Abstract
Toshka area is located southeastern of the Western Desert. In 1997, Egypt established a development project to irrigate 216,000 ha (540 feddan) by 2017 through pumping surface water from High Dam Lake as a part of the mega project “Developing Southern Egypt.” Currently, the Egyptian government plans to extend the project by about 100,000 feddan depending on surface water irrigation and 25,000 feddan depending on groundwater (through 102 wells) as a part of the recent mega project called “1.5 Million Feddan Project.” Egypt is now fully utilizing its annual share of the Nile waters 55.5 km3 from the Nile, and it has a shortage of water estimated at 20 km3.
The present chapter aims to evaluate the groundwater conditions to determine the sustainability of the groundwater resource, the expected changes in groundwater levels, the amount of recharge and the suitable discharge from the groundwater for irrigation of 25,500 feddan through 100 years, and the changes in water quality. The hydrochemical analysis was carried out using 38 productive wells and 1 surface sample from Aswan High Dam Lake (AHDL) for major ions.
The present study was carried out in Toshka using 102 groundwater wells located west of AHDL using static, dynamic water levels, well depth, discharge, and pumping tests to determine the hydraulic parameters of the aquifer system in the study area and building the groundwater model. Visual MODFLOW 2011.1 software was used to estimate the expected drawdown in the groundwater levels using four different scenarios. A conceptual model was constructed to simulate water flow system of the Nubian Sandstone Aquifer through 100 years.
The safe water use of groundwater for 100 years is 1,007 m3/day from each well working 8.4 h/day at 120 m3/h, to provide 1,500 m3/feddan/year for a total of 25,000 feddan. The expected lowering in the groundwater level after 100 years is 15 m. The salinity ranges from 480 to 1,200 ppm with an average of 648.5 ppm. It increases with increasing distance from AHDL.
This is a preview of subscription content, log in via an institution to check access.
Access this chapter
Tax calculation will be finalised at checkout
Purchases are for personal use only
References
Bank Audi (2016) Egypt economic report, p 19. www.bankaudi.com.eg/Library/Assets/EgyptEconomicReport-2016-English-040615.pdf
Atkins S (2002) Comprehensive development plan for Aswan and Lake High Dam, UNDP, Ministry for Planning, Aswan Governorate
Kim J, Sultan M (2002) Assessment of the long term hydrologic impact of Lake High Dam and related irrigation projects in southwestern Egypt. J Hydrol 262:68–83
Elewa AA (1980) Studies on the distribution of some elements in water and sediments in the Aswan High Dam Reservoir. Ph.D. thesis, Al-Azhar University, Cairo, 274 p
USDA (2017) Lake Nasser (0331) height variations from TOPEX/POSEIDON/Jason-1 and Jason-2/OSTM altimetry. https://www.pecad.fas.usda.gov/
ICARDA (2011) Water and agriculture in Egypt. In: Technical paper based on the Egypt-Australia-ICARDA workshop on on-farm water-use efficiency, Cairo, Egypt
Abdel Moneim A, Zaki S, Diab M (2014) Groundwater conditions and the geo-environmental impacts of the recent development in the South Eastern part of the Western Desert of Egypt. J Water Resour Prot 6:381–401
Ball J (1927) Problems of the Libyan Desert. Geogr J 70:21–38
Himida IH (1965) A quantitative study of the artesian water exploration resources in Kharga and Dakhla Oases, Western Desert of Egypt. Bull Inst Desert Egypt 16:31–58
Shata A (1982) Hydrogeology of the great Nubian Sandstone basin, Egypt. Q J Eng Geol 15:127–133
Abdelsalam MG, Youssef AM, Arafat SM, Alfarhan M (2008) Rise and demise of the New Lakes of Sahara. Geosphere 4(2):375–386
Abu Wafa Z, Labib AH (1970) Investigations and observations of seepage losses from the Aswan High Dam reservoir. In: The commission international des Grands Barrages, Montreal, Canada
Ambroggi RP (1966) Water under the Sahara. Sci Am 214:21–29
Dahab KA, Ebraheem AM, El Sayed EA (2003) Hydrogeological and hydrochemical conditions of the Nubian Sandstone aquifer in the area between Abu Simbel and Toshka depression, Western Desert, Egypt. N Jb Geol Palaont 220(2):175–204
El-Sabri MA (2006) Evaluation and management of groundwater resources in the area between Abu Simbel and Tuska, south Western Desert, Egypt. PhD thesis, Minuifiya University, p 192
El-Shazly EM, Abdel Hady MA, El-Kassas IA, El-Amin H, Abdel Megid A, Mansour S, El-Shazly M, Tamer M (1977) Geology and groundwater condition of Toshka basin area, Egypt utilizing Landsat satellite images (NASA Landsat Investigation 2793 and CB 7920). Remote Sensing Center, Cairo
El-Bastawesy M, Arafat S, Khalaf F (2007) Estimation of water loss from Toshka Lakes using remote sensing and GIS. In: 10th AGILE international conference on geographic information science, Aalborg University, Denmark, pp 1–9
