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Volume 12 Issue 1
Mar.  2024
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Article Contents
Aly Marwa M, Fayad Shymaa AK, Abd Elhamid Ahmed MI. 2024. Assessment of groundwater suitability for different activities in Toshka district, south Egypt. Journal of Groundwater Science and Engineering, 12(1): 34-48 doi:  10.26599/JGSE.2024.9280004
Citation: Aly Marwa M, Fayad Shymaa AK, Abd Elhamid Ahmed MI. 2024. Assessment of groundwater suitability for different activities in Toshka district, south Egypt. Journal of Groundwater Science and Engineering, 12(1): 34-48 doi:  10.26599/JGSE.2024.9280004

Assessment of groundwater suitability for different activities in Toshka district, south Egypt

doi: 10.26599/JGSE.2024.9280004
More Information
  • Corresponding author: marwa_maly@m-eng.helwan.edu.eg
  • Received Date: 2023-02-19
  • Accepted Date: 2023-12-05
  • Available Online: 2024-03-15
  • Publish Date: 2024-03-15
  • Globally, groundwater has globally emerged as a crucial freshwater source for domestic, irrigation, and industrial needs. The evaluation of groundwater quality in the Toshka region is imperative to ensure its suitability for the extensive agricultural and industrial activities underway in this promising, groundwater-dependent development area. This is particularly significant as Egypt increasingly relies on groundwater reserves to address freshwater deficits and to implement mega-development projects in barren lands. In this study, fifty-two samples were collected from the recently drilled wells tapping into the Nubian Sandstone Aquifer (NSA) in the Toshka region. Groundwater quality was assessed through hydrochemical analysis, Piper diagram, and various indicators such as Na%, SAR, RSC, KR, MH and PI. The hydrochemical analysis revealed improved groundwater quality characteristics, attributed to continuous recharge from Lake Nasser. The Piper diagram categorised most of the water samples as "secondary salinity" water type. Almost all wells proved suitable for irrigation with only two wells unsuitable based on MH values and six wells based on KR values. Considering Total Hardness (TH) values, all samples were classified as "Soft", indicating their suitability for domestic and industrial purposes. Water Quality Index (WQI) results concluded that all samples met WHO and FAO guidelines for drinking and irrigation, respectively. Spatial distribution maps, constructed using GIS, facilitate the interpretation of the results. Regular monitoring of quality parameters is essential to detect any deviation from permissible limits.
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  • Abd El-Azeem Y, Shehata M, Nosair A, et al. 2023. Quaternary aquifer hydrochemical assessment, el-tur area, South Sinai, Egypt. Bulletin of Faculty of Science, Zagazig University, 2023(2): 72−85.
    Adimalla N, Qian H. 2020. Spatial distribution and health risk assessment of fluoride contamination in groundwater of Telangana: A state-of-the-art. Geochemistry, 80(4): 125548. DOI: 10.1016/j.chemer.2019.125548.
    Ahmed MT, Hasan MY, Monir MU, et al. 2021. Evaluation of groundwater quality and its suitability by applying the geospatial and IWQI techniques for irrigation purposes in the southwestern coastal plain of Bangladesh. Arabian Journal of Geosciences, 14(3): 233. DOI: 10.1007/s12517-021-06510-y.
    Akter T, Jhohura FT, Akter F, et al. 2016. Water Quality Index for measuring drinking water quality in rural Bangladesh: A cross-sectional study. Journal of Health, Population, and Nutrition, 35: 4.
    Alshehri F, El-Sorogy AS, Almadani S, et al. 2023. Groundwater quality assessment in western Saudi Arabia using GIS and multivariate analysis. Journal of King Saud University - Science, 35(4): 102586. DOI: 10.1016/j.jksus.2023.102586.
    Aly MM, Abd Elhamid AMI, Abu-Bakr HAA, et al. 2023. Integrated management and environmental impact assessment of sustainable groundwater-dependent development in toshka district, Egypt. Water, 15(12): 2183. DOI: 10.3390/w15122183.
    Aly MM, Sakr SA, Fayad SAK. 2019. Evaluation of the impact of Lake Nasser on the groundwater system in Toshka under future development scenarios, Western Desert, Egypt. Arabian Journal of Geosciences, 12(17): 553. DOI: 10.1007/s12517-019-4701-9.
    Anonna TA, Ahmed Z, Alam R, et al. 2022. Water quality assessment for drinking and irrigation purposes in Mahananda River Basin of Bangladesh. Earth Systems and Environment, 6(1): 87−98. DOI: 10.1007/s41748-021-00274-x.
    Armanuos AM, Negm A, Valeriano OCS. 2016. Groundwater quality investigation using multivariate analysis—Case study: Western Nile delta aquifer, Egypt. International Journal of Environmental Science and Development, 7(1): 1−9. DOI: 10.7763/ijesd.2016.v7.732.
    Awad ES, Imran NS, Albayati MM, et al. 2022. Groundwater hydrogeochemical and quality appraisal for agriculture irrigation in greenbelt area, Iraq. Environments, 9(4): 43. DOI: 10.3390/environments9040043.
    Benaafi M, Yassin M, Usman A, et al. 2022. Neurocomputing modelling of hydrochemical and physical properties of groundwater coupled with spatial clustering, GIS, and statistical techniques. Sustainabilty, 14(4): 2250. DOI: 10.3390/su14042250.
