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Impact of Landfill Leachate on Groundwater Quality – A Comparison Between Three Different Landfills in Morocco

Treść / Zawartość
Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
In this work, physicochemical and bacteriological analyses of leachate collected from three different landfills in the Marrakech region in Morocco were carried out. The results showed that the leachate is highly loaded with organic matter, chemical and bacteriological elements and some heavy metals, this load depends of the nature of landfill (rural or urban) and also of its age (young or old), the values of the parameters exceed the limit values for discharge into the natural medium. Physicochemical and bacteriological analyses of groundwater from wells downstream of these landfills were also carried out; The results showed that they had medium to poor quality according to the type of landfill. This is due to the presence of organic matter, total coliforms, total phosphorus and total nitrogen in many studied wells.
Słowa kluczowe
Rocznik
Strony
89--94
Opis fizyczny
Bibliogr. 27 poz., tab.
Twórcy
  • Laboratory of Water, Biodiversity and Climate Change, Faculty of Sciences Semlalia, University of Cadi Ayyad, BP 2390, Marrakesh, Morocco
  • Gioscience, Geoturism, Natural Hazards and Remote Sensing Laboratory (2GRNT), Department of Geology, Faculty of Sciences Semlalia, University of Cadi Ayyad, BP 2390, 40000, Marrakesh, Morocco
  • Laboratory of Water, Biodiversity and Climate Change, Faculty of Sciences Semlalia, University of Cadi Ayyad, BP 2390, Marrakesh, Morocco
  • Laboratory of Water, Biodiversity and Climate Change, Faculty of Sciences Semlalia, University of Cadi Ayyad, BP 2390, Marrakesh, Morocco
Bibliografia
  • 1. AFNOR. Recueil de Norme Française. 1997. Eau, Méthodes D’essai, 2nd édition, Paris Édition, Paris.
  • 2. Aoun J., Bouaoun D. 2006. Etude des paramètres physico-chimiques de la biométhanisation des ordures ménagères. Environnement, Ingénierie & Développement, Episciences, 41, 4–9.
  • 3. Aziz H.A., Adlan M.N., Zahari M.S.M., Alias S. 2004. Removal of ammoniacal nitrogen (N-NH3) from municipal solid waste leachate by using activated carbon and lime stone. Waste Management & Research, 22, 371–375.
  • 4. Aziz Q.S., Abdul Aziz H., Yusoff M.S., Bashir M.J.K., Umar M. 2010. Leachate characterization in semi-aerobic and anaerobic sanitary landfills: A comparative study. Journal of Environmental Management, 91(12), 2608–2614.
  • 5. Benaddi R., Bouriqi A., Ouazzani A. 2022a. The Environmental Problem of Olive Mill Waste Water in Morocco: Data Analysis and Characterization. International Journal of Current Science Research and Review, 5(5), 1805–1809.
  • 6. Benaddi R., Aziz K., El Harfi F., Ouazzani N. 2022b. Column Adsorption Studies of Phenolic Compounds on Nanoparticles Synthesized from Moroccan Phosphate Rock. Sustainable Energy-Water-Environment Nexus in Deserts, 115–120.
  • 7. Benaddi R., Aziz F., El Harfi KH., Ouazzani N. 2021. Adsorption and desorption studies of phenolic compounds on hydroxyapatite-sodium alginate composite. Desalination and water treatment, 220, 297.
  • 8. Benaddi R., El Harfi Kh., Aziz F., Berrekhis F., Ouazzani N. 2020. Removal of phenolic compounds from synthetic solution and oil mill waste water by adsorption onto nanoparticles synthesized from phosphate rock. Journal of Surface Science and Technology, 36, 39–51.
  • 9. Chamas A., Moon H., Zheng J., Qiu Y., Tabassum T., Jang J.H., Abu-Omar M., Scott S.L., Suh S. 2020. Degradation of plastic: Degradation Rates of Plastics in the Environment. ACS Sustainable Chemistry & Engineering, 8(9), 3494–3511.
  • 10. Chu Z., Fan X., Wang W., Huang W. 2019. Quantitative evaluation of heavy metals’ pollution hazards and estimation of heavy metals’ environmental costs in leachate during food waste composting. Waste Management, 84, 119–128.
