PL EN


Preferencje help
Widoczny [Schowaj] Abstrakt
Liczba wyników
Tytuł artykułu

Groundwater Quality Assessment in the Coastal Mediterranean Aquifer of Northeastern Morocco – A GIS-Based Approach

Treść / Zawartość
Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
Groundwater quality degradation is a pressing concern in semi-arid coastal regions, exemplified by the Ghiss-Nekor aquifer in northeastern Morocco, spanning 100 km2. This study adopts a comprehensive approach, utilizing chloro-alkaline indices, hydrochemical facies diagrams, the water quality index (WQI), and the synthetic pollution index (SPI) to assess the groundwater quality and its evolution. Key findings reveal that the Ghiss-Nekor ground-water is brackish, primarily suitable for irrigation due to high total dissolved solids (TDS). Salinization stems from reverse cation exchange, as indicated by hydrochemical analyses. WQI assessments highlight the inadequacy of this groundwater for drinking purposes, with SPI classifying 54% of wells as moderately polluted. Fine particles mitigate marine intrusion in the northwest. Overlaying land-use and electrical conductivity maps identifies the areas with poor-quality groundwater, notably near an unregulated landfill, a coastal tourist site, and a wastewater treatment facility. Ionic analysis identifies multiple saline sources, with nitrate and sulfate contributions standing out. While the study offers valuable insights, limitations include the need for ongoing data collection and source identification challenges. Nonetheless, the research underscores the urgency of effective water management, particularly around the landfill site situated above permeable deposits, offering an innovative approach with global applicability for addressing groundwater quality issues in semi-arid coastal areas.
Twórcy
autor
  • Laboratory of Organic Chemistry, Catalysis and Environment, Faculty of Science, Ibn Tofail University, Kénitra, Morocco
  • Laboratory of Engineering Sciences and Application, National School of Applied Sciences - Al Hoceima, Abdelmalek Essaadi University, Morocco
  • Laboratory of Engineering Sciences and Application, National School of Applied Sciences - Al Hoceima, Abdelmalek Essaadi University, Morocco
  • Laboratory of Engineering Sciences and Application, National School of Applied Sciences - Al Hoceima, Abdelmalek Essaadi University, Morocco
  • Laboratory of Organic Chemistry, Catalysis and Environment, Faculty of Science, Ibn Tofail University, Kénitra, Morocco
  • Laboratory of Engineering Sciences and Application, National School of Applied Sciences - Al Hoceima, Abdelmalek Essaadi University, Morocco
  • Laboratory of Engineering Sciences and Application, National School of Applied Sciences - Al Hoceima, Abdelmalek Essaadi University, Morocco
autor
  • Laboratory of Engineering Sciences and Application, National School of Applied Sciences - Al Hoceima, Abdelmalek Essaadi University, Morocco
autor
  • Laboratory of Engineering Sciences and Application, National School of Applied Sciences - Al Hoceima, Abdelmalek Essaadi University, Morocco
  • Laboratory of Organic Chemistry, Catalysis and Environment, Faculty of Science, Ibn Tofail University, Kénitra, Morocco
Bibliografia
  • 1. Abdouni A.E., Bouhout S., Merimi I., Hammouti B. and Haboubi K. 2021. Physicochemical characterization of wastewater from the Al-Hoceima slaughterhouse in Morocco. Caspian Journal of Environmental Sciences, 3(19), 423-429.
  • 2. Abu-Alnaeem M.F., Yusoff I., Ng T.F., Alias Y. and Raksmey M. 2018. Assessment of groundwater salinity and quality in Gaza coastal aquifer, Gaza Strip, Palestine: An integrated statistical, geostatistical and hydrogeochemical approaches study. Science of the Total Environment, 615, 972-989.
  • 3. Adimalla N., Dhakate R., Kasarla A. and Taloor A.K. 2020. Appraisal of groundwater quality for drinking and irrigation purposes in Central Telangana, India. Groundwater for Sustainable Development, 10, 100334.
  • 4. Aghazadeh N. and Mogaddam A.A. 2010. Assessment of groundwater quality and its suitability for drinking and agricultural uses in the Oshnavieh Area, Northwest of Iran. J. Environ. Prot., 01(1), 30.
  • 5. Akoteyon I.S., Balogun I.I. and Soneye A.S.O. 2018. Integrated approaches to groundwater quality assessment and hydrochemical processes in Lagos, Nigeria. Applied Water Science, 8, 1-19.
  • 6. Al Naeem M.F.A., Yusoff I., Ng T.F., Maity J.P., Alias Y., May R. and Alborsh H. 2019. A study on the impact of anthropogenic and geogenic factors on groundwater salinization and seawater intrusion in Gaza coastal aquifer, Palestine: An integrated multi techniques approach. Journal of African Earth Sciences, 156, 75-93.
