Assessment of the Effect of Biological Growth-Regulating Preparations on the Yield of Agricultural Crops under the Conditions of Steppe Zone

Skok, Svetlana; Breus, Denys; Almashova, Viktoria

doi:10.12911/22998993/163494

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Tytuł artykułu

Assessment of the Effect of Biological Growth-Regulating Preparations on the Yield of Agricultural Crops under the Conditions of Steppe Zone

Autorzy

Skok Svetlana , Breus Denys , Almashova Viktoria

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DOI

10.12911/22998993/163494

Warianty tytułu

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Abstrakty

Increasing the production of high-quality agricultural products with minimal negative impact on environmental components is one of the priority tasks of modern agriculture. Due to the global world trends aimed at ensuring a sustainable and safe economy and reducing the use of chemical protection agents, it is predicted that the share of alternative biological methods in the European agricultural sector will increase to 10%, the area of agricultural land for organic farming will increase by 50%. Under the conditions of intensification of agricultural production, a comprehensive approach to the use of microelements and microbial biological preparations, which enhance growth processes, anti-stress, protective effect and increase the yield of agricultural crops, becomes expedient. The article deals with the effects of biological growth-regulating preparations on winter wheat, sunflower hybrids, and vegetable peas. It was established that when processing winter wheat with the “Grainactive-C” preparation, the greatest increase in grain yield was observed under the conditions of 3-fold treatment of crops in the phase of tillering, flag leaf, and grain filling (3.2 t/ha, or 18%). At the same time, the greatest effect was recorded when treating crops in the tillering phase, where the yield increase was 2.9 c/ha, or +16% compared to the control. It has been studied that the effectiveness of the preparation “Nano-Agro” when applied to sunflower hybrids also depends on the time of its application. The same increase – 0.9 t/ha of seeds (+12% compared to the control) was observed during pre-sowing treatment of seeds and during the vegetation phase (before flowering), but the yield increase when treating sunflower after flowering phase was only 0.32 t/ha (4%). In order to restore disturbed soils and increase the efficiency of agricultural production, the introduction of leguminous crops into the crop rotation becomes important, after harvesting them up to 80 kg/ha of biological nitrogen remains and humus accumulates in the arable layer of the soil up to 10.8 t/ha. Treatment of vegetable peas seeds with Rhizohumin contributed to the accumulation of humus by 3.96 t/ha. Through field studies, the article proves the positive effect of growth-regulating preparations on agricultural crops under the conditions of the Steppe zone of Ukraine.

Słowa kluczowe

agricultural land winter wheat sunflower hybrid vegetable pea growth-regulating preparation organic agriculture

Wydawca

Polskie Towarzystwo Inżynierii Ekologicznej
Lublin University of Technology

Czasopismo

Journal of Ecological Engineering

Rocznik

2023

Tom

Vol. 24, nr 7

Strony

135--144

Opis fizyczny

Bibliogr. 18 poz., rys., tab.

Twórcy

autor

Skok Svetlana

breusd87@gmail.com

Kherson State Agrarian and Economic University, Stritens’ka str. 23, 73006, Kherson, Ukraine

https://orcid.org/0000-0003-3178-0292

autor

Breus Denys

Kherson State Agrarian and Economic University, Stritens’ka str. 23, 73006, Kherson, Ukraine

https://orcid.org/0000-0001-7238-518X

autor

Almashova Viktoria

Kherson State Agrarian and Economic University, Stritens’ka str. 23, 73006, Kherson, Ukraine

