Comparative Characteristics of Germination of Some Halophyte Plants in Saline Soils of Pavlodar Region
Abstract
The possibility of using halophytic plant species for remediation of saline soils in Kazakhstan is considered. In this regard, the purpose of our research is a comparative description of the germination of some halophytic plants of Pavlodar region in saline soils of European calf (salicornia europaea L.), Aksora (suaeda salsa Pall.), Tumpek sarzasan (halocnemum strobilaceum Pall.). The article aimed at selecting the most active seeds for the salt by germination indicator using some halophyte plants seeds. A comparative description of the germination of European calf (salicornia europaea L.), Aksora (suaeda salsa Pall.), Tumpek sarsazan (halocnemum strobilaceum Pall.) near Lake Maraldy of Pavlodar region was given. All of these plants have been shown to be true halophytes, and each of them can be used to reduce soil salinity. For this purpose, it can be recommended to the use European calf (salicornia europaea L.) of saline lands of not only in Pavlodar region, but in most saline areas of Kazakhstan.
References
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[30] Postoyalkov, K.D. 1972. Meadows and pastures of Kazakhstan. Almaty.
[31] Qu, X.X., Huang, Z.Y., Baskin, J.M. 2008. Effect of temperature, light and salinity on seed germination and radicle growth of the geographically widespread halophyte shrub Halocnemum strobilaceum. Annals of Botany, 101(2): 293-299.
[32] Rakhymzhan, Zh., Beisenova, R.R., Tekebayeva, Zh.B., Khusainov, M.B. 2019. Salinity of soils of the territory near the lake Maraldy in the Pavlodar area. Bulletin of the Karaganda university, 4(96): 45-51.
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[38] Song, J., Feng, G., Tian, C.Y. 2005. Strategies for adaptation of Suaeda physophora, Haloxylon ammodendron and Haloxylon persicum to a saline environment during seed- germination stage. Annals of Botany, 96(3): 399-405.
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[55] Short encyclopedia of the Kazakh SSR. 1987. General edition of the Kazakh Soviet encyclopedia. Almaty
[2] Afanasyev, M.P., Shash, N. 2019. Russian Federation Cross-Border Investments and Bank Expansion. Public Administration Issues, 6: 105-120.
[3] Akhanov, Zh.U. 2008. Analytical note on trends in the development of the poaching science. Poaching Agrochem, 1: 6-13.
[4] Calone, R., Sanoubar, R., Noli, E., Barbanti, L. 2020. Assessing Salicornia europaea Tolerance to Salinity at Seed Germination Stage. Agriculture, 1–11.
[5] Chen, Y.H. 1996. The effects of forage planting on the improvement of coastal saline soil of the Jiangsu Province. Grass land of China, 3: 262-269.
[6] Durasov, A.M., Tazabekov, T.T. 1981. Land of Kazakstan. Almaty, Kainar.
[7] Erohina, O.G. 2006. Landing map. National atlas of Republic of Kazakhstan. Natural conditions and resources. Part 1. Almaty.
[8] Flowers, T.J., Hajibagheri, M.A. and Clipson, N.J. 1986. Halophytes. Quarterly Review of Biology, 61: 313-317.
[9] Gao, R.R., Zhao, R.H., Yang, X.J. 2009. Effects of salt and temperature on early growth of Halocnermum strobilaceum (Chenopodiaceae) seedlings. Acta Ecologica Sinica, 29(10): 5395-5405.
[10] Gao, R.R., Zhao, R.H., Zhang, S.F. 2007. Effects of salt and temperature on Halocnemum strobilaceum seed germination. Acta Botanica Boreali-Occidentalia Sinica, 27(11): 2281-2285.
[11] Gao, Rui Ru, Zhao, Rui Hua, Zhang, Shuang Feng. 2007. Effects of salinity and temperature on the germination of Salicornia japonica seeds. Northwestern Journal of Botany, 27(11): 2281-2285
[12] Gao, Zh.W, Tao, J.X., Zhao, S. 2014. Effect of compound saline-alkali stress on oat seed germination. Grassland Science, 31(3): 451-456.
[13] Ghassemi, F., Jakeman, A.J., Nix, H.A. 1995. Salinisation of land and water resources: Human causes, extent, management and case studies. Canberra, Australia, 1-3.
[14] Ghassemi, F., Jakeman, A.J., Nix, H.A. 1995. Salinisation of land and water resources: human causes, extent, management and case studies. CABI Publishing, Wallingford, 526.
