Simulation of High–Product Soy Crops Based on the Application of Foliar Fertilization in the Conditions of the Right Bank of the Forest Steppe of Ukraine

Kolisnyk, Oleg; Yakovets, Liudmyla; Amons, Sergey; Butenko, Andrii; Onychko, Viktor; Tykhonova, Olena; Tykhonova, Anna; Kravchenko, Natalia; Vereshchahin, Ihor; Yatsenko, Vitalii

doi:10.12912/27197050/188638

Nowa wersja platformy, zawierająca wyłącznie zasoby pełnotekstowe, jest już dostępna.
Przejdź na https://bibliotekanauki.pl

Artykuł - szczegóły

Czasopismo

Ecological Engineering & Environmental Technology

2024 | Vol. 25, iss. 7 | 234--243

Tytuł artykułu

Simulation of High–Product Soy Crops Based on the Application of Foliar Fertilization in the Conditions of the Right Bank of the Forest Steppe of Ukraine

Autorzy

Kolisnyk, Oleg , Yakovets, Liudmyla , Amons, Sergey , Butenko, Andrii , Onychko, Viktor , Tykhonova, Olena , Tykhonova, Anna , Kravchenko, Natalia , Vereshchahin, Ihor , Yatsenko, Vitalii

Treść / Zawartość

Pełne teksty:

Pobierz

Warianty tytułu

Języki publikacji

Abstrakty

The article highlights experimental and field studies of the scientific problem of increasing the yield of soybean seeds by optimizing the main elements of growing technology. Improved standards for the depletion of major biological nutrients during the formation of units in soybean crops make it possible to specify the standards of foliar fertilization to obtain the planned levels of yield and removal of these elements from the soil. The obtained results are of practical importance, as they contribute to optimizing the nutrition of soybean plants due to the use of foliar fertilizers Ecoline Legume. This helps to increase seed yield to the level of 2.0–2.5 tons per hectare. The researchers also conducted a generalization and analysis of scientific results in the field of soybean yield management through foliar feeding. In addition, scientific publications on the influence of liming, application of organic, mineral and microfertilizers on the physicochemical and agrochemical properties of the soil were analyzed. The cultivation of soybeans and the rational application of foliar fertilization are economically beneficial methods, and in this case, the use of foliar fertilization Ecoline Legume to approximately neutral reaction of the soil environment contributed to obtaining the highest levels of conditional net profit and profitability. This confirms the high energy efficiency of soybean cultivation.

Słowa kluczowe

soybean foliar fertilization ecoline legume seed yield seed quality energy efficiency microfertilizer

Wydawca

Czasopismo

Ecological Engineering & Environmental Technology

Rocznik

2024

Tom

Vol. 25, iss. 7

Strony

234--243

Opis fizyczny

Bibliogr. 36 poz., rys, tab.

Twórcy

autor

Kolisnyk, Oleg

Vinnytsia National Agrarian University, Soniachna Str. 3, Vinnytsia, 21008, Ukraine

autor

Yakovets, Liudmyla

Vinnytsia National Agrarian University, Soniachna Str. 3, Vinnytsia, 21008, Ukraine

autor

Amons, Sergey

Vinnytsia National Agrarian University, Soniachna Str. 3, Vinnytsia, 21008, Ukraine

autor

Butenko, Andrii

Sumy National Agrarian University, H. Kondratieva Str., 160, Sumy, 40021, Ukraine, andb201727@ukr.net

autor

Onychko, Viktor

Sumy National Agrarian University, H. Kondratieva Str., 160, Sumy, 40021, Ukraine

autor

Tykhonova, Olena

Sumy National Agrarian University, H. Kondratieva Str., 160, Sumy, 40021, Ukraine

autor

Tykhonova, Anna

Dnipro State Agrarian and Economic University, Sergei Yefremov, Str., 25, Dnipro, 49000, Ukraine

autor

Kravchenko, Natalia

Sumy National Agrarian University, H. Kondratieva Str., 160, Sumy, 40021, Ukraine

autor

Vereshchahin, Ihor

Sumy National Agrarian University, H. Kondratieva Str., 160, Sumy, 40021, Ukraine

autor

Yatsenko, Vitalii

Sumy National Agrarian University, H. Kondratieva Str., 160, Sumy, 40021, Ukraine

