Application of salicylic acid in growing beta vulgaris l. plants in the context of sustainable agricultural production

Simple item page
dc.citation.epage27
dc.citation.issue6
dc.citation.spage21
dc.contributor.affiliationIvan Franko National University of Lviv
dc.contributor.affiliationLviv Politechnic National University
dc.contributor.authorTsvilynyuk, Olga
dc.contributor.authorTelehii, Liliia
dc.coverage.placenameЛьвів
dc.coverage.placenameLviv
dc.date.accessioned2023-04-25T06:44:50Z
dc.date.available2023-04-25T06:44:50Z
dc.date.created2021-03-03
dc.date.issued2021-03-03
dc.description.abstractThe use of synthetic phytohormones is a promising technology for intensification and greening of agricultural production. Salicylic acid, among the others, is of particular interest. It causes anti-stress activity in plants in response to various adverse environmental factors in the laboratory. The analysis of the results of model field experiments showed that the use of salicylic acid for pre-sowing treatment of beet seeds varieties “Detroit” and “Egyptian flat” improves the habitus of mature plants, increases their water conservation capacity under adverse growth conditions (concentration 1∙10-4 M). In adverse climatic conditions (initially excess moisture, and during the period of active growth and accumulation of nutrients – drought), the mass of the roots of both varieties of beets doubled under the influence of salicylic acid at a concentration of 1∙10-5 M and increased 1.7 times at a concentration of 1∙10-4 M (Detroit beets). This indicates a variety-specific reaction of beet plants to different concentrations of salicylic acid used for pre-sowing seed treatment. The use of salicylic acid in the cultivation of beets can become a priority in the transition of agriculture to the principles of sustainable development in a changing climate.
dc.format.extent21-27
dc.format.pages7
dc.identifier.citationTsvilynyuk O. Application of salicylic acid in growing beta vulgaris l. plants in the context of sustainable agricultural production / Olga Tsvilynyuk, Liliia Telehii // Environmental Problems. — Lviv : Lviv Politechnic Publishing House, 2021. — Vol 1. — No 6. — P. 21–27.
dc.identifier.citationenTsvilynyuk O. Application of salicylic acid in growing beta vulgaris l. plants in the context of sustainable agricultural production / Olga Tsvilynyuk, Liliia Telehii // Environmental Problems. — Lviv : Lviv Politechnic Publishing House, 2021. — Vol 1. — No 6. — P. 21–27.
dc.identifier.doidoi.org/10.23939/ep2021.01.021
dc.identifier.urihttps://ena.lpnu.ua/handle/ntb/58001
dc.language.isoen
dc.publisherВидавництво Львівської політехніки
dc.publisherLviv Politechnic Publishing House
dc.relation.ispartofEnvironmental Problems, 6 (1), 2021
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dc.relation.referencesenAnosheh, H. P., Emam, Y., Ashraf, M., & Foolad, M. R. (2012).
dc.relation.referencesenExogenous application of salicylic acid and chlormequat
dc.relation.referencesenchloride alleviates negative effects of drought stress in
dc.relation.referencesenwheat. Advanced Studies in Biology, 4 (11), 501–520.
dc.relation.referencesenAskari, E., & Ehsanzadeh, P. (2015). Drought stress mitigation
dc.relation.referencesenby foliar application of salicylic acid and their interactive
dc.relation.referenceseneffects on physiological characteristics of fennel
dc.relation.referencesen(Foeniculum vulgare Mill.) genotypes. Acta Physiologiae
dc.relation.referencesenPlantarum, 37(4), 33–47.
dc.relation.referencesenBelyaeva, Yu. V. (2014). Rezultatyi issledovaniya
dc.relation.referencesenvodouderzhivayuschey sposobnosti listovyih plastinok Betula
dc.relation.referencesenpendula Roth. proiznastayuschey v usloviyah antropogennogo
dc.relation.referencesenvozdeystviya. Izvestiya Samarskogo nauchnogo tsentra
dc.relation.referencesenRossiyskoy akademii nauk, 16 (5), 1654–1659. (in Russian).
