This work is licensed under the Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.
Abiev, S.A., Ajpeisova, S.S., Utarbaeva, N.A. 2017. Health state of the trees in Aktobe urban ecosystem (in Russian). Ukrainian Journal of Ecology, 7 (4), 51–55.AbievS.A.AjpeisovaS.S.UtarbaevaN.A.2017. Health state of the trees in Aktobe urban ecosystem (in Russian). Ukrainian Journal of Ecology, 7(4), 51–55.10.15421/2017_86Search in Google Scholar
Anonimous. 2016. Sanitary Forests Regulations in Ukraine. Resolution of the Cabinet of Ministers of Ukraine No 756 dated 26 October 2016 (in Ukrainian). Available at https://zakon.rada.gov.ua/laws/show/555-95-п (access on 15 February 2021).Anonimous. 2016. Sanitary Forests Regulations in Ukraine. Resolution of the Cabinet of Ministers of Ukraine No 756 dated 26 October 2016 (in Ukrainian). Available at https://zakon.rada.gov.ua/laws/show/555-95-п (access on 15 February 2021).Search in Google Scholar
Anuchin, P.P. 1982. Forest taxation (in Russian). Forest Industry, Moscow.AnuchinP.P.1982. Forest taxation (in Russian). Forest Industry, Moscow.Search in Google Scholar
Arefjiev, S.P. 2010. System analysis of the biota of wood-destroying fungi (in Russian). Nauka, Novosibirsk.ArefjievS.P.2010. System analysis of the biota of wood-destroying fungi (in Russian). Nauka, Novosibirsk.Search in Google Scholar
Baldrian, P., Lindahl, B.D. 2011. Decomposition in forest ecosystems: after decades of research still novel findings. Fungal Ecology, 4, 359–361.BaldrianP.LindahlB.D.2011. Decomposition in forest ecosystems: after decades of research still novel findings. Fungal Ecology, 4, 359–361.10.1016/j.funeco.2011.06.001Search in Google Scholar
Bernicchia, A. 2006. Polyporaceae s.l. 2006. Ed. Candusso, Italia.BernicchiaA.2006. Polyporaceae s.l. 2006. Ed. Candusso, Italia.Search in Google Scholar
Bernicchia, A., Gorjon, S.P. 2010. Corticiaceae s.l. Ed. Candusso, Italia.BernicchiaA.GorjonS.P.2010. Corticiaceae s.l.Ed. Candusso, Italia.Search in Google Scholar
Blinkova, O., Ivanenko, O. 2014. Co-adaptive tree vegetation system of wood-destroying (xylotrophic) fungi in artificial phytocoenoses, Ukraine. Forestry Journal. The Journal of National Forest Centre, 60 (3), 168–176.BlinkovaO.IvanenkoO.2014. Co-adaptive tree vegetation system of wood-destroying (xylotrophic) fungi in artificial phytocoenoses, Ukraine. Forestry Journal. The Journal of National Forest Centre, 60(3), 168–176.Search in Google Scholar
Blinkova, O., Ivanenko, O. 2016. Communities of tree vegetation and wood-destroying fungi in parks of the Kyiv city, Ukraine. Forestry Journal, 62 (2), 110–122.BlinkovaO.IvanenkoO.2016. Communities of tree vegetation and wood-destroying fungi in parks of the Kyiv city, Ukraine. Forestry Journal, 62(2), 110–122.10.1515/forj-2016-0012Search in Google Scholar
Blinkova, O., Ivanenko, O. 2018. Communities of woody vegetation and wood destroying fungi in natural and semi-natural forests of Kyiv city, Ukraine. Central European Forestry Journal, 64 (1), 55–66.BlinkovaO.IvanenkoO.2018. Communities of woody vegetation and wood destroying fungi in natural and semi-natural forests of Kyiv city, Ukraine. Central European Forestry Journal, 64(1), 55–66.10.1515/forj-2017-0030Search in Google Scholar
Boddy, L., Watkinson, S.C. 1995. Wood decomposition, higher fungi, and their role in nutrient redistribution. Canadian Journal of Botany, 73, 1377–1383.BoddyL.WatkinsonS.C.1995. Wood decomposition, higher fungi, and their role in nutrient redistribution. Canadian Journal of Botany, 73, 1377–1383.10.1139/b95-400Search in Google Scholar
Bondartseva, M.A. 2004. Adaptation to the substrate as one of the factors in the evolution of aphyllophoroid fungi. Fungi communities of forest ecosystems (in Russian). Petrozavodsk, Moscow.BondartsevaM.A.2004. Adaptation to the substrate as one of the factors in the evolution of aphyllophoroid fungi. Fungi communities of forest ecosystems (in Russian). Petrozavodsk, Moscow.Search in Google Scholar
