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Chapin, F.S., Shaver, G.R., Giblin, A.E., Nadelhoffer, K.J., Laundre, J.A. 1995. Responses of Arctic tundra to experimental and observed changes in climate. Ecology, 76, 694–711.ChapinF.S.ShaverG.R.GiblinA.E.NadelhofferK.J.LaundreJ.A.1995. Responses of Arctic tundra to experimental and observed changes in climate. , 76, 694–711.Search in Google Scholar
Cosmulescu, S., Calusaru, G.F. 2020. Influence of temperature on blackthorn (Prunus spinosa L.) phenophases in spring season. Journal of Agricultural Meteorology, 76 (1), 53–57. DOI: 10.2480/agrmet.D-19-00030CosmulescuS.CalusaruG.F.2020. Influence of temperature on blackthorn (Prunus spinosa L.) phenophases in spring season. , 76 (1), 53–57. DOI: 10.2480/agrmet.D-19-00030Open DOISearch in Google Scholar
Demchenko, O.O. 2013. Peculiarities of the development and structure of shoots of species of the genus Viburnum L. in the forest-steppe of Ukraine. Forestry and Horticulture, 3. Available at http://nbuv.gov.ua/UJRN/licgoc_2013_3_4DemchenkoO.O.2013. Peculiarities of the development and structure of shoots of species of the genus Viburnum L. in the forest-steppe of Ukraine. , 3. Available at http://nbuv.gov.ua/UJRN/licgoc_2013_3_4Search in Google Scholar
Elmendorf, S.C. et al. 2012. Global assessment of experimental climate warming on tundra vegetation: Heterogeneity over space and time. Ecology Letters, 15, 164–175.ElmendorfS.C.2012. Global assessment of experimental climate warming on tundra vegetation: Heterogeneity over space and time. , 15, 164–175.Search in Google Scholar
Faralli, M., Cristofolini, F., Cristofori, A., Ferretti, M., Gottardini, E. 2021. Environmental factors, leaf traits and ozone visible symptoms are interrelated in Viburnum lantana. In: FORECOMON 2021 – The 9th Forest Ecosystem Monitoring Conference: Forest Monitoring to assess Forest Functioning under Air Pollution and Climate Change, 7–9 June 2021, Birmensdorf, Switzerland. Swiss Federal Institute for Forest, Snow and Landscape Research WSL, Birmensdorf. Available at https://forecomon2021.thuenen.de/fileadmin/forecomon/FORECOMON2021_Proceedings.pdf, handle: http://hdl.handle.net/10449/68804FaralliM.CristofoliniF.CristoforiA.FerrettiM.GottardiniE.2021. Environmental factors, leaf traits and ozone visible symptoms are interrelated in Viburnum lantana. In: . Available at https://forecomon2021.thuenen.de/fileadmin/forecomon/FORECOMON2021_Proceedings.pdf, handle:http://hdl.handle.net/10449/68804Search in Google Scholar
Gyan, K.Y., Woodell, S.R.J. 1987. Flowering phenology, flower colour and mode of reproduction of Prunus spinosa L. (Blackthorn); Crataegus monogyna Jacq. (Hawthorn); Rosa canina L. (Dog Rose); and Rubus fruticosus L. (Bramble) in Oxfordshire, England. Functional Ecology, 1 (3), 261–268. DOI: 10.2307/2389429GyanK.Y.WoodellS.R.J.1987. Flowering phenology, flower colour and mode of reproduction of Prunus spinosa L. (Blackthorn); Crataegus monogyna Jacq. (Hawthorn); Rosa canina L. (Dog Rose); and Rubus fruticosus L. (Bramble) in Oxfordshire, England. , 1 (3), 261–268. DOI: 10.2307/2389429Open DOISearch in Google Scholar
Hayes, D.J., Peterson, B.J. 2020. Growth of Lonicera caerulea across fertility and moisture conditions: comparisons with Lonicera villosa and invasive congeners. Hortscience, 55 (2), 149–155. DOI: 10.21273/HORTSCI14318-19HayesD.J.PetersonB.J.2020. Growth of Lonicera caerulea across fertility and moisture conditions: comparisons with Lonicera villosa and invasive congeners. , 55 (2), 149–155. DOI: 10.21273/HORTSCI14318-19Open DOISearch in Google Scholar
