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This study evaluated the suitability of groundwater from primary basins in the Tafilalet area of southeast Morocco for drinking purposes. Water samples were collected from 100 wells, and physicochemical parameters, including temperature, conductivity, pH, hardness, and organic and inorganic ion concentrations, were analyzed. The weighted arithmetic water quality index (WQI) was used as an ecological indicator for quality evaluation in relation to Moroccan drinking water criteria. Ten locations were chosen for monthly inspection based on their proximity to the potential sources of pollution. The study found a considerable improvement in water quality over a 15-year period (2004–2019), with three sites classified as “Good quality” and seven as “Poor Water”. The analysis revealed that the pH values of all groundwater samples were within the acceptable range according to the World Health Organization (WHO) standards. The chloride ion concentrations decreased significantly over time, while the nitrate and sulfate concentrations increased. The hydrometric title of groundwater was very high in all study sites, with a significant proportion of alkaline earth metals present. The study suggests that the development of the sewerage network and supply and distribution of drinking water in the region has led to improved water quality. The study demonstrated changes in the physicochemical properties of groundwater in the Tafilalet region of Morocco over a 15-year period, with an overall improvement in water quality.
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117--126
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Bibliogr. 31 poz., rys., tab.
Twórcy
autor
- Biology, Environment and Health, Faculty of Sciences and Technology, Moulay Ismail University of Meknes, PB 509, Boutalamine 52000, Errachidia, Morocco
autor
- Biology, Environment and Health, Faculty of Sciences and Technology, Moulay Ismail University of Meknes, PB 509, Boutalamine 52000, Errachidia, Morocco
- LABASE Laboratory, Faculty of Science of Meknes, Moulay Ismail University, Meknes, Morocco
autor
- Biology, Environment and Health, Faculty of Sciences and Technology, Moulay Ismail University of Meknes, PB 509, Boutalamine 52000, Errachidia, Morocco
- Environmental Management and Civil Engineering, National School of Applied Sciences, Al Hoceima, Abdelmalek Essaadi University, BP 32003, Al Hoceima, Morocco
autor
- Laboratory for Improvement of Agricultural Production, Biotechnology and Environment (LAPABE)/ Water, Environment and Health Team, Faculty of Science, Mohammed Premier University, PB 717, 60000, BV M6, Oujda, Morocco
autor
- 3-BIO Laboratory, Higher School of Technology, Sultan Moulay Sliman University of Beni Mellal, BP 170, Khenifra 54000, Khenifra, Morocco
autor
- Biology, Environment and Health, Faculty of Sciences and Technology, Moulay Ismail University of Meknes, PB 509, Boutalamine 52000, Errachidia, Morocco
autor
- Environmental Management and Civil Engineering, National School of Applied Sciences, Al Hoceima, Abdelmalek Essaadi University, BP 32003, Al Hoceima, Morocco
autor
- Biology, Environment and Health, Faculty of Sciences and Technology, Moulay Ismail University of Meknes, PB 509, Boutalamine 52000, Errachidia, Morocco
- LABASE Laboratory, Faculty of Science of Meknes, Moulay Ismail University, Meknes, Morocco
Bibliografia
- 1. Alizadeh, M., Kavianpour, M., Danesh, M., Adolf, J., Shamshirband, S., Chau, W. 2018. Effect of river flow on the quality of estuarine and coastal waters using machine learning models. Eng. Applications Comput. Fluid Mech., 12(1), 810–823. https://doi.org/10.1080/19942060.2018.1528480
- 2. Ait Boughrous, A. 2007. Biodiversité, écologie et qualité des eaux souterraines de deux régions arides du Maroc : le Tafilalet et la région de Marrakech. Ph.D. Thesis, Fac. Sc. Semlalia. Univ. Cadi Ayyad, Morocco, Marrakech.