https://orcid.org/0000-0001-6180-1096

Bibliografia

1. Afreen S., Omar R.A., Talreja N., Chauhan D., Mangalaraja R.V., Ashfaq M. 2022. Nanostructured materials based on copper/carbon as a plant growth stimulant. Nanobiotechnology for Plant Protection, 367–391. https://doi.org/10.1016/B978-0-12-823833-2.000040
2. Ben Mrid R., Benmrid B., Hafsa J., Boukcim H.,Sobeh M., Yasri A. 2021. Secondary metabolites as biostimulant and bioprotectant agents: A review. Science of The Total Environment, 777. https://doi.org/10.1016/j.scitotenv.2021.146204
3. Boiko T.O., Boiko P.M., Breus D.S. 2018. Optimization of shelterbelts in the Steppe zone of Ukraine in the context of sustainable development. Proc. 18-th International Multidisciplinary Scientific GeoConference SGEM 2018, 871–876.
4. Breus D., Dudyaeva O., Evtushenko O., Skok S. 2018. Organic agriculture as a component of the sustanable development of the Kheson region (Ukraine). Proc. 18-th International Multidisciplinary Scientific GeoConference SGEM 2018, 691–697.
5. Breus D., Skok S. 2021. Spatial modelling of agroecological condition of soils in steppe zone of Ukraine. Indian Journal of Ecology, 48(3), 627–633.
6. Breus D., Yevtushenko O. 2022. Modeling of trace elements and heavy metals content in the steppe soils of Ukraine. Journal of Ecological Engineering, 23(2), 159–165.
7. Dudiak N., Pichura V., Potravka L., Stratichuk N. 2021. Environmental and economic effects of water and deflation destruction of steppe soil in Ukraine. Journal of Water and Land Development, 50, 10–26. https://doi.org/10.24425/jwld.2021.138156
8. Dudiak N.V., Potravka L.A., Stroganov A.A. 2019. Soil and climatic bonitation of agricultural lands of the steppe zone of Ukraine. Indian Journal of Ecology, 46(3), 534–540.
9. Hashem A., Tabassum B., Fathi Abd Allah E. 2019. Bacillus subtilis: a plant-growth promoting Rhizobacterium that also impacts biotic stress. Saudi Journal of Biological Sciences, 26(6), 1291–1297.
10. Holtappels D., Fortuna K., Lavigne R., Wagemans J. 2021. The future of phage biocontrol in integrated plant protection for sustainable crop production. Current Opinion in Biotechnology, 68, 60–71. https://doi.org/10.1016/j.copbio.2020.08.016
11. Ma Y. 2019. Seed coating with beneficial microorganisms for precision agriculture. Biotechnology Advances, 37(7). https://doi.org/10.1016/j.biotechadv.2019.107423
12. Müller T., Behrendt U. 2021. Exploiting the biocontrol potential of plant-associated pseudomonads – A step towards pesticide-free agriculture. Biological Control, 155(1–2), 104538. https://doi.org/10.1016/j.biocontrol.2021.104538.
13. Nemea K., Nafady A., Uddin S., Tola Y.B. 2021. Application of nanotechnology in agriculture, postharvest loss reduction and food processing: food security implication and challenges. Heliyon, 7(12). https://doi.org/10.1016/j.heliyon.2021.e08539
14. Pichura V., Potravka L., Domaratskiy E., Stratichuk N., Baysha K., Pichura I. 2023. Long-term Changes in the Stability of Agricultural Landscapes in the Areas of Irrigated Agriculture of the Ukraine Steppe Zone. Journal of Ecological Engineering, 24(3), 188–198. https://doi.org/10.12911/22998993/158553
15. Pichura V., Potravka L., Dudiak N., Stroganov A., Dyudyaeva O. 2021a. Spatial differentiation of regulatory monetary valuation of agricultural land in conditions of widespread irrigation of steppe soils. Journal of water and land development, 48(I–III), 182–196. https://doi.org/10.24425/jwld.2021.136161
16. Pichura V., Potravka L., Dudiak N., Vdovenko N. 2021b. Space-time modeling of climate change and bioclimatic potential of steppe soils. Indian Journal of Ecology, 48(3), 671–680.
17. Pichura V.I., Potravka L.A., Skrypchuk P.M., Stratichuk N.V. 2020.Anthropogenic and climatic causality of changes in the hydrological regime of the Dnieper river. Journal of Ecological Engineering, 21(4), 1–10. https://doi.org/10.12911/22998993/119521
18. Singh A., Tiwari S., Pandey J., Lata C., Singh I.K. 2021. Role of nanoparticles in crop improvement and abiotic stress management. Journal of Biotechnology, 337, 57–70. https://doi.org/10.1016/j.jbiotec.2021.06.022

Typ dokumentu

Bibliografia

Identyfikator YADDA

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