The Usage of Plant Test Systems for the Determination of Phytotoxicity of Contaminated with Petroleum Products Soil

Cherniak, Larysa; Mikhyeyev, Oleksandr; Madzhd, Svitlana; Lapan, Oksana; Dmytrukha, Tetyana; Korniienko, Iryna

doi:10.12911/22998993/137363

Artykuł - szczegóły

Tytuł artykułu

The Usage of Plant Test Systems for the Determination of Phytotoxicity of Contaminated with Petroleum Products Soil

Autorzy

Cherniak Larysa , Mikhyeyev Oleksandr , Madzhd Svitlana , Lapan Oksana , Dmytrukha Tetyana , Korniienko Iryna

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DOI

10.12911/22998993/137363

Warianty tytułu

Języki publikacji

Abstrakty

The level of phytotoxicity of the soil samples artificially contaminated with the aviation kerosene was determined in the work. The dependences of the growth characteristics of the plant test system (flax) on the excess of the approximate permissible concentrations (APC) of the oil product concentration in the soil were identified. The change in the mass of raw material depending on the level of aviation kerosene contamination of soil samples was determined. A decrease in the plant growth activity with an increase in the content of aviation fuel in the soil was established. It was found that there is a hormesis effect at certain concentrations of aviation kerosene in the soil. The comparison of the concentration dependences of the action of petroleum products on the growth rates of seedlings and their dependence on the distance to the source of pollution allowed in the latter case to conduct a kind of “dosimetry” on exposure concentrations when the petroleum product concentration was not determined.

Słowa kluczowe

phytotoxicity biotesting soil oil product pollution aviation fuel

Wydawca

Polskie Towarzystwo Inżynierii Ekologicznej
Lublin University of Technology

Czasopismo

Journal of Ecological Engineering

Rocznik

2021

Tom

Vol. 22, nr 6

Strony

66--71

Opis fizyczny

Bibliogr. 20 poz., rys., tab.

Twórcy

autor

Cherniak Larysa

specially@ukr.net

Department of Ecology, National Aviation University, 1, Liubomyra Huzara Ave., Kyiv, 03058, Ukraine

https://orcid.org/0000-0003-4192-3955

autor

Mikhyeyev Oleksandr

Department of Ecology, National Aviation University, 1, Liubomyra Huzara Ave., Kyiv, 03058, Ukraine

autor

Madzhd Svitlana

Department of Ecology, National Aviation University, 1, Liubomyra Huzara Ave., Kyiv, 03058, Ukraine

autor

Lapan Oksana

Department of Ecology, National Aviation University, 1, Liubomyra Huzara Ave., Kyiv, 03058, Ukraine

autor

Dmytrukha Tetyana

Department of Ecology, National Aviation University, 1, Liubomyra Huzara Ave., Kyiv, 03058, Ukraine

autor

Korniienko Iryna

Department of Ecology, National Aviation University, 1, Liubomyra Huzara Ave., Kyiv, 03058, Ukraine

Bibliografia

1. Adebiyi F.M., Affedia M.O. 2011. The ecological impact of used petrochemical oils on soil properties with special reference to physicochemical and total petroleum Hydrocarbon content of soils around automobile repair workshops. Energy sources, Part A: Recovery, Utilization, and Environmental Effects, 33, 1556–1565.
2. Bogolyubov, V.M, Klimenko, M.O, Mokin, V.B and others 2010. Environmental monitoring., VNTU, Vinnitsa, Ukraine [in Ukrainian].
3. Cherniak L.M. 2018. The Enhancement of Environmental Safety of Airports Fuel Service. International Symposium on Sustainable Aviation, 9–11 July, Roma, Italy, 32.
4. Cherniak L.M., Radomska M.M., Mikhyeyev O.M., Madzhd S.M. 2019. The Assessment of Environmental Risks from Airport Fuel Depots. Proceedings (Full paper Book) International Symposium on Sustainable Aviation (ISSA-2019), 54–57.
5. Cherniak L. Shtyka O., Bilyk T. 2017. Soil decontamination on airports territories: peculiarities and challengers. International Symposium on Sustainable Aviation, Kyiv, September 10–13, 77.
6. Cruz J.M., Lopes P.R., Montagnolli R.N. et al. 2013. Toxicity assessment of contaminated soil using seeds as bioindicators. Journal of Applied Biotechnology, 10 (1), 1–10.
7. Evdokimov A. Yu., Fuks I.G., Lyubinin I.A. 2012. Lubricants in the technosphere and biosphere: ecological aspect. Itaka-N, Moskow [in Russion].
8. Franchuk G.M., Isaienko V.M. 2005. Ecology, Aviation and Space. NAU, Kyiv [in Ukrainian].
9. Grodzinsky D.M, Shilina Y. V, Kutsokon N.K, Mikheev O. M and other. 2006. Application of plant test systems to assess the combined action of factors of different nature: Guidelines for assessing the permissible levels of radionuclide and chemical contamination by their combined action. Phytosocial Center, Kyiv.
10. Groza V.A., Madzhd S.M., Franchuk G.M. 2010. Statistical analysis of snow cover toxicity in areas near aircraft maintenance and repair enterprises. Ekologichna Bezpeka ta Pryrodokorystuvannya, 3, 36–39 [in Ukrainian].
11. Lapinskiene, A., Martinkus, P., & Rebždaite, V. 2006. Eco-toxicological studies of diesel and biodiesel fuels in aerated soil. Environmental Pollution, 142(3), 432–437.
12. Madzhd S. M., Cherniak L.M., Mikheev O.M. 2020. The use of plants to indicate the condition of soils of man-made areas. Visnyk Kremenchucz`kogo nacional`nogo universytetu, 1 (120), 68–73.
13. Madzhd, S.M., Kalnytska, D.D. 2018. The assesment of the categories of environmental aspects of enterprises of civil aviation (on the application of the international airport “Boryspil”). Naukoiemni tekhnolohii, 1, 125–129 [in Ukrainian].
14. Mann С., Lynch D., Fillmore S., Mills A. 2019. Relationship between field management, soil health and microbial community composition, Applied Soil Ecology, 144, 12–21.
15. Moebius B.N., Van Es. H.M., Idowu O.J., Clune D.J., Thies J.E. 2007. Evaluation of laboratory – mesured soil properties as indicator of soil physical quality. Soil Sciences, 172(11), 895–912.
16. Plaza, G., Naleez-jaweeki, G., Ulfig, K., Brigmon, R.L. 2005. The application of bioassays as indicators of petroleum-contaminated soil remediation. Chemosphere, 59, 289–296.
17. Radomska M.M., Madzhd S.M., Cherniak L.M., Mikhyeyev O.M. 2020. Environmental pollution in the airport impact area – case study of the Boryspil International Airport. Ekologichni Problemy, 2 (5), 76–82.
18. Salvatore D., Carafa M., Carratu, G. 2008. Assessment of heavy metals phytotoxicity using seed germination and root elongation tests: A comparison of two growth substrates. Chemosphere, 73(9), 1461–1464.
19. Vasilyev A.V., Zabolotskikh V.V. 2012. Ekologicheskiy monitoring toksichesogo zagryazneniya pochvy nefteproduktami s ispolzovaniyem metodov biotestirovania. Oil and Gas Business, 4, 242–249 [in Russian].
20. Yanovsky L.P., Kharin A.N., Dmitrenko V.P., Shevchenko I.V. 2016. Aviation ecology. The impact of aviation fuels and lubricants on the environment. Infra-M, Moskva [in Russion].

Typ dokumentu

Bibliografia

Identyfikator YADDA

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