Curikov M.N., Prokin A.A. Kollekcii nasekomyh: sbor, obrabotka i hranenie materiala. 2-e izd., ispr. i dop. M.: T-vo nauchnyh izdaniy KMK, 2021. 358 s.

142. Golubkov S.M. Sootnoshenie skorostey rosta i energeticheskogo obmena u vodnyh lichinok nasekomyh // Sb. nauch. tr. GosNIORH. 1984. № 223. S. 103–107.

143. Golubkov S.M. Funkcional'naya ekologiya lichinok amfibioticheskih nasekomyh // Tr. ZINRAN. 2000. T. 284. 294 s.

144. Gol'd V.M., Gaevskiy N.A. Shatrov I.Yu. i dr. Opyt ispol'zovaniya fluorescencii dlya differencial'noy ocenki soderzhaniya hlorofilla a u planktonnyh vodorosley // Gidrobiol. zhurn. 1986. T. 22. № 3. S. 80–85.

145. Gol'd V.M., Gaevskiy N.A., Grigor'ev Yu.S. i dr. Teoreticheskie osnovy i metody izucheniya fluorescencii hlorofilla. Krasnoyarsk: KrGU, 1984. 84 s.

146. Gol'd V.M., Popel'nickiy V.A. Opredelenie fotosinteza fitoplanktona fluorescentnym metodom // Metodicheskie voprosy izucheniya pervichnoy produkcii planktona vnutrennih vodoemov. SPb.: Gidrometeoizdat, 1993. S. 25–30.

147. Goncharov A.V., Grechushnikova M.G., Puklakov V.V. Novye vozmozhnosti klassicheskogo metoda: avtomatizirovannoe opredelenie pervichnoy produkcii i destrukcii organicheskogo veschestva v vodoeme // Biologiya vnutr. vod. 2018. № 4. S. 107–110.

148. Goncharov A.V., Ershova M.G., Saharova M.I., Edel'shteyn K.K. Gidrologicheskaya struktura i raspredelenie planktona v stratificirovannom vodohranilische v usloviyah vetrovogo vozdeystviya // Biologiya vnutr. vod. 2002. № 2. S. 38–45.

149. GOST 17.1.3.07-82. Ohrana prirody. Gidrosfera. Pravila kontrolya kachestva vody vodoemov i vodotokov. M.: Gos. kom. SSSR po standartam, 1982.

150. GOST 24027.2-80. Syr'e lekarstvennoe rastitel'noe. Metody opredeleniya vlazhnosti, soderzhaniya zoly, ekstraktivnyh i dubil'nyh veschestv, efirnogo masla. M.: Izdatel'stvo standartov, 1980. 31 s.

151. Gosudarstvennaya Farmakopeya SSSR. Izdanie XI. Vypusk 1. 1987. 335 s.

152. Grey-Greyg-Smit P. Kolichestvennaya ekologiya rasteniy. M.: Mir, 1967. 359 s.

153. Greze B.S., Karpova K.I. O planktone oz. Turgoyak // Tr. Ural'skogo otd. Vsesoyuzn. in-ta ozern. rybn. hoz-va. 1941. T. 3. S. 38–46.

154. Grigoriadi A.S., Yakupova A.B., Amirova A.R., Erohina N.I. Mikologicheskaya ocenka pochvy, zagryaznennoy othodami proizvodstva neftepererabatyvayuschey promyshlennosti // Izvestiya Samarskogo nauchnogo centra Rossiyskoy akademii nauk. 2011. T. 13. № 5(2). S. 155–157.

155. Grinberg R.G. O metodah lova i kolichestvennogo ucheta fitoplanktona. Prilozhenie k Otchetu vrem. komit. po izysk. mer i ohrane vodoemov Mosk. prom. r-na za 1914 g. 1915. M. S. 19–61.

156. Grincov V.A. Taksonomicheskoe raznoobrazie Amphipoda (Crustacea) Chernogo i Azovskogo morey // Morskoy biologicheskiy zhurnal. 2022. T. 7. № 1. S. 34–45. DOI:https://doi.org/10.21072/mbj.2022.07.1.03

157. Gricevskaya G.L. Gidrologicheskie usloviya v karel'skih rekah, vpadayuschih v Beloe More (k probleme akklimatizacii gorbushi) // Materialy rybohoz. issled. severnogo basseyna. Vyp. 1. Murmansk, 1963. S. 36–39.

158. Gromov V.V. Gidrofauna zatoplennoy drevesiny Sylvenskogo zaliva Kamskogo vodohranilischa // Zoologicheskiy zhurnal. 1961. Vyp. 3. S. 309–316.

159. Gurvich V.V. Metodika kolichestvennogo izucheniya mikro- i mezobentosa // Biol. vnutr. vod. In-form. byul. 1969. № 3. C. 57–63.

160. Gurvich V.V. Raspredelenie mikro- i mezobenticheskih zhivotnyh v tolsche grunta // Samoochischenie, bioproduktivnost' i ohrana vodoemov i vodotokov Ukrainy. Kiev: Nauk. Dumka, 1975. S. 28–29.

161. Gurevich F.A. K voprosu o vzaimootnoshenii mezhdu rasteniyami i embrionami presnovodnyh zhivotnyh // Dokl. AN SSSR. 1948. T. 59. № 3. S. 569–572.

162. Gurevich F.A. K voprosu o protistocidnyh svoystvah vodnyh i pribrezhno-vodnyh rasteniy // Sb. nauch. trudov Krasnoyarskogo gos. med. in-ta. 1953. № 3. S. 212–214.

163. Gurevich F.A. O roli fitoncidov v cenozah vodoemov // Ohrana i racional'noe ispol'zovanie zhivoy prirody vodoemov Kazahstana. Mater. konf. Alma-Ata, 1969. S. 137–139.

164. Gurevich F.A. Fitoncidy vodnyh i pribrezhnyh rasteniy, ih rol' v gidrobiocenozah. Avtoref. dis. na soisk. uch. st. doktora biologicheskih nauk. Irkutskiy gosudarstvennyy universitet im. A.A. Zhdanova. Irkutsk, 1973. 30 s.

165. Gurevich F.A. Rol' fitoncidov vo vnutrennih vodoemah // Vodnye resursy. 1978. № 2. S. 133–142.

166. Gusakov V. A. Meyobentos Rybinskogo vodohranilischa. M.: T-vo nauch. izd. KMK, 2007. 155 s.

167. Guseva K.A. Metody ekologo-fiziologicheskogo issledovaniya vodorosley // Zhizn' presnyh vod. T. IV. Ch. 1. M.–L.: Izd-vo AN SSSR, 1956. S. 122.

168. Devyatkin V.G. Mikrofitobentos // Metodika izucheniya biogeocenozov vnutrennih vodoemov / Otv. red. Morduhay-Boltovskoy F.D. M.: Nauka, 1975. S. 108–116.

169. Diatomovye vodorosli SSSR (iskopaemye i sovremennye). L.: Nauka, 1974. T. I. Vyp. 1. 403 c.

170. Dzhenderedzhyan K.G., Unanyan A.S. Svyaz' mezhdu massoy tela i nekotorymi lineynymi parametrami tubificid na primere Potamothrixhammoniensis (Michaelsen) // Vodnye maloschetinkovye chervi. Materialy VI Vsesoyuz. simp., Salaspils, 27–30 apr. 1987. Riga, 1987. S. 64–66.

171. Dzyuban N.A., Kuznecova S.P. O gidrobiologicheskom kontrole kachestva vod po zooplanktonu // Nauchnye osnovy kontrolya kachestva vod po gidrobiologicheskim pokazatelyam. Tr. Vsesoyuz. konf. L.: Nauka, 1981. S. 117–136.

172. Dobrecov S.V., Railkin A.I. Vliyanie harakteristik poverhnosti na osedanie i prikreplenie lichinok midii s'edobnoy Mytilus edulis (Mollusca, Filibranchia) // Zoologicheskiy zhurn. 1996. № 4. S. 499–506.

173. Dobrynin A.E. Sutochnaya dinamika vertikal'nogo raspredeleniya zooplanktona v oligotrofnom ozere // Biologiya vnutr. vod. 2009. № 2. S. 62–71.

174. Doner'yan L.G., Vodyanova M.A., Tarasova Zh.E. Mikroskopicheskie pochvennye griby – organizmy-bioindikatory neftezagryaznennyh pochv // Gigiena i sanitariya. 2016. № 95(9). S. 891–894. DOI:https://doi.org/10.18821/0016-9900-2016-95-9-891-894

175. Drabkova V.G., Sorokin I.N. Ozero i ego vodosbor – edinaya prirodnaya sistema. L.: Nauka, 1979. 195 s.

176. Drobotov A.V. Prostranstvennaya struktura i nesinhronnye vertikal'nye migracii zooplanktona v stratificirovannom meromikticheskom ozere. Dis. … kand. biol. nauk. Krasnoyarsk, 2014. 135 s.

177. Drozdova N.S., Terehova V.A., Zazovskaya E.P., Trofimov S.Ya. Razlozhenie organicheskogo veschestva pochv drevnerusskih poseleniy pri vnesenii (introdukcii) mikromicetov // Vestnik Moskovskogo universiteta. Seriya 17: Pochvovedenie. 2001. № 4. S. 41–46.

178. Dubovskaya O.P. Estestvennaya smertnost' zooplanktona v vodohranilischah basseyna Eniseya. Dis. … dokt. biol. nauk. Krasnoyarsk, 2006. 335 s.

179. Dubovskaya O.P. Ocenka kolichestva mertvyh osobey rachkovogo zooplanktona v vodoeme s pomosch'yu okrashivaniya prob anilinovym golubym: metodicheskie aspekty primeneniya // Zhurnal Sibirskogo Federal'nogo universiteta. Ser. Biologiya. 2008. № 2. S. 145–161.

180. Dubovskaya O.P. Ne svyazannaya s hischnikami smertnost' planktonnyh rakoobraznyh, ee vozmozhnye prichiny (obzor literatury) // Zhurnal obschey biologii. 2009. T. 70. № 2. S. 168–192.

181. Dudakov M.O., Dudakova D.S. Intellektual'nyy dnocherpatel'. Patent na izobretenie RU 2794956 C1, 26.04.2023. Zayavka № 2022119519 ot 18.07.2022.

182. Dudakov M.O., Dudakova D.S. Modernizirovannye varianty dnocherpatelya Ekmana-Berdzhi s dopolnitel'nym sensornym i vychislitel'nym oborudovaniem dlya avtomatizacii zahvata i ocenivaniya kachestva proby // Morskie intellektual'nye tehnologii. 2022. № 4–3(58). S. 92–99.

183. Dudakov M.O., Dudakova D.S., Ronzhin A.L. Razrabotka i opytnaya ekspluataciya modernizirovannogo dnocherpatelya Ekmana-Berdzhi s avtomatizaciey zahvata i ocenivaniya kachestva proby // Mat. X-go Mezhdunar. Baltiyskogo morskogo foruma. 26 sentyabrya – 1 oktyabrya 2022 goda. T. 3: Vodnye bioresursy, akvakul'tura i ekologiya vodoemov. Kaliningrad: “Baltiyskaya gosudarstvennaya akademiya rybopromyslovogo flota”, 2022. S. 64–70.

184. Dudakova D.S., Dudakov M.O., Muhin I.A., Stanislavskaya E.V., Kapustina L.L. Vliyanie melkomasshtabnyh pridonnyh dvizheniy vody na prostranstvennoe raspredelenie perifitona i meyobentosa skal'noy litorali // Biologicheskie resursy: izuchenie, ispol'zovanie, ohrana. Mat. IV Vserossiyskoy nauchnoy konferencii. VoGU. Vologda 19–22 aprelya 2018 g. C. 91–100.

185. Dudakova D.S., Muhin I.A., Dudakov M.O. Prostranstvennaya slozhnost' skalistoy litorali kak faktor, vliyayuschiy na kolichestvennye i strukturnye harakteristiki soobschestv gidrobiontov // Biologicheskie resursy: izuchenie, ispol'zovanie, ohrana. Mat. Mezhregion. nauchno-praktich. konf. 2016. S. 39–46.

186. Dudka I.A. Vodnye nesovershennye griby SSSR. Kiev: Nauk. dumka, 1985. 188 s.

187. Duplakov S.N. Nekotorye nablyudeniya nad vertikal'nym raspredeleniem obrastaniy v Glubokom ozere // Trudy gidrobiol. stancii na Glubokom ozere. 1928. T. 6. Vyp. 4. S. 20.

188. Duplakov S.N. Materialy k izucheniyu perifitona // Tr. limnol. stancii v Kosine. 1933. Vyp. 16. S. 3–160.

189. D'yachenko I.P. Predvaritel'nye rezul'taty sravnitel'nyh issledovaniy orudiy lova planktona // Biologiya vnutr. vod. Inform. byul. 1960. № 8–9. S. 79–83.

190. D'yachenko I.P. Sravnitel'nyy analiz ulovistosti planktonocherpatelya sistemy Bogorova i planktonobatometra // Materialy po biologii i gidrologii volzhskih vodohranilisch. M.-L.: Izd-vo AN SSSR, 1963. S. 29–34.

191. Dyatlov S.E., Goncharov A.Yu., Bogatova Yu.I. Troficheskiy status severo-zapadnoy chasti Chernogo morya // Voda: gigiena i ekologiya. 2013a. № 1 (1). S. 51–60.

192. Dyatlov S.E., Koshelev A.V., Petrosyan A.G., Pavlova E.A., Sekundyak L.Yu. Integral'naya ocenka kachestva vody i donnyh otlozheniy poligona “Odesskiy region severozapadnoy chasti Chernogo morya” // Naukovі zapiski Ternopіl's'kogo nacіonal'nogo pedagogіchnogo unіversitetu іmenі Volodimira Gnatyuka. Serіya: Bіologіya. 2013b. № 2(55). S. 50–56.

193. Ermohin M.V. Ekologicheskaya struktura marginal'nyh uchastkov rechnyh biocenozov v perehodnoy zone voda-susha. Avtoref. diss. ... kand. biol. nauk. Samara, 2000. 18 s.

194. Esin E.V., Chebanova V.V., Leman V.N. Ekosistema maloy lososevoy reki Zapadnoy Kamchatki. Sreda obitaniya, donnoe naselenie i ihtiofauna. M: Tovarischestvo nauchnyh izdaniy KMK, 2009. 173 s.

195. Zhadin V.I. Fauna rek i vodohranilisch // Tr. Zool. in-ta. 1940. T. 5. Vyp. 3–4. 992 s.

196. Zhadin V.I. Obschie voprosy, osnovnye ponyatiya i zadachi gidrobiologii presnyh vod // Zhizn' presnyh vod SSSR. T. 3. M.–L.: Izd-vo AN SSSR, 1950. S. 7–112.

197. Zhadin V.I. Metodika izucheniya donnoy fauny vodoemov i ekologii donnyh bespozvonochnyh // Zhizn' presnyh vod SSSR. T. 4. Ch. 1 / pod red. V.I. Zhadina, E.N. Pavlovskogo. M.–L.: Izd-vo AN SSSR, 1956. S. 278–382.

198. Zhadin V.I. Metody gidrobiologicheskih issledovaniy. M.: Izd-vo Vysshaya shkola, 1960. S. 27–56.

199. Zhadin V.I., Gerd S.V. Reki, ozera i vodohranilischa SSSR, ih fauna i flora. M.: Uchpedgiz, 1961. 597 s.

200. Zhdanova S.M. Diaphanosoma mongolianum Ueno, 1938 (Cladocera: Sididae) v ozerah Yaroslavskoy oblasti (Rossiya) // Biologiya vnutr. vod. 2018. № 2. S. 20–28. DOI:https://doi.org/10.7868/S0320965218020031

201. Zhdanova S.M. Holodolyubivaya kolovratka Synchaeta lakowitziana Lucks 1912 (Rotifera, Synchaetidae) v ozere Plescheevo (Yaroslavskaya obl., Rossiya) // Zoologicheskiy zhurnal. 2023. T. 102. № 1. S. 22–26.

202. Zhdanova S.M., Malin M.I. Osobennosti podlednogo zooplanktona ozera Plescheevo (Yaroslavskaya obl., Rossiya) // Transformaciya ekosistem. 2023. № 3. S. 39–52.

203. Zhdanova S.M., Sabitova R.Z., Cvetkova M.V. Sostav i struktura zooplanktona ozera Plescheevo // Trudy Instituta biologii vnutrennih vod RAN. 2019. № 86(89). S. 34–56.

204. Zhivoglyadova L.A., Dairova D.S., Labay V.S.  Sostav sirtona i sutochnaya dinamika drifta donnyh bespozvonochnyh v r. Tym' i ee verhnem pritoke – ruch. Uglovom (o-v Sahalin) // Trudy VNIRO. 2015. T. 154. S. 57–69.

205. Zhizn' presnyh vod SSSR / red. Pavlovskiy E.N., Zhadin V.I. T. 4. Ch. 1. M.-L.: Izd-vo AN SSSR, 1956. 467 s.

206. Zhirkov I.A. Polihety Severnogo Ledovitogo okeana. M.: Yanus-K, 2001. 631 s.

207. Zhirkov I.A. Zhizn' na dne. Bio-geografiya i bio-ekologiya bentosa. M: T-vo nauchnyh izdaniy KMK, 2010. 453 s.

208. Zadereev E.S., Tolomeev A.P. Sposob opredeleniya vertikal'nogo raspredeleniya i razmernoy struktury zooplanktona v vodoeme // Patent RU 2 495 451 C1. 2013. Byul. № 28.

209. Zadereev E.S., Tolomeev A.P., Drobotov A.V. Nesinhronnye vertikal'nye migracii zooplanktona v stratificirovannyh ozerah // Sibirskiy ekologicheskiy zhurnal. 2012. № 4. S. 597–605.

210. Zadorina V.M. Sutochnaya dinamika drifta i sutochnaya ritmika pitaniya molodi semgi v rekah Kol'skogo poluostrova // Problemy biologii i ekologii atlanticheskogo lososya. L.: Nauka, 1985. S. 120–129.

211. Zadorina V.M. Vybor ekspozicii lovushki pri sbore prob drifta // Gidrobiol. zhurn. 1987. T. 23. № 2. S. 79–83.

212. Zaika V.E. Sravnitel'naya produktivnost' gidrobiontov. Kiev: Naukova dumka, 1983. 206 c.

213. Zaycev Yu.P. Vvedenie v ekologiyu Chernogo morya. Odessa: “Even”, 2006. 224 s.

214. Zaletaev V.S. Strukturnaya organizaciya ekotonov v kontekste upravleniya // Ekotony v biosfere. 1997. S. 11–30.

215. Zvyagincev A.Yu. Morskoe obrastanie v severo-zapadnoy chasti Tihogo okeana. Vladivostok: Dal'nauka, 2005. 432 c.

216. Zelenskaya M.S., Sidel'nikova M.V., Panova E.G., Pautov A.A., Krylova E.G., Pagoda Ya.O., Vlasov D.Yu. Griby filloplany v gorodskoy srede // Biosfera. 2017. T. 9. № 2. S. 136–151. DOI:https://doi.org/10.24855/BIOSFERA/V912/353

217. Zenkevich L.A. Biologiya morey SSSR. M.: AN SSSR, 1963. 719 s.

218. Zernov S.A. Obschaya gidrobiologiya. M.-L.: Izd-vo AN SSSR, 1949. 587 s.

219. Zehnov M.I., Kaleckaya S.L. Uskorennyy sposob prigotovleniya total'nyh mikropreparatov // Uchenye zapiski VVI. 1961. T. 17. S. 123–124.

220. Zinchenko T.D. Hironomidy poverhnostnyh vod basseyna Sredney i Nizhney Volgi (Samarskaya oblast'). Ekologo-faunisticheskiy obzor. Tol'yatti: IEVB RAN, 2002. 174 s.

221. Zinchenko T.D. Bioindikaciya prirodnyh i tehnogennyh gidrosistem Volzhskogo basseyna na primere hironomid (Diptera: Chironomidae). Avtoref. dis. ... d-ra biol. nauk. Tol'yatti, 2004. 38 s.

222. Zinchenko T.D. Raspredelenie hironomid i ih indikacionnaya znachimost' v ocenke kachestva vody rek Samarskoy oblasti. Tol'yatti: Anna, 2020. 207 s.

223. Zinchenko T.D., Vyhristyuk L.A., Shitikov V.K. Metodologicheskiy podhod k ocenke ekologicheskogo sostoyaniya rechnyh sistem po gidrohimicheskim i gidrobiologicheskim pokazatelyam // Izv. Samar. NC RAN. 2000. T. 2. № 2. S. 233–243.

224. Zolotarev V.A. Modelirovanie biologicheskih processov v vodoemah s ispol'zovaniem iskusstvennyh substratov // Matematicheskoe modelirovanie v problemah racional'nogo prirodopol'zovaniya: Tez. dokl. Novorossiysk, 1990. S. 68–69.

225. Ivanov A.V., Monchadskiy A.S, Polyanskiy Yu.I., Strelkov A.A. Bol'shoy praktikum po zoologii bespozvonochnyh. Tipy: Kol'chatye chervi, Chlenistonogie: Ucheb. posobie dlya studentov biolog, spec. un-tov. Ch. 2. 3-e izd., pererab. i dop. M.: Vysshaya shkola, 1983. 543 s.

226. Ivanov A.V., Polyanskiy Yu.I., Strelkov A.A. Bol'shoy praktikum po zoologii bespozvonochnyh. Prosteyshie, gubki, kishechnopolostnye, grebneviki, ploskie chervi, nemertiny, kruglye chervi: Ucheb. posobie dlya biol. spec. un-tov. 3-e izd., pererab. i dop. M.: Vysshaya shkola, 1981. 504 s.

227. Ivanova M.B. Vliyanie zagryazneniya na planktonnyh rakoobraznyh i vozmozhnosti ih ispol'zovaniya dlya opredeleniya stepeni zagryazneniya reki // Metody biologicheskogo analiza presnyh vod. L.: Nauka, 1976. S. 68–80.

228. Ivanova M.B. Produkciya planktonnyh rakoobraznyh v presnyh vodah. L.: ZIN AN SSSR, 1985. 222 s.

229. Ivanova M.B., Krylov P.I. Raschet “real'noy” produkcii zooplanktona na primere ozera Schuch'e (BASSR) // Troficheskie svyazi i ih rol' v produktivnosti prirodnyh vodoemov. L.: ZIN AN SSSR, 1983. S. 4–11.

230. Ivanova M.B., Simonyan A.A. Hischnoe pitanie Cyclops strenuus v. sevani Mesch. v ozere Sevan // Issledovaniya presnovodnyh i morskih bespozvonochnyh zhivotnyh. L.: ZIN AN SSSR, 1986. S. 129–141.

231. Ivanova M.B., Umnov A.A. Sposoby opredeleniya produkcii populyaciy vodnyh zhivotnyh // Obschie osnovy izucheniya vodnyh ekosistem. L.: Nauka, 1979. S. 119–133.

232. Ivanter E.V., Korosov A.V. Elementarnaya biometriya: ucheb. posobie. Petrozavodsk: Izd-vo PetrGU, 2010. 104 s.

233. Ivleva I.V. Temperatura sredy i skorost' energeticheskogo obmena u vodnyh zhivotnyh. Kiev: Nauk. Dumka, 1981. 232 s.

234. Izrael' Yu.A., Gasilina N.K., Abakumov V.A. Gidrobiologicheskaya sluzhba nablyudeniy i kontrolya poverhnostnyh vod v SSSR // Nauchnye osnovy kontrolya kachestva poverhnostnyh vod po gidrobiologicheskim pokazatelyam. L.: Gidrometeoizdat, 1981. S. 7–14.

235. Kazanceva T.I. Balansovaya model' ekosistemy melkogo vysokoevtrofnogo ozera // Zhurn. obsch. biologii. 2003. T. 64. № 2. S. 128–145.

236. Kamlyuk L.V. Energeticheskiy obmen u svobodnozhivuschih ploskih i kol'chatyh chervey i faktory ego opredelyayuschie // Zhurn. obsch. biol. 1974. T. 35. № 6. C. 874–885.

237. Karatygin I.V. Gribnye organizmy i ih rol' v evolyucii ekosistem // Botanicheskiy zhurnal. 1994. T. 79. № 2. S. 13–20.

238. Karzinkin G.S. Popytka prakticheskogo razresheniya ponyatiya “biocenoz”: v 2 ch.: Chast' II: Vliyanie razlichnyh faktorov na biocenoz // Russkiy zoologicheskiy zhurnal. 1927. № VII (2). S. 34–76.

239. Kariotipy i morfologiya lichinok triby Chironomini: Atlas. Novosibirsk: Nauka, 1991. 113 s.

240. Kastal'skaya-Karzinkina M.A. Metodika opredeleniya zhivyh i mertvyh otmershih komponentov planktona na fiksirovannom materiale // Tr. Kosinsk. limnol. st. 1935. T. 19. S. 91–103.

241. Katanskaya V.M. Vysshaya vodnaya rastitel'nost' kontinental'nyh vodoemov SSSR. Metody izucheniya. L: Nauka, 1981. 187 s.

242. Kashevarov G.S., Yakovlev V.A. Drift bespozvonochnyh v ravninnyh rekah Predkam'ya (na primere rek Mesha, Kazanka i Noksa). Kazan': Izd-vo Akademii nauk Respubliki Tatarstan, 2015. 133 s.

243. Kim G.V. Vodorosli perifitona Teleckogo ozera // Sibirskiy ekologicheskiy zhurnal. 2011. № 1. S. 33–41.

244. Kirichuk N.I., Pivkin M.V. Vtorichnye morskie griby, associirovannye s burymi vodoroslyami roda Sargassum zaliva Petra Velikogo (Yaponskoe more) // Mikologiya i fitopatologiya. 2015. T. 19. Vyp. 3. S. 146–150.

245. Kirpenko N.I., Usenko O.M. Vliyanie vysshih vodnyh rasteniy na mikrovodorosli (obzor) // Gidrobiol. zhurn. 2012. T. 48. № 6. S. 66–88.

246. Kiselev I.A. Plankton morey i kontinental'nyh vodoemov. T. 1. L.: Nauka, 1969. 658 s.

247. Kiselev I.A. Plankton morey i kontinental'nyh vodoemov. T. 2. Raspredelenie, sezonnaya dinamika, pitanie i znachenie. L.: Nauka, 1980. 440 s.

248. Kitaev S.P. O sootnoshenii nekotoryh troficheskih urovney i “shkalah trofnosti” ozer raznyh prirodnyh zon // V s'ezd Vseros. gidrob. ob-va. Kuybyshev, 1986. Ch. 2. S. 254–255.

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

250. Koval' L.G. Zoo- i nekroplankton Chernogo morya. Kiev: Naukova Dumka, 1984. 234 s.

251. Kozhova L.I., Ryzhkov L.P., Polina A.V. Biologicheskiy kontrol' kachestva vod. M.: Nauka, 1989. 144 s.

252. Kozhova O.M., Akinshina T.V. Klassifikaciya chistoty vod r. Angary po sostoyaniyu makrozoobentosa s ispol'zovaniem vyyavlennyh indikatornyh grupp organizmov // Gidrobiologicheskie i ihtiologicheskie issledovaniya v Vostochnoy Sibiri (Chteniya prof. M.M. Kozhova). Irkutsk: IGU, 1979. Vyp. 3. S. 55–74.

253. Kozhova O.M., Mel'nik N.G. Instrukciya po obrabotke prob planktona schetnym metodom. Irkutsk, 1978. 52 s.

254. Kolichestvennye metody v pochvennoy zoologii / red. Gilyarov M.S., Striganova B.R. M.: Nauka. 1987. 288 s.

255. Kol'cova T.I., Konoplya L.Ya., Maksimov V.I., Fedorov V.D. K voprosu o predstavitel'nosti vyborok pri analize fitoplanktonnyh prob // Gidrobiol. zhurnal. 1971. T. 7. № 3. S. 109–116.

256. Kol'cova T.I., Lihacheva N.E., Fedorov V.D. O kolichestvennoy obrabotke prob fitoplanktona. I. Sravnenie ob'emov vyborok pri issledovanii razlichnyh strukturnyh harakteristik morskogo fitoplanktona// Biologicheskie nauki. 1979. № 6. S. 96–100.

257. Kol'cova T.I., Uger E.G. O kolichestvennoy obrabotke prob fitoplanktona. III. Nekotorye voprosy raspredeleniya fitoplanktona v schetnoy kamere // Biologicheskie nauki. 1980. № 7. S. 103–108.

258. Komulaynen S.F. Metodicheskie rekomendacii po izucheniyu fitoperifitona v malyh rekah. Petrozavodsk: Karel'skiy nauchnyy centr RAN, 2003. 43 s.

259. Komulaynen S.F. Ekologiya fitoperifitona malyh rek Vostochnoy Fennoskandii. Petrozavodsk: Izd-vo KarNC RAN, 2004. 182 s.

260. Komulaynen S.F., Kruglova A.N., Hrennikov V.V., Shirokov V.A. Metodicheskie rekomendacii po izucheniyu gidrobiologicheskogo rezhima malyh rek. Petrozavodsk: Izd-vo KarNC RAN, 1989. 40 s.

261. Komulaynen S.F., Hrennikov V.V. Pitanie bespozvonochnyh epiliptona v nebol'shoy reke // Problemy lososevyh na Evropeyskom Severe. Petrozavodsk: KarNC RAN, 1993. S. 89–105.

262. Konovalova G.V. Paraziticheskie peridinei (Dinoflagellates) i ellobiopsidy (Ellobiopsidae) pribrezhnyh vod Yaponskogo morya // Biologiya morya. 2007. T. 33. № 3. S. 167–175.

263. Konovalova O.P., Bubnova E.N. Griby na buryh vodoroslyah Ascophyllum nodosum i Pelvetia canaliculata v Kandalakshkom zalive Belogo morya // Mikologiya i fitopatologiya. 2011. T. 45. Vyp. 3. S. 240–248.

264. Konstantinov A.S. Ispol'zovanie teorii mnozhestv v biogeograficheskom i ekologicheskom analize // Uspehi sovr. biologii. 1969. T. 67. № 1. S. 99–108.

