DENDROFLORA OF THE POST-INDUSTRIAL AREAS OF BILA TSERKVA
DOI:
https://doi.org/10.30890/2567-5273.2025-39-04-063Keywords:
urbanized environment, ecological rehabilitation, biodiversity, greening, industrial zone, urbanized ecosystems.Abstract
The article presents the results of a two-year study of the adaptation of Cercis canadensis L. to the conditions of post-industrial zones in the city of Bila Tserkva. The biometric parameters of trees on different types of soils (sandy loam, loamy loam, cMetrics
References
Aleksieiev I.S. (2013). Povnyi atlas likarskykh roslyn [Complete atlas of medicinal plants]. Donetsk : Hloriia Treid, 398 р. [in Ukrainian].
Andriienko T.L. (2012). Ofitsiini pereliky rehionalno ridkisnykh roslyn administratyvnykh terytorii Ukrainy : dovidnykove vydannia. Perehrym M.M. [Official lists of regionally rare plants of the administrative territories of Ukraine: a reference book. Peregrym MM.] Kyiv : Alterpres. 148 р. [in Ukrainian].
Anishchenko V.A. (2018). Osoblyvosti adaptatsii derevnykh roslyn v umovakh urbanizovanoho seredovyshcha Ukrainy [Features of adaptation of woody plants in the urbanized environment of Ukraine]. Ekolohiia ta pryrodokorystuvannia [Ecology and natural resources management], no. 4, 45–53. [in Ukrainian].
Barabych A.I., Dubovyk O.M., Strelko D.V. (1973). Zhyrooliini roslyny Ukrainy [Fatty oil plants of Ukraine]. Kyiv : Naukova dumka [Kyiv : Naukova Dumka]. 132 p. [in Ukrainian].
Barbarych A.I. ta in. (1965). Vyznachnyk roslyn Ukrainy : uchbovyi posib. dlia stud. biol. spets. un-tiv. 2-e vyd., vypr., i dopov. [Key to plants of Ukraine: a textbook for students of biological specialties. 2nd ed.] Kyiv : Urozhai [Kyiv : Urozhay]. 878 p. [in Ukrainian].
Dubyna Yu.M. (2017). Dendroflora promyslovykh zon ta perspektyvy yii vykorystannia [Dendroflora of industrial zones and prospects for its use]. Botanichnyi zhurnal Ukrainy [Botanical Journal of Ukraine]. Vol. 74, no. 3, 37–44. [in Ukrainian].
Didukh Ya.P. (2000–2010). Ekoflora Ukrainy v 5 t. [Ecological flora of Ukraine in 5 tons]. Kyiv : Fitosotsiotsentr [Kyiv : Phytosociological Center]. Vol. 1. 284 р. [in Ukrainian].
Yelin Yu.Ia., Olianitska L.H., Ivchenko S.I. (1988). Shkilnyi vyznachnyk roslyn [School plant identifier]. Kyiv : Radianska shkola [Kyiv : Soviet school], 368 p. [in Ukrainian].
Miakushko, Zinchenko T.V. (1982). Vyznachnyk likarskykh roslyn Ukrainy [Identifier of medicinal plants of Ukraine]. Kyiv : Naukova dumka [Kyiv : Naukova Dumka], 124 p. [in Ukrainian].
Malenko Ya.V. (2001). Osoblyvosti taksonomichnoho ta ekolohichnoho skladu roslynnykh uhrupovan vidvaliv pivdenno-zakhidnoi zony Kryvbasu : [Peculiarities of taxonomic and ecological composition of plant communities of dumps in the southwestern zone of Kryvbas] D. in Biology: 03.00.16, Dnepropetrovsk, 357 р. [in Ukrainian].
Moroziuk S.S., Protopopova V.V. (2007). Travianysti roslyny Ukrainy: Atlas vyznachnyk [Herbaceous plants of Ukraine: Atlas of determinants]. Kyiv : Navchalna knyha–Bohdan [Kyiv : Uchytelna Knyha-Bohdan], 117 р. [in Ukrainian].
Protopopova V.V., Shevera M.V. (2019). Invaziini vydy u flori Ukrainy. I hrupa vysoko aktyvnykh vydiv [Invasive species in the flora of Ukraine. The first group of highly active species]. Geo & Bio. Vol. 17, 166–135. [in Ukrainian].
Tarasov V.V. (2005). Flora Dnipropetrovskoi ta Zaporizkoi oblastei. Sudynni roslyny. Bioloho-ekolohichna kharakterystyka vydiv : monohrafiia [Flora of Dnipropetrovska and Zaporizka regions. Vascular plants. Biological and ecological characteristics of species: monograph]. Dnipropetrovsk : Vyd-vo DNU [Dnipropetrovsk : DNU Publishing House]. 276 p. [in Ukrainian].
Shevchenko L.O. (2016). Vplyv promyslovoho zabrudnennia na rist i rozvytok derevnykh roslyn [The impact of industrial pollution on the growth and development of woody plants]. Naukovi pratsi ekolohichnykh doslidzhen [Scientific works of environmental research]. Vol. 2, 89–94. [in Ukrainian].
Aleha, A., Zahra, S.M., Qureshi, S., Shah, S., Marri, S.A. & Khan, M. (2024). Urban forests and their contribution to sustainable urban development in a global context: a case study of Multan, Pakistan. Front. Clim. 6, 1275102. https://doi.org/10.3389/fclim.2024.1275102.
Alpaidze, L., and Salukvadze, J. (2023). Green in the City: estimating the ecosystem services provided by urban and Peri-urban forests of Tbilisi municipality, Georgia. Forests, 14, 1–14. doi: 10.3390/f14010121.
Braun, S., & Kiefer, M. (2018). Sustainable management of industrial zones through afforestation. European Journal of Ecology. Vol. 34, Issue 4, pp. 87–99.
Cohen, D. A., Inagami, S., and Finch, B. (2008). The built environment and collective efficacy. Health Place, 14, 198–208. doi: 10.1016/j.healthplace.2007.06.001.
Malchykova D.S., Ponomareva A.A., Molikevych R.S. (2015). Environmental protection and spatial planning of econet strategies in regions with high level of anthropogenic transformation of geosystems. Scientific Bulletin of Kherson State University. Series: Geographical Sciences. Kherson. № 2. С. 92–107.
Mosyakin S.L., Fedoronchur M.M. (1999). Vascular plants of Ukraine. A nomenclatural checklist. Kiev, 346 p.
Nowak, D.J., Crane, D.E., & Stevens, J.C. (2020). Urban forestry and its role in environmental sustainability. Urban Ecosystems. Vol. 23, pp. 1103–1112.
Schweitzer, N., Braun, S., & Riederer, M. (2019). Phytoremediation potential of tree species in industrial zones. Environmental Management and Restoration. Vol. 25, Issue 2, pp. 156–170.
Downloads
Published
How to Cite
Issue
Section
License
Copyright (c) 2025 Authors
This work is licensed under a Creative Commons Attribution 4.0 International License.
