To date, the urgent task is to create remediation measures for soils contaminated to varying degrees by oil and oil products, corresponding to the climatic conditions of the territory. Experiments revealed that the desert soil types as a result of oil contamination of soil pH environment from 7,3 to 5.2. The amount of aggregates (0.25; 0.5; 1; 2; 3; 5; 7; 10 mm) in the soil has been changed. The big change was determined by the concentration of oil, motor oil, kerosene 15%. Due to oil pollution, technogenic salinity has occurred. The salinity type is chloride-sulfate and it is poisonous. As a result of contamination with oil and oil products, carbon dioxide increases. It is not an organic carbon, it is anthropogenic carbon. However, anthropogenic carbon is unnecessary for soil fertility and properties. Considering the properties of different types of soil, bacterial strains (MFD-100 Pseudomonas stutzeri, MFD-200 Pseudomonas caryophyllis, MFD-5000 Bacillus subtilis) were specially suggested. The time span of biological recultivation was determined according to pollution levels. According to the results, the time spent on highly polluted desert soils was 50-64 months.
№ | Ҳавола номи |
---|---|
1 | Agnello A.C., Bagard M., Hullebusch E.D., Esposito G., Huguenot D., 2016. Comparative bioremediation of heavy metals and petroleum hydrocarbons co-contaminated soil by natural attenuation, phytoremediation, bioaugmentation and bioaugmentationassisted phytoremediation. Science of the Total Environment., 563–564: 693–703. |
2 | Akinwumi I. I., Diwa D., Obianigwe N., 2014. Effects of crude oil contamination on the index properties, strength and permeability of lateritic clay. Int. Journal of Applied Sciences and Engineering Research, Vol. 3, 4: 816-824. |
3 | Akpoveta O.V., 2016. Fenton oxidative mechanism and its kinetics on the remediation of soil contaminated with unrefined petroleum oil. J. Chem. Soc. Nigeria, Vol. 41, 2: 54-61. |
4 | Arinushkina E.V. Rukovodstvo po himicheskomu analizu pochv. Izdatel'stvo: MGU, 1970 g. 488 s. |
5 | Balliana A.G., Moura B.B., Inckot R.C., Bona C., 2017 Development of Canavalia ensiformis in soil contaminated with diesel oil. Environ Sci .Pollut. Res. 24: 979–986. |
6 | Cruz J.M., P.M.Loрes, N.Montagnolli, I.S.Tamada, N.M.Gsilva, E.D.Bidoia, 2013 Phytotoxicity of soil contaminated with petroleum derivatives and biodiesel ecotoxicol. Environ. Contam., V.8, 1, 49–54 |
7 | Errington I., C.K.King, S.Houlahan, S.C.George, A.Michie, G.C.Hose, 2018. The influence of vegetation and soil properties on springtail communities in a diesel-contaminated soil. Science of the Total Environment. Vol. 619–620, 1098–1104. |
8 | Gao Y., Sh.Guo, J.Wang, D.Li, H.Wang, D.Zeng, 2014. Effects of different remediation treatments on crude oil contaminated saline soil. Chemosphere, 117: 486–493. |
9 | Gargouri B., F.Karray, N.Zhiri, F.Aloui, S.Sayadi, 2014. Bioremediation of petroleum hydrocarbons-contaminated soil by bacterial consortium isolated from an industrial wastewater treatment plant. J. Chem Technol. Biotechnol, 89: 978–987. |
10 | Guarino C., V.Spada, R.Sciarrillo, 2017. Assessment of three approaches of bioremediation (Natural Attenuation, Landfarming and Bioagumentation e Assistited Landfarming) for a petroleum hydrocarbons contaminated soil. Chemosphere, 170: 10-16. |
11 | Huang, L., J.Xie, B.Lv, X.Shi, G.Li, F.Liang, J.Lian, 2013. Optimization of nutrient component for diesel oil degradation by Acinetobacter beijerinckii ZRS. Water Air Soil Pollut. 227: 91 Pollution Bulletin, 76 (1–2), 325–332. |
12 | Iqbal M.Z, S.Khursheed, M.Shafiq, 2016. Effects of motor oil pollution on soil and seedling growth of parkinsonia aculeata l. Scientia Agriculturae, 13 (3): 130-136. |
13 | Karpov A.V., 2013. Development of technology for ecological remediation of man-caused lands by the example of the impact zone of the Volgograd Refinery. Author's abstract. diss. Cand. those. sciences. FGBOU of HPE. - Volgograd. 22. |