Bibliografia

1. Babich A.O., Kolisnyk S.I., Kobak S.Ya. 2011. Theoretical substantiation and ways to optimize varietal technology of soybean cultivation in the conditions of the forest–steppe of Ukraine. Fodder and fodder production: interdisciplinary. subject of science coll. Ukrainian Academy of Sciences, Institute of Feeds. Vinnitsa, 69, 113–121.
2. Bakhmat M.I., Bakhmat O.M., Fedoruk I.V. 2017. Modeling of adaptive varietal technology of soybean cultivation in farms of Khmelnytskyi region: recommendations. Kamianets–Podilskyi, 33.
3. Didur I.M., Tsyhanskyi V.I., Tsyhanska O.I., Malynka L.V., Butenko A.O., Klochkova T.I. 2019. The effect of fertilizer system on soybean productivity in the conditions of right bank forest–steppe. Ukrainian Journal of Ecology, 9(1), 76–80.
4. Heatherly L.G., Spurlock R.S., Reddy N.K. 2003. Influence of early–season nitrogen and weed management on irrigated and nonirrigated glyphosate–resistant and susceptible soybean. Agron. J., 95, 446–453.
5. Hryhoriv Y., Butenko A., Kozak M., Tatarynova V., Bondarenko O., Nozdrina N., Stavytskyi A., Bordun R. 2022. Structure components and yielding capacity of Camelina sativa in Ukraine. Agriculture and Forestry, 68(3), 93–102. https://doi.org/10.17707/AgricultForest.68.3.07
6. Ivanov M.I., Rutkevych V.S., Kolisnyk O.M., Lisovoy I.O. 2019. Research of the influence of the parameters of the block–portion separator on the adjustment range of speed of operating elements. Inmateh. Agricultural Engineering, 57(1), 37–44.
7. Karbivska U., Kurgak V., Gamayunova V., Butenko A., Malynka L., Kovalenko I., Onychko V., Masyk I., Chyrva A., Zakharchenko E., Tkachenko O., Pshychenko O. 2020. Productivity and quality of diverse ripe pasture grass fodder depends on the method of soil cultivation. Acta Agrobotanica, 73(3), 1–11. https://doi.org/10.5586/aa.7334
8. Karbivska U., Masyk I., Butenko A., Onychko V., Onychko T., Kriuchko L., Rozhko V., Karpenko O., Kozak M. 2022a. Nutrient balance of sod–podzolic soil depending on the productivity of meadow agrophytocenosis and fertilization. Ecological Engineering & Environmental Technology, 23(2), 70–77. https://doi.org/10.12912/27197050/144957
9. Karbivska U., Asanishvili N., Butenko A., Rozhko V., Karpenko O., Sykalo О., Chernega T., Masyk I., Chyrva A., Kustovska A. 2022b. Changes in agrochemical parameters of sod–podzolic soil depending on the productivity of cereal grasses of different ripeness and methods of tillage in the Carpathian Region. Journal of Ecological Engineering, 23(1), 55–63. https://doi.org/10.12911/22998993/143863
10. Kerubo F.N., Okello S.V., Oluko P.S. 2021. Effective microorganism effect on the growth and yield of spider plant (Cleome gynandra L.). Journal of Agriculture and Veterinary Science, 14(11), 45–56. https://doi.org/10.9790/2380–1411024556
11. Khanna R., Pawar J., Gupta S., Verma H., Trivedi H., Kumar P., Kumar, R. 2019. Efficiency of biofertilizers in increasing the production potential of cereals and pulses: A review. Journal of Pharmacognosy and Phytochemistry, 8(2), 183–188.
12. Khodanitska O.O., Kolisnyk O.M. 2020. The use of growth stimulants in the practice of crop production. Prague, 10, 45–49.
13. Kolisnyk O.M, Kolisnyk O.O, Vatamaniuk O.V, ButenkoA.O. 2020. Analysis of strategies for combining productivity with disease and pest resistance in the genotype of base breeding lines of maize in the system of diallele crosses. Modern Phytomorphology, 14, 49–55.
14. Kolisnyk O.M. 2019b. Evaluation of maize genotypes for resistance to pests in the right–bank forest–steppe. Collection of scientific works of VNAU. Agriculture and Forestry,13, 143–153.
15. Kolisnyk O.M., Butenko A.O., Malynka L.V., Masik I.M. 2019a. Adaptive properties of maize forms for improvement in the ecological status of fields. Ukrainian Journal of Ecology, 9, 33–37.
16. Kolisnyk O.M., Khodanitska O.O., Butenko A.A., Lebedieva N.A., Yakovets L.A., Tkachenko O.M., Ihnatieva O.L., Kurinnyi O.V. 2020. Influence of foliar feeding on the grain productivity of corn hybrids in the conditions of the right–bank forest– steppe of Ukraine. Ukrainian Journalof Ecology, 10(2), 40–44, https://doi.org/10.15421/2020_61
17. Kolisnyk O.M., Onopriienko V.P., Onopriienko I.M., Kandyba N. M., Khomenko L. M., Kyrychenko T.O., Tymchuk D.S., Tymchuk N.F. 2020. Study of correlations between yield inheritance and resistance of corn self–pollinating lines and hybrids to pathogens. Ukrainian Journal of Ecology, 10(1), 220–225.
18. Kovalenko V., Kovalenko N., Gamayunova V., Butenko A., Kabanets V., Salatenko I., Vandyk, M. 2024a. Ecological and technological evaluation of the nutrition of perennial legumes and their effectiveness for animals. Journal of Ecological Engineering, 25(4), 294–304. https://doi.org/10.12911/22998993/185219
