PL EN


Preferencje help
Widoczny [Schowaj] Abstrakt
Liczba wyników
Tytuł artykułu

Bringing medicinal plants of the native flora of the northern Tien Shan into cultivation

Treść / Zawartość
Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
In the current study, it was tried to investigate the medicinal plants of the native flora of the Northern Tien Shan to bring them into domestication. The study was carried out on the territory of a botanical garden located at an altitude of 880 m a.s.l., in the foothill steppe zone of the Zailiysky Alatau ridge, People’s Republic of China on light chestnut loamy soils. In 2018–2019, more than 90 samples of 51 species of medicinal plants of the Northern Tien Shan flora was selected from 17 families for introduction tests. The families Compositae (10 genera, 12 species) and Lamiaceae (12 genera, 13 species) were represented by the largest numbers of genera and species. The family Leguminosae was represented by four species from four genera; the families Polygonaceae and Ranunculaceae, by three species each; the family Rosaceae, by two species; and the remaining 11 families, by one species each. The results suggested that the majority of medicinal plants of the Northern Tien Shan tested can be successfully cultivated in the foothill zone of the Zailiysky Alatau. The results indicated that when propagated by seed, the laboratory germination varied from 2 to 30%, and the mass of seeds was 0.21 g. When sown in spring, the field germination was 8%, and when sown in autumn, 42% from 50 to 70% of seedlings survived until the end of the growing season. The massive flowering was observed in the third year, and the plants vegetated until the end of the growing season.
Wydawca
Rocznik
Tom
Strony
207--219
Opis fizyczny
Bibliogr. 57 poz., rys., tab.
Twórcy
  • Institute of Botany and Phytointroduction of the Committee for Forestry and Wildlife of the Ministry of Ecology, Geology and Natural Resources of the Republic of Kazakhstan, Almaty, Republic of Kazakhstan
  • Kazakh National Agrarian University, Almaty, 8 Abai Avenue, 050010, Republic of Kazakhstan
  • Institute of Botany and Phytointroduction of the Committee for Forestry and Wildlife of the Ministry of Ecology, Geology and Natural Resources of the Republic of Kazakhstan, Almaty, Republic of Kazakhstan
  • Institute of Botany and Phytointroduction of the Committee for Forestry and Wildlife of the Ministry of Ecology, Geology and Natural Resources of the Republic of Kazakhstan, Almaty, Republic of Kazakhstan
  • Kazakh National Agrarian University, Almaty, 8 Abai Avenue, 050010, Republic of Kazakhstan
  • Kazakh National Agrarian University, Almaty, 8 Abai Avenue, 050010, Republic of Kazakhstan
Bibliografia
  • ABEDINPOUR M. 2017. Wheat water use and yield under different salinity of irrigation water. Journal of Water and Land Development. No. 33 p. 3–9. DOI 10.1515/jwld-2017-0013.
  • ALIYEVA D. 2019. The recent trends in the pharmaceutical industry with special attention for the Republic of Kazakhstan. PhD Thesis. Kaposvári. Kaposvári University. DOI 10.17166/KE2019.011.
  • BEIDEMAN I.N. 1974. Metodika izucheniya fenologii rastenii i rastitel’-nykh soobshchestv [Methods of studying plant phenology and plant communities]. Novosibirsk. Nauka Publ.
  • BELYAKOV E.A., LAPIROV A.G. 2019. Seed productivity and peculiarities of floating of generative diaspores of some European species of the genus Sparganium L. Inland Water Biology. Vol. 12. No. 2 p. 42–48. DOI 10.1134/S199508291906004X.
  • BELYAKOV E.A., PHILIPPOV D.A. 2018. The effect of changes in environmental conditions on the morphology of Sparganium natans L. (Typhaceae) in the taiga zone of European Russia. Ecosystem Transformation. Vol. 1. No. 1 p. 29–41. DOI 10.23859/ estr-180326.
  • BELYUCHENKO I.S. 2005. Evolyutsionnyye i ekologicheskiye podkhody k vnedreniyu rasteniy v praktiku [Evolutionary and ecological approaches tо the plants introduction in practice]. Ekologicheskiy vestnik Severnogo Kavkaza. Vol. 1. No. 2 p. 104–111.