265. Konstantinov A.S. Obschaya gidrobiologiya. M.: Vysshaya shkola, 1979. 480 s.

266. Konstantinov A.S. Obschaya gidrobiologiya. 4-e izd. M.: Vysshaya shkola, 1986. 472 s.

267. Kopylov A.I., Lazareva V.I., Kosolapov D.B. Potoki veschestva i energii v planktonnoy troficheskoy seti ozera // Sostoyanie ekosistemy oz. Nero v nachale XXI veka. M.: Nauka, 2008. S. 293–324.

268. Kopylov A.I., Lazareva V.I., Pyrina I.L., Myl'nikova Z.M., Maslennikova T.S. Mikrobnaya “petlya” v planktonnoy troficheskoy seti krupnogo ravninnogo vodohranilischa // Uspehi sovremennoy biologii. 2010. № 6. S. 544–556.

269. Kopytina N.I. Vysshie morskie griby pelagicheskih i donnyh biotopov severo-zapadnogo regiona Chernogo morya. Diss. … kand. biol. nauk. Sevastopol', 2009. 210 s.

270. Kopytina N.I. Ustroystvo dlya lovli melkih predmetov, plavayuschih na poverhnosti vody: pat. na poleznuyu model' 194104 Rossiyskaya Federaciya. MPK E02B 15/00 (2006.01); E02B 15/10 (2006.01); zayavitel' i patentoobladatel' Federal'noe gosudarstvennoe byudzhetnoe uchrezhdenie nauki Federal'nyy issledovatel'skiy centr "Institut biologii yuzhnyh morey imeni A.O. Kovalevskogo RAN" (FIC InBYuM); № 2019127600; zayavl. 30.08.2019; opubl. 28.11.2019, Byul. № 34.

271. Kopytina N.I. Mikobiota pelagiali Odesskogo regiona severo-zapadnoy chasti Chernogo morya // Vestnik Tomskogo gosudarstvennogo universiteta. Biologiya. 2020. № 52. S. 140–163. DOI:https://doi.org/10.17223/19988591/52/8

272. Kopytina N.I., Bocharova E.A. Mikobiota anaerobnoy pelagiali Chernogo morya (po materialam reysov NIS “Professor Vodyanickiy” №№ 87, 89, 91, 94, 98. 2016–2017 gg.): sv-vo o gos. reg. bazy dannyh 2019621585 Rossiyskaya Federaciya; pravoobladatel' Federal'noe gosudarstvennoe byudzhetnoe uchrezhdenie nauki Federal'nyy issledovatel'skiy centr “Institut biologii yuzhnyh morey imeni A.O. Kovalevskogo RAN”. № 2019621510; zayavl. 30.08.2019; opubl. 09.09.2019, Byul. № 9.

273. Kopytina N.I., Bocharova E.A., Gulina L.V. Novye nahodki kul'tiviruemyh mikromicetov v glubokovodnyh otlozheniyah Chernogo morya // Trudy Instituta biologii vnutrennih vod im. I.D. Papanina RAN. 2024. Vyp. 105(108). S. 45–53. DOI:https://doi.org/10.47021/0320-3557-2024-45-53

274. Kopytina N.I., Lebedovskaya M.V. Mikromicety – epibionty gigantskoy ustricy Crassostrea gigas, kul'tiviruemoy v Chernom more // Mors'kiy ekologіchniy zhurnal. 2014. T. 13. №. 2. S. 41–44.

275. Kopytina N.I., Rodionova N.Yu., Bocharova E.A. Vliyanie abioticheskih faktorov na strukturu kompleksov gribov v pelagiali Chernogo i Azovskogo morey letom 2019 g. // Vestnik Tomskogo gosudarstvennogo universiteta. Biologiya. 2023. № 62. S. 109–128. DOI:https://doi.org/10.17223/19988591/62/6

276. Kopytina N.I., Sergeeva N.G. Associacii gribov i nematod v Chernom more // Trudy Instituta biologii vnutrennih vod im. I.D. Papanina RAN. 2023. Vyp. 102(105). S. 36–46. DOI:https://doi.org/10.47021/0320-3557-2023-36-46

277. Koreneva E.A., Chalova I.V. Ekologo-toksikologicheskaya harakteristika vodoemov na territorii Vorkutinskogo promyshlennogo rayona // Bioindikaciya sostoyaniya prirodnoy sredy Vorkutinskoy tundry (Trudy Komi nauchnogo centra UrO Rossiyskoy AN; № 143). Syktyvkar, 1996. S. 92–102.

278. Koreneva T.G., Sigareva L.E., Latkovskaya E.M. Soderzhanie hlorofilla a v donnyh otlozheniyah melkovodnoy laguny Busse (ostrov Sahalin) // Biologiya morya. 2021. T. 47. № 5. S. 339–349.

279. Korlyakov K.A. Metod "carapannyh" stekol obrastaniya dlya intensifikacii izucheniya strukturno-dinamicheskih harakteristik perifitona // Vestnik soveta molodyh uchenyh i specialistov Chelyabinskoy oblasti. 2017. T. 1. № 3(18). S. 5–14.

280. Korlyakov K.A., Nohrin D.Yu. Udel'naya poverhnost' makrofitov i biomassa zoofitosa razlichnyh vodoemov Yuzhnogo Zaural'ya // Biologiya vnutr. vod. 2011. № 3. S. 30–34.

281. Korneva L.G. Fitoplankton Rybinskogo vodohranilischa: sostav, osobennosti raspredeleniya, posledstviya evtrofirovaniya // Sovremennoe sostoyanie ekosistemy Rybinskogo vodohranilischa. SPb.: Gidrometeoizdat, 1993. S. 50–113.

282. Korneva L.G. Fitoplankton vodohranilisch basseyna Volgi. Kostroma: Kostromskoy pechatnyy dom, 2015. 284 s.

283. Kocharina S.L. Osobennosti mikroraspredeleniya i produkciya populyaciy lichinok treh vidov setepletuschih rucheynikov na uchastke ples–perekat metaritrali r. Kedrovaya v vesenne-letniy period // Chteniya pamyati Vladimira Yakovlevicha Levanidova. Vyp. 1. Vladivostok, 2001. S. 38–54.

284. Krahmal'nyy A.F. Dinofitovye vodorosli Ukrainy (illyustrirovannyy opredelitel'). Kiev: Al'terpres, 2011. 444 s.

285. Kryzhanovskiy S.G., Disler N.N., Smirnova E.N. Ekologo-morfologicheskie zakonomernosti razvitiya okunevidnyh ryb (Percoidae) // Tr. In-ta morfologii zhivotnyh im. A.N. Severcova AN SSSR. M.: Izd-vo AN SSSR. 1953. Vyp. 10. S. 3–139.

286. Krylova Yu.V., Kurashov E.A., Mitrukova G.G. Komponentnyy sostav letuchih nizkomolekulyarnyh organicheskih soedineniy Ceratophyllum demersum (Ceratophyllaceae), proizrastayuschego v razlichnyh klimaticheskih usloviyah // Voda: himiya i ekologiya. 2016. № 8. S. 11–25.

287. Krylova Yu.V., Kurashov E.A., Rusanov A.G. Sravnitel'nyy analiz komponentnogo sostava nizkomolekulyarnogo metaboloma gorca zemnovodnogo (Persicaria amphibia (L.) Delarbre) iz raznotipnyh mestoobitaniy v Ladozhskom ozere // Trudy Karel'skogo nauchnogo centra RAN. 2020. № 4. S. 95–114. DOI:https://doi.org/10.17076/lim1141

288. Krylova Yu.V., Kurashov E.A., Protopopova E.V., Hodonovich V.V., Yavid E.Ya., Kuhareva G.I. Sostav nizkomolekulyarnogo metaboloma Potamogeton perfoliatus L. kak indikator transformacii ekologicheskogo sostoyaniya litoral'noy zony // Biologiya vnutr. vod. 2024. T. 50. № 4. S. 555–565.

289. Krylov A.V. Zooplankton ravninnyh malyh rek. M.: Nauka, 2005. 263 s.

290. Krylov A.V., Kulakov D.V., Chalova I.V., Papchenkov V.G. Zooplankton presnyh vodoemov v usloviyah vliyaniya gidrofil'nyh ptic / otv. red. A.I. Kopylov. Izhevsk: Izdatel' Permyakov S.A., 2012. 204 s.

291. Krylov A.V., Papchenkov V.G., Cel'movich O.L., Kosolapova N.G., Scherbina G.H., Skal'skaya I.A., Dgebuadze Yu.Yu. Razvitie osnovnyh elementov bioty na raznotipnyh biotopah reki i ee raspredelenie po prodol'nomu profilyu // Ekosistema maloy reki v izmenyayuschihsya usloviyah sredy / pod red. Krylova A.V., Bobrova A.A. M.: T-vo nauchn. izd. KMK, 2007. S. 333–349.

292. Krylov A.V., Cvetkov A.I., Malin M.I. Vertikal'noe raspredelenie zooplanktona maloy reki // Povolzhskiy ekologicheskiy zhurnal. 2009. № 1. S. 47–53.

293. Krylov P.I., Chernova E.N. Uravneniya zavisimosti massy tela ot dliny tela hischnyh kladocer (Leptodora kindtii (Focke, 1844), Bythtrephes longimanus Leidig, 1860 i Cercopagis pengoi (Ostroumov, 1891)) // Sovremennye problemy produkcionnoy gidrobiologii. M.: Tov. nauch. izdaniy KMK, 2006. S. 175–188.

294. Kryuchkova N.M. Effektivnost' ispol'zovaniya pischi zooplanktonom // Bioproduktivnost' ozer Belorussii. Minsk: Belorusskiy un-t, 1971. S. 114–135.

295. Kryuchkova N.M. Effektivnost' ispol'zovaniya usvoennoy pischi na rost u rakoobraznyh // Effektivnost' rosta u gidrobiontov. Sb. dokladov sessii Belorusskogo otdeleniya Vses. gidrobiol. o-va, posvyaschennyh pamyati vydayuschegosya uchenogo V.S. Ivleva. Minsk, yanvar' 1985. Gomel', 1986. S. 62–73.

296. Kryuchkova N.M. Struktura soobschestv zooplanktona v vodoemah raznogo tipa // Produkcionno-gidrobiologicheskie issledovaniya vodnyh ekosistem. L.: ZIN AN SSSR, 1987. S. 184–198.

297. Kuznecov E.A. Gribnye i gribopodobnye organizmy morskih, solonovatovodnyh i presnovodnyh vodoemov (uchebnoe posobie). M.: Izd-vo OOO “Akademiya cvetovodstva”, 2003. 120 s.

298. Kuznecov S.I. Mikroflora ozer i ee geohimicheskaya deyatel'nost'. Leningrad: Nauka, 1970. 439 s.

299. Kuznecov S.I., Dubinina G.A. Metody izucheniya vodnyh mikroorganizmov. M.: Nauka, 1989. 288 s.

300. Kuznecova M.A. Strukturnye perestroyki v zooplanktonnom soobschestve evtrofirovannyh vodoemov s poziciy predstavleniy o sukcessii // Ekologiya. 1996. № 1. S. 77–80.

301. Kuznecova M.A., Lavrova T.V., Bayanov N.G. K probleme deevtrofikacii ozer // IX S'ezd Gidrobiologicheskogo obschestva RAN. Tez. dokl. T. 1. Tol'yatti: In-t ekologii volzhskogo basseyna, 2006. S. 249.

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

303. Kuz'min G.V. Tablicy dlya vychisleniya biomassy vodorosley. Preprint. Magadan, 1984. 47 s.

304. Kurakov A.V., Kokaeva L.Yu. Metody izucheniya raznoobraziya gribov v nazemnyh i vodnyh ekosistemah. Uchebno-metodicheskoe posobie. M.: Izd-vo Nacional'noy akademii mikologii. 2023. 128 s.

305. Kurashov E.A. Meyobentos kak komponent ozernoy ekosistemy. SPb: “Alga-Fond”, 1994. 224 s.

306. Kurashov E.A. Ustroystvo dlya vydeleniya meyofauny iz peschanistyh gruntov / Red. Gidrobiol. zhurn. Kiev, 1986. 6 s. Dep. v VINITI 11.09.86, № 6628-B.

307. Kurashov E.A. Eksperimental'noe izuchenie pitaniya litoral'nyh hischnikov Acanthocyclops viridis Jurine i Atractides (Megapus) gracilis Sokolow meyobentosom v Ladozhskom ozere // Ekologiya. 1989. № 1. S. 42–49.

308. Kurashov E.A. Meyobentos ozernyh ekosistem: ekologiya i reakciya na antropogennye vozdeystviya: Avtoref. dis. ... dokt. biol. nauk. SPb., 1997. 52 s.

309. Kurashov E.A. Metody i podhody dlya kolichestvennogo izucheniya presnovodnogo meyobentosa // Aktual'nye voprosy izucheniya mikro-, meyozoobentosa i fauny zarosley presnovodnyh vodoemov. Tematicheskie lekcii i materialy I Mezhdunarodnoy shkoly-konferencii, Rossiya, Borok, 2–7 oktyabrya 2007 g. Nizhniy Novgorod: Vektor TiS, 2007a. S. 5–35.

310. Kurashov E.A. Meyobentos v presnovodnyh ekosistemah. Ego rol' i perspektivy issledovaniya // Aktual'nye voprosy izucheniya mikro-, meyozoobentosa i fauny zarosley presnovodnyh vodoemov. Tematicheskie lekcii i materialy I Mezhdunarodnoy shkoly-konferencii, Rossiya, Borok, 2–7 oktyabrya 2007 g. Nizhniy Novgorod: Vektor TiS, 2007b. S. 36–71.

311. Kurashov E.A., Raspopov I.M., Andronikova I.N. Litoral'naya zona (terminy, ponyatiya, problematika, istoriya izucheniya, opisanie tochek otbora) // Litoral'naya zona Ladozhskogo ozera. SPb.: Nestor-Istoriya, 2011. 416 s.

312. Kurashov E.A., Krylova Yu.V. Nizkomolekulyarnye vtorichnye metabolity vysshih vodnyh rasteniy i perspektivy upravleniya avtotrofnym zvenom v vodnyh ekosistemah // Biologiya vnutr. vod: Mat. XV Shkoly-konferencii molodyh uch. (Borok, 19–24 oktyabrya 2013 g.). Kostroma: OOO “Kostromskoy pechatnyy dom”, 2013. S. 29–60.

313. Kurashov E.A., Krylova Yu.V., Egorova A.A., Suschenko A.S., Hodonovich V.V., Yavid E.Ya. Perspektivy ispol'zovaniya nizkomolekulyarnogo metaboloma vodnyh makrofitov dlya indikacii ekologicheskogo sostoyaniya vodnyh ekosistem // Voda: himiya i ekologiya. 2018a. № 1–3. S. 68–79.

314. Kurashov E.A., Fedorova E.V., Krylova Yu.V. Ispol'zovanie metoda QSAR dlya vyyavleniya naibolee perspektivnyh allelohemikov v otnoshenii cianobakteriy // Rossiyskiy zhurnal prikladnoy ekologii. 2018b. № 4 (16). S. 56–61.

315. Kurashov E.A., Krylova Yu.V., Rusanov A.G. Izmenenie nizkomolekulyarnogo metaboloma chuzherodnogo vida Potamogeton pectinatus L. v Ladozhskom ozere v sravnenii s nativnym arealom // Rossiyskiy zhurnal biologicheskih invaziy. 2020. T. 13. № 2. S. 74–95.

316. Kurashov E.A., Krylova Yu.V., Rusanov A.G., Yavid E.Ya., Hodonovich V.V. Zakonomernosti formirovaniya nizkomolekulyarnogo metaboloma makrofitov // Sovremennoe sostoyanie i problemy antropogennoy transformacii ekosistemy Ladozhskogo ozera v usloviyah izmenyayuschegosya klimata / Red. Kondrat'ev S.A., Pozdnyakov Sh.R., Rumyancev V.A. SPb: RAN, 2021. S. 425–431.

317. Kutikova L.A., Gutel'maher B.L. Vliyanie sostava pischi na rost i razmnozhenie Asplanchna brightwelli Gosse (Rotatoria) // Eksperimental'nye i polevye issledovaniya biologicheskih osnov produktivnosti ozer. L.: Zool. in-t AN SSSR, 1979. S. 21–28.

318. Lazareva V.I. Zooplankton malyh ozer Darvinskogo zapovednika v svyazi s indikaciey antropogennogo zakisleniya. Diss. … kand. biol. nauk. Borok, 1991. 198 s.

319. Lazareva V.I. Chislo vidov i taksonomicheskoe raznoobrazie v soobschestvah zooplanktona malyh ozer, podverzhennyh zakisleniyu // Zoocenozy vodoemov basseyna verhney Volgi v usloviyah antropogennogo vozdeystviya. SPb.: Gidrometeoizdat, 1993. S. 3–19.

320. Lazareva V.I. Transformaciya soobschestv zooplanktona malyh ozer pri zakislenii // Struktura i funkcionirovanie ekosistem acidnyh ozer. SPb.: Nauka, 1994. S. 150–169.

321. Lazareva V.I. Mnogoletnie variacii struktury zooplanktona Rybinskogo vodohranilischa // Vodnye resursy. 1997. № 1. S. 90–96.

322. Lazareva V.I. Sezonnyy cikl razvitiya i pitanie hischnyh kolovratok Asplanchna priodonta Gosse v Rybinskom vodohranilische // Biologiya vnutr. vod. 2004. № 4. S. 59–68.

323. Lazareva V.I. Sravnitel'nyy analiz sostava i obiliya letnego zooplanktona Rybinskogo vodohranilischa v 1987–1988 gg. i 1997–2004 gg. // Biologicheskie resursy presnyh vod: bespozvonochnye. Rybinsk: Izd-vo OAO “Rybinskiy dom pechati”, 2005. S. 182–224.

324. Lazareva V.I. Dinamika struktury i obiliya zooplanktona Rybinskogo vodohranilischa kak indikator fluktuaciy klimata i antropogennogo pressa v basseyne Verhney Volgi // Bioindikaciya v monitoringe presnovodnyh ekosistem. Sb. materialov Mezhdunar. konf. SPb.: LEMA, 2007. S. 240–244.

325. Lazareva V.I. Sopostavimost' razlichnyh metodov sbora zooplanktona v ravninnom vodohranilische // Ekologiya i morfologiya bespozvonochnyh kontinental'nyh vod / red. Krylov A.V. Mahachkala: Izd-vo Nauka DNC, 2010a. S. 251–261.

326. Lazareva V.I. Struktura i dinamika zooplanktona Rybinskogo vodohranilischa / red. Kopylov A.I. M.: T-vo nauchn. izdaniy KMK, 2010b. 183 s.

327. Lazareva V.I. Rasselenie chuzherodnyh ponto-kaspiyskih vidov zooplanktona v vodohranilischah Volgi i Kamy // Rossiyskiy zhurnal biologicheskih invaziy. 2019. № 3. S. 29‒52.

328. Lazareva V.I. Mnogoletnie izmeneniya sostava i obiliya zooplanktona vodohranilisch r. Kamy // Biologiya vnutr. vod. 2020. № 3. S. 260‒275. DOI:https://doi.org/10.31857/S0320965220030110

329. Lazareva V.I. Rasprostranenie nekotoryh ponto-kaspiyskih i chuzherodnyh kopepod (Crustacea, Copepoda) v planktone vodoemov basseyna reki Don // Rossiyskiy zhurnal biologicheskih invaziy. 2022a. № 3. S. 79–98. DOI:https://doi.org/10.35885/1996-1499-15-3-79-98

330. Lazareva V.I. Sostav, struktura i osobennosti prostranstvennogo raspredeleniya zooplanktona v Sheksninskom vodohranilische (Verhnyaya Volga, Rossiya) // Biologiya vnutr. vod. 2022b. № 6. S. 711–724. DOI:https://doi.org/10.31857/S0320965222060122

331. Lazareva V.I. Troficheskie vzaimodeystviya v zooplanktone Cimlyanskogo vodohranilischa (r. Don, Rossiya) // Biologiya vnutr. vod. 2022v. № 3. S. 264–277. DOI:https://doi.org/10.31857/S0320965222030135

332. Lazareva V.I., Mineeva N.M., Lapteva N.A. i dr. Osobennosti producirovaniya i destrukcii organicheskogo veschestva v bolotnyh ozerah, ispytyvayuschih vozdeystvie kislotnyh atmosfernyh osadkov // Biologiya vnutr. vod. 2000. № 2. S. 77–80.

333. Lazareva V.I., Lebedeva I.M., Ovchinnikova N.K. Izmeneniya v soobschestve zooplanktona Rybinskogo vodohranilischa za 40 let // Biologiya vnutr. vod. 2001. № 4. S. 62–73.

334. Lazareva V.I., Zhgareva N.N., Gusakov V.A., Ivanov V.K. Struktura troficheskoy seti soobschestv bespozvonochnyh v treh nebol'shih ozerah s razlichnym urovnem zakisleniya vod: zooplankton // Biologiya vnutr. vod. 2003. № 1. S. 49–57.

335. Lazareva V.I., Smirnova S.M., Frolova A.N. Dominantnye kompleksy rakoobraznyh i kolovratok vysokoevtrofnogo oz. Nero (Yaroslavskaya obl.) // Biologiya vnutr. vod. 2007. № 1. S. 61–72.

336. Lazareva V.I., Smirnova S.M. Rakoobraznye i kolovratki // Sostoyanie ekosistemy oz. Nero v nachale XXI veka. M.: Nauka, 2008. S. 175–210.

337. Lazareva V.I., Kopylov A.I. Produktivnost' zooplanktona na pike evtrofirovaniya ekosistemy ravninnogo vodohranilischa: znachenie bespozvonochnyh hischnikov // Uspehi sovremennoy biologii. 2011. T. 131. № 3. S. 300–310.

338. Lazareva V.I., Sokolova E.A. Metazooplankton ravninnogo vodohranilischa v period potepleniya klimata: biomassa i produkciya // Biologiya vnutr. vod. 2015. № 3. S. 30. DOI:https://doi.org/10.7868/S0320965215030092

339. Lazareva V.I., Kopylov A.I., Sokolova E.A., Pryanichnikova E.G. Veligery dreyssenid v troficheskoy seti planktona Rybinskogo vodohranilischa // Povolzhskiy ekologicheskiy zhurnal. 2015. № 1. S. 42–54.

340. Lazareva V.I., Sokolova E.A. Obespechennost' pischey planktofagov v Rybinskom vodohranilische v usloviyah potepleniya klimata: dinamika i produktivnost' zooplanktona // Geterotrofnoe zveno vnutrennih i konturnyh soobschestv presnovodnyh ekosistem. Yaroslavl': Filigran', 2016. Tr. In-ta biologii vnutrennih vod RAN. Vyp. 74 (77). S. 77–92.

341. Lazareva V.I., Sabitova R.Z., Sokolova E.A. Osobennosti struktury i raspredeleniya pozdneletnego (avgust) zooplanktona v vodohranilischah Volgi // Tr. In-ta biologii vnutrennih vod RAN. 2018. Vyp. 82(85). S. 28–51. DOI:https://doi.org/10.24411/0320-3557-2018-1-0011

342. Lazareva V.I., Stepanova I.E., Cvetkov A.I., Pryanichnikova E.G., Perova S.N. Izmenenie kislorodnogo rezhima vodohranilisch Volgi i Kamy v period potepleniya klimata: posledstviya dlya zooplanktona i zoobentosa // Tr. In-ta biologii vnutrennih vod RAN. 2018. Vyp. 81(84). S. 47–84. DOI:https://doi.org/10.24411/0320-3557-2018-1-0005

343. Lazareva V.I., Sabitova R.Z. Ranneletniy zooplankton ozer Vozhe i Lacha (Vologodskaya oblast') // Tr. In-ta biologii vnutrennih vod RAN. 2021. Vyp. 94(97). S. 56‒76. DOI:https://doi.org/10.47021/0320-3557-2021-56-76

344. Lakin G.F. Biometriya. Uchebnoe posobie dlya biol. spec. vuzov, 4-e izd., pererab. i dop. M.: Vysshaya shkola, 1990. 352 s.

345. Lebedev Yu.M. Chto takoe malaya reka? // Malye reki: Sovremennoe ekologicheskoe sostoyanie, aktual'nye problemy. Tol'yatti, 2001. S. 154.

346. Levanidov V.Ya. Vosproizvodstvo amurskih lososey i kormovaya baza ih molodi v pritokah Amura // Izv. TINRO. 1969. T. 67. 243 s.

347. Levanidov V.Ya. Biomassa i struktura donnyh biocenozov malyh vodotokov Chukotskogo poluostrova // Presnovodnaya fauna vodotokov Chukotskogo poluostrova, Vladivostok, 1976. S. 104–122.

348. Levanidov V.Ya. Biomassa i struktura donnyh biocenozov reki Kedrovoy // Presnovodnaya fauna zapovednika “Kedrovaya pad'”. Tr. Biol.-pochv. in-ta DVNC AN SSSR. Vladivostok: DVNC AN SSSR, 1977. T. 45 (148). S. 126–159.

349. Levanidov V.Ya., Levanidova I.M. Drift vodnyh nasekomyh v reke Amur // Sistematika i ekologiya ryb kontinental'nyh vodoemov Dal'nego Vostoka. Vladivostok: DVNC AN SSSR, 1979. S. 3–29.

350. Levanidova I.M. Amfibioticheskie nasekomye gornyh oblastey Dal'nego Vostoka SSSR. L.: Nauka, 1982. 215 s.

351. Levanidova I.M., Levanidov V.Ya. K voprosu o migraciyah donnyh bespozvonochnyh v tolsche vody Dal'nevostochnyh rek // Izv. TINRO. 1962. T. 48. S. 178–189.

352. Levanidova I.M., Nikolaeva E.T. Bentostok v rekah Kamchatki // Izv. TINRO. 1968. T. 64. S. 291–299.

353. Litvinov M.A. Metody izucheniya pochvennyh mikroskopicheskih gribov. L.: Nauka, 1969. 124 s.

354. Litvinov M.A., Dudka I.A. Metody issledovaniya mikroskopicheskih gribov presnyh i solenyh (morskih) vodoemov. L.: Nauka, 1975. 151 s.

355. Litvinyuk D.A. Morskoy zooplankton i metodicheskie problemy ego izucheniya: Dissertaciya ... kand. biol. nauk: 03.02.10 / M: MGU, 2015. 147 s.

356. Lihacheva N.E., Levich A.P., Kol'cova T.I. O kolichestvennoy obrabotke prob fitoplanktona. II. Rangovoe raspredelenie chislennosti fitoplanktona proliva Vil'kickogo // Biologicheskie nauki. 1979. № 9. S. 102–106.

357. Loskutova O.A., Ponomarev V.I. Fauna vodoemov basseyna r. Malyy Patok (Pripolyarnyy Ural). II. Bespozvonochnye // Biologiya vnutr. vod. 2019. № 4–2. S. 8–15. DOI:https://doi.org/10.1134/S0320965219040272.

358. Luferov V.P. Kratkaya sravnitel'naya harakteristika epifauny zatoplennyh lesov volzhskih vodohranilisch // Plankton i bentos vnutrennih vodoemov. Tr. In-ta biologii vnutrennih vod. 1966. Vyp. 8(2). S. 16–20.

359. Luferova L.A., Monakov A.V. Zooplankton Rybinskogo vodohranilischa v 1956–1963 gg. // Plankton i bentos vnutrennih vodoemov. L.: Nauka, 1966. S. 40–55.

360. Lysenko V.S., Varduni T.V., Soyer V.G., Krasnov V.P. Fluorescenciya hlorofilla rasteniy kak pokazatel' ekologicheskogo stressa: teoreticheskie osnovy primeneniya metoda // Fundamental'nye issledovaniya. 2013. № 4. S. 112–120.

361. Lyubimenko V.N. Hlorofill v otlozheniyah ozernogo ila // Zhurn. Russk. botan. obschestva. 1923. № 6. S. 97–105.

362. Lyahov S.M., Zhidkov L.F. Donnaya lovushka – pribor dlya izucheniya snosa donnyh organizmov v rechnom potoke // Zool. zhurn. 1953. T. 32. Vyp. 5. S. 1020–1024.

363. Makarevich T.A. Vklad perifitona v summarnuyu pervichnuyu produkciyu presnovodnyh ekosistem (obzor) // Vestnik Tyumenskogo gos. un-ta. 2005. № 5. S. 77.

364. Makarceva E.S. Izmenenie struktury i kolichestvennyh pokazateley zooplanktona pri povyshenii urovnya trofii ozer // Izmenenie struktury ekosistem ozer v usloviyah vozrastayuschey biogennoy nagruzki. L.: Nauka, 1988. S. 221–241.

365. Makrushin A.V. Biologicheskiy analiz kachestva vod. L.: ZIN AN SSSR, 1974. 60 s.

366. Makrushin A.V. Bioindikaciya zagryazneniy vnutrennih vodoemov // Biologicheskie metody ocenki prirodnoy sredy. M.: Nauka, 1978. S. 123–137.

367. Makrushin A.V. Angidrobioz pervichnovodnyh bespozvonochnyh: sohranenie zhiznesposobnosti v vysushennom sostoyanii. L.: Nauka, 1985. 104 s.

368. Maksimov V.N. Metrologicheskie svoystva indeksov shodstva (v prilozhenii k biologicheskomu analizu kachestva vod) // Kompleksnye ocenki kachestva poverhnostnyh vod. L.: Gidrometeoizdat, 1984. S. 77–84.

369. Maksimov V.N., Zhitina L.S. Beta-raznoobrazie ekologicheskih soobschestv: metod izmereniya i ispol'zovanie pri analize rezul'tatov ekologicheskogo monitoringa. Soobschenie 1 // Vestn. MGU. Ser. 16. Biologiya. 1997. № 2. S. 22–24.

370. Markevich G.I. Sutochnaya dinamika vertikal'nogo raspredeleniya massovyh form zooplanktona v oz. Siverskom // Ekologiya vodnyh organizmov verhnevolzhskih vodohranilisch. L.: Nauka, 1982. S. 100–122.

371. Martynova M.V. Azot i fosfor v donnyh otlozheniyah ozer i vodohranilisch. M.: Nauka, 1984. 160 s.

372. Marfenina O.E. Antropogennaya ekologiya pochvennyh gribov. M.: Medicina dlya vseh. Nacional'naya Akademiya Mikologii, 2005. 196 s.

