Akhtaeva, N., Boribay, E., Nurmakhanova, A., Tynybekov, B. and Moldagazyyeva, Z. (2022). Adaptive characteristics of plants in the conditions of technogenic pollution. J. Water Land Dev. 55 (X–XII): 251–58.
Atabayeva, S., Rakhymgozhina, A. B., Nurmahanova, A. S., Kenzhebayeva, S., Usenbekov, B. N., Alybayeva, R., Asrandina, S., Tynybekov, B. M. and Amirova, A. (2022). Rice plants (Oryza sayiva L.) under Cd stress in Fe-deficiency conditions. Biomed Res. Int. 4: 1–23.
Bais, H. P. and Ravishankar, G. A. (2001). Cichorium intybus L. cultivation, processing, utility, value addition and biotechnology with an emphasis on current status and future prospects. J. Sci. Food Agric. 81: 467-84.
Barykina, R. P. and Veselova, T. A. (2004). Reference book on botanical microtechnology. Moscow, PH MSU. pp: 322. (in Russian).
Baytenov, M. S. (2001). Flora of Kazakhstan. In 2 Vol. Almaty: Gylym (in Russian)
Chandra, K. and Jain, S. K. (2016). Therapeutic potential of Cichorium intybus in lifestyle disorders: A review. Asian J. Pharm. Clin. Res. 9: 20-25.
Efremov, A. P. (2014). Medicinal plants and fungi of the central part of Russia. M. Phyton XXI. pр: 504 (in Russian)
Emily Roberson (2008). Nature’s pharmacy, our treasure chest: why we must conserve our natural heritage. A native plant conservation campaign report, New York. pр: 19.
Ferrare, K., Bidel, L. P. R., Awwad, A., Poucheret, P., Cazals, G., Lazennec, F., Azay-Milhau, J., Tournier, M., Lajoix, A. D. and Tousch, D. (2018). Increase in insulin sensitivity by the association of chicoric acid and chlorogenic acid contained in a natural chicoric acid extract (NCRAE) of chicory (Cichorium intybus L.) for an antidiabetic effect. J. Ethnopharmacol. 215: 241-48.
Judzentiene, A. and Badiene, J. B. (2008). Volatile constituents from aerial parts and roots of Cichorium intybus L. (Сhicory) grown in Lithuania. Chemija 19: 25-28.
Kurennov, I. P. (2015). The most necessary medicinal plants. 4th ed., ispr. And add. M. Martin. pр: 224. (in Russian).
Leporatti, M. L. and Ivancheva, S. (2003). Preliminary comparative analysis of medicinal plants used in the traditional medicine of Bulgaria and Italy. J. Ethnopharmacol. 87: 123-42.
Lopez-Munoz, F., Alamo, C. and García-García, P. (2006). The herbs that have the property of healing: the phytotherapy in Don Quixote. J. Ethnopharmacol. 106: 429-41.
Lotova, L. I. (2007). Botany, morphology and anatomy of higher plants: Textbook. 3rd ed. Moscow: pр: 510 (in Russian)
Naida, N. M. (2019). Morpho-anatomical features of vegetative and generative organs of chicory vulgaris in cultural conditions. Agronomy: Proc. Agric. Sci. 3: 11-19. (in Russian)
Nurmahanova, A., Ibisheva, N., Kurbatova, N., Atabayeva, S., Seilkhan, A., Tynybekov, B., Abidkulova, K., Childibaeva, A., Akhmetova, A. and Sadyrova, G. (2023). Comparative anatomical and morphological study of three populations of Salvia aethiopis L. growing in the Southern Balkhash Region. J. Ecol. Eng. 24: 27–38.
Özek, G., Childibayeva, A., Ametov, A., Nurmahanova, A. and Özek, T. (2022). Chemical composition of flower volatiles and seeds fatty acids of rosa iliensis chrshan, an endemic species from Kazakhstan. Records of Natural Products. 16(3): 225–35
Savikin, K., Zdunic, G., Menkovic, N., Zivkovic, J. and Cujic, N. (2013). Ethnobotanical study on traditional use of medicinal plants in southwestern Serbia, Zlatibor district. J. Ethnopharmacol. 146: 803-10.
Serbaeva, E. R., Yakupova, A. B., Magasumova, Y. R., Farkhutdinova, K. A., Akhmetova, G. R. and Kuluyev, B. R. (2020). Inulin: Natural sources, peculiarities of metabolism in plants and practical application. Biomics 12: 57-79 (in Russian). doi:10.31301/2221-6197.bmcs.2020-5.
Sezik, E., Yeşilada, E., Honda, G., Takaishi, Y., Takeda, Y. and Tanaka T. (2001). Traditional medicine in Turkey X. Folk medicine in Central Anatolia. J. Ethnopharmacol. 75: 95-115.
