[Abdussalam, A.K., Ravindran, C.P., Ratheesh Chandra, P., Azeez, K. & Nabeesa S. (2015). Physiological effects of heavy metal toxicity and associated histological changes in Boerhavia diffusa L. Journal of Global Biosciences, 4(1), 1221–1234. http://mutagens.co.in]Search in Google Scholar
[Albrechtova, J. (2003). Plant Anatomy in Environmental Studies. Prague: Charles University in Prague. http://kfrserver.natur.cuni.cz/lide/albrecht/pdf/2003_Albrechtova_Habilitation_Plant_Anatomy_Environment.pdf]Search in Google Scholar
[Arsenyeva, Т.V. & Chavchavadze E.S. (2001). Ecological and anatomical aspects of Pinaceae wood variability in the Industrial Areas of European North (in Russian). St. Petrsburg: Nauka Publ.]Search in Google Scholar
[Baciak, M., Warmiński, K. & Bęś A. (2015). The effect of selected gaseous air pollutants on woody plants. Forest Research Papers, 76(4), 401–409. DOI: 10.1515/frp-2015-0039.10.1515/frp-2015-0039]Open DOISearch in Google Scholar
[Beck, C.B. (2005). An introduction to plant structure and development. Plant anatomy for the twenty first century. Cambridge: Cambridge University Press.10.1017/CBO9781139165365]Search in Google Scholar
[Bessonova, V.P. & Kryvoruchko A.P. (2017). Changes in the structural indices of annual shoots of Quercus rubra under anthropogenic impact (in Ukrainian). Biosystems Diversity, 25(3), 191–196. DOI: 10.15421/011729.10.15421/011729]Search in Google Scholar
[Brajon, O.V. & Chikalenko, V.G. (1992). Plant anatomy (in Ukrainian). Kyiv: Vyscha Shkola Publ.]Search in Google Scholar
[Chernikova, О.V. (2009). Ecology-biological indicators of Spiraea L. genera plant resistance in the technogenic conditions of Steppe Pridneprov’e (within Dnipropetrovsk) (in Ukrainian). Dissertation for degree of Candidate of Biological Sciences in Ecology, Dnipropetrovsk.]Search in Google Scholar
[General characteristics of forests of Ukraine (2016) // http://dklg.kmu.gov.ua/forest/control/uk/publish/article?art_id=62921&cat_id=32867]Search in Google Scholar
[Grimal’skij, V.I. (1951). Black locust in the steppe afforestation of the Ukrainian SSR (in Ukrainian). Dissertation for degree of Candidate of Biological Sciences in Ecology, Kyiv.]Search in Google Scholar
[Griztay, Z.V. & Shupranova L.V. (2015). Impact of emissions of Pridneprovsk TPP in Dnipropetrovsk on the anatomical indices of stem of two-year whip of the Tilia genus representatives (in Ukrainian). Biosystems Diversity, 23(2), 230–235. DOI: 10.15421/011534.10.15421/011534]Search in Google Scholar
[Grytsay, Z. & Miasoid G. (2016). Assessment of floral organs state of Tilia genus representatives under environment pollution conditions caused by emissions of Prydniprovska Thermal Power Plant, Dnipropetrovsk city. International Letters of Natural Sciences, 55, 52–56. DOI: 10.18052/www.scipress.com/ILNS.55.52.10.18052/www.scipress.com/ILNS.55.52]Search in Google Scholar
[Hnativ, P.S. (2014). Functional diagnostic of dendroecology: Scientific monograph (in Ukrainian). L’viv: Prospect ‘Kamula’.]Search in Google Scholar
[Hryshko, V.N. (2002). Growth of woody plants in conditions of man-made pollution (in Ukrainian). Ukr. Bot. Zh., 59(1), 79–89.]Search in Google Scholar
[https://www.google.com.ua/maps/@48.7208385,34.6968211,10z?hl=en]Search in Google Scholar