373. Marchenko A.M. Griby – vozbuditeli mikozov ryb na rybovodnyh zavodah Sahalina // Mikologiya i fitopatologiya. 1988. T. 22. Vyp. 3. S. 212–216.

374. Mastakov I.A. Imitacionnaya model' raspredeleniya substratov dlya mshanok na uchastke reki Vologdy // HVI Ezhegodnaya nauchnaya sessiya aspirantov i molodyh uchenyh: Mat. Vseros. nauch. konf. V 3-h t. Vologda, 29 noyabrya 2022 g. / Gl. red. Karaganova M.M. T. 1. Vologda: Vologodskiy gosudarstvennyy universitet, 2023. S. 557–561.

375. Masyuk N.M., Radchenko M.I. Metody sbora i izucheniya vodorosley // Vodorosli. Spravochnik. Kiev: Naukova dumka, 1989. S. 170–188.

376. Matkovskiy A.K. K ocenke ekologicheskogo sostoyaniya vodoemov po gidrobiologicheskim pokazatelyam // VII s'ezd Vseros. gidrob. ob-va: tez. dokl. T. 1. Kazan', 1996. S. 67–69.

377. Matorin D.N., Osipov V.A., Venediktov P.S., Rubin A.B. Zamedlennaya fluorescenciya rasteniy i vodorosley: teoreticheskie i prakticheskie aspekty. M.: Al'teks, 2011. 220 s.

378. Messineva M.A., Uspenskaya V.I. Special'nye priemy i metody kolichestvennoy harakteristiki biocenozov obrastaniy // Biocenozy obrastaniy v kachestve biopoglotitelya (novyy sposob predvaritel'noy ochistki vody dlya celey vodosnabzheniya). M.: MGU, 1961. S. 117–142.

379. Meteleva N.Yu., Devyatkin V.G. Formirovanie i produktivnost' perifitona Rybinskogo vodohranilischa: pervichnaya produkciya // Biologiya vnutr. vod. 2005. № 3. S. 44.

380. Metodika izucheniya biogeocenozov vnutrennih vodoemov / Pod red. F.D. Morduhay-Boltovskogo. M.: Nauka, 1975. 240 s.

381. Metodika opredeleniya posledstviy negativnogo vozdeystviya pri stroitel'stve, rekonstrukcii, kapital'nom remonte ob'ektov kapital'nogo stroitel'stva, vnedrenii novyh tehnologicheskih processov i osuschestvlenii inoy deyatel'nosti na sostoyanie vodnyh biologicheskih resursov i sredy ih obitaniya i razrabotki meropriyatiy po ustraneniyu posledstviy negativnogo vozdeystviya na sostoyanie vodnyh biologicheskih resursov i sredy ih obitaniya, napravlennyh na vosstanovlenie ih narushennogo sostoyaniya. Prilozhenie k prikazu Federal'nogo agentstva po rybolovstvu ot 6 maya 2020 g. № 238. VNIRO, 2020. 23 s.

382. Metodicheskie voprosy izucheniya pervichnoy produkcii planktona vnutrennih vodoemov / Pod red. Pyrinoy I.L. SPb: Gidrometeoizdat, 1993. 168 s.

383. Metodicheskie rekomendacii po sboru i obrabotke materialov pri gidrobiologicheskih issledovaniyah na presnovodnyh vodoemah: Zoobentos i ego produkciya / Pod red. Salazkina A.A., Alimova A.F., Finogenovoy N.P. L.: GosNIORH, 1984. 52 s.

384. Metodicheskie rekomendacii po sboru i obrabotke materialov pri gidrobiologicheskih issledovaniyah na presnovodnyh vodoemah. Zooplankton i ego produkciya. L.: Gos. in-t ozer. i rech. rybnogo hoz-va, Zool. in-t AN SSSR, 1984. 34 s.

385. Metodicheskie ukazaniya k zanyatiyam specpraktikuma po razdelu “Mikologiya. Metody eksperimental'nogo izucheniya mikroskopicheskih gribov” dlya studentov 4 kursa dnevnogo otdeleniya special'nosti “G 31 01 01 – Biologiya” / Avt.-sost. Poliksenova V.D., Hramcov A.K., Piskun S.G. Minsk.: BGU, 2004. 36 s.

386. Metodicheskie ukazaniya po osuschestvleniyu gosudarstvennogo monitoringa vodnyh ob'ektov v chasti organizacii i provedeniya nablyudeniy za soderzhaniem zagryaznyayuschih veschestv v donnyh otlozheniyah vodnyh ob'ektov. Utverzhdeny prikazom Minprirody Rossii ot 24.02.2014 № 112.

387. Metody issledovaniya donnyh otlozheniy ozer Karelii / Shelehova T.S., Slukovskiy Z.I., Lavrova N.B. Petrozavodsk: Karel'skiy nauchnyy centr RAN, 2020. 111 s.

388. Metody opredeleniya produkcii vodnyh organizmov. Minsk: Vyscheyshaya shkola, 1968. 245 s.

389. Metody ocenki kachestva vod po gidrobiologicheskim pokazatelyam: uchebno-metodicheskaya razrabotka po kursu “Gidrobiologiya” / sost.: Derevenskaya O.Yu. Kazan': KFU, 2015. 44 s.

390. Metody pochvenno-zoologicheskih issledovaniy / pod red. Gilyarova M.S. M.: Nauka. 1975. 280 s.

391. Metody eksperimental'noy mikologii. Spravochnik / red. Bilay V.I. Kiev: Naukova dumka, 1982. 550 s.

392. Mikologiya: osnovnye ponyatiya i terminy. Uchebno-metodicheskoe posobie po mikologii dlya studentov special'nostey “G 31 01 01 – Biologiya”, “H 33 01 01 – Bioekologiya” i napravleniya “G 31 01 01-03 – Biotehnologiya”. Minsk, 2003. 123 s.

393. Mikroorganizmy kak agenty biomonitoringa i bioremediacii zagryaznennyh pochv / Pod obsch. red. Ashihminoy T.Ya., Domrachevoy L.I. Kirov: Nauch. izd. VyatGU, 2018. 254 s.

394. Mil'ko A.A., Zaharova L.I. Rol' mikoflory Volgi i nekotoryh severnyh vodoemov v processah samoochischeniya i bioindikacii vod // Vodnye resursy. 1984. № 2. S. 94–98.

395. Mineeva N.M. Rastitel'nye pigmenty kak pokazatel' sostoyaniya ekosistemy vodohranilisch. Pigmenty planktona // Sovremennaya ekologicheskaya situaciya v Rybinskom i Gor'kovskom vodohranilischah: sostoyanie biologicheskih soobschestv i perspektivy ryborazvedeniya. Yaroslavl': YaGTU, 2000. S. 66–83.

396. Mineeva N.M. Rastitel'nye pigmenty v vode volzhskih vodohranilisch. M.: Nauka, 2004. 156 s.

397. Mineeva N.M. Soderzhanie fotosinteticheskih pigmentov v vodohranilischah Verhney Volgi (1994–2003 gg.) // Biologiya vnutr. vod. 2006. № 1. S. 31–40.

398. Mineeva N.M. Pervichnaya produkciya planktona v vodohranilischah Volgi. Yaroslavl': Printhaus, 2009. 279 s.

399. Mineeva N.M. Sezonnaya i mezhgodovaya dinamika hlorofilla v planktone Rybinskogo vodohranilischa po dannym fluorescentnoy diagnostiki // Tr. In-ta biol. vnutr. vod im. I.D. Papanina RAN. 2016. Vyp. 76 (78). S. 75–93.

400. Mineeva N.M., Meteleva N.Yu. Cravnitel'naya harakteristika produktivnosti fitoplanktona i epifitona vodohranilisch Verhney Volgi // Biologiya vnutr. vod. 2019. № 2. Vyp. 2. S. 33. DOI:https://doi.org/10.1134/S0320965219030148.

401. Mineeva N.M., Muhutdinov V.F. Sravnitel'naya ocenka soderzhaniya hlorofilla v vodohranilischah Verhney Volgi po dannym spektrofotometricheskogo i fluorescentnogo metodov // Voda: himiya i ekologiya. 2016. № 4. S. 3–9.

402. Mineeva N.M., Popel'nickiy V.A. Opredelenie fotosinteza fitoplanktona Rybinskogo vodohranilischa fluorescentnym i kislorodnym metodami // Biologiya vnutr. vod: Inform. byul. 1990. № 88. S. 20–24.

403. Mirkin B.M. Problema sootnosheniya nepreryvnosti i diskretnosti i sovremennaya ekologiya // Zhurn. obschey biologii. 2005. T. 66. № 6. S. 522–526.

404. Mirkin B.M., Rozenberg G.S. Tolkovyy slovar' sovremennoy fitocenologii. M.: Nauka, 1983. 133 s.

405. Mirchnik T.G. Pochvennaya mikologiya. Uchebnik. M.: Izd-vo MGU, 1988. 220 s.

406. Miseyko G.N., Bezmaternyh D.M., Tushkova G.I. Biologicheskiy analiz kachestva presnyh vod. Barnaul: Izd-vo Alt. un-ta, 2001. 201 s.

407. Mokievskiy V.O. Ekologiya morskogo meyobentosa. M.: KMK, 2009. 286 s.

408. Monakov A.V. Pitanie i pischevye vzaimootnosheniya presnovodnyh kopepod. L.: Nauka, 1976. 170 s.

409. Monakov A.V. Pitanie presnovodnyh bespozvonochnyh. M: IPEE RAN, 1998. 322 s.

410. Monchenko V.I. Schelepnoroti ciklopopodibni. Ciklopi (Cyclopidae) // Fauna Ukraїni. Kiїv: Naukova dumka, 1974. T. 27. № 3. 452 s.

411. Morduhay-Boltovskoy F.D. Materialy po srednemu vesu vodnyh bespozvonochnyh basseyna Dona // Problemy gidrobiologii vnutrennih vod: Tr. problem. i tematich. sovesch. M.-L.: ZIN AN SSSR, 1954. Vyp. 2. S. 223–241.

412. Morduhay-Boltovskoy F.D. Usovershenstvovannaya sistema trubchatogo dnocherpatelya // Biologiya vnutr. vod: Inform. byul. L.: Nauka, 1958. № 1. S. 47–49.

413. Morduhay-Boltovskoy F.D. Fauna bespozvonochnyh pribrezhnoy zony Rybinskogo vodohranilischa (obschiy obzor) // Trudy Darvinskogo gosudarstvennogo zapovednika na Rybinskom vodohranilische. 1974. Vyp 12. S. 158–185.

414. Morduhay-Boltovskoy F.D. Issledovaniya melkovodnoy pribrezhnoy zony vodohranilisch Verhney Volgi // Gidrobiologicheskiy rezhim pribrezhnyh melkovodiy Verhnevolzhskih vodohranilisch. Yaroslavl': In-t biologii vnutr. vod, 1976. S. 3–12.

415. Morduhay-Boltovskoy F.D., Dzyuban N.A. Formirovanie fauny bespozvonochnyh krupnyh vodohranilisch // Ekologiya vodnyh organizmov. M.: Nauka, 1966. S. 98–102.

416. Moroz T.G. Sravnenie razlichnyh metodov ocenki kachestva vody po indikatornym donnym bespozvonochnym // Gidrobiol. zhurnal. 1978. № 3. S. 115–118.

417. Muhin I.A. Formirovanie perifitonnyh ciliosoobschestv na raznotipnyh substratah. Vologda: Vologodskiy gosudarstvennyy universitet, 2020. 159 s.

418. Muhin I.A., Lopicheva G.O. Ekologicheskaya nisha perifitonnyh infuzoriy v planktone pribrezhnyh vod Kostromskogo razliva Gor'kovskogo vodohranilischa // Ozernye ekosistemy: biologicheskie processy, antropogennaya transformaciya, kachestvo vody: Mat. V Mezhdun. nauchn. konf. Minsk – Naroch', 12–17 sentyabrya 2016 g. Minsk – Naroch': Belorusskiy gosudarstvennyy universitet, 2016. S. 237–238.

419. Megarran E.E. Ekologicheskoe raznoobrazie i ego izmerenie. M.: Mir, 1992. 198 s.

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

421. Naberezhnyy A.I., Irmasheva S.G. Sootnoshenie razmerov i massy tela u garpakticid (Crustacea: Harpacticoida) // Izv. ANMSSR. Ser. biol. i him. nauk. 1980. № 4. S. 75–76.

422. Naumenko E.N. Strukturno-funkcional'naya organizaciya zooplanktona Vislinskogo zaliva Baltiyskogo morya. Kaliningrad: Atlant. NII ryb. hoz-va i okeanografii, 2010. 198 s.

423. Naumenko E.N., Hlopnikov M.M., Rudinskaya L.V. Potoki energii v ekosisteme Vislinskogo (Kaliningradskogo) zaliva Baltiyskogo morya // Zhurnal Sib. fed. un-ta. Biologiya. 2012. № 5. S. 184–202.

424. Nevrova E.L., Petrov A.N. Taksonomicheskoe raznoobrazie diatomovyh bentosa Chernogo morya // Mikrovodorosli Chernogo morya: problemy sohraneniya bioraznoobraziya i biotehnologicheskogo ispol'zovaniya / Red. Yu.N. Tokarev, Z.Z. Finenko, N.V. Shadrin. NAN Ukrainy / Institut biologii yuzhnyh morey. Sevastopol': EKOSI-Gidrofizika, 2008. S. 60–85.

425. Nevrova E.L., Snigireva A.A., Petrov A.N., Kovaleva G.V. Rukovodstvo po izucheniyu morskogo mikrofitobentosa i ego primeneniyu dlya kontrolya kachestva sredy / Red. Gaevskaya A.V. Sevastopol'–Simferopol': N. Orianda, 2015. 176 s.

426. Nikolaev A.M., Alekseev M.Yu. Sezonnaya i sutochnaya dinamika drifta bespozvonochnyh v lososevoy r. Kola (Kol'skiy poluostrov) // Nauchnye trudy Dal'rybvtuza. 2017. T. 41. № 2. S. 43–49.

427. Oboznacheniya, edinicy izmereniya i ekvivalenty, vstrechaemye pri izuchenii produktivnosti presnyh vod. L.: Sovetskiy komitet po MBP, 1972. 35 s.

428. Obschie osnovy izucheniya vodnyh ekosistem. L.: Nauka, 1979. 271 s.

429. Ovchinnikova T.A, Krems E.V, Korchikov E.S. Sezonnaya dinamika mikobioty listovoy poverhnosti drevesnyh rasteniy gorodskoy sredy // Vestnik SamGU. 2013. T. 107. № 6. S. 188–195.

430. Odesskiy region Chernogo morya: gidrobiologiya pelagiali i bentali / pod obsch. red. B.G. Aleksandrova. Odessa: Astroprint, 2017. 324 s.

431. Odum Yu. Osnovy ekologii. M.: Mir, 1975. 740 s.

432. Odum Yu. Ekologiya: V 2-h t. M.: Mir, 1986. T. 1. 328 s.; T. 2. 376 s.

433. Opredelitel' nasekomyh Dal'nego Vostoka Rossii. T. VI. Dvukrylye i blohi. Ch. 4. Vladivostok: Dal'nauka, 2006. 936 s.Opredelitel' presnovodnyh bespozvonochnyh Evropeyskoy chasti SSSR: plankton i bentos. L.: Gidrometeoizdat, 1977. 510 s.

434. Opredelitel' presnovodnyh bespozvonochnyh Rossii i sopredel'nyh territoriy. T. 1. Nizshie bespozvonochnye. SPb.: Nauka, 1994. 394 s.

435. Opredelitel' presnovodnyh bespozvonochnyh Rossii i sopredel'nyh territoriy. T. 2. Rakoobraznye. SPb.: Nauka, 1995. 627 s.

436. Opredelitel' presnovodnyh bespozvonochnyh Rossii i sopredel'nyh territoriy. 2000. T. 3. Paukoobraznye. Nizshie nasekomye. SPb.: Nauka, 1997. 439 s.

437. Opredelitel' presnovodnyh bespozvonochnyh Rossii i sopredel'nyh territoriy. T. 4. Vysshie nasekomye. SPb.: Nauka, 2000. 998 s.

438. Opredelitel' presnovodnyh bespozvonochnyh Rossii i sopredel'nyh territoriy. T. 5. Vysshie nasekomye. SPb.: Nauka, 2001. 836 s.

439. Opredelitel' presnovodnyh bespozvonochnyh Rossii i sopredel'nyh territoriy. T. 6. Mollyuski. Polihety. Nemertiny. SPb.: Nauka, 2004. 528 s.

440. Opredelitel' ryb i bespozvonochnyh Kaspiyskogo morya. T. 1. Ryby i mollyuski. SPb.-M.: T-vo nauchnyh izdaniy KMK, 2013. 543 s.

441. Opredelitel' ryb i bespozvonochnyh Kaspiyskogo morya. T. 2. Strekayuschie, grebneviki, mnogoschetnikovye chervi, veslonogie rakoobraznye i mizidy. SPb.-M.: T-vo nauchnyh izdaniy KMK, 2015. 244 s.

442. Ostapenya A.P. Deevtrofirovanie ili bentifikaciya? // Ozernye ekosistemy: biologicheskie processy, antropogennaya transformaciya, kachestvo vody. Mat. III Mezhdunar. nauch. konf. Minsk: Izd. centr. Belorusskogo gos. un-ta, 2007. S. 31–32.

443. Ohapkin A.G., Vodeneeva E.L., Starceva N.A., Hedairia T. Metody izucheniya fitobentosa presnyh vodoemov // Ekologicheskiy monitoring. Chast' X: uchebnoe posobie / pod red. prof. Gelashvili D.B. Nizhniy Novgorod: Nizhegorodskiy gosuniversitet, 2019. S. 79–96.

444. Pavel'eva E.B., Sorokin Yu.I. Ocenka ulovistosti zooplanktona razlichnymi orudiyami lova // Biologiya vnutr. vod. Inform. byul. 1972. № 15. S. 75–78.

445. Pavlyuk T.E. Aktual'nye voprosy bioindikacii vodnyh ekosistem: rossiyskiy opyt i perspektivy // Vodnoe hozyaystvo Rossii: problemy, tehnologii, upravlenie. 2024. № 4. S. 108–126. DOI:https://doi.org/10.35567/19994508-2024-4-108-126

446. Paliy V.F. Metodika izucheniya fauny i fenologii nasekomyh. Voronezh. 1970. 189 s.

447. Pankratova V.Ya. Lichinki i kukolki komarov podsemeystv Orthocladiinae fauny SSSR (Diptera, Chironomidae = Tendipedidae). L.: Nauka, 1970. 343 c.

448. Pankratova V.Ya. Lichinki i kukolki komarov podsemeystv Podonominae i Tanypodinae fauny SSSR (Diptera, Chironomidae = Tendipedidae). L.: Nauka, 1977. 152 s.

449. Pankratova V.Ya. Lichinki i kukolki komarov podsemeystva Chironominae fauny SSSR (Diptera, Chironomidae = Tendipedidae). L.: Nauka, 1983. 295 s.

450. Panov V.E. Pitanie bokoplavov Gammarus lacustris Sars // Soobschestva presnovodnyh bespozvonochnyh v zaroslyah makrofitov. L.: ZIN AN SSSR, 1988. S. 144–150.

451. Panov V.E., Polyakova E.A. Pitanie, rost i produkciya turbellyariy // Soobschestva presnovodnyh bespozvonochnyh v zaroslyah makrofitov. L.: ZIN AN SSSR, 1988. S. 118–127.

452. Pan'kov N.N. Osnovnye itogi izucheniya drifta reki Sylvy (zakaznik “Predural'e”, 1997–2004 gg.) // Vestnik Permskogo universiteta. Seriya: Biologiya. 2007. Vyp. 5 (10). S. 83–89.

453. Papchenkov V.G. Rastitel'nyy pokrov vodoemov i vodotokov Srednego Povolzh'ya. Yaroslavl': CMP MUBiNT, 2001. 200 s.

454. Parele E.A., Astopenyuk E.B. Tubificidy (Oligochaeta, Tubificidae) – indikatory kachestva vodoemov // Izv. AN LatvSSR. 1975. № 9. S. 44–46.

455. Perevedenceva JI.G. Mikologiya: griby i gribopodobnye organizmy: Uchebnik. 2-e izd., ispr. i dop. SPb.: Izdatel'stvo “Lan'”, 2012. 272 s.

456. Pesenko Yu.A. Principy i metody kolichestvennogo analiza v faunisticheskih issledovaniyah. M.: Nauka, 1982. 286 c.

457. Pesterev P.N, Hardikova S.A. Psevdomikozy i glubokie mikozy: uchebnoe posobie. Tomsk: Izdatel'stvo SibGMU, 2020. 167 c.

458. Petrov A.N., Nevrova E.L. Prognosticheskaya ocenka vidovogo bogatstva bentosnyh diatomovyh vodorosley // Al'gologiya. 2012. T. 22. № 4. S. 360–382.

459. Petrovich P.G. Ozero Myastro. Ozero Naroch'. Ozero Batorino // Mnogoletnie pokazateli razvitiya zooplanktona ozer. M.: Nauka, 1973. S. 7–123.

460. Pivkin M.V., Aleshko S.A., Krasohin B.V., Hudyakova Yu.V. Kompleksy gribov gubok u yuzhnogo poberezh'ya ostrova Sahalin // Biologiya morya. 2006. T. 32. № 4. S. 249–254.

461. Pidgayko M.L. Zooplankton vodoemov Evropeyskoy chasti SSSR. M.: Nauka, 1984. 206 s.

462. Polischuk L.V. Dinamicheskie harakteristiki populyaciy planktonnyh zhivotnyh. M.: Nauka, 1986. 128 s.

463. Polischuk L.V., Romanovskiy Yu.E. Teoreticheskiy podhod k raschetu produkcii vodnyh zhivotnyh // Zhurnal obschey biologii. 1980. T. 41. № 65. S. 645–654.

464. Polyakova E.A. Pitanie piyavok // Soobschestva presnovodnyh bespozvonochnyh v zaroslyah makrofitov. L.: ZIN AN SSSR, 1988. S. 127–133.

465. Popchenko V.I. Bioindikaciya kachestva vody po soobschestvam oligohet // Bioindikaciya: teoriya, metody, prilozheniya. Tol'yatti, 1994. S. 232–237.

466. Popchenko V.I. Ispol'zovanie soobschestv donnyh bespozvonochnyh v biomonitoringe presnyh vod // Izv. Samar. NC RAN. 1999. № 2. S. 212–216.

467. Prakticheskaya gidrobiologiya. Presnovodnye ekosistemy: Uchebnik dlya studentov, obuchayuschihsya po napravleniyu 020200 Biologiya, special'nosti Bioekologiya i drugim biologicheskim special'nostyam / Fedorov V.D., Il'inskiy V.V., Kapkov V.I. i dr. M.: PIM, 2006. 367 s.

468. Przhiboro A.A. Ekologiya i rol' bentosnyh dvukrylyh (Insecta: Diptera) v pribrezhnyh soobschestvah malyh ozer Severo-Zapada Rossii. Avtoref. diss. … kand. biol. nauk. SPb., 2001. 25 s.

469. Proizvodstvennaya kompaniya “EBISU”, g. Korolev. Elektronnyy resurs. URL: https://abisu.ru/produkxiya/ (obraschenie 27 iyunya 2023 g.)

470. Prokin A.A., Seleznev D.G. Struktura makrozoobentosa poymennyh ozer v usloviyah raznoy prodolzhitel'nosti vesennego polovod'ya // Biologiya vnutr. vod. 2021. № 5. S. 501–509.

471. Prokopenko E.V. Pauki (AraneI) urochischa Grabovoe (Pyatihatskiy rayon Dnepropetrovskoy oblasti) // Problemy ekologii i ohrany prirody tehnogennogo regiona. 2018. № 1–2. C. 63–70.

472. Protasov A.A. K metodike otbora prob perifitona s nezhivyh substratov // Gidrobiol. zhurnal. 1985. T. 21. № 6. C. 82–83.

473. Protasov A.A. Metody issledovaniya perifitona. Ruk. dep. v VINITI, 1987. № 2164-B87. 35 s.

474. Protasov A.A. Presnovodnyy perifiton. Kiev: Naukova dumka, 1994. 308 s.

475. Protasov A.A. Bioraznoobrazie i ego ocenka. Konceptual'naya diversikologiya. Kiev: In-t gidrobiol. NANU, 2002. 105 s.

476. Protasov A.A. Starye i novye problemy issledovaniya perifitona // Biologiya vnutr. vod. 2005. № 3. S. 3–11.

477. Protasov A.A. O topicheskih otnosheniyah i konsortivnyh svyazyah v soobschestvah // Sibirskiy ekologicheskiy zhurnal. 2006. T. 13. № 1. S. 97–103.

478. Protasov A.A. Perifiton kak ekotopicheskaya gruppirovka gidrobiontov // Zhurn. Sibirskogo federal'nogo un-ta. Biologiya. 2010. № 1. R. 40–56.

479. Protasov A.A. Zhizn' v gidrosfere. Ocherki po obschey gidrobiologii. Kiev: Akademperiodika, 2011. 704 s.

480. Protasov A.A., Pavlyuk T.E. Ispol'zovanie pokazateley bioraznoobraziya dlya ocenki sostoyaniya vodnyh ob'ektov i kachestva vod // Gidrobiol. zhurn. 2004. T. 40. № 6. S. 3–17.

481. Pryanichnikova E.G., Cvetkov A.I. Osnovnye harakteristiki populyacii Dreissena polymorpha (Bivalvia, Dreissenidae) v ozere Plescheevo // Transformaciya ekosistem. 2018. № 2. S. 73–80.

482. Pshenicyna V.N. Ob effektivnosti shkaly Vudivissa pri bioindikacii kachestva vody // Gidrobiol. zhurn. 1986. T. 24. № 4. S. 42–45.

483. Pyrina I.L. Opredelenie pervichnoy produkcii fitoplanktona po maksimal'nomu fotosintezu, summarnoy solnechnoy radiacii i prozrachnosti vody // Gidrobiol. zhurn. 1979. T. 15. № 6. S. 115–119.

484. Pyrina I.L., Sigareva L.E. Soderzhanie pigmentov fitoplanktona v Rybinskom vodohranilische v razlichnye po gidrometeorologicheskim usloviyam gody (1972–1976) // Biologiya i ekologiya vodnyh organizmov. Trudy IBVV AN SSSR. Vyp. 53(56). L., 1986. S. 65–89.

485. Radchenko I.G., Kapkov V.I., Fedorov V.D. Prakticheskoe rukovodstvo po sboru i analizu prob morskogo fitoplanktona: Uchebno-metodicheskoe posobie dlya studentov biologicheskih special'nostey universitetov. M.: Mordvincev, 2010. 60 s.

486. Railkin A.I. Kolonizaciya tverdyh tel bentosnymi organizmami. SPb: SPbGU, 2008. 427 s.

487. Railkin A.I., Babkov A.I. Standartizaciya biologicheskih ispytaniy. II. Razlichiya v obrastanii plastin na gidrokaruseli, gidroflyugere i nepodvizhnom substrate // Vestnik LGU. Seriya 3. 1990. Vyp. 3. № 17. S. 19–23.

488. Railkin A.I., Fateev A.E. Standartizaciya biologicheskih ispytaniy. I. Gidroflyuger – ustroystvo dlya eksponirovaniya plastin obrastaniy pod postoyannym uglom k napravleniyu techeniya // Vestnik LGU. Seriya 3. 1990. Vyp. 3. № 17. S. 11–19.

489. Railkin A.I., Besyadovskiy A.R., Primakov I.M., Koldunov A.V. Vzaimodeystvie pribrezhnyh bentosnyh soobschestv Belogo morya s pridonnym sloem. SPb.: Izd-vo S.-Peterb. un-ta, 2012. 408 s.

490. Rays E. Allelopatiya. M.: Mir, 1978. 383 s.

491. Rat'kova T.N. Raspredelenie chislennosti i biomassy fitoplanktona // Ekosistemy pelagiali peruanskogo rayona. M.: Nauka, 1980. S. 66–81.

492. Rauzer-Chernousova D.M. O kolichestvennom raspredelenii hlorofilla v sovremennyh i iskopaemyh morskih osadkah // Byul. Moskovskogo obschestva ispytateley prirody. Otd. geol. 1930. T. 8. № 3–4. S. 285–299.

493. Revkov N.K., Nevrova E.L. Izuchenie osobennostey struktury taksocena bentosnyh diatomovyh (Bacillariophyta) s pomosch'yu metodov mnogomernoy statistiki (buhta Laspi, Chernoe more, Ukraina) // Al'gologiya. 2004. T. 14. № 2. S. 161–170.

494. Riv'er I.K. Osobennosti funkcionirovaniya zooplanktonnyh soobschestv vodoemov raznyh tipov // Struktura i funkcionirovanie presnovodnyh ekosistem. L.: Nauka, 1988. S. 80–111.

495. Riv'er I.K. Vliyanie stokov g. Cherepovca na zooplankton Sheksninskogo plesa // Vliyanie stokov Cherepoveckogo promyshlennogo uzla na ekologicheskoe sostoyanie Rybinskogo vodohranilischa. Rybinsk: In-t biologii vnutr. vod, 1991. S. 42–59.

496. Riv'er I.K. Sovremennoe sostoyanie zooplanktona Rybinskogo vodohranilischa // Sovremennoe sostoyanie ekosistemy Rybinskogo vodohranilischa. SPb.: Gidrometeoizdat, 1993. S. 205–232.

497. Riv'er I.K. Izmenenie bioproduktivnosti razlichnyh akvatoriy ozerovidnogo vodohranilischa v periody stanovleniya, estestvennogo evolyucionirovaniya i usileniya antropogennogo vozdeystviya // Vodnye resursy. 1998. T. 25. № 5. S. 589–597.

498. Riv'er I.K. Zooplankton // Sovremennaya ekologicheskaya situaciya v Rybinskom i Gor'kovskom vodohranilischah: sostoyanie biologicheskih soobschestv i perspektivy ryborazvedeniya. Yaroslavl': Izd-vo Yaroslavskogo gos. tehn. un-ta, 2000. S. 175–194.

