Стан iнвазiйностi Ulmus pumila L. в урбоекосистемi за клiматичних змiн

Юрій В. Лихолат; Ніна О. Хромих; Анна А. Алексєєва

doi:10.31812/eco-bulletin-krd.v4i0.2525

Authors

Юрій В. Лихолат Дніпровський національний університет імені Олеся Гончара https://orcid.org/0000-0003-3354-8251
Ніна О. Хромих Дніпровський національний університет імені Олеся Гончара https://orcid.org/0000-0003-3543-352X
Анна А. Алексєєва Дніпровський національний університет імені Олеся Гончара

DOI:

https://doi.org/10.31812/eco-bulletin-krd.v4i0.2525

Keywords:

Ulmus pumila, local population, invasiveness, climate change, modeling

Abstract

Climatic changes can affect heboundary distribution of natural and adventitious species’ plants. Fluctuations in air temperature, relative humidity and other factors can be a stimulus for the initiation and/or intensiﬁcation of
the invasive nature of some adventive plant species, especially in regions with a high degree of anthropogenic transformation. The article presents the results of current state analysis and the prediction of invasiveness of adventitious species of Ulmus pumila L. (Chinese elm) in Primary Steppe because of climatic changes. The local population of U. pumila, which consists of young trees of different age, was discovered during a routine survey on the territory of a large
industrial city Dnipro. The origin of seedy population has been determined, the number and denseness of undergrowth vegetation have been determined, the age and living conditions of the population have been studied. The status
of the invasiveness of identiﬁed local population U. pumila was substantiated. Mathematical models of the development of populations of Chinese elm’s seed origin in anthropogenically transformed ecotope (abandoned construction site)
of Dnipro have been developed. Prediction on the preservation of tendency of growth of Chinese elm’s invasiveness in conditions of further changes in climate in the region has been done.

Downloads

Download data is not yet available.

Metrics

Metrics Loading ...

Abstract views: 370 / PDF downloads: 220

Author Biographies

Юрій В. Лихолат, Дніпровський національний університет імені Олеся Гончара

завідувач кафедри фізіології та інтродукції рослин, доктор біологічних наук, професор

Ніна О. Хромих, Дніпровський національний університет імені Олеся Гончара

старший науковий співробітник НДІ біології, кандидат біологічних наук

Анна А. Алексєєва, Дніпровський національний університет імені Олеся Гончара

старший науковий співробітник НДІ біології, кандидат біологічних наук

References

Abramova, L.M. (2012). Expansion of invasive alien plant species in the republic of Bashkortostan, the Southern Urals: Analysis of causes and ecological consequences. Russian Journal of Ecology, 43(5), 352–357.

Bahuguna, R.N., & Jagadish, K. S.V. (2015). Temperature regulation of plant phenological development. Environmental and Experimental Botany, 111, 83–90.

Baranova, O.G., & Bralgina (Zyankina), Е.N. (2015). Invazionnye vidy rastenij v tryoh gorodah Udmurtskoj Respubliki [Invasive plant species in three cities of Udmurt Republic]. Russian Journal of Biological Invasions, 4, 14–20 (in Russian).

Baranovski, B., Khromykh, N., Karmyzova, L., Ivanko, I., & Lykholat, Y. (2016). Analysis of the alien ﬂora of Dnipropetrovsk

Province. Biological Bulletin of Bogdan Chmelnitskiy Melitopol State Pedagogical University, 6(3), 419–429.

Borisova, E.A. (2016). Woody plant invasions into the Upper Volga natural communities. Russian Journal of Biological Invasions, 1, 24–30.

Burda, R. I. (2014). Evropeyskaya politika botanicheskih sadov po invazivnyim chuzherodnyim vidam [European policy of botanical gardens on invasive alien species]. Industrial Botany, 14, 3–14 (in Russian).

Dumalisile, L., & Somers, M. J. (2017). The effects of an invasive alien plant (Chromolaena odorata) on large African mammals. Nature Conservation Research, 2(4), 102–108.

Fateryga, V.V., & Bagrikova, N.A. (2017). Invasion of Opuntia humifusa and O. phaeacantha (Cactaceae) into plant communities of the Karadag Nature Reserve. Nature Conservation Research, 2(4), 26–39.

Foxcroft, L.C., Pysek, P., Richardson, D.M., Genovesi, P., & MacFadyen, S. (2017). Plant invasion science in protected areas:

Progress and priorities. Biological Invasions, 19(5), 1353–1378.

Guzzetti, L., Galimberti, A., Bruni, I., Magoni, C., Ferri, M., Tassoni, A., Sangiovanni, E., Agli, M. D., & Labra, M. (2017). Bioprospecting on invasive plant species to prevent seed dispersal. Scientiﬁc Reports, 7, 13799, 1–11, DOI: 10.1038/s41598-017-14183-5.

Lindner, M., Fitzgerald, J.B., Zimmermann, N. E., Reyer, C., Delzon, S., van der Maaten, E., Schelhaas, M.-J., Lasch, P., Eggers, J., der Maaten-Theunissen, M., Suckow, F., Psomas, A., Poulter, B., & Hanewinkel, M. (2014). Climate change and European forests: What do we know, what are the uncertainties, and what are the implications for forest management? Journal of Environmental Management, 146, 69–83.

Lockwood, J. L., Hoopes, M. F., & Marchetti, M.P. (2007). Invasion Ecology. Blackwell Publishing, Malden (Massachusetts).

Lykholat, O., Ovchynnykova, Y. & Lykholat, T. (2018). Alimentary estrogenes affect on cholinergic regulation in different age rats. 2ND International Conference «Smart Bio» (03–05 May 2018). Kaunas, Lithuania, 300.