19. Kovalenko V., Kovalenko N., Gamayunova V., Butenko A., Kabanets V., Salatenko I., Kandyba N., Vandyk M. 2024b. Ecological and technological evaluation of the nutrition of perennial legumes and their effectiveness for animals. Journal of Ecological Engineering, 25(4), 294–304. https://doi.org/10.12911/22998993/185219
20. Kovalenko V., Tonkha O., Fedorchuk M., Butenko A., Toryanik V., Davydenko G., Bordun R., Kharchenko S., Polyvanyi A. 2024c. The influence of elements of technology and soil–dimatic factors on the agrobiological properties of onobrychis viciifolia. Ecological Engineering & Environmental Technology, 25(5), 179–190. https://doi.org/10.12912/27197050/185709
21. Mazur O., Tkachuk O., Mazur O., Voloshyna O., Tunko V., Yakovets L. 2024. Formation of yield and grain quality of spring barley depending on fertiliser optimisation. Ecological Engineering & Environmental Technology, 25(4), 282–291.
22. Mazur V., Tkachuk O., Pantsyreva H., Demchuk O. 2021. Quality of pea seeds and agroecological condition of soil when using structured water. Scientific Horizons, 24(7), 53–60. https://doi.org/10.0.187.205/scihor.24
23. Naik K., Mishra S., Srichandan H., Singh P.K., Choudhary A. 2020. Microbial formulation and growth of cereals, pulses, oilseeds and vegetable crops. Sustain Environ Res, 30(10). https://doi.org/10.1186/s42834–020–00051–x
24. Palamarchuk V.D., Didur I.M., Kolisnyk O.M., Alekseev O.O. 2020. Aspects of modern technology of growing high–starch corn in the right–bank forest–steppe. Vinnytsia, 535.
25. Palamarchuk V.D., Doronin V.A., Kolisnyk O.M., Alekseev O.O. 2022. Basics of seed science (theory, methodology, practice). Vinnytsia: Print, 392.
26. Palamarchuk V.D., Klymchuk O.V., Polishchuk I.S., Kolisnyk O.M. 2010. Ecological–biological and technological principles of growing of field crops. Navch. posibnyk Vinnytsya, 636.
27. Palamarchuk V.D., Krychkovsky V.Yu., Rudska N.O., Kolisnyk O.M. 2023. The latest technologies for growing vegetable crops and corn using the digestate of biogas plants Vinnytsia: Druk, 296.
28. Petrychenko V.F., Lykhochvor V.V. 2014. Plant growing. Technologies for growing agricultural crops: a study guide. 4th ed., ed. and additional Lviv: Ukrainian technologies, 1040.
29. Petrychenko V.F., Lykhochvor V.V., Ivanyuk S.V. 2016. Soy: monograph Vinnytsia: Dilo, 392.
30. Radchenko M., Trotsenko V., Butenko A., Hotvianska A., Gulenko O., Nozdrina N., Karpenko O., Rozhko V. 2024. Influence of seeding rate on the productivity and quality of soft spring wheat grain. Agriculture and Forestry, 70(1), 91–103 https://doi.org/10.17707/AgricultForest.70.1.06
31. Radchenko M., Trotsenko V., Butenko A., Masyk I., Bakumenko O., Butenko S., Dubovyk O., Mikulina M. 2023. Peculiarities of forming productivity and quality of soft spring wheat varieties. Agriculture and Forestry, 69(4), 19–30. https://doi.org/10.17707/AgricultForest.69.4.02
32. Silva P.S.T., Cassiolato A.M.R., Galindo F.S., Jalal A., Nogueira T.A.R., Oliveira, C.E.D.S., Filho M.C.M.T. 2022. Azospirillum brasilense and zinc rates effect on fungal root colonization and yield of wheat–maize in tropical savannah conditions. Plants, 11(22), 3154. https://doi.org/10.3390/plants11223154
33. Snitynskyi V. Razanov S. Hnativ P. Bahmat O. Kutsenko M. Kolisnyk O. 2023. Phytoremediation of Cs contaminated sod–hjdzolic soil in Northern Polissia white sweet clover (Velilotus albus) International journal of Environmental Studies. 1–8.
34. Sousa S.M., Oliveira C.A., Andrade D.L., Carvalho C.G., Ribeiro V.P., Pastina M.M., Marriel I.E., Paula Lana U.G., Gomes E.A. 2021. Tropical Bacillus strains inoculation enhances maize root surface area, dry weight, nutrient uptake and grain yield. Journal of Plant Growth Regulation, 40(2), 867– 877. https://doi.org/10.1007/s00344–020–10146–9
35. Tsvei Ya.P., Prysiazhniuk O.I., Horash O.S., Klymchuk O.V., Klymyshena R.I. Shudrenko I.V. 2020. Effect of crop rotation and fertilization of sugar beet on the formation of maximum bioethanol yield. Plant, 20(2), 268–274.
36. Tsyuk O., Tkachenko M., Butenko A., Mishchenko Y., Kondratiuk I., Litvinov D., Tsiuk Y., Sleptsov Y. 2022. Changes in the nitrogen compound transformation processes of typical chernozem depending on the tillage systems and fertilizers. Agraarteadus, 33(1), 192–198. https://doi.org/10.15159/jas.22.23

Typ dokumentu

Bibliografia

Identyfikatory

DOI

10.12912/27197050/188638

Identyfikator YADDA

bwmeta1.element.baztech-7143f8f0-05d7-4f6d-ac0a-14c07deeb38b