The article presents the features of biology and
ecology, growth and development of various Lycium L. species in different
ecological conditions of Uzbekistan. The distribution area covers mainly semi-desert
and desert zones of Uzbekistan and the description of co-growing coenoses is
presented. Based on the study of ecological and biological properties and
economically valuable characteristics of Lycium L. species, ecologically
significant species were selected as a source material for introduction into
culture and use in pharmacology. Useful properties and harms are presented.
References
[1]
Granitov, A.I. (1980) Methodological Guidelines for the Geobotanical Survey of Natural Forage Lands of Uzbekistanp. 170. (In Russian)
[2]
Khalmatov, Kh. (1964) Wild Medicinal Plants of Uzbekistan. Medicina, Tashkent. 3-7. (In Russian)
[3]
Khaydarov, Kh., Mukimov, T., Islamov, B. and Nurullayeva, N. (2020) Biological Features and Productivity of Drought-Tolerant Fodder Plants under the Conditions of the Adyr Zone of Uzbekistan. International Journal of Scientific and Technological Research, 6, 34-38.
[4]
Kovalevskaya, S. (1961) Flora of Uzbekistan V Volume. Academy of Sciences of the Uzbek SSR, Tashkent, 429-434. (In Russian)
[5]
Potterat, O. (2010) Goji (Lycium barbarum and L. chinense): Phytochemistry, Pharmacology and Safety in the Perspective of Traditional Uses and Recent Popularity. Planta Medica, 76, 7-19. https://doi.org/10.1055/s-0029-1186218
[6]
Czerepanov, S.K. (1995) Vascular Plants of Russia and Adjacent States (the Former USSR). Cambridge University Press, New York, 152.
[7]
Rabotnov, T.A. (1950) Life Cycles of Perennial Grass Plants in Meadow Populations. Transactions of Institute of Botany of Academy of Sciences of USSR, Geobotany, Moscow, Leningrad, 176.
[8]
Beideman, I.N. (1974) Methods for Studying the Phenology of Plants and Plant Communities. Nauka, Novosibirsk, 153 p.
[9]
Serebryakov, T.I. (1981) Life Forms and Models of Shoot Formation of Ground-Creeping Perennial Grasses. Life Forms: Structure, Spectra and Evolution Reports of the Academy of Sciences, Moscow, 161-179.
[10]
Farmanov, T., Mukhtorov, A. and Mukimov, T. (2020) Improvement of Degraded Pastures in the Foothills and Sandy Desert Zone of Uzbekistan by Implementing Best Practices. International Journal of Scientific and Technological Research, 6, 143-149.
[11]
Eller, K.I. and Pimenova, V.V. (2004) A Guide to the Methods of Quality Control and Security Biologically Active Additives to Food. The Manual R 4.1.1672—03. Moscow, 239 p.
[12]
Yao, X., Peng, Y., Xu, L.J., Li, L., Wu, Q.L. and Xiao, P.G. (2011) Inform Abstract: Phytochemical and Biological Studies of Lycium Medicinal Plants. Chemistry & Biodiversity, 8, 976-1010. https://doi.org/10.1002/cbdv.201000018
[13]
Qian, D., Zhao, Y., Yang, G. and Huang, L. (2017) Systematic Review of Chemical Constituents in the Genus Lycium (Solanaceae). Molecules, 22, 911.
https://doi.org/10.3390/molecules22060911