Kolesnichenko, O.M. 2004. Seasonal biorhythms and winter hardiness of woody plants (in Ukrainian). Phitosociocentr, Kyiv.KolesnichenkoO.M.2004. . Phitosociocentr, Kyiv.Search in Google Scholar
Kalinichenko, O.A. 2000. Methodical instructions on studying discipline «Dendrology» (in Ukrainian). NVK NAU, Kyiv.KalinichenkoO.A.2000. . NVK NAU, Kyiv.Search in Google Scholar
Kollmann, J., Grubb, P.J. 2002. Viburnum lantana L. and Viburnum opulus L. (V. lobatum Lam., Opulus vulgaris Borkh.). Journal of Ecology, 90 (6), 1044–1070.KollmannJ.GrubbP.J.2002. Viburnum lantana L. and Viburnum opulus L. (V. lobatum Lam., Opulus vulgaris Borkh.). , 90 (6), 1044–1070.Search in Google Scholar
Litvinenko, S.G. 2004. Generative development of North American woody plants of the Rosaceae Juss. family in case of introduction into Northern Bukovina (in Ukrainian). Bulletin of UNFU, 36, 198–202.LitvinenkoS.G.2004. Generative development of North American woody plants of the Rosaceae Juss. family in case of introduction into Northern Bukovina (in Ukrainian). , 36, 198–202.Search in Google Scholar
Mammadov, T., Seyidli, A. 2021. Features of the Lonicera L. shoots growth under the absheron conditions. Bulletin of Science and Practice, 7 (7), 100–105.MammadovT.SeyidliA.2021. Features of the Loni-cera L. shoots growth under the absheron conditions. , 7 (7), 100–105.Search in Google Scholar
Mamushkina, T.S. 1985. Seasonal rhythm of development of introduced species Viburnum in Kyiv (in Russian). Bulletin of the Main Botanical Garden, 134, 73–76.MamushkinaT.S.1985. Seasonal rhythm of development of introduced species Viburnum in Kyiv (in Russian). , 134, 73–76.Search in Google Scholar
Molchanov, A.A., Smirnov, V.V. 1967. Technique of studying the growth of woody plants (in Russian). Nauka, Moskva.MolchanovA.A.SmirnovV.V.1967. . Nauka, Moskva.Search in Google Scholar
Myers-Smith, I.H. et al. 2011. Shrub expansion in tundra ecosystems: Dynamics, impacts and research priorities. Environmental Research Letters, 6 (4). DOI: 10.1088/1748-9326/6/4/045509Myers-SmithI.H.2011. Shrub expansion in tundra ecosystems: Dynamics, impacts and research priorities. , 6 (4). DOI: 10.1088/1748-9326/6/4/045509Open DOISearch in Google Scholar
Mysnyk, G.E. 1976.Timing and nature of flowering trees and shrubs (in Ukrainian). Naukova dumka, Kyiv.MysnykG.E.1976. . Naukova dumka, Kyiv.Search in Google Scholar
Novak, K., Schaub, M., Fuhrer, J., Skelly, J.M., Frey, B., Kräuchi, N. 2008. Ozone effects on visible foliar injury and growth of Fagus sylvatica and Viburnum lantana seedlings grown in monoculture or in mixture. Environmental and Experimental Botany, 62 (3), 212–220. DOI: 10.1016/j.envexpbot.2007.08.008NovakK.SchaubM.FuhrerJ.SkellyJ.M.FreyB.KräuchiN.2008. Ozone effects on visible foliar injury and growth of Fagus sylvatica and Viburnum lantana seedlings grown in monoculture or in mixture. , 62 (3), 212–220. DOI: 10.1016/j.envexpbot.2007.08.008Open DOISearch in Google Scholar
Palacios Rojas, N., Christou, P., Leech, M. 2002. Regeneration of Lonicera tatarica plants via adventitious organogenesis from cultured stem explants. Plant Cell Reports, 20, 808–813. DOI: 10.1007/s00299-001-0415-yPalacios RojasN.ChristouP.LeechM.2002. Regeneration of Lonicera tatarica plants via adventitious organogenesis from cultured stem explants. , 20, 808–813. DOI: 10.1007/s00299-001-0415-yOpen DOISearch in Google Scholar
Pawłowski, T.A. et al. 2020. Temperature regulation of primary and secondary seed dormancy in Rosa canina L.: findings from proteomic analysis. International Journal of Molecular Sciences, 21 (19), 7008. DOI: 10.3390/ijms21197008PawłowskiT.A.2020. Temperature regulation of primary and secondary seed dormancy in Rosa canina L.: findings from proteomic analysis. , 21 (19), 7008. DOI: 10.3390/ijms21197008Open DOISearch in Google Scholar
