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Publication Details
AFRICAN RESEARCH NEXUS
SHINING A SPOTLIGHT ON AFRICAN RESEARCH
Impact of rehabilitation of Assiut barrage, Nile River, on groundwater rise in urban areas
Journal of African Earth Sciences, Volume 45, No. 4-5, Year 2006
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Description
To make optimum use of the most vital natural resource of Egypt, the River Nile water, a number of regulating structures (in the form of dams and barrages) for control and diversion of the river flow have been constructed in this river since the start of the 20th century. One of these barrages is the Assiut barrage which will require considerable repairs in the near future. The design of the rehabilitation of the barrage includes a headpond with water levels maintained at a level approximately 0.60 m higher than the highest water level in the headpond of the present barrage. This development will cause an increase of the seepage flow from the river towards the adjacent agricultural lands, Assiut Town and villages. The increased head pond level might cause a rise of the groundwater levels and impedance of drainage outflows. The drainage conditions may therefore be adversely affected in the so-called impacted areas which comprise floodplains on both sides of the Nile for about 70 km upstream of the future barrage. A rise in the groundwater table, particularly when high river levels impede drainage, may result in waterlogging and secondary salinization of the soil profile in agricultural areas and increase of groundwater into cellars beneath buildings in the urban areas. In addition, a rise in the groundwater table could have negative impact on existing sanitation facilities, in particular in the areas which are served with septic tanks. The impacts of increasing the headpond level were assessed using a three-dimensional groundwater model. The mechanisms of interactions between the Nile River and the underlying Quaternary aquifer system as they affect the recharge/discharge processes are comprehensively outlined. The model has been calibrated for steady state and transient conditions against historical data from observation wells. The mitigation measures for the groundwater rise in the urban areas have been tested using the calibrated mode. © 2006 Elsevier Ltd. All rights reserved.
Authors & Co-Authors
Dawoud, Mohamed Abdel Hamyd
Egypt, Cairo
National Water Research Center, Egypt
El-Arabi, Nahed E.
Egypt, Cairo
National Water Research Center, Egypt
Khater, Ahmed R.
Egypt, Cairo
National Water Research Center, Egypt
van Wonderen, Jan
United Kingdom, Surrey
Mott Macdonald Group Limited
Statistics
Citations: 19
Authors: 4
Affiliations: 2
Identifiers
Doi:
10.1016/j.jafrearsci.2006.03.013
ISSN:
08995362
e-ISSN:
1464343X
Research Areas
Disability
Environmental
Study Locations
Egypt