  • BIDARLORD M., GAHREMANINEJAD F., PAKRAVAN M. 2016. Ranunculus polyrhizos as a new record for Iran, with ecological and micromorphological evidence. Modern Phytomorphology Vol. 10. (Suppl.) p. 25–29. DOI 10.5281/zenodo.159042.
  • BOBOKALONOV K., CHERYOMUSHKINA V. 2018. Seed productivity and dynamics of germination of Ziziphora L. species in the Pamir-Alay. BIO Web of Conferences. Vol. 11, 00006. DOI 10.1051/ bioconf/20181100006.
  • BUDANTSEV A.L., LESIOVSKAYA E.E. 2001. Dikorastushchiye poleznyye rasteniya Rossii [Wild useful plants of Russia]. Saint Petersburg. Saint Petersburg State Chemical Pharmaceutical Academy. ISBN 5-8085-0124-5 pp. 663.
  • CHASE M.W., CHRISTENHUSZ M.J.M., FAY M.F., BYNG J.W., JUDD W.S., SOLTIS D.E., MABBERLEY D.J., SENNIKOV A.N., SOLTIS P.S., STEVENS P. F. 2016. An update of the angiosperm phylogeny group classification for the orders and families of flowering plants: APG IV. Botanical Journal of the Linnean Society. Vol. 181. No. 1 p. 1–20. DOI 10.1111/boj.12385.
  • CRELLIN J.K., PHILPOTT J. 1990. A reference guide to medicinal plants: Herbal medicine past and present. Duke University Press. ISBN 0822310198 pp. 560.
  • DREYER J., DREYLING G., FELDMANN F. 1996. Cultivation of stinging nettle Urtica dioica L. with high fibre and cellulose: qualitative and quantitative differentiation of ancient clones. Angewandte Botanik (Germany). Vol. 70. Iss. 1–2 p. 28–39.
  • GEMEJIYEVA N.G., GRUDZINSKAYA L.M. 2018. Current state and prospects for studies on the diversity of medicinal flora in Kazakhstan. In: Vegetation of Central Asia and Environs. Eds. D. Egamberdieva, M. Öztürk. Springer p. 239–262.
  • GONCHARENKO I.V., YATSENKO H.M. 2020. Phytosociological study of the forest vegetation of Kyiv urban area (Ukraine). Hacquetia. Vol. 19. No. 1 p. 99–126. DOI 10.2478/hacq-2019-0012.
  • GOODIER J. 2018. Medicinal plants of the world: An illustrated scientific guide to important medicinal plants and their uses. Reference Reviews. Vol. 32. No. 2 p. 19–20. DOI 10.1108/RR-10-2017-0203.
  • GRITSENKO V.V. 2019. Historical analysis of plant introduction and scientific activity: To the 70th anniversary of the botanical and geographical plot “Steppes of Ukraine” in MM Gryshko National Botanical Garden of the NAS of Ukraine. Plant Introduction. Vol. 83 p. 3–13. DOI 10.5281/zenodo.3404098.
  • HEDJAL S., ZOUINI D., BENAMARA A. 2018. Hydrochemical assessment of water quality for irrigation: A case study of the wetland complex of Guerbes-Sanhadja, North-East of Algeria. Journal of Water and Land Development. No. 38 p. 43–52. DOI 10.2478/jwld- 2018-0041.
  • JONES W.P., KINGHORN A.D. 2008. Biologically active natural products of the genus Callicarpa. Current Bioactive Compounds. Vol. 4. No. 1 p. 15–32. DOI 10.2174/157340708784533393.
  • KIRICHENKO N., TRIBERTI P., LOPEZ-VAAMONDE C. 2019. New species of leaf-mining Phyllonorycter (Lepidoptera Gracillariidae) from Siberia feeding on Caragana (Fabaceae). ZooKeys. Vol. 835 p. 17–41. DOI 10.3897/zookeys.835.33166.
  • KIRILLOV V.Y., STIKHAREVA T.N., MUKANOV B.M., SERAFIMOVICH M.V., MUKASHEVA F.T., GERING A.V., SARSENBAEVA L.A., ATAZHANOVA G.A., ADEKENOV S.M. 2016. Chemical composition of essential oil from Sibiraea altaiensis. Chemistry of Natural Compounds. Vol. 52. No. 5 p. 941–942. DOI 10.1007/s10600-016-1826-x.