499. Rizhinashvili A.L. Razvitie ekosistemnyh predstavleniy v vodnoy ekologii (Rossiyskaya Imperiya – SSSR, pervaya polovina XX veka). M.: Tovarischestvo nauchnyh izdaniy KMK, 2021. 231 s.

500. Romanenko V.I., Kuznecov S.I. Ekologiya mikroorganizmov presnyh vodoemov. Leningrad: Nauka, 1974. 196 s.

501. Romanenko V.I. Mikrobiologicheskie processy produkcii i destrukcii organicheskogo veschestva vo vnutrennih vodoemah. L.: Nauka, 1985. 295 s.

502. Romanenko V.D., Oksiyuk O.P., Zhukinskiy V.N. i dr. Ekologicheskaya ocenka vozdeystviya gidrotehnicheskogo stroitel'stva na vodnye ob'ekty. Kiev: Nauk. dumka, 1990. 256 s.

503. Romanova A.P., Fursenko M.V. Metodicheskie rekomendacii po sboru i obrabotke materialov pri gidrobiologicheskih issledovaniyah na presnovodnyh vodoemah. Bakterioplankton i ego produkciya. L.: GosNIORH, 1984. 22 s.

504. Rossolimo L.L. Zagryaznenie vod i antropogennoe evtrofirovanie vodoemov // Gidrobiol. zhurn. 1975. № 1. S. 5–11.

505. Rukovodstvo po metodam gidrobiologicheskogo analiza poverhnostnyh vod i donnyh otlozheniy / Pod red. V.A. Abakumova. L.: Gidrometeoizdat, 1983. 240 s.

506. Rukovodstvo po gidrobiologicheskomu monitoringu presnovodnyh ekosistem" / pod. red. d.b.n. Abakumova V.A. SPb.: Gidrometeoizdat, 1992. 318 s.

507. Rybinskoe vodohranilische i ego zhizn'. L.: Nauka, 1972. 364 s.

508. Ryndevich S.K. Fauna i ekologiya vodnyh zhestkokrylyh Belarusi (Haliplidae, Noteridae, Dytiscidae, Gyrinidae, Helophoridae, Georissidae Hydrochidae, Spercheidae, Hydrophilidae, Hydraenidae, Limnichidae, Dryopidae, Elmidae). Monografiya v 2-h chastyah. Ch. 1. Minsk: UP “Tehnoprint”, 2004. 272 s.

509. Ryndevich S.K., Cinkevich V.A. Sbor i opredelenie vodnyh i okolovodnyh zhestkokrylyh. Ucheb. posobie. Minsk: BGU, 2004. 123 s.

510. Sazhina L.I. Naupliusy massovyh vidov pelagicheskih kopepod mirovogo okeana. Opredelitel'. Kiev: Nauk. dumka, 1985. 240 s.

511. Sazhnev A.S., Rodionova E.Yu. Zhestkokrylye (Insecta: Coleoptera), sobrannye v svetovye lovushki so sverh'yarkimi svetodiodami na territorii Krasnodara // Izvestiya Saratovskogo universiteta. Novaya seriya. Seriya Himiya. Biologiya. Ekologiya, 2019. Vyp. 19. № 2. S. 188–195.

512. Samohvalov V.L. Rusloobrazovatel'nye processy i koncepciya kontinuuma naseleniya vodotoka. Magadan: SVNC DVO RAN, 1995. 64 s. (Trudy NIC “Chukotka”; vyp. 4.)

513. Sbornik klassicheskih metodov gidrobiologicheskih issledovaniy dlya ispol'zovaniya v akvakul'ture / Costaviteli sbornika G.K. Plotnikov, T.Yu. Peskova, A. Shkute, A. Pupinya, M. Pupin'sh. Akademicheskoe izdatel'stvo Daugavpilsskogo universiteta “Saule”, 2017. 282 s.

514. Semenova A.S. Indikatornaya rol' zooplanktona v ocenke ekologicheskogo sostoyaniya Kurshskogo zaliva. Dis. ... kand. biol. nauk. Borok, 2010. 280 s.

515. Semenova A.S. Dolya mertvyh osobey v zooplanktone Kurshskogo zaliva Baltiyskogo morya // Biologiya vnutr. vod. 2011. № 3. S. 35–44.

516. Semenova T.A. Antropogennaya izmenchivost' mikroskopicheskih gribov v vodnyh ekosistemah (na primere vodoemov Srednego Povolzh'ya). Tol'yatti: Izd-vo IEVB, 1994. 36 s.

517. Semenchenko V.P. Principy i sistemy bioindikacii tekuchih vod. Minsk: Oreh, 2004. S. 228.

518. Semenchenko V.P., Razluckiy V.I. Ekologicheskoe kachestvo poverhnostnyh vod. Minsk: Belarus. navuka, 2010. 329 s.

519. Semernoy V.P. Obschaya gidrobiologiya: Tekst lekciy. Yaroslavl': YarGU, 2008. 184 s.

520. Sigareva L.E. Pigmentnye kriterii ocenki ekologicheskogo sostoyaniya vodoema // Biogeohimicheskie osnovy ekologicheskogo normirovaniya. M.: Nauka, 1993. S. 6469.

521. Sigareva L.E. Spektrofotometricheskiy metod opredeleniya pigmentov fitoplanktona v smeshannom ekstrakte // Metodicheskie voprosy izucheniya pervichnoy produkcii planktona vnutrennih vodoemov: Sb. mater. konf. SPb: Gidrometeoizdat, 1993. S. 7586.

522. Sigareva L.E. Sovremennye metody izucheniya soderzhaniya rastitel'nyh pigmentov v vodoemah // Vodorosli: taksonomiya, ekologiya, ispol'zovanie v monitoringe. Ekaterinburg: UrO RAN. 2011. S. 140146.

523. Sigareva L.E. Hlorofill v donnyh otlozheniyah volzhskih vodoemov. M: Tov-vo nauch. izd. KMK, 2012. 217 s.

524. Sigareva JI.E., Timofeeva N.A. Rastitel'nye pigmenty v ilah Ivan'kovskogo vodohranilischa kak pokazateli destrukcionnyh processov // Vodnye resursy. 2003. T. 30. № 3. S. 346–356.

525. Sigareva L.E., Devyatkin V.G. Soderzhanie fotosinteticheskih pigmentov v perifitone Rybinskogo vodohranilischa // Trudy IBVV AN SSSR. Vyp. 54(57). L.: Nauka, 1987. S. 3.

526. Sigareva L.E., Koreneva T.G., Mineeva N.M., Timofeeva N.A. Sravnitel'nyy analiz soderzhaniya hlorofilla a v presnovodnom i morskom vodoemah // Biologiya vnutr. vod. 2020. № 5. S. 439–449.

527. Sigareva L.E., Timofeeva N.A. Nekotorye podhody k ispol'zovaniyu svoystv litoral'nyh otlozheniy dlya izucheniya produktivnosti mikrofitobentosa // Biologiya vnutr. vod. 2004. № 3. S. 52–59.

528. Sigareva L.E., Timofeeva N.A., Zakonnov V.V. Rastitel'nye pigmenty i organicheskoe veschestvo v donnyh otlozheniyah krupnyh melkovodnyh ozer Severo-Zapada Rossii // Geohimiya. 2022. T. 67. № 12. S. 1285–1296.

529. Sigareva L.E., Timofeeva N.A., Zakonnov V.V. Soderzhanie pigmentov v donnyh otlozheniyah nebol'shogo ruslovogo vodohranilischa // Biologiya vnutr. vod. 2023. № 6. S. 811–820.

530. Sigareva L.E., Timofeeva N.A., Zubishina A.A., Babanazarova O.V. Ocenka produktivnosti mikrofitobentosa oz. Plescheevo po rastitel'nym pigmentam // Vod. resursy. 2005. T. 32. № 6. S. 739748.

531. Sigareva L.E., Sharapova N.A. Fotosinteticheskie pigmenty v donnyh otlozheniyah // Ekologiya fitoplanktona Rybinskogo vodohranilischa. Tol'yatti, 1999. S. 190–207.

532. Silina A.E., Prokin A.A. Troficheskaya struktura makrozoobentosa bolotnyh vodoemov lesostepnoy zony Srednerusskoy vozvyshennosti // Biologiya vnutr. vod. 2008. № 3. S. 35–44.

533. Simonyan S.A., Mamikonyan T.O. K izucheniyu mikromicetov filloplany gvozdiki remontantnoy i kally bolotnoy // Byul. Botan. sada AN Armyanskoy SSR. 1989. № 29. S. 132–142.

534. Sirenko L.A., Kozickaya V.N. Biologicheski aktivnye veschestva vodorosley i kachestvo vody. Kiev: Nauk. dumka, 1988. 254 s.

535. Skal'skaya I.A. Stressovye sostoyaniya soobschestv zooperifitona Rybinskogo vodohranilischa // Vliyanie stokov Cherepoveckogo promyshlennogo uzla na ekologicheskoe sostoyanie Rybinskogo vodohranilischa. Rybinsk, 1990. S. 59–72.

536. Skal'skaya I.A. Zooperifiton vodoemov basseyna Verhney Volgi. Rybinsk, 2002. 256 s.

537. Skal'skaya I.A., Bakanov A.I. Sravnenie rezul'tatov monitoringa vodohranilisch po zooperifitonu i zoobentosu // Perifiton kontinental'nyh vod: sovremennoe sostoyanie izuchennosti i perspektivy dal'neyshih issledovaniy. Mat. dokladov Mezhd. simpoziuma. Tyumen': OOO “Opcion TM-Holding”, 2003. S. 102–103.

538. Skvorcova O.N. Normativnye dokumenty o hranenii lekarstvennogo rastitel'nogo syr'ya // Novaya apteka. 1998. № 6. S. 104–107.

539. Skvorcov V.V. Kolichestvennaya ocenka uchastiya meyobentosa raznotipnyh ozer Karel'skogo peresheyka v processah transformacii organicheskogo veschestva donnymi soobschestvami: Avtoref. dis. ... kand. biol. nauk. L., 1985. 21 s.

540. Smirnov N.N. Rakoobraznye. Chydoridae fauny mira // Fauna SSSR. L.: Nauka, 1971. T. 1. Vyp. 2. 553 s.

541. Sovremennye metody kolichestvennoy ocenki raspredeleniya morskogo planktona. M.: Nauka, 1983. 279 s.

542. Sokolov V.E., Chernov Yu.I., Reshetnikov Yu.S. Nacional'naya programma Rossii po sohraneniyu bioraznoobraziya // Bioraznoobrazie: Stepen' taksonomicheskoy izuchennosti: Vsesoyuzn. sovesch., Moskva, 1991. M., 1994. S. 4–12.

543. Solov'eva V.V., Rozenberg G.S. Sovremennoe predstavlenie ob ekotonah ili teoriya ekotonov // Uspehi sovremennoy biologii. 2006. T. 126. № 6. S. 531–549.

544. Sorokin Yu.I., Suhanova I.N., Konovalova G.I., Pavel'eva E.B. Pervichnaya produkciya i fitoplankton rayona ekvatorial'noy divergencii v vostochnoy chasti Tihogo okeana // Trudy Instituta okeanologii AN SSSR. 1975. T. 102. S. 108–122.

545. Stolbunova V.N. Mnogoletnie izmeneniya zooplanktonnogo kompleksa v Ivan'kovskom i Uglichskom vodohranilischah // Biologiya vnutr. vod. 1999. № 1–3. S. 92–100.

546. Stolbunova V.N. Zooplankton oz. Plescheevo. M.: Nauka, 2006. 152 s.

547. Struktura i funkcionirovanie ekosistemy Rybinskogo vodohranilischa v nachale XXI veka / red. Lazareva V.I. M: RAN, 2018. 456 s.

548. Suhanova I.N., Belyaeva T.V. Vidovoy sostav, raspredelenie i sutochnye izmeneniya fitoplanktona Chernogo morya v oktyabre 1978 g. // Ekosistemy pelagiali Chernogo morya. M.: Nauka, 1980. S. 65–91.

549. Suschenya L.M. Intensivnost' dyhaniya rakoobraznyh. Kiev: Naukova dumka, 1972. 283 s.

550. Suschenya L.M., Semenchenko V.P., Vezhnovec V.V. Biologiya i produkciya lednikovyh reliktovyh rakoobraznyh. Minsk: Nauka i tehnika, 1986. 159 s.

551. Sytnik K.M., Brayon A.V., Gordeckiy A.V. Biosfera. Ekologiya. Ohrana prirody. Kiev: Naukova dumka, 1987. 524 s.

552. Sytnik K.M., Brayon A.V., Gordeckiy A.V., Brayon A.P. Slovar'-spravochnik po ekologii. Kiev: Naukova dumka, 1994. 665 s.

553. Tal'skih V.N. Monitoring perifitona // Rukovodstvo po gidrobiologicheskomu monitoringu presnovodnyh ekosistem. SPb.: Gidrometeoizdat, 1992. S. 32–63.

554. Telesh I.V. Transformaciya ozernogo zooplanktona v rekah // DAN SSSR. 1986. T. 291. № 2. S. 495–498.

555. Telesh I.V. Vzaimootnosheniya mezhdu vidom-vselencem Dreissena polymorpha i mikrozooplanktonom v pribrezhnyh vodah estuariya reki Nevy (Finskiy zaliv Baltiyskogo morya) // Biologicheskie invazii v vodnyh i nazemnyh ekosistemah. M.: T-vo nauch. izd. KMK, 2004. S. 268–274.

556. Telesh I.V., Bol'shagin P.V., Panov V.E. Kolichestvennaya ocenka vliyaniya vida-vselenca Cercopagis pengoi (Crustacea, Onychopoda) na strukturu i funkcionirovanie planktonnogo soobschestva v Finskom zalive Baltiyskogo morya // DAN. 2001. T. 377. № 3. S. 427–429.

557. Terehova V.A. Mikromicety v ekologicheskoy ocenke vodnyh i nazemnyh ekosistem. M.: Nauka, 2007. 215 s.

558. Terehova V.A., Semenova T.A., Polyanskaya L.M. Issledovanie gribov metodom lyuminiscentnoy mikroskopii // Mikrobiologiya. 1991. T. 60. Vyp. 5. S. 890–895.

559. Tereschenko V.G., Tereschenko L.I., Smetanin M.M. Ocenka razlichnyh indeksov dlya vyrazheniya biologicheskogo raznoobraziya soobschestva // Bioraznoobrazie. Stepen' taksonomicheskoy izuchennosti. M.: Nauka, 1994. S. 86–98.

560. Timofeeva N.A., Sigareva L.E., Zakonnov V.V. Rastitel'nye pigmenty v donnyh otlozheniyah kak pokazateli troficheskogo sostoyaniya maloy reki // Voda: himiya i ekologiya. 2015. № 7. S. 18–24.

561. Timofeeva N.A., Sigareva L.E., Zakonnov V.V. Variabel'nost' trofii donnyh biotopov Gor'kovskogo vodohranilischa po osadochnym pigmentam // Vodnye resursy. 2021. № 1. S. 70–79.

562. Timofeeva N.A., Sigareva L.E., Zakonnov V.V. Osadochnye pigmenty kak pokazateli produktivnosti melkovodnogo Kostromskogo rasshireniya Gor'kovskogo vodohranilischa // Vodnye resursy. 2022a. T. 49. № 3. S. 333–340.

563. Timofeeva N.A., Sigareva L.E., Zakonnov V.V. Mnogoletnie trendy soderzhaniya osadochnyh pigmentov v Gor'kovskom vodohranilische // Biologiya vnutr. vod. 2022b. № 4. S. 441–444.

564. Timohina A.F. Struktura soobschestva zooplanktona i ego energeticheskiy balans v Kuybyshevskom i Saratovskom vodohranilischah // Tr. In-ta biologii vnutr. vod AN SSSR. 1983a. Vyp. 48(51). S. 85–93.

565. Timohina A.F.Pitanie kolovratok roda Asplanchna (Ploimida, Asplanchnidae) // Troficheskie svyazi i ih rol' v produktivnosti prirodnyh vodoemov. L.: Zool. in-t. AN SSSR, 1983b. S. 81–83.

566. Timohina A.F. Zooplankton kak komponent ekosistemy Kuybyshevskogo vodohranilischa. Tol'yatti: In-t ekologii volzh. basseyna, 2000. 193 s.

567. Tiunova T.M. Metody sbora i pervichnoy obrabotki kolichestvennyh prob // Metodicheskie rekomendacii po sboru i opredeleniyu zoobentosa pri gidrobiologicheskih issledovaniyah vodotokov Dal'nego Vostoka Rossii: Metodicheskoe posobie. M.: Izd-vo VNIRO, 2003. S. 5–13.

568. Tiunova T.M., Teslenko V.A., Makarchenko M.A., Sirotskiy S.E. Struktura soobschestv donnyh bespozvonochnyh v ekosistemah rek basseyna reki Timpton (Yuzhnaya Yakutiya) // Zhizn' presnyh vod. Vladivostok: Biologo-pochvennyy institut DVO RAN, 2013. S. 187–198.

569. Tihomirova A.L. Uchet napochvennyh bespozvonochnyh // Metody pochvenno-zoologicheskih issledovaniy. M.: Nauka. 1975. S. 73–85.

570. Tkachev A.V. Issledovanie letuchih veschestv rasteniy. Novosibirsk: Izdatel'sko-poligraficheskoe predpriyatie “Ofset”, 2008. 969 s.

571. Tokin B.P. Baktericidy rastitel'nogo proishozhdeniya (fitoncidy) / S uchastiem Kovalenok A., Nebolyubovoy G., Toropceva I., Ferri L., Filatovoy A.M. Medgiz, 1942. 108 s.

572. Tokin B.P. Celebnye yady rasteniy. Povest' o fitoncidah. Izd. 3-e, ispr. i dop. Leningrad: Izd-vo Leningr. universiteta, 1980. 280 s.

573. Torgovyy dom PromTekstil'. Elektronnyy resurs. URL: https://promtextil.ru (obraschenie 20 iyunya 2023 g.)

574. Travyanko V.S., Evdokimova L.V. Bentometr MB-TE // Gidrobiol. zhurn. 1968. T. 4. № 1. S. 94–96.

575. Trifonova I.S., Makarceva E.S. Sezonnaya i mnogoletnyaya dinamika fito- i zooplanktona, i ih vzaimootnosheniya v mezotrofnom ozere // Biologiya vnutr. vod. 2006. № 3. S. 18–25.

576. Truba N.A., Nabivanec B.I., Nahshina E.P. Gruntootbornik GT-1 // Gidrobiol. zhurn. 1974. T. 10. № 2. S. 126–128.

577. Usachev P.I. Kolichestvennaya metodika sbora i obrabotki fitoplanktona // Trudy Vsesoyuznogo gidrobiologicheskogo obschestva. 1961. T. 11. S. 411–415.

578. Usenko O.M., Sakevich A.I., Palamarchuk V.D. Vliyanie fenol'nyh kislot gidrofitov na razvitie planktonnyh vodorosley // Al'gologiya. 2003. T. 13. № 1. S. 26–33.

579. Fasulati K.K. Polevoe izuchenie nazemnyh bespozvonochnyh. M.: Vyssh. shk., 1971. 424 s.

580. Fatovenko M.A. O vertikal'nom raspredelenii mikrozoobentosa v donnyh otlozheniyah Dneprodzerzhinskogo vodohranilischa // Biologicheskie osnovy rybnogo hozyaystva respublik Sredney Azii i Kazahstana. 1967. S. 280–281.

581. Fedorov V.D. O metodah izucheniya fitoplanktona i ego aktivnosti. M.: izd-vo MGU, 1979. 168 s.

582. Fedorov V.D., Koroleva A.N., Levich A.P. Kolichestvennye zakonomernosti v sootnoshenii chislennosti vidov zooplanktona Belogo morya // Nauch. dokl. vysshey shkoly. Biol. nauki. 1980. № 5. S. 101–106.

583. Filippov D.A., Prokin A.A., Przhiboro A.A. Metody i metodiki gidrobiologicheskogo issledovaniya bolot: uchebnoe posobie. Tyumen': Izd-vo Tyumenskogo gos. un-ta, 2017. 208 s.

584. Frayshtat D.M. Reaktivy i preparaty dlya mikroskopii. Spravochnik. M.: Himiya, 1980. 480 s.

585. Frenkel' S.E. Drift bespozvonochnyh kak kormovaya baza molodi lososey v tipichnoy maloy reke Sahalina: avtoref. dis. ... kand. biol. nauk. M.: VNIRO, 2011. 26 s.

586. Hahinov V.V., Namsaraev B.B., Gorlenko V.M. i dr. Polevoy praktikum po vodnoy gidrohimii i mikrobiologii: Uchebno-metod. posobie. Ulan-Ude: Izdatel'stvo Buryatskogo gosuniversiteta, 2016. Izd. 2, pererabotannoe. 80 s.

587. Hlebovich T.V. Skorost' potrebleniya kisloroda u kolovratok // Osnovy izucheniya presnovodnyh ekosistem. L., 1981. S. 98–102.

588. Calolihin S.Ya. Opredelenie vesa presnovodnyh nematod // Evolyuciya, sistematika, morfologiya i ekologiya svobodnozhivuschih nematod. L.: ZIN AN SSSR, 1981. S. 80–85.

589. Carenko V.M. Vnekletochnye organicheskie kisloty i ih svyaz' s funkcional'noy aktivnost'yu sinezelenyh vodorosley: Avtoref. dis. ... kand. biol. nauk. Kiev, 1983. 25 s.

590. Ceeb Ya.V., Chugunov Yu.A. Issledovaniya po antropogennomu evtrofirovaniyu presnyh vodoemov v SSSR // Krugovorot veschestv i biologicheskoe samoochischenie vodoemov. Kiev: Naukova dumka, 1980. S. 39–53.

591. Cimdin' P.A. Soobschestva zooplanktona basseyna r. Salaca // Bicenoticheskaya struktura malyh rek Latvii. Basseyn reki Salaca. Riga: Zinante, 1989. S. 97–107.

592. Cimdin' P.A., Liepa R.A., Urtans A.V. Tipologicheskaya klassifikaciya malyh rek // Izvestiya AN Latv.SSR. 1985. № 3. S. 104–112.

593. Cimdin' P.A., Rodionov V.I. Principy i metody analiza rechnyh biocenozov v sisteme fonovogo regional'nogo monitoringa presnovodnyh ekosistem // Biocenoticheskaya struktura malyh rek Latvii. Riga: Zinatne, 1989. S. 3–15.

594. Cihon-Lukanina E.A. Trofologiya vodnyh mollyuskov. M.: Nauka, 1987. 174 s.

595. Curikov M.N., Curikov S.N. Prirodosberegayuschie metody issledovaniya bespozvonochnyh zhivotnyh v zapovednikah Rossii // Trudy Associacii osobo ohranyaemyh prirodnyh territoriy Central'nogo Chernozem'ya Rossii. 2001. Vyp. 4. 130 s.

596. Chebanova V.V. Dinamika drifta bespozvonochnyh v lososevyh rekah raznogo tipa (yugo-vostok Kamchatki) // Gidrobiol. zhurn. 1992. T. 28. № 4. S. 31–39.

597. Chebanova V.V. Kormovaya baza molodi lososey v basseynah rek Bol'shaya i Paratunka (Kamchatka) // Tr. VNIRO. 2002. T. 141. S. 229–239.

598. Chebanova V.V. Bentos lososevyh rek Kamchatki. M.: Izd-vo VNIRO, 2009. 172 s.

599. Chebanova V.V., Ulatov A.V., Leman V.N. Sravnitel'naya harakteristika bentosa, drifta i obiliya molodi lososevyh v vodotokah razlichnogo tipa, otnosyaschihsya k basseynu r. Kihchik (Zapadnaya Kamchatka) // Issledovanie vodnyh biologicheskih resursov Kamchatki i severno-zapadnoy chasti Tihogo okeana: sb. nauch. tr. KamchatNIRO. Vyp. 7. Petropavlovsk-Kamchatskiy, 2004. S. 122–130.

600. Chebotarev A.I. Gidrologicheskiy slovar'. L.: Gidrometizdat, 1978. 308 s.

601. Chekanovskaya O.V. Vodnye maloschetinkovye chervi fauny SSSR. M.-L.: Izd-vo AN SSSR, 1962. 411 s.

602. Chernov Yu.I. Biologicheskoe raznoobrazie: suschnost' i problemy // Uspehi sovremennoy biologii. 1991. T. 111. № 4. S. 499–507.

603. Chertoprud M.V. Strukturnaya izmenchivost' litoreofil'nyh soobschestv makrobentosa // Zhurnal obschey biologii. 2007. T. 68. № 6. S. 424–434.

604. Chertoprud M.V. Raznoobrazie i klassifikaciya reofil'nyh soobschestv makrobentosa sredney polosy Evropeyskoy Rossii // Zhurn. obsch. biologii. 2011. T. 72. № 1. S. 51–73.

605. Chertoprud M.V., Chertoprud E.S. Kratkiy opredelitel' bespozvonochnyh presnyh vod centra Evropeyskoy Rossii. M.: T-vo nauchnyh izdaniy KMK, 2011. 219 s.

606. Chirkova Z.N. Mikrobentos // Metodika izucheniya biogeocenozov vnutrennih vodoemov. M.: Nauka, 1975. S. 178–185.

607. Chislenko L.L. Nomogrammy dlya opredeleniya vesa vodnyh organizmov po razmeram i forme tela (morskoy mezobentos i plankton). L.: Nauka, 1968. 106 s.

608. Chuykov Yu.S. Ekologicheskiy analiz sostava i struktury soobschestv vodnyh zhivotnyh kak metod biologicheskoy ocenki kachestva vod // Ekologiya. 1978. № 5. S. 53–57.

609. Chuykov Yu.S. Metody ekologicheskogo analiza sostava i struktury soobschestv vodnyh zhivotnyh. Ekologicheskaya klassifikaciya bespozvonochnyh, vstrechayuschihsya v planktone presnyh vod // Ekologiya. 1981. № 3. S. 71–77.

610. Chuykov Yu.S. Zooplankton Severnogo Prikaspiya i Severnogo Kaspiya v usloviyah izmeneniya urovnya morya i antropogennyh vozdeystviy. Diss. dokt. biol. nauk v forme nauchn. dokl. SPb., 1995. 73 s.

611. Shakurova N.V. Bol'shoy praktikum po zoologii bespozvonochnyh (Protozoa, Spongia, Coelenterata, Plathelminthes, Nematoda): Uchebno-metodicheskoe posobie. Kazan': Kazanskiy (Privolzhskiy) federal'nyy universitet, 2011. 38 s. Elektronnyy resurs: https://kpfu.ru/portal/docs/F2003982326/ShAKUROVA_BOLShOJ.PRAKTIKUM.po.zbp_metodichka.pdf

612. Sharapova T.A. Prostranstvennoe raspredelenie zooperifitona v evtrofnom ozere // Vestnik ekologii, lesovedeniya i landshaftologii. 2005. № 6. S. 146–149.

613. Sharapova T.A. Zooperifiton vnutrennih vodoemov Zapadnoy Sibiri. Novosibirsk: Nauka, 2007. 167 s.

614. Sharapova T.A., Babushkin E.S. Sravnenie zoobentosa i zooperifitona krupnoy i sredney reki // Sibirskiy ekologicheskiy zhurnal. 2013. № 6. S. 841–845.

615. Sharapova T.A., Babushkin E.S. Prostranstvennaya neodnorodnost' zoobentosa i zooperifitona v ozerah-staricah (Zapadnaya Sibir') // Biologiya vnutr. vod. 2019. № 4. S. 68–74.

616. Sharapova T.A., Gerasimova A.A., Gontar' V.I., Babushkin E.S., Glazunov V.A., Nikolaenko S.A., Gerasimov A.G. Taksonomicheskiy i cenoticheskiy sostav zooperifitona ozer lesotundry (Zapadnaya Sibir') // Biologiya vnutr. vod. 2021. № 6. S. 586–596. DOI:https://doi.org/10.31857/S032096522105020X

617. Sheremetevskiy A.M. Rol' meyobentosa v biocenozah shel'fa yuzhnogo Sahalina, vostochnoy Kamchatki i Novosibirskogo melkovod'ya. L.: Nauka, 1987. 135 s.

618. Shitikov V.K., Zinchenko T.D. Mnogomernyy statisticheskiy analiz ekologicheskih soobschestv (obzor) // Teoreticheskaya i prikladnaya ekologiya. 2019. № 1. S. 5–11.

619. Shitikov V.K., Zinchenko T.D., Golovatyuk L.V. Metod ocenki kachestva poverhnostnyh vod po makrozoobentosu na osnove vidovyh indikatornyh valentnostey // Mat. II-y Mezhdunar. konf. “Ozernye ekosistemy: biologicheskie processy, antropogennaya transformaciya, kachestvo vody”. Minsk–Naroch'. 2003. S. 537–540.

620. Shitikov V.K., Zinchenko T.D., Rozenberg G.S. Makroekologiya rechnyh soobschestv: koncepcii, metody, modeli. Tol'yatti: Kassandra, 2012. 257 s.

621. Shitikov V.K., Rozenberg G.S., Zinchenko T.D. Kolichestvennaya gidroekologiya: metody sistemnoy identifikacii. Tol'yatti: IEVB RAN, 2003. 463 s.

622. Shitikov V.K., Rozenberg G.S., Zinchenko T.D. Kolichestvennaya gidroekologiya: metody, kriterii, resheniya. M.: Nauka, 2005. Kn. 1. 281 s.; Kn. 2. 337 s.

623. Shmidt V.M. Statisticheskie metody v sravnitel'noy floristike. L.: LGU, 1980. 176 s.

624. Shmidt V.M. Matematicheskie metody v botanike: uchebnoe posobie. L.: Izd-vo Leningradskogo universiteta, 1984. 288 s.

625. Shubina V.N. Drift donnyh bespozvonochnyh v ural'skoy semuzh'enerestovoy r. Schugor (basseyn Pechory) // Tr. Komi fil. AN SSSR. 1979. № 40. S. 134–199.

626. Shubina V.N. Gidrobiologiya lososevoy reki Severnogo Urala. L.: Nauka, 1986. 158 s.

627. Shubina V.N. Bentos lososevyh rek Urala i Timana. SPb.: Nauka, 2006. 401 s.

628. Shubina V.N., Orlov A.V. Sravnenie fil'truyuschey sposobnosti i ulovistosti lovushek pri sbore prob drifta donnyh bespozvonochnyh // Ekologiya. 1991. № 4. S. 89–91.

