Methods of biodiagnostics in aquatic ecotoxicology

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Introduction. Modern ecotoxicology for the detection, quantitative and qualitative assessment of the content of toxicants in the environment and living organisms uses the entire spectrum of chemical-analytical methods. However, methods of biodiagnostics are specific to this science.

Materials and methods. The paper summarizes information on the use of modern methods of biodiagnostics in aquatic ecotoxicology: biomarking, biotesting and bioindication.

Results. The main advantage of biodiagnostics over physicochemical methods of analysis is the ability to identify the biological consequences of the action of a single stress factor or their combination. At the same time, biodiagnostic methods allow fixing the additivity, antagonism and synergy of their joint action. Biomarking differs from other biodiagnostic methods in response time from several minutes to several days, high sensitivity and sufficient specificity, since it gives the ability to register the changes occurring in the biological system at the early stages of the action of factors at their low intensity and at the same time identify the nature of the stress factor. Biotesting has a slower response time than biomarking (from several hours to several weeks), but the ecological significance at the level of an individual is more obvious: the death of an organism, a decrease in reproductive ability up to the cessation of reproduction, disruption of growth, development, various types of behavior, etc. Bioindication is characterized by a sufficiently long-time delay of responses of supraorganismal biosystems to the action of a stress factor from several weeks to several years. At the same time, it makes possible assess more adequately and reliably the changes that have occurred over a long period of timeоf stress factor action in order to predict options for the further development of ecosystems.

Limitations. Methods of biodiagnostics in aquatic ecotoxicology have no restrictions on their use. However, unlike the methods of physicochemical analysis, they do not allow a quantitative, and sometimes a qualitative assessment of the stress factor. Therefore, they should be used in conjunction with the methods of qualitative and quantitative physicochemical analysis.

Conclusion. Thus, the biodiagnostic approach, including biomarking, biotesting, and bioindication, together with physics and chemicals analysis plays an important role in the modern integrated system for assessing the ecological state of water bodies and anthropogenic impact on them.

Compliance with ethical standards. The study does not require submission of the opinion of the biomedical ethics committee or other documents.

Author contributions:
Chuiko G.M. — the concept of the study, the collection and processing of material, writing the text;
Tomilina I.I., Kholmogorova N.V. — collection and processing of material, writing the text.
All co-authors — approval of the final version of the article, responsibility for the integrity of all parts of the article.

Conflict of interests. The authors declare no conflict of interest.

Acknowledgements: The work was carried out within the framework of the planned theme No. 121050500046-8, with partial support from RFBR grants (No AAAA-A18-118052590015-9.) 

Received: September 08, 2022 / Accepted: September 22, 2022 / Published: October 30, 2022

Sobre autores

Grigorii Chuiko

Institute of Biology of Inland Waters named after I.D. Papanin

Autor responsável pela correspondência
Email: gchuiko@ibiw.ru
ORCID ID: 0000-0002-3334-7073

Head of the Laboratory of Physiology and Toxicology of Aquatic Animals of the I.D. Papanin Institute of Biology of Inland Waters of the Russian Academy of Sciences, Doctor of Biological Sciences, 152742, Yaroslavl Region, Borok village, Russian Federation.