  • KISHCHENKO I.T. 2019. Assessment of deciduous trees introduction prospect in the taiga zone (Karelia). Arctic Environmental Research. Vol. 19. No. 3 p. 87–92. DOI 10.3897/issn2541- 8416.2019.19.3.87.
  • KLUBNIKIN K., ANNETT C., CHERKASOVA M., SHISHIN M., FOTIEVA I. 2000. The sacred and the scientific: Traditional ecological knowledge in Siberian river conservation. Ecological Applications. Vol. 10. No. 5 p. 1296–1306. DOI 10.1890/1051-0761(2000)010[1296: TSATST]2.0.CO;2.
  • KOROVKINA A.V., ZHIROV V.K. 2019. Environmental factors affecting flavonoid accumulation in plants Poligonum weyrichii growing in Murmansk region. Regulatory Mechanisms in Biosystems. Vol. 10. No. 4 p. 553–559. DOI 10.15421/021981.
  • KOTYUK L.А., RAKHMETOV D.B., PІNKІNA T.V. 2017. Evaluating the results of introduction of aromatic plants from the Lamiaceae Lindl. family in Ukrainian Polissya. Plant Introduction. Vol. 73 p. 11– 20. DOI 10.5281/zenodo.2282667.
  • KRISHNAN S., MOREAU T., KUEHNY J., NOVY A., GREENE S.L., KHOURY C.K. 2019. Resetting the table for people and plants: Botanic gardens and research organizations collaborate to address food and agricultural plant blindness. Plants, People, Planet. Vol. 1. No. 3 p. 157–163. DOI 10.1002/ppp3.34.
  • KUBENTAYEV S.A., KOTUKHOV Y.A., DANILOVA A.N., SULEIMENOV A.N., SUMBEMBAYEV A.A. 2019. Phytocoenotic structure and stocks of main medical plants in southern part of Altai Mountain System (East Kazakhstan). Journal of Computational and Theoretical Nanoscience. Vol. 16. No. 7 p. 2822–2834. DOI 10.1166/ jctn.2019.8136.
  • KURBAN H., SANEOKA H., NEHIRA K., ADILLA R., FUJITA K. 1998. Effect of salinity on growth and accumulation of organic and inorganic solutes in the leguminous plants Alhagi pseudoalhagi and Vigna radiata. Soil Science and Plant Nutrition. Vol. 44. No. 4 p. 589– 597. DOI 10.1080/00380768.1998.10414482.
  • KURBAN H., SANEOKA H., NEHIRA K., ADILLA R., PREMACHANDRA G.S., FUJITA K. 1999. Effect of salinity on growth, photosynthesis and mineral composition in leguminous plant Alhagi pseudoalhagi (Bieb.). Soil Science and Plant Nutrition. Vol. 45. No. 4 p. 851– 862. DOI 10.1080/00380768.1999.10414334.
  • MAKOVSKYY V.V., VAKHNOVSKA N.H. 2018. Growth patterns of woody lianas of Vitaceae Juss. family in conditions of introduction to the right-bank of forest-steppe of Ukraine. Plant Introduction Vol. 80 p. 63–70. DOI 10.5281/zenodo.2576090.
  • MAMADALIEVA N.Z., AKRAMOV D.K., OVIDI E., TIEZZI A., NAHAR L., AZIMOVA S.S., SARKER S.D. 2017. Aromatic medicinal plants of the Lamiaceae family from Uzbekistan: ethnopharmacology, essential oils composition, and biological activities. Medicines. Vol. 4. No. 1 p. 8–18. DOI 10.3390/medicines4010008.
  • MAMEDOV N., GARDNER Z., CRAKER L.E. 2005. Medicinal plants used in Russia and Central Asia for the treatment of selected skin conditions. Journal of Herbs, Spices & Medicinal Plants. Vol. 11. No. 1–2, p. 191–222. DOI 10.1300/J044v11n01_07.