dc.relation.referencesenRetrieved from http://www.ssc.smr.ru/
dc.relation.referencesenClimate-Data.org. (2019). Bushfire resources: Ukraine
dc.relation.referencesenclimate: weather by month for Ukraine. Retrieved from
dc.relation.referencesenhttps://en.climate-data.org/europe/ukraine-231/
dc.relation.referencesenKaliničenko, O. (2003). Dekoratyvna dendrolohija. Navčalʹnyj
dc.relation.referencesenposibnyk. Kyiv: Vysoka škola. [in Ukrainian]
dc.relation.referencesenKolupaev, J. (2010). Formyrovanye adaptyvnuch reakcyj
dc.relation.referencesenrastenyj na dejstvye abyotyčeskych stressov. Kyiv: Osnova.
dc.relation.referencesen[in Russian]
dc.relation.referencesenKosakivs’ka, I. (2003). Fizioloho-biochimični osnovy adaptaciï
dc.relation.referencesenroslyn do stresiv. Kyiv: Stalʹ. [in Ukrainian]
dc.relation.referencesenKučerenko, M., Babenjuk, J., & Vojcicʹkyj, V. (2001). Sučasni
dc.relation.referencesenmetody biochimičnych doslidženʹ. Kyiv: Ukrsociocentr. [in
dc.relation.referencesenUkrainian]
dc.relation.referencesenMuhammad, A., Habib R., & Muhammad, A. (2007). Does
dc.relation.referencesenexogenous application of salicylic acid through the rooting
dc.relation.referencesenmedium modulate growth and photosynthetic capacity in
dc.relation.referencesentwo differently adapted spring wheat cultivars under salt
dc.relation.referencesenstress?. Jornal of Plant Physiology, 164 (6), 685–694. doi:
dc.relation.referencesenhttps://doi.org/10.1016/j.jplph.2006.05
dc.relation.referencesenPuzik, L., & Hordijenko, L. (2011). Technolohija zberihannja
dc.relation.referencesenplodiv, ovočiv ta vynohradu. Navč. posibnyk Chark. nac.
dc.relation.referencesenahrar. un-t im. V. V. Dokučajeva. Charkiv: KP "Misʹka
dc.relation.referencesendrukarnja". (in Ukrainian)
dc.relation.referencesenRademacher, W. (2000). Growth Retardants: Effects on Gibberellin
dc.relation.referencesenBiosynthesis and Other Metabolic Pathways. Annu. Rev.
dc.relation.referencesenPlant Physiol. Plant Mol. Biol., 51, 501–531. Retrieved
dc.relation.referencesenfrom https://europepmc.org/article/med/15012200
dc.relation.referencesenSibgha N., Muhammad A., Mumtaz H., & Amer, J. (2009).
dc.relation.referencesenExogenous application of salicylic acid enhances antioxidative
dc.relation.referencesencapacity in salt-stressed sunflower (Helianthus annuus L.)
dc.relation.referencesenplants. Pakistan Journal of Botany, 41 (1), 473–479. Retrieved
dc.relation.referencesenfrom https://www.researchgate.net/
dc.relation.referencesenSustainable Development Goals: Ukrain. (2017). Bushfire
dc.relation.referencesenresources: National report. Retrieved from http://un.org.ua/
dc.relation.urihttp://www.ssc.smr.ru/
dc.relation.urihttps://en.climate-data.org/europe/ukraine-231/
dc.relation.urihttps://doi.org/10.1016/j.jplph.2006.05
dc.relation.urihttps://europepmc.org/article/med/15012200
dc.relation.urihttps://www.researchgate.net/
dc.relation.urihttp://un.org.ua/
dc.rights.holder© Національний університет “Львівська політехніка”, 2021
dc.rights.holder© Tsvilynyuk O., Telehii L., 2021
dc.subjectbeets
dc.subjectsalicylic acid (SA)
dc.subjectdrought
dc.subjectwater holding capacity
dc.subjectroot mass
dc.titleApplication of salicylic acid in growing beta vulgaris l. plants in the context of sustainable agricultural production
dc.typeArticle

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Environmental Problems. – 2021. – Vol. 6, No. 1