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Impact of raw and purified wastewater reuse from the Dar El-Gueddari treatment plant on the soil

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Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
The study has been carried out at two experimental sites. It aims to assess the impact of the reuse of raw wastewater, purified and diluted with conventional water on the physicochemical quality of soils compared to irrigated soils with conventional drilled water and non-irrigated soil. The obtained results show that the electrical conductivity EC and sodium gradually increase in all the plots irrigated with wastewater. Additionally, a slight increase in the pH levels at the first site and a slight decrease in the second site was seen, but at both sites the soils remained alkaline. The infiltration rate of water slide decreases in relation to the amount of irrigation, especially in plots irrigated by raw and treated wastewater. For the same plots, the values of organic matter increased, and the values obtained for the exchangeable sodium percentage (ESP) became high in the third year and reached 17.0% and 16.7% respectively.
Wydawca
Rocznik
Tom
Strony
121--128
Opis fizyczny
Bibliogr. 32 poz., rys., tab.
Twórcy
autor
  • Laboratory of Materials, Electrochemistry and Environment. University Ibn Tofail, Faculty of Sciences, Department of Chemistry, 14200, Kenitra, Morocco
  • Agricultural Technical Institute, Ain Taoujdate, El Hajeb, Morocco
autor
  • Laboratory of Materials, Electrochemistry and Environment. University Ibn Tofail, Faculty of Sciences, Department of Chemistry, 14200, Kenitra, Morocco
  • Laboratory of Genetics, Neuroendocrinobiology and Biotechnology. Faculty of Sciences, Department of Biology
  • Laboratory of Materials, Electrochemistry and Environment. University Ibn Tofail, Faculty of Sciences, Department of Chemistry, 14200, Kenitra, Morocco
  • Laboratory of Materials, Electrochemistry and Environment. University Ibn Tofail, Faculty of Sciences, Department of Chemistry, 14200, Kenitra, Morocco
Bibliografia
  • ABD-ELWAHED M.S. 2019. Effect of long-term wastewater irrigation on the quality of alluvial soil for agricultural sustainability. Annals of Agricultural Sciences. Vol. 64(2) p. 151–60. DOI 10.1016/j.aoas.2019.10.003.
  • ABEGUNRIN T.P., AWE G.O., IDOWU D.O., ADEJUMOBI M.A. 2016. Impact of wastewater irrigation on soil physico-chemical properties, growth and water use pattern of two indigenous vegetables in Southwest Nigeria. Catena. Vol. 139 p. 167–178. DOI 10.1016/j.catena.2015.12.014.
  • ABH 2018. Etude d’actualisation du plan directeur d’amenagement intégré des ressources en eaux du bassin hydraulique de Sebou – Région du Gharb – Maroc Update study of the master plan for integrated water resources management of the Sebou hydraulic basin – Gharb region – Morocco]. Kénitra – Morocco. Agence de bassin hydraulique de Sebou pp. 116.
  • AYERS R.S., WESTCOT D.W. 1985. Water quality for agriculture. FAO Irrigation and Drainage Paper. Vol. 29. ISBN 92-5-10261-1 pp. 74.
  • BADRAOUI M., AGBANI M., SOUDI B. 2000. Evolution de la qualité des sols sous mise en valeur intensive au Maroc [Evolution of soil quality under intensive development in Morocco]. Séminaire Intensification agricole et qualité des sols et des eaux. Rabat Maroc, 2–3.11.2000 p. 1–11.
  • BARDHAN G., RUSSO D., GOLDSTEIN D., LEVY G J. 2016. Changes in the hydraulic properties of a clay soil under long-term irrigation with treated wastewater. Geoderma. Vol. 264 p. 1–9. DOI 10.1016/j.geoderma.2015.10.004.
  • BHARDWAJ A.K., GOLDSTEIN D., AZENKOT A., LEVY G.J. 2007. Irrigation with treated wastewater under two different irrigation methods: Effects on hydraulic conductivity of a clay soil. Geoderma. Vol. 140(1–2) p. 199–206. DOI 10.1016/j.geoderma.2007.04.003.
  • CEAEQ 2004. Mode de conservation pour l’échantillonnage des rejets liquides Preservation method for sampling liquid discharges