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2015 | 52 | 3 | 49-53

Article title

Biomonitoring of Inland and Inshore Waters with Use of Dreissena Polymorpha Mussels

Content

Title variants

Languages of publication

EN

Abstracts

EN
The pollution of water that is used for consumption and in agricultural holdings contributes to an increased mortality rate, inhibition of growth and physiological functions, changes in the DNA (genotoxicity), changes within tissues (cytotoxicity) and organs of individuals who are exposed to chemical components. One of the most dangerous toxin classes which have effect on animals and humans who come into contact with contaminated water is the class of cyanobacterial toxins released by dying cyanobacteria. They contribute to very serious health conditions and also to fatalities. Toxins of this type are relatively difficult to detect on account of their seasonal changeability in blooming. One of the most effective methods of detecting water contamination automatically and continuously is biomonitoring with the use of Dreissena polymorpha mussels.

Publisher

Year

Volume

52

Issue

3

Pages

49-53

Physical description

Dates

published
1 - 9 - 2015
accepted
15 - 7 - 2015
online
30 - 12 - 2015
received
5 - 7 - 2015

Contributors

  • Bionitec Sp. z o.o., ul. Gagarina 5 87-100 Toruń
  • Bionitec Sp. z o.o., 87-100 Toruń
  • The Department of Biology and Environment Protection of Nicolaus Copernicus University in Toruń, Poland
  • The NCU Centre for Technology Transfer, Toruń, Poland

References

  • 1. Traczewska TM. Biological methods of evaluating environmental contamination. Publ. 1 Wrocław: OWPW; 2011: 19-21, 15-17) ISBN 978-83-7493-597-5.
  • 2. Giedrys K, Kądzielawski G, Krasnowska K, Krawczyk J, Purski P, Szymczakowska E, et al. Water - a burning problem. Warsaw. The Energy for Europe Foundation, http://fede.org.pl/wp-content/uploads/2013/01/raport-07.pdf [quoted 2013-01].
  • 3. Frankowski Z, Gałkowski P, Mitręga J. The structure of groundwater intake in Poland. Publ. 1 Warsaw PIG; 2009: pp.162; ISBN 978-83-7538-450-5.
  • 4. Choiński A. A catalogue of Polish Lakes. Publ. 1 Poznań: WN UAM; 2006; ISBN 83-232-1732-7.
  • 5. Miller WE, Petreson SA, Greene JC, Callahan CA. Comparative toxicology laboratory organism for assessing hazardous waste sites. Environ Quality 1985; 14(4):569-574.
  • 6. Ilnicki P. Causes The causes, sources and the course of surface water eutrophication. Przegląd Komunalny 2002; 2:35-49.
  • 7. Błaszczyk A, Mazur-Marzec H. BMAA and other neurotoxins of cyanobacteria. Polish Hyperbaric Research. 2006; 4(17):7-14.
  • 8. Soszka H. Methodological problems related to the evaluation of eutrophication level in lakes for the purposes of designating nitrate vulnerable zones. Woda-Środowisko-Obszary Wiejskie 2009; vol. 9 z. 1 (25):151-159.
  • 9. Przymus P, Rykaczewski K., Wiśniewski R. Zebra mussels’ behaviour detection, extraction and classification using wavelets and kernel methods. Future Generation Computer Systems 2014; 33:81-89.
  • 10. Przymus P, Rykaczewski K, Wiśniewski R. Application of Wavelets and Kernel Methods to Detection and Extraction of Behaviours of Freshwater Mussels. Future Generation Information Technology. Third International Conference, FGIT 2011 in Conjunction with GDC 2011 Jeju Island, Korea, December 8-10, 2011 Proceedings. 1th edition Berlin Heidelberg: Springer-Verlag, 2011. 43-54 ISBN: 978-3-642-27141-0.

Document Type

Publication order reference

Identifiers

YADDA identifier

bwmeta1.element.-psjd-doi-10_1515_phr-2015-0016
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