Tamarix ramosissima is a halophytic species with diuretic, diaphoretic, astringent, analgesic and hemostatic effects. Decoctions and infusions used for various diseases are prepared from it. Infusion of flowers is useful for stomach inflammation, decoction of branches is effective for rheumatism, infusion of leaves and bark is prescribed for diarrhea, bleeding and diseases of the spleen. Tamarix twigs are brewed like tea. In the past, a decoction of the fruits of the plant was used in the Caucasus against infertility, and a decoction of branches treated syphilis. In this work, we investigated the antioxidant and antimicrobial activity of Tamarix ramosissima inflorescence extracts as an additive in the food industry. The results showed that the inflorescences exhibit high antioxidant activity, the degree of inhibition at 20 µl of the studied material is 9 times greater. compared with ascorbic acid and 3 times compared with emoxypine. In addition, tamarisk extracts have shown noticeable antibacterial properties against the Staphylococcus aureus strain. The strongest activity was recorded in 70% of the water-alcohol extract of inflorescences at a minimum concentration of 1 to 10. These data indicate that tamarix can be considered as an interesting source of antioxidants for the therapeutic or nutraceutical industry and for food production. These indicators characterize tamarisk extracts as an object for further study, and without a doubt are promising and little-studied raw materials for the food industry

1. Caparrós P.G. et al. Halophytes have potential as heavy metal phytoremediators: A comprehensive review. Environmental and Experimental Botany. 2022. vol. 193. pp. 104666. doi: 10.1016/j.envexpbot.2021.104666

2. Lopes M. et al. Halophytes as a source of bioactive phenolic compounds and their potential applications. Critical Reviews in Food Science and Nutrition. 2021. pp. 1–24. doi: 10.1080/10408398.2021.1959295

3. Berdimbetova G.E., Orazova Sh. Sh. elemental composition of cistanche saline (cistanchesalsa) growing in the Republic of Karakalpakstan. Universum: chemistry and biology. 2022. no. 5–2 (95). pp. 41–46. doi: 10.32743/UniChem.2022.95.5.13600 (in Russian).

4. Mendeleva V.P., Volkova I.V. The use of plants of the Asteraceae family in phytoremediation of soils of the Astrakhan region. bbk 1 e91. 2020. pp. 27. (in Russian).

5. Zhumasheva A.M. A valuable plant of the flora of Kazakhstan promising as an aphrodisiac. Current trends in science and education. 2020. pp. 15–21. (in Russian).

6. Ksouri R. et al. Medicinal halophytes: potent source of health promoting biomolecules with medical, nutraceutical and food applications. Critical reviews in biotechnology. 2012. vol. 32. no. 4. pp. 289–326. doi: 10.3109/07388551.2011.630647

7. Castañeda-Loaiza V. et al. Wild vs cultivated halophytes: Nutritional and functional differences. Food Chemistry. 2020. vol. 333. pp. 127536. doi:10.1016/j.foodchem.2020.127536

8. Petropoulos S.A. et al. Edible halophytes of the Mediterranean basin: Potential candidates for novel food products. Trends in food science & technology. 2018. vol. 74. pp. 69–84. doi: 10.1016/j.tifs.2018.02.006

9. Sultanova N. et al. Antioxidant and antimicrobial activities of Tamarix ramosissima. Journal of ethnopharmacology. 2001. vol. 78. no. 2–3. pp. 201–205. doi: 10.1016/S0378–8741 (01) 00354–3

10. Ren X. et al. Isorhamnetin and hispidulin from tamarix ramosissima inhibit 2amino1methyl6phenylimidazo [4, 5b] Pyridine (PhIP) formation by trapping phenylacetaldehyde as a key mechanism. Foods. 2020. vol. 9. no. 4. pp. 420. doi: 10.3390/molecules24030390

11. Ren X. et al. Inhibitory Effect of Tamarix ramosissima Extract on the Formation of Heterocyclic Amines in Roast Lamb Patties by Retarding the Consumption of Precursors and Preventing Free Radicals. Foods. 2022. vol. 11. no. 7. pp. 1000. doi: 10.3390/foods11071000

12. Bahramsoltani R. et al. The genus Tamarix: Traditional uses, phytochemistry, and pharmacology. Journal of ethnopharmacology. 2020. vol. 246. pp. 112245. doi: 10.1016/j.jep.2019.112245

13. Shuiskaya E.V., Lebedeva M.P., Kolesnikov A.V., Borisochkina T.I., Toderich K.N. Chemical composition of salts secreted by tamarix (Tamarix ramosissima) growing in conditions of various soil salinization. Byul. Soil. in-ta. 2016. no. 82. Available at: https://cyberleninka.ru/article/n/himicheskiy-sostav-soley-vydelyaemyh-tamariksom-tamarix-ramosissima-proizrastayuschim-v-usloviyah-razlichnogo-zasoleniya-pochv (in Russian).

14. Khasanov V.V., Ryzhova G.L., Maltseva E.V. Methods of research of antioxidants. Chemistry of plant raw materials. 2004. no. 3. pp. 63–75. (in Russian).

15. Fabris S., Bertelle M., Astafyeva O., Gregoris E. et al. Antioxidant properties and chemical composition relationship of Europeans and Brazilians propolis. Pharmacology & Pharmacy. 2013. vol. 4. pp. 64–51. doi:10.4236/pp.2013. 41006

16. Kolenchenko E.A., Sonina L.N., Khotimchenko Y.S. Comparative assessment of antioxidant activity of low-esterified pectin from the sea grass Zostera marina and antioxidant preparations in vitro. Biology of the sea. 2005. vol. 31. no. 5. pp. 380–383. (in Russian).

17. Fedoseeva A.A., Lebedkova O.S., Kanibolotskaya L.V., Shendrik A.N. Antioxidant activity of tea infusions. Chemistry of plant raw materials. 2008. no. 3. pp. 123–127. (in Russian).

18. Bataeva Yu.V. et al. Investigation of antioxidant activity and composition of cyanobacteria metabolites by TLC, VETS, HPLC methods in order to search for environmentally safe cleaning agents. Environmental chemistry. 2018. vol. 27. no. 4. pp. 175–181. (in Russian).

19. Astafyeva O.V., Zharkova Z.V., Genatullina G.N. Investigation of phenolic compounds and antioxidant activity of extracts of inflorescences of Tagetes Patula L. Bulletin of New Medical Technologies. Electronic edition. 2021. vol. 15. no. 4. pp. 116–120. (in Russian).

20. Shpigun L.K., Zamyatina N.N., Shushenachev Ya.V., Kamilova P.M. Methods of quantitative assessment of antioxidant activity of medicinal substances based on free radical reactions. Proceedings of the annual scientific conference – competition of the IONKH RAS. Moscow. 2010. pp. 148–151. (in Russian).

21. Astafyeva O.V. et al. Investigation of the chemical composition and antimicrobial activity of extracts from inflorescences of Tagetes Patula L. Modern problems of science and education. 2020. no. 6. pp. 178–178. (in Russian).