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Ecological stability and plasticity of wheat cultivation in the conditions of the Forest-steppe zone of Ukraine

The peculiarities of yield stability and plasticity formation in wheat cultivation across different regions of the Forest-Steppe of Ukraine. The aim of the research was to determine the influence of ecological conditions of the wheat-growing regions on grain productivity. During 2010–2024 research were conducted in the main regions belonging to Ukraine’s ForestSteppe zone: Vinnytsia, Kyiv, Poltava, Sumy, Ternopil, Kharkiv, Khmelnytskyi, Cherkasy, and Chernivtsi regions. It was found that in Vinnytsia region wheat growing conditions gradually transformed from extensive to intensive, while high plasticity of yields facilitates the realization of biological potential of plants in years when weather conditions are favourable. In other words, yields in the region conditions alternates from high productivity to crop failure, which is associated with the sharp continentality of the climate in recent years. Similar patterns were identified for Kyiv region, which is characterized by a consistently high level of yield plasticity. The central and eastern regions, such as Poltava and Kharkiv regions, show a steady transition from better to poorer growing conditions, which leads to consistently low wheat yields. In contrast, in Sumy region environmental limiting factors restrict crop productivity. Meanwhile, favourable conditions for realizing the biological potential of wheat have been established over the past five years in Ternopil, Khmelnytskyi, and Cherkasy regions. This means it is more advisable to allocate major wheat cultivation areas specifically in these Forest-Steppe regions of Ukraine. Key words: wheat, yield, intensive conditions, environmental limiting factors.