  • 11. Djeffal K., Bouranene S., Fievet P., Déon S., Gheid A. 2019. Treatment of controlled discharge leachate by coagulation flocculation: influence of operational conditions, Separation Science and Technology, 56, 1–16.
  • 12. Dregulo A.M., Bobylev N.G. 2021. Integrated Assessment of Groundwater Pollution from the Landfill of Sewage Sludge. Journal of Ecological Engineering, 22, 68–75.
  • 13. El Kharmouz M., Sbaa M., Chafi A., Saadi S. 2013. L’étude de l’impact des lixiviats de l’ancienne décharge publique de la ville d’oujda (maroc oriental) sur la qualité physicochimique des eaux souterraines et superficielles. Larhyss Journal, 16, 105–119.
  • 14. Hamidi A., Osama M.O., Salem S.A. 2013. The performance of Electro-Fenton oxidation in the removal of coliform bacteria from landfill leachate. Waste Management, 33(2), 396–400.
  • 15. Jokela J.P.Y., Kettunen R.H., Sormunen K.M., Rintala J.A. 2002. Biological nitrogen removal from municipal landfill leachate: low-cost nitrification in biofilters and laboratory scale in-situ denitrification. Water Research, 36(16), 4079–4087.
  • 16. Maqbool F., Bhatti Z.A., Malik A.H., Pervez A., Mahmood Q. 2011. Effect of Landfill Leachate on the Stream water Quality. International Journal of Environmental Research, 5(2), 491–500.
  • 17. Musy A., Soutter M. 1991. Physique du sol. Collection gérer l’environnement. Lausanne, Presse polytechnique et universitaire. Romands, 337.
  • 18. Kjeldsen P., Barlaz M.A., Rooker A.P., Baun A., Ledin A., Christensen T.H. 2002. Present and Long- Term Composition of MSW Landfill Leachate: A Review. Critical Reviews in Environmental Science and Technology, 32(4), 297–336.
  • 19. Pitt R., Clarck S., Parmer K. 1994. Potential groundwater contamination, Springfield (USA): U.S. Environmental protection Agency, 187.
  • 20. Podlasek A., Jakimiuk A., Vaverková M.D., Koda E. 2021. Monitoring and Assessment of Groundwater Quality at Landfill Sites: Selected Case Studies of Poland and the Czech Republic. Sustainability, 13(14), 7769.
  • 21. Przydatek G., Kanownik W. 2021. Physicochemical indicators of the influence of a lined municipal landfill on groundwater quality: a case study from Poland. Environmental Earth Sciences, 80, 456.
  • 22. Shouliang H., Beidou X., Haichan Y., Liansheng H., Shilei F., Hongliang L. 2008. Characteristics of dissolved organic matter (DOM) in leachate with different landfill. Journal of Environmental Sciences, 20, 492– 498
  • 23. Słomczyńska, B., Słomczyński, T. 2004. Physico-chemical and Toxicological Characteristics of Leachates from MSW Landfills. Polish Journal of Environmental Studies, 13(6), 627–637.
  • 24. Smahi D., Fekri A., Hammoumi O. 2013. Environmental Impact of Casablanca Landfill on Groundwater Quality, Morocco. International Journal of Geosciences, 4, 202–211.
  • 25. Tatsi A.A., Zouboulis A.I. 2002. A field Investigation of the Quantity and Quality of Leachate from a Municipal Solid Waste Landfill in a Mediterranean Climate (Thessaloniki, Greece). Advances in Environmental Research, 6, 207–219.
  • 26. Vaverková M.D. 2019. Review Landfill Impacts on the Environment—Review. Geosciences. 9(431), 2–16.
  • 27. Wdowczyk A., Szymanska-Pulikowska A. 2021. Comparison of Landfill Leachate Properties by LPI and Phytotoxicity – A Case Study. Frontiers in Environmental Science, 9, 693112.
Uwagi
Opracowanie rekordu ze środków MEiN, umowa nr SONP/SP/546092/2022 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2022-2023).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-6951ee79-1f1d-40a2-84b1-d48ec5e71c48
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