Influence of ecological and geographical conditions on the content of phenolic compounds and ascorbic acid of medicinal plants
Year: 2020
Pages: 475-479
Number: Volume 12, issue 4
DOI: https://doi.org/10.31301/2221-6197.bmcs.2020-41
Topic: Article
Authors: Bimenyindavyi E., Timofeeva O.A.
Summary:
The aim of our study was to evaluate the dependence of the accumulation of phenolic compounds (soluble phenolic compounds and tannins) and ascorbic acid in different parts of three medicinal plants: Bidens tripartita, Urtica dioica and Chenopodium album on the place of growth. The plants were collected from three regions of Tatarstan (Vysokogorsky, Laishevsky and Spassky region. The results showed that the accumulation of these substances in the studied plants differs in different parts of the plants, depending on the place of growth. B. tripartita is the richest in the studied substances. Vysokogorsky and Spassky regions turned out to be areas with the best plant raw materials.
Keywords:
Bidens tripartita, Urtica dioica, Chenopodium album, ascorbic acid, tannins, soluble phenolic compounds
References:
- Andreeva V.Yu., Kalinkina G.I., Sibgatullina G.V., Khaertdinova L.R., Gumerova E.A., Akulov A.N., Kostyukova A.Yu., Nikonorova A.N., Rumyantseva I .N., "Development of methods for determining the redox status of cultured plant cells", Teaching aid, Kazan: Kazan (Volga Region) Federal University. 2011. P.36-45. (In Russian)
- Isik O., Leyla H., Selin S., Şevket G., Yaşar D.,Tolga G. The effect of the Environmental factors on the vitamin C (Ascorbic Acid), E (Alpha-tocopherol), βcarotene contents and the Fatty Acid Composition of Spirulina platensis. Journal of Fisheries & Aquatic Sciences. 2006. V.23(3-4). P. 257–261.
- Khondoker S.A., Rajib B., M. Hemayet H.,Ismet A. J., Vitamin C (L-ascorbic Acid) Content in different parts of Moringa oleifera grown in Bangladesh. American chemical science journal. 2016.V.11(1). P.1-6. doi: 10.9734/ACSJ/2016/21119
- Kleinwachter M., Selmar D., New insights explain that drought stress enhances the quality of spice and medicinal plants: Potential applications. Agron. Sustain. Dev. 2015. V. 35. P. 121-131. doi: 10.1007/s13593-014-0260-3
- Kondratyev M.N., Ronzhina E.S., Larikova Yu.S., Influence of abiotic stresses on the metabolism of secondary compounds in plants. Scientific journal "Izvestia KGTU". 2018. №49. P.203-219.
- Mohiuddin A., Impact of various environmental factors on secondary metabolism of medicinal plants. J. Pharmacology & Clin Res. 2019. V. 7(1). P.1-11. doi: 10.19080/jpcr.2019.07.555704
- Rezende W.P., Borges L.L., Santos D.L., Alves N.M., Paula J.R., .Effect of environmental factors on phenolic compounds in leaves of Syzygium jambos (L.) Alston (Myrtaceae). Mod Chem Appl. 2015. V.3 (2). P.1-6. doi: 10.4172/2329-6798.1000157
- Sarker U., Oba S., Drought stress enhances nutritional and bioactive compounds, phenolic acids and antioxidant capacity of Amaranthus leafy vegetable. BMC Plant Biology. 2018. V.18(2580). P.1-15. doi: 10.1186/s12870-018-1484-1
- Shamloo M., Elizabeth A.B., Agnelo F., Robert J. H., Peter K. E., Peter J. H. J., Effects of genotype and temperature on accumulation of plant secondary metabolites in Canadian and Australian wheat grown under controlled environments. Scientific Reports.2017. V.7: 9133 .P.1-13. doi: 10.1038/s41598-017-09681-5
- Suleimanov F.Sh., Determination of tannins in green folder Solidago сanadensis L. The Journal of scientific articles “Health and Education Millennium”. 2017. V.19(12). P.302-306. doi: 10.26787/nydha-2226-7425-2017-19-12
- Sviridenko V.G., Khadanovich A.V., Lysenkova A.V., Filippova V.A. Accumulation of macroelements and ascorbic acid in medicinal plants. Health and environmental issues. 2012. №3(33). P.137-142.