Cabinet of Ministers of Ukraine. Resolution on approval of the Sanitary Rules in the forests of Ukraine from July 27, 1995 No. 555, Kyiv, version 24.12. 2019. (2019). Available at https://zakon.rada.gov.ua/laws/show/555-95-п (access on 12 March 2020)Cabinet of Ministers of Ukraine. Resolution on approval of the Sanitary Rules in the forests of Ukraine from July 27, 1995 No. 555, Kyiv, version 24.12. 2019. (2019). Available at https://zakon.rada.gov.ua/laws/show/555-95-п (access on 12 March 2020)Search in Google Scholar
Clemenson, H. 2009. Methods for working with macrofungi: Laboratory, cultivation and preparation of larger fungi for light microscopy. IHW Verlag, Eaching.ClemensonH.2009. Methods for working with macrofungi: Laboratory, cultivation and preparation of larger fungi for light microscopy. IHW Verlag, Eaching.Search in Google Scholar
Fukasawa, Y., Matsukura, K. 2021. Decay stages of wood and associated fungal communities characterise diversity–decomposition relationships. Scientific Reports, 11 (1), 1–12.FukasawaY.MatsukuraK.2021. Decay stages of wood and associated fungal communities characterise diversity–decomposition relationships. Scientific Reports, 11(1), 1–12.10.1038/s41598-021-88580-2807617433903719Search in Google Scholar
Goychuk, A.F., Gordienko, M.I., Gordienko, N.M. 2004. Pathology of oak stands (in Ukrainian). NNTs ІАЕ, Kyiv.GoychukA.F.GordienkoM.I.GordienkoN.M.2004. Pathology of oak stands (in Ukrainian). NNTs ІАЕ, Kyiv.Search in Google Scholar
Holec, J. 2008. Interesting macrofungi from the Eastern Carpathians, Ukraine and their value as bioindicators of primeval and near-natural forests. Mycologia Balcanica, 5, 55–67.HolecJ.2008. Interesting macrofungi from the Eastern Carpathians, Ukraine and their value as bioindicators of primeval and near-natural forests. Mycologia Balcanica, 5, 55–67.Search in Google Scholar
Huse, B., Szabo, S., Deak, B., Tothmeresz, B. 2016. Mapping an ecological network of green habitat patches and their role in maintaining urban biodiversity in and around Debrecen city (Eastern Hungary). Land Use Policy, 57, 574–581.HuseB.SzaboS.DeakB.TothmereszB.2016. Mapping an ecological network of green habitat patches and their role in maintaining urban biodiversity in and around Debrecen city (Eastern Hungary). Land Use Policy, 57, 574–581.10.1016/j.landusepol.2016.06.026Search in Google Scholar
Isikov, V.P., Konoplya, N.I. 2005. Dendromycology (in Russian). Alma-mater, Lugansk.IsikovV.P.KonoplyaN.I.2005. Dendromycology (in Russian). Alma-mater, Lugansk.Search in Google Scholar
Julich, W., Stalpers, J.A. 1980. The resupinate nonporoid Aphyllophorales of the temperate Northern Hemisphere. North-Holland Publishing Company, Amsterdam.JulichW.StalpersJ.A.1980. The resupinate nonporoid Aphyllophorales of the temperate Northern Hemisphere. North-Holland Publishing Company, Amsterdam.Search in Google Scholar
Korshikov, I.I. 1996. Adaptation of plants to conditions of technogenically polluted environment (in Russian). Naukova Dumka, Kyiv.KorshikovI.I.1996. Adaptation of plants to conditions of technogenically polluted environment (in Russian). Naukova Dumka, Kyiv.Search in Google Scholar
Kotiranta, H., Niemela, T. 1996. Endangered formulas in Finland. Second, revised edition (in Finnish). Suomen Ymparistokeskus Edita, Helsinki.KotirantaH.NiemelaT.1996. Endangered formulas in Finland. Second, revised edition (in Finnish). Suomen Ymparistokeskus Edita, Helsinki.Search in Google Scholar
Kucheryaviy, V.P. 2001. Urboecology (in Ukrainian). Svit, Lviv.KucheryaviyV.P.2001. Urboecology (in Ukrainian). Svit, Lviv.Search in Google Scholar
Kuffer, N. Gillet, F., Senn-Irlet, B., Aragno, M., Job, D. 2008. Ecological determinants of fungal diversity on dead wood in European forests. Fungal Diversity, 30, 83–95.KufferN.GilletF.Senn-IrletB.AragnoM.JobD.2008. Ecological determinants of fungal diversity on dead wood in European forests. Fungal Diversity, 30, 83–95.Search in Google Scholar
