SYSTEMATIC ANALYSIS OF AQUATIC AND SEMI-AQUATIC FLORA OF THE UNIQUE WATER CHEMICAL COMPOSITION OF ZHALANASHKOL LAKE OF THE ALMATY REGION
DOI:
https://doi.org/10.26577/eb.2022.v91.i2.02Keywords:
Жаланашкөль, систематикалық талдау, флора, сатыдағы су өсімдіктері, жағалау – су өсімдіктеріAbstract
It should be noted that at present, much more attention is being paid to the study of higher and semi-aquatic plants due to their wide practical significance. Higher aquatic plants perform the following functions in ponds: filtrative, absorptive, storaging, oxidizing, detoxifying. Also, this kind of plant is used as a raw material for paper, medicine and perfume industries, building materials and fertilizers.
As a result of the research, 46 species of higher and semi-aquatic plants belonging to 21 families and 43 genera were identified within Zhalanashkol lake flora.
Thus, the species identification process of semi-aquatic vegetation makes it possible to characterize the ecological state of the ecosystem in detail. Nowadays, water analysis is commonly performed with the help of biological indicators, and is widely used in the practice of hydrobiological research.
References
Reference
Berezovikov N.N., Gavrilov E.I., Khrokov V.V. Ornitofauna of Lake Zhalanashkol and the Dzungarian Gate // Russian Journal of Ornithology. – 2007. – Vol. 16, No 348. – P. 295-333.
Avetisyan R.M., Berezovikov N.N., Rachkovskaya E.I., Sultanova B.M., Danko E.I., Alishev K.S. On the need to give Lake Zhalanashkol the status of a specially protected natural area. State and prospects of the network of protected areas in Central Asia. – Tashkent, 2004. – 248 p.
Tulebaeva A.R. Description of the vegetation cover of the coastal edge of Lake Zhalanashkol // Young scientist. – 2021. – Vol. 45, No 387. – P.135–138.
Boros E., Kolpakova M. A review of the defining chemical properties of soda lakes and pans: An assessment on a large geographic scale of Eurasian inland saline surface waters // PLoS ONE. – 2018. – Vol. 13, No 8. – 1–20. doi: 10.1371/journal.pone.0202205.
Filonets P.P., Omarov T. R. Lakes of Northern, Western and Eastern Kazakhstan. Hydrometeoizdat. – Leningrad, 1974. – 179 p.
Akhmetzhanova A.A., Sadykova N.T., Isabaev A.T. The study of therapeutic mud of lake Zhalanashkol // All-Russian research competition | www.perviy-vestnik.ru. – 2020. – P. 79 – 87.
Tokpanov E.A. Hydromineral recreational resources of Zhalanashkol Lake // Bulletin of KazNU. – 2016. – Vol. 2. – P. 304–310.
Kuskov A.S. Balneology and health tourism. – Rostov: Phoenix, 2004. – 463 p. ISBN 5-222-05232-X
Gidudu B., Copeland R.S., Wanda F., Ochaya H., Cuda J.P., and Overholt W.A. Distribution, interspecific associations and abundance of aquatic plants in Lake Bisina, Uganda // J. Aquat. Plant Manage. – 2001. – Vol. 49. – P. 19-27.
O’Hare M.T., Aguiar F.C., Asaeda T., Bakker E.S., Chambers P.A., Clayton J.S., Elger A., Ferreira T.M. etc. Plants in aquatic ecosystems: current trends and future directions // Hydrobiologia. – 20018. – Vol.812. – P.1-11. doi.org/10.1007/s10750-017-3190-7.
Wood K.A., O’Hare M.T., Donald C.Mc, Searle K.R., Daunt F. and Stillman R.A. Herbivore regulation of plant abundance in aquatic ecosystems // Biological Reviews. – 2017. – Vol.92. – P.1128–1141. doi:10.1111/brv.12272.
Dudgeon D., Arthington A.H., Gessner M.O., Kawabata Z. I., Knowler D.J., Le´veˆque C., Naiman R.J., Prieur- Richard A.H., Soto D., Stiassny M.L. and Sullivan C.A. Freshwater biodiversity: importance, threats, status and conservation challenges // Biological Reviews. - 2006.- Vol. 81. – P.163–182. doi:10.1017/S1464793105006950.
Vo¨ro¨smarty C.J., McIntyre P.B., Gessner M.O, Dudgeon D., Prusevich A., Green P., Glidden S., Bunn S.E., Sullivan C.A., Liermann C.R. and Davies P.M. Global threats to human water security and river biodiversity // Nature – 2010. – Vol.467. – P.555–561. doi:10.1038/nature09440.
Inelova Z., Nesterova S., Yerubayeva G., Yessimsiitova Z., Seitkadyr K., Zaparina Ye. Heavy metal accumulation in plants of Atyrau region // Pakistan journal of Botany. – 2018. – Vol.50, Nо 6. – P. 2259 – 2263
Inelova Z. Biodiversity of plants in phytocenoses on the territory of the destroyed warehouse, storage of pesticides in the settlement of Beskaynar. Man in the modern world: identity and intercultural communication. International monography. Interkulturelle Weiterbildungsgesellschaft e.V. (Düsseldorf, Germany), Encyclopedist-Maximum, 2019. – 583 p.
Lisitsyna L.I. Herbarization of aquatic plants, design of collections // Hydrobotany: methodology, methods: Materials of the School of Hydrobotany. – 2003. – P. 49–55.
Pavlov N.V. Flora of Kazakhstan. – Alma - Ata: Science, 1956–1967. –Vol. 1–9.
Goloskokov V.P. Illustrated guide to plants of Kazakhstan. – Alma-Ata: Science, 1969–1972. – Vol.1–2.
Baitenov M.S. Flora of Kazakhstan. – Almaty: Gylym, 2001. –Vol. 1–2.
Takhtadzhyan A.L. Magnoliophyte system. – L.: Science, 1987. – 439 p.
Cherepanov S.K. Vascular plants of the USSR. – L.: Nauka, 1981. – 509 p.
Jirí Soják Potentilla L. (Rosaceae) and related genera in the former USSR (identification key, checklist and figures) // Notes on Potentilla XV Botanische Jahrbücher. – 2004. Vol. –125, No. 3. – P.253-340. doi:10.1127/0006-8152/2004/0125-0253
Nesterova S.G., Aidosova S.S., Inelova Z.A., Childibaeva A.Zh., Basygaraev Zh.M., Korotkov B.C. Useful plants of the deserts of the Ile-Balkhash region // Bulletin KazNU. – 2011. – Vol. 6, No 52. – 2011. – P.144–147.
