Acta Univ. Agric. Silvic. Mendelianae Brun. 2024, 72(5-6), 165-176 | DOI: 10.11118/actaun.2024.011

GROWING WINTER WHEAT IN VARIOUS SHORT-ROTATION CROP ROTATION MODELS ADAPTED TO THE CONDITIONS OF THE STEPPE ZONE OF UKRAINE

Yuriy Mashchenko ORCID...1, Iryna Sokolovska ORCID...2
1 Institute of Agriculture of the Steppe, National Academy of Agrarian Sciences of Ukraine, Kropyvnytskyi, Ukraine
2 Kherson State Agrarian and Economic University, Kropyvnytskyi, Ukraine

The need for developing new models of modern crop rotations is justified by the current conditions of agricultural and economic development. Research conducted in the conditions of the Northern Steppe of Ukraine confirmed the impact of crop rotation factors and fertilization on the yield, product quality, and economic efficiency of winter wheat cultivation. It was established that growing winter wheat in a grain-fallow-arable crop rotation model with 20 % soybean saturation contributed to achieving a higher yield level, with a difference compared to the grain-arable crop rotation model with 40 % soybean saturation - 0.59 t ha-1 or 9.0 %, and compared to model with 60 % soybean saturation - 0.81 t ha-1 or 12.7 %. Growing winter wheat in crop rotation model with 20 % soybean saturation under an organo-mineral biologized fertilization system contributed to achieving maximum yield at the level of 7.93 t ha-1. The implementation of biologized mineral and organo-mineral fertilization systems in grain-arable crop rotation models (60 % and 40 % soybean saturation) ensured a yield formation at the level of 6.52-7.40 t ha-1 and 6.71-7.54 t ha-1, respectively. The highest grain quality, corresponding to Class II, was also observed in the grain-fallow-arable crop rotation model, but under a mineral biologized fertilization system. In other crop rotation models and fertilization variants, the grain quality was lower and corresponded to Classes III and IV. The biologicalization of recommended crop rotations for the Ukrainian Steppe contributed to achieving significantly higher winter wheat grain yields regardless of their structure and soybean saturation. Higher economic efficiency was achieved by growing winter wheat in a grain-fallow-arable crop rotation with 20 % soybean saturation based on an organo-mineral fertilization system, which contributed to obtaining the highest conditional net profit at the level of 37 334 UAH ha-1 with a profitability of 156.2 %.

Keywords: biologized crop rotations, economic efficiency of winter wheat cultivation, fertilization systems, short-rotation crop rotation models, winter wheat grain quality, winter wheat grain yield

Received: August 7, 2024; Revised: August 7, 2024; Accepted: November 21, 2024; Published: January 1, 2025  Show citation

ACS AIP APA ASA Harvard Chicago IEEE ISO690 MLA NLM Turabian Vancouver
Mashchenko, Y., & Sokolovska, I. (2024). GROWING WINTER WHEAT IN VARIOUS SHORT-ROTATION CROP ROTATION MODELS ADAPTED TO THE CONDITIONS OF THE STEPPE ZONE OF UKRAINE. Acta Universitatis Agriculturae et Silviculturae Mendelianae Brunensis72(5-6), 165-176. doi: 10.11118/actaun.2024.011
Share...
Download citation
  • BibTeX (.bib)
  • Bookends (.ris)
  • EasyBib (.ris)
  • EndNote (.enw)
  • EndNote 8 (.xml)
  • ISI WoS (.isi)
  • Medlars (.medlars)
  • Mendeley (.ris)
  • MODS (.xml)
  • Papers (.ris)
  • RefWorks (.txt)
  • RefManager (.ris)
  • RIS (.ris)
  • MS Word (.xml)
  • Zotero (.ris)
    • Open full article