629. Shuyskiy V.F., Maksimova T.V., Petrov D.S. Izobolicheskiy metod ocenki i normirovaniya mnogofaktornyh antropogennyh vozdeystviy na presnovodnye ekosistemy po sostoyaniyu makrozoobentosa. SPb.: Izd-vo MANEB, 2004. 304 s.

630. Shurganova G.V., Zhiharev V.S., Kudrin I.A., Gavrilko D.E., Zolotareva T.V. Otbor i obrabotka zooplanktona pri gidroekologicheskih issledovaniyah: uchebno-metodicheskoe posobie. N-Novgorod: NNGU, 2021. 27 s.

631. Shustov Yu.A. Drift donnyh bespozvonochnyh v lososevyh rekah basseyna Onezhskogo ozera // Gidrobiol. zhurn. 1977. T. 13. Vyp. 3. S. 32–37.

632. Shustov Yu.A. Drift bespozvonochnyh v pritokah Onezhskogo ozera // Lososevye nerestovye reki Onezhskogo ozera. L.: Nauka, 1978. S. 50–53.

633. Shustov Yu.A. Ekologiya molodi atlanticheskogo lososya. Petrozavodsk: “Kareliya”, 1983. 152 s.

634. Shustov Yu.A., Shirokov V.A. Metodika izucheniya drifta bespozvonochnyh v reke // Gidrobiol. zhurn. 1980. T. 16. № 3. S. 100–102.

635. Scherbina G.H. Godovaya dinamika makrozoobentosa otkrytogo melkovod'ya Volzhskogo plesa Rybinskogo vodohranilischa // Zoocenozy vodoemov basseyna Verhney Volgi v usloviyah antropogennogo vozdeystviya. SPb.: Gidrometeoizdat, 1993. S. 108–144.

636. Scherbina G.H. Taksonomicheskiy sostav i saprobiologicheskaya znachimost' donnyh makrobespozvonochnyh razlichnyh presnovodnyh ekosistem Severo-Zapada Rossii // Ekologiya i morfologiya bespozvonochnyh kontinental'nyh vodoemov vod: sb. nauch. rabot, posvyaschennyy 100-letiyu so dnya rozhdeniya F.D. Morduhay-Boltovskogo. Mahachkala, 2010. S. 426–466.

637. Schuka T.A. Harakteristika sovremennogo sostoyaniya zooplanktona Baltiyskogo morya: Avtoref. dis. … kand. biol. nauk. M., 2002. 28 s.

638. Ekologicheskie faktory prostranstvennogo raspredeleniya i peremescheniya gidrobiontov. SPb.: Gidrometeoizdat, 1993. 335 s.

639. Ergashboev I. Novyy mikrobentometr // Gidrobiol. zhurn. 1978. T. 14. № 5. C. 112–113.

640. Yavid E.Ya., Hodonovich V.V., Krylova Yu.V., Kurashov E.A., Smagin R.E. Sravnitel'naya harakteristika nizkomolekulyarnogo metaboloma makrofitov raznotipnyh vodoemov akvatorii Kandalakshskogo zaliva Belogo morya // Himiya rastitel'nogo syr'ya. 2024. № 1. C. 211–224. DOI:https://doi.org/10.14258/jcprm.20240113005

641. Yakovlev V.A. Ocenka kachestva poverhnostnyh vod Kol'skogo Severa po gidrobiologicheskim pokazatelyam i dannym biotestirovaniya (prakticheskie rekomendacii). Kol'skiy filial AN SSSR. Apatity, 1988. 27 s.

642. Yakovlev V.A. Troficheskaya struktura zoobentosa – pokazatel' sostoyaniya vodnyh ekosistem i kachestva vody // Vodnye resursy. 2000. T. 27. № 2. S. 237–244.

643. Yakovlev V.A. Presnovodnyy zoobentos Severnoy Fennoskandii (raznoobrazie, struktura i antropogennaya dinamika). Apatity: KarNC RAN, 2005. Ch. 1. 161 s.; Ch. 2. 145 s.

644. A Copmrehensive Guide to Wildco Water Bottle Samplers. Wildlife Supply Company, USA. 2010. 45 p.

645. A Manual on Methods for Measuring Primary Productivity in Aquatic Environments. IBP Handbook 12 / Vollenweider R.A. (ed.). Oxford: Blackwell, 1974. 225 p.

646. Abdel-Wareth M.T.A., Sayed S.S.M. Association pattern between freshwater snails and fungi in relation to water quality parameters in two Egyptian governorates // Egytian Journal of Aquatic Biology and Fisheries. 2023. V. 27(1). P. 179–201.

647. Abrusán G., Fink P., Lampert W. Biochemical limitation of resting egg production in Daphnia // Limnology and oceanography. 2007. V. 52. No 4. P. 1724–1728.

648. Adams J. The feeding behavior of Bdellocephala punctata, a freshwater triclad // Oikos. 1980. V. 35. No 1. P. 2–7.

649. Akbar S., Gu L., Sun Y., Zhang L., Lyu K., Huang Y., Yang Z. Understanding host-microbiome-environment interactions: Insights from Daphnia as a model organism // Science of the Total Environment. 2022. V. 808. P. 152093.

650. Al-Dossary M.A., Abood S.A., Hamid T. AL-Saad. Biodegradation of Crude Oil Using Aspergillus species // Journal of Biology Agriculture and Healthcare. 2019. V. 9. No 4. P. 60–64. DOI:https://doi.org/10.7176/JBAH/9-4-09

651. Al-Nasrawi H. Biodegradation of Crude Oil by Fungi Isolated from Gulf of Mexico // Journal of Bioremediation & Biodegradation. 2012. V. 3. Is. 4. P. 147. DOI:https://doi.org/10.4172/2155-6199.1000147

652. Alekseev V., Lampert W. Maternal control of resting-egg production in Daphnia // Nature. 2001. V. 414. No 6866. P. 899–901.

653. Alexander M. Microbial ecology. New York: Acad. Press, 1971. 480 p.

654. Ali A. A Simple and Efficient Sediment Corer for Shallow Lakes1 // Journal of Environment Quality. 1984. V. 13(1). P. 63. DOI:https://doi.org/10.2134/jeq1984.00472425001300010011x

655. Algal culturing techniques / Andersen R.A. (ed.). Elsevier, 2005. 592p.

656. Algal ecology. Freshwater benthic ecosystems / Ed. by Stevensen R.J., Bothwell M.L., Lowe R.L. 1996. 735 p.

657. Allan J.D. Stream Ecology: Structure and Function of Running Waters. London: Chapman & Hall, 1995. 388 p.

658. Allelopathy. A Physiological Process with Ecological Implications / Eds: Reigosa, Manuel J.; Pedrol, Nuria; González, Luís. Springer, Dordrecht, The Netherlands, 2006. 637 p.

659. Allelopathy. Current Trends and Future Applications / Eds: Cheema Z., Farooq M., Wahid A. Springer, Berlin, Heidelberg, 2013. 528 p.

660. Andrews J.H., Kinkel L.L., Berbee F.M., Nordheim E.V. Fungi, leaves and the theory of island biogeoraphy // Microb. Ecol. 1987. V. 14. No 3. P. 277–290.

661. Anisimova O.V. European flora of the desmid genus Euastrum. M.: KMK Scientific Press, 2021. 109 p.

662. Anonymous. Live trapping in Denmark // Latissimus. 2005. No 20. P. 31.

663. Aloi J.E. A critical review of recent freshwater periphyton field methods // Can. J. Fish. and Aquat. Sci. 1990. V. 47. No 3. P. 656–670.

664. Antioxidants in Plant-Microbe Interaction / Eds: Singh H.B., Vaishnav A., Sayyed R.Z. Springer Singapore, 2021. 655 p. DOI:https://doi.org/10.1007/978-981-16-1350-0

665. Alonso R., Catherine M.P. Invertebrate drift and benthic community dynamics in a lowland neotropical stream, Costa Rica // Hydrobiologia. 1998. V. 386. P. 19–26.

666. Anderson N.H., Cummins K.W. The influence of diet on the life histories of aquatic insects // Journal of the Fisheries Research Board of Canada. 1979. V. 36. P. 335–342.

667. Ankar S., Elmgren R. The benthic macro- and meiofauna of the AskoLandsort area. A stratified random sampling survey // Contribution from the Asko Laboratory, Univ. of Stockholm. Sweden. 1976. No 11. 115 p.

668. Antal T.K., Venediktov P.S., Matorin D.N., et al. Measurement of phytoplankton photosynthesis rate using a pump-and-probe fluorometer // Oceanologia. 2001. V. 43. No 3. P. 291–313.

669. Aquatic sampling instruments & equipment – from the bottom up. Wildlife Supply Company, 1993. 112 pp.

670. Arnekleiv J.V., Storest L. Downstream effects of mine drainage on benthos and fish in a Norwegian river: a comparison of the situation before and after river rehabilitation // Journal of Geochemical Exploration. 1995. V. 52. P. 35–43.

671. Asif A., Baig M.A., Siddiqui M.B. Role of Jasmonates and Salicylates in Plant Allelopathy // Jasmonates and Salicylates Signaling in Plants. Signaling and Communication in Plants. Springer, Cham., 2021. P. 115–127. DOI:https://doi.org/10.1007/978-3-030-75805-9_6

672. Aslam F., Khaliq A., Matloob A., Tanveer A., Hussain S., Zahir Z.A. Allelopathy in agro-ecosystems: a critical review of wheat allelopathy-concepts and implications // Chemoecology. 2017. V. 27. P. 1–24. DOI:https://doi.org/10.1007/s00049-016-0225-x

673. Astakhov M.V., Bogatov V.V. Vertical redistribution of drifting benthic invertebrates in the Kedrovaya River, Primorsky Region of Russia // Open Journal of Ecology. 2014. V. 4. No 2. R. 53–59. DOI:https://doi.org/10.4236/oje.2014.42007

674. Azim M.E., Verdegem M.C.J., van Dam A.A., Beveridge M.C.M. Periphyton: Ecology, Exploitation and Management. 2005. 352 p.

675. Bahls L.L. Periphyton bioassessment methods for Montana streams. Water Quality Bureau, Department of Health and Environmental Sciences, Helena, Montana, 1993. 132 p.

676. Baker A.L., Baker K.K., Tyler P.A. A family of pneumatically-operated thin layer samplers for replicate sampling of heterogeneous water columns // Hydrobiologia. 1985. V. 122. P. 207–211.

677. Bamber R.N. Sodium hexametaphosphate as an aid in benthic sample sorting // Mar. Environ. Res. 1982. V. 7. No 4. P. 251–255.

678. Båmstedt U. Chemical composition and energy content // The Biological Chemistry of Marine Copepods / Corner E.D.S., O’Hara S.C. (eds.). Oxford: Oxford Scientific Publications, 1986. P. 1–58.

679. Barbour M.T., Gerritsen J., Snyder B.D., Stribling J.B. Rapid Bioassessment Protocols for Use in Streams and Wadeable Rivers: Periphyton, Benthic Macroinvertebrates and Fish, Second Edition. U.S. Environmental Protection Agency; Office of Water; Washington, D.C., 1999. 337 p.

680. Barnett A., Beisner B.E. Zooplankton biodiversity and lake trophic state: explanations invoking resource abundance and distribution // Ecology. 2007. V. 88(7). P. 1675–1686.

681. Baryshev I.A. Veselov A.E. Seasonal Dynamics of. Benthos and Drift Invertebrates in Some Tributaries of Lake Onega // Inland Water Biology. 2007. No 1. R. 74–80.

682. Bärlocher F. Aquatic hyphomycetes inchanging environment // Fungal Ecology. 2016. V. 19. P. 14–27.

683. Batko A. Zaris hydromikologii. Warszawa: PWN, 1975. 478 s.

684. Behrenfeld M.J., Siegel D.A., O’Malley R.T. Global ocean phytoplankton and productivity / J.M. Levy, Ed. State of the climate in 2007. Bulletin of the American Meteorological Society, July 2008. P. S56–S61.

685. Bell R.T. Estimating production of heterotrophic bacterioplankton via incorporation of tritiated thymidine // Handbook of methods in aquatic microbial ecology / Eds Kemp P.F. et al. Boca Raton: Lewis Publ., 1993. P. 495–503.

686. Bellinger E.G., Sigee D.C. Freshwater algae: identification, enumeration and use as bioindicators. Second Edition. John Wiley & Sons, Ltd. 2015. 275 p.

687. Benoît O.L. Demars J.L., Kemp N.F., Philippe U.P., David M.H. Linking biotopes to invertebrates in rivers: Biological traits, taxonomic composition and diversity // Ecological Indicators. V. 23. 2012. P. 301–311. DOI:https://doi.org/10.1016/j.ecolind.2012.04.011

688. Berezina N. Food spectra and consumption rates of four amphipod species from the North-West of Russia // Fundamental and Applied Limnology. 2007. V. 168. No 4. P. 317–326.

689. Bernatowicz P., Radzikowski J., Paterczyk B., Bebas P., Slusarczyk M. Internal structure of Daphnia ephippium as an adaptation to dispersion // Zoologischer Anzeiger. 2018. V. 277. P. 12–22.

690. Berthet P. L'activite des Oribatides (Acari, Oribatei) d'une Chenaie // Mem. Inst. Roy. Sci. Natur. 1964. V. 1. P. 1–152.

691. Bertin C., Yang X., Weston L.A. The role of root exudates and allelochemicals in the rhizosphere // Plant and Soil, 2003. V. 256(1). P. 67–83. DOI:https://doi.org/10.1023/a:1026290508166

692. Beutler M. Spectral fluorescence of chlorophyll and phycobilins as an in-situ tool of phytoplankton analysis – models, algorithms and instruments // Dissertation zur Erlangung des Doktorgrades der Mathematisch-Naturwissenschaftlichen Fakultät der Christian-Albrechts-Universität zur Kiel. 2003. 174 pp.

693. Beutler M., Wiltshire K.H., Meyer B. et al. A fluorometric method for the differentiation of algal populations in vivo and in situ // Photosynthes. Res. 2002. V. 72. P. 39–53.

694. Bickel S.L., Tang K.W., Grossart H.P. Use of aniline blue to distinguish live and dead crustacean zooplankton composition in freshwaters // Freshwater Biology. 2008. V. 54. No 5. P. 971–981.

695. Biddanda B., Ogdahl M., Cottner J.B. Dominance of bacterial metabolism in oligotrophic rela-tive to euphotic waters // Limnol. Oceanogr. 2001. V. 46. P. 730–739.

696. Biggs B.J.F., Kilroy C. Stream Periphyton Monitoring Manual. New Zealand Ministry for the Environment. Christchurch, New Zealand, 2000. 247 p.

697. Biological Monitoring of Rivers: Applications and Perspectives / Ed. by Ziglio G., Flaim G., Wiley M.S. John Wiley & Sons, Ltd. 2006. 469 p.

698. Bishop J.E., Hynes H.B.N. Downstream drift of the invertebrate fauna in a stream ecosystem // Arch. f. Hydrobiol. 1969. V. 66. No 1. P. 56–90.

699. Blomqvist S., Abrahamsson B. An improved Kajak-type gravity core sampler for soft bottom sediments // Swiss Journal of Hydrology. 1985. V. 47(1). P. 81–84. DOI:https://doi.org/10.1007/bf02538187

700. Bokulich N.A., Kaehler B.D., J.R. Rideout et al. Optimizing taxonomic classification of marker-gene amplicon sequences with QIIME 2’s q2-feature-classifier plugin // Microbiome. 2018. V. 6. 90. DOI:https://doi.org/10.1186/s40168-018-0470-z

701. Bolyen E., Rideout J.R., Dillon M.R. et al. Reproducible, interactive, scalable and extensible microbiome data science using QIIME 2 // Nature Biotechnology. 2019. V. 37. P. 852–857. DOI:https://doi.org/10.1038/s41587-019-0209-9

702. Borsheim K.Y., Bratbak G. Cell volume to carbon conversion factors for a bacterivorous Monas sp. enriched from seawater // Mar. Ecol. Prog. Ser. 1987. V. 36. P. 171–175.

703. Bossdorf O., Richards C.L., Pigliucci M. Epigenetics for ecologists // Ecology letters. 2008. V. 11. No 2. P. 106–115.

704. Boyer L., Jabbour-Zahab R., Joncour P., Glémin S., Haag C.R., Lenormand T. Asexual male production by ZW recombination in Artemia parthenogenetica // Evolution. 2023. V. 77. No 1. P. 1–12.

705. Bower S.M., Carnegie R.B., Goh B. et al. Preferential PCR amplification of parasitic protistan small subunit rDNA from metazoan tissues // J. Eukaryot. Microbiol. 2004. V. 51. P. 325–332. DOI:https://doi.org/10.1111/j.1550-7408.2004.tb00574.x

706. Børsheim K.Y., Bratbak G. Cell volume to carbon conversion factors for a bacterivorous Monas sp. enriched from seawater // Mar. Ecol. Progr. Ser. 1987. V. 36. R. 171–175.

707. Brauer F. Beitrage zur Kenntniss der Phyllopoden // Sitzungsberichte der Kaiserlichen Akademie der Wissenschaften. 1872. V. 65. P. 279–291.

708. Brendonck L.U.C., Riddoch B.J. Wind-borne short-range egg dispersal in anostracans (Crustacea: Branchiopoda) // Biological journal of the Linnean Society. 1999. V. 67. No 1. P. 87–95.

709. Bridcut E.E. A study of terrestrial and aerial macroinvertebrates on river banks and their contribution to drifting fauna and salmonid diets in a Scottish catchment // Hydrobiologia. 2000. V. 427. P. 83–100.

710. Brinkhurst R.O., Chua K.E., Batoosingh E. Modifications in sampling procedures as applied to studies on the bacteria and tubificid oligochaetes inhabiting aquatic sediments // J. Fish. Res. Bd. Can. 1969. V. 26. P. 2581–2593. DOI:https://doi.org/10.1139/f69-252

711. Brittain J.E., Eikeland T.J. Invertebrate drift. A review // Hydrobiol. 1988. V. 166. P. 77–93.

712. Brown B.L., Creed R.P., Skelton J., Rollins M.A., Farrell K.J. The fine line between mutualism and parasitism: complex effects in a cleaning symbiosis demonstrated by multiple field experiments // Oecologia. 2012. V. 170. P. 199–207.

713. Brussaard C.P.D. Optimization of procedures for counting viruses by flow cytometry // Appl. Environ. Microbiol. 2004. V. 70. No 3. P. 1506–1513.

714. Bubnova E.N., Grum-Grzhimailo O.A., Kozlovsky V.V. Composition and Structure of the Community of Mycelial Fungi in the Bottom Sediments of the White Sea // Moscow University Biological Sciences Bulletin. 2020. V. 75. No 3. P. 153–158. DOI:https://doi.org/10.3103/S0096392520030037

715. Burkholder P.R., Burkholder L.M., Rivero J.A. Chlorophyll a in some corals and marine plants // Nature. 1959. V. 183. No 4671. P. 1338–1339.

716. Cadwallader Ph.L. Feeding habits of two fish species in relation to invertebrate drift in a New Zeeland river // J. Marine and Freshwater Research. 1974. V. 9. No 1. P. 11–26.

717. Calabon M.S, Hyde K.D., Jones E.B.G., Chandrasiri S., Dong W, Fryar S.C., Yang J., Luo Z.L., Lu Y.Z., Bao D.F., Boonmee S. – www.freshwaterfungi.org, an online platform for the taxonomic classification of freshwater fungi // Asian Journal of Mycology. 2020. V. 3(1). P. 419–445. DOI:https://doi.org/10.5943/ajom/3/1/14

718. Callahan B.J., McMurdie P.J., Rosen M.J. et al. () DADA2: high-resolution sample inference from Illumina amplicon data // Nature Methods. 2016. V. 13. P. 581–583. DOI:https://doi.org/10.1038/nmeth.3869

719. Callens M., Macke E., Muylaert K. et al. Food availability affects the strength of mutualistic host–microbiota interactions in Daphnia magna // The ISME journal. 2016. V. 10. No 4. P. 911–920.

720. Callens M., Watanabe H., Kato Y., Miura J., Decaestecker E. Microbiota inoculum composition affects holobiont assembly and host growth in Daphnia // Microbiome. 2018. V. 6. P. 1–12.

721. Callieri C., Stockner J.G. Freshwater autotrophic picoplankton: a review // J. Limnol. 2002. V. 61. No 1. P. 1–14.

722. Caron D.A. Technique for enumeration of heterotrophic and phototrophic nanoplankton, using epifluorescence microscopy, and comparison with other procedures // Appl. Environ. Microbiol. 1983. V. 46. No 2. P. 491–498.

723. Caron D.A., Peele E.R., Lim E.L., Dennett M.R. Picoplankton and nanoplankton and their trophic coupling in surface waters of the Sargasso Sea of Bermuda // Limnol. Oceanogr. 1999. V. 44. No 2. P. 259–272.

724. Castri F. Vous aves dit “Biodiversite”? // Energies. 1992. V. 13. P. 38–39.

725. Chandler P. A Dipterists Handbook Second Edition // Amateur Entomologists' Society. 2010. V. 15. 568 p.

726. Chandler G.T., Shirley T.C., Fleeger J.W. The tom-tom corer: a new design of the Kajak corer for use in meiofauna sampling // Hydrobiologia. 1988. V. 169. No 2. P. 129–134.

727. Chen F., Lu J., Binder B.J. et al. Application of digital image analysis and flow cytometry to enumerate marine viruses stained with SYBR Gold // Appl. Environ. Microbiol. 2001. V. 67. No 2. P. 539–545.

728. Chemical Ecology of Plants: Allelopathy in Aquatic and Terrestrial Ecosystems / Mallik A.U., Inderjit (eds.). Springer, Basel, 2002. 272 p. DOI:https://doi.org/10.1007/978-3-0348-8109-8

729. Chironomidae of the Holarctic region. Keys and diagnoses. Part 1. Larvae. Ent. Scand. Suppl. No 19. Őstergőtland, Motala. 1986. 457 p.

730. Clarke K.R., Gorley R. N., Somerfield P.J., Warwickb R.M. Change In Marine Communities: An Approach to Statistical Analysis and Interpretation (3rd edition). PRIMER-E Ltd: Plymouth, 2014. 262 p.

731. Clevenger J.F. Apparatus for the determination of volatile oil // J. Am. Pharm. Assoc. 1928. V. 17. P. 345–349.

732. Colbourne J.K., Pfrender M.E., Gilbert D., Thomas W.K., Tucker A. et al. The ecoresponsive genome of Daphnia pulex // Science. 2011. V. 331. No 6017. P. 555–561.

733. Cole G.A Textbook of Limnology. 3 Edition. The C.V. Mosby Company 1983. 401 p.

734. Copilaș-Ciocianu D., Boros B.-V., Šidagytė-Copilas E. Morphology mirrors trophic niche in a freshwater amphipod community // Freshwater Biology. 2021. 00, 1–12. DOI:https://doi.org/10.1111/fwb.13804

735. Courtney W.D., Polley D., Miller V.L. TAF, an improved fixative in nematode technique // Plant Disease Reporter. 1955. V. 39. P. 570–571.

736. Craib J.S. A sampler for taking short undisturbed marine cores // J. Cons. Perm. Int. Explo. Mer. 1965. V. 30. P. 34–39.

737. Crippen R.W., Perrier J.L. The use of Neutral Red and Evans Blue for Live / Dead determination of marine plankton // Stain Tech. 1974. V. 49. No 2. P. 97–104.

738. Crossland N.O., Heimbach F., Hill I.R., Boudou A., Leeuwangh P., Matthiessen P., Persoone G. Summary and recommendations of the European Workshop on Freshwater Field Tests (EWOFFT). Potsdam (Germany). 1992. 37 p.

739. Cudowski F., Pietryczuk A. Biodiversity of mycoplankton in the profile of eutrophic lakes with varying water quality // Fungal Ecology. 2020. V. 48. DOI:https://doi.org/10.1016/j.funeco.2020.100978

740. Cullen J.J. Primary production methods // Encyclopedia of Ocean Sciences. Halifax: Academic Press, 2001. P. 2277–2284. DOI:https://doi.org/10.1006/rwos.2001.0203

741. Cummins K.W. Factors limiting the microdistribution of larvae of the caddisflies Pycnopsyche lepida (Hagen) and Pycnopsyche gutifer (Walker) in a Michigan stream // Ecol. Monogr. 1964. V. 34. P. 271–295.

742. Cummins K.W. Trophic relations of aquatic insects // Annual Review of Entomology. 1973. V. 18. P. 183–206.

743. Cummins K.W., Klug M.J. Feeding ecology of stream invertebrates // Annual Review of Ecology, Evolution, and Systematics. 1979. V. 10. P. 147–172.

744. Cummins K.W., Merritt R.W., Andrade P.C. The use of invertebrate functional groups to characterize ecosystem attributes in selected streams and rivers in south Brazil // Studies on Neotropical Fauna and Environment. 2005. V. 40. Is. 1. P. 69–89.

745. Cushing C.E. An apparatus for sampling drifting organisms in streams // J. Wildl. Mgmt. 1964. V. 28. P. 592–594.

746. Czekanowski J. Coefficient of racial likeness and durchschnittliche Differenz // Anthropol. Anz. 1922. V. 9. P. 227–249.

747. Dall P.C. A sampling technique for littoral stone dwelling organisms // Oikos. 1979. V. 33. No 1. P. 106–112.

748. Dashkova V., Malashenkov D., Poulton N., Vorobjev I., Barteneva N.S. Imaging flow cytometry for phytoplankton analysis // Methods. 2017. V. 112 (Suppl. C). P. 188–200.

749. De Bovvee F., Albert P., Soyer J. The importance of the mesh size for the extraction of the muddy bottom meiofauna // Limnol. Oceanogr. 1974. V. 19. No 2. P. 350–354.

750. De Jonge V.N., Bouwman L.A. A simple density separation technique for quantitative isolation of meiobenthos using the colloidal silica Ludax-TM // Mar. Biol. 1977. V. 42. No 2. P. 143–148.

751. De Silva R.K. The factors affecting the feeding of Dendrocoelum lacteum (Muller) (Turbellaria, Tricladida) on Asellus aquaticus (L.) (Crustacea, Isopoda) // Arch. Hydrobiol. 1976. Bd. 77. No 4. S. 347–374.

752. Declerck S.A.J., Coronel J.S., Legendre P., Brendonck L. Scale dependency of processes structuring metacommunities of cladocerans in temporary pools of High-Andes wetlands // Ecography. 2011. V. 34. P. 296–305. DOI:https://doi.org/10.1111/j.1600-0587.2010.06462.x

753. del Giorgio P.A., Cole J.J. Bacterial growth efficiency in natural aquatic systems // Ann. Rev. Ecol. Syst. 1998. V. 29. P. 503–541.

754. Desmarais K.H. Keeping Daphnia out of the surface film with cetyl alcohol // Journal of Plankton Research. 1997. V. 19. No 1. P. 149–154.

755. Díaz S., Cabido M. Vive la diffe´rence: plant functional diversity matters to ecosystem processes // Trends in Ecology & Evolution. 2001. V. 16. P. 646–655.

756. Doma S. Ephippia of Daphnia magna Straus – A technique for their mass production and quick revival // Hydrobiologia. 1979. V. 67. P. 183–188.

757. Dorak Z., Köker L., Gürevin C., Saç G. How do environmental variables affect the temporal dynamics of zooplankton functional groups in a hyper eutrophic wetland? // Environmental Science and Pollution Research. 2023. V. 30. P. 97115–97127. DOI:https://doi.org/10.1007/s11356-023-29252-8

758. Ducklow H.W. Bacterial production and biomass in the oceans // Microbial ecology of the oceans, Chapter 4 / Kirchman D.L. (ed.). New York: Wiley-Liss, 2000. P. 85–120.

759. Dumont H.J., Van de Velde I., Dumont S. The dry weight estimate of biomass in a selection of Cladocera, Copepoda and Rotifera from the plankton, periphyton and benthos of continental waters // Oceologia. 1975. V. 19. P. 75–97.

760. Douglas G.M., Maffei V.J., Zaneveld J.R. et al. () PICRUSt2 for prediction of metagenome functions // Nature Biotechnology. 2020. V. 38. P. 685–688. DOI:https://doi.org/10.1038/s41587-020-0548-6

761. Ebert D. Ecology, epidemiology, and evolution of parasitism in Daphnia. National Library of Medicine, 2005. 98 p.

762. Ebert D. Daphnia as a versatile model system in ecology and evolution // EvoDevo. 2022. V. 13. No 1. P. 16.

763. Edgerton B.F., Evans L.H., Stephens F.J., Overstreet R.M. Synopsis of freshwater crayfish diseases and commensal organisms // Aquaculture. 2002. V. 206. No 1–2. P. 57–135.

764. Edler L. Phytoplankton counts. Results and analysis of the intercalibration Experiments // Interim Baltic Marine Environment Protection Commission. 1979. 20 p.

765. Edler L., Elbrächter M. The Utermöhl method for quantitative phytoplankton analysis // Microscopic and molecular methods for quantitative phytoplankton analysis. Intergovernmental Oceanographic Commission Manuals and Guides 55. UNESCO, Paris. 2010. 114 p.

766. Edmondson W.T., Winberg G.G. A manual on methods for the assessment of secondary productivity in fresh waters / IBP Handbook. No. 17. F.A. Davis, Philadelphia: Blackwell Sci. Publ., Oxford and Edinburgh. 1971. 358 p.

767. Elendt B.P., Bias W.R. Trace nutrient deficiency in Daphnia magna cultured in standard medium for toxicity testing. Effects of the optimization of culture conditions on life history parameters of D. magna // Water research. 1990. V. 24. No 9. P. 1157–1167.

768. Elliott J.M. Invertebrate drift in a Dartmoor stream // Arch. Hydrobiol. 1967. V. 63. P. 202–237.

769. Elliott J.M. Methods of sampling invertebrate drift in running water // Ann. Limnol. 1970. V. 6. P. 133–159.

770. Elliott J.M. Time spent in the drift by downstream-dispersing invertebrates in a Lake District stream // Freshwater Biology. 2002. V. 47. P. 97–106.