[Ivanchenko, О.E. & Bessonova V.P. (2016). Indication of the condition of woody plants of parks in Dnipropetrovsk on morpho-physiological indexes (in Ukrainian). Biosystems Diversity, 24(1), 109–118. DOI: 10.15421/011613.10.15421/011613]Search in Google Scholar
[Iusypiva, T.I. & Minejeva K.J. (2010). Biometric characteristics of a one-year shoots of decorative shrubs in the conditions of man-made territories (in Ukrainian). In News about modern science – 2010. 6th International scientific and practical conference, 17–25 May 2010 (pp. 57–61). Sofia: Publishing House ‘Education and Science’.]Search in Google Scholar
[Iusypiva, T.I. & Zamorena V.S. (2011). Changes of biometric parameters of Вetula pendula Roth. one-year sprouts under technogenesis conditions (in Russian). In Future questions from the world of science – 2011. 7th International scientific and practical conference, 17–25 December 2011 (pp. 23–25). Sofia: Publishing House “Education and Science”.]Search in Google Scholar
[Iusypiva, T. & Miasoid G. (2017). The Impact of Industrial Pollution on the Stem Anatomical Characteristics of Woody Plant Undergrowth in the City of Dnipro, Ukraine. International Letters of Natural Sciences, 65, 1–9. DOI: 10.18052/www.scipress.com/ILNS.65.1.10.18052/www.scipress.com/ILNS.65.1]Search in Google Scholar
[Kaakinen, S., Kostiainen, K., Ek, F., Saranpaa, P., Kubiske, M., Sober, J., Karnosky, D.F. & Vapaavuori E. (2004). Stem wood properties of Populus tremuloides, Betula papyrifera and Acer saccharum saplings after 3 years of treatments to elevated carbon dioxide and ozone. Global Change Biology, 10, 1513–1525. DOI: 10.1111/j.1365-2486.2004.00814.x.10.1111/j.1365-2486.2004.00814.x]Search in Google Scholar
[Kolmogorova, E.Y. (2013). The morphometric characteristic of the wood plants growing in the conditions of impact of vehicle emissions (in Russian). Zhivye i Biokosnye Sistemy, 4. http://www.jbks.ru/archive/issue-4/article-6]Search in Google Scholar
[Kozak, O. & Didukh Y. (2014). Assessment of mountain ecosystems changes under anthropogenic pressure in Latorica river basin (Transcarpathian region, Ukraine). Ekológia (Bratislava), 33(4), 365–379. DOI: 10.2478/eko-2014-0033.10.2478/eko-2014-0033]Open DOISearch in Google Scholar
[Korshykov, I.I. (1996). Adaptation of plants to the conditions of technologically polluted environment (in Russian). Kyiv: Naukova dumka Publ.]Search in Google Scholar
[Krupenko, L.S. & Kapelush N.V. (2014). Condition of assimilation system Tilia cordata under aerogenic pollution in Zaporozhye city. Problems of Bioindicators and Ecology, 19(2), 84–90.]Search in Google Scholar
[Kucheriavyj, V.P. (2005). Planting of settlements: a textbook (in Ukrainian). L’viv: Svit Publ.]Search in Google Scholar
[Kurteva, M. & Stambolieva K. (2007). Acer pseudoplatanus L., Acer platanoides L. and Betula pendula (Roth.) as bioindicators of urban pollution in Sofia. Silva Balcanica, 8(1), 32–46.]Search in Google Scholar
[Leppіk, M.V. & Bocharov O.M. (2007). Influence of motor vehicle emissions on the anatomical structure of one-year shoots of Catalpa bignonioides Walt (in Ukrainian). In Modern issues of plant physiology and plant introduction: All-Ukrainian scientific and practical conference, 22–23 May 2007 (p. 80). D.: DNU Press.]Search in Google Scholar
[Levon, F.M. (2003). Creation of green plantings in conditions of the urbanized environment: the requirements limiting factors, ways of optimization. Scientific Bulletin of UNFU, 13(5), 157–162.]Search in Google Scholar
