Warianty tytułu
Języki publikacji
Abstrakty
The purpose of the article was to determine how foliar treatments of plants with environmentally friendly combined-action substances affect the yield of new sunflower hybrids under non-irrigated conditions of the Ukrainian Steppe zone. The field experiments were conducted in 2021–2022 on the experimental field of the Mykolaiv State Agricultural Research Station of the Institute of Climate-Smart Agriculture of the National Academy of Agrarian Sciences of Ukraine under non-irrigated conditions on southern chernozem. The humus content in the arable soil layer was 2.90%, the depth of the humus layer was 0–30 cm, and the transitional layer was 30–60 cm. The research was conducted by establishing a three-factor field experiment, where factor A was sunflower hybrids of the Plant Production Institute named after V.Ya. Yuriev of National Academy of Agrarian Sciences of Ukraine - Vyrii, Yarylo, Blysk, Yaskravy and Epikur; factor B – different plant densities (30, 40 and 50 thousand/ha) and factor C – treatment of vegetative plants in the phase of budding with substances of biological origin (Helafit Combi, Organic Balance and Biocomplex BTU). The field experiment was located on the winter wheat forecrop. Fertilizers were applied during the main cultivation at a dose of N30P30K30. Sowing was carried out with a row spacing of 70 cm in the last decade of April. Yield accounting and the evaluation of the crop structure were carried out by manual threshing of plants selected from the accounting area of the test plots and recalculation by 8% seed moisture. From the results of observations, it was found that the foliar treatments of sunflowers with environmentally friendly combined-action substances contributed to the prolongation of the interphase periods in the second half of the growing season of all studied hybrids. Treatment of plants with environmentally friendly substances helped to reduce the level of damage to all hybrids by pathogenic microflora, the highest fungicidal efficacy was observed in Hela Fit Combi and Organic Balance. All hybrids formed the highest yields at a density of 40 thousand units/ha. Dense plantings up to 50 thousand units/ha were inferior in yield to the ones with a planting density of 40 thousand units/ha and were almost at the same level as the ones with 30 thousand units/ha. Hybrids Yarylo, Epikur and Yaskravy were significantly inferior in productivity; however, their foliar treatments also had a similar tendency to increase their productivity.
Słowa kluczowe
Rocznik
Tom
Strony
45--54
Opis fizyczny
Bibliogr. 27 poz., rys., tab.
Twórcy
autor
- Mykolayiv National Agrarian University George Gongadze St., 9, Mykolayiv, 54020, Ukraine, jdomar1981@gmail.com
autor
- Mykolayiv National Agrarian University George Gongadze St., 9, Mykolayiv, 54020, Ukraine
autor
- Mykolayiv National Agrarian University George Gongadze St., 9, Mykolayiv, 54020, Ukraine
autor
- Kherson State Agrarian and Economic University, 73006, Kherson, Stritens'ka, Ukraine
autor
- Mykolayiv National Agrarian University George Gongadze St., 9, Mykolayiv, 54020, Ukraine
Bibliografia
- 1. Agrawal, S., Kumar, V., Kumar, S., Kumar Shahi, S. 2022. Plant development and crop protection using phytonanotechnology: A new window for sustainable agriculture. Chemosphere, 299, 134465.
- 2. Cheng, Yu, Luo, M., Zhang, T., Yan, S., Wang, Ch., Dong, Q., Feng, H., Zhang, T., Kisekka, I. 2023. Organic substitution improves soil structure and water and nitrogen status to promote sunflower (Helianthus annuus L.) growth in an arid saline area. Agricultural Water Management, 283, 108320.
- 3. Debaeke, P., Attia, F., Champolivier, L., Dejoux, J.-F., Micheneau, A., Al Bitar, A., Trépos, R. 2023. Forecasting sunflower grain yield using remote sensing data and statistical models. European Journal of Agronomy, 142, 126677.
- 4. Domaratskіy Ye. 2021. Leaf Area Formation, Photosyntetic Activity of Sunflower Plents Depending on Fertilizers and Growth Regulators. Journal of Ecological Engineering, 22(6), 99–105.
- 5. Domaratskіy Ye., Kozlova O., Dobrovolskiy A. and Bazaliy V. 2022. Optimization of water consumption of high-oleic sunflower hybrids under nonirrigated conditions of the steppe zone of Ukraine. Journal of Ecological Engineering, 23(6), 14–21.
- 6. Domaratskіy, Ye., Bazaliy, V., Dobrovolskiy, A., Pichura, V., Kozlova O. 2022. Influence of Eco-Safe Growth-Regulating Substances on the Phytosanitary State of Agrocenoses of Wheat Varieties of Various Types of Development in Non-Irrigated Conditions of the Steppe Zone. Journal of Ecological Engineering, 23(8), 299–308.
- 7. Ebi, K.L., Anderson, C.L., Hess, J.J., et al., 2021. Nutritional quality of crops in a high CO2 world: an agenda for research and technology development. Environ. Res. Lett. 16(6), 064045.
- 8. Fei, Ch., Jagermeyr, J., McCarl, B, Contrerasf, E., Mutterf, C., Phillipsf, M., Ruane, A., Sarofim, M., Schultz, P. Vargo, A. 2023. Future climate change impacts on U.S. agricultural yields, production, and market. Anthropocene, 42, 100386.