- 3. Ait Boughrous, A., Yacoubi Khebiza, M., Boulanouar, M., Boutin, C., Messana, G. 2007. Groundwater quality in two arid areas of Morocco: impact of pollution on biodiversity and paleogeographic implications. Environ. Technol., 28(11), 1299–1315. https://doi.org/10.1080/09593332808618887
- 4. Aly, A. 2015. Hydrochemical characteristics of Egypt western desert oases groundwater. Arab. J. Geosci., 8(9), 7551–7564. https://doi.org/10.1007/s12517-014-1680-8
- 5. Backman, B., Bodis, D., Lahermo, P., Rapant, S., Tarvainen, T. 1998. Application of a groundwater contamination index in Finland and Slovakia. Environ. Geol., 36, 55–64.
- 6. Bahir, M., Ouhamdouch, S., Carreira, P.M., Zouari, K. 2018. Relationship between hydrochemical variation and the seawater intrusion within coastal alluvial aquifer of Essaouira basin (Morocco) using HFE-diagram. In Advances in Sustainable and Environmental Hydrology, Hydrogeology, Hydrochemistry and Water Resources: Proceedings of the 1st Springer Conference of the Arab. J. Geosci. (CAJG-1), Hammamet Tunisia, November 12–15.
- 7. Benyoussef, S., Arabi, M., El Ouarghi, H., Ghalit, M., Azirar, M., El Midaoui, A., Ait Boughrous, A. 2021a. Impact of Anthropic Activities on the Quality of Groundwater in the Central Rif (North Morocco). Ecol. Eng. Environ. Tech., 22(6), 69–78. https://doi.org/10.12912/27197050/141525
- 8. Benyoussef, S., El Ouarghi, H., Arabi, M., El Yousfi, Y., Azirar, M., Boughrous, A.A. 2021b. Assessment of the impact of Imzouren city’s WWTP on the quality of the surrounding groundwater, at the Rif Central (Northern Morocco). In E3S Web of Conferences The 2nd edition of Oriental Days for the Environment “Solid Waste as a Vital Resource for Sustainable Development (JOE2) ”. Oujda, Morocco, February 12–14.
- 9. Besser, H., Hamed, Y. 2019. Causes and risk evaluation of oil and brine contamination in the Lower Cretaceous Continental Intercalaire aquifer in the Kebili region of southern Tunisia using chemical fingerprinting techniques. Environ. Pollut., 253, 412–423. https://doi.org/10.1016/j.envpol.2019.07.020
- 10. Brown, R.M., McClelland, N.I., Deininger, R.A., Tozer, R.G. 1970. Water quality index-do we dare? Water Sew. Works, 117(10), 339–343.
- 11. Hamed, Y., Hadji, R., Redhaounia, B., Zighmi, K., Bâali, F., El Gayar, A. 2018. Climate impact on surface and groundwater in North Africa: a global synthesis of findings and recommendations. EuroMediterr. J. Environ. Integr., 3, 25. https://doi.org/10.1007/s41207-018-0067-8
- 12. HCP. 2021. Monograph of Drâa –Tafilalet region. High Commission for Planning report, Morocco c2021. Available online: https://www.hcp.ma/draatafilalet/Monographies_r16.html
- 13. He, J., Ma, J., Zhao, W., Sun, S. 2015. Groundwater evolution and recharge determination of the Quaternary aquifer in the Shule River basin, Northwest China. Hydrogeol. J., 23, 1745–1759. https://doi.org/10.1007/s10040-015-1311-9
- 14. Horton, R.K. 1965. An index number system for rating water quality. J. Water Pollut. Control Fed., 37(3), 300–306.
- 15. Kachroud, M., Trolard, F., Kefi, M., Jebari, S., Bourri ́e, G. 2019. Water quality indices : challenges and application limits in the literature. Water, 11(2), 361. https://doi.org/10.3390/w11020361
- 16. Loizidou, M., Kapetanios, E.G. 1993. Effect of leachate from landfills on underground water quality. Sci. Total Environ., 128(1), 69–81. https://doi.org/10.1016/0048-9697(93)90180-E
- 17. Rodier, J., Legube, B., Merlet, N. 2009. L’analyse de l’eau ; Eaux naturelles, eaux résiduaires, eau de mer, 9ème Ed., Dunod: Paris, France.