771. Elliott J.M., Drake C.M. A Comparative Study of Seven Grabs used for Sampling Benthic Macroinvertebrates in Rivers // Freshwater biology. 1981. V. 11. Is. 2. P. 99–120.

772. Elliot J.W. Some methods for the Statistical Analysis of Samples of Bentic Invertebrates // Freshwater Biological Association Scientific Publications. 1977. V. 25. 159 r.

773. Elliott D.T., Tang K.W. Simple staining method for differentiating live and dead marine zooplankton in field samples // Limnol. Oceanogr.: Methods. 2009. V. 7. P. 585–594.

774. Elliott D.T., Tang K.W. Spatial and temporal distributions of live and dead Copepods in the lower Cheasapeake Bay (Virginia, USA) // Estuaries Coasts. 2011. V. 34. Is. 5. P. 1039–1048.

775. Elouard J.-M. Un nouveau type de substrat artificiel de surface pour echantilloner la faune invertebree lotique // Rev. hydrobiol. trop. 1984. V. 17. No 1. P. 77–81.

776. Epigenetics: linking genotype and phenotype in development and evolution / Hallgrimsson B., Hall B. K. (ed.). Univ of California Press, 2011. 472 p.

777. Falkowski P., Kiefer D.A. Chlorophyll a fluorescence in phytoplankton: relationship to photosynthesis and biomass // J. Plankton Res. 1985. V. 7. No 5. P. 715–731.

778. Fast A.W. An avaluation of the efficiency of zoobethos separation by sugar flotation // Progr.Fish-Cult. 1970. V. 32. No 4. P. 212–216.

779. Fauna Aquatic a Austriaca, Edition 2002 / Moog O. (Ed.). Wasserwirtschaftskataster, Bundesministerium für Land- und Forstwirtschaft, Umwelt und Wasserwirtschaft, Vienna, 2002.

780. Fauna Aquatica Austriaca, 3. Edition 2017 / Moog O., Hartmann A. (Eds.). Bundesministerium für Land- und Forstwirtschaft, Umwelt und Wasserwirtschaft, Vienna, 2017.

781. Fenchel T. The ecology of marine microbenthos. I. The quantitative importance of ciliates as compared with metazoans in various types of sediments // Ophelia. 1967. V. 4. P. 121–137.

782. Findlay S. Thymidine incorporation into DNA as an estimate of sediment bacterial production // Handbook of Methods in Aquatic Microbial Ecology / Kemp P.F. et al. (eds.). Boca Raton, Ann Arbor: Lewis Publishers, 1993. P. 505–508.

783. Fink P. Ecological functions of volatile organic compounds in aquatic systems // Marine and Freshwater Behaviour and Physiology. 2007. V. 40. P. 155–168.

784. Fleming G.M., Coughlan J. Preservation of vitally stained zooplankton for live/dead sorting // Estuaries. 1978. V. 1. No 2. P. 132–135.

785. Foysal M.J. Host habitat shapes the core gut bacteria of decapod crustaceans: A meta-analysis // Heliyon. 2023. V. 9. No 6. P. e16511.

786. Francoeur S.N., Rier S.T., Whorley S.B. Methods for Sampling and Analyzing Water ecosystems Algae // Wetland Techniques: Volume 2: Organisms / J.T. Anderson and C.A. Davis (eds.). Springer Nature, Dordrecht, 2013. P. 1–58.

787. Frenken T., Alacid E., Berger S. A., Bourne E.C., Gerphagnon M. et al. Integrating chytrid fungal parasites into plankton ecology: research gaps and needs // Environmental Microbiology. 2017. V. 19(10). P. 3802–3822. DOI:https://doi.org/10.1111/1462-2920.13827

788. Fundamentals of aquatic ecosystems. Oxford etc.: Blackwell, 1980. 229 p.

789. Furstenberg J.P., de Wet A.G. A comparison of two extractors for separating meiobenthic nematodes from fine-grained sediments. South African Journal of Zoology. 1982. V. 17. No 1. P. 41–43. DOI:https://doi.org/10.1080/02541858.1982.11447777

790. García-Chicote J., Armengol X., Rojo C. Zooplankton abundance: A neglected key element in the evaluation of reservoir water quality // Limnologica. 2018. V. 69. P. 46–54. DOI:https://doi.org/10.1016/j.limno.2017.11.004

791. Gibb J.T., Oseto C. Insect Collection and Identification Techniques for the Field and Laboratory. Arthropod Collection and Identification, Second Edition. London: Academic Press. 2019. 354 p.

792. Giddings J.M. Effects of the water-soluble fraction of a coal-derived oil on pond microcosm // Arch. Environ. Contam. Toxicol. 1982. V. 11. P. 735741.

793. Giere O. Meiobenthology: The Microscopic Fauna in Aquatic Sediments. Springer-Verlag Berlin Heidelberg, 1993. 328 p.

794. Gliwicz Z.M. On the different nature of top-down and bottom-up effects in pelagic food webs // Freshwater Biol. 2002. V. 47. P. 2296.

795. Gray C., Figueroa D.H., Hudson L.N., Ma A., Perkins D., Woodward G. Joining the dots: an automated method for constructing food webs from compendia of published interactions // Food Webs. 2015. V. 5. P. 11–20. DOI:https://doi.org/10.1016/j.fooweb.2015.09.001

796. Grossart H.-P., Hassan E.A., Masigol H., Arias-Anders M., Rojas-Jimenez K. Inland water fungi in the antropocene: current and future perspectives // Encyclopedia of inland waters. 2nd edition. Chapter. 2021. DOI: 1010161/B978-0-12-819166-8.00025-6

797. Gonzalez J.M., Suttle C.A. Grazing by marine nanoflagellates on viruses and viral-sized particles ingestion and digestion // Mar. Ecol. Prog. Ser. 1993. V. 94. P. 1–10.

798. Goodnight C.J., Whitley L.S. Oligochetes as indicators of pollution // Proc. 15-th Ind. Waste Conf., Pardue Univ. Ext., Sec. 1961. V. 106. P. 139–142.

799. Gomes M.P., Garcia Q.S., Barreto L.C., Pimenta L.P.S., Matheus M.T., Figueredo C.C. Allelopathy: An overview from micro- to macroscopic organisms, from cells to environments, and the perspectives in a climate-changing world // Biologia. 2017. V. 72(2). P. 113–129. DOI:https://doi.org/10.1515/biolog-2017-0019

800. Gomes L.F., Pereira H.R., Gomes A.C.A.M., Vieira M.C., Martins P.R., Roitman I., Vieira L.C.G. Zooplankton functional-approach studies in continental aquatic environments: a systematic review // Aquat. Ecol. 2019. V. 53. P. 191–203.

801. Gopal B., Goel U. Competition and Allelopathy in Aquatic Plant Communities // The Botanical Review. 1993. V. 59. No 3. P. 155–210.

802. Gorokhova E., Rivetti C., Furuhagen S., Edlund A., Ek K., Breitholtz M. Bacteria-mediated effects of antibiotics on Daphnia nutrition // Environmental science & technology. 2015. V. 49. No 9. P. 5779–5787.

803. Gough H.L., Stahl D.A. Optimization of direct cell counting in sediment // J. Microbiol. Methods. 2003. V. 52. No 1. P. 39–46.

804. Goździejewska A.M., Koszałka J., Tandyrak R., Grochowska J., Parszuto K. Functional responses of zooplankton communities to depth, trophic status, and ion content in mine pit lakes // Hydrobiologia. 2021. V. 848. P. 2699–2719. DOI:https://doi.org/10.1007/s10750-021-04590-1

805. Grahn O., Hultberg H., Landner L. Oligotrophication: A self–accelerating process in lakes subjected to excessive supply of acid substances // Ambio. 1974. V. 3. P. 93–94.

806. Gray J.S. Sample size and sample frequency in relation to the quantitative sampling of sand meiofauna // Smithsonian Contribs. Zool. 1971. No 76. P. 191–197.

807. Gray J.S. Effects of environmental stress on species rich assemblages // Biol. J. Linn. Sos.1989. V. 37. No 1–2. P. 19–32.

808. Guillou L., Bachar D., Audic S. et al. The Protist Ribosomal Reference Database (PR2): A Catalog of Unicellular Eukaryote Small Sub-Unit RRNA Sequences with Curated Taxonomy // Nucleic Acids Res. 2012. V. 41. P. D597–D604. DOI:https://doi.org/10.1093/nar/gks1160

809. Gulati R.D. Zooplankton structure in the Loosdrecht lakes in relation to trophic status and recent restoration measures // Hydrobiologia. 1990. V. 191. P. 173–188.

810. Haberman J., Laugaste R. On characteristics reflecting the trophic state of large and shallow Estonian lakes (L. Peipsi, L. Võrtsjarv) // Hydrobiologia. 2003. V. 506–509. P. 737–744.

811. Hagstrom A., Larsson U., Horst.edt P., Normark S. Frequency of dividing cells, a new approach to the determination of bacterial growth rates in aquatic environments // Appl. Environ. Microbiol. 1979. V. 37. P. 805–812.

812. Hakkari L. Zooplankton species as indicators of environment // Aqua Fennica. 1972. P. 46–54.

813. Hallas T.E., Yeates G.W. Tardigrada of the soil and litter of Danish beech forest // Pedobiologia. 1972. V. 12. P. 287–304. DOI:https://doi.org/10.1016/S0031-4056(23)02046-2

814. Hammer Ø., Harper D.A.T., Ryan P.D. Past: Paleontological Statistics Software Package for Education and Data Analysis // Palaeontologia Electronica. 2001. V. 4. Is. 1, art. 4. 9 p.

815. Haney J.F. Regulation of cladoceran filtering rates in nature by body size, food concentration, and diel feeding patterns // Limnology and Oceanography. 1985. V. 30. No 2. P. 397–411.

816. Haney J.F., Hall D.J. Sugar-coated Daphnia: Apreservation technique for Cladocera // Limnol. and Oceanog. 1973. V. 18. No 2. P. 331–333.

817. Handbook of Methods in Aquatic Microbial Ecology / Eds Kemp P.F. et al. Boca Raton: Lewis Publ., 1993. 777 p. ISBN 0-87371-564-0

818. Hart D.R., Stone L., Berman T. Seasonal dynamics of the Lake Kinneret food web: The importance of the microbial loop // Limnol., Oceanogr. 2000. V. 45. No 2. R. 350–361.

819. Harvey G.L., Clifford N.J., Gurnell A.M. Towards an ecologically meaningful classification of the flow biotope for river inventory, rehabilitation, design and appraisal purposes // J. Environ. Manage. 2008. V. 88. P. 638–650.

820. Hauer F.R., Resh V.H. Macroinvertebrates // Methods in stream ecology / Hauer F.R., Lamberti G.A., editors, 2nd edition. Academic Press, San Diego, CA, 2007. P. 435–463. DOI:https://doi.org/10.1016/B978-012332908-0.50028-0

821. Hauer R., Lamberti G.A. Methods in Stream Ecology. 2-nd ed. Amsterdam; Boston: Acad. Press, 2007. 878 p.

822. Heino J., Grönroos M., Ilmonen J., Karhu T., Niva M., Paasivirta L. Environmental heterogeneity and β diversity of stream macroinvertebrate communities at intermediate spatial scales // Freshw. Sci. 2013. V. 32. P. 142–154. DOI:https://doi.org/10.1899/12-083.1

823. Hensen V. Über die Bestimmung des Planktons oder des im Meer treibenden Materials an Pflanzen und Thieren // Jahresbericht der Kommission zur Wissenschaftlichen Untersuchung der deutschen Meere für die Jahre 1882 bis 1886. 1887. Bd. 5. 109 s.

824. Herman P.M.J., Heip C. Growth and respiration of Cyprideis torosa Jones (Crustacea: Ostracoda) // Oecologia. 1982. V. 54. No 3. P. 300–303.

825. Herman P.M.J., Heip C. The respiration of five brackish-water harpacticoid copepod species // J. Exp. Mar. Biol. and Ecol. 1983. V. 71. No 3. P. 249–256.

826. Herman P.M.J., Heip C., Vranken G. The production of Cyprideis torosa Jones (Crustacea: Ostracoda) // Oecologia. 1983. V. 58. No 3. P.326–331.

827. Herman P.M.J., Vranken G., Heip C. Problems in meiofauna energy-flow studies // Hydrobiologia. 1984. V. 118. No 1. P. 21–28.

828. Hernández-Pérez A., Söderhäll I. Intestinal microbiome in crayfish: Its role upon growth and disease presentation // Developmental & Comparative Immunology. 2023. V. 145. P. 104703.

829. Hieber M., Robinson C.T., Uehlinger U. Seasonal and diel patterns of invertebrate drift in different alpine stream types // Freshwater Biology. 2003. V. 48. P. 1078–1092.

830. Hildebrand M., Davis A., Abbriano R., Pugsley H.R., Tralller J.C., Smith S.R., Shrestha R.P., Cook O., Sánchez-Alvarez E.L., Manandhar-Shrestha K., Alderete B. Applications of imaging flow cytometry for microalgae // Methods and Protocols / Barteneva N., Vorobjev I. editor. Imaging Flow Cytometry: New York, NY: Springer, 2016. P. 47–67.

831. Hillebrand H., Durselen C.D., Kirschtel D. et al. Biovolum calculation for pelagic and benthic microalgae // J. Phycol. 1999. V. 35. P. 403–424.

832. Higgins R.P., Thiel H. Introduction to the study of meiofauna. Wash., Lond.: Smithsonian Institution Press, 1988. 488 p.

833. Hillbricht-Ilkowska A., Stanczykowska A. The production and standing crop of planktonic larvae of Dreissena polymorpha (Pallas) in two Mazurian lakes // Pol. Arch. Hydrobiol. 1969. V. 16(29). No 2. P. 193–203.

834. Hilton J., Lishman J.P., Carrick T.R., Allen P.V. An assessment of the sources of error in estimations of bulk sedimentary pigment concentrations and its implications for trophic status assessment // Hydrobiologia. 1991. V. 218. No 3. P. 247–254.

835. Hofstraat J.W. Phytoplankton monitoring by flow cytometry // Journal Plankton Research. 1994. V. 16(9). P. 1197–1224.

836. Holm-Hansen O.C.J., Lorenzen C.J., Holmes R.W., Strickland J.D.H. Fluorometric determination of chlorophyll // J. Cons. Int. Explor. Mer. 1965. V. 30. No 1. P. 3–15.

837. Holmes R.W., Widrig T.M. The Enumeration and Collection of Marine Phytoplankton // CES Journal of Marine Science. 1956. V. 22. Is. 1. P. 21–32. DOI:https://doi.org/10.1093/icesjms/22.1.21

838. Holt C.C., Del Campo J., Keeling P.J. Source and variation of the amazing live Sea-Monkey microbiome // PloS one. 2024. V. 19. No 8. P. e0308763.

839. Hrytsynyak I., Shvets T. Methods of hydrobiological research. Thematic bibliography // Ribogospod. nauka Ukr. 2019. V. 2(48). P. 108–127. DOI:https://doi.org/10.15407/fsu2019.02.108

840. Hu H., Hong Y. Algal-bloom control by allelopathy of aquatic macrophytes – A review // Frontiers of Environmental Science & Engineering in China. 2008. V. 2(4). P. 421–438.

841. Humburger K., Dall P.C. The respiration of common benthic invertebrate species from the shallow littoral zone of Lake Esrom, Denmark // Hydrobiologia. 1990. V. 199. No 2. P. 117–130.

842. Hummon W.D. Extraction by sieving: a biased procedure in studies of stream meiobenthos. Transactions of the American Microscopical Society. 1981. 100, 278e284. DOI:https://doi.org/10.2307/3225553

843. Hutchinson G.E. The algal benthos // A treatise on limnology. V. 3. Limnological botany. John Wiley & Sons, New York, 1975. P. 509–571.

844. Hyde K.D, Swe A, Zhang K.Q. Nematode-Trapping Fungi. Chapter 1. Nematode-Trapping Fungi // Nematode-Trapping Fungi / K.D. Hyde (Ed.). Fungal Diversity Research Series. 2014. V. 23. P. 1–12.

845. Hydrological and Limnological Aspects of Lake Monitoring By Andre Van der Beken John Wiley & Sons, New York. 400 p.

846. Imbert J.B. Perry J.A. Drift and benthic invertebrate responses to stepwise and abrupt increases in non-scouring flow // Hydrobiologia. 2000. V. 436. P. 191–208.

847. Innes D.J., Hebert P.D.N. The origin and genetic basis of obligate parthenogenesis in Daphnia pulex // Evolution. 1988. V. 42. No 5. P. 1024–1035.

848. IOCCG Protocol Series. Aquatic Primary Productivity Field Protocols for Satellite Validation and Model Synthesis. IOCCG Ocean Optics and Biogeochemistry Protocols for Satellite Ocean Colour Sensor Validation / R.A. Vandermeulen, J.E. Chaves (Eds.). 2022. V. 7.0. IOCCG, Dartmouth, NS, Canada. DOI:https://doi.org/10.25607/OBP-1835

849. Jaccard P. Distribution de la flore alpine dans le Bassin des Dranses et dans quelques regions voisines // Bull. Soc. VauDOIse sci. Natur. 1901. V. 37. Bd. 140. P. 241–272.

850. Jackson D. A manually operated core-sampler suitable for use on fine-particulate sediments // Estuarine Coastal Shelf Sci. 1986. V. 23. P. 419–422.

851. Jagadeesan L., Jyothibabu R. Tumour-like anomaly of copepods an evaluation of the possible causes in Indian marine waters // Environmental monitoring and assessment. 2016. V. 188. P. 1–24.

852. Javornicky P. Die Revision einiger Methoden zum Feststellen der Quantitiit des Phytoplanktons. (Revise nekterych metod pro zjistovani kvantity fytoplanktonu) // Sb. vys. Sk. chem.-teehnol. Praze, Oddil faeulty technologie paliv, a vody. Prague, 1958. Bd. 2. No 1. S. 283–367.

853. Jeffrey S.W., Humphrey G.F. New spectrophotometric equations for determining chlorophylls a, b, c1 and c2 in higher plants, algae and natural phytoplankton // Biochem. Physiol. Pflanz. 1975. Vd. 167. No 2. P. 191–194.

854. Jennings P.G. The signy Island terrestrial reference sites: Oxygen uptake of Macrobiotus furciger J. Murrey (Tardigrada) // Bull. Brit. Antarctic survey. 1975. No 41–42. P. 161–168.

855. Jiang X, Xiang M, Liu X. Nematode-trapping fungi // Microbiol Spectrum. 2016. V. 5. No 1. FUNK-0022-2016. DOIhttps://doi.org/10.1128/microbiolspec.FUNK-0022-2016.

856. Jilani G., Mahmood S., Chaudhry A. N., Hassan I., Akram M. Allelochemicals: sources, toxicity and microbial transformation in soil – a review // Annals of Microbiology. 2008. V. 58(3). P. 351–357. DOI:https://doi.org/10.1007/bf03175528

857. Jllies I. Die Barbenregion mitteleuropaischer Fliessgewasser // Verh. Zutern. Verein. Limnol. 1958. No 13. R. 834–844.

858. Jochem F. On the distribution and importance of picocyanobacteria in a boreal inshore area (Kiel Bight, Western Baltic) // J. Plankt. Res. 1988. V. 10. No 5. P. 1009–1022.

859. Joint I., Pomroy A., Savidge G., Boyd P. Size-fractionated primary productivity in the northeast Atlantic in May-July 1989 // Deep-Sea Res. 1993. II. V. 40. P. 423–440.

860. Johnson T.W.J., Ferchau H.A., Gold H.S. Isolation, culture, growth and nutrition of some lignicolous marine fungi // Phyton. 1959. V. 12. P. 65–80.

861. Johnston D.W., Cross T. Actinomycetes in lake muds: dormant spores or active mycelium? // Freshwater Biology. 1976. V. 6. No 5. P. 465–470.

862. Jones E.B.G, Sakayaroj J, Suetrong S, Somrithipol S, Pang K.L. Classification of marine Ascomycota, anamorphic taxa and Basidiomycota // Fungal Diversity. 2009. V. 35. P. 1–187.

863. Jones E.B.G., Hyde K.D., Pang K.L. Freshwater fungi and fungal-like organisms. Walter de Gruyter, Berlin, 2014. 510 p.

864. Jones E.B.G. Suetrong S, Sakayaroj J, Bahkali A.H, Abdel-Wahab M.A, Boekhout T, Pang K-L. Classification of marine Ascomycota, Basidiomycota, Blastocladiomycota and Chytridiomycota // Fungal Diversity. 2015. V. 73. P. 1–72. DOI:https://doi.org/10.1007/s13225-015-0339-4

865. Jones E.B.G., Pang K-L., Abdel-Wahab M.A., Scholz B., Hyde K., Boekhout D.T., Ebel, R., Rateb M.E., Henderson L., Sakayaroj J., Suetrong S., Dayarathne M.C., Kumar V., Raghukumar S., Sridhar K.R., Bahkal A.H.A., Gleason F.H., Norphanphoun C. An online resource for marine fungi // Published. 2019. V. 96. P. 347–433.

866. Kajak Z, Kacprzak K, Polkowski R. Chwytaczrurowy do probierania prob dna // Ekologia Polska Seria B. 1965. V. 11. P. 159–165. (In Polish with English summary)

867. Kalninš M. Protected aquatic insects of Latvia – Graphoderus bilineatus (DeGeer, 1774) (Coleoptera: Dytiscidae) // Latvijas entomologs. 2006. V. 43. P. 132–137.

868. Kaplan L.A., Bott T.L., Bielicki J.K. Assessment of [3H] thymidine incorporation into DNA as a method to determine bacterial productivity in stream bed sediments // Appl. Environ. Microbiol. 1992. V. 58. No 11. P. 3614–3621. DOI:https://doi.org/10.1128/aem.58.11.3614-3621.1992

869. Kawaguchi Y., Nakano S. Contribution of terrestrial invertebrates to the annual resource budget for salmonids in forest and grassland reaches of a headwater stream // Freshwater Biology. 2001. V. 46. Is. 3. P. 303–316.

870. Keating K.I., Dagbusan B.C. Effect of selenium deficiency on cuticle integrity in the Cladocera (Crustacea) // Proceedings of the National Academy of Sciences. 1984. V. 81. No 11. P. 3433–3437.

871. Kelly M.G., Cazaubon A., Coring E., Dell’Uomo A., Ector L., Goldsmith B., Guasch H., Hürlimann J., Jarlmann A., Kawecka B., Kwandrans J., Laugaste R., Lindstrom E.A., Leitao M., Marvan P., Padisák J., Pipp E., Prygiel J., Rott E., Sabater S., van Dam H., Vizinet J. Recommendations for the routine sampling of diatoms for water quality assessment in Europe // J. appl. Phycol. 1998. V. 10. P. 215–224.

872. Kepner R.L. Jr, Pratt J.R. Use of fluorochromes for direct enumeration of total bacteria in environmental samples: past and present // Microbiol. Rev. 1994. V. 58. P. 603–615.

873. Keys to Palaearctic Fauna. Thorp and Covich’s Freshwater Invertebrates. V. IV: 4th edn. / Ed. D.C. Rogers, J.H. Thorp. Academic Press, 2019. 920 p.

874. Ki J.S. Hypervariable regions (V1–V9) of the dinoflagellate 18S rRNA using a large dataset for marker considerations // J. Appl. Phycol. 2012. V. 24. P. 1035–1043. DOI:https://doi.org/10.1007/s10811-011-9730-z

875. Kilham S.S., Kreeger D.A., Lynn S.G., Goulden C.E., Herrera L. COMBO: a defined freshwater culture medium for algae and zooplankton // Hydrobiologia. 1998. V. 377. No 1. P. 147–159.

876. Klekowski R., Wasilewska L., Paplinska E. Oxygen consumption by soilinhabiting nematodes // Nematologica. 1972. V. 18. P. 391–403.

877. Klindworth A., Pruesse E., Schweer T. et al. Evaluation of general 16S ribosomal RNAgene PCR primers for classical and next‐generation sequencing‐based diversity studies // Nucleic Acids Research. 2013. V. 41. e1. DOI:https://doi.org/10.1093/nar/gks808

878. Kluge N.J. The phylogenetic system of Ephemeroptera. Kluwer Academic Publishers. 2004. 456 p.

879. Klüttgen B., Dülmer U., Engels M., Ratte H.T. ADaM, an artificial freshwater for the culture of zooplankton // Water research. 1994. V. 28. No 3. P. 743–746.

880. Knapp M. Preservative fluid and storage conditions alter body mass estimation in a terrestrial insect // Entomologia Experimentalis et Applicata. 2012. V. 143. P. 185–190.

881. Knap A., Michaels A., Close A. et al. Protocols for the joint global ocean flux study (JGOFS) core measurements // JGOFS Report Nr. 19. Reprint of the IOC Manuals and Guides No. 29. UNESCO, Bergen. 1996.

882. Krylova J., Kurashov E. Potential applications of the low-molecular-weight metabolome of Synechocystis aquatilis Sauvageau, 1892 (Cyanophyceae: Merismopediaceae) // Algae Biotechnology: Integrated Algal Engineering for Bioenergy, Bioremediation, and Biomedical Applications / Eds.: Ashfaq Ahmad, Fawzi Banat, Hanifa Taher. Elsevier, 2022. P. 347–376. DOI:https://doi.org/10.1016/B978-0-323-90476-6.00021-2

883. Krylova J., Kurashov E. Characteristics of the Low Molecular Weight Metabolome of Potamogeton natans L. (Potamogetonaceae) from Lakes of Different Trophic State (Karelian Isthmus, Northwest Russia) // Global Journal of Botanical Science. 2023. V. 11. P. 1–15. DOI:https://doi.org/10.12974/2311-858X.2023.11.01

884. Koese B., Cupper J. Sampling methods for Graphoderus bilineatus (Coleoptera: Dytiscidae) // Nederlandse Faunistische Mededelingen, 2006. V. 24. P. 42–47.

885. Koksharova O.A. Cyanobacterial VOCs as Allelopathic Tools // Bacterial Volatile Compounds as Mediators of Airborne Interactions. Springer, Singapore, 2020. P. 257–280. DOI:https://doi.org/10.1007/978-981-15-7293-7_11

886. Kopytina N.I., Bocharova E.A. Fouling communities of microscopic fungi on various substrates of the Black Sea // Biosystems Diversity. 2021. V. 29(4). P. 345–353. DOI:https://doi.org/10.15421/012144

887. Kotwicki L., Troch M.D., Urban-Malinga B., Gheskiere T., Węslawski J.M. Horizontal and vertical distribution of meiofauna on sandy beaches of the North Sea (The Netherlands, Belgium, France) // Helgoland Marine Research. 2005. V. 59(4). P. 255–264. DOI:https://doi.org/10.1007/s10152-005-0001-8

888. Kubichek F. Eine neue Methode der quantitativen Entnahme der organischen Drift // Zool. Listy. 1966. V. 15. P. 284–286.

889. Kuczyńska-Kippen N., Špoljar M., Zhang C, Pronin M. Zooplankton functional traits as a tool to assess latitudinal variation in the northern-southern temperate European regions during spring and autumn seasons // Ecol. Indic. 2020. 117:106629

890. Kulk, G., Platt, T., Dingle, J. et al. Primary production, an index of climate change in the ocean: Satellite-based estimates over two decades // Remote Sensing. 2020. V. 12. No 5. P. 826. DOI:https://doi.org/10.3390/rs12050826.

891. Kurashov E.A. The role of meiobenthos in lake ecosystems // Aquatic Ecology. 2002. V. 36. P. 447–463. DOI:https://doi.org/10.1023/A:1016535921472

892. Kurashov E.A., Krylova J.V., Mitrukova G.G., Chernova A.M. Low-molecular-weight metabolites of aquatic macrophytes growing on the territory of Russia and their role in hydroecosystems // Contemporary Problems of Ecology. 2014a. V. 7(4). P. 433–448. DOI:https://doi.org/10.1134/S1995425514040064

893. Kurashov E.A., Krylova J.V., Mitrukova G.G., Chernova A.M. The regularities of synthesis of low-molecular weight organic compounds by water macrophytes depending on biotic and abiotic factors // Lakes: The Mirrors of the Earth. Balancing Ecosystem Integrity and Human Wellbeing. Volume 2: Proceedings of the 15th World Lake Conference. Eds. Chiara Biscarini, Arnaldo Pierleoni, Luigi Naselli-Flores. Science Press, 2014b. P. 19–23.

894. Kurashov E.A., Fedorova E.V., Krylova J.V., Mitrukova G.G. Assessment of the Potential Biological Activity of Low Molecular Weight Metabolites of Freshwater Macrophytes with QSAR // Scientifica. 2016. V. 2016. Article ID 1205680. 9 p. DOI:https://doi.org/10.1155/2016/1205680

895. Kurashov E.A., Mitrukova G.G., Krylova Yu.V. Interannual Variability of Low–Molecular Metabolite Composition in Ceratophyllum demersum (Ceratophyllaceae) from a Floodplain Lake with a Changeable Trophic Status // Contemporary Problems of Ecology. 2018. V. 11. No 2. P. 179–194. DOI:https://doi.org/10.1134/S1995425518020063

896. Kurashov E., Krylova J., Protopopova E. The Use of Allelochemicals of Aquatic Macrophytes to Suppress the Development of Cyanobacterial “Blooms” // Plankton Communities. IntechOpen, London, 2021. DOI:https://doi.org/10.5772/intechopen.95609

897. Kurashov E.A., Fedorova E.V., Krylova J.V., Kapustina L.L., Mitrukova G.G., Protopopova E.V. Using SAR Methodology for Identification of Freshwater Macrophyte Allelochemicals with High Anti-Cyanobacterial Effect against Planktonic Cyanobacteria // Journal of Siberian Federal University. Biology. 2023. V. 16(2). P. 232–251.