    El-Rawy M, Ismail E, Abdalla O. 2019. Assessment of groundwater quality using GIS, hydrogeochemsitry, and factor statistical analysis in Qena governorate, Egypt. Desalination and Water Treatment, 162: 14−29. DOI: 10.5004/dwt.2019.24423.
    El-Zeiny AM, Elbeih SF. 2019. GIS-based evaluation of groundwater quality and suitability in Dakhla oases, Egypt. Earth Systems and Environment, 3(3): 507−523. DOI: 10.1007/s41748-019-00112-1.
    Ezzeldin H, Kamal A, Reda AM, et al. 2018. Assessment of factors affecting the groundwater quality in el-hammam area, north-west coast of Egypt. Middle East Journal Applied Sciences, 08(03): 798−819.
    Hagage M, Madani AA, Elbeih SF. 2022. Quaternary groundwater aquifer suitability for drinking in Akhmim, Upper Egypt: An assessment using water quality index and GIS techniques. Arabian Journal of Geosciences, 15(2): 196. DOI: 10.1007/s12517-021-09393-1.
    Hasan MSU, Rai AK. 2023. Suitability of the Lower Ganga Basin groundwater for irrigation, using hydrogeochemical parameters and land-use dynamics. Environmental Science and Pollution Research, 30(55): 116831−116847. DOI: 10.1007/s11356-022-24708-9.
    Khan A, Qureshi FR. 2018. Groundwater quality assessment through water quality index (WQI) in new Karachi town, Karachi, Pakistan. Asian Journal of Water, Environment and Pollution, 15(1): 41−46. DOI: 10.3233/ajw-180004.
    Kumari M, Rai SC. 2020. Hydrogeochemical evaluation of groundwater quality for drinking and irrigation purposes using water quality index in semi arid region of India. Journal of the Geological Society of India, 95(2): 159−168. DOI: 10.1007/s12594-020-1405-4.
    Megahed HA, Farrag AEH A. 2019. Groundwater potentiality and evaluation in the Egyptian Nile Valley: Case study from Assiut Governorate using hydrochemical, bacteriological approach, and GIS techniques. Bulletin of the National Research Centre, 43(1): 48. DOI: 10.1186/s42269-019-0091-0.
    Mohamed NA, Wachemo AC, Karuppannan S, et al. 2022. Spatio-temporal variation of groundwater hydrochemistry and suitability for drinking and irrigation in Arba Minch Town, Ethiopia: An integrated approach using water quality index, multivariate statistics, and GIS. Urban Climate, 46: 101338. DOI: 10.1016/j.uclim.2022.101338.
    Naik MR, Mahanty B, Sahoo SK, et al. 2022. Assessment of groundwater geochemistry using multivariate water quality index and potential health risk in industrial belt of central Odisha, India. Environmental Pollution, 303: 119161. DOI: 10.1016/j.envpol.2022.119161.
    Patel A, Rai SP, Akpataku KV, et al. 2023. Hydrogeochemical characterization of groundwater in the shallow aquifer system of Middle Ganga Basin, India. Groundwater for Sustainable Development, 21: 100934. DOI: 10.1016/j.gsd.2023.100934.
    Rabeiy RE. 2018. Assessment and modeling of groundwater quality using WQI and GIS in Upper Egypt area. Environmental Science and Pollution Research, 25(31): 30808−30817. DOI: 10.1007/s11356-017-8617-1.
    Ram A, Tiwari SK, Pandey HK, et al. 2021. Groundwater quality assessment using water quality index (WQI) under GIS framework. Applied Water Science, 11(2): 46. DOI: 10.1007/s13201-021-01376-7.
    RamyaPriya R, Elango L. 2017. Evaluation of geogenic and anthropogenic impacts on spatio-temporal variation in quality of surface water and groundwater along Cauvery River, India. Environmental Earth Sciences, 77(1): 2. DOI: 10.1007/s12665-017-7176-6.
    Shalby A, Elshemy M, Zeidan BA. 2020. Assessment of climate change impacts on water quality parameters of Lake Burullus, Egypt. Environmental Science and Pollution Research, 27(26): 32157−32178. DOI: 10.1007/s11356-019-06105-x.
    Shalby A, Emara SR, Metwally MI, et al. 2023. Satellite-based estimates of groundwater storage depletion over Egypt. Environmental Monitoring and Assessment, 195(5): 594. DOI: 10.1007/s10661-023-11171-3.
    Sinduja M, Sathya V, Maheswari M, et al. 2023. Groundwater quality assessment for agricultural purposes at Vellore District of Southern India: A geospatial based study. Urban Climate, 47: 101368. DOI: 10.1016/j.uclim.2022.101368.
    Soleimani H, Abbasnia A, Yousefi M, et al. 2018. Data on assessment of groundwater quality for drinking and irrigation in rural area Sarpol-e Zahab city, Kermanshah Province, Iran. Data in Brief, 17: 148−156. DOI: 10.1016/j.dib.2017.12.061.
    Tarawneh MSM, Janardhana MR, Ahmed MM. 2019. Hydrochemical processes and groundwater quality assessment in North eastern region of Jordan valley, Jordan. HydroResearch, 2: 129−145. DOI: 10.1016/j.hydres.2020.02.001.
    Zhao XB, Guo HP, Wang YL, et al. 2021. Groundwater hydrogeochemical characteristics and quality suitability assessment for irrigation and drinking purposes in an agricultural region of the North China plain. Environmental Earth Sciences, 80(4): 162. DOI: 10.1007/s12665-021-09432-w.
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