Analysis on exploitation status, potential and strategy of groundwater resources in the five countries of Central Asia

LIU Yu; CHENG Yan-pei; GE Li-qiang

doi:10.19637/j.cnki.2305-7068.2018.01.006

Volume 6 Issue 1

Mar. 2018

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LIU Yu, CHENG Yan-pei, GE Li-qiang. 2018: Analysis on exploitation status, potential and strategy of groundwater resources in the five countries of Central Asia. Journal of Groundwater Science and Engineering, 6(1): 49-57. doi: 10.19637/j.cnki.2305-7068.2018.01.006

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Analysis on exploitation status, potential and strategy of groundwater resources in the five countries of Central Asia

doi: 10.19637/j.cnki.2305-7068.2018.01.006

1Link?ping University-Guangzhou University Research Center on Urban Sustainable Development, Guangzhou University, Guangzhou 510006, China. 1Institute of Hydrogeology and Environmental Geology, CAGS, Shijiazhuang 050061, China.

Publish Date: 2018-03-28

Abstract

Abstract

As an important part of water resources of the five countries of Central Asia, groundwater resources give critical supports to the regional economic development. Accompanied by rapid economic development, the demand of groundwater is increasing. As a result, the governments are paying more attention to groundwater resource development and utilization. However, there are noticeable issues and contradictions in water resource exploration in these countries. To be more specific, these countries lack the studies in development potential and conception planning, thus influencing the sustainable groundwater development. This paper mainly discusses groundwater development problems in the five countries of Central Asia, and briefly introduces volumes and distribution of transboundary groundwater. In addition, it analyzes the current exploitation status of groundwater and studies the potential in utilizing the resource. Most importantly, it proposes creative ways to address groundwater development issues: To make best of the resource, international cooperation is required.
- The five countries of Central Asia,
- Groundwater,
- Sustainable development

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References(15)

References

Smolyar V A, IsaevA K. 2016. Inferred resources and operational stocks of ground waters and their distribution on the territory of Kazakhstan. Almaty: Water Resources of Central Asia and Their Use, 238-246 .

Stanchin I M. 2016. Water resources and water management in Turkmenistan: History, current status and prospects. Synergy, 5:86-99 .

Absemetov M K, Livinsky U. 2016. The security of the groundwater resources of southern Kazakhstan. Almaty: Water Resources of Central Asia and Their Use, 206-211 .

Tolstikhin G M. 2016. Resources of fresh ground waters of the Kyrgyz Republic: status of conditions of drinking water supply of population. Almaty: Water Resources of Central Asia and Their Use, 257-259 .

Bayramova I. 2010. Groundwater resources of Turkmenistan-national treasure. Ashkhabad: World Experience and Advanced Techno?logies for the Efficient Use of Water Resources, 117-119 .

Hatamov A A. 2002. Development of water sector of Turkmenistan. Almaty: Scientific-practical Conference Devoted to 10-anniversary ICWC, 211-214.

Central Asia Water(b). Water resources of the Aral Sea Basin, Surface water resources in the Aral Sea basin. http://www.cawater-info.net/aral/ water_e.htm .

Akhmedov A. C. 2016. Ground waters of Tajikistan. Prospects for the use. Almaty: Water Resources of Central Asia and Their Use, 253-257 .

Central Asia Water(a). Water resources of the Aral Sea Basin, Groundwater: Reserves and uses. http://www.cawater-info.net/aral/groundwater.htm.

SUN Li, WU Hong-wei. 2016. The Central Asian country development report (2016). Beijing: Social Sciences Academic Press, 432 .

HU Ru-ji, JIANG Feng-qing, et al. 2014. Arid ecological and geographical conditions in five countries of Central Asia. Arid Zone Research, 31(1):1-12 .

Alamanov S. K. 2016. Water resources of the Kyrgyz Republic and their use. Almaty: Water Resources of Central Asia and Their Use, 19-26 .

Alamanov S K, Sakiev K. 2013. Hydrology of Kyrgyzstan. Bishkek: Physical Geography of Kyrgyzstan, 211-274 .

Mavlonov A A, Abdullaev B D. 2016. Water resources of Uzbekistan and their use: Current status and perspectives. Almaty: Water Resources of Central Asia and their Use, 348-351 .

The United Nations. 2011. Second assessment of transboundary rivers, lakes and groundwaters. http://www.unece.org/index.php .

2305-7068/© Journal of Groundwater Science and Engineering Editorial Office.

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