- 9. Giannini, V., Mula, L., Carta, M., Patteri, G., Roggero P.-P. 202). Interplay of irrigation strategies and sowing dates on sunflower yield in semi-arid Mediterranean areas. Agricultural Water Management, 260, 107287.
- 10. Hussain, M., Farooq, Sh., Hasan, W., Ul-Allah, S., Tanveer, M., Farooq, M. Nawaz, A. 2018. Drought stress in sunflower: Physiological effects and its management through breeding and agronomic alternatives. Agricultural Water Management, 201, 152–166.
- 11. Kuznetsov, I., Alimgafarov, R., Islamgulov, D., Nafikova, A., Dmitriev, A. 2021. Effect of growth regulator Melafen and chelated fertilizer Metallocene on yield and quality of winter wheat. Biocatalysis and Agricultural Biotechnology, 38, 102198.
- 12. Lee, K. Wang, K. 2023. Strategies for genotypeflexible plant transformation. Current Opinion in Biotechnology, 79, 102848.
- 13. Makarova, T., Domaratskiy, Ye., Hapich, G. Kozlova, O. 2021. Agromeliorative efficiency of phosphogypsum application on irrigation saline soils in the Northern Steppe of Ukraine. Indian Journal of Ecology, 48 (3), 789–795.
- 14. Martsinevskaya, L.V., Pichura, V.I., Tsybenko, V.V. 2018. Successive Steps to Organize Rational Use of Soils for Formation of Ecologically Stable Agro Landscapes. Research Journal of Pharmaceutical, Biological and Chemical Sciences, 9 (3), 172–177
- 15. Medinets, S., Gasche, R., Skiba, U., Medinets, V., Butterbach-Bahl, K. 2016. The impact of management and climate on soil nitric oxide fluxes from arable land in the Southern Ukraine. Atmospheric Environment, 137, 113–126.
- 16. Mitra, D., De Los Santos-Villaribos, S., Parra-Cota, F., Montelongo, A., Blanco, E., Lira, V., Olatunbosun, A., Khoshru, B., Mondal, R., Chidambaranathan, P., Panneerselvam, P., Mohapatra, P. 2023. Rice (Oryza sativa L.) plant protection using dual biological control and plant growth-promoting agents: Current scenarios and future prospects. Pedosphere, 33(2), 268–286.
- 17. Niu, T., Wang, X., Abbas, M., Shen, J., Liu, R., Wang, Z., Liu, A. 2022. Expansion of CONSTANS-like genes in sunflower confers putative neofunctionalization in the adaptation to abiotic stresses. Industrial Crops and Products, 176, 114400.
- 18. Osadchyi, V., Skrynyk, O., Palamarchuk, L., Skrynyk, O., Osypov, V., Oshurok, D., Sidenko, V. 2022. Dataset of gridded time series of monthly air temperature (min, max, mean) and atmospheric precipitation for Ukraine covering the period of 1946–2020. Data in Brief, 44, 108553.
- 19. Petrenko, V., Topalov, A., Khudolii, L., Honcharuk, Yu., Bondar, V. 2023. Profiling and geographical distribution of seed oil content of sunflower in Ukraine. Oil Crop Science, 8(2), 111–120.
- 20. Pichura, V.I., Domaratsky, Y.A., Yaremko, Yu.I., Volochnyuk, Y.G., Rybak V.V. 2017. Strategic Ecological Assessment of the State of the Transboundary Catchment Basin of the Dnieper River Under Extensive Agricultural Load. Indian Journal of Ecology, 44 (3), 442–450.
- 21. Pichura, V.I., Potravka, L.A., Dudiak, N.V., Skrypchuk, P.M., Stratichuk, N.V. 2018. Retrospective and Forecast of Heterochronal Climatic Fluctuations Within Territory of Dnieper Basin. Indian Journal of Ecology, 46 (2), 402–407.
- 22. Pichura. V., Potravka. L., Dudiak. N., Vdovenko. N. 2021. Space-Time Modeling of Climate Change and Bioclimatic Potential of Steppe Soil. Indian Journal of Ecology, 48(3), 671–680.
- 23. Sabaghnia, N., Janmohammadi, M. 2023. Influence of some nano-fertilizers on chickpeas under three irrigation strategie. Plant Nano Biology, 4, 100037.
- 24. Sajyan, T.K., Alturki, S.M., Sassine, Yo.N. 2020. Nano- fertilizers and their impact on vegetables: Contribution of Nano-chelate Super Plus ZFM and Lithovit®- standard to improve salt-tolerance of pepper. Annals of Agricultural Sciences, 65(2), 200–208.
- 25. Soleymani, A. 2017. Light response of sunflower and canola as affected by plant density, plant genotype and N fertilization. Journal of Photochemistry and Photobiology B: Biology, 173, 580–588.
- 26. Ushkarenko V.O. and Vozhegova R.A., 2020. Methodology of the field experiment. Oldie+: Odesa. Ukraine. 448.
- 27. Vancostenoble, B., Blanchet, N., Langlade, N., Bailly, Ch. 2022. Maternal drought stress induces abiotic stress tolerance to the progeny at the germination stage in sunflower. Environmental and Experimental Botany, 201, 104939.
Uwagi
Opracowanie rekordu ze środków MNiSW, umowa nr SONP/SP/546092/2022 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2024).
Typ dokumentu
Bibliografia
Identyfikatory
Identyfikator YADDA
bwmeta1.element.baztech-aa939592-f949-4353-abac-6dddb76366d4