Stanciu, G., Rotariu, R., Popescu, A. and Tomescu, A. (2019). Phenolic and mineral composition of wild chicory grown in Romania. Rev. Chim. 70: 1173- 77.
Atabayeva, S., Rakhymgozhina, A. B., Nurmahanova, A. S., Kenzhebayeva, S., Usenbekov, B. N., Alybayeva, R., Asrandina, S., Tynybekov, B. M. and Amirova, A. (2022). Rice plants (Oryza sayiva L.) under Cd stress in Fe-deficiency conditions. Biomed Res. Int. 4: 1–23.
Bais, H. P. and Ravishankar, G. A. (2001). Cichorium intybus L. cultivation, processing, utility, value addition and biotechnology with an emphasis on current status and future prospects. J. Sci. Food Agric. 81: 467-84.
Barykina, R. P. and Veselova, T. A. (2004). Reference book on botanical microtechnology. Moscow, PH MSU. pp: 322. (in Russian).
Baytenov, M. S. (2001). Flora of Kazakhstan. In 2 Vol. Almaty: Gylym (in Russian)
Chandra, K. and Jain, S. K. (2016). Therapeutic potential of Cichorium intybus in lifestyle disorders: A review. Asian J. Pharm. Clin. Res. 9: 20-25.
Efremov, A. P. (2014). Medicinal plants and fungi of the central part of Russia. M. Phyton XXI. pр: 504 (in Russian)
Emily Roberson (2008). Nature’s pharmacy, our treasure chest: why we must conserve our natural heritage. A native plant conservation campaign report, New York. pр: 19.
Ferrare, K., Bidel, L. P. R., Awwad, A., Poucheret, P., Cazals, G., Lazennec, F., Azay-Milhau, J., Tournier, M., Lajoix, A. D. and Tousch, D. (2018). Increase in insulin sensitivity by the association of chicoric acid and chlorogenic acid contained in a natural chicoric acid extract (NCRAE) of chicory (Cichorium intybus L.) for an antidiabetic effect. J. Ethnopharmacol. 215: 241-48.
Judzentiene, A. and Badiene, J. B. (2008). Volatile constituents from aerial parts and roots of Cichorium intybus L. (Сhicory) grown in Lithuania. Chemija 19: 25-28.
Kurennov, I. P. (2015). The most necessary medicinal plants. 4th ed., ispr. And add. M. Martin. pр: 224. (in Russian).
Leporatti, M. L. and Ivancheva, S. (2003). Preliminary comparative analysis of medicinal plants used in the traditional medicine of Bulgaria and Italy. J. Ethnopharmacol. 87: 123-42.
Lopez-Munoz, F., Alamo, C. and García-García, P. (2006). The herbs that have the property of healing: the phytotherapy in Don Quixote. J. Ethnopharmacol. 106: 429-41.
Lotova, L. I. (2007). Botany, morphology and anatomy of higher plants: Textbook. 3rd ed. Moscow: pр: 510 (in Russian)
Naida, N. M. (2019). Morpho-anatomical features of vegetative and generative organs of chicory vulgaris in cultural conditions. Agronomy: Proc. Agric. Sci. 3: 11-19. (in Russian)
Nurmahanova, A., Ibisheva, N., Kurbatova, N., Atabayeva, S., Seilkhan, A., Tynybekov, B., Abidkulova, K., Childibaeva, A., Akhmetova, A. and Sadyrova, G. (2023). Comparative anatomical and morphological study of three populations of Salvia aethiopis L. growing in the Southern Balkhash Region. J. Ecol. Eng. 24: 27–38.
Özek, G., Childibayeva, A., Ametov, A., Nurmahanova, A. and Özek, T. (2022). Chemical composition of flower volatiles and seeds fatty acids of rosa iliensis chrshan, an endemic species from Kazakhstan. Records of Natural Products. 16(3): 225–35
Savikin, K., Zdunic, G., Menkovic, N., Zivkovic, J. and Cujic, N. (2013). Ethnobotanical study on traditional use of medicinal plants in southwestern Serbia, Zlatibor district. J. Ethnopharmacol. 146: 803-10.
Serbaeva, E. R., Yakupova, A. B., Magasumova, Y. R., Farkhutdinova, K. A., Akhmetova, G. R. and Kuluyev, B. R. (2020). Inulin: Natural sources, peculiarities of metabolism in plants and practical application. Biomics 12: 57-79 (in Russian). doi:10.31301/2221-6197.bmcs.2020-5.
Sezik, E., Yeşilada, E., Honda, G., Takaishi, Y., Takeda, Y. and Tanaka T. (2001). Traditional medicine in Turkey X. Folk medicine in Central Anatolia. J. Ethnopharmacol. 75: 95-115.
Stanciu, G., Rotariu, R., Popescu, A. and Tomescu, A. (2019). Phenolic and mineral composition of wild chicory grown in Romania. Rev. Chim. 70: 1173- 77.
