Біологічні системи: теорія та інновації

1. Alsajri, F.A., Wijewardana, C., Irby, J.T., Bellaloui, N., Krutz, L.J., Golden, B., Gao, W., & Reddy, K.R. (2020). Developing functional relationships between temperature and soybean yield and seed quality. Agronomy Journal, 112(1), 194-204. doi: 10.1002/agj2.20034.

2. Bilyavska, L.G. (2010). Adaptability of soybean varieties of Poltava selection in the conditions of climate change. Scientific and Technical Bulletin of the Institute of Oilseeds Crops NAAS, 15, 33-38.

3. Convention on Biological Diversity. (1992, June). Retrieved from https://zakon.rada.gov.ua/laws/show/995_030#Text.

4. Didora, V.G. (2013). Methods of agronomic research in agronomy. Kyiv: Center for Educational Literature.

5. Didora, V.G., Derebon, I.Y., & Savrasykh, L.D. (2017). Technological indicators of soybean quality depending on inoculation and fertilization in the conditions of Ukrainian Polissya. Bulletin of Zhytomyr National Agroecological University, 1(1), 57-63.

6. DSTU 4117:2007. (2007). Grain and products of its processing. Determination of quality indicators by infrared spectroscopy. Retrieved from https://online.budstandart.com/ua/catalog/doc-page?id_doc=85620.

7. Gadhave, R.S., Gade, S.A., & More, D. (2023). Correlation between weather parameters and different phenophases of soybean (Glycine max. [L] Mirrll.) with seed yield. The Pharma Innovation, 12(12), 961-963.

8. Golodna, A.V., Hrytsiuk, Ya.V., Buslayeva, N.H., & Stolyar, O.O. (2024). The impact of fertilisation, seed treatment, and meteorological conditions on soybean yield in the Right-Bank Forest-Steppe. Agriculture and Plant Sciences: Theory and Practice, (2), 58-66.  doi: 10.54651/agri.2024.02.07.

9. Gubenko, L.V., Holodna, A.V., & Remez, G.G. (2019). Influence of mineral fertilizers and bacterial preparations on the yield and quality of soybean seeds. Scientific and Technical Bulletin of the Institute of Oilseeds Crops NAAS, 27, 89-96.  doi: 10.36710/ioc-2019-27-10.

10. Information and reference system “Sort” (2024). Retrieved from http://sort.sops.gov.ua/search/search.

11. Korobko, A.A. (2021). Dynamics of soybean production in Ukraine and the world. Balanced Nature Management, 4, 125-134. doi: 10.33730/2310-4678.4.2021.253098.

12. Petrychenko, V.F. (2012). Scientific bases of production and use of soybeans in animal husbandry. Feeds and Feed Production, 71, 3-11.

13. Polovyy, V., et al. (2021). The influence of climate changes on crop yields  in Western Ukraine. Ukrainian Journal of Ecology, 11(1), 384-390. doi: 10.15421/2021_56.

14. Poudel, S., Vennam, R.R., Shrestha, A., Reddy, K.R., Wijewardane, N.K., Reddy, K.N., & Bheemanahalli, R. (2023). Resilience of soybean cultivars to drought stress during flowering and early-seed setting stages. Scientific Reports, 13, 1-13,  article number 1277.  doi: 10.1038/s41598-023-28354-0.

15. Revtio, O.Y., & Zolin, O.O. (2023). Features of soybean cultivation under climate change (review). Tavrian Scientific Bulletin, 133, 105-112. doi: 10.32782/2226-0099.2023.133.15.

16. Sedibe, M.M., Mofokeng, A.M., & Masvodza, D.R. (2023). Soybean production, constraints, and future prospects in poorer countries: A review. In Production and utilization of legumes — progress and prospects (pp. 1-15). Rijeka: IntechOpen. doi: 10.5772/intechopen.109516.

17. Sharma, R.K., Kumar, S., Vatta, K., Dhillon, J., & Reddy, K.N. (2022). Impact of recent climate change on cotton and soybean yields in the southeastern United States. Journal of Agriculture and Food Research, 9, 1-9. doi: 10.1016/j.jafr.2022.100348.

18. Shevnikov, M.Y. (2010). Efficiency of soybean cultivation in conditions of unstable moisture of the Forest-Steppe of Ukraine. Bulletin of Poltava State Agrarian Academy, 3, 19-23.

19. Shovkova, O.V. (2022). Productivity of soybean varieties of the early maturing group in the conditions of the left-bank forest-steppe of Ukraine. Scientific Progress & Innovations, 2(2), 113-118.  doi: 10.31210/visnyk2022.02.13.

20. State Register of Plant Varieties Suitable for Distribution in Ukraine (n.d.). Retrieved from https://minagro.gov.ua/file-storage/reyestr-sortiv-roslin.

21. Sydiakina, O. & Ivaniv, M. (2023). Productivity of soybean varieties of different maturity groups depending on plant density under drip irrigation in the South of Ukraine. Scientific Horizons, 26(11), 100-110.  doi: 10.48077/scihor11.2023.100.

22. Thomasz, E.O., Pérez-Franco, I., & García-Garcí, A. (2024). Assessing the impact of climate change on soybean production in Argentina. Climate Services, 34, 1-11, article number 100458. doi: 10.1016/j.cliser.2024.100458.

23. Tkachuk, O.P., Didur, I.M., & Pantsyreva, G.V. (2022). Ecological assessment of medium and medium late-ripening soybean varieties. Agriculture and Forestry, 1(24), 5-15. doi: 10.37128/2707-5826-2022-1-1.

24. Tsekhmeistruk, M., Pankova, O., Kolomatska, V., Kobyzieva L., Artiomov, M., & Sirovitskiy, K. (2021). Influence of weather and climatic conditions on soybean yield. Ukrainian Journal of Ecology, 11 (4), 11-17.

25. Zabolotnyi, H.M., Mazur, V.A., Tsyhanska, O.I, Didur, I.M., Tsyhanskyi, V.I., & Pantsyreva, H.V. (2020). Agribiological bases of soybean cultivation and ways to maximize its productivity. Vinnytsia: Sole proprietor Korzun D.Y.

26. Zhu, W., Li, J., & Xie, T. (2024). Impact of climate change on soybean production: Research progress and response strategies. Advances in Resources Research, 4(3), 474-496. doi: 10.50908/arr.4.3_474.

27. Zuza, V.S., Rozhkov, A.O., & Gutyansky, R.A. (2015). Soybean yield depending on the predecessor, meteorological conditions and herbicide efficiency. Scientific Progress & Innovations, 1-2, 22-24.  doi: 10.31210/visnyk2015.1-2.02.

28. Zymaroyeva, A.A. (2020). Ecological determinants of soybean yield. Tavrian Scientific Bulletin, 112, 69-76.  doi: 10.32851/2226-0099.2020.112.9.