The results of the phytocoenonical diversity research of the electrical substations territories have been presented. 175 geobotanical descriptions have been produced. Materials were processed by the program WinTWINS. Vegetative classification was divided into three stages. There were classification of phytocenoses (identifying phytocoenons), classification of species and interpretation of phytocoenons. Phytocoenons with transitional composition were discarded. Kopecky and Hejny approach was used to produce the descriptions of synanthropic communities. The description of vegetive communities has been given and the models of their organization have been defined.
Arepeva, L.A. (2017). Invasive species in the phytocenoses of the railways of the Kursk region. Study adentitious and synanthropic of vegetation of Russia and countries of near abroad: results, problems, prospects. Izhevsk: Izhevsk institute of computer technologies (in Russian).
Arepieva, L.A. (2017). The vegetation on railway embankments of the Kursk region. Vegetation of Russia. St. Petersburg, 30. 3–28 (in Russian).
The nature of the recovery of lands disturbed areas. (2013). Sphere. Oil and Gas, 3(36), 60–61 (in Russian).
Averinova, E.A., Poluyanov, A.V. (2011). The communities of the class Trifolio-Geranietea sanguinei th. Müller 1962 in the Kursk region. Izvestia of Samara Scientific Center of the Russian Academy of Sciences, 13, 5(2), 27–32 (in Russian).
Bogdanov, V.L., Garmanon, V.V., Frolov, V.V. (2014). The forming of vegetable cover on territory muddy petroleum hydrocarbons and monitoring of the technogenic-broken landscapes. The modern problems of landscape science and geoecology. Minsk: Publishing center BGU (in Russian).
Bulahov, A.D., Semenschikov, Yu.A. (2009). Practical work on classification and ordination of vegetation. Bryansk: RIO BGU (in Russian).
Chattanooga, Tennessee. (2013). Tennessee Valley Authority. Plateau 500-KV substation. Environmental assessment. Retrieved from: https://www.tva.gov/file_source/TVA/Site%20Content/Environment/Environmental%20Stewardship/Environmental%20Reviews/Putnam-Cumberland,%20Tennessee%20Improve%20Power%20Supply%20Project/Plateau_Substation_FEA.pdf (Accessed on 22.07.2018)
Gerasimova, M.I., Stroganova, M.M., Mozharova, N.V., Prokofeva, T.V. (2003). Anthropogenic soils: genesis, geography, reclamation. Smolensk: Oykumena (in Russian).
Golub, V.В., Bondareva, V.V. (2017). Plant communities of the class Salicetea purpureae in the lover Volga valley. Phytodiversity of Eastern Europe, XI:2, 2–57 (in Russian).
Goncharenko, I.V., Holyk, H.N. (2015). Classification and phytoecological assessment of the Kiev forest-part vegetation. Phytodiversity of Eastern Europe, XI:4, 129–157 (in Russian).
Golub, V.В., Sorokin, A.N. (2012). Information technologies are in syntaxonomy. Tatischev’s reading: actual problems of science and practice. Tolyatti (in Russian).
Hill, M.O. (1999). TWINSPAN – a FORTRAN program for arranging multivariate datain an ordered two-way table by classification of the individuals and attributes. Cornell University, Ithaca, New York.
Hlizina, N.V. (2004). Syngenesis and lithophilous groupments and succesions are in theoretical illumination. Soil science, 5(3–4), 63–69 (in Ukrainian).
Hlukhov, O.Z., Prohorova, S.I. (2008). Status indication for the industrial environment morphological variability of plants. Industrial botany, 8, 3–9 (in Russian).
Konogray, V.A., Osypenko, V.V. (2015). Syntaxonomy of ruderal vegetation (class Artemisietea vulgaris) at the territory of Kremenchug reservoir storage. Visnyk of University of Cherkasy, 2 (335), 48–54 (in Ukrainian).
Lobacheva, G.K., Karpov, A.V., Makarov, O.A., Filippova, A.I. (2012). Recultivation of soil muddy foods of the oil processing. Visnyk of VolSU, 1 (3), 58–64 (in Russian).
Maslikova, K.P., Ladska, I.V., Zhukov, O.V. 2016. Permeability of soils in artificially created models with different stratigraphy. Biological Bulletin of Bogdan Chmelnitskiy Melitopol State Pedagogical University. 6 (3), 234–247. DOI: http://dx.doi.org/10.15421/201693
Mirkin, B.M., Naumova, L.G. (2017). Introduction to the modern science of vegetation. Moskow, GEOS (in Russian).
Mirkin, B.M., Pozenberg, G.S. (1983). The explanatory dictionary of modern phytocenology. Moskow, Nauka (in Russian).
Mirkin, B.M., Yamalov, S.M., Naumova, L.G. (2007). Synanthropic plant communities: models of organization and features of classification. Journal of General Biology, 68. 446–454 (in Russian).
Mosyakin, S.L., Fedoronchuk, M.M. (1999). Vascular Plants of Ukraine. A Nomenclatural Checklist. Kiev: M. G. Kholodny Institute of Botany, National Academy of Sciences of Ukraine.