    References

    1. AZIMBAY, A. and ANUAR, A. 2023. Influence of biologization of sugarmali agriculture of turkestan region on soil fertility. Icontech International Journal of surveys, engineering, technology. 7(1), 39-45. https://doi.org/10.5281/zenodo.7950958 Go to original source...
    2. BEHERA, U. K. and FRANCE, J. 2022. Farming systems research: Concepts, design and methodology. Advances in Agronomy. 177, 1-49. https://doi.org/10.1016/bs.agron.2022.08.001 Go to original source...
    3. BOYKO, P. I., KOVALENKO, N. P. and OPARA, M. M. 2014. Effective multi-rotational crop rotations in modern agriculture. Bulletin of the Poltava State Agrarian Academy. 3, 20-32.
    4. DARGUZA, M. and GAILE, Z. 2023. The Productivity of Crop Rotation Depending on the Included Plants and Soil Tillage. Agriculture. 13(9), 1751. https://doi.org/10.3390/agriculture13091751 Go to original source...
    5. DEMYDENKO, O., SHAPOVAL, I., BOIKO, P. and VELYCHKO, V. 2018. Parameters of productivity and structure of biomass different crop rotations of Forest-Steppe of Ukraine. Bulletin of Agricultural Science. 96(5), 54-62. https://doi.org/10.31073/agrovisnyk201805-09 Go to original source...
    6. DIXON, J., LINGLING, LI, B. and AMEDE, T. 2023. A century of farming systems. Part 1: Concepts and evolution. Farming System. 1(3), 100055. https://doi.org/10.1016/j.farsys.2023.100055 Go to original source...
    7. FILONENKO, S. V. and TYSHCHENKO, M. V. 2020. Winter wheat yield capacity in short-rotation row crop succession depending on fertilization and basic soil tillage. Bulletin of the Poltava State Agrarian Academy. 3, 61-69. https://doi.org/10.31210/visnyk2020.03.07 Go to original source...
    8. HORTON, D. 1986. Farming systems research: Twelve lessons from the Mantaro Valley Project. Agricultural Administration. 23(2), 93-107. https://doi.org/10.1016/0309-586X(86)90033-6 Go to original source...
    9. KEATING, B. A. and McCOWN, R. L. 2001. Advances in farming systems analysis and intervention. Agricultural Systems. 70(2-3), 555-579. https://doi.org/10.1016/S0308-521X(01)00059-2 Go to original source...
    10. KROPYVNYTSKYI, R., HALITSKYI, P., ANTONYUK, N. and KRAVCHUK, A. 2020. Productivity of agricultural crops depending on elements of biologization of agriculture in the conditions of the central polissya of Ukraine. Sciences of Europe. 59, 4-7.
    11. KUDRIA, S. 2020. Productivity of short crop rotation with different legumes on typical chernozem. Bulletin of Agricultural Science. 98(1), 13-18. https://doi.org/10.31073/agrovisnyk202001-02 Go to original source...
    12. KUDRIAWYTZKA, A. N. and KARABACH, K. S. 2023. Justification of the influence of mineral fertilizers on the productivity and quality indicators of winter wheat grain. Modern engineering and innovative technologies. 26(Part 4), 115-119. https://doi.org/10.30890/2567-5273.2023-26-04-062 Go to original source...
    13. MARKOVSKA, O. 2019. Modelling productivity of crops in short crop rotation at irrigation taking into account agroecological and technological factors. In: Current state, challenges and prospects for research in natural sciences, pp. 172-191. https://doi.org/10.36059/978-966-397-156-8/172-191 Go to original source...
    14. MASHCHENKO, YU. V., KULY, G. A., TRYKINA, N. M. and MALAKHOVSKA, V. О. 2023. Yield of winter wheat in Steppe crop rotations depending on fertilizer systems and biological product. Agrarian innovations. 18, 77-83. https://doi.org/10.32848/agrar.innov.2023.18.11 Go to original source...
    15. MERFIELD, C. N. 2019. Rotations and their impact on soil health. Report number 03-2019. The BHU Future Farming Centre, Lincoln, New Zealand. 22 p.
    16. MORRIS, C. and WINTER, M. 1999. Integrated farming systems: the third way for European agriculture? Land Use Policy. 16(4), 193-205. https://doi.org/10.1016/S0264-8377(99)00020-4 Go to original source...
    17. NURBEKOV, A., KOSIMOV, M., SHAUMAROV, M., KHAITOV, B., QODIROVA, D., MARDONOV, H. and YULDASHEVA, Z. 2023. Short Crop Rotation under No-Till Improves Crop Productivity and Soil Quality in Salt Affected Areas. Agronomy. 13, 2974. https://doi.org/10.3390/agronomy13122974 Go to original source...
    18. PRIMAK, I. D., MARTYNIUK, I. V., FEDORUK, YU. V., YEZERKOVSKA, L. V., KHAKHULA, B. S., KACHAN, L. M., POKOTILO, I. A., PAVLICHENKO, A. A., KHAKHULA, B. V., OBRAZHIY, C. V., PANCHENKO, O. B., LOZINSKA, T. P. and HORNOVSKA, S. V. 2022. Scientific foundations of modern systems of domestic agriculture: Study guide. Tvory. 320 р.