898. Kurashov E.A., Krylova J.V., Chernova A.M., Khodonovich V.V., Yavid E.Ya. On the Ecosystem and Indicator Significance of Fatty Acids in the Low Molecular Weight Metabolome of Water Macrophytes // Inland Water Biology. 2024. V. 17. No 5. P. 921–925. DOI:https://doi.org/10.1134/S1995082924700585

899. Kurbatova S., Berezina N., Sharov A., Chernova E., Kurashov E., Krylova Y., Yershov I., Mavrin A., Otyukova N., Borisovskaya E., Fedorov R. Effects of Algicidal Macrophyte Metabolites on Cyanobacteria, Microcystins, Other Plankton, and Fish in Microcosms // Toxins. 2023. V. 15. P. 529. DOI:https://doi.org/10.3390/toxins15090529

900. Laforsch C., Tollrian R. Extreme helmet formation in Daphnia cucullata induced by small-scale turbulence // Journal of Plankton Research. 2004. V. 26. No 1. P. 81–87.

901. Laine M.B., Martin‐Creuzburg D., Litmanen J.J., Taipale S.J. Sterol limitation of Daphnia on eukaryotic phytoplankton: a combined supplementation and compound‐specific stable isotope labeling approach // Oikos. 2024. V. 2024. No 6. P. e10359.

902. LaMontagne J.M., McCauley E. Maternal effects in Daphnia: what mothers are telling their offspring and do they listen? // Ecology Letters. 2001. V. 4. No 1. P. 64–71.

903. Lampert W. Feeding and nutrition in Daphnia // Daphnia. 1987. P. 143–192.

904. Lampert W. Daphnia: development of model organism in ecology and evolution. International Ecology Institute, 2011. 250 p.

905. Lapirov A.G., Belyakov E.A., Lebedeva O.A., Kurashov E.A., Krylova J.V. Effect of Algicide Based on Metabolites (Allelochemicals) of Aquatic Plants on Seed Germination and the Development of Seedlings of Three Species of Helophytes // Inland Water Biology. 2023. V. 16. P. 1062–1071. DOI:https://doi.org/10.1134/S1995082923060159

906. Laxson C.L., Mcphedran K.N., Makarewicz J.C., Telesh I.V., Macisaac H.J. Effects of the non-indigenous cladoceran Cercopagis pengoi on the lower food web of lake Ontario // Freshwater Biology. 2003. V. 48. P. 2094–2106.

907. Lazareva V.I. Response of zooplankton communities to acidification in lakes of northern Russia // Russian J. of Aquat. Ecology. 1995. No 4 (1). P. 41–54.

908. Lee S., Fuhrman J.A. Relationships between biovolume and biomass of naturally derived marine bacterioplankton // Appl. Environ. Microbiol. 1987. V. 53. No 6. P. 1298–1303.

909. Lefler J.W. Aquatic microcosms and stress criteria for as¬sessing environmental impact of organic chemicals: Final report to the EPA, Contract 68-01-5043, T6411(7197)025. 1981.

910. Lefler J.W. The use of self-selected, generic aquatic micro¬cosm for pollution effects assessment // Concepts in marine pollution measurements, White H.H., Ed., University of Maryland. 1984. P. 139147.

911. Lemes da Silva A.L., de Macedo-Soares L.C.P., Serra S.R.Q. et al. Changes in functional diversity of aquatic invertebrates across urbanization levels in a coastal island, Brazil // Hydrobiologia. 2024. Vol. 851. P. 2731–2748. DOI:https://doi.org/10.1007/s10750-024-05490-w

912. Leopold A. Game management. New York: Charles Scribner's Sons. 1933. 481 p.

913. Levin S.A. The problem of pattern and scale in ecology // Ecology. 1992. V. 73. P. 1943–1967.

914. Livingston B.E. The distribution of the upland societies of Kent country, Michigan // Botanical Gazette. 1903. V. 35. P. 36–55.

915. Li B., Yin Y., Kang L., Feng L., Liu Y., Du Z., Tian Y., Zhang L. A review: Application of allelochemicals in water ecological restoration – algal inhibition // Chemosphere. 2020a. 128869. DOI:https://doi.org/10.1016/j.chemosphere.2020.128869

916. Li Y., Xu L., Letuma P., Lin W. Metabolite profiling of rhizosphere soil of different allelopathic potential rice accessions // BMC Plant Biology. 2020b. V. 20. P. 265. DOI:https://doi.org/10.1186/s12870-020-02465-6

917. Likens G.E. Primary production of inland aquatic ecosystems // Primary Productivity of the Biosphere. Berlin, Heidelberg, N.Y. 1975. P. 9–18.

918. Limnoecology: The Ecology of Lakes and Streams / Lampert W., Sommer U., 2nd edition. Oxford: Oxford University Press, 2007. 324 p. ISBN ISBN-13: 9780199213931

919. Litchman E., Ohman M.D., Kiørboe T. Trait-based approaches to zooplankton communities // J. Plankton Res. 2013. V. 35. P. 473–484. DOI:https://doi.org/10.1093/plankt/fbt019

920. Literature review and report surface sediment sampler database. Tetra Tech EM Inc., 2003. 189 p.

921. Locke A., Sprules W.G., Keller W., Pitblado J.R. Zooplankton communities and water chemistry of Sudbery area lakes: Changes related to pH recovery // Can. J. Fish. and Aquat. Sci. 1994. V. 51. P. 151–160.

922. Lohmann H. Untersuchungen zur Feststellung des vollständigen Gehaltes des Meeres an Plankton // Wiss. Meeresuntersuchungen Kiel N.F. 1908. V. 10. P. 130–370.

923. Longshaw M. Parasites, commensals, pathogens and diseases of crayfish // Biology and Ecology of crayfish. CRC Press, Boca Raton, Florida, USA. 2016. P. 171–250.

924. Lorenzen C.J. Determination of chlorophyll and pheopigments: shectrophotometric equations // Limnol. Oceanol. 1967. V. 12. No 2. P. 343–346.

925. Lorenzen C.J., Jeffrey S.W. Determination of chlorophyll in sea water.UNESCO Technical Paper in Marine Science 35. Paris: UNESCO, 1980. 20 p.

926. Lowe R.L., LaLiberte G.D. Benthic Stream Algae Distribution and Structure// Methods in Stream Ecology Edition: 2nd Publisher: Academic Press / Editors Lamberti G., F.R. Hauer. San Diego, Calif.: Academic Press/Elsevier, 2006. P. 327–356.

927. Lund J.W.G., Kipling C., Le Gren E.D. The Inverted Microscope Method of Estimating Algal Numbers and the Statistical Basis of Estimations by Counting // Hydrobiologia. 1958. V. 11. No 2. P. 143–170. DOI:https://doi.org/10.1007/BF00007865

928. Ma J., Yin X., Liu G., Song J. Intensification of Human Land Use Decreases Taxonomic, Functional, and Phylogenetic Diversity of Macroinvertebrate Community in Weihe River Basin, China // Diversity. 2024. Vol. 16. 513. DOI:https://doi.org/10.3390/d16090513

929. MacIssac H.J., Sprules W.G., Johannsson O.E., Leach J.H. Filtering impacts of larval and sessile zebra mussels (Dreissena polymorpha) in western Lake Erie // Oceologia. 1992. V. 92. P. 30–39.

930. MacIsaac E.A., Stockner J.G. Enumeration of phototrophic picoplankton by autofluorescence microscopy // Handbook of methods in aquatic microbial ecology / Eds Kemp P.F. et al. Boca Raton: Lewes Publishers, 1993. P. 187–197.

931. Macías F.A., Galindo J.L.G., García-Díaz M.D., Galindo J.C.G. Allelopathic agents from aquatic ecosystems: potential biopesticides models // Phytochemistry Reviews. 2008. V. 7. P. 155–178. DOI:https://doi.org/10.1007/s11101-007-9065-1

932. MacNeil C., Dick J.T.A., Elwood R.W. The trophic ecology of freshwater Gammarus spp. (Crustacea: Amphipoda): problems and perspectives concerning the functional group concept // Biological Reviews. 1997. V. 72. P. 349–364.

933. Mährlein M., Pätzig M., Brauns M., Dolman A.M. Length-mass relationships for lake macroinvertebrates corrected for back-transformation and preservation effects // Hydrobiologia. 2016. V. 768. P. 37–50.

934. Majdi N., Schmid-Araya, J.M., Traunspurger W. Preface: Patterns and processes of meiofauna in freshwater ecosystems // Hydrobiologia. 2020. V. 847. P. 2587–2595. DOI:https://doi.org/10.1007/s10750-020-04301-2

935. Majdi N., Traunspurger W. Production of freshwater nematodes // Ecology of Freshwater Nematodes. Ed. Walter Traunspurger. CABI, 2021. P. 247–269. DOI:https://doi.org/10.1079/9781789243635.0008

936. Makri S., Lami A., Lods-Crozet B., Loizeau J.-L. Reconstruction of trophic state shifts over the past 90 years in a eutrophicated lake in western Switzerland, inferred from the sedimentary record of photosynthetic pigments // J. Paleolimnol. 2019. V. 61. No 2. P. 129–145.

937. Manual of Environmental Microbiology, 4th Edition / Eds Yates M.V.et al. Washington, D.C.: ASM Press, 2016. 1088 p. ISBN: 978-1-555-81602-5

938. Maran E. Cell Size as a Key Determinant of Phytoplankton Metabolism and Community Structure // Annual Review of Marine Science. 2015. V. 7. P. 241–264.

939. Marie D., Brussaard C., Partensky F. et al. Flow cytometric analysis of phytoplankton, bacteria and viruses // Curr. Protoc. Cytom. 1999. V. 11. P. 1–15.

940. Martin J.E.H. Collecting, preparing and preserving insects, mites and spiders. In: The insects and arachnids of Canada. Part 1. Research Branch Canada Department of Agriculture, Publication 1643. Ottawa: Biosystematics Research Institute, 1977. 182 p.

941. Martin P., Kohlmann K., Scholtz G. The parthenogenetic Marmorkrebs (marbled crayfish) produces genetically uniform offspring // Naturwissenschaften. 2007. V. 94. P. 843–846.

942. Martin J.W., Rogers D.C., Olesen J. Collecting and processing branchiopods // Journal of Crustacean Biology. 2016. V. 36. No 3. P. 396–401.

943. Massana R., Gasol J.M., Bjørnsen P.K. et al. Measurement of bacterial size via image analysis of epifluorescence preparations: description of an inexpensive system and solutions to some of the most common problems // Sci. Mar. 1997. V. 61. P. 397–407.

944. McGill B.J., Enquist B.J., Weiher E., Westoby M. Rebuilding community ecology from functional traits // Trends in Ecology and Evolution. 2006. V. 21. P. 178–185.

945. McIntyre A.D. The meiofauna and microfauna of some tropical beaches // Journal of Zoology. 1968. V. 156. P. 377–392.

946. McLachlan A., Dye A.H., Van Der Ryst P. Vertical gradients in the fauna and oxidation of two exposed sandy beaches // South African Journal of Zoology. 1979. V. 14. P. 43–47.

947. Merritt R.W., Resh V.H., Cummins K.W. Design of Aquatic Insect Studies / An Introduction to the Aquatic Insects of North America. Kendall/Hunt Publishing Company, Dubuque, 1996. P. 12–28.

948. Merritt R.W., Cummins K.W. An Introduction to the Aquatic Insects of North America. 3rd ed. Dubuque: Iowa: Kendall/Hunt Publishing Company. 1996. 862.

949. Merritt R.W., Cummins K.W., Resh V.H. Design of Aquatic Insect Studies: collecting, sampling and rearing procedures // An Introduction to the Aquatic Insects of North America / Merritt R.W., Cummins K.W. (Eds.). 3rd Edition. Kendall Hunt Publishing Co, Iowa, 1996. P. 12–28.

950. Merritt R.W., Cummins K.W., Berg M.B. Trophic relationships of macroinvertebrates // Methods in stream ecology / Hauer F.R., Lamberti G. (Eds). San Diego: Academic Press, 2017. V. 2. P. 413–433.

951. Methods and measurements of periphyton communities: A review. American Society for Testing and Materials, Philadelphia Pa. Ed. by R.G. Wetzel. 1979. 183 p.

952. Methods for collection and analysis of aquatic biological and microbiological samples. Open-File Report 88–190 By: Britton L.J., Greeson P.E. U.S. Geological Survey, 1989. 363 p.

953. Methods for collecting algal samples as part of the national water-quality assessment program By Stephen D. Porter, Thomas F. Cuffney, Martin E. Gurtz, and Michael R. Meador U.S. GEOLOGICAL SURVEY Open-File Report 93-409 Raleigh, North Carolina, 1993. 39 r.

954. Meyers S.P., Hopper B.E. Attraction of the marine nematode, Metoncholaimus sp., to fungal substrates // Bulletin of Marine Science. 1966. V. 16. No 1. P. 142–150.

955. Meyers S.P., Hopper B.E. Studies on marine fungal-nematode associations and pant degradation // Helgoländer wissenschaftliche Meeresuntersuchungen. 1967. V. 15. P. 270–281.

956. Meyers S.P., Reynolds E.S. Occurrence of lignicolous fungi in northern Atlantic // Canad. J. Bot. 1960. V. 38. P. 217–226.

957. Millie D.F., Pigg R.J., Fahnenstiel G.L., Carrick H.J. Algal Chlorophylls: A Synopsis of Analytical Methodologies // Algae: Source to Treatment. Manual of water supply practices. Denver: American Water Works Association, 2010. P. 93–122.

958. Millie D.F., Schofield O.M.E., Kirkpatrick G.J., et al. Using absorbance and fluorescence spectra to discriminate microalgae // Eur. J. Phycol. 2002. V. 37. P. 313–322.

959. Milligan M.R. Identification Manual for the Aquatic Oligochaeta of Florida. V. I. Freshwater Oligochaetes. Florida: State of Florida Department of Environmental Protection Tallahassee,1997. 187 p.

960. Modde T., Drewes H.G. Comparison of biotic index values for invertebrate collections from natural and artificial substrates // Freshwater Biol. 1990. V. 23. No 2. P. 171–180.

961. Moens T., Sroczynska K., Adão H. Meiofauna in a changing world // Ecological Indicators. 2022. V. 138. 108769. DOI:https://doi.org/10.1016/j.ecolind.2022.108769

962. Mohamed Z.A. Macrophytes-cyanobacteria allelopathic interactions and their implications for water resources management – A review // Limnologica – Ecology and Management of Inland Waters. 2017. V. 63. P. 122–132. DOI:https://doi.org/10.1016/j.limno.2017.02.006

963. Möller W.A.A., Scharf B.W. The content of chlorophyll in the sediment of the volcanic maar lakes in the Eifel region (Germany) as an indicator for eutrophication // Hydrobiologia. 1986. V. 143. No 1. P. 327–329.

964. Monakov A.V. Feeding of freshwater invertebrates. Ghent: Kenobi Productions, 2003. 373 p.

965. Moodley L., Chen G., Heip C., Vincx M. Vertical distribution of meiofauna in sediments from contrasting sites in the Adriatic sea: Clues to the role of abiotic versus biotic control // Ophelia. 2000. V. 53(3). P. 203–212. DOI:https://doi.org/10.1080/00785326.2000.10409450

966. Moore G.M. A limnological investigation of the microscopic benthic fauna of Douglas Lake, Michigan // Ecol.Monog. 1939. V. 9. P. 537–582.

967. Morgan N.C. Secondary production // The functioning of freshwaters ecosystems. JBP. 1980. No 22. P. 251–285.

968. Moriarty D.J.W. Bacterial productivity in sediments // Arch. Hydrobol. Beih. Ergeb. Limnol. 1990. H. 34. S. 183–189.

969. Morisita M. Measuring of interspecific association and similarity between communities // Memoires of the Faculty of Science, Kyushu University, Series E (Biology). 1959. No 3. P. 65–80.

970. Morse J.C., Frandsen P.B., Graf W., Thomas J.A. Diversity and ecosystem services of Trichoptera // Insects. 2019. V. 10. P. 125. DOI:https://doi.org/10.3390/insects10050125

971. Morse J.C., Yang L., Tian L. Aquatic insects of China insects useful for monitoring water quality. Nanjing: Hohai University Press, 1994. 570 p.

972. Mouillot D., Gaillard S., Aliaume C., Verlaque M., Belsher T., Troussellier M., Chi T.D. Ability of taxonomic diversity indices to discriminate coastal lagoon environments based on macrophyte communities // Ecological Indicators. 2005. V. 5(1). P. 1–17. DOI:https://doi.org/10.1016/j.ecolind.2004.04.004

973. Mulderij G., Mau B., van Donk E., Gross E.M. Allelopathic activity of Stratiotes aloides on phytoplankton-towards identification of allelopathic substances // Hydrobiologia. 2007. V. 584. P. 89–100. DOI:https://doi.org/10.1007/s10750-007-0602-0

974. Mushtaq W., Siddiqui M.B., Hakeem K.R. Allelopathy. Potential for Green Agriculture // Springer Briefs in Agriculture. 2020. 69 p. DOI:https://doi.org/10.1007/978-3-030-40807-7

975. Müller K. Investigations on the organic drift in North Swedish streams // Rept. Inst. Freshwater Res. Drottningholm. 1954. V. 35. P. 133–148.

976. Müller K. Beitrag zur Methodik der Untersuchung fliessender Gewasser // Arch. Hydrobiol. 1958. V. 54. P. 567–570.

977. Myers N. Biodiversity & the precautionary principle // AMBIO. 1993. V. 22. No 2–3. P. 74–79.

978. Nakai S., Yamada S., Hosomi M. Anti-cyanobacterial fatty acids released from Myriophyllum spicatum // Hydrobiologia. 2005. V. 543. P. 71–78. DOI:https://doi.org/10.1007/s10750-004-6822-7

979. Nalepa T.F., Robertson A. Screen mesh size affects of macroand meiobenthos abundance and biomass in the Great Lakes // Can. J. Fish. Aquatic Sci. 1981. V. 38. No 9. P. 1027–1034.

980. Naman S. Rosenfeld J. Richardson J. Causes and consequences of invertebrate drift in running waters: From individuals to populations and trophic fluxes // Canadian Journal of Fisheries and Aquatic Sciences. 2016. V. 73(8). P. 1–14. DOI:https://doi.org/10.1139/cjfas-2015-0363

981. Nasev D., Nasev S., Gulard V. Statistische Auswertung von Planktonuntersuchungen. T.1. Theoretische Aspekte der Planktonzählung und deren Anwendung / Wiss. E. Wilgelm-Pieck-Univer. Rostock.Math. Naturwiss. R. 1978. Bd. 27. No 4. S. 349–355.

982. Ndatimana G., Nantege D., Arimoro F.O. A review of the application of the macroinvertebrate based multimetric indices (MMIs) for water quality monitoring in lakes // Environmental Science and Pollution Research. 2023 30: 73098–73115. DOI:https://doi.org/10.1007/s11356-023-27559-0

983. Newrkla P. Respiration of Cytherissa lacustris (Ostracoda) at different temperature and oxygen concentration // Oecologia. 1985. V. 67. No 2. P. 250–254.

984. Nezbrytska I., Usenko O., Konovets I., Leontieva T., Abramiuk I., Goncharova M., Bilous O. Potential Use of Aquatic Vascular Plants to Control Cyanobacterial Blooms: A Review // Water. 2022. V. 14(11). P. 1727. DOI:https://doi.org/10.3390/w14111727

985. Nixon S., Bewes V., Mills D. Study of Pressures and Measures in the Major River Basin Management Plans: Comparison of Typologies. Project Report. WRc. 2012. https://ec.europa.eu/environment/archives/water/implrep2007/pdf/Governance-Pressures%20and%20measures.pdf

986. Noble R.T., Fuhrman J.A. Use of SYBR Green I for rapid epifluorescence counts of marine vi-ruses and bacteria // Aquat. Microb. Ecol. 1998. V. 14. P. 113–118.

987. Norland S. The relationship between biomass and volume of bacteria // Handbook of Methods in Aquatic Microbial Ecology, Chapter 35 / Kemp P.F., Sherr B.F., Sherr E.B., Cole J.J. (eds.). L.: Lewis Publishers, 1993. P. 303–308.

988. Nougué O., Gallet R., Chevin L.M., Lenormand T. Niche limits of symbiotic gut microbiota constrain the salinity tolerance of brine shrimp // The American Naturalist. 2015. V. 186. No 3. P. 390–403.

989. Obertegge U., Smith H.A., Flaim G., Wallace R.L. Using the guild ratioto characterize pelagic rotifer communities // Hydrobiologia. 2011. V. 662. P. 157–162. DOI:https://doi.org/10.1007/s10750-010-0491-5

990. O’Connor N.A. The effects of habitat complexity on the macroinvertebrates colonising wood substrates in a lowland stream // Oecologia. 1991. V. 85. No 4. P. 504–512.

991. OECD. Eutrophication of waters. Monitoring, assessment and control. Paris, 1982. 155 p.

992. Öquist G., Hagström A., Alm P. et al. Chlorophyll a fluorescence, an alternative method for estimating primary production // Mar. Biol. 1982. V. 68. No 1. P. 71–75.

993. Okafor N. Environmental Microbiology of Aquatic and Waste Systems. Dordrecht, Heidelberg, London, New York: Springer, 2011. 307 p.

994. Olenina I., Hajdu S., Edler L., Andersson A., Wasmund N., Busch S., Göbel J., Gromisz S., Huseby S., Huttunen M., Jaanus A., Kokkonen P., Ledaine I., Niemkiewicz E. Biovolumes and size-classes of phytoplankton in the Baltic Sea // HELCOM Balt. Sea Environ. Proc. 2006. No. 106. 144 p.

995. Olson R.J., Sosik H.M. A submersible imaging-in-flow instrument to analyze nano- and microplankton: Imaging FlowCytobot // Limnology and Oceanography: Methods. 2007. V. 5. Is. 6. P. 156–216.

996. Pang K-L, Overy D.P, Jones E.B.G., Calado M.DaL., Burgaud G., Walker A.K., Johnson J.A., Kerr R.G., Cha H.-J., Bills G.F. “Marine fungi” and “marine-derived fungi” in natural product chemistry research: Toward a new consensual definition // Fungal Biology Reviews. 2016. V. 30(4). P. 163–175. DOI:https://doi.org/10.1016/j.fbr.2016.08.001

997. Pantle E., Buck H. Die Biologische Uberwachung der Gewässer und Die Darstellung der Ergebnisse, Gas- und Wasserfach. 1955. Vol. 96. No 18. 604 r.

998. Parker S. Aquatic Observation System (AOS). Protocol and procedure: periphyton and phytoplankton sampling // National Ecological Observatory Network (NEON). 2018. 79 p.

999. Parsons T.R., Strickland J.D.H. Discussion on spectrophotometric determination of marine-plant pigments with revised equations for ascertaining chlorophylls and carotenoids // J. Mar. Res. 1963. V. 21. No 3. P. 155–168.

1000. Patalas K. Crustacean plankton and the eutrophication of St. Lawrence Great Lakes // J. Fish. Res. Board Canada. 1972. V. 29. No 10. P. 1451–1462.

1001. Patalas J., Patalas K. The crustacean plankton communities in Polish Lakes // Verh. Int. Ver. Limnol. 1966. V. 16. P. 204–215.

1002. Peerakietkhajorn S., Kato Y., Kasalický V., Matsuura T., Watanabe H. Betaproteobacteria Limnohabitans strains increase fecundity in the crustacean Daphnia magna: symbiotic relationship between major bacterioplankton and zooplankton in freshwater ecosystem // Environmental microbiology. 2016. V. 18. No 8. P. 2366–2374.

1003. Pelletier M.C. Benthic Ecology / Kennish M.J. (eds). Encyclopedia of Estuaries. Encyclopedia of Earth Sciences Series. Springer, Dordrecht, 2016. DOI:https://doi.org/10.1007/978-94-017-8801-4_89

1004. Peters J.C., Ball R.C., Kevem N.R. An evaluation of artificial substratesf or measuring periphyton production: Michigan State Univershy Technical Report 1, Red Cedar River Series. 1968. 70 p.

1005. Petrov A., Nevrova E., Terletskaya A., Milyukin M., Demchenko V. Structure and taxonomic diversity of benthic diatoms assemblage in a polluted marine environment (Balaklava bay, Black Sea) // Polish Bot. J. 2010. V. 55(1). P. 183–197.

1006. Periphyton of Freshwater Ecosystems // Proceedings of the First International Workshop on Periphyton of Freshwater Ecosystems held in Växjö, Sweden, 14–17 September. 1982. 346 p.

1007. Pietryczuk A., Cudowski A., Hauschild T., Swisłocka M., Więcko A., Karpowicz M. Abundance and species diversity of fungi in rivers with various contaminations // Current Microbiology: Springer. 2017. DOI:https://doi.org/10.1007/s00284-017-1427-3

1008. Pimm S.L., Lawton J.H., Cohen J.E. Food web patterns and their consequences (a review) // Nature. 1991. V. 350. R. 669–674.

1009. Picelli S., Faridani O., Björklund Å. et al. () Full-length RNA-seq from single cells using Smart-seq2. Nat Protoc 2014. V. 9. P. 171–181. DOI:https://doi.org/10.1038/nprot.2014.006

1010. Porter K.G., Feig Y.S. The use of DAPI for identifying and counting of aquatic microflora // Limnol. Oceanogr. 1980. V. 25. No 5. P. 943–948. DOI:https://doi.org/10.4319/LO.1980.25.5.0943

1011. Pratt J.R., Rosen B.H. Associations of Species of Vorticella (Peritrichida) and Planktonic Algae // Transactions of the American Microscopical Society. 1983. V. 102(1). P. 48. DOI:https://doi.org/10.2307/3225924

1012. Prejs K., Stanczykowska A. Spatial differentiation and changes in time of zoomicrobenthos in three Masurian lakes // Ecol. Pol. 1972. V. 20. No 45. P. 733–745.

1013. Principles and Standards for Measuring Primary Production / Fahey T.J., Knapp A.K. (Eds.). Oxford: University Press, 2007. 281 p.

1014. Props R., Monsieurs P., Mysara M. et al. Measuring the biodiversity of microbial communities by flow cytometry // Methods Ecol. EV. 2016. V. 7. P. 1376–1385.

1015. Protasow A.A., Afanasyew S.A. Das Periphyton der Donau und die Bewertung der Gewassergut // Ergebnisse der Donauexpedition. 1989. P. 195–197.

1016. Quast C., Pruesse E., Yilmaz P. et al. The SILVA ribosomal RNA gene database project: improved data processing and web-based tools. Opens external link in new windowNucl // Acids Res. 2013. 41 (D1): D590–D596.

1017. Quinn J.P. Seasonal occurrence of yeasts and other fungi in a freshwater lake // Trans. Brit. mycol. Soc. 1984. V. 83. No 1. P. 53–58.

1018. R Core Team. R: A language and environment for statistical computing. R Foundation for Statistical Computing, Vienna, Austria. 2012. URL: http://www.R-project.org/

1019. Rabeni C.F., Jakobson R.B. The importance of fluvial hydraulics to fish-habitat restoration in low-gradient alluvial streams // Freshwater Biol. 1993. V. 29. P. 211–220.

1020. Rader R.B. A functional classification of the drift: traits that influence invertebrate availability to salmonids // Can. J. Fish. Aquat. Sci. 1997. V. 54. P. 1211–1234.

1021. Rader R.B., Ward J.V. Diel migration and microhabitat distribution of a benthic stream assemlage // Can. J. Fish. Aquat. Sci. 1990. V. 47. No 4. P. 711–718.

1022. Ram´ırez A., Pringle C.M. Invertebrate drift and benthic community dynamics in a lowland neotropical stream, Costa Rica // Hydrobiologia. 1998. V. 386. P. 19–26.

1023. Rao C.R. Diversity and dissimilarity coefficients: a unified approach // Theoretical Population Biology. 1982. V. 21(1). P. 24. DOI:https://doi.org/10.1016/0040-5809(82)90004-1

1024. Raven J.A., Beardall J. Chlorophyll fluorescence and ecophysiology: seeing red? // New Phytol. 2006. V. 169. P. 449–451.

1025. Raymond L., Kepner J.R., Pratt J.R. Use of fluorochromes for direct enumeration of total bacteria in environmental samples: past and present // Microbiol. Rev. 1994. V. 58. No 4. P. 603–615.

1026. Regaudie-de-Gioux A., Lasternas S., Agustí S., Duarte C.M. Comparing marine primary production estimates through different methods and development of conversion equations // Front. Mar. Sci. 2014. V. 1. Art. 19. DOI:https://doi.org/10.3389/fmars.2014.00019

1027. Renaud-Debyser J. Recherches Ecologiques sur la fauna interstitielle des sables (Bassin d’Arcachon, Ile de Bimini, Bahamas) // Vie et Milieu. 1963. Supplement, 15. 157 p.

1028. Reynolds C.S. The Ecology of Phytoplankton. Cambridge: CUP, 2006. 546 p.

1029. Richards E.A., Thompson T.G. The estimation and characterization of plankton population by pigment analyses. II. A spectrophotometric method for the estimation of plankton pigments // J. Marine Res. 1952. V. 11. No 2. P. 156–172.

1030. Robeson M.S., O'Rourke D.R., Kaehler B.D. et al. RESCRIPt: Reproducible sequence taxonomy reference database management // PLOS Computatiomal Biology. 2021. 17. DOI:https://doi.org/10.1371/journal.pcbi.1009581

1031. Robinson C. Heterotrophic bacterial respiration // Ed. Kirchman D.L. Microbial Ecology of the Oceans. 2nd edn. New York: John Wiley & Sons Inc., 2008. P. 299–334.

1032. Robinson C.T., Tockner K., Burgherr P. Drift benthos relationships in the seasonal colonization dynamics of alpine streams // Archiv für Hydrobiologie. 2004. V. 160. No 4. P. 447–470. DOI:https://doi.org/10.1127/0003-9136/2004/0160-0447

1033. Rocha O., Duncan A. The relationship between cell carbon and cell volume in freshwater algal species used in zooplanktonic studies // J. Planton Res. 1985. V. 7. R. 279–294.

1034. Rojo C., Segura M., Rodrigo M.A. The allelopathic capacity of submerged macrophytes shapes the microalgal assemblages from a recently restored coastal wetland // Ecol. Eng. 2013. V. 58. P. 149–155. DOI:https://doi.org/10.1016/j.ecoleng.2013.06.019

1035. Round F.E. The ecology of algae. Cambridge University Press. NY, London, 1981. 650 p.

1036. Roy A.H., Rosemond A.D., Paul M.J., Leigh D.S., Wallace J.B. Stream macroinvertebrate response to catchment urbanisation (Georgia, U.S.A.) // Freshwater Biology. 2003. V. 48. P. 329–346.