[Levon, F.M. (2008). Green areas in anthropogenically transformed medium: Monograph (in Ukrainian). Kyiv: NNC IAE.]Search in Google Scholar
[Mahmooduzzafar, S.S., Hegazy, I.M. A. & Iqbal M. (2010). Anatomical changes in the wood of Syzygium cumini exposed to coal-smoke pollution. Journal of Food, Agriculture & Environment, 8, 959−964. DOI: 10.1234/4.2010.3475.]Search in Google Scholar
[Marakaev, O.A., Smirnova, N.S. & Zagoskina N.V. (2006). Technogenic stress and its effect on deciduous trees (an example from parks in Yaroslavl) (in Russian). Russian Journal of Ecology, 37(6), 373–377.10.1134/S1067413606060026]Search in Google Scholar
[Masternak, K., Niebrzydowska, B. & Głebovska K. (2015). Genetic variation of silver fir (Abies alba Mill.) preserved in the Katowice Forest District. Forest Research Papers, 76(4), 315–321. DOI: 10.1515/frp-2015-0030.10.1515/frp-2015-0030]Open DOISearch in Google Scholar
[Matkovskaya, S.I. & Klymchyk O.N. (2016). Environmental role of representatives of the genus Picea in the city green plants of Zhytomyr (in Ukrainian). Scientific Bulletin of UNFU, 26(8), 210–215. DOI:10.15421/40260833.10.15421/40260833]Search in Google Scholar
[Nikolić, N., Zorić, L., Cvetković, I., Pajević, S., Borišev, M., Orlović, S. & Pilipović A. (2017). Assessment of cadmium tolerance and phytoextraction ability in young Populus deltoides L. and Populus × euramericana plants through morpho-anatomical and physiological responses to growth in cadmium enriched soil. iForest – Biogeosciences and Forestry, 10, 635−644. DOI: 10.3832/ifor2165-010.10.3832/ifor2165-010]Search in Google Scholar
[Nuzhyna, N.V., Tkachuk, O.O. & Zuieva O.A. (2014). Adaptation peculiarities of wild roses to unfavorable environmental conditions (in Ukrainian). The Journal of V.N.Karazin Kharkiv National University. Series: Biology, 20(1100), 353–357.]Search in Google Scholar
[Parpan, V.I. & Mylenka M.M. (2009). Morphophysiological characteristics of Populus pyramidalis Roz. under the conditions of urbanization and anthropogenic impact of the environment (in Ukrainian). Ecology and Noospherology, 20(3–4), 84–90.]Search in Google Scholar
[Pavlyukova, N.F. & Legostaуeva T.V. (2016). Changes of anatomical and morphological indexes of Acer L. kin plants in the conditions of Dnipro city (in Ukrainian). Problems of Steppe Forest Science and Forest Land Reclamation, 45, 113–118.10.15421/411618]Search in Google Scholar
[Peremetchik, М.М. & Polischuk S.Z. (2011). Building the map charts of atmospheric contamination to assist the system of ecological monitoring in the city of Dnipropetrovsk (in Ukrainian). http://www.eco.com.ua]Search in Google Scholar
[Ponomaryova, O.A. & Bessonova V.P. (2009). The influence of growth T. cordata and T. platyphyllos in hole into the asphalt of roadside zone of size the morphometric indicators of assimilation system (in Ukrainian). Problems of Bioindicators and Ecology, 14(2), 55–62.]Search in Google Scholar
[Savosko, V.M. & Katolіchenko O.M. (2014). Fluctuating asymmetry of leave’s silver birch in conditions of air pollution at Kryvorizhzhya. Problems of Bioindications and Ecology, 19(2), 90–102.]Search in Google Scholar
[Shcherbinina, А.А. (2004). Display of abnormal growth of woody plants in the affected area of main highways. Dissertation for degree of Candidate of Biological Sciences in Ecology, Moscow.]Search in Google Scholar
