Plant and Soil Science

Analysis of the productivity of sown legume-grass stands depending on alfalfa content, biostimulant application and weather conditions

Mykhailo Pavlenko, Vitalii Kovalenko
Download article
Abstract

Intensive arable farming based on monoculture cropping leads to soil erosion, loss of biodiversity, and chemical contamination. One approach to mitigating these negative effects involves diversifying agroecosystems through the use of mixed cropping, particularly legumegrass mixtures. Such systems contribute to improved soil fertility, increased yields, and enhanced crop resilience to biotic and abiotic stresses. However, limited awareness of the composition and effectiveness of these mixtures hinders their widespread adoption in agricultural practice. This study aimed to investigate the development of alfalfa-grass mixtures depending on alfalfa content and to identify the most productive variants suitable for the Right-Bank Forest-Steppe zone of Ukraine, capable of delivering high and stable yields over extended periods. The research was conducted in the Forest-Steppe of Ukraine during 2021-2023 within permanent crop rotations at the experimental field of the Agronomic Research Station of the National University of Life and Environmental Sciences of Ukraine, located in Pshenychnе Village, Bila Tserkva District, Kyiv Region. Several variants of alfalfa-grass mixtures were tested, with alfalfa content ranging from 35% to 75% and with the application of biostimulants (biochar, humic extract). The experiment was conducted according to a multifactorial field trial design with four replications. The primary indicator for evaluation was the yield of the grass mixtures over a three-year period. The findings revealed that the most productive mixtures were those containing 65-75% alfalfa, achieving the highest yields in the range of 35-37.6%. The use of biostimulants contributed to increased productivity; however, excessive application of these substances could reduce yields. The highest yield was recorded in the second year of the experiment, which was attributed to increased plant viability and favourable weather conditions. The results confirmed that an optimal alfalfa-to-grass ratio within the mixture is a critical factor in achieving stable yields. The effectiveness of biostimulants was influenced by the composition of the mixture and the growing conditions. Cultivating alfalfa-grass mixtures with 65-75% alfalfa proved to be an effective strategy for enhancing forage yield and production stability. The application of biostimulants can further improve productivity, although their efficiency depends on specific environmental conditions. The findings can be used to optimise crop area structure and support the adoption of environmentally sustainable agricultural practices

