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To assess the level of soil contamination with oil and petroleum products, the criterion of the cenotic level as the nature of the phytocenosisformation was used. It was found that the bioindication reaction of vascular plants to oil pollution is the deterioration of quantitative and qualitative indicators of the native phytocenosis with possible self-recovery of the plant community at the threshold concentrations of petroleum products 6.0±0.3–8.0±0.5 l/m2. Light fractions of oil products cause complete destruction of the existing plant community, and the new community is formed at the expense of the soil stock of seeds and drift ruderal plant species. Dark fractions of petroleum products cause structural changes in the species composition of the existing phytocenosis. The most resistant to oil pollution of the soil are the representatives of the Poaceae family, and the representatives of the families Solanacee and Malvaceae are eliminated from the phytocenosis. For 8 years of research, the projective cover of soil with vegetation is reduced to 92.6±6.3–99.6±0.4%.
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Czasopismo
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Tom
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28--33
Opis fizyczny
Bibliogr. 22 poz., tab.
Twórcy
autor
- Ecology and Biology Institute, Shymkent University, Shymkent city, Karatau dist., 225, 426 build., 160000, Kazakhstan
autor
- M.Auezov South Kazakhstan University, Shymkent city, Tauke khan avenue, 5, 160000, Kazakhstan
autor
- Shymkent University, Shymkent city, Karatau dist., 225, 426 build., 160000, Kazakhstan
autor
- South Kazakhstan State Pedagogical University, Shymkent city, Baitursynov st., 13, 160000, Kazakhstan
autor
- M.Auezov South Kazakhstan University, Shymkent city, Tauke khan avenue, 5, 160000, Kazakhstan
autor
- Shymkent University, Shymkent city, Karatau dist., 225, 426 build., 160000, Kazakhstan
autor
- Shymkent University, Shymkent city, Karatau dist., 225, 426 build., 160000, Kazakhstan
autor
- Shymkent University, Shymkent city, Karatau dist., 225, 426 build., 160000, Kazakhstan
Bibliografia
- 1. Ajuzieogu C.A., Ibiene A.A., Stanley H.O. 2015. Laboratory study on in fluence of plant growth promoting rhizobacteria (PGPR) on growth response and tolerance of Zeamays to petroleum hydrocarbon. Afr. J. Biotechnol., 14(43), 2949–2956. DOI: 10.5897/AJB2015.14549
- 2. Avetov, N.A., Shishkonakova, E.A. 2008. Phytoindication of the water status and nutrient supply of oil-polluted soils in the middle reaches of the Ob’ River. Moscow Univ. Soil Sci. Bull., 63, 8. https://doi.org/10.1007/s11973-008-1002-1
- 3. Banks, M.K., Schultz, K.E. 2005. Comparison of plants for germination toxicity tests in petroleum contaminated soil. Water Air Soil Poll., 167, 211–219. https://doi.org/10.1007/s11270-005-8553-4
- 4. Cruz, J.M., Lopes, P.R.M., Montagnolli, R.N., Tamada, I.S., Silva, N.M., Bidoia, E.D. 2013. Toxicity assessment of contaminated soil using seeds as bioindicators. J. Chem. Technol. Biotechnol., 1, 1–10. doi.org/10.5296/jab.v1i1.3408
- 5. Chaineau, C.H., More, J.L., Oudot, J. 2000.Biodegradation of fuel oil hydrocarbons in the rhizosphere of maize. J Environ Quality, 29, 568–578.
- 6. Dzhura, N., Romanyuk, O., Oshchapovsky, I. 2008. Using plants for recultivation of oil рolluted soils. J. Environmental protection and ecology, 9(1), 55–59.
- 7. Dzhura N. 2011. Prospects of oil polluted soils phytoremediation by Faba bona medic. (Viciafaba L.) plants. Visnyk of the Lviv University. Series Biology, 57, 117–124
- 8. Dudka I.A., Wasser S.P., Golubinskii I.N. 1984. Botanical terms dictionary. Kiev, Naukovadumka, 307. (in Russian)
- 9. Ekundayo, E.O., Emede, T.O., Osayande, D.I. 2001. Effects of crude oil spillage on growth and yield of maize (Zea mays L.) in soils of Midwestern Nigeria. Int. J. Food Sci. Nutr., 56(4), 313–324.
