Your search found 6 records
1 Lee, J.. 1991. Financial sector and economic development: A survey. Manila, Philippines: ADB. 27p. (Economics and development resource centre report series)
(Location: IWMI-HQ Call no: 339.4 G000 LEE Record No: H09461)
2 Lee, J.. 1991. External finance and the role of multilateral financial institutions in South Asia: Changing patterns, prospects and challenges. Manila, Philippines: ADB. viii, 51p.
(Location: IWMI-HQ Call no: 338.91 G570 LEE Record No: H010329)
3 Kim, J.; Lee, J.; Cho, W. 2000. Forecasting groundwater levels of Bocheong River Basin using neural network model. In International Association for Hydraulic Engineering and Research (IAHR). Aisa and Pacific Division (APD). Sustainable water resources management: issues and future challenges. Proceedings of the 12th Congress of the Asia and Pacific Division of the International Association for Hydraulic Engineering and Research, Bangkok, Thailand, 13-16 November 2000. Volume IV - Water resources development and management. Bangkok, Thailand: Asian Institute of Technology (AIT). Regional Environmental Management Center (REMC). pp.1375-1380.
Water resource management ; River basins ; Groundwater ; Forecasting ; Models ; Networks / Korea Republic / Bocheong River Basin
(Location: IWMI HQ Call no: 333.91 G000 INT Record No: H027723)
4 Kim, T.; Lee, J.; Lee, D. 2003. Estimation of groundwater recharge by the water balance analysis using DAWAST model. In ICID Asian Regional Workshop, Sustainable Development of Water Resources and Management and Operation of Participatory Irrigation Organizations, November 10-12, 2003, The Grand Hotel, Taipei. Vol.1. Taipei, Taiwan: ICID. pp.428-439.
Groundwater ; Recharge ; Estimation ; Models ; Water balance ; Soil moisture ; Measurement ; Watersheds ; Evapotranspiration / Korea Republic
(Location: IWMI-HQ Call no: ICID 631.7.2 G570 ICI Record No: H033363)
5 Al-Jabri, S. A.; Lee, J.; Gaur, Anju; Horton, R.; Jaynes, D. B. 2006. A dripper-TDR method for in situ determination of hydraulic conductivity and chemical transport properties of surface soils. Advances in Water Resources, 29:239-249.
(Location: IWMI-HQ Call no: P 7609 Record No: H039232)
6 Mengistu, T. D.; Chung, I.-M.; Chang, S. W.; Yifru, B. A.; Kim, M.-G.; Lee, J.; Ware, H. H.; Kim, I.-H. 2021. Challenges and prospects of advancing groundwater research in Ethiopian aquifers: a review. Sustainability, 13(20):11500. (Special Issue: Sustainable Groundwater Resources Management) [doi: https://doi.org/10.3390/su132011500]
Groundwater recharge ; Groundwater potential ; Aquifers ; Groundwater pollution ; Anthropogenic factors ; Climate change ; Vulnerability ; Surface water ; Water resources ; Water management ; Sustainability ; Geographical information systems ; Models / Ethiopia
(Location: IWMI HQ Call no: e-copy only Record No: H050704)
(1.57 MB) (1.57 MB)
Groundwater is a strategic resource in all climatic regions of Ethiopia, contributing about 80% of the domestic supply of urban and rural populations. However, little research has been available compared with extensive geographical coverage and increasing population growth rates. Hence, the present study aimed to review published groundwater research of Ethiopian aquifers to realize potential research challenges and suggest future research directions. We focused on groundwater potential, recharge process, and qualities. The total potential groundwater of the country ranges from 2.5 to 47 billion cubic meters. The study depicted that the mean annual recharge estimate varies from 24.9 mm to 457 mm at catchments scales. However, the overall country was about 39.1 mm. The study found a need for a detailed investigation of different factors susceptible to groundwater pollution, as some of the evaluations indicated exceeding acceptable standards. This study observed that the main challenge was the lack of data and convergence research trends. Henceforth, future research in different climate regions should focus on multifaceted technical and stakeholder settings. This study gives the insight to integrate palatable research findings with the national policy and decision-making process to enhance the sustainability of groundwater resources significantly.
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