The study of the elemental composition of Iris hungarica and varieties of irises

Authors

  • V. M. Kovalev National University of Pharmacy, Ukraine
  • A. V. Krechun National University of Pharmacy, Ukraine https://orcid.org/0000-0001-5545-9415
  • O. O. Mykhailenko National University of Pharmacy, Ukraine
  • O. V. Gryshyna State Scientific Institution “Institute for Single Crystals” of the National Academy of Sciences of Ukraine, Ukraine

DOI:

https://doi.org/10.24959/nphj.18.2223

Keywords:

irises, leaves, rhizomes, elemental composition, atomic emission spectrometry

Abstract

Aim. To determine the elemental composition of leaves and rhizomes of Iris hungarica and dwarf bearded irises.

Materials and methods. The objects of the study were leaves and rhizomes of Iris hungarica Waldst et Kit. and 5 varieties of standard dwarf bearded irises (Iridaceae). The content of macro- and microelements in the leaves and rhizomes of irises was determined by atomic emission spectrometry.

Results and discussion. For the first time the quantitative content of the mineral complex of Iris hungarica and dwarf bearded irises has been determined by atomic emission spectrometry. In total, 19 elements have been identified; among them there are 5 macroelements (K, Ca, Mg, Na, P), 10 microelements elements (Fe, Si, Al, Mn, Pl, Ni, Mo, Cu, Zn, Sr), 4 ultramicroelements (Co, Cd, As, Hg). The content of heavy, toxic elements are within the permissible limits. The experimental data will be further used to standardize the raw material of irises.

Conclusions. The quantitative content of the mineral complex of Iris hungarica and dwarf bearded irises has been identified. According to the research results the raw material of irises can be recommended as an additional source of macro- and microelements.

Author Biographies

V. M. Kovalev, National University of Pharmacy

 Doctor of Pharmacy (Dr. habil.), professor of the Pharmacognosy Department

A. V. Krechun, National University of Pharmacy

postgraduate student of the Pharmacognosy Department

O. O. Mykhailenko, National University of Pharmacy

 Candidate of Pharmacy (Ph.D.), teaching assistant of the Botany Department

O. V. Gryshyna, State Scientific Institution “Institute for Single Crystals” of the National Academy of Sciences of Ukraine

Senior Engineer

References

Gorelikova, G. A., Shigin, E. V., Maiurnikova, L. A., Tereshchu, L. V. (2007). Khranenie i pererabotka selkhozsyria, 3, 26–30.

Ionete, R. E., Dinca, O. R., Geana, E. I., Costinel, D. (2016). Macro-and microelements as possible markers of quality and authenticity for fruits and derived products. Progress of Cryogenics & Isotopes Separation, 19 (1).

Galam S. (2014). When humans interact like atoms. Understanding group behavior, 1, 293–312.

Nagajyoti, P. C., Lee, K. D., & Sreekanth, T. V. M. (2010). Heavy metals, occurrence and toxicity for plants: a review. Environmental Chemistry Letters, 8 (3), 199–216. https://doi.org/10.1007/s10311-010-0297-8

Krechun, A. V., Kovalev, V. N., Mykhailenko, O. O. (2015). Determination of quantitative composition of xanthones in the undergraund organs of Iris sibirica and Iris hungarica: The material of the conference “Topical issues of new drugs development: abstracts about international scientific and practical conference of young scientists and students” (Kharkiv 23. 04. 2015 ). Kharkiv: NPaU, 44.

Buydin, Yu. V. (2011). Mezhdunarodnaia nauchnaia konferentciia posviashchennaia 170-letiiu Sukhumskogo botanicheskogo sada, 115-letiiu Sukhumskogo subtropicheskogo dendroparka, 80-letiiu professora G. G. Aiba i 105-letiiu professora A. A. Kolakovskogo. (Sukhum, 5-9. 10. 2011). Sukhum, 115–119.

Kovalev, V. N., Zatylˈnikova, O. A., & Kovalev, S. V. (2013). A New Isoflavone from Iris pseudacorus. Chemistry of Natural Compounds, 49 (1), 34–35. https://doi.org/10.1007/s10600-013-0499-y

Asghar, S. F., Choudahry, M. I. (2011). Gas chromatography-mass spectrometry (GC-MS) analysis of petroleum ether extract (oil) and bio-assays of crude extract of Iris germanica. Inter. International Journal of Genetics and Molecular Biology; 3 (7), 95–100.

Krechun, A. V., Zatylnikova, O. A. (2013). Research of the chemical composition of biologically active substances of Iris sibirica L.: The material of the conference “Topical issues of new drugs development: abstracts about the international scientific and practical conference of young scientists and students”. Kharkiv, 8.

Krechun, A. V., Mykhailenko, O. O., Kovalyov, V. M. (2016). Organic and hydroxycinnamic acids of Iris hungarica: Materials of the republican scientific-practical conference (with international participation) “Actual issues of education, science and production in pharmacy”. Tashkent, 6–7.

Wani, S. H., Amin, A., Rather, M. A., Parray, J., Parvaiz, A. Qadri, R. A. (2012). Antibacterial and phytochemical screening of the different extracts of five Iris species growing in Kashmir. Journal of pharmaceutical research, 5 (6), 3376–3378.

Chikhi, I., Allali, H., Dib, M. E. A., Halla, N., Muselli, A., Tabti, B., Costa, J. (2012). Free radical scavenging and antibacterial activity of essential oil and solvent extracts of Iris Planifolia (Mill) from Algeria. Journal of Medicinal Plants Research, 6 (10), 1961–1968.

Kovalev, V. M., Mykhailenko, O. O., Krechun, A. V., Osolodchenko, T. P. (2017). Antimicrobial activity of extracts of Iris hungarica and Iris sibirica. Annals of Mechnikov institute, 2, 57–64. https://doi.org/10.5281/zenodo.803878

Krechun, A. V., Mikhaylenko, O. A., Kovalev, V. N. (2017). Predvaritelnoe izuchenie biologicheski aktivnykh veshchestv nekotorykh sortov roda Iris L. metodom khromatografii: Aktualnye voprosy sovremennoi meditciny i farmatcii 2017: materialy 69-i itogovoi nauchno-prakticheskoi konferentcii studentov i molodykh uchenykh. (Vitebsk, 19-20. 04. 2017). Vitebsk: VSMU, 199 –200.

Mykhailenko, O., Kovalyov, V., Kovalyov, S., Krechun, A. (2017). Isoflavonoids from the rhizomes of Iris hungarica and antibacterial activity of the dry rhizomes extract. Ars Pharmaceutica, 58 (1), 39–45.

Mykhailenko, O. O., Kovalyov, V. M., Kovalyov, S. V., & Krechun, A. V. (2016). Biologically active compounds from the rhizomes of Iris hungarica. Žurnal organìčnoï ta farmacevtičnoï hìmìï, 14 (4 (56)), 63–66. https://doi.org/10.24959/ophcj.16.903

Svanberg S. (2012). Atomic and molecular spectroscopy: basic aspects and practical applications. Springer Science & Business Media.

Trukhacheva, N. V. (2012). Matematicheskaia statistika v mediko-biologicheskikh issledovaniiakh s primeneniem paketa Statistica. Moskva, Rossiia: Geotar Media, 384.

Zatylnikova, O. O. (2013). Ukrainskyi medychnyi almanakh, 16, 30–31.

Tereshkina, O. I., Rudakova, I. P., Gravel, I. V., Samylina, I. A. (2010). Farmatciia, 2, 7–11.

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Published

2018-11-29

Issue

Section

Synthesis and Analysis of Biologically Active Substances