  • 7. Andaloussi K., Achtak H., Nakhcha C., Haboubi K. and Stitou M. 2021. Assessment of soil trace metal contamination of an uncontrolled landfill and its vicinity: the case of the city of ‘Targuist’(Northern Morocco). Moroccan Journal of Chemistry, 3(9), 9-3, 2513-2529.
  • 8. Armugha Khan, Himanshu Govil, Ajay Kumar Taloor and Gaurav Kumar. 2020. Identification of artificial groundwater recharge sites in parts of Yamuna River basin India based on Remote Sensing and Geographical Information System. Groundw. Sustain. Dev., 11, 100415.
  • 9. Ayyandurai R., Venkateswaran S. and Karunanidhi D. 2022. Hydrogeochemical assessment of groundwater quality and suitability for irrigation in the coastal part of Cuddalore district, Tamil Nadu, India. Marine Pollution Bulletin, 174, 113258.
  • 10.Belghiti M., Chahlaoui A., Bengoumi D. and El Moustaine R. 2013. Study of the physico۔ chemical and bacteriological quality of the groundwater of the plio-quaternary aquifer in the Meknes region (Morocco). Larhyss Journal, 14.
  • 11. Benabdelouahab S., Salhi A., Himi M., Stitou El Messari J.E. and Casas Ponsati A. 2019. Geoelectrical investigations for aquifer characterization and geoenvironmental assessment in northern Morocco. Environmental earth sciences, 78, 1-16.
  • 12. Benaissa C., Bouhmadi B., Rossi A. and El Hammoudani Y. 2020. Hydro-chemical and bacteriological Study of Some Sources of Groundwater in the GHIS-NEKOR and the BOKOYA Aquifers (AL HOCEIMA, MOROCCO). Proc of The 4th Edition of International Conference on Geo-IT and Water Resources, 1-5.
  • 13. Benaissa C., Bouhmadi B., Rossi A., El Hammoudani Y. and Dimane F. 2022. Assessment of Water Quality Using Water Quality Index – Case Study of Bakoya Aquifer, Al Hoceima, Northern Morocco. Ecological Engineering & Environmental Technology, 4(23), 31-44.
  • 14. Bodrud-Doza M., Bhuiyan M.A H., Islam S.D.-U., Rahman M.S., Haque M.M., Fatema K.J., Ahmed N., Rakib M. and Rahman M.A. 2019. Hydrogeo-chemical investigation of groundwater in Dhaka City of Bangladesh using GIS and multivariate statistical techniques. Groundw. Sustain. Dev., 8, 226-244.
  • 15. Bouhout S., Haboubi K., El Abdouni A., El Hammoudani Y., Haboubi C., Dimane F., Hanafi I. and Elyoubi M.S. 2023. Appraisal of Groundwater Quality Status in the Ghiss-Nekor Coastal Plain. Journal of Ecological Engineering, 10(24).
  • 16. Bouhout S., Haboubi K., Zian A., Elyoubi M.S. and Elabdouni A. 2022. Evaluation of two linear kriging methods for piezometric levels interpolation and a framework for upgrading groundwater level monitoring network in Ghiss-Nekor plain, north-eastern Morocco. Arabian Journal Geosciences, 10(15), 1-17.
  • 17. Bourjila A., Dimane F., Ghalit M., Taher M., Kamari S., El Hammoudani Y., Achoukhi I. and Haboubi K. 2023. Mapping the spatiotemporal evolution of seawater intrusion in the Moroccan coastal aquifer of Ghiss-Nekor using GIS-based modeling. Water Cycle, 4, 104-119.
  • 18. Bourjila A., Dimane F., Ouarghi H.E., Nouayti N., Taher M., Hammoudani Y.E., Saadi O. and Bensiali A. 2021. Groundwater potential zones mapping by applying GIS, remote sensing and multi-criteria decision analysis in the Ghiss basin, northern Morocco. Groundw. Sustain. Dev., 15, 100693.
  • 19. Chukwu A.C., Chibuike A., Njoku O.P. and Anthony C. 2023. Integrated electrical resistivity methods for evaluation of fracture terrain groundwater potentials, case study of indurated shale of Lower Benue trough, Southeastern Nigeria. Groundwater for Sustainable Development, 101014.
  • 20. Das C.R., Das S. and Panda S. 2023. MLR index–based principal component analysis to investigate and monitor probable sources of groundwater pollution and quality in coastal areas: a case study in East India. Environmental Monitoring and Assessment, 10(195), 1158.
  • 21. Dimane F. and El Hammoudani Y. 2021. Assessment of quality and potential reuse of wastewater treated with conventional activated sludge. Materials Today: Proceedings, 45, 7742-7746.