  • MEDDEGODA M., JAYASINGHE J.M.P., RANAWEERA K., BANDARA G. 2019. Evaluation of growth performance and nutritional composition of three fodder crops (maize, sugargraze and nutrifeed) cultivated in Omanthai, northern region of Sri Lanka [online]. International Research Conference. Uva Wellassa University of Sri Lanka. ISBN 9789550481255. [Access 20.08.2020]. Available at: http:// erepo.lib.uwu.ac.lk/bitstream/handle/123456789/714/518.pdf?sequence=1&isAllowed=y
  • MINEA G., TUDOR G., STAN F.-I., IOANA-TOROIMAC G., ZAMFIR R. 2018. How can the grasslands under rainfall events modify water balance in drought conditions. Journal of Water and Land Development. No. 38 p. 53–65. DOI 10.2478/jwld-2018-0042.
  • MININA N.N. 2020. The elemental composition of Mentha piperita L. (Lamiaceae Lindl.), grown in the forest-steppe zone of Southern Urals. Journal of Agriculture and Environment. No. 3 (15) p. 17– 29. DOI 10.23649/jae.2020.3.15.4.
  • MOVSUMOV I.S., YUSIFOVA D.Y., SULEYMANOV T.A., GARAEV E.A. 2020. Biologically active compounds from Dorycnium graecum growing in Azerbaijan. Chemistry of Natural Compounds. Vol. 56 p. 953– 956. DOI 10.1007/s10600-020-03198-6.
  • NORELDIN T., OUDA S., MOUNZER O., ABDELHAMID M.T. 2015. CropSyst model for wheat under deficit irrigation using sprinkler and drip irrigation in sandy soil. Journal of Water and Land Development. No. 26 p. 57–64. DOI 10.1515/jwld-2015-0016.
  • PAGLIARULO C.L., HAYDEN A.L., GIACOMELLI G.A. 2004. Potential for greenhouse aeroponic cultivation of Urtica dioica. Acta Horticularia. Vol. 659 p. 61–66. DOI 10.17660/ActaHortic.2004.659.6.
  • PAVLOV N.V. (ed.) 1961. Flora Kazakhstana [Flora of Kazakhstan]. Vol. 1. Alma-Ata. AN Kaz SSR pp. 354.
  • PETRISHEVA T.Y., MORGACHEVA N.V. 2020. Biodiversity: structure, problems and conservation prospects. IOP Conference Series: Earth and Environmental Science. Vol. 548. No. 7, 072011.
  • Plant list 2013. The plant list. A working list of all plant species [online]. [Access 12.08.2020]. Available at: http://www.theplant-list.org
  • Plantarium 2007–2021. Rasteniya i lishayniki Rossii i sopredel’nykh stran: otkrytyy onlayn atlas i opredelitel’ rasteniy [Plants and lichens of Russia and neighboring countries: open online galleries and plant identification guide] [online]. [Access 12.08.2020]. Available at: https://www.plantarium.ru/
  • POURHOSSEINI S.H., MIRJALILI M.H., GHASEMI M., AHADI H., ESMAEILI H., GHORBANPOUR M. 2020. Diversity of phytochemical components and biological activities in Zataria multiflora Boiss. (Lamiaceae) populations. South African Journal of Botany. Vol. 135 p. 148– 157. DOI 10.1016/j.sajb.2020.08.024.
  • RABOTYAGOV V.D., KHLYPENKO L.A., BAKOVA N.N., MASHANOV V.I. 2007. Annotirovannyi katalog vidov i sortov efiromaslichnykh, priano-aromaticheskikh i pishchevykh rastenii kollektsii Nikitskogo botanicheskogo sada [Annotated catalogue of the species and breeds of essential oil, aromatic, and food plants from the collection of Nikitsky Botanical Garden]. Yalta. Gosudarstvennoye byudzhetnoye uchrezhdeniye Respubliki Krym «Ordena Trudovogo Krasnogo Znameni Nikitskiy botanicheskiy sad-Natsional’nyy nauchnyy tsentr» pp. 48.
  • RAO S.R., RAVISHANKAR G.A. 2002. Plant cell cultures: chemical factories of secondary metabolites. Biotechnology Advances. Vol. 20. No. 2 p. 101–153. DOI 10.1016/S0734-9750(02)00007-1
  • REDDY M.T., PRADESH A., PRADESH A. 2019. Indigenous traditional knowledge on health and equitable benefits of oil palm (Elaeis spp.). Open Access Library Journal. Vol. 6. No. 1 p. 1–17. DOI 10.4236/oalib.1105103.