14 | Kästner M., A.Miltner, 2016. Application of compost for effective bioremediation of organic contaminants and pollutants in soil. Appl Microbiol Biotechnol, 100: 3433–3443. |
15 | Kuo H.C., D.F. Juang, L.Yang, W.C.Kuo, Y.M.Wu, 2014. Phytoremediation of soil contaminated by heavy oil with plants colonized by mycorrhizal fungi. Int. J. Environ. Sci. Technol. 11: 1661–1668. |
16 | Lawson I.YD., E.K.Nartey, D.A.Darko, V.A.Okrah, D.Tsatsu, 2012. Microbial degradation potential of some Ghanaian soils contaminated with diesel oil. Agric. Biol. J. N. Am., 3 (1): 1-5.1. |
17 | Li J., C.Guo, G.Lu, X.Yi, Z.Dang, 2016. Bioremediation of petroleum - contaminated acid soil by a constructed bacterial consortium immobilized on sawdust: influences of multiple factors. Water Air Soil Pollut, 227: 444. |
18 | Lim M.W., E.V.Lau, P.E.Poh, 2016. A comprehensive guide of remediation technologies for oil contaminated soil - Present works and future directions. Marine Pollution Bulletin, 109: 14–45. |
19 | Mohammadi-Sichani M.M., M.M.Assadi, A.Farazmand, M.Kianirad, A.M.Ahadi, H.H.Ghahderijani, 2017. Bioremediation of soil contaminated crude oil by Agaricomycetes. Journal of Environmental Health Science & Engineering, 15:8. |
20 | Moubasher H.A., A.K.Hegazy, N.H.Mohamed, Y.M.Moustafa, H.F.Kabiel, A.A.Hamad, 2015. Phytoremediation of soils polluted with crude petroleum oil using Bassia scoparia and its associated rhizosphere microorganisms. International Biodeterioration & Biodegradation, 98 11-120. |
21 | anchenko L., A.Muratova, E.Dubrovskaya, S.Golubev, O.Turkovskaya, 2017. Dynamics of natural revegetation of hydrocarbon-contaminated soil and remediation potential of indigenous plant species in the steppe zone of the southern Volga Uplands. Environ. Sci Pollut Res, https://doi.org/10.1007/s11356-017-0710-y. |
22 | Panchenko L., A.Muratova, O.Turkovskaya, 2017. Comparison of the phytoremediation potentials of Medicago falcata L. and Medicago sativa L. in aged oil-sludge-contaminated soil. Environ Sci Pollut Res, 24: 3117–3130. |
23 | Petrov A.M., A.A.Versioning, L.K.Karimullin, D.V.Akaikin, O.Yu Tarasov, 2016. Dynamics of ecological and biological characteristics of soddy-podzolic soils under long-term oil pollution. Eurasian Soil Science, 49: 784–791. |
24 | Petrova N.A., 2014. Influence of chemical pollution on biological properties of soils of dry steppes and semi-deserts of the south of Russia. - Diss. cand. biol. sciences. SFedU, Rostov-on-Don.136. |
25 | Roy A.S., R.Baruah, M. Borah, A.K. Singh, H.P.Deka Boruah, N.Saikia, M.Deka, N.Dutta, T.Ch. Bora, 2014. Bioremediation potential of native hydrocarbon degrading bacterial strains in crude oil contaminated soil under microcosm study. International Biodeterioration & Biodegradation Vol. 94: 79-89. |
26 | Soleimani M., M.Farhoudi, H.Jan, 2013. Chemometric assessment of enhanced bioremediation of oil contaminated soils. Christensenc Journal of Hazardous Materials, 254–255: 372–381. |
27 | Tumanyan A.F., N.V.Tyutyuma, A.N.Bondarenko, N.A.Shcherbakova, 2017. Influence of oil pollution on various types of soil. Chemistry and Technology of Fuels and Oils, 53: 369-376. |
28 | Wang Y., F.Jiang, L.Qianxin, X.Lyu, X.Wang, G.Wang, 2013. Effects of crude oil contamination on soil physical and chemical properties in Momoge wetland of China. Chinese Geographical Science, 23: 708–715. |
29 | Wu M., Li W., A.D.Warren, X.Ye, K.Chen, D.Kost, L.Chen, 2017. Bioremediation of hydrocarbon degradation in a petroleum contaminated soil and microbial population and activity determination. Chemosphere, 169: 124-130. |
30 | World reference base for soil resources, WRB, 2014. International soil classification system for naming soils and creating legends for soil maps. World Soil Resources Reports No. 106, Rome: FAO, 181 pp. |
31 | International standard/ International Organization of Standardization // Standard of Soil quality. – 2005. - ISO 10390: 2005 (E). |
32 | Okolelova A.A ., Jeltobryuxov V.F., Taracob A.P., Kasterina N.G. Normal feature of oil products in the soil covering // scientific magazine fundamental investigatin – Moscow 2015. - № 12. – С. 315-319. |