- 10. Hutchinson, S.L., Schwab, A.P., Banks, M.K. 2001. Bioremediation and biodegradation: phytoremediation of aged petroleum sludge: effect of irrigation techniques and scheduling. Journal of Environmental Quality, 30, 1516–1522.
- 11. Issayeva, AU., Uspabayeva, A.A., Sattarova, A.M., Shingisbayeva, Z.A., Isaeva, R. 2017.Consortium of Hydrocarbon-Oxidizing Microorganisms as a Basis for a Biological Product for Treating Petroleum Industry Waste in Southern Kazakhstan. Ekoloji, 26(100), e100001.
- 12. Joner, E.J., Leyval, C. 2003. Phytoremediation of organic pollutants using mycorrhizal plants: a new aspect of rhizosphere interactions. Agronomie, 23, 495–502.
- 13. Marinescu, M., Dumitru, M., Lacatusu, A., Marinescu, M. 2011. Evolution of Maize biomass in a crude oil polluted soil according to the treatment applied. Scientific Papers, UASVM Bucharest, Series A, 287–292.
- 14. Merkel, N., Schultez-Kraft, R., Infante, C. 2004. Phytoremediation of petroleum-contaminated soils in the tropics- preselection of plant species from eastern Venezuela. J Applied Bot Food Quality, 78, 185–192.
- 15. Merkel, N. 2005. Phytoremediation in the tropics influence of heavy crude oil on root morphological characteristies of graminoids// Enviropmental Pollution, 138(N1), 86–91.
- 16. Miya, R.K., Firestone, M.K. 2001. Enhanced Phenanthrene Biodegradation in Soil by Slender Oat Root Exudates and Root Debris, J. Env. Qual., 30, 1911–1918.
- 17. Mohsenzadeh, F., Nasseri, S., Mesdaghinia, A., Nabizadeh, R., Zafari, D., Khodakaramian, G., Chehregani, A. 2010. Phytoremediation of petroleum-polluted soils: application of polygonumaviculare and its root-associated (penetrated) fungal strains for bioremediation of petroleum-polluted soils. Ecotox Environ Saf, 73, 613–619.
- 18. Pavlov N.V. Flora of Kazakhstan, in 9T, 1956–1966. (in Russian) http://magnetfox.org/down-load/3271204/pavlov-n-v--flora-kazahstana-v-9-ti-tomah--1956-1966-djvu-rus
- 19. Romaniuk, O.I., Shevchyk, L.Z., Oshchapovskyy, I.V., Zhak, T.V. 2016. Method of ecological assessment of oil-contaminated soils, 24(2). https://doi.org/10.15421/011633
- 20. Sattarova, A.M., Issayeva, A.U. The Role of Spontaneous and Augmented Microflora in Cleaning Oil-Contaminated Loamy Gray Soils of Southern Kazakhstan. Mediterranean Journal of Social Sciences. MCSER Publishing, Rome-Italy, 6(1(S2)), 103–108. https://doi.org/10.5901/mjss.2015.v6n1s2p103
- 21. Schabenberger, O., Pierce, F.J. 2002.Contemporary statistical models for the plant and soil Sciences. CRC Press, Boca RatonTang L, Niu X, Sun Q, Wang R.. Bioremediation of petroleum polluted soil by combination of ryegrass with effective microorganisms. J Environ Technol Engin, 3, 80–86.
- 22. Tang, J.C., Wang, M., Wang, F., Sun, Q., Zhou, Q.X. 2011. Ecotoxicity of petroleum hydrocarbon contaminated soil. J. Environ. Sci., 23(5), 845–851. https://doi.org/10.1016/S1001-0742(10)60517-7
Uwagi
Opracowanie rekordu ze środków MEiN, umowa nr SONP/SP/546092/2022 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2022-2023).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-3edc07cb-dc20-4d32-a018-405f57675b29