[Strіletz, R.O. et al. (2013). Ecological passport of Dnipropetrovsk region (2013) (in Ukrainian).http://www.menr.gov.ua]Search in Google Scholar
[Strojnaja, S.А. (1991). Protective afforestation on the irrigated lands of Ukraine and the North Caucasus (in Russian). Kyiv: Naukova dumka Publ.]Search in Google Scholar
[The City of Dnipropetrovsk (2015). Amending the general plan of the city development (in Ukrainian). Kyiv.]Search in Google Scholar
[Voloshyn, P.L. (1994). Black locust in cultures on the Right Bank area of the Central Steppe (in Ukrainian). Forestry Journal, 5, 21.]Search in Google Scholar
[Voron, V.P. (2011). Scientific base of diagnostics of anthropogenic damage of forest ecosystems (in Ukrainian). Forestry Journal, 1, 24–28.]Search in Google Scholar
[Whitmore, M.E. & Freer–Smith P.H. (1982). Growth effects of SO2 and/or NO2 on woody plants and grasser during spring and summer. Nature, 300(5887), 55–57. DOI: 10.1038/300055a0.10.1038/300055a0]Open DOISearch in Google Scholar
[Yakovleva-Nosar, S.O. (2017). Variability of morphometric parameters of vegetative and generative traits of Robinia pseudoacacia L. in areas with different levels of air pollution at Zaporizhzhya. Topical Issues in Biology, Ecology and Chemistry. 13(1), 16–26. https://sites.znu.edu.ua/bio-eco-chem-sci/issues/index.php?action=url/view&url_id=6749]Search in Google Scholar
[Yemets, N.A. & Serdyuk Ya.Ya. (2003). Assessment of the Dnepropetrovsk city territory regarding the level of air basin contamination (in Ukrainian). Ecology and Natural Resource Management, 6, 200–207.]Search in Google Scholar
[Yusypiva, T. & Rudenkо E. (2009). Anatomy-morphological changes of shoots of Ulmus pumilla L. in conditions of industrial emissions of SO2 and NO2 (in Ukrainian). Bulletin Taras Shevchenko National University of Kyiv. Introduction and Conservation of Plant Diversity, 27, 164–166.]Search in Google Scholar
[Zaitseva, І.О. & Dolgova L.G. (2010). Physiological-biochemical basis of woody plants introduction in the steppe Prydniprovya. Dniproperovsk: Dnipropetrovsk National University Press.]Search in Google Scholar
[Zhang, X., Zhou, P., Zhang, W., Zhang, W. & Wang Y. (2013). Selection of landscape tree species of tolerant to sulfur dioxide pollution in subtropical China. Open Journal of Forestry, 3, 104−108. DOI: 10.4236/ojf.2013.34017.10.4236/ojf.2013.34017]Open DOISearch in Google Scholar
[Zlobin, Yu.A., Sklyar, V.G., Bondareva, L.M. & Kyrylchuk K.S. (2009). The morphometric concept in modern botany. Chornomorski Botanical Journal, 5(1), 5–22.10.14255/2308-9628/09.51/1]Search in Google Scholar
[Zverev, V. (2008). Impact of pollution and annual climatic fluctuations on growth of mountain birch. In Air pollution and climate change at contrasting altitude and latitude. 23rd IUFRO Conference for Specialists in Air Pollution and Climate Change Effects on Forest Ecosystems, 7-12 Sept 2008 (pp. 94). Murten.]Search in Google Scholar
[Zverkovskyy, V.M., Sytnyk, S.A., Lovynska, V.M., Kharytonov, M.M., Lakyda, I.P., Mykolenko, S.Yu., Pardini, G., Margui, E. & Gispert M. (2018). Remediation potential of forest forming tree species within northern steppe reclamation stands. Ekológia (Bratislava), 37(1), 69–81. DOI: 10.2478/eko-2018-0007.10.2478/eko-2018-0007]Open DOISearch in Google Scholar