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Morphobiological and Biochemical Characteristics of Monarda L. Varieties under Conditions of the Southern Steppe of Ukraine

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EN
Abstrakty
EN
Promising essential oil plants from the Lamiaceae family, the raw materials of which are a source of valuable essential oil for pharmaceutical, perfume, cosmetic and food industries, pertain to the Monarda L genus. The Monarda didyma L. and Monarda fistulosa L. species were first imported to Ukraine from Europe and America in the middle of the twentieth century, and today they are successfully cultivated as decorative, spicy-aromatic and medicinal plants. The purpose of this study was to determine the morphobiological features, valuable economic and selective traits of Monarda didyma, Monarda fistulosa and Monarda × hybrida hort., developed for the arid conditions of the southern steppe of Ukraine at the Institute of Rice of the NAAS. The experimental part of the study was performed in 2016–2018 on southern sandy and medium loam black soils (chernozem) in the state enterprise (SE) “Research farm “Novokakhovske”. The experiment was conducted using field, laboratory, mathematical and statistical methods in accordance with the generally accepted methods and guidelines in Ukraine. The plants of developed varieties undergo a full cycle of development under arid conditions of the southern steppe of Ukraine and are characterised by an increased decorativeness, goodeconomic value, high drought and winter tolerance as well as the resistance to pest damage. Yield, mass fraction and content of essential oil in the aboveground mass of plants were determined. Maximal plant height (120 cm), yield of aboveground mass (18 t/ha), concentration of essential oil (0.8% of crude mass) and thymol content (78.3%) are typical of the variety of Monarda fistulosa, Premiera. The variety of Monarda fistulosa, Fortuna, and variety of Monarda × hybrida hort., Tonya, were inferior to Premiera in all of the above-mentioned indicators but demonstrated increased decorativeness and greater resistance to the fungi causing powdery mildew (Erysiphe monardae, Golovinomyces biocellatus). Therefore, they can be recommended for region-wide cultivation in the agricultural enterprises of the southern steppe of Ukraine as promising essential oil, spice-aromatic and decorative crops. The yield of essential oil from raw materials of Monarda didyma variety, Nizhnist, was lower by 32.9% and 26.8%, while its concentration was lower by 37.5% and 28.6%, compared to the Monarda fistulosa varieties Premiera and Fortuna, respectively.
Rocznik
Strony
99--107
Opis fizyczny
Bibliogr. 29 poz., rys., tab.
Twórcy
  • Institute of Rice of NAAS, Studentska Street 11, Antonivka, Skadovsk district Kherson region, 75705, Ukraine
  • Institute of Rice of NAAS, Studentska Street 11, Antonivka, Skadovsk district Kherson region, 75705, Ukraine
  • Kherson State Agricultural University, Stritenska Street 23, 73006, Kherson, Ukraine
  • Kherson State Agricultural University, Stritenska Street 23, 73006, Kherson, Ukraine
Bibliografia
  • 1. Beydeman I.N. 1974. The methods to study phenology of plants and its communities, Novosibirsk (in Russian).
  • 2. Collicutt Lynn M., Davidson Campbell G. 1999. ‘Petite Delight’ Monarda. Hort science 34 (1), 149–150.
  • 3. DSTU 7109:2009. 2011–01–01. Fruits of essential oil crops for industrial processing. Methods for determining the mass fraction of essential oil (National Standard of Ukraine). Derzhspozhyvstandart Ukrainy, Kyiv (in Ukrainian).
  • 4. Fedotov S.V. 2015. Essential oils of Monard species Monarda fistulosa l., Monarda didyma l., Monarda citriodora Cervantesexlag., their chemotypes and biological activity. Collection of scientific works of GNBS, 141, 131–147 (in Russian).
  • 5. Fraternale D., Giamperi L., Bucchini A., Ricci D., Epifano F., Burini G., Curini M. 2006. Chemical composition, antifungal and In Vitro antioxidant properties of Monarda didyma L. Essential Oil. Journal of essential oil research, 18 (5), 581–585. doi.org/10.1080/10412905.2006.9699174.
  • 6. Gwinn K.D., Ownley B.H., Greene S.E., Clark M.M., Taylor C.L., Springfield, T.N., Trently D.J., Green, J.F., Reed A., Hamilton S.L. 2010. Role of essential oils in control of Rhizoctonia damping-off in tomato with bioactive Monarda herbage. Phytopatol., 100, 493–501.
  • 7. Jennings W., Shibamoto T. 1980. Qualitative analysis of flavor and fragrance volatiles by glass capillary gas chromatography. Copyright: Elsevier Inc.
  • 8. Kharchenko V.A., Bespalko L.V. Gins V.K. Gins M.S. Baykov A.A. 2015. Monarda is a valuable source of biologically active compounds. Plants physiology and biochemistry, 1(26), 31–35 (in Russian).
  • 9. Laquale S, Avato P., Argentieri M.P., Bellardi M.G., D’Addabbo T. 2018. Nematotoxic activity of essential oils from Monarda species. Journal of pest science, 91, 1115–1125.
