Asian Transboundary Aquifers Inventory and Mapping

Zai-sheng Han; Jayakunar Ramasamy; Yao Li; Jing He; HaoWang; Yan-pei Cheng; Hua Dong; Zeng-shi Ni

Volume 1 Issue 3

Dec. 2014

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Zai-sheng Han, Jayakunar Ramasamy, Yao Li, et al. 2013: Asian Transboundary Aquifers Inventory and Mapping. Journal of Groundwater Science and Engineering, 1(3): 1-9.

Citation:

Zai-sheng Han, Jayakunar Ramasamy, Yao Li, et al. 2013: Asian Transboundary Aquifers Inventory and Mapping. Journal of Groundwater Science and Engineering, 1(3): 1-9.

Zai-sheng Han, Jayakunar Ramasamy, Yao Li, et al. 2013: Asian Transboundary Aquifers Inventory and Mapping. Journal of Groundwater Science and Engineering, 1(3): 1-9.

Citation:

Zai-sheng Han, Jayakunar Ramasamy, Yao Li, et al. 2013: Asian Transboundary Aquifers Inventory and Mapping. Journal of Groundwater Science and Engineering, 1(3): 1-9.

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Asian Transboundary Aquifers Inventory and Mapping

1School of Water and Environment, China University of Geosciences, Beijing;2Division of Science, Technology and Environment, UNESCO Office Beijing;3Institue of Hydrogeology and Environmental Geology

Publish Date: 2014-12-28

Abstract

Abstract

Transboundary aquifer (TBA) is an aquifer system that exists in more than one state. As an important component of the groundwater system, proper management and rational utilization in trans-boundary aquifers are significantly important for promoting sustainable development and good-neighbor relationships. The Transboundary Aquifers will not implicate by the country’s political boundary as it follows the natural boundary lines. Within the frame work of the UNESCO's International Hydrological Programme (IHP-VI & VII) activities for the International Shared Aquifer Resource Management (ISARM), the inventory on TBA in Asia both preliminary and detail has accomplished. Those TBAs are classified in to two types: regional and local grade. A of Asian Transboundary Aquifers Map has advanced. The updated map provides the situation of the regional TBAs identify as the actual shape. Countries with the TBAs should strengthen cooperation for coordination and joint management of groundwater resources in order to achieve sustainable use
- Transboundary aquifer,
- Groundwater,
- Asia,
- Inventory,
- Mapping

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References(15)

References

W.F. Struckmeier, W.H. Gilbrich, J.V.D.Gun, et al, 2006, WHYAP and the Map of Transboundary Aquifer Systems at scale of 1:50M, UNESCO - IHP

IGRAC, 2009, Transboundary Aquifers of the World, Update 2009, 50M，Special Edition for 5th World Water Forum，Istanbul

UNESCO, 2003, World Water Development Report: Water for People, Water for Life, UNESCO and Berghahn Book, Barcelona

United Nations, 2006, Water: A Shared Responsibility, the United Nations World Water Development Report 2, 2006.3, http://www.unesco.org/publishing

Shammy Puri, Alice Aureli 2005, Transboundary aquifers: A global programme to assess, evaluate & develop policy ground water[J]. Ground Water, 2005,43(5) :661~668

Zai-sheng Han, Hao Wang, 2006, Research on Transboundary Aquifers, Earth Science Frontiers 2006, Vol. 13(1) 32- 39

Institute of Hydrogeology and Engineering Geology, Chinese Academy of Geological Sciences, 1996, Hydrogeological Map of Asia 1:8 M, Geological Publishing House, Beijing, China

PURI S., 2001, Internationally shared (Transboundary) aquifer resources manage-ment-A framework Document [M]/IHP-VI non serial documents in hydrology, Paris, France: UNESCO, 2001:9-36

IHP VII Technical Document in Hydrology, UNESCO Office in Beijing & Jakarta, 2010, Transboundary Aquifers in Asia-A Pre?liminary Inventory and Assessment

Raya Marina Stephan, 2009. Transboundary Aquifers: Managing a Vital Resources, Document of UNESCO

IGRAC, 2012, Transboundary Aquifers of the World, Update 2012, 1:50M，Special Edition for 6th World Water Forum, Marseille

Economic Commission for Europe, 2007, our waters: Joining Hands across Borders - First Assessment of Transboundary Rivers, Lakes and Groundwater, United Nations, New York and Geneva, 2007

Zai-sheng Han, Jayakumar R. et al (2008): Review on Transboundary Aquifers in P. R. China with case Study of Heilongjiang-Amur River basin, Environmental Geology Vol. 54(2008); 1,411-1,422

Igor S. Zektser, Lorne G. Everett, 2004, Groundwater Resources of the World and Their Use, UNESCO IHP-VI, Series on Groundwater No.6

Struckmeier, W. et al, 2006 & 2008, WHYMAP Groundwater Resources of the World, Transboundary System, 1:50M

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