Kononiuk N. https://orcid.org/0000-0002-5313-4999


O. Prisyazhnyuk


Reference: 
1. Döring, T.F., Knapp, S., Cohen, J.E. (2015). Taylor’s power law and the stability of crop yields. Field Crops Res. no.183, pp. 294–302. DOI: 10.1016/j.fcr.2015.08.005
2. Nielsen, D.C., Lyon, D.J., Miceli-Garcia, J.J. (2017). Replacing fallow with forage triticale in a dryland wheat-corn-fallow rotation may increase profitability. Field Crops Res. no. 203, pp. 227–237. DOI: 10.1016/j.fcr.2016.12.005
3. Nielsen, D.C., Vigil, M.F. (2014). Searching for synergism in dryland cropping systems in the central Great Plains. Field Crops Res. no. 158, pp. 34–42. DOI: 10.1016/j.fcr.2013.12.020
4. Nielsen, D.C., Vigil, M.F., Hansen, N.C. (2016). Evaluating potential dryland cropping systems adapted to climate change in the central Great Plains. Agron. J. no. 108, pp. 2391–2405. DOI: 10.2134/agronj2016.07.0406
5. Antonenko, V.S. (2002). Dynamichne modeliuvannia rostu, rozvytku i formuvannia produktyvnosti ozymoi pshenytsi [Dynamic modeling of growth, development, and yield formation of winter wheat]. Kyiv, ArtEk, 64 p.
6. Polovyi, A.M. (2013). Modeliuvannia hidrometeorolohichnoho rezhymu ta produktyvnosti ahroekosystem [Modeling of hydrometeorological regime and productivity of agroecosystems]. Odesa, Ekologia, 433 p.
7. Adamenko, T. (2019). Zmina klimatu ta silske hospodarstvo v Ukraini: shcho varto znaty fermeram? [Climate change and agriculture in Ukraine: What farmers need to know]. Kyiv, German-Ukrainian agropolitical dialogue, 36 p.
8. Petrychenko, V.F., Baliuk, S.A., Nosko, B.S. (2013). Pidvyshchennia stiikosti zemlerobstva v umovakh hlobalnoho poteplinnia [Increasing the sustainability of farming under global warming conditions]. Visnyk ahrarnoi nauky [Bulletin of Agricultural Science]. no. 9, pp. 5–12.
9. Polovyi, V.M., Lukashchuk, L.Ya., Luk’ianik, M.M. (2019). Vplyv zmin klimatu na rozvytok roslynnytstva v umovakh zakhidnoho rehionu [Impact of climate change on the development of crop production in the western region]. Visnyk ahrarnoi nauky [Bulletin of Agricultural Science]. no. 9(798), pp. 29–34.
10. Babichenko, V.M., Nikolaieva, N.V., Tushyna, L.M. (2007). Zminy temperatury povitria na terytorii Ukrainy naprykintsi XX ta na pochatku XXI stolittia [Changes in air temperature in Ukraine at the end of the 20th and the beginning of the 21st centuries]. Ukrainskyi heohrafichnyi zhurnal [Ukrainian Geographical Journal]. no. 4, pp. 3–12.
11. Tarariko, O.H., Ilienko, T.V., Kuchma, T.L. (2016). Vplyv zmin klimatu na produktyvnist ta valovi zbori zernovykh kultur: analiz ta prohnoz [Impact of climate change on the productivity and gross harvests of cereal crops: Analysis and forecast]. Ukrainskyi heohrafichnyi zhurnal [Ukrainian Geographical Journal]. no. 1, pp. 14–22.
12. Macholdt, J., Honermeier, B. (2016). Impact of climate change on cultivar choice. Adaptation strategies of farmers and advisors in German cereal production. Agronomy. no. 6, 40 p. DOI: 10.3390/ agronomy6030040
13. Wiebe, K., Lotze-Campen, H., Sands, R., Tabeau, A., van der Mensbrugghe, D., Biewald, A., Bodirsky, B., Islam, S., Kavallari, A., Mason-D’Croz, D. (2015). Climate change impacts on agriculture in 2050 under a range of plausible socioeconomic and emission scenarios. Environ. Res. Lett. no. 10, 85010. DOI: 10.1088/1748-9326/10/8/085010
14. Crane, T.A., Roncoli, C., Hoogenboom, G. (2011). Adaptation to climate change and climate variability: The importance of understanding agriculture as performance. Wageningen J. Life Sci. no. 57, pp. 179–185. DOI: 10.1016/j.njas.2010.11.002
15. Prysiazhniuk, O., Kononiuk, N., Cherniak, M., Musich, V., Kachura, Y., Prytula, O., Voievoda, L., Honcharuk, O. (2025). Agroecological aspects of zonal application of fertilizers and pesticides in wheat cultivation in the Forest-Steppe of Ukraine. Ecological Engineering & Environmental Technology. no. 26(5), pp. 146–162. DOI: 10.12912/27197050/203075
16. Mühleisen, J., Piepho, H.P., Maurer, H.P., Longin, C.F.H., Reif, J.C. (2014). Yield stability of hybrids versus lines in wheat, barley, and triticale. Theor. Appl. Gen. no. 127, pp. 309–316. DOI: 10.1007/s00122-013-2219-1
17. Macholdt, J., Barthelmes, G., Ellmer, F., Baumecker, M. (2013). Yield stability of winter wheat grown in Brandenburg. J. Cultiv. Plants. no. 65, pp. 411–421. 18. Hejcman, M., Kunzová, E., Srek, P. (2010). Sustainability of winter wheat production over 50 years of crop rotation and N, P and K fertilizer application on illimerized luvisol in the Czech Republic. Field Crops Res. no. 139, pp. 30–38. DOI: 10.1016/j. fcr.2012.10.005
19. Ermantraut, E.R., Prysiazhniuk, O.I., Shevchenko, I.L. (2007). Statistical analysis of agronomic research data in package Statistica 6.0. Guidelines. Kyiv, PolyhraphConsaltyng, 56 p.
20. Prysiazhniuk, O.I., Klymovych, N.M., Polunina, O.V. (2021). Metodolohiia i orhanizatsiia naukovykh doslidzhen u silskomu hospodarstvi ta kharchovykh tekhnolohiiakh [Methodology and organization of scientific research in agriculture and food technologies]. Kyiv, Nilan-LTD, 300 p.
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AGROBIOLOGY №1 2025