[15] Hussein, H. 2001. Development of environmental GIS database and its application to desertification study in Middle East – a remote sensing and GIS application. PhD thesis Graduate School of Science and Technology, Chiba University Japan, 155.
[16] Ishankulov, M.Sh., Vasilchenko N.I. 2018. Steppes on drift cones and the problem of landscape zoning of the Kazakhstan. Modern landscape - ecological state and problems of optimization of the natural environment of the regions. ’18. XIII Mezhdunarodnoi landshaftnoi konferentsii — XIII International Landscape Conference. 113–115. Voronezh. (in Russian)
[17] Kadenova, A.B., Kamkin, B.A., Erzhanov, N.T., Kamkina, E.V. 2008. Flora and vegetation of Barnaul State National Park. Pavlodar, Kereku.
[18] Kovda, V.A., Szabolcs, I. 1979. Modelling of soil salinization and alkalization: supplementum. Agrokemia es Talajtan (Agrochemistry and Soil Science), 28: 207.
[19] Kukenov, M.K. 1994. Atlas of areas and resources of medicinal plants of Kazakhstan. Science, Almaty.
[20] Kukenov, M.K. 1994. Atlas of areas and resources of medicinal plants of Kazakhstan. Science, Almaty.
[21] Lakin, G.F. 1990. Biometrics. Moscow. Higher School.
[22] Li Weiqiang, Liu Xiaojing, Zhao Kefu, and Liu Hailiang. 2006. Growth development and ions distribution of three halophytes under salt stress. Chinese Journal of Eco-Agriculture, 14(2):49-52.
[23] Malik, M., Alkebaeva, D., Shormakova, A., Kozhan, D., and Akhmetkaliyeva, L. 2019. Pragmatic discourse of the comments on Facebook in the Kazakh language. Opcion, 35(90-2): 369-384.
[24] Metternicht, G.I., and Zinck, J.A. 2003. Remote sensing of soil salinity: potentials and constraints. Remote Sens Environ, 85(1): 1–20.
[25] Mickhailovskaya, I.S. 1977. Plant structure in relation to living conditions. Moscow, Education.
[26] Mikhailichenko, V.N. 1979. Halogenesis and Solonization in the North Kazakhstan. Science, Alma-Ata.
[27] Mukhanov, B., Musakulov, T., and Suvorov, N. 1978. Plant and animal life of Kazakhstan. Mektep, Almaty.
[28] Oldeman, L.R., Hakkeling, R.T.A., Sombroek, W.G. 1991. World map of the status of human-induced soil degradation. An explanatory note. Second revised edition. International Soil Reference and Information Center (ISRIC), Wageningen, 35.
[29] Polymbetova, F.A., Abiev, S.A., Sarsenbaev, B.A. 1999. Travel to a flora world (origin, distribution and biological features). Almaty.
[30] Postoyalkov, K.D. 1972. Meadows and pastures of Kazakhstan. Almaty.
[31] Qu, X.X., Huang, Z.Y., Baskin, J.M. 2008. Effect of temperature, light and salinity on seed germination and radicle growth of the geographically widespread halophyte shrub Halocnemum strobilaceum. Annals of Botany, 101(2): 293-299.
[32] Rakhymzhan, Zh., Beisenova, R.R., Tekebayeva, Zh.B., Khusainov, M.B. 2019. Salinity of soils of the territory near the lake Maraldy in the Pavlodar area. Bulletin of the Karaganda university, 4(96): 45-51.
[33] Ruttan, V.M. 1999. The transition to agricultural sustainability. Proc. Nat. Acad. Sci. USA, 5960-5967.
[34] Schilmper, A.F. 1986. Saline environment and plant growth. India: Agro Botanical Publishers.
[35] Shahid, S.A. 2013. Developments in salinity assessment, modeling, mapping, and monitoring from regional to submicroscopic scales. In: Shahid SA, Abdelfattah MA, Taha FK (eds) Developments in soil salinity assessment and reclamation – innovative thinking and use of marginal soil and water resources in irrigated agriculture. Springer, Dordrecht\Heidelberg\New York\London, 3–4.
[36] Shahid, S.A., Abo-Rezq, H., Omar, S.A.S. 2002. Mapping soil salinity through a reconnaissance soil survey of Kuwait and geographic information system. Annual research report, Kuwait Institute for Scientific Research, Kuwait, KSR 6682, 56–59.
