On the Strategy of Integrated Water Resources Management in Kazakhstan
Abstract
The article outlines the concept and presents some proposals for the implementation of the integrated water resources management strategy of the Republic of Kazakhstan. The purpose of the article is to analyze the strategy of integrated water resources management in Kazakhstan. In particular, the principles for achieving a qualitatively new state of the water sector, the main components of the state water policy at the current stage, the main mechanisms for its implementation and the stages of implementation are indicated. The novelty of this article lies in the fact that the integrated water resources management at the current stage has been analyzed, and it will be interesting for other countries.
References
[1] Alekseeva, A.G. 2015. Water supply management in the Russian Federation. Construction of Unique Buildings and Structures 3(31): 10-44.
[2] Ashiryayev, K.Sh. 2009. Developing a Regional Action Plan for Water Conservation (RDAP). Ecology and Society 5-6: 54-60.
[3] Bekniyazov, M.K. Experience in water management in developed countries. http://isca.kz/ru/analytics-ru/2361
[4] Cunha, E.J.N.S. and Da Rocha, J.R.C. 2015. Evaluation of the concentration of phosphate ion in water - Resources of some cities of paranaense coast. Periodico Tche Quimica 12(23): 34-38.
[5] Dunaeva, E.A., Popovich V.F. and Lyashevsky, V.I. 2015. Analysis of the dynamics of quantitative and qualitative characteristics of water resources using open GIS and agrohydrological models. Scientific journal of the Russian Research Institute of Land Reclamation Problems 1(17): 127-141.
[6] Evers, M., and Nyberg, L. 2013. Consistency and inconsistency of European instruments for integrated river basin management. River basin management 11(2): 139-152.
[7] Formalev, V.F., Kolesnik, S.A. and Kuznetsova, E.L. 2018a. On the Wave Heat Transfer at Times Comparable with the Relaxation Time upon Intensive Convective-Conductive Heating. High Temperature 56(3): 393-397.
[8] Formalev, V.F., Kolesnik, S.A. and Kuznetsova, E.L. 2018b. Analytical solution-based study of the nonstationary thermal state of anisotropic composite materials. Composites: Mechanics, Computations, Applications 9(3): 223-237.
[9] Leiser, J. and Schulman A. 2013. Integrated water resource management in the USA: Interpretation in the Chesapeake Bay Program. International Journal of Water Governance 1(3-4): 237-264.
[10] Linklaen, A.V. and V. de Montalvo. 2013. Leadership study in the water sector. Water Policy, 15 (Suppl. 2): 5-41.
[11] Lubel, M. and Edelenbos, D. 2013. Integrated water resources management: a comparative laboratory for water resources management. International Journal of Water Management 1(3-4): 177-196.
[12] Pezzini, A., Brião, V.B. and De Boni, L.A.B. 2016. Preliminary study for a cleaning and water reuse system. Periodico Tche Quimica 13(26): 127-133.
[13] Silva, A.P.T., Pereira, J.S., Luzini, J.C., De Souza Guerra, P.C. and Brito, N.N. 2015. Water quality monitoring of groundwater in the residential Shangri-Lá-Goiânia north area. Periodico Tche Quimica 12(23): 54-65.
[14] State program "Water Resources Management of Kazakhstan-2040". 2014. http://online.zakon.kz/Document/?doc_id=31535018#pos=0;0
[15] State program for the development of the agro-industrial complex of the Republic of Kazakhstan for 2017-2021. 2017. http://mgov.kz/wp-content/uploads/2018/iul%27/23.07/plan%20ru.pdf
[16] The draft program of integrated water resources management and improving water use efficiency of the Republic of Kazakhstan for 2008-2025. 2007. Astana: CWR MOA RK, UNDP/Kazakhstan
[17] The National Plan for Integrated Water Resources Management and Water Conservation (first edition). 2005. Almaty: UNDP / Kazakhstan project.
[18] Zhumaboev, K., Reddy, Zh.M., Mukhamedzhanov, Sh., Anarbekov, O. and Eshmuratov, D. 2013. Innovative public-private partnership to expand irrigation in the Fergana Valley of Central Asia. Journal of Agricultural Knowledge and Rural Development 5(1): 21-30.
