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Assessment of ecotoxicological properties of oils in water

Treść / Zawartość
Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
The paper deals with the influence of oils on surface water pollution. Two mineral oils of petroleum origin, one synthetic oil and one vegetable oil were tested. Properties of the selected oil types were assessed by ecotoxicological tests. The acute toxicity test on Daphnia magna showed that out of the tested oils the most toxic for these aquatic organisms were the petroleum oils. In the phytotoxicity test on Sinapis alba, the toxic effect of mineral oils in comparison with synthetic and vegetable oil was more significant. Oils create oil stains visible under the microscope. It was difficult to differentiate them from Scenedesmus subspicatus. The calculation of growth rate was not relevant and a significant loss of cells was detected. It follows from the summary of the tests results that vegetable oil is the least aggressive for the aquatic environment and there are no significant differences between synthetic and mineral oils.
Rocznik
Strony
31--37
Opis fizyczny
Bibliogr. 23 poz., tab.
Twórcy
autor
  • Technical University in Zvolen, Slovakia, Faculty of Ecology and Environmental Sciences, Department of Environmental Engineering
  • Technical University in Zvolen, Slovakia, Faculty of Ecology and Environmental Sciences, Department of Environmental Engineering
  • Technical University in Zvolen, Slovakia, Faculty of Ecology and Environmental Sciences, Department of Environmental Engineering
autor
  • Technical University in Zvolen, Slovakia, Faculty of Ecology and Environmental Sciences, Department of Environmental Engineering
autor
  • Technical University in Zvolen, Slovakia, Faculty of Ecology and Environmental Sciences, Department of Environmental Engineering
  • Technical University in Zvolen, Slovakia, Faculty of Ecology and Environmental Sciences, Department of Environmental Engineering
Bibliografia
  • 1. Andersen, R.A. (2005). Algal culturing techniques, Amsterdam: Elsevier, Amsterdam 2005.
  • 2. Bejarano, A.C., Clark, J.R. & Coelho, G.M. (2014). Issues and challenges with oil toxicity data and implications for their use in decision making: A quantitative review, Environmental Toxicology & Chemistry, 33 (4), pp. 732-742.
  • 3. Borodulina, T.S., Polonskiy, V.I., Vlasova, E.S., Shashkova, T.L. & Grigor, Y.S. (2011). Effect of oil-pollution of water on delayed fluorescence of the algae Chlorella vulgaris Beijer and survival rate of the cladoceran Daphnia magna Str., Sibirskii Ekologicheskii Zhurnal, 18 (1), pp. 107-111.
  • 4. Cecutti C.H. & Agius, D. (2008). Ecotoxicity and biodegradability in soil and aqueous media of lubricants used in forestry applications, Bioresource Technology, 99 (17), pp. 8492-8496.
  • 5. Enujiugha, V.N. & Nwanna, L.C. (2004). Aquatic oil pollution impact indicators, Journal of Applied Sciences & Environmental Management, 8, pp. 71-75.
  • 6. Fargasová, A. (2009). Ecotoxicological bioassays, Bratislava: Publishing Perspekt.
  • 7. Forth H.P., Mitchelmore, C.L., Morris, J.M., Lay, C.R. & Lipton, J. (2017). Characterization of dissolved and particulate phases of water accommodated fractions used to conduct aquatic toxicity testing in support of the Deepwater Horizon natural resource damage assessment, Environmental Toxicology and Chemistry, 36 (6), pp. 1460-1472
  • 8. Hybská, H., Samesová, D. & Ollerová, H. (2015). Impact of Organic Pollutants on the Environment, Zvolen: Technical University in Zvolen.
  • 9. Lopes, P.R., Montagnolli, R.N., Domingue, R.F. & Bidoia, E.D. (2010). Toxicity and biodegradation in sandy soil contaminated by lubricant oils, Bulletin of Environmental Contamination and Toxicology, 84 (4), pp. 454-458.
  • 10. Mariano, A.P., Kataoka, A.P., Angelis, D.F. & Bonotto, D.M. (2007). Laboratory study on the bioremediation of diesel oil contaminated soil from a petrol station, Brazilian Journal of Microbiology, 38 (2), pp. 346-353.
  • 11. Martinez, J.F., Villaseńor, R., Rioe, G. & Chaves, E.F. 2005. Toxicity of the crude oil water soluble fraction and kaolin - adsorbed crude oil on Daphnia magna (Crustacea: Anomopode), Archives of Environmental Contamination and Toxicology, 48 (4), pp. 444-449.
  • 12. OECD 201 Guidelines for Testing of Chemicals. Freshwater Alga and Cyanobacteria, Growth Inhibition Test. 2006, Paris, France.
  • 13. OECD 202 Guidelines for Testing of Chemicals. Daphnia sp. Acute Immobilisation Test. 2004, Paris, France.
  • 14. Ramadass, K., Megharaj, M., Venkateswarlu, K. & Naidu, R. (2015). Toxicity and oxidative stress induced by used and unused motor oil on freshwater microalga, Pseudokirchneriella subcapitata, Environmental Science and Pollution Research, 22 (12), pp. 8890-8901.
  • 15. Rasulov, O., Zacharová, A. & Schwarz, M. (2017). Determination of total mercury in aluminium industrial zones and soil contaminated with red mud, Environmental Monitoring and Assessment, 189 (8), pp. 1-13.
  • 16. Redman A., Buther, J.D., Letinksy, J. & Parkerton, T.F. (2017). Investigating the role od dissolved and droplet oil in aquatic toxicity using disperesed and passive dosing systems, Environmental Toxicology & Chemistry, 36 (4), pp. 1020-1028. Regulation of the Government of the Slovak Republic No. 269/2010 Coll.
  • 17. Saval, S. (2000). Chap.12 Bioremediation: Clean-up biotechnologies for soils and aquifers, In: Environmental Biotechnology and Cleaner Bioprocesses, E.J. Olguin, Sanches, G. & Hernandez, E. (Eds.), pp. 155-166. London: Taylor and Francis Limited.
  • 18. Shogren, R.L., Petrovic, Z., Liu, Z. & Erhan, S.Z. (2004). Biodegradation behavior of some vegetable oil-based polymers, Journal of Polymers and the Environment, 12 (3), pp. 173-178.
  • 19. STN 83 8303:1999. Testing of dangerous properties of wastes. Ecotoxicity. Acute toxicity tests on aquatic organisms and growth inhibition tests of algae and higher cultivated plants.
  • 20. STN EN ISO 6341: 2013 Water quality. Determination of the inhibition of the mobility of Daphnia magna Straus (Cladocera, Crustacea). Acute toxicity test (ISO 6341: 2012).
  • 21. STN EN ISO 8692: 2012 Water quality. Fresh water algal growth inhibition test with unicellular green algae (ISO 8692:2012).
  • 22. Tamada, I.S., Lopes, P.R.M., Montagnolli, R.N. & Bidoia, E.D. (2012). Biodegradation and toxicological evaluation of lubricant oils, Brazilian Archives of Biology and Technology, 55 (6), pp. 951- 956.
  • 23. Zehnder in Staub R. (1961). Nutritional physiological-ecological study on the planktonic blue-green alga Oscillatoria rubescens DC, Swiss Journal of Hydrology, 23, pp. 82-198.
Uwagi
Opracowanie rekordu w ramach umowy 509/P-DUN/2018 ze środków MNiSW przeznaczonych na działalność upowszechniającą naukę (2019).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-7b10d6ff-73bd-4489-bcec-e914030a1d0d
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