[37] Singh, D., Buhmann, A.K., Flowers, T.J., Seal, C.E., Papenbrock, J. 2014. Salicornia as a crop plant in temperate regions: Selection of genetically characterized ecotypes and optimization of their cultivation conditions. AoB Plants, 6: 1–20.
[38] Song, J., Feng, G., Tian, C.Y. 2005. Strategies for adaptation of Suaeda physophora, Haloxylon ammodendron and Haloxylon persicum to a saline environment during seed- germination stage. Annals of Botany, 96(3): 399-405.
[39] Song, S.Q., Cheng, H.Y., Long, Ch.L., Jiang, Sh.C. 2005. Guide to Seed Biology Research. Beijing: Science Publishing.
[40] Song, Y.G, Li, L. and Zeng, X.H. 2014. Responses of the germination on dimorphic seeds of Suaeda aralocaspica to salt stress. Acta Prataculturae Sinica, 23(1): 192-198.
[41] Soskov Yu.D., Khusainov, S.Kh. 1973. Wild late-ripening arid fodder plants of the desert zone of Central Kazakhstan. Transactions in Applied Botany, Genetics and Breeding, 50(3).
[42] Ubaskin, A.V., et al. 2020. Proceedings of the National Academy of Sciences of the Republic of Kazakhstan, Kazakh National Medical University. S. D. Asfendiyarova, 2(338): 5-10.
[43] Xiaobin, L. et al. 2016. Response of a salt-sensitive plant to processes of soil reclamation in two saline–sodic, coastal soils using drip irrigation with saline water. Agr. Water Man. 164: 223-234. DOI:https://doi.org/10.1016/j.agwat.2015.10.031
[44] Yamamoto, K., Oguri, S., Chiba, S., Momonoki, Y.S. 2009. Molecular cloning of acetylcholinesterase gene from Salicornia europaea L. Plant Signal. Behav., 4: 361–366.
[45] Zhang, K., Tian, Ch-Y, Li Ch-J. 2009. Review of Progress of Studies on Salt-Tolerance Mechanisms of Annual Halophytes. Chinese J Plant Ecol, 33(6):1220-1231.
[46] Zheng, Q.S., Hua, C., Dong, X., Li, X.H., Chen, G. 2008. Study of characteristic response to salt-ion stresses of Salicornia europaea seedlings. Acta Prataculturae Sinica, 17(6): 164–168.
[47] Zhou, S., Han, J.L., Zhao, K.F. 2001. Advance of study on recretohalophytes. Chinese J Appl Envir Biol, 7: 496-501.
[48] Zhu, J.K. 2001. Plant salt tolerance. Trends Plant Sc, 6: 66–71.
[49] Agriculture, forestry and fishing industry of South-Kazakhstan region (statistical collection). 2013. Shymkent.
[50] EAD. 2009. Soil survey for the emirate of Abu Dhabi. Reconnaissance soil survey report. Volume 1. Environment Agency Abu Dhabi, United Arab Emirates.
[51] EAD. 2012. Soil survey of northern emirates. Environment Agency Abu Dhabi, 2 Volumes.
[52] Land and Water Development Division,Food and Agriculture Organization of the United Nations Rome. 2000. Land Resource Potential and Constraints at Regional and Country Levels In: World Soil Resources Reports, 1-112.
[53] Land and Water Development Division,Food and Agriculture Organization of the United Nations Rome. 2000. Land Resource Potential and Constraints at Regional and Country Levels In: World Soil Resources Reports, 1-112.
[54] Natural fodder lands of the Otyrar district of the South Kazakhstan region of the Republic of Kazakhstan (essay). 2011. Agency of the Republic of Kazakhstan for Land Management: Comprehensive survey department, subsidiary state enterprise KIO Nizzem. Almaty.
[55] Short encyclopedia of the Kazakh SSR. 1987. General edition of the Kazakh Soviet encyclopedia. Almaty
Published
2020-08-29
How to Cite
BEISENOVA, Raikhan et al.
Comparative Characteristics of Germination of Some Halophyte Plants in Saline Soils of Pavlodar Region.
Journal of Environmental Management and Tourism, [S.l.], v. 11, n. 5, p. 1132-1142, aug. 2020.
ISSN 2068-7729.
Available at: <https://journals.aserspublishing.eu/jemt/article/view/5467>. Date accessed: 26 apr. 2024.
doi: https://doi.org/10.14505//jemt.v11.5(45).11.
Section
Article
Copyright© 2023 The Author(s). Published by ASERS Publishing 2023. This is an open access article distributed under the terms of CC-BY 4.0 license.