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Аннотация
A comparative study was conducted on the anatomical structure of the roots and leaves of Ferula tadshikorum, a rare plant species. The study included two groups: virginile plants introduced at the age of 4 years (located in the Tashkent Botanical Garden) and natural individuals aged 12-14 years (found in the Surkhandarya region, Babatag ridge). The main objective was to understand how the plant's anatomy changes with age and its adaptation to different environments. Common characteristics were identified in the leaves of both groups of plants. These included the isolateral palisade type of mesophyll, a rounded triangular shape around the central vein, and the presence of 2-layer elongated palisade tissue on the flattened lateral parts from the adaxial side. Regarding the root structure, significant differences were observed between the natural and introduced plants. In the natural samples, the woody part of the root exhibited groups of libriform cells, which seemed to be influenced by the edaphotype (soil conditions) and age of the plant. These findings suggest that the conductive system of the roots develops differently depending on the age and environment. The introduction of Ferula tadshikorum in the Tashkent Botanical Garden proved to be successful, as evident from the results. The leaves of the introduced plants showed adaptive characteristics, such as a thickened outer wall of the epidermis, collenchyma strands, bast fibers, and the isolateral palisade type of mesophyll. These adaptations are likely to help the plant cope with its new environment. In the roots of both natural and introduced plants, an important adaptive function was observed. The parenchymal cells were filled with starch grains, and there was an abundance of secretory ducts. This suggests that the root acts as an accumulating organ for organic substances, aiding the plant's survival and growth. In conclusion, the study provided valuable insights into the anatomical changes of Ferula tadshikorum at different stages of its life and in different environments. The observed adaptations in the leaves and roots contribute to the plant's ability to thrive in varying conditions.
Литература
Akalın E, Tuncay H, Olcay B, Miski M (2020) A New Ferula (Apiaceae) species from Southwest Anatolia: Ferula pisidica Akalın & Miski. Plants 9(740): 1–11. https://doi.org/10.3390/plants9060740
Akhmetova A, Mukhitdinov N, Ydyrys A (2015) Anatomical indicators of the leaf structure of Ferula iliensis, growing in the eastern part of Zailiyskiy Alatau (Big Boguty Mountains). Pakistan Journal of Botany 47(2): 511–515.
Barykina RP, Gulenkova MA (1985) Ontogenetic anatomy and its importance for taxonomy and phylogeny. Moscow University Biological Sciences Bulletin 10(6): 82–92. [In Russian]
Barykina RP, Chubatova NV (2005) A Large Workshop on the Ecological Anatomy of Flowering Plants. Association of Scientific Publications, Moscow, 77. [In Russian]
Barykina RP, Alyonkin VYu (2017) Comparative anatomy of vegetative organs in some species of Coldenia l. and Tiquilia pers. (Boraginaceae) in relation to their ecology, life forms and systematic position. Moscow University Biological Sciences Bulletin 122 (2): 55–67. [In Russian]
Bondar YuV, Zerkal SV, Hetko NV, Rysin SL (2021) Сomparative anatomical structure of the leaf Rhododendron catawbiense Michx. and Rhododendron brachycarpum D. Don, growing under conditions of N.V. Tsitsin main botanical garden of the Russian Academy of Sciences. Samara Journal of Science 10(1): 33–40. https://doi.org/10.17816/snv2021101104 [In Russian]
Butnik АА, Ashurmetov ОА, Nigmanova RN, Begbaeva GF (2009) Ecological anatomy of desert plants of Central Asia. Herbs. Tashkent, 155 pp. [In Russian]
Chen X-Y, Liu Q-X (1989) Chemotaxonomic studies in Ferula of China on the basis of flavonoids. Acta Phytotaxonomica Sinica 27(3): 184–189. [In Chinese]
Elghwaji W, ElSayed AM, ElDeeb KS, El-Sayed AM (2017) Chemical composition, antimicrobial and antitumor potentiality of essential oil of Ferula tingitana L. Apiaceae grow in Libya. Pharmacognosy Magazine 13(51): 446–451. https://doi.org/10.4103/pm.pm_323_15