[2] Ashiryayev, K.Sh. 2009. Developing a Regional Action Plan for Water Conservation (RDAP). Ecology and Society 5-6: 54-60.
[3] Bekniyazov, M.K. Experience in water management in developed countries. http://isca.kz/ru/analytics-ru/2361
[4] Cunha, E.J.N.S. and Da Rocha, J.R.C. 2015. Evaluation of the concentration of phosphate ion in water - Resources of some cities of paranaense coast. Periodico Tche Quimica 12(23): 34-38.
[5] Dunaeva, E.A., Popovich V.F. and Lyashevsky, V.I. 2015. Analysis of the dynamics of quantitative and qualitative characteristics of water resources using open GIS and agrohydrological models. Scientific journal of the Russian Research Institute of Land Reclamation Problems 1(17): 127-141.
[6] Evers, M., and Nyberg, L. 2013. Consistency and inconsistency of European instruments for integrated river basin management. River basin management 11(2): 139-152.
[7] Formalev, V.F., Kolesnik, S.A. and Kuznetsova, E.L. 2018a. On the Wave Heat Transfer at Times Comparable with the Relaxation Time upon Intensive Convective-Conductive Heating. High Temperature 56(3): 393-397.
[8] Formalev, V.F., Kolesnik, S.A. and Kuznetsova, E.L. 2018b. Analytical solution-based study of the nonstationary thermal state of anisotropic composite materials. Composites: Mechanics, Computations, Applications 9(3): 223-237.
[9] Leiser, J. and Schulman A. 2013. Integrated water resource management in the USA: Interpretation in the Chesapeake Bay Program. International Journal of Water Governance 1(3-4): 237-264.
[10] Linklaen, A.V. and V. de Montalvo. 2013. Leadership study in the water sector. Water Policy, 15 (Suppl. 2): 5-41.
[11] Lubel, M. and Edelenbos, D. 2013. Integrated water resources management: a comparative laboratory for water resources management. International Journal of Water Management 1(3-4): 177-196.
[12] Pezzini, A., Brião, V.B. and De Boni, L.A.B. 2016. Preliminary study for a cleaning and water reuse system. Periodico Tche Quimica 13(26): 127-133.
[13] Silva, A.P.T., Pereira, J.S., Luzini, J.C., De Souza Guerra, P.C. and Brito, N.N. 2015. Water quality monitoring of groundwater in the residential Shangri-Lá-Goiânia north area. Periodico Tche Quimica 12(23): 54-65.
[14] State program "Water Resources Management of Kazakhstan-2040". 2014. http://online.zakon.kz/Document/?doc_id=31535018#pos=0;0
[15] State program for the development of the agro-industrial complex of the Republic of Kazakhstan for 2017-2021. 2017. http://mgov.kz/wp-content/uploads/2018/iul%27/23.07/plan%20ru.pdf
[16] The draft program of integrated water resources management and improving water use efficiency of the Republic of Kazakhstan for 2008-2025. 2007. Astana: CWR MOA RK, UNDP/Kazakhstan
[17] The National Plan for Integrated Water Resources Management and Water Conservation (first edition). 2005. Almaty: UNDP / Kazakhstan project.
[18] Zhumaboev, K., Reddy, Zh.M., Mukhamedzhanov, Sh., Anarbekov, O. and Eshmuratov, D. 2013. Innovative public-private partnership to expand irrigation in the Fergana Valley of Central Asia. Journal of Agricultural Knowledge and Rural Development 5(1): 21-30.
Published
2019-04-21
How to Cite
MYRZAHMETOV, Menlibay et al.
On the Strategy of Integrated Water Resources Management in Kazakhstan.
Journal of Environmental Management and Tourism, [S.l.], v. 9, n. 8, p. 1821-1826, apr. 2019.
ISSN 2068-7729.
Available at: <https://journals.aserspublishing.eu/jemt/article/view/3142>. Date accessed: 19 apr. 2024.
doi: https://doi.org/10.14505//jemt.v9.8(32).23.
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.