  • 22. Dimane F., Haboubi K., Hanafi I., El Himri A. and Aridaloussi K. 2017. Impact des facteurs de pollution sur la qualité des eaux de la zone aval de la vallée de l’oued Nekor (Al-Hoceima, Maroc). European Scientific Journal, 3(13), 44-60.
  • 23. El Abdouni A., Bouhout S., Merimi I., Hammouti B. and Haboubi K. 2021. Physicochemical characterization of wastewater from the Al-Hoceima slaughterhouse in Morocco. Caspian Journal of Environmental Sciences, 3(19), 423-429.
  • 24. El Hammoudani Y. and Dimane F. 2020. Assessing behavior and fate of micropollutants during waste-water treatment: Statistical analysis. Environmental Engineering Research, 5(26).
  • 25. El Hammoudani Y. and Dimane F. 2021. Occurrence and fate of micropollutants during sludge treatment: Case of Al-Hoceima WWTP, Morocco. Environmental Challenges, 1(5), 1-8.
  • 26. El Hammoudani Y., Dimane F. and El Ouarghi H. 2019. Fate of Selected Heavy Metals in a Biological Wastewater Treatment System. Euro-Mediterranean Conference for Environmental Integration, 157-163.
  • 27. El Hammoudani Y., Dimane F., Haboubi K., Bourjila A., Benaissa C., Achoukhi I. and Haboubi C. 2023. Assessment of Groundwater Quality in the Lower Wadi of The Nekor Valley, Al-Hoceima-Morocco. Environmental Engineering & Management Journal (EEMJ), 3(22).
  • 28. Elabdouni A., Haboubi K., Bensitel N., Bouhout S., Aberkani K. and El Youbi M.S. 2022. Removal of organic matter and polyphenols in the olive oil mill wastewater by coagulation-flocculation using aluminum sulfate and lime. Moroccan Journal of Chemistry, 1(10), 191-202.
  • 29. Elabdouni A., Haboubi K., Merimi I. and El Youbi M. 2020. Olive mill wastewater (OMW) production in the province of Al-Hoceima (Morocco) and their physico-chemical characterization by mill types. Materials Today: Proceedings, 27, 3145-3150.
  • 30. Errahmouni A., El Messari J.E.S. and Taher M. 2022. Estimation of groundwater recharge using APLIS method–case study of Bokoya Massif (Central Rif, Morocco). Ecological Engineering & Environmental Technology, 23.
  • 31. Errahmouni A., Gharibi E., Ghalit M. and Taupin J. 2017. Caractérisation hydrochimique des eaux souterraines situées dans le massif de Bokoya (Rif central, Maroc). ColloqueInternationalEau–Société-Climat’2017 (ESC-2017).
  • 32. Ferchichi H., Ben Hamouda M., Farhat B. and Ben Mammou A. 2018. Assessment of groundwater salinity using GIS and multivariate statistics in a coastal Mediterranean aquifer. Int J Environ Sci Technol, 15, 2473-2492.
  • 33. Fernine Y., Arrousse N., Haldhar R., Raorane C.J., Kim S.-C., El Hajjaji F., Touhami M.E., Beniken M., Haboubi K. and Taleb M. 2022. Synthesis and characterization of phenolphthalein derivatives, detailed theoretical DFT computation/molecular simulation, and prevention of AA2024-T3 corrosion in medium 3.5% NaCl. Journal of the Taiwan Institute of Chemical Engineers, 140, 104556.
  • 34. Gad M., Saleh A. H., Hussein H., Farouk M. and El-sayed S. 2022. Appraisal of surface water quality of nile river using water quality indices, spectral signature and multivariate modeling. Water, 7(14), 1131.
  • 35. Gao Y., Qian H., Ren W., Wang H., Liu F. and Yang F. 2020. Hydrogeochemical characterization and quality assessment of groundwater based on integrated weight water quality index in a concentrated urban area. Journal of cleaner production, 260, 121006.
  • 36. Ghalit M., Yousfi E., Zouhairi M., Gharibi E. and Taupin J. 2017. Hydrochemical characterization of groundwater in the Nekor basin located in the North-East of the Rif of Morocco. Moroccan Journal of Chemistry, 2(5), 5-2 (2017) 2272-2284.
  • 37. Hajji S., Allouche N., Bouri S., Aljuaid A.M. and Hachicha W. 2022. Assessment of seawater intrusion in coastal aquifers using multivariate statistical analyses and hydrochemical facies evolution-based model. Int. J. Environ. Res. Public Health., 1(19), 155.
  • 38.Jha M.K., Shekhar A. and Jenifer M.A. 2020. Assessing groundwater quality for drinking water supply using hybrid fuzzy-GIS-based water quality index. Water Research, 179, 115867.
