Вплив різних умов підживлення на синтез фенольних сполук і пігментний комплекс хвої сіянців сосни звичайної

Authors

  • А. Пінчук Національний університет біоресурсів і природокористування України
  • А. Ліханов Інститут еволюційної екології НАН України

Abstract

Abstract. Cultivation of qualitative planting material involves optimal extra nutrition conditions, which requires understanding of biochemical and physiological processes associated with seedlings adaptation. A reliable integral indicator of plants viability is plastidial pigments composition, oxidoreductases activity, secondary metabolites synthesis, including phenolic compounds of pigmental complex.

Research results of water-soluble fertilizers “Harmoniya”, “Rozsada-start” and “Novofert-Universal” on phenolic substances content in pine seedlings needles in their extra nutrition different conditions are given. Peculiarities of phenolic compounds synthesis, content and ratio of plastidial pigments in Scots pine seedlings needles under water-soluble fertilizers influence are shown.

Author Biographies

А. Пінчук, Національний університет біоресурсів і природокористування України

кандидат сільськогосподарських наук, докторант кафедри відтворення лісів та лісових меліорацій

А. Ліханов, Інститут еволюційної екології НАН України

кандидат біологічних наук, доцент, старший науковий співробітник відділу дендрології та паркознавства

References

Volynets, A. P. (2013). Fenolnye soedynenyia v jyznedeiatelnosty rastenyu [Phenolic compounds in plant activity]. Mynsk, 283.

Zaprometov, M. N. (1993). Fenolnye soedynenyia. Rasprostranenye, metabolyzm i funkcyu v rastenyiax [Phenolic compounds. Distribution, metabolism and function in plants]. Moskva, 272.

Lykhanov, A. F. Sereda, O. V., Kliachenko, & O. L., Melnychuk, M. D. (2018). Vplyv oksykorychnyx i oksybenzoynux kyslot na syntez plastydnyx pygmentov I fenolnyx spolyk v lystkax vynogradu (Vitis vinifera) in vitro [Influence of oxycoric and oxybenzoic acids on synthesis of plastid pigments and fenolic compounds in the leaves of common grape vine (Vitis vinifera) in vitro]. Plant Physilogy and Genetics, 50, 4, 331–343.

Sybgatullina, G. V., Haertdynova, E. A., Gumerova, E. A., & et al. (2011). Metody opredelenia redoks-statusa kultyvyruemyx kletok rastenyu [Methods for determining the redox status of cultured plant cells]. Kazan, 61.

Pinchuk, A. P., & Gengalo, O. M. (2015). Efektyvnyst pozakorenevyx pydjyvlen dlia pydvyschennya produktyvnosty nakopychennia masy ta elementyv myneralnogo jyvlennia syianciamu sosny [Efficiency of foliar feeding to increase the productivity of mass accumulation and mineral nutrition elements by pine seedlings]. Forestry and Landscape Gardening, 8. Availabe at: http://ejournal.studnubip.com/zhurnal-8/ukr/pinchuk_henhalo/.

Sudachkova, N. E. Celi i perspektivy fiziologo-biohimicheskih issledovanij drevesnyh rastenij Sibiri [Goals and prospects of physiological and biochemical studies of woody plants of Siberia]. Available at: http://www.professors.ru/A_Sudachkova.html.

Beggs, C. J., Wellmann E., & Grisebach, H. (1986). Photocontrol of flavonoid biosynthesis. In: Kendrick R. E., Kronenberg G. H. M. (eds). Morphogenesis in plants. Martinus Nijhoff, Dordrecht, 467–499.

Fliegmann, J., Schroder, G., Schanz, S., Britsch, L., & Schroder, J. (1992). Molecular analysis of chalcone and dihydropinosylvin synthase from Scots pine (Pinus sylvestris) and differential regulation of these and related enzyme activities in stressed plants. Plant Molecular Biology, 18, 489–503.

Grana E., Costas-Gil A., Longueira S., Celeiro M., Teijeira M., Reigosa M. J., & Sanchez-Moreiras A. M. (2017). Auxin-like effects of the natural coumarin scopoletin on Arabidopsis cell structure and morphology. Journal of Plant Physiology, 218, 45–55.

Wrolstad, R. & et al. (eds.). (2005). Handbook of Food Analytical Chemistry: Pigments, Colorants, Flavors, Texture, and Bioactive Food Components – Pigments and colorants. F. 4, 175–176.

Pinchuk, A. P., Likhanov, A. F., Babenko, L. P., Kryvtsova, M. V., Demchenko, O. A., Sherbakov, O. B., Lazarenko, L. M., & Spivak, M. Ya. (2017). The influence of cerium dioxide nanoparticles on seed germination and secondary metabolism of pine seedlings (Pinus sylvestris L.). Biotechnologia Acta, 10, 5, 14.

Schnitzler, J.-P., Jungblut, T. P., Feicht, C., Kоfferlein, M., Langebartels, C., Heller, W., & Sandermann, H. (1997). UV-B induction of flavonoid biosynthesis in Scots pine (Pinus sylvestris L.) seedlings. Jr. Trees, 11, 162–168.

Downloads

Published

2019-05-21

Issue

No. 288 (2018)

Section

Статті

License

Relationship between right holders and users shall be governed by the terms of the license Creative Commons  Attribution – non-commercial – Distribution On Same Conditions 4.0 international (CC BY-NC-SA 4.0):https://creativecommons.org/licenses/by-nc-sa/4.0/deed.uk

Authors who publish with this journal agree to the following terms:

  • Authors retain copyright and grant the journal right of first publication with the work simultaneously licensed under a Creative Commons Attribution License that allows others to share the work with an acknowledgement of the work's authorship and initial publication in this journal.
  • Authors are able to enter into separate, additional contractual arrangements for the non-exclusive distribution of the journal's published version of the work (e.g., post it to an institutional repository or publish it in a book), with an acknowledgement of its initial publication in this journal.
  • Authors are permitted and encouraged to post their work online (e.g., in institutional repositories or on their website) prior to and during the submission process, as it can lead to productive exchanges, as well as earlier and greater citation of published work (See The Effect of Open Access).