- 18. Rosemond, S., Duro, D., Dub ́e, M. 2009. Comparative analysis of regional water quality in Canada using the Water Quality Index. Environ. Monit. Assess., 156, 223–240. https://doi.org/10.1007/s10661-008-0480-6
- 19. Sahu, P., Sikdar, P.K. 2008. Hydrochemical framework of the aquifer in and around East Kolkata wetlands, West Bengal, India. Environ. Geol. 55(4), 823–835. https://doi.org/10.1007/s00254-007-1034-x
- 20. Sappa, G., Ergul, S., Ferranti, F., Sweya, L.N., Luciani, G. 2015. Efects of seasonal change and seawater intrusion on water quality for drinking and irrigation purposes, in coastal aquifers of Dares Salaam, Tanzania. J. Afr. Earth Sci., 105, 64–84. https://doi.org/10.1016/j.jafrearsci.2015.02.007
- 21. Sapkal, S., Valunjkar, S. 2013. Development and sensitivity analysis of water quality index for evaluation of surface water for drinking purpose. Int. J. Civ. Eng. Technol., 4(4), 119–134.
- 22. Sener, S., Sener, E., Davraz, A., 2017. Evaluation of water quality usingwater quality index (WQI) method and GIS in AKsu River (SW-Turkey). Sci. Total Environ., 584, 131–144. https://doi.org/10.1016/j.scitotenv.2017.01.102
- 23. Singh, P.K., Tiwari, A.K., Panigarhy, B.P., Mahato, M.K. 2013. Water quality indices used for water resources vulnerability assessment using GIS technique: a review. Int. J. Earth Sci. Eng., 6(6–1), 1594–1600.
- 24. Sutadian, A., Muttil, N., Yimlaz, A., Perera, B.J.C. 2017. Using the analytic hierarchy process to identify parameter weights for developing a water quality index. Ecol. Ind., 75, 220–233. https://doi.org/10.1016/j.ecolind.2016.12.043
- 25. Tiwari, A.K., Singh, A.K., Singh, M.P. 2015. Hydrogeochemical analysis and evaluation of surface water quality of Pratapgarh district, Uttar Pradesh, India. Appl. Water Sci., 7(4), 1609–1623. https://doi.org/10.1007/s13201-015-0313-z
- 26. Tunc Dede, O., Telci, I.T., Aral, M.M. 2013. The use of water quality index models for the evaluation of surface water quality: A case study for Kirmir Basin, Ankara, Turkey. Water Qual. Expo. Health, 5, 41–56. https://doi.org/10.1007/s12403-013-0085-3
- 27. Tyagi, S., Sharma, B., Singh, P., Dobhal, R. 2013. Water quality assessment in terms of water quality index. Am. J. Water Resour., 1(3), 34–38. https://doi.org/10.12691/ajwr-1-3-3
- 28. UNESCO. 2021. Valuing water, the United Nations Educational, Scientific and Cultural Organization,7, place de Fontenoy, 75352 Paris 07 SP, France, 187.
- 29. Wang, H., Jiang, X. W., Wan, L., Han, G., Guo, H. 2015. Hydrogeochemical characterization of groundwater fow systems in the discharge area of a river basin. Hydrogeol. J., 527, 433–441. https://doi.org/10.1016/j.jhydrol.2015.04.063
- 30. WHO. 2011a. Guidelines for drinking water quality. 4th ed., World Health Organization: Geneva, Switzerland, 155–229.
- 31. WHO, 2011b. Guidelines for drinking water quality, 3rd ed., WHO chronicle: Geneva, Switzerland, 8–104.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-a8e0655d-576f-4aa4-a455-678e47393205