  • 39. Kadam A., Wagh V., Jacobs J., Patil S., Pawar N., Umrikar B., Sankhua R. and Kumar S. 2022. Integrated approach for the evaluation of groundwater quality through hydro geochemistry and human health risk from Shivganga river basin, Pune, Maharashtra, India. Environmental Science and Pollution Research, 3(29), 4311-4333.
  • 40. Kanga I., Naimi M. and Chikhaoui M. 2020. Groundwater quality assessment using water quality index and geographic information system based in Sebou River Basin in the North-West region of Morocco. International Journal of Energy and Water Resources, 4(4), 347-355.
  • 41. Krivoruchko K. (2011). Spatial statistical data analysis for GIS users, Esri Press Redlands.
  • 42. Laonamsai J., Pawana V., Chipthamlong P., Chomcheawchan P., Kamdee K., Kimmany B. and Julphunthong P. 2023. Groundwater Quality Variations in Multiple Aquifers: A Comprehensive Evaluation for Public Health and Agricultural Use. Geosciences, 7(13), 195.
  • 43. Neverre N., Surdyk N., Hérivaux C. and Baran N. 2022. Restoring groundwater quality at the drinking water catchment scale: A multidisciplinary and participatory approach. Journal of Environmental Management, 314.
  • 44. Ngouala M., Mbilou U., Tchoumou M. and Samba-Kimbata M. 2016. Characterization Surface Water-Groundwater Aquifer in Coastal Watershed of the Republic of Congo Loémé. Larhyss Journal, 28, 237-256.
  • 45. Ouhamdouch S., Bahir M. and Ouazar D. 2021. Seawater intrusion into coastal aquifers from semiarid environments, Case of the alluvial aquifer of Essaouira basin (Morocco). Carbonates and Evaporites, 36, 1-12.
  • 46. Purwoarminta A., Moosdorf N. and Delinom R.M. 2018. Investigation of groundwater-seawater interactions: a review. IOP Conference Series: Earth and Environmental Science, 012017.
  • 47. Radouane E.M., Chahlaoui A., Maliki A. and Boudelah A. 2023. Assessment and modeling of ground-water quality by using water quality index (WQI) and GIS technique in meknes aquifer (Morocco). Geology, Ecology, and Landscapes, 2(7), 126-138.
  • 48. Rodier J., Bernard L. and Nicole M. (2009). Water analysis, natural water, wastewater, seawater, 9th edn (Dunod, Paris, 2009), ISBN 987-2-10-054179-9.
  • 49.Rupias O.J.B., Pereira S.Y. and de Abreu A.E.S. 2021. Hydrogeochemistry and groundwater quality assessment using the water quality index and heavy-metal pollution index in the alluvial plain of Atibaia river-Campinas/SP, Brazil. Groundwater for Sustainable Development, 15, 100661.
  • 50. Saleh A., Gad A., Ahmed A., Arman H. and Farhat H.I. 2023. Groundwater Hydrochemical Characteristics and Water Quality in Egypt’s Central Eastern Desert. Water, 5(15), 971.
  • 51. Salhi A. 2008. Geophysics, Hydrogeology And Mapping. PhD. Thesis, Ecole Normale Supérieure.
  • 52. Shukla A.K., Ojha C. and Garg R. (2017). Application of overall index of pollution (OIP) for the assessment of the surface water quality in the upper Ganga river basin, India. Development of Water Resources in India, Springer: 135-149.
  • 53. Solangi Y.A., Tan Q., Mirjat N.H. and Ali S. 2019. Evaluating the strategies for sustainable energy planning in Pakistan: An integrated SWOT-AHP and Fuzzy-TOPSIS approach. Journal of Cleaner Production, 236, 117655.
  • 54. Yifru B.A., Mitiku D.B., Tolera M.B., Chang S.W. and Chung I.-M. 2020. Groundwater potential mapping using SWAT and GIS-based multi-criteria decision analysis. KSCE Journal of Civil Engineering, 8(24), 2546-2559.
  • 55. Zghibi A., Merzougui A., Chenini I., Ergaieg K., Zouhri L. and Tarhouni J. 2016. Groundwater vulnerability analysis of Tunisian coastal aquifer: an application of DRASTIC index method in GIS environment. Groundw. Sustain. Dev., 2, 169-181.
Uwagi
Opracowanie rekordu ze środków MNiSW, umowa nr SONP/SP/546092/2022 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2024).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-deb6629b-7b26-49c5-a2da-85ebe76e7411
JavaScript jest wyłączony w Twojej przeglądarce internetowej. Włącz go, a następnie odśwież stronę, aby móc w pełni z niej korzystać.