Lykholat, Yu.V., Khromykh, N., Ivanko, I., Kovalenko, I., Shupranova, L., & Kharytonov, M. (2016a). Metabolic responses of steppe forest trees to altitude-associated local environmental changes. Agriculture and Forestry, 62(2), 163–171.

Lykholat, Yu., Alekseyeva, A., Khromykh, N., Ivanko, I., Kharytonov, M., & Kovalenko, I. (2016b). Assessment and prediction of viability and metabolic activity of Tilia platyphyllos in arid steppe climate of Ukraine. Agriculture and Forestry, 62(3), 55–64.

Olson, L. J. (2006). The economics of terrestrial invasive species: A review of the literature. Agricultural and Resource Economics Review, 35(1), 178–194.

Pratt, C. F., Constantine, K. L., & Murphy, S.T. (2017). Economic impacts of invasive alien species on African smallholder livelihoods. Global Food Security, 14, 31–37.

Prieto, P., Penuelas, J., Niinemets, ¨ U., Ogaya, R., Schmidt, I.K., Beier, C., Tietema, A., Sowerby, A., Emmett, B.A., L´ang, E.K.,

Kr¨oel-Dulay, G., Lhotsky, B., Cesaraccio, C., Pellizzaro, G., De Dato, G., Sirca, C., & Estiarte M. (2009). Changes in the onset of spring growth in shrubland species in response to experimental warming along a north-south gradient tin Europe. Global Ecology and Biogeography, 18(4), 473–484.

Pysek, P., Jaros´ık, V., Hulme, P. E., Pergl, J., Hejda, M., Schaffner, U., & Vil`a, M. (2012). A global assessment of invasive plant impacts on resident species, communities and ecosystems: The interaction of impact measures, invading species’ traits and environment. Global Change Biology, 18(5), 1725–1737.

Richardson, D.M., & Rejm´anek, M. (2011). Trees and shrubs as invasive alien species — a global review. Diversity and Distributions, 17(5), 788–809.

Savosko, V.M., & Tovstolyak, N.V. (2017). Ecological conditions of garden and park territories of former iron mines (Kryvyi Rih Basin, Ukraine). Ukrainian Journal of Ecology, 7(4), 12–17 (in Ukrainian).

Savosko, V., Lykholat, Yu., Domshyna, K., & Lykholat, T. (2018). Ekolohichna ta heolohichna zumovlenist poshyrennia derev i

chaharnykiv na devastovanykh zemliakh Kryvorizhzhia [Ecological and geological determination of trees and shrubs’ dispersal on the devastated lands at Kryvorizhzhya]. Journal of Geology, Geography and Geoecology, 27 (1), 116–130. DOI: 10.15421/111837 (in Ukraine).

The International Plant Names Index and World Checklist of Selected Plant Families 2018. Published on the Internet at http://www.ipni.org and http://apps.kew.org/wcsp/.

Trentanovi, G., von der Lippe, M., Sitzia, T., Ziechmann, U., Kowarik, I., & Cierjacks, A. (2013). Biotic homogenization at the community scale: Disentangling the roles of urbanization and plant invasion. Diversity and Distributions, 19(7), 738–748.

Vil`a, M., Espinar, J. L., Hejda, M., Hulme, P. E., Jaros´ık, V., Maron, J. L., Pergl, J., Schaffner, U., Sun, Y., & Pysek, P. (2011). Ecological impacts of invasive alien plants: A meta-analysis of their effects on species, communities and ecosystems. Ecology Letters, 14(7), 702–708.

Wagner, V., Chytr´y, M., Jim´enez-Alfaro, B., Pergl, J., Hennekens, S., Biurrun, I., Knollov´a, I., Berg, C., Vassilev, K., Rodwell, J. S.,

Skvorc, Z., Jandt, U., Ewald, J., Jansen, F., Tsiripidis, I., Botta-Duk´at, Z., Casella, L., Attorre, F., Rasomavicius, V., Custerevska, R.,

Schamin´ee, J.H. J., Brunet, J., Lenoir, J., Svenning, J.-C., Kacki, Z., Petr´asov´a-Sib´ıkov´a, M., Silc, U., Garc´ıa-Mijangos, I., Campos, J.A.,

Fern´andez-Gonz´alez, F., Wohlgemuth, T., Onyshchenko, V., & Pysek, P. (2017). Alien plant invasions in European wood-lands. Diversity and Distributions, 23(9), 969–981.

Walther, G.-R., Roques, A., Hulme, P.E., Sykes, M.T., Pysek, P., Kuhn, I., Zobel, M., Bacher, S., Botta-Duk´at, Z., Bugmann, H., Cz´ucz, B., Dauber, J., Hickler, T., Jaros´ık, V., Kenis, M., Klotz, S., Minchin, D., Moora, M., Nentwig, W., Ott, J., Panov, V.E., Reineking, B., Robinet, C., Semenchenko, V., Solarz, W., Thuiller, W., Vil`a, M., Vohland, K., & Settele, J. (2009). Alien species in a warmer world: Risks and opportunities. Trends in Ecology and Evolution, 24(12), 686–693.

Zalapa, J.E., Brunet, J., & Guries, R.P. (2009). Patterns of hybridization and introgression between invasive Ulmus pumila

(Ulmaceae) and native U. rubra. American Journal of Botany, 96(6), 1116–1128. DOI: 10.3732/ajb. 0800334.

Zamin, N.T., Machado do Amaral, S., Filho, A. F., & Koehler, H. S. (2013). Effect of climate variables on monthly growth in modeling biological yield of Araucaria angustifolia and Pinus taeda in the juvenile phase. International Journal of Forestry Research, Article ID646759.