  • 10. Makukha O., Markovska O., Mynkina H., Chernyshova Y. 2018. The Impact of Seeding Dates and Depth on the Productivity of Common Fennel (Foeniculum vulgare Mill.) under the Conditions of the Southern Steppe of Ukraine. Research Journal of Pharmaceutical, Biological and Chemical Sciences, 9 (6), 1075–1083.
  • 11. Markovska О, Svydenko L., Stetsenko I. 2020. Comparative assessment of morphometric features and agronomic characteristics of lavandula angustifolia Mill. and lavandula hybrida Rev. Scientific Horizons, 2(87), 24–31 (in Ukrainian). doi: 10.332 49/2663–2144–2020–87–02–24–31.
  • 12. Mastelic J., Jerkovic I., Blazevic I. 2008. Comparative study on the antioxidant and biological activities of carvacrol, thymol, and eugenol derivatives. Journal of Agricultural and Food Chemistry, 1 (56), 3989–3996.
  • 13. Mattarelli P., Epifano F., Minardi P., Di Vito M., Modesto M., Barbanti L. 2017. Chemical composition and antimicrobial activity of essential oils from aerial parts of Monarda didyma and Monarda fistulosa cultivated in Italy. Journal of essential oil bearing plants, 20 (1), 76–86. doi.org/10.1080/0972060X.2016.1278184.
  • 14. Mehdi S. J., Ahmad A., Irshad M. 2011. Cytotoxic effect of Carvacrol on human cervical cancer cells. Biology and Medicine, 2 (3), 307–312.
  • 15. Methods of post-registration study of plant varieties (PSV). 2015. Vinnytsia (in Ukrainian).
  • 16. Methods of examination of plant varieties of medicinal and essential oils for difference, homogeneity and stability. 2016. Ukrainian Institute of Plant Variety Examination. Vinnytsia (in Ukrainian).
  • 17. Methods of examination of plant varieties of ornamental, medicinal and essential oil, forest for suitability for distribution in Ukraine. 2017. Vinnytsia (in Ukrainian).
  • 18. Myadelets M.A., Domrachev D.V., Kriklivaya A.N., Vysochina G.I. 2014. Dependence of the composition of essential oil of Monarda didyma L. (lamiaceae) from the age and nature of plant materials. Chemistry of plant raw materials, 1, 215–219 (in Russian). doi: 10.14258/jcprm.1401215.
  • 19. Oparin R.V., Pokrovsky L.M., Vysochina G.I., Tkachev A.V. 2000. Investigation of the chemical composition of the essential oil Monarda fistulosa L., Monarda didyma L., cultivated in the conditions of Western Siberia. Chemistry of plant raw materials, 3, 19–24 (in Russian).
  • 20. Rabotyagov V.D, Khlypenko L.A., Svidenko L.V., Logvinenko I.E. 2011. New varieties of aromatic and medicinal plants breeding by Nikitsky Botanical Garden. Proceedings of the Nikitsky Botanical Garden, 133, 5–17 [in Russian].
  • 21. Regulations on registration of samples of plant gene pool in the National Center for Plant Genetic Resources of Ukraine. 2012. Kharkiv (in Ukrainian).
  • 22. Ricci D., Epifano F., Fraternale D. 2017. The essential oil of Monarda didyma L. (Lamiaceae) exerts phytotoxic activity in vitro against various weed seed. Molecules, 22(2), 222. doi.org/10.3390/molecules22020222.
  • 23. Rohlfsen W.G. 2016. Methods and uses of high thymoquinone and thymohydroquinone essential oil of Monarda. U.S. Pat. Appl. Publ. US 20160213727 A1.
  • 24. Shevchuk O.M., Feskov S.A. 2017. Species of the genus Monarda L. from the collection of Nikitsky Botanical Gardens as oil-bearing and ornamental plants. Materials of the All-Russian scientific-practical conference, 168–172 (in Russian).
  • 25. Statistical bulletins «Agriculture of Ukraine» for 2010–2018 years (in Ukrainian).
  • 26. Svydenko L.V., Ezhov, V.M. 2015. Prospects for cultivation of some essential oil crops in the Steppe South. Bulletin of Agricultural Science, 6, 20–24 (in Ukrainian).
  • 27. Tucker A.O., DeBaggio T. 2009. The encyclopedia of herbs: A comprehensive reference to herbs of flavor and fregrance. Portland-London: Timber Press.
  • 28. Yanchenko I.A. 2016. The influence of varietal characteristics of Monarda double on the yield of essential oil from vegetable raw materials in the southern steppe of Ukraine. Bulletin of Uman National University of Horticulture, 1, 54–58 (in Ukrainian).
  • 29. Yeshchenko V.O., Kopytko P.H., Kostohryz P.V., Opryshko V.P. 2014. Foundations of scientific investigations in agronomy: textbook. Edelveis i K. Vinnytsia (in Ukrainian).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-07138f9d-fe07-4b8f-8b20-2b5c6acdd61f
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