Kuffer, N., Gillet, F., Senn-Irlet, B., Arango, M., Job, D. 2008a. Wood-inhabiting aphyllophoroid basidiomycetes in Central European forests with different management intensities. Canadian Journal of Forest Research, 20, 73–85.KufferN.GilletF.Senn-IrletB.ArangoM.JobD.2008a. Wood-inhabiting aphyllophoroid basidiomycetes in Central European forests with different management intensities. Canadian Journal of Forest Research, 20, 73–85.Search in Google Scholar
Lavrov, V.V., Blinkova, O.I., Ivanenko, O.M., Polishchuk, Z.V. 2017. Changes of consortium links in aphilophoroid fungi and Quercus robur L. near recreational and health-improving forests of the green zone of the city Umani (in Ukrainian). Ecology and Noosphereology, 28 (3/4), 5–20.LavrovV.V.BlinkovaO.I.IvanenkoO.M.PolishchukZ.V.2017. Changes of consortium links in aphilophoroid fungi and Quercus robur L. near recreational and health-improving forests of the green zone of the city Umani (in Ukrainian). Ecology and Noosphereology, 28(3/4), 5–20.10.15421/031711Search in Google Scholar
Lavrov, V.V, Blinkova, O.I., Ivanenko, O.M., Polishchuk, Z.V. 2018. Methodology for assessing anthropogenic disturbance of forest ecosystems by structure, dispersion and activation of aphyllorophoroid fungi (in Ukranian). BNAU, Bila Tserkva.LavrovV.VBlinkovaO.I.IvanenkoO.M.PolishchukZ.V.2018. Methodology for assessing anthropogenic disturbance of forest ecosystems by structure, dispersion and activation of aphyllorophoroid fungi (in Ukranian). BNAU, Bila Tserkva.Search in Google Scholar
Livesley, S., Mcpherson, E., Calfapietra, C. 2016. The urban forest and ecosystem services: Impacts on urban water, heat, and pollution cycles at the tree, street, and city scale. Journal of Environmental Quality, 45, 119–124.LivesleyS.McphersonE.CalfapietraC.2016. The urban forest and ecosystem services: Impacts on urban water, heat, and pollution cycles at the tree, street, and city scale. Journal of Environmental Quality, 45, 119–124.10.2134/jeq2015.11.056726828167Search in Google Scholar
Magurran, A.E. 2004. Measuring biological diversity. Blackwell Publishing, Oxford.MagurranA.E.2004. Measuring biological diversity. Blackwell Publishing, Oxford.Search in Google Scholar
Maltseva, S.Y., Maltsev, Y.I., Solonenko, A.M., Bren, O.G. 2017. Anthropogenic transformation of the flora of urbanoecosystems of the Northern Pryazov territories. Biosystems Diversity, 25 (3), 222–227.MaltsevaS.Y.MaltsevY.I.SolonenkoA.M.BrenO.G.2017. Anthropogenic transformation of the flora of urbanoecosystems of the Northern Pryazov territories. Biosystems Diversity, 25(3), 222–227.10.15421/011734Search in Google Scholar
Medvedev, A.G. 2006. Tinder fungi as indicators of changes in forest ecosystems under the influence of anthropogenic loading (in Russian). TIEP, Tver.MedvedevA.G.2006. Tinder fungi as indicators of changes in forest ecosystems under the influence of anthropogenic loading (in Russian). TIEP, Tver.Search in Google Scholar
Migunova, E.S. 2014. Types of forest and types of nature (in Russian). Palmarium Academic Publishing, Saarbucken.MigunovaE.S.2014. Types of forest and types of nature (in Russian). Palmarium Academic Publishing, Saarbucken.Search in Google Scholar
Mukhin, V.A., Voronin, P.YU. 2007. Mycogenic decomposition of wood and carbon emissions in forest ecosystems (in Russian). Ecology, 1, 24–29.MukhinV.A.VoroninP.YU.2007. Mycogenic decomposition of wood and carbon emissions in forest ecosystems (in Russian). Ecology, 1, 24–29.Search in Google Scholar
Pogrebnyak, P.S. 1955. Basics of forest typology (in Russian). Academy of Sciences of the Ukrainian SSR Publ., Kyiv.PogrebnyakP.S.1955. Basics of forest typology (in Russian). Academy of Sciences of the Ukrainian SSR Publ., Kyiv.Search in Google Scholar
Polyakov, A.F., Plugatar, Yu.V. 2009. Forest formations of Crimea and their ecological role (in Russian). Nove Slovo, Kharkov.PolyakovA.F.PlugatarYu.V.2009. Forest formations of Crimea and their ecological role (in Russian). Nove Slovo, Kharkov.Search in Google Scholar