  • Royal Botanic Gardens undated. Plants of the world online [online]. [Access 31.08.2020]. Available at: http://www.plantsoftheworl-donline.org/
  • RYABUSHKINA N., GEMEDJIEVA N., KOBAISY M., CANTRELL C.L. 2008. Brief review of Kazakhstan flora and use of its wild species. Asian and Australasian Journal of Plant Science and Biotechnology. Vol. 2. No. 2 p. 64–71.
  • SAPARBAEVA N.A., AYTZHANOVA M.O., BOZHBANOV A.Z., DZHAKUPOVA I.B., SULTANGAZIEVA G.S., BERKINBAEVA A.S. 2019. The current state of the Rheum wittrockii Lundstr. (Polygonaceae Juss.) population in the Northern Tien Shan (Kazakhstan). Journal of Computational and Theoretical Nanoscience. Vol. 16. No. 7 p. 2839–2846. DOI 10.1166/jctn.2019.8138.
  • SERMUKHAMEDOVA O.V., SAKIPOVA Z.B., TERNYNKO I.I., GEMEDZHIEVA N.G. 2017. Representatives of Motherwort genus (Leonurus spp.): Aspects of pharmacognostic features and relevance of new species application. Acta Poloniae Pharmaceutica. Vol. 74. No. 1 p. 31–40.
  • SHTEPHAN G. 2012. Wild medical plants in the phytocenoses of the northern Kazakhstan. Medical and Health Science Journal. Vol. 13 p. 128–133. DOI 10.15208/mhsj.2012.72.
  • SITPAYEVA G.T., KUDABAYEVА G.M., DIMEYEVA L.A., GEMEJIYEVA N.G., VESSELOVA P.V. 2020. Crop wild relatives of Kazakhstani Tien Shan: Flora, vegetation, resources. Plant Diversity. Vol. 42. No. 1 p. 19–32. DOI 10.1016/j.pld.2019.10.003.
  • SOKOLOV P.D. (ed.) 1988. Rastitel'nyye resursy SSSR: Tsvetkovyye rasteniya, ikh khimicheskiy sostav, ispol'zovaniye. Semeystva Caprifoliaceae – Plantaginaceae [Plant resources of the USSR: Flowering plants, their chemical composition and utilization. Caprifoliaceae – Plantaginaceae Families]. Leningrad. Nauka pp. 328.
  • SOKOLOV S.I., ASSING I.A., KURMANGALIEV A.B., SERPIKOV S.K. 1962. Pochvy Kazakhskoy SSR (Alma-Atinskaya oblast’) [Soils of the Kazakh SSR (Alma-Ata region)]. No. 4. Alma-Ata. Izdatelstvo Akademii nauk KazSSR pp. 424.
  • SWEARINGEN J., RESHETILOFF K., SLATTERY B., ZWICKER S. 2002. Plant invaders of mid-Atlantic natural areas. Washington, DC. National Park Service and US Fish and Wildlife Service pp. 168.
  • SYKURA Y.Y., SYRYTSA L.T. 1990. Rekomendatsyy po yzuchenyiu ontoheneza yntrodutsyrovanykh rastenyi v botanycheskykh sadakh SSSR [Recommendation on the study of ontogenesis of introduction plants in the botanical gardens of the USSR]. Kyiv.
  • TORCHYK U.I. 2020. Introduction and the using of representatives of the genus Chamaecyparis Spach. in Belarus. Proceedings of the National Academy of Sciences of Belarus. Biological Series. Vol. 65. No. 3 p. 352–357.
  • ZENI A.L.B., BOSIO F. 2006. Medicinal plants used in the Nova Russia, Brazilian Atlantic Rain Forest. Revista Brasileira de Plantas Medicinais, Botucatu. Vol. 8 p. 167–171.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-f7007439-9843-48ab-90e7-dabc26d83981
JavaScript jest wyłączony w Twojej przeglądarce internetowej. Włącz go, a następnie odśwież stronę, aby móc w pełni z niej korzystać.