Eser N, Yoldas A (2019) Identification of heat-resistant chemical components of Ferula elaeochytris root extracts by gas chromatography mass spectrometry. Tropical Journal of Pharmaceutical Research January 18 (1): 55–60. https://doi.org/10.4314/tjpr.v18i1.9
Fan C, Li X, Zhu J, Song J, Yao H (2015) Endangered Uyghur medicinal plant Ferula identification through the second internal transcribed spacer. Evidence-Based Complementary and Alternative Medicine. Special Issue: 1–6. https://doi.org/10.1155/2015/479879
Halkuzieva MA, Khamraeva DT, Bussmann RW (2022) Bio-morphological properties of Ferula tadshikorum Pimenov and Ferula foetida (Bunge) Regel under plantation conditions. Plant Science Today 9(sp3): 79–84. https://doi.org/10.14719/pst.1863
Khamraeva DT, Grabovec NV, Bussmann RW, Khojimatov OK (2021) Leaf morphological and anatomical structure of pregenerative individuals of Ferula tadshikorum in ex situ conditions. Acta Biologica Sibirica 7: 193–210. https://doi.org/10.3897/abs.7.e63714
Khamraeva DT, Tukhtaeva DN, Khojimatov OK, Bussmann RW (2023) Ferula tadshikorum Pimenov – introduction, chemical composition and use in folk medicine. Ethnobotany Research and Applications 25(24): 1–10. https://doi.org/10.32859/era.25.24.1-10
Khamraeva DT, Khojimatov ОК, Uralov AI (2019) Growth and development of Ferula tadshikorum Pimenov in culture. Acta Biologica Sibirica 5(3): 172–177. https://doi.org/10.14258/abs.v5.i3.6588
Khojimatov O, Khamraeva D (2018) Studying the structure of the pericarp of the fruits of the valuable medicinal plant Ferula tadshikorum and prospects for its cultivation in Uzbekistan. Uzbek Biological Journal 4: 45–48.
Khojimatov ОК, Khamraeva DT, Makhmudov AV, Khujanov AN (2019) Instructions for the seed cultivation of Ferula tadsnikorum Pimenov in the conditions of southern Uzbekistan. MUXR press, Tashkent, 44 pp.
Khojimatov OK, Bussmann RW, Khamraeva DT (2021) Some aspects of morphobiology, conservation of resource potential, crop cultivation and harvesting of raw materials of promising Ferula species. Ethnobotany Research & Applications 22: 31. https://doi.org/10.32859/era.22.31.1-8
Makhmudov АV (2019) Ferula tadshikorum Pimenov. Red Data Book of the Republic of Uzbekistan. Plants 2: 95–96. [In Russian]
Padmavathi NV, Chetty MK (2019) Morpho-Anatomical studies of Atalantia racemosa Wight ex Hook., an important medicinal plant of Chittoor Dt. of Andhra Pradesh, India. International Journal of Bio-Pharma Research 8(2): 2491–2499. https://doi.org/10.21746/ijbpr.2019.8.2.3
Panahi M, Banasiak Ł, Piwczyński M, Puchałka R, Kanani MR, Oskolski A, Modnicki D, Miłobędzka A, Spalik K (2018) Taxonomy of the traditional medicinal plant genus Ferula (Apiaceae) is confounded by incongruence between nuclear rDNA and plastid DNA. Botanical Journal of the Linnean Society 188: 173–189. https://doi.org/10.1093/botlinnean/boy055
Rakhimov S, Denisova GR (2017) Some features of underground organs of Ferula tadshikorum M. Pimen. (Ferula L.). Journal Bulletin of ASAU 8 (154): 86–90. [In Russian]
Safina LK, Pimenov MG (1984) Ferula of Kazakhstan. Science, Alma-Ata, 110 pp. [In Russian]
Safina LK, Isaeva SN (1981) Anatomical analysis of the vegetative organs of two endemic species of Ferula. Tidings of the Academy of Sciences of the Kazakh SSR 6: 8–16. [In Russian]
Sedelnikova LL (2000) Anatomical-morphological structure of leaf blade in the representatives of the genus Crocus L. in connection with introduction in Siberia. Bulletin of the Main Botanical Garden 179: 69–77. [In Russian]
Tuncay HO, Akalın E, Doğru-Koca A, Eruçar FM, Miski M (2023) Two New Ferula (Apiaceae) Species from Central Anatolia: Ferula turcica and Ferula latialata. Horticulturae 9(144): 1–15. https://doi.org/10.3390/horticulturae9020144
Tyurina EV, Guskova IN, Valutskaya AG (1976) Apiaceae of Southern Siberia as a material for introduction. Nauka Publ., Novosibirsk, 256 pp. [In Russian]
Zaitsev GN (1990) Mathematics in experimental botany. Nauka, Moscow, 296 pp. [In Russian]
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