NSW Government. (2014). Power Supply Upgrade Lee Street Substation, Central Review of Environmental Factors. Retrieved from https://www.transport.nsw.gov.au/sites/default/files/media/documents/2017/psu-lee-st-substation-ref-june-2014.pdf
Pignatti, E., Pignatti, S. (2014). Plant Life of the Dolomites: Vegetation Structure and Ecology. Retrieved from https://books.google.com.ua/books?id=47i8BAAAQBAJ&pg=PA741&lpg=PA741&dq=Polygono-Poetea+annuae+%D0%BA%D0%BB%D0%B0%D1%81%D1%81&source=bl&ots=RLkU56Os-H&sig=0xBHsC14ZUZShg_Jwe7YD0s5Pus&hl=ru&sa=X&ved=0ahUKEwjOtYrqw9_ZAhVCliwKHSZnDZQQ6AEIbjAQ#v=onepage&q=Polygono-Poetea%20annuae%20%D0%BA%D0%BB%D0%B0%D1%81%D1%81&f=false
Potapenko, O.V. (2016). Assessment of environmental conditions within the boundaries of electric substations methods phytoindication. Visnyk of Dnipropetrovsk Staye Agrаrian and Economic University, 4 (42). 133–139 (in Ukrainian).
Potapenko, O.V., Ganzha, D.S., Zhukov, O.V. (2016). Ecomorphic analys of vegetation of territories of electric substations. Questions of forest conduct of steppes and forest recultivation of earth. 138–147 (in Ukrainian).
Prokopenko, E.V. (2015). A case study of the Herb-Dwelling Spider Assemblages (Aranei) in a meadow under the power transmission lines in Ukrainian Carpathians. Vestnik zoologii, 49(1), 87–94.
Romaniuk, O.I., Shevchyk, L.Z., Oshchapovskyy, I.V., Zhak, T.V. (2016). Method of ecological assessment of oilcontaminated soils. Visnyk of Dnipropetrovsk Staye Agrаrian and Economic University, 26(2), 264–269 (in Ukrainian).
Shevchenko, S.Yu. (2009). Influence of electromagnetic fields of power equipment on the environment. Electronics and electro mechanics, 12, 153–156 (in Russian).
Smetana, M.G. (2002). Syntaxonomy of the steppe and ruderal vegetation Kryvorizhzhya. Kryvyi Rih, I.B.I. (in Ukrainian).
Smetana, M.G., Perepva, V.V. (2007). Biogeocenotic covered landscape and man-made systems of Kryvbas. Kryvyi Rih, Vydavynychyy dim. (in Ukrainian).
Smolnikova, V.V., Ledovskaya, N.V. (2011). The current state of technology bioremidiacii soils in terms of hydrocarbon pollution. North-Caucasian Federal University. 2011. Retrieved from http://www.sworld.com.ua/simpoz4/118.pdf. (in Russian).
Sokolov, S.G., Zhukov, A.V. (2014). Variation trends in the parasite assemblages of the Chinese sleeper Perccottus glenii (Actinopterygii: Odontobutidae) in its native habitat. Biology Bulletin, 41, 468. https://doi.org/10.1134/S1062359014050100
Solomakha, V.A. (2008). Syntaxonomy vegetation of Ukraine. Kiev, Fitosotsiotsentr (in Ukrainian).
Sosnina, E.N., Masleeva, O.V. (2011). Evaluation of noise exposure transformer substation 10/0,4 kV on the environment. Proceedings of the Nizhny Novgorod State Technical University R.E. Alexeev, 4, 237–241 (in Russian).
Tarchevskiy, V.V. (1970). On the selection of a new branch of botanical knowledge is industrial botany. Vegetation and industrial pollution. The Nature Conservancy in the Urals. Sverdlovsk (in Russian).
Travleev, A.P., Sytnik, K.M., Shelyag-Sosonko, Y.R., Baranowski, B.A., Tarasov, V.V., Voloshin N.A., … Nevmyvako, D.O. (2010). Red Book of Dnipropetrovsk region, Dnipropetrovsk. (in Ukrainian).
Usmanova, L.S., Golovanov, Ya.M., Abramova, L.M. (2013). Synantrope vegetation class Bidentetea Tripartitae in the central part of Bashkoryorstan republic. Izvestiya of the Samara Scientific Center of the Russian Academy of Sciences, 15, 3(5), 1470–1474 (in Russian).
Zhukov, A. V. (2015). Phytoindicator estamation of the multidimensional scaling of the plant community structure. Biological Bulletin of Bogdan Chmelnitskiy Melitopol State Pedagogical University, 1 (1), 69–93 (in Russian).
Zhukov, O.V., Gubanova, N.L. (2015). Dynamic stability of communities of amphibians in short-term-flooded forest ecosystems. Visnyk of Dnipropetrovsk University. Biology, ecology, 23(2), 161–171. doi:10.15421/011523
Zhukov, A.V., Zadorozhnaya, G.A. (2016). Spatio-temporal dynamics of the penetration resistance of recultivated soils formed after open cast mining. Visnyk of Dnipropetrovsk University. Biology, ecology. 24(2), 324–331 (in Russian). DOI: 10.15421/011642
Zhukov, O.V., Potapenko, O.V. (2017). Environmental impact assessment of distribution substations: the case of phytoindication. Ukrainian Journal of Ecology, 7(1), 5–21 (in Ukrainian).
Zhukov, O.V., Kunah, O. M., Dubinina, Y.Y. (2017). Sensitivity and resistance of communities: evaluation on the example of the influence of edaphic, vegetation and spatial factors on soil macrofauna. Biosystems Diversity, 25(4), 328–341. doi:10.15421/011750
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