Variability of corn grain yield and moisture depending on the method of tillage

Volodymyr Skoryk, Anna Lozinska, Oleksandr Karnaukh
Received: 21.11.2025 Revised: 04.03.2026 Accepted: 25.03.2026 Published: 06.04.2026
Retrieved from Vol. 29, No. 1, 2026 Pages: 30-40
Download article Read article

Abstract

Optimisation of corn grain production requires a comprehensive approach to reducing technology costs. The purpose of the experiment and the research objective was to determine the optimal method and depth of primary soil tillage to reduce soil moisture losses and to substantiate the appropriate maturity group of the cultivated hybrids for the implementation of their genetic yield potential with maximum moisture release under field conditions of the central Forest-Steppe zone. The response of 11 mid-early and mid-season corn hybrids (FAO 210-350) was evaluated in 2019-2021 under different primary tillage methods – disc harrowing (up to 15 cm), ploughing (25-27 cm), and deep loosening (35-37 cm) – and yields and moisture release were compared across treatments and hybrid maturity groups. A statistically high correlation coefficient (r=0.74***) indicated the dependence of corn grain yield on the depth of the main tillage. Loosening at 35-37 cm provided an increase in the yield of corn grain from 0.7 to 1.6 t/ha compared to ploughing, and disc harrowing reduced the yield from -0.3 t/ha to -0.9* t/ha. The yield regression equation from the ripeness group (FAO) – y=3.5269+0.0117x – indicated the possibility of increasing grain yield when using hybrids with a longer growing season, which was confirmed by a significant positive correlation coefficient r=+0.86*** (73.96%). Statistically significant correlation of these features with double disc harrowing – r=+0.42** (17.6%), with ploughing – r=+0.22** (4.8%), with deep loosening – r=+0.38**(14.4%), respectively. The trend of increasing grain moisture with increasing yield was established – r=+0.89*** in the hybrids under study, regardless of the method of tillage. Increasing the yield of corn grain was possible by growing later-maturing hybrids, while the moisture content of grain will also increase. The highest grain yield was provided by mid-season hybrids with Tesla (FAO 350) – 8.95 t/ha (+1.03*t/ha) and KWS 351 (FAO 350) – 8.77 t/ha (+1.6**t/ha) against the background of deep loosening of the soil at 35-37 cm with an average humidity of 16.81% and 16.28%, respectively. As a result of the experiment, it was recommended to sow in the central Forest-Steppe with mid-season corn hybrids (FAO 300-350) using deep loosening of the soil with a disc-chisel unit up to 35-37 cm as the main treatment

Keywords

corn hybrids; correlation; regression; variation coefficient; deep loosening; depth of cultivation; FAO