e-mail: gchuiko@ibiw.ru

Rússia

Irina Tomilina

Institute of Biology of Inland Waters named after I.D. Papanin

Email: i_tomilina@mail.ru
ORCID ID: 0000-0002-5266-877X
Rússia

Nadezda Kholmogorova

Udmurt State University; National Research Tomsk State University

Email: nadjaholm@mail.ru
ORCID ID: 0000-0003-3970-1907
Rússia

Bibliografia

  1. Moiseenko T.I. Aquatic Ecotoxicology: Theoretical and Applied Aspects [Vodnaya ekotoksikologiya: Teoreticheskie i prikladnye aspekty]. Moscow: 2009; Nauka. (in Russian)
  2. Chuiko G.M., Tomilina I.I., Kholmogorova N.V. Comprehensive assessment of bioecological and chemical systems: Tutorial. [Kompleksnaya otsenka bioekologicheskikh i khimicheskikh sistem: uchebnoe posobie]. Yaroslavl’: YarGU; 2018. (in Russian)
  3. Adams S.M. (Ed). Biological indicators of stress in fish. American Fisheries Society Symposium 8. Bethesda: AFS; 1990.
  4. Lukyanova O.N. Molecular biomarkers. [Molekulyarnye biomarkery]. Vladivostok: Izd-vo DVGAEU; 2001. (in Russian)
  5. Chuiko G.M. Biomarkers in hydroecotoxicology: principles, methods and methodology, practice of use. In: Ecological monitoring. Part VIII. Modern Problems of Monitoring Freshwater Ecosystems: Tutorial [Ekologicheskiy monitoring. Chast’ VIII. Sovremennye problemy monitoringa presnovodnykh ekosistem: Uchebnoe posobie]. Pod red. prof. D.B. Gelashvili, prof. G.V. Shurganovoy. Nizhniy Novgorod: 2014. 310–26. (in Russian)
  6. Sheehan P.J. Effects of individuals and populations. Effects of Pollutants at the Ecosystems Level. Еds.: P.J. Sheehan, D.R. Miller, G.C. Butler, Ph. Bourdeau. Chichester: Jon Willey&Sons Ltd; 1984.
  7. Snakin V.V. Ecology and nature management in Russia: an encyclopedic dictionary. [Ekologiya i prirodopol’zovanie v Rossii: entsiklopedicheskiy slovar’]. Moscow: Academia; 2008. (in Russian)
  8. Nikanorov A.M., Ivanik V.M. Dictionary-reference book on hydrochemistry and land water quality.[ Slovar’-spravochnik po gidrokhimii i kachestvu vod sushi.]. Rostov-na-Donu: LLC «Tsentr Pechatnykh Tekhnologiy ArtArtel’»; 2014. (in Russian)
  9. Melekhova O.P., Egorova E.I., Evseeva T.I. and others. Biological control of the environment: bioindication and biotesting: textbook. allowance for students. higher textbook institutions. [Biologicheskiy kontrol’ okruzhayushchey sredy: bioindikatsiya i biotestirovanie: uchebnoe posobie]. Moscow: Izdatel’skiy tsentr «Akademiya»; 2007. (in Russian)
  10. Kotegov B.G. Organization of biological monitoring in the zone of influence of a production facility: method. Instructions. [Organizatsiya biologicheskogo monitoringa v zone vliyaniya proizvodstvennogo ob”ekta: metod. ukazaniya.] Izhevsk: Izd-vo UdGU; 2007. (in Russian)
  11. Guidelines for hydrobiological monitoring of freshwater ecosystems. [Rukovodstvo po gidrobiologicheskomu monitoringu presnovodnykh ekosistem]. Ed. Abakumov V.A. SPb: Gidrometeoizdat; 1992. (in Russian)
  12. Bakanov A.I. The use of zoobenthos for monitoring freshwater reservoirs (review). Biologiya vnutrennikh vod. 2000; 1: 68–82. (in Russian)
  13. Zinchenko T.D., Shitikov V.K., Golovatyuk L.V., Nomokonova V.I., Popchenko V.I., Abrosimova E.V. Ecosystem approach to the bioindication problem of the rivers in the basin of the middle and lower Volga (review). Astrakhanskiy vestnik ekologicheskogo obrazovaniya. 2014; 1(27): 58–67. (in Russian)
  14. Semenchenko V.P. Principles and systems of bioindication of flowing waters. [Printsipy i sistemy bioindikatsii tekuchikh vod.]. Minsk: Orekh; 2004. (in Russian)
  15. Shitikov V.K., Rozenberg G.S. and Zinchenko T.D. Quantitative Hydroecology: Methods, Criteria, Solutions. [Kolichestvennaya gidroekologiya: metody, kriterii, resheniya]. Moscow: Nauka; 2005. (in Russian)
  16. Krylov A.V. Zooplankton of lowland small rivers. [Zooplankton ravninnykh malykh rek]. Moscow: 2008; Nauka. (in Russian)
  17. Yanygina L.V. Benthic communities in assessment of ecological state of small Izdrevaya river. Izvestiya AO RGO. 2017; 4(47): 93–100. (in Russian)

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