Responses of Aquatic Organisms to Cyanobacteria and Elodea in Microcosms

The aim of the present study is investigation of the impact of mass development of cyanobacteria and Elodea on population characteristics (abundance, biomass, fecundity) and “health” parameters (the state of embryos, heart rate, and thermal resistance) of aquatic invertebrates in experiments with co...

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Bibliographic Details
Published in:Doklady. Biological sciences 2019-09, Vol.488 (1), p.136-140
Main Authors: Verbitsky, V. B., Kurbatova, S. A., Berezina, N. A., Korneva, L. G., Meteleva, N. Yu, Makarova, O. S., Sharov, A. N., Ershov, I. Yu, Malysheva, O. A., Russkikh, Ya. V., Chernova, E. N., Borisovskaya, E. V.
Format: Article
Language:English
Subjects:
Algae
Amphipoda
Amphipoda - growth & development
Animals
Aquatic animals
Aquatic organisms
Aquatic Organisms - growth & development
Biomedical and Life Sciences
Bivalvia - growth & development
Coastal zone
Controlled conditions
Cyanobacteria
Cyanobacteria - growth & development
Daphnia - growth & development
Ecosystem
Elodea
Embryos
Evolutionary Biology
Fecundity
General Biology
Harmful Algal Bloom
Heart rate
Hydrocharitaceae - growth & development
Invertebrates
Isopoda - growth & development
Life Sciences
Microcosms
Microcystins
Microcystins - toxicity
Mollusca
Plankton
Plant Sciences
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Summary:The aim of the present study is investigation of the impact of mass development of cyanobacteria and Elodea on population characteristics (abundance, biomass, fecundity) and “health” parameters (the state of embryos, heart rate, and thermal resistance) of aquatic invertebrates in experiments with controlled conditions. In July–August 2018, in four variants of microcosms, the conditions were modeled characteristic of the coastal zone of the Rybinsk Reservoir in the period of mass development of cyanobacteria. Mass species were placed in microcosms of planktonic (with domination (80%) Daphnia longispina ) and bottom animals ( Unio pictorum , Gmelinoides fasciatus , Asellus aquaticus ), as well as Elodea canadensis . In the variants with cyanobacteria, the toxic microcystins LR were revealed (24–53% of the sum of toxins, or from 6.6–66.5 μg/L). The presence of cyanobacteria ( Aphanizomenon flos-aquae, Microcystis aeruginosa, and Gloeoitrichia spp.) influenced structural parameters of plankton: the quantity to green algae decreased, small-sized crustaceans increased. Influence of cyanobacteria caused reliable changes in parameters of aquatic animal from those of the control: thermal resitance of mollusks and amphipods decreased, time of restoration of heart rate after loads (salinity test) in mollusks increased; in amphipods, individual fecundity decreased, frequency of abnormalities and of mortality of embryos increased. The presence of Elodea intensified these effects. Thus, mass development of cyanobacteria and Elodea influences ecological–physiological parameters of aquatic animals, decreasing their adaptivity to natural stresses and deteriorating the quality of the progeny.
ISSN:0012-4966
1608-3105
DOI:10.1134/S0012496619050028