Gedamy YR, Said MM, El-Fakharany MA (2010) Hydrogeochemical modeling and groundwater recharge of the Nubian Sandstone aquifer at Tushka area, Western Desert, Egypt. J Appl Sci 25(8A):527–542
Himida IH, El-Sheikh AE, Dahab KA, El-Sabri MA (2007) Application of modeling techniques for the study of groundwater system in Toshka area for sustainable development. GRMENA J:3–31
Klitzsch E, Harms JG, Lejal-Nicol List FK (1979) Major subdivision and depositional environments of Nubian strata, southwestern Egypt. Bull AAPG 63(6):967–974
Sadek MA, Abd El-Samie SG, El-Arabi NE, Ahmed MA (2001) Hydrochemical, isotopic and age characteristics of the groundwater in the Nubia Sandstone aquifer, south western desert, Egypt. Isotope Rad Res 33:161–177
Tamer MA, Sherif MR, Ahmed SA (1987) Inter-relationship between the High Dam Reservoir and the groundwater in its vicinity. Asw Sci Tech 8:11–23
Thorweihe U (1990) Nubian aquifer system. In: Said R (ed) The geology of Egypt, 2nd edn. Balkema, Rotterdam, pp 601–611
Ghoubachi SY (2012) Impact of Lake High Dam on the groundwater of the Nubia Sandstone aquifer system in Tushka area, South Western Desert, Egypt. J King Saud Univ Sci 24:101–109
Alfaran SMA (2013) Geologic and geomorphologic impacts on the water resources, Toshka area and its vicinities, South Western Desert, Egypt. PhD thesis, Ain Shams University, Cairo, p 152
Ghoubachi SY, Merkel B (2011) The impact of fault system on the Nubia Sandstone aquifer in Toshka area, South Western Desert of Egypt. Egypt J Geol 55:71–85
Hassan M (2013) Evaporation estimation for Lake High Dam based on remote sensing technology. Ain Shams Eng J 4:593–604
Issawi B, Youssef EAA, Maxwell T (2016) Cenozoic rivers of northeast Africa: evidence of trans-Saharan drainage. Stratigraphy 13(1):49–66
Korany EA, Aggour TA, Mosaad S, Kehew AE, Salim AA (2012) Hydrogeological impacts of recent recharge to Nubia Sandstone aquifer in Toshka-Abu Simbel area, Western Desert, Egypt. Egypt J Geol 56:33–51
Maxwell TA, Issawi B, Haynes CV (2010) Evidence for Pleistocene lakes in the Tushka region, south Egypt. Geology 38:1135–1138
Maxwell TA, Vance Haynes Jr C, Nicoll K, Johnston AK, Grant JA, Kilani A (2017) Quaternary history of the Kiseiba Oasis region, southern Egypt. J Afr Earth Sci 1–13
Sharaky AM, Salem T, Abdel Aal A (2017) Assessment of water quality and bed sediments of the Nile River from Aswan to Assiut, Egypt. In: Negm AM (ed) The Nile River. Handbook of environmental chemistry, vol 56. Springer, Cham, pp 207–238
Sultan M, Chamberlain KR, Bowring SA, Arvidson RE, Abuzied H, El-Kaliouby B (1990) Geochronologic and isotopic evidence for involvement of pre-Pan-African crust in the Nubian Shield, Egypt. J Geol 18:761–764
CONOCO (Continental Oil Company) (1987) Geological map of Egypt (scale 1: 500,000). Conoco Inc. in collaboration with Freie Universitat Berlin, El Sad Ali sheet
RIGW (Research Institute for Groundwater) (1998–2000) Technical reports for the drilled wells in Toshka area, Phase III, Research Institute for Groundwater, Cairo
Ghoubachi SY (2004) Comparative hydrogeological studies of the Nubia Sandstone aquifer system in east El-Oweinat and Bir El-Shab areas, South Western Desert, Egypt. PhD thesis, Faculty of Science, Al-Azhar University, Cairo, p 303
Issawi B, Osman R (2008) Egypt during the Cenozoic: geological history of the Nile River. Bull Tethys Geol Soc 3:43–62
El-Gammal EA, Salem SM, El-Gammal AA (2010) Change detection studies on the world’s biggest artificial lake (Lake Nasser, Egypt). Egypt J Remote Sens Space Sci 13:88–99
Hantush MS (1967) Growth and decay of groundwater mounds in response to uniform percolation. Water Resour Res 3:227–234
Morris DA, Johnson AI (1967) Summary of hydrologic and physical properties of rock and soil materials, as analyzed by the hydrologic laboratory of the U.S. Geological Survey, 1948–1960. USGS Water Supply Paper 1839-D, p 42
Sharaky AM, El-Hasanein AS, Atta SA, Khallaf K (2017) Nile and groundwater interaction in the Western Nile Delta, Egypt. In: Negm AM (ed) The Nile Delta. Handbook of environmental chemistry, vol 55. Springer, Cham, pp 33–62
Author information
Authors and Affiliations
Corresponding author
Editor information
Editors and Affiliations
Rights and permissions
Copyright information
© 2018 Springer International Publishing AG
About this chapter
Cite this chapter
Sharaky, A.M., El Abd, E.S.A., Shanab, E.F. (2018). Groundwater Assessment for Agricultural Irrigation in Toshka Area, Western Desert, Egypt. In: Negm, A.M. (eds) Conventional Water Resources and Agriculture in Egypt. The Handbook of Environmental Chemistry, vol 74. Springer, Cham. https://doi.org/10.1007/698_2017_124
Download citation
DOI: https://doi.org/10.1007/698_2017_124
Publisher Name: Springer, Cham
Print ISBN: 978-3-319-95064-8
Online ISBN: 978-3-319-95065-5
eBook Packages: Earth and Environmental ScienceEarth and Environmental Science (R0)