Peterson, B.J., Stack, L., Hayes, D.J. 2018. What do we know about the invasive potential of Lonicera caerulea cultivars in North America? Acta Horticulture, 1191, 129–138.PetersonB.J.StackL.HayesD.J.2018. What do we know about the invasive potential of Lonicera caerulea cultivars in North America?, 1191, 129–138.Search in Google Scholar
Ryabchuk, V.P., Zayachuk, V.Ya., Melnyk, U.A., Postolovskiy, D.A. 1996. Influence of morphometric parameters of the trunk and crown on the yield of wild fruit plants in Ukraine (in Ukrainian). Lesnoy zhurnal, 6, 16–22.RyabchukV.P.ZayachukV.Ya.MelnykU.A.PostolovskiyD.A.1996. Influence of morphometric parameters of the trunk and crown on the yield of wild fruit plants in Ukraine (in Ukrainian). , 6, 16–22.Search in Google Scholar
Ryabchuk, V.P., Zayachuk, V.Ya., Osadchuk, L.S. 2000. Workshop on non-timber products of the forest and subsidiary economy (in Ukrainian). UkrDLTU, Lviv.RyabchukV.P.ZayachukV.Ya.OsadchukL.S.2000. . UkrDLTU, Lviv.Search in Google Scholar
Santiago, A., Ferrandis, P., Herranz, J.M. 2015. Nondeep simple morphophysiological dormancy in seeds of Viburnum lantana (Caprifoliaceae), a new dormancy level in the genus Viburnum. Seed Science Research, 25 (1), 46–56. DOI: 10.1017/S0960258514000373SantiagoA.FerrandisP.HerranzJ.M.2015. Nondeep simple morphophysiological dormancy in seeds of Viburnum lantana (Caprifoliaceae), a new dormancy level in the genus Viburnum. , 25 (1), 46–56. DOI: 10.1017/S0960258514000373Open DOISearch in Google Scholar
Schieber, B. 2014. Effect of altitude on phenology of selected forest plant species in Slovakia (Western Carpathians). Folia Oecologica, 41, 75–81.SchieberB.2014. Effect of altitude on phenology of selected forest plant species in Slovakia (Western Carpathians). , 41, 75–81.Search in Google Scholar
Vander, M.K, Malanguis, J.M., Moreels, S., Turcsán, A., Van der Schueren, N., Notivol Paino, E. 2022. Direct phenological responses but later growth stimulation upon spring and summer/autumn warming of Prunus spinosa L. in a common garden environment. Forests, 13 (1), 23. DOI: 10.3390/f13010023VanderM.KMalanguisJ.M.MoreelsS.TurcsánA., Van der SchuerenN., Notivol PainoE.2022. Direct phenological responses but later growth stimulation upon spring and summer/autumn warming of Prunus spinosa L. in a common garden environment. , 13 (1), 23. DOI: 10.3390/f13010023Open DOISearch in Google Scholar
Wanjiku, J.G., Bohne, H. 2021. Seasonal growth, physiological and biochemical characterization of five Prunus spinosa ecotypes. International Journal of Plant and Soil Science, 33 (18), 59–72.WanjikuJ.G.BohneH.2021. Seasonal growth, physiological and biochemical characterization of five Prunus spinosa ecotypes. , 33 (18), 59–72.Search in Google Scholar
Yörük, I., Türker, M., Battal, P., Kazankaya, A., Tileklioğlu, B. 2005. Seasonal changes of endogenous plant hormones in Rosa canina. Acta Horticulturae, 690, 199–202. DOI: 10.17660/ActaHortic.2005.690.30 https://doi.org/10.17660/ActaHortic.2005.690.30YörükI.TürkerM.BattalP.KazankayaA.TileklioğluB.2005. Seasonal changes of endogenous plant hormones in Rosa canina. , 690, 199–202. DOI: 10.17660/ActaHortic.2005.690.30https://doi.org/10.17660/ActaHortic.2005.690.30Open DOISearch in Google Scholar
Zayachuk, V.Ya., Tcybulya, V.S. 2013. Species of the Kalina genus (Viburnum L.) in the greening of populated areas (in Ukrainian). Scientific Bulletin of UNFU, 23 (11), 30–38.ZayachukV.Ya.TcybulyaV.S.2013. Species of the Kalina genus (Viburnum L.) in the greening of populated areas (in Ukrainian). , 23 (11), 30–38.Search in Google Scholar