It has been established that in order to sustainably meet the needs of food grain, the decisive role belongs to the improvement of technologies for growing high-yielding varieties of winter wheat in scientifically based crop rotations, the urgency of whose implementation is caused by climate changes. It was found that in solving the mentioned problem, great importance is attached to the creation of new varieties of winter wheat with high genetic potential of productivity and quality, stable resistance to diseases, pests, adverse environmental factors. An important role is played by the use of scientifically based seed crop rotations with effective saturation, placement and ratio of crops belonging to groups with different biological properties. It was determined that in the conditions of climate change, in seed crop rotations, it is necessary to observe varietal agricultural techniques, use optimal rates of organic and mineral fertilizers, siderates, post-harvest sowing, plant protection products, and also apply differentiated tillage
improvement, growing technologies, varieties, crop rotations, winter wheat, scientific justification, climate changes
[1] Demydenko, O.V., Boiko, P.I., Blaschuk, M.I., Shapoval, I.S., & Kovalenko, N.P. (2019). Crop rotations and fertility of chernozem of the Left-Bank Forest-Steppe. Smila: Chornobayivske KPP.
[2] Yurkevych, Ye.O., Boiko, P.I., Kovalenko, N.P., & Valentiuk, N.O. (2021). Scientific-technological and agrobiological bases of highly productive agroecosystems of Ukraine. Odessa: Publishing House LLC “Publishing Center”.
[3] Morhun, V.V., Rybalka, O.I., & Dubrovna, O.V. (2021). Genetic improvement of plants: Main scientific achievements and innovative developments. Fiziolohiia Roslyn i Henetyka, 53(2), 112-127. doi: 10.15407/frg2021.02.112.
[4] Yurkevych, Ye.O., Kovalenko, N.P., & Bakuma, A.V. (2011). Agrobiological bases of crop rotations of the Steppe of Ukraine. Odessa: Odessa publishing house “VMV”.
[5] Kovalenko, N. P. (2014). Becoming and development of scientifically and organizational bases of application of home crop rotations in the systems of agriculture (the second half of XIX – beginning of XXI century). Kyiv: TOV Nilan-LTD.
[6] Morhun, V.V. (2015). Genetic improvement of plants is the basis of modern agricultural production. Visnyk NAN Ukrainy, 10, 3-8.
[7] Morhun, V.V. (2020). Innovative achievements of the Institute of Plant Physiology and Genetics of the National Academy of Sciences of Ukraine as a significant component of our country's grain abundance. Fiziolohiia Roslyn i Henetyka, 52(3), 262-276.
[8] United Nations. (n.d.). World population projected to reach 9.7 billion by 2050. Retrieved from https://www.un.org/en/academic-impact/97-billion-earth-2050-growth-rate-slowing-says-new-un-population-report.
[9] Food and Agriculture Organization of the United Nations (FAO). (n.d.). FAOSTAT: Crops and livestock products. Retrieved from https://www.fao.org/faostat/en/#data/QCL.
[10] Official website of the State Statistics Service of Ukraine. (n.d.). Retrieved from https://www.ukrstat.gov.ua.
[11] Makrushyn, M.M., & Makrushyna, Ye.M. (2011). Seed production. Simferopol: Arial.
[12] Law of Ukraine No. 411-IV “On Seeds and Planting Material”. (2002, December). Retrieved from https://zakon.rada.gov.ua/laws/show/411-15#Text.
[13] Morhun, V.V., Shvartau, V.V., Konovalov, D.V., Mykhalska, L.M., & Skryplov, V.O. (2022). Club of 100 centners “Modern varieties and systems of nutrition and protection of winter wheat”. Kyiv: Vistka.
[14] Hanhur, V.V., & Kovalenko, N.P. (2003). Effective placement of grain crops in crop rotations of the Forest Steppe. Visnyk Ahrarnoi Nauky, 4, 35-37.
[15] Boiko, P.I., Kovalenko, N.P., & Koretskyi, O.Ye. (2010). Prospects for growing winter wheat in short-rotational crop rotations in conditions of insufficient moisture. Biuleten Instytutu Zernovoho Hospodarstva NAAN, 39, 7-11.
[15] Kovalenko, N.P. (2017). Scientific bases of formation and development of agriculture in Ukraine. Spetsialnyi Vypusk (May), 60-66.
[16] Boiko, P.I., Kovalenko, N.P., & Shapoval, I.S. (2010). Strategy of crop rotation, tillage and fertilizer level in weed control. In Collection of Scientific Works of the Institute of Sugar Beets of UAAS “Weed plants: Features of biology and rational systems for their control in crops of agricultural crops” (pp. 11-16). Kyiv: Institute of Sugar Beets of UAAS.