Potter, K.M., Woodcall, C.W. 2012. Trends over time in tree and seedling phylogenetic diversity indicate regional differences in forest biodiversity change. Ecological Applications, 22 (2), 517–531.PotterK.M.WoodcallC.W.2012. Trends over time in tree and seedling phylogenetic diversity indicate regional differences in forest biodiversity change. Ecological Applications, 22(2), 517–531.10.1890/10-2137.122611851Search in Google Scholar
Prevosto, B. et al. 2011. Impacts of land abandonment on vegetation: Successional pathways in European habitats. Folia Geobotanica, 46, 303–325.PrevostoB.2011. Impacts of land abandonment on vegetation: Successional pathways in European habitats.Folia Geobotanica, 46, 303–325.10.1007/s12224-010-9096-zSearch in Google Scholar
Rat, M.M. et al. 2017. Urban flora in the Southeast Europe and its correlation with urbanization. Urban Ecosystems, 20 (4), 811–822.RatM.M.2017. Urban flora in the Southeast Europe and its correlation with urbanization. Urban Ecosystems, 20(4), 811–822.10.1007/s11252-017-0645-6Search in Google Scholar
Safonov, M.A. 2003 The structure of communities of wood-destroying fungi (in Russian). Ur-O RAN, Ekaterinburg.SafonovM.A.2003The structure of communities of wood-destroying fungi (in Russian). Ur-O RAN, Ekaterinburg.Search in Google Scholar
Schmidt, O. 2006. Wood and tree fungi. Biology, damage, protection, and use. Springer, Heidelberg.SchmidtO.2006. Wood and tree fungi. Biology, damage, protection, and use. Springer, Heidelberg.Search in Google Scholar
Simmons, B.L., Hallett, R.A., Sonti Falxa, N., Auyeung, N., Lu, J.W.T. 2015. Long-term outcomes of forest restoration in an urban park. Restoration Ecology, 24 (1), 109–118.SimmonsB.L.HallettR.A.Sonti FalxaN.AuyeungN.LuJ.W.T.2015. Long-term outcomes of forest restoration in an urban park. Restoration Ecology, 24(1), 109–118.10.1111/rec.12281Search in Google Scholar
Storozhenko, V.G. 2007. Sustainable forest communities. Theory and experiment (in Russian). Grif and K. Russian, Tula.StorozhenkoV.G.2007. Sustainable forest communities. Theory and experiment (in Russian). Grif and K. Russian, Tula.Search in Google Scholar
Vorobyov, D.V. 1967. Methodology for forest typological research (in Russian). Urozhaj, Kyiv.VorobyovD.V.1967. Methodology for forest typological research (in Russian). Urozhaj, Kyiv.Search in Google Scholar
Voron, V.P., Lavrov, V.V., Bondaruk, M.A., Stelmakhova, T.F. 2008. Diagnostics and zoning of violation to the forests of Ukraine caused by aerotechnological pollution (methodical recommendations) (in Ukranian). Publishing House of UkrNDILGA, Kharkiv.VoronV.P.LavrovV.V.BondarukM.A.StelmakhovaT.F.2008. Diagnostics and zoning of violation to the forests of Ukraine caused by aerotechnological pollution (methodical recommendations) (in Ukranian). Publishing House of UkrNDILGA, Kharkiv.Search in Google Scholar
Wang, Y., Wu, Z., Wang, X. 2009. Urban forest landscape patterns in Ma’anshan City, China. International Journal of Sustainable Development and World Ecology, 16 (5), 346–355.WangY.WuZ.WangX.2009. Urban forest landscape patterns in Ma’anshan City, China. International Journal of Sustainable Development and World Ecology, 16(5), 346–355.10.1080/13504500903211830Search in Google Scholar
Williams, N.S.G., Hans, A.K., Vesk, P.A. 2015. Urbanisation, plant traits and the composition of urban floras. Perspectives in Plant Ecology, Evolution and Systematics, 17 (1), 78–86.WilliamsN.S.G.HansA.K.VeskP.A.2015. Urbanisation, plant traits and the composition of urban floras. Perspectives in Plant Ecology, Evolution and Systematics, 17(1), 78–86.10.1016/j.ppees.2014.10.002Search in Google Scholar
Yurchenko, E.O. 2010. The genus Peniophora (Basidiomycota) of Eastern Europe. Morphology, taxonomy, ecology, distribution. Belorusskaya Nauka, Minsk.YurchenkoE.O.2010. The genus Peniophora (Basidiomycota) of Eastern Europe. Morphology, taxonomy, ecology, distribution. Belorusskaya Nauka, Minsk.Search in Google Scholar