1037. Ruttner F. Fundamentals of limnology. Toronto: University of Toronto Press, 1963. 295 p.

1038. Saltveit S.J., Haug I., Brittain J.E. Invertebrate drift in a glacial river and its non-glacial tributary // Freshwater Biol. 2001. V. 46. P. 1777–1789.

1039. Sampling Sea and Ocean. Hydro-bios. Apparatebau GmbH. Elektronnyy resurs. URL: http://www.hydrobios.de (obraschenie 20 iyunya 2023 g.)

1040. Saether O.A. Nearctic chironomids as indicators of lake typology // Verh. Internat. Verein. Limnol. 1975. V. 19. P. 3127–3133.

1041. Saether O.A. Chironomid communities as water quality indicators // Holarctic Ecology. 1979. No 2. P. 65–74.

1042. Sanger J.E., Gorham E. Stratigraphy of fossil pigments as a guide to the postglacial history of Kirchner Marsh, Minnesota // Limnol. Oceanogr. 1972. V. 17. No 6. P. 840–854.

1043. Santangelo J.M., Araújo L.R., Esteves F.D.A., Manca M., Bozelli R.L. Method for hatching resting eggs from tropical zooplankton: effects of drying or exposing to low temperatures before incubation // Acta Limnologica Brasiliensia. 2011. V. 23. P. 42–47.

1044. Santos J.L., Nick F., Adhitama N., Kato Y., Watanabe H., Ebert D. Trehalose mediates salinity-stress tolerance in natural populations of a freshwater crustacean // Current Biology. 2024. V. 34. Is. 18. P. 4160–4169.

1045. Sarkka J., Kurashov E. Meiofauna in the profundal zone of the northern part of Lake Ladoga // Intercalibration of research methods in Lake Ladoga. University of Joensuu. Karelian Institute. Working Papers. 1992. No 8. P. 35–40.

1046. Sarkka J., Paasivirta L. Vertical distribution and abundance of the macro- and meiofauna in the profundal sediments of Lake Paijane, Finland // Ann. Zool. Fenn. 1972. V. 9. No 1. P. 1–9.

1047. Schallenberg M., Kalff J., Rasmussen J.B. Solutions to problems in enumerating sediment bacteria by direct counts // Appl. Environ. Microbiol. 1989. V. 55. No 5. P. 1214–1219.

1048. Schauff M.E. (Ed.). Collecting and preserving insects and mites: techniques and tools. Washington: Systematic entomology laboratory, USDA. 1986. URL: http://lsuinsects.org/resources/docs/publications/Shauf1986SELcollectingmanual.pdf

1049. Schindler D.W. Detecting ecosystem responses to anthropogenic stress // Can. J. Fish. Aquat. Sci. 1987. V. 44 (Suppl. 1). P. 6–25.

1050. Schindler D.W. Effects of acid rain on freshwater ecosystems // Science. 1988. V. 239. P. 149–157.

1051. Schindler D.W., Frost V.E., Mills K.H. et al. Comparison between experimentally– and atmosphaerically–acidified lakes during stress and recovery // Proc. Royal Soc. Edinburg. 1991. V. 97. P. 193–226.

1052. Schleuter D., Daufresne M., Massol F., Argillier C. A user’s guide to functional diversity indices // Ecological Monographs. 2010. Vol. 80(3). P. 469–484.

1053. Schmid P.E., Schmid-Araya J.M., Tokeshi M. The scaling of biomass variance across trophic levels in stream species communities: a macroecological approach // Hydrobiologia. 2020. V. 847. P. 2705–2723. DOI:https://doi.org/10.1007/s10750-020-04239-5

1054. Schmid-Araya J.M., Schmid P.E., Majdi N., Traunspurger W. Biomass and production of freshwater meiofauna: a review and a new allometric model // Hydrobiologia. 2020. DOI:https://doi.org/10.1007/s10750-020-04261-7

1055. Schülting L., Feld C., Zeiringer B., Hudek H., Wolfram G. Macroinvertebrate drift response to hydropeaking: An experimental approach to assess the effect of varying ramping velocities // Ecohydrology. 2018. V. 12. Is. 1. P. 1–12. DOI:https://doi.org/10.1002/eco.2032

1056. Schwartz S.S., Hebert P.D.N. Methods for the activation of the resting eggs of Daphnia // Freshwater Biology. 1987. V. 17. No 2. P. 373–379.

1057. SCOR-UNESCO Working Group №17. Determination of photosynthetic pigments in sea water // Monographs on Oceanographic Methodology. Montreux: UNESCO, 1966. P. 9–18.

1058. Sharapova T.A., Gerasimov A.G., Gerasimova A.A. Invasive tropical crustacean Stenocypris sp. (Ostracoda) in periphyton of a cooling Pond (the Western Siberia) // Hydrobiological Journal. 2020. V. 56(3). P. 62–68.

1059. Shao J.H., Wu Z.X., Yu G.L., Peng X., Li R.H. Allelopathic mechanism of pyrogallol to Microcystis aeruginosa PCC7806 (Cyanobacteria): from views of gene expression and antioxidant system // Chemosphere. 2009. V. 75. P. 924–928.

1060. Shibata A., Goto Y., Saito H. et al. Comparison of SYBR Green I and SYBR Gold stains for enumerating bacteria and viruses by epifluorescence microscopy // Aquat. Microb. Ecol. 2006. V. 43. No 3. P. 223–231.

1061. Shtangeeva I., Perämäki P., Niemelä M., Kurashov E., Krylova Yu. Potential of wheat (Triticum aestivum L.) and pea (Pisum sativum) for remediation of soils contaminated with bromides and PAHs // International Journal of Phytoremediation. 2018. V. 20 (6). P. 560–566. DOI:https://doi.org/10.1080/15226514.2017.1405375

1062. Shtangeeva I., Niemelä M., Perämäki P., Kurashov E., Krylova Yu. Effects of Potassium and Sodium Bromides on Triticum aestivum and Pisum sativum // Russian Journal of Plant Physiology. 2022. V. 69: 36. DOI:https://doi.org/10.1134/S1021443722020182

1063. Seepersad B., Crippen R.W. Use of aniline blue for distinguishing between live and dead freshwater zooplankton // J. Fish. Res. Board Canada. 1978. V. 35. No 10. P. 1363–1366.

1064. Shah M.M. A new species of Chitwoodiella Basir, 1948 with first report on Mirzaiella asiatica Basir, 1942 (Nematoda, Travassosinematidae) from Manipur, North-East India // Acta Parasitologica. 2008. V. 53(2). P. 145–152. DOI:https://doi.org/10.2478/s11686-008-0030-y

1065. Sieburth J.M., Smetacek V., Lenz J. Pelagic ecosystem structure: Heterotrophic compartments of the plankton and their relationship to plankton size fractions // Limnology and Oceanography. 1978. V. 23(6). P. 1256–1263.

1066. Siegfried C.A., Bloomfield J.A., Sutherland J.W. Planktonic rotifer community structure in Adirondak, New York, U.S.A. lakes in relation to acidity, trophic status and related water quality characteristics // Hydrobiologia. 1989. V. 175. No 1. P. 33–49.

1067. Šimek K., Macek M., Pernthalter J., Straskrabova V., Psenner R. Can freshwater planktonic ciliates survive on a diet of picoplankton? // J. Plankton Res. 1996. V. 18. P. 597–613.

1068. Simon M., Jardillier L., Deschamps P. et al. Complex communities of small protists and unexpected occurrence of typical marine lineages in shallow freshwater systems // Environ. Microbiol. 2015. V. 17. P. 3610–3627. DOI:https://doi.org/10.1111/1462-2920.12591

1069. Sison-Mangus M.P., Mushegian A.A., Ebert D. Water fleas require microbiota for survival, growth and reproduction // The ISME journal. 2015. V. 9. No 1. P. 59–67.

1070. Skilbeck S.G., Trevathan-Tackett S., Apichanangkool P., Macreadie P.I. Sediment Sampling in Estuaries: Site Selection and Sampling Techniques // Applications of Paleoenvironmental Techniques in Estuarine Studies, Developments in Paleoenvironmental Research / Weckström K., Saunders K.M., Gell P.A., Skilbeck C.G. (eds.). Springer Science+Business Media B.V., 2017. P. 89–120. DOI:https://doi.org/10.1007/978-94-024-0990-1_5

1071. Skvortsov V.V. Meiobenthos communities of some subarctic lakes // Hydrobiologia. 1997. V. 342. P. 117–124. DOI:https://doi.org/10.1023/A:1017021428512

1072. Slack K.V. A study of the factors affecting stream productivity by the comparative method // Invest. Indiana Lakes Streams. 1955. V. 4. P. 3–47.

1073. Slack K.V., Averett R.C., Greeson P.E., Lipscomb R.G. Methods for collection and analysis of aquatic biological and microbiological samples // Techniques of Water-resources Investigations of the United States Geological Survey. Book 5 US Department of the Interior, Geological Survey: Washington, DC, 1973. Ch. 4A. P. 1–65.

1074. Sladeček V. System of water quality from the biological point of view // Arch. Hydrobiol. 1973. Bd. 7. 218 s.

1075. Śliwińska-Wilczewska S., Wiśniewska K.A., Budzałek G., Konarzewska Z. Phenomenon of Allelopathy in Cyanobacteria // Ecophysiology and Biochemistry of Cyanobacteria / Rastogi R.P. (ed). Springer, Singapore, 2021. P. 225–254. DOI:https://doi.org/10.1007/978-981-16-4873-1_11

1076. Ślusarczyk M., Chlebicki W., Pijanowska J., Radzikowski J. The role of the refractory period in diapause length determination in a freshwater crustacean // Scientific Reports. 2019. V. 9. No 1. P. 11905.

1077. Sokal R.R., Rohlf F.J. Biometry: The Principles and Practice of Statistics in Biological Research. 3rd Edition. W.H. Freeman and Co. New York. 1995. 887 p.

1078. Somerfield P.J., Warwick R.M. Meiofauna Techniques // Methods for the Study of Marine Benthos. Fourth Edition. Ed. Anastasios Eleftheriou. John Wiley & Sons Ltd. Published, 2013. P. 253–284.

1079. Sorensen T.A. A method of establishing groups of equal amplitude in plant sociology based on similarity of species content, and its application to analyses of the vegetation on Danish com–mons // Kongelige Danske Videnskabernes Selskabs Biologiske Skrifter, 1948. V. 5. P. 1–34.

1080. Sorokin Y.I. Radioisotopic Methods in Hydrobiology. Springer-Verlag: Berlin, Heidelberg, 1999. 321 p.

1081. Sosik H.M., Olson R.J. Automated taxonomic classification of phytoplankton sampled with imageing flow cytometry // Limnology and Oceanography: Methods. 2007. V. 5. Is. 6. P. 156–216.

1082. Sparrow F.K. Aquatic Phycomycetes. Ann Arbor: Univ. of Michigan Press, 1960. 1188 p.

1083. Spellman F.R., Drinan J. Stream Ecology and Self Purification: An Introduction, Second Edition (2nd ed.). CRC Press, 2001. DOI:https://doi.org/10.1201/9781420031676

1084. Špoljar M., Habdija I., Primc-Habdija B., Sipos L. Impact of environmental variables and food availability on rotifer assemblage in the karstic barrage lake Visovac (Krka River, Croatia) // Int. Rev. Hydrobiol. 2005. V. 90. P. 555–579. DOI:https://doi.org/10.1002/iroh.200510791

1085. Sprules W.G., Holtby L.B. Body size and feeding ecology as alternatives to taxonomy for the study of limnetic zooplankton community structure // J. Fish Res. Board Can. 1979. V. 36. P. 1354–1363. DOI:https://doi.org/10.1139/f79-194

1086. Spyres G., Nimmo M., Worsfold P.J. et al. Determination of dissolved organic carbon in seawater using high temperature catalytic oxidation techniques // TrAC (Trends in Analytical Chemistry). 2000. V. 19. No 8. R. 498–506.

1087. Stanczykowska A. Some methodical problems in zoomicrobenthos studies // Ekol. Pol. ser. A. 1966. V. 14. No 23. P. 385–393.

1088. Stay F.S., Flum T.E., Shannon L.J., Yount J.D. An assessment of the precision and accuracy of SAM and MFS microcosms exposed to toxicants // Aquatic Toxicology and Hazard Assessment. Philadelphia. 1989. V. 12. P. 189203.

1089. Steemann Nielsen E. The use of radio-active carbon (14C) for measuring organic production in the sea // J. Cons. Perm. Int. Explor. Mer. 1952. V. 18. P. 117–140. DOI:https://doi.org/10.1093/icesjms/18.2.117

1090. Steward G.F., Fandino L.B., Hollibaugh J.T. et al. Microbial biomass and viral infections of heterotrophic prokaryotes in the sub-surface layer of the Central Arctic // Deep Sea Research Part I Oceanographic Research Papers. 2007. V. 54. No 10. P. 1744–1757. DOI:https://doi.org/10.1016/j.dsr.2007.04.019

1091. Stibor H., Hairston N.Jr., Santer B., Sommer U., Spaak P., Weider L.J. Winfried Lampert – International Visionary for the Aquatic Sciences // Limnology and Oceanography Bulletin. 2021. V. 30. No 3. P. 107–113.

1092. Stoffels R.J., Karbe S., Paterson R.A. Length-mass models for some common New Zealand littoral-benthic macroinvertebrates, with a note on within-taxon variability in parameter values among published models // New Zealand J. Mar. and Freshw. Res. 2003. V. 37. P. 449–460. DOI:https://doi.org/10.1080/00288330.2003.9517179

1093. Strayer D. Benthic Invertebrate Fauna, Lakes and Reservoirs // Encyclopedia of Inland Waters. 2009. DOI:https://doi.org/10.1016/B978-012370626-3.00161-7

1094. Strategies for Preventing and Managing Harmful Cyanobacterial Blooms. Interstate Technology & Regulatory Council, 2021. Report number: 1st edition. 259 p. (Elektronnyy dokument) // (https://www.researchgate.net/publication/350819844_Strategies_for_Preventing_and_Managing_Harmful_Cyanobacterial_Blooms_TechnicalRegulatory_Guidance) Provereno 12.05.2024.

1095. Suberkropp K. Aquatic hyphomycete communities // The Fungal Community: its organization and role in the ecosystem. New York: Marcel Dekker, 1992. P. 729–747.

1096. Suberkropp K., Klug M.J. Fungi and bacteria associated with leaves during processing in a woodland stream // Ecology. 1976. V. 57. No 4. P. 707–719.

1097. Surber E.W. Rainbow trout and bottom fauna production in one mile of stream // Trans. am. Fish. Soc. 1937. V. 66. P. 193–202.

1098. Sun J., Liu D. Geometric models for calculating cell biovolume and surface area for phytoplankton // Journal of Plankton Research. 2003. V. 25. No 11. P.1331–1346. DOI:https://doi.org/10.1093/plankt/fbg096

1099. Swain E.B. Measurement and interpretation of sedimentary pigments // Freshwater Biol. 1985. V. 15. No 1. P. 53–75.

1100. Tang K.W., Gladyshev M.I., Dubovskaya O.P., Kirillin G., Grossart H. Zooplankton carcasses and non-predatory mortality in freshwater and inland sea environments // J. Plankton Res. 2014. V. 36. No 3. P. 597–612.

1101. Taub F.B. Measurement of pollution in standartized aquatic microcosms // Concepts in marine pollution measurements / White H.H. (Ed.). University of Maryland, 1984. P. 148–158.

1102. Taub F.B. Standartized aquqtic microcosms // Environ. Sci. Technol. 1989. V. 23. No 9. P. 1064–1066.

1103. Techniques of Water-Resources Investigations of the United States Geological Survey Chapter A4. Methods for collection and analysis of aquatic biological and microbiological samples / Eds. by Britton L.J. and Greeson P.E. Revised, 1977. P. 127–150.

1104. Telesh I. V., Ooms-Wilms A. L., Gulati R. D. Use of fluorescently labeled algae to measure the clearance rate of the rotifer Keratella cochlearis // Freshwater Biol. 1995. V. 33. No 3. P. 349–355.

1105. Telford J.V., Kay M.L., Vander Heide H., Wiklund J.A, Owca T.J., Faber J.A., Wolfe B.B., Hall R.I. Building upon open-barrel corer and sectioning systems to foster the continuing legacy of John Glew // J. Paleolimnol. 2021. V. 65. P. 271–277. DOI:https://doi.org/10.1007/s10933-020-00162-w

1106. Thomas K. Freshwater fungi. In: Grgurinovic C, ed.Introductory Volume to the Fungi. Part 2 C. Fungi of Australia Vol IB. Canberra: ABRS, 1996. P. 1–37.

1107. Thomas M.R., Shattock R.C. Filamentous fungal association in the phylloplane of Lolium perrene // Trans. Brit. mycol. Soc. 1986. V. 87. Pt. 2. P. 255–268.

1108. Thomas W.H., Dodson A.N. Concentrating plankton in a gentle fashion // Limnology and Oceanography. 1964. V. 9. No 3. P. 455–456.

1109. Thorp J.H., Covich A.P. Ecology and classification of North American freshwater invertebrates. 2nd ed. London, Academic Press, 2001. 1056 s.

1110. Threlkeld S.T. Spatial and temporal variation in the summer zooplankton community of a riverine reservoir // Hydrobiologia. 1983. V. 107. R. 249–254. DOI:https://doi.org/10.1007/BF00036694

1111. Tierno de Figueroa J.M., López-Rodríguez M.J. Trophic ecology of Plecoptera (Insecta): a review // The European Zoological Journal. 2019. V. 86. No. 1. P. 79–102. DOI:https://doi.org/10.1080/24750263.2019.1592251

1112. Tietjen J.H. The Ecology of Shallow Water Meiofauna in Two New England Estuaries // Oecologia. 1969. V. 2. No 3. P. 251–291. DOI:https://doi.org/10.2307/4214517

1113. Toepel J., Wilhelm C., Meister A., Becker A., Martinez-Ballesta M. del C. Cytometry of freshwater phytoplankton // Methods in Cell Biology. 2004. V. 75. P. 375–407.

1114. Timm T. A guide to the freshwater oligochaeta and polychaeta of Northern and Central Europe. V. 66. Dinkelscherben: Lauterbornia, 2009. 234 p.

1115. Tolomeyev A.P., Zadereev Ye.S. An in situ method for the investigation of vertical distributions of zooplankton in lakes: test of a two-compartment enclosure // Ibid. 2005. V. 39. No 2. P. 181–188.

1116. Torben M.I. Secondary production and trophic relationships in a spring invertebrate community // Limnology and Oceanography. 1988. V. 33. Is. 4. P. 582–592.

1117. Traunspurger W., Majdi N. Meiofauna // Methods in Stream Ecology. 2017. V. 1. P. 273–295. DOIhttps://doi.org/10.1016/b978-0-12-416558-8.00014-7

1118. Tse T.J., DOIg L.E., Leavitt P.R., Quiñones-Rivera Z.J., Codling G., Lucas B.T., Liber K., Giesy J.P., Wheater H., Jones P.D. Long-term spatial trends in sedimentary algal pigments in a narrow river-valley reservoir, Lake Diefenbaker, Canada // J. Great Lakes Res. 2015. V. 41. Supplement 2. P. 56–66.

1119. Tubaki R. Marine fungi from Japan // Lignicolous. J. Trans. Mycol. Soc. Japanese. 1966. V. 7. P. 73–87.

1120. Turić N., Temunović M., Vignjević G., Antunović-Dunić J., Medrić E. A comparison of methods for sampling aquatic insects (Heteroptera and Coleoptera) of different body sizes, in different habitats using different baits // European Journal of Entomology. 2017. V. 114. P. 123–132. DOI:https://doi.org/10.14411/eje.2017.017

1121. Turley C.M., Newell R.C., Robins D.B. Survival strategies of two small marine ciliates and their role in regulating bacterial community structure under experimental conditions // Mar. Ecol. Prog. Ser. 1986. V. 33. P. 59–70.

1122. Ugland K.I., Gray J.S. Estimation of species richness: analysis of the methods developed by Chao and Karakassis // Mar. Ecol. Progr. Ser. 2004. V. 284. R. 1–8.

1123. Uhlig G., Thiel H., Crag J. The quantitative separation of meiofauna. A comparison of methods // Helgoland. Wiss. Meeresuntersuch. 1973. V. 25. No 1. P. 173–195.

1124. Ulfstrand S. Benthic animal communities in Lapland streams // Oikos. 1968. No 10. P. 1–120.

1125. Use of algae for monitoring rivers I. / Ed. by Whitton B., Rott E., Friedrich G. Innsbruck. Austria, 1991. 190 p.

1126. Utermöhl H. Zur Vervollkommnung der quantitativen Phytoplankton-methodik // Internationale Vereinigung fȕr Theoretische und Angewandte Limnologie: Mitteilungen. 1958. V. 9. Is. 1. 39 p.

1127. Van Damme K., Dumont H.J. Cladocera of the Lençóis Maranhenses (NE-Brazil): faunal composition and a reappraisal of Sars' Method // Brazilian Journal of Biology. 2010. V. 70. P. 755–779.

1128. Vandegehuchte M.B., Lemière F., Vanhaecke L., Berghe W.V., Janssen C.R. Direct and transgenerational impact on Daphnia magna of chemicals with a known effect on DNA methylation // Comparative Biochemistry and Physiology Part C: Toxicology & Pharmacology. 2010. V. 151. No 3. P. 278–285.

1129. Vandegehuchte M.B., Janssen C.R. Epigenetics in an ecotoxicological context // Mutation Research/Genetic Toxicology and Environmental Mutagenesis. 2014. V. 764. P. 36–45.

1130. Vandekerkhove J., Declerck S., Brendonck L., Conde-porcuna J.M., Jeppesen E., De Meester L. Hatching of cladoceran resting eggs: temperature and photoperiod // Freshwater Biology. 2005. V. 50. No 1. P. 96–104.

1131. Vaulot D., Courties C., Partensky F. A simple method to preserve oceanic phytoplankton for flow cytometric analyses // Cytometry. 1989. V. 10(5). P. 629–635.

1132. Velez P., Salcedo D.L., Espinosa-Asuar L., Gasca-Pineda J., Hernandez-Monroy A., Soto L.A. Fungal Diversity in Sediments From Deep-Sea Extreme Ecosystems: Insights Into Lowand High-Temperature Hydrothermal Vents, and an Oxygen Minimum Zone in the Southern Gulf of California, Mexico. Front. Mar. Sci. 2022. 9:802634. DOI:https://doi.org/10.3389/fmars.2022.802634

1133. Vernet M., Smith R.C. Measuring and modeling primary production in marine pelagic ecosystems // Principles and Standards for Measuring Primary Production. Oxford: University Press, 2007. P. 142–174.

1134. Violle C., Navas M.L., Vile D., Kazakou E., Fortunel C., Hummel I., Garnier E. Let the concept of trait be functional! // Oikos. 2007. V. 116. P. 882–892. DOI:https://doi.org/10.1111/j.2007.0030-1299.15559.x

1135. Vogt G. Epigenetics in Crustaceans // Epigenetics in Aquaculture. 2023. P. 355–381.

1136. Vogt G., Huber M., Thiemann M., van den Boogaart G., Schmitz O.J., Schubart C.D. Production of different phenotypes from the same genotype in the same environment by developmental variation // Journal of Experimental Biology. 2008. V. 211. No 4. P. 510–523.

1137. Volk R. Die bei der Hamburgischen Elb-Untersuchung angewandten Methoden zur quantitativen Ermittelung des Planktons // Mitt. Naturhist. Mus. Hamburg. 1901. Bd. 18. S. 135–182.

1138. Vollenweider R.A. Das Nahrstoffbelastungsconzept als Grundlage fur den eutrophierungs-prozess stehender Gewasser und Talsperren // Zeitschrift fur Wasser und Abwasser Forschung. 1979. No 2. Bd. 12. S. 46–56.

1139. Vollenweider R.A., Giovanardi F., Montanari G., Rinaldi A. Characterization of the trophic conditions of marine coastal waters, with special reference to the NW Adriatic Sea: proposal for a trophic scale, turbidity and generalized water quality index // Environmetrics. 1998. V. 9. P. 329–357.

1140. Voronin L.V. Terrigenous micromycetes in freshwater ecosystems (Rewiew) // Inland Water Biology. 2014. V. 7. No 4. P. 352–356. DOI:https://doi.org/10.1134/S1995082914040191

1141. Voronin L.V., Kopytina N.I. Mycobiota of Dead Reed Fragments Immersed in Water (Yaroslavl Oblast, Russia) // Inland Water Biology. 2023. V. 16. No 1. P. 40–47. DOI:https://doi.org/10.1134/S1995082923010169

1142. Warwick R.M., Clarke K.R. Taxonomic distinctness and environmental assessment // J. Appl. Ecol. 1998. V. 35(4). R. 532–543.

1143. Warwick R.M., Clarke K.R. Practical measures of marine biodiversity based on relatedness of species // Oceanogr. and Mar. Biol. (Annual Rev.). 2001. V. 39. P. 201–231.

1144. Waters T.F. Diurnal periodicity in the drift of stream invertebrates // Ecology. 1962. V. 43. P. 316–320.

1145. Waters T.F. The drift of stream insects // Annual Review of Entomology. 1972. V. 17. P. 253–272.

1146. Waters T.F., Hokenström J.C. Annual production and drift of the stream amphipod Gammarus pseudolimnaeus in Valley Creek, Minnesota // Limnol. Oceanogr. 1980. V. 25(4). P. 700–710.

1147. Watson R.A., Osborne P.L. An algal pigment ratio as an indicator of the nitrogen supply to phytoplankton in three Norfolk broads // Freshwater Biol. 1979. V. 3. No 6. P. 585–594.

1148. Weisse T. Dynamics of autotrophic picoplankton in marine and freshwater ecosystems // Adv. Microb. Ecol. 1993. V. 13. P. 327–370.

1149. Wehr J.D., Sheath R.G. Freshwater habitats of algae // Freshwater Algae of North America / Wehr J.D., Sheath R.G., Kociolek J.P. (eds.). Edition: 2nd. San Diego: Academic Press, 2015. P. 11–57.

1150. Wen K., Ortmann A.C., Suttle C.A. Accurate estimation of viral abundance by epifluorescence microscopy // Appl. Environ. Microbiol. 2004. V. 70. P. 3862–3867.

1151. Wetland Techniques. Volume 2: Organisms / Anderson J.T., Davis C.A. (eds.). Springer, Dordrecht, Heidelberg, New York, London, 2013. 332 p.

1152. Wetzel R.G. Limnology. Toronto: A.B. Saunders Co, 1983. 753 p.

1153. Wetzel R.G. Limnology. Lake and River Ecosystems. San Diego, San Francisco, New York, et al.: Academic Press, 2001. 1006 r.

1154. Whittaker R.H., Feeny P.P. Allelochemics: Chemical Interactions between Species // Science. 1971. V. 171. P. 757–770.

1155. Wilhelm S.W., Smith R.E.H. Bacterial carbon production in Lake Erie is influenced by viruses and solar radiation // Can. J. Fish. Aquat. Sci. 2000. V. 57. P. 317–326.

1156. Willén E. A simplified method of phytoplankton counting // British Phycological Journal. 1976. V. 11. No 3. P. 265–278.

1157. Williams D.D., Williams N.E. A counterstaining technique for use in sorting benthic samples // Limnol. and Oceanogr. 1974. V. 19. No 1. P. 152–154.

1158. Yarza P., Yilmaz P., Pruesse E. et al. Uniting the classification of cultured and uncultured bacteria and archaea using 16S rRNA gene sequences // Nat. Rev. Microbiol. 2014. V. 12. P. 635–645. DOI:https://doi.org/10.1038/nrmicro3330

1159. Yentsch C.S., Yentsch C.M. Fluorescent spectral signatures the characterization of phytoplankton populations by the use of excitation and emission spectra // J. Mar. Res. 1979. V. 37. P. 471–483.

1160. Yoon S.H., Ha S.M., Kwon S. et al. Introducing EzBioCloud: A taxonomically united database of 16S rRNA and whole genome assemblies // International Journal of Systematic Evolutionary Microbiology. 2017. V. 67. P. 1613–1617. DOI:https://doi.org/10.1099/ijsem.0.001755

1161. Zhai D., Wang Q., Jin C. Dormant and active ostracod communities in six rice fields of Yunnan, China // Aquatic Sciences. 2024. V. 86. No 3. P. 79.

1162. Zhang Y., Li S., Li H., Wang R., Zhang K.Q., Xu J. Fungi–Nematode Interactions: Diversity, Ecology, and Biocontrol Prospects in Agriculture // J. Fungi. 2020. V. 6. No 4. art. 206. DOI:https://doi.org/10.3390/jof6040206

1163. Zhao F., Yu H.X., Ma C.X., Sun X., Liu D., Shang L.D., Liu J.M., Li X.Y., Li S., Li X.C., Yu T.Y., Shabani I.E., Wang Y.Z., Su L.J., Zhang L.M., Mu Y.Y., Xiao L., Tian Z., Pan C., Sun B., Pan H.F., Shang G.Y.Q., Chai F.Y., Meng Y. Characteristics of zooplankton functional groups and their environmental factors in the Harbin Section of the Songhua River // China Appl. Ecol. Env. Res. 2020. V. 18(5). P. 7457–7471.

1164. Zhou J., Cieraad E., van Bodegom P.M. Global analysis of trait–trait relationships within and between species // New Phytologist. 2022. V. 233(4). P. 1643–1656. DOI:https://doi.org/10.1111/nph.17879

1165. Zuo S., Zhou S., Ye L., Ding Y., Jiang X. Antialgal effects of five individual allelochemicals and their mixtures in low level pollution conditions // Environ. Sci. Pollut. Res. 2016. V. 23. R. 15703–15711. DOI:https://doi.org/10.1007/s11356-016-6770-6

1166. 2416-B45 Ballchek™ Core Sampler. [Elektronnyy resurs: https://wildco.com/wp-content/uploads/2017/04/2416-B45-Ballchek-Core-Sampler.pdf]

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