  1. Andriienko, A., Semeniaka, I., & Andriienko, O. (2025). Influence of precursors and soil cultivation on oil and protein yield from soybean crop. Bulletin of Agricultural Science, 9(870), 41-50. doi: 10.31073/agrovisnyk202509-05.
  2. Bazylenko, Ye.O., & Marchenko, T.Iu. (2024). Yield and harvesting moisture content of corn hybrids at different sowing dates. Agrarian Innovations, 23, 7-15. doi: 10.32848/agrar.innov.2024.23.1.
  3. Bibel, Yu.O., & Chernobai, L.M. (2023). Dependence of the grain filling intensity and moisture-yielding ability on valuable economic features in corn. Plant Breeding and Seed Production, 124, 66-75. doi: 10.30835/2413-7510.2023.293891.
  4. Bielov, Ya.V. (2022). Improving the technology of growing corn hybrids in conditions of the southern steppe of Ukraine. (PhD dissertation, Mykolaiv National Agrarian University, Mykolaiv, Ukraine).
  5. Chaika, T., Lohvynenko, V., & Pshenyshnyi, A. (2023). The impact of soil tillage systems on soybean yield capacity. Scientific Progress & Innovations, 26(4), 54-59. doi: 10.31210/spi2023.26.04.10.
  6. Corteva agriscience. (2024). Retrieved from https://www.corteva.com.ua/.
  7. Dolia, S.M. (2024a). Effectiveness of soil tillage methods when growing corn in the conditions of the Left Bank Forest Steppe of Ukraine. (Doctoral dissertation, State Biotechnological University, Kharkiv, Ukraine).
  8. Dolia, S.M. (2024b). The efficiency of growing corn on grain depending on methods of primary soil tillage. Cereals, 8(1), 187-194. doi: 10.31867/2523-4544/0328.
  9. Hadzalo, Ya.M., Vozhehova, R.A., & Likar, Ya.O. (2024). Yield and harvesting moisture content of corn hybrids depending on the elements of agrotechnology in the conditions steppe. Taurian Scientific Herald, 138, 34-41. doi: 10.32782/2226-0099.2024.138.4.
  10. Havriushenko, O.O., & Rudas, V.O. (2025). The influence of some elements of cultivation technology on the productivity of corn hybrids in the conditions of the Northern Steppe of Ukraine. Taurian Scientific Herald, 142(1), 30-35. doi: 10.32782/2226-0099.2025.142.1.5.
  11. Hlupak, Z.I., & Butenko, A.O. (2022). The grain yield of maize hybrids depending on the ripeness group and stand density in the conditions of the forest steppe of Ukraine. Bulletin of the Uman State University, 2, 5-10. doi: 10.32782/2310-0478-2022-2-5-10.
  12. Kohan, A.V. (2021). Agrotechnological foundations of increasing sunflower productivity in conditions of insufficient and unstable. (Doctoral dissertation, Kherson State Agrarian and Economic University, Kherson, Ukraine).
  13. Kovalenko, A.M., Novokhyzhnii, M.V., Tymoshenko, H.Z., Piliarskyi, V.H., & Kazanok, O.O. (2022). Productivity and water consumption of sunflower depending on the place in crop rotation and tillage. Agronomist. Retrieved from https://www.agronom.com.ua/produktyvnist-i-vodospozhyvannya-sonyashnyku-zalezhno-vid-mistsya-v-sivozmini-ta-obrobitku-gruntu/.
  14. Kyrpa, M., Bodenko N., & Kulyk, V. (2023). The quality of the seeds of corn hybrids depending on the method of their collection and drying. Bulletin of Agrarian Science, 101(2), 65-71. doi: 10.31073/agrovisnyk202302-09.
  15. Marenych, M., & Koba, K. (2024). The impact of tillage on the yield of maternal lines of maize hybrids. Scientific Progress & Innovations, 27(1), 19-23. doi: 10.31210/spi2024.27.01.03.
  16. Mishchenko, O.V., Hanhur, V.V., & Danilenko, Ye.V. (2024). The formation of the productivity of corn hybrids depending on the density of plants in the conditions of the Left Bank Forest Steppe. Scientific Progress & Innovations, 27(2), 16-21. doi: 10.31210/spi2024. 27.02.03.
  17. Novak, V.H., & Novak, A.V. (2022). Agricultural meteorology terms 2020-2021. Agricultural year from data of weather-station Uman. Bulletin of the Uman National University of Horticulture, 1, 23-26. doi: 10.31395/2310-0478-2022-1-23-26.
  18. Novak, V.H., & Novak, A.V. (2023). Agricultural meteorology terms 2020-2021. Agricultural year from data of weather-station Uman. Bulletin of the Uman National University of Horticulture, 103(1), 153-160. doi: 10.32782/ 2415-8240-2023-103-1-153-160.
  19. Palamarchuk, V.D., Didur, I.M., Kolisnyk, O.M., & Alieksieiev, O.O. (2020). Aspects of the modern technology of growing high-starch corn in the conditions of the right-bank forest-steppe. Vinnytsia: “Druk” LLC.
  20. Poliakov, V. (2020). Yield of corn hybrids depending on plant density and fertilization systemdoi: 10.31473/2305-5987-2020-2-27(41)-22.
  21. Pysarenko, P.V., Maliarchuk, A.S., Kuts, H.M., Biliaieva, I.M., & Myshukova, L.S. (2020). The influence of water regime and tillage methods on corn productivity. Agronomist. Retrieved from https://www.agronom.com.ua/vplyv-vodnogo-rezhymu-ta-sposobiv-obrobitku-gruntu-na-produktyvnist-kukurudzy/.
  22. Skoryk, V.V., & Prykhodko, V.O. (2025). The influence of the norm of sowing corn seeds on the realization of the genetic potential of hybrids under irrigation conditions of the southern Steppe of Ukraine. Taurian Scientific Herald, 142(2), 93-102. doi: 10.32782/2226-0099.2025.142.2.13.
  23. State register of plant varieties suitable for distribution in Ukraine. (2025). Retrieved from https://sops.gov.ua/en/.
  24. Tkachenko, M., & Borys, N. (2018). The influence of hydrothermic climate change and method basic cultivation for corn productivity on grain. Propozitsia. Retrieved from https://propozitsiya.com/articles/tekhnolohiyi-vyroshchuvannya/vplyv-hidrotermichnykh-zmin-klimatu-ta-sposobu-osnovnoho
  25. Vozhehova, R.A., Lavrynenko, Yu.O., Marchenko T.Iu., Voiagkipa, LV., Sharii, V.O., & Bidnyna, I. O. (2023). Comparative analysis of yield formation of corn hybrids of different FAO groups under drip irrigation. Agrarian Innovations, 18, 24-31. doi: 10.32848/agrar.innov.2023.18.3.
  26. Vozhehova, R.A., Lavrynenko, Yu.O., Marchenko, T.Iu., Piliarska, O.O., Zabara, P.P., & Sakhatskyi, H.I. (2021). Morphological indicators of corn hybrids of different FAO groups depending on the elements of technology under irrigation conditions. Agrarian Innovations, 8, 91-99. doi: 10.32848/agrar.innov.2021.8.14.
  27. Yeshchenko, V.O., Kopytko, P.H., Kostohryz, P.V., & Opryshko, V.P. (2014). Fundamentals of scientific research in agronomy. Vinnitsa: PE “Edelweiss and K”.
Skoryk, V., Lozinska, A., & Karnaukh, O. (2026). Variability of corn grain yield and moisture depending on the method of tillage. Scientific Horizons, 29(1), 30-40. https://doi.org/10.48077/scihor1.2026.30