    19. PRYMA, K. I., FEDORUK, Y. R., GRABOVSKYI, M., LOZINSKYI, M., LOZINSKA, T., PRYSIAZHNIUK, N., POKOTYLO, I., FEDORUK, N., PANCHENKO, I. and PANCHENKO, T. 2022. Productivity, economic and energy efficiency of short crop rotation under different systems of basic tillage and fertilization in the right bank forest steppe of Ukraine. Scientific Papers Series Management, Economic Engineering in Agriculture and Rural Development. 22(4), 617-626. https://managementjournal.usamv.ro/pdf/vol.22_4/Art66.pdf
    20. ROSA, A., DUDEK, M., SIEMIŃSKI, P., SADOWSKI, A., BARTOSIK, S., KACZMAREK, P., ŁATA, K., MARKOWICZ, M., PETROVIC, J. and DYKES, I. 2022. Biologization: The Key to Sustainable Agriculture. Catalogue of good practices. Warsaw: Institute of Rural and Agricultural Development, Polish Academy of Sciences. Polish Academy of Sciences. https://doi.org/10.53098/978-83-89900-69-2 Go to original source...
    21. ROZHKO, V. M. and MAKARENKO, S. S. 2010. Productivity of winter wheat in short-rotational crop rotations of SD NUBaNU of Ukraine. Scientific reports of Separate Department of National University of Bioresources and Natural Use of Ukraine. Scientific reports of SD NUBaNU of Ukraine. 2010-6(22). http://www.nbuv.gov.ua/e-journals/Nd/2010_6/10rvsars.pdf
    22. RYABA, O. I. 2012. Evolution of the classification of farming systems. Agrobiology. Collection of scientific works of Belotserkovskii national agrarian university. 7(91), 35-41.
    23. SHAKALIY, S. M., BAHAN, A. V., YESHCHENKO V. M. and SENCHUK, T. Yu. 2020. Effectiveness of biological elements of winter wheat production technology in the Forestry zone of Ukraine. Taurian Scientific Bulletin. Series: Agricultural Sciences. 112, 174-180. https://doi.org/10.32851/2226-0099.2020.112.25 Go to original source...
    24. SHUSTIK, L., NILOVA, N., STEPCHENKO, S., SIDORENKO, S. and HROMADSKA, V. (2020). The productivity of short crop rotation and strip-till in modern realities of climate change. The latest technologies in the agroindustrial complex: research and management. 257-269. http://dx.doi.org/10.31473/2305-5987-2020-1-26(40)-24 Go to original source...
    25. SOKOLOVSKA, I. M. and MASHCHENKO, YU. V. 2023a. Productivity of short-rotation crop rotations with different soybean saturation depending on the fertilization system. Taurian Scientific Bulletin. Series: Agricultural Sciences. 134, 123-134. https://doi.org/10.32782/2226-0099.2023.134.18 Go to original source...
    26. SOKOLOVSKA, I. and MASCHENKO, Y. 2023b. Biotechnological methods of growing sunflower in different fertilizer systems. Journal Helia. 46(79), 233-243. https://doi.org/10.1515/helia-2023-0011 Go to original source...
    27. TSYMBAL, Y. S., BOYKO, P. I., MARTYNIUK, I. V. and PTASHNIK, M. M. 2022. Productivity of short-rotation crop rotations in the forest-steppe zone at different levels of intensification. Bulletin of Agrarian Science. 4(829), 23-29. https://doi.org/10.31073/agrovisnyk202204-03 Go to original source...
    28. VOITOVYK, M. V. 2023a. Productivity of short rotation crop rotations on typical black soil. Podilian Bulletin: agriculture, engineering, economics. 40, 15-20. https://doi.org/10.37406/2706-9052-2023-3.2 Go to original source...
    29. VOITOVYK, M. V., PANCHENKO, О. B., TSYUK, O. A. and MISHCHENKO, Y. 2023b. Energy efficiency of agrotechnologies of short rotation crop rotations. Scientific Reports of NULES of Ukraine, No 5/105. https://doi.org/10.31548/dopovidi5(105).2023.007 Go to original source...
    30. VOZHEGOVA, R. A. 2020. Development of intensive farming systems on irrigated lands of Ukraine: scientific and technological support. Guidelines. ALDI-PLUS. 254 р.
    31. YASTREMSKA, A. A., PUSTOVA, O. G. and TKACHENKO, D. V. 2020. Crop rotation for the sake of ecology. Mykolaiv National Agrarian University. 36 р.
    32. YESHCHENKO, V. O. 2015. The role of crop rotation in modern agriculture. Agriculture: interdepartmental thematic scientific collection. 1, 23-27.

    This is an open access article distributed under the terms of the Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License (CC BY NC ND 4.0), which permits non-comercial use, distribution, and reproduction in any medium, provided the original publication is properly cited. No use, distribution or reproduction is permitted which does not comply with these terms.


    Return to the content