Keywords

biodiversity; grass mixtures; yield; crop resilience

Suggested citation
Pavlenko, M., & Kovalenko, V. (2025). Analysis of the productivity of sown legume-grass stands depending on alfalfa content, biostimulant application and weather conditions. Plant and Soil Science, 16(2), 48-57. https://doi.org/10.31548/plant2.2025.48
References
  1. Anil, L., Park, J., Phipps, R.H., & Miller, F.A. (1998). Temperate intercropping of cereals for forage: Review of potential for growth and utilization with particular reference to the UK. Grass and Forage Science, 53(4), 301-317. doi: 10.1046/j.1365-2494.1998.00144.x.
  2. Berghuijs, H.N.C., Wang, Z., Stomph, T.J., Weih, M., van der Werf, W., & Vico, G. (2020). Identification of species traits enhancing yield in wheat-faba bean intercropping: Development and sensitivity analysis of a minimalist mixture model. Plant and Soil, 455, 203-226. doi: 10.1007/s11104-02004668-0.
  3. Biochar IDEALE. (n.d.). Retrieved from https://cluboz.net/uk/kramnyczja/dobryva/mineralnidobriva/biochar-ideale/.
  4. Burko, L., Svystunova, I., Poltoretskyi, S., & Prorochenko, C. (2021). Productivity of sown meadow herbage depending on the elements of growing technologyScientific Reports of the National University of Life and Environmental Sciences of Ukraine, 17(4), 97-107.
  5. Chabaniuk, Ya., Brovko, I., Kovtun, A., & Milova, M. (2024). Influence of meteorological conditions on the yield and seed quality of differently ripened soybean varieties in the central Forest-Steppe. Biological Systems: Theory and Innovation, 15(4), 73-85. doi: 10.31548/biologiya/4.2024.73.
  6. Danso-Abbeam, G., Dagunga, G., Ehiakpor, D.S., Ogundeji, A.A., Setsoafia, E.D., & Awuni, J.A. (2021). Crop-livestock diversification in the mixed farming systems: Implication on food security in Northern Ghana. Agriculture & Food Security, 10, article number 35. doi: 10.1186/s40066-02100319-4.
  7. Demidas, G., Kovalenko, V., & Demtsyura, Yu. (2013). Formation of species composition and dry matter yield of alfalfa-cereal mixtures depending on the methods of creating a grass standFeed and Feed Production, 76, 116-121.
  8. Demidas, G., Prorochenkо, S., & Burko, L. (2019). The density and height of perennial agrophy-tocenoses depends on the species composition and fertilizationTavria Scientific Bulletin, 105, 49-55.
  9. Hetman, N., & Danyliuk, B. (2024). Scientific substantiation of the productivity of sowing alfalfa depending on soil and climatic conditions of the Forest-Steppe of Ukraine. Scientific Reports of the National University of Life and Environmental Sciences of Ukraine, 20(1). doi: 10.31548/dopovidi.1(107).2024.003.
  10. Karbivska, U., Martyschuk, V., Kurgak, V., & Voloschuk, M. (2020). The effectiveness of surface improvement of sloping mountain meadows of the Carpathians. Bulletin of Agricultural Science, 98(7), 38-45. doi: 10.31073/agrovisnyk202007-05.
  11. Kurhak, V., Dehodiuk, Y., & Havrish, J. (2022). Feed productivity of Lucerne-cereal agrocenoses with various cereal components. Bulletin of Agricultural Science, 3(828), 28-36. doi: 10.31073/agrovisnyk202203-04.
  12. Li, S. (2024). Intercropping perennial cereal and legumes for improving biological soil health and microbial drought resilience. (Doctoral thesis, Swedish University of Agricultural Sciences, Alnarp, Sweden). doi: 10.54612/a.4ve4ma46ur.
  13. Li, X.-F., et al. (2021). Long-term increased grain yield and soil fertility from intercropping. Nature Sustainability, 4, 943-950. doi: 10.1038/s41893-021-00767-7.
  14. Li, Y., Korhonen, P., Virkajärvi, P., & Shurpali, N. (2020). Carbon dioxide and nitrous oxide fluxes from a legume-based grassland during contrasting seasons in eastern Finland. In EGU General Assembly 2020 (article number 8788). Joensuu: University of Eastern Finland. doi: 10.5194/egusphere-egu2020-8788.
  15. Meteopost. (n.d.). Retrieved from https://meteopost.com/weather/climate/#google_vignette.
  16. National Academy of Sciences of Ukraine. (2009). Ethical code of the scientist of Ukraine.Retrieved from https://zakon.rada.gov.ua/rada/show/v0002550-09#Text.
  17. Pulina, A., Rolo, V., Hernández-Esteban, A., Seddaiu, G., Roggero, P., & Moreno, G. (2023). Longterm legacy of sowing legume-rich mixtures in Mediterranean wooded grasslands. Agriculture, Ecosystems & Environment, 348, article number 108397. doi: 10.1016/j.agee.2023.108397.
  18. Savchuk, L.K., & Vyhovsky, I.V. (2019). Productivity and biochemical composition of feeds of grasses and herbage legumes, depending on fertilizers and growth stimulators. Scientific Messenger of LNU of Veterinary Medicine and Biotechnologies. Series: Agricultural Sciences, 21(91), 49-53. doi: 10.32718/nvlvet-a9108.
  19. Timaeus, J., Weedon, O.D., & Finckh, M.R. (2022). Harnessing the potential of wheat-pea species mixtures: Evaluation of multifunctional performance and wheat diversity. Frontiers in Plant Science, 13, article number 846237. doi: 10.3389/fpls.2022.846237.
  20. Xu, Z., Li, C., Zhang, C., Yu, Y., van der Werf, W., & Zhang, F. (2020). Intercropping maize and soybean increases efficiency of land and fertilizer nitrogen use. A meta-analysis. Field Crops Research, 246, article number 107661. doi: 10.1016/j.fcr.2019.107661.
  21. Zhu, Y., He, J., Yu, Z., Zhou, D., Li, H., Wu, X., Dong, Y., Tang, L., Zheng, Y., & Xiao, J. (2022). Wheat and faba bean intercropping together with nitrogen modulation is a good option for balancing the trade-off relationship between grain yield and quality in the southwest of China. Agronomy, 12(12), article number 2984. doi: 10.3390/agronomy12122984.
  22. Zymaroieva, A., & Zhukov, O. (2020). Analyzing cereal and grain legumes (pulses) yields patterns in the forest and forest-steppe zones of Ukraine using geographically weighted principal components analysis. Acta Agriculturae Slovenica, 116(2), 287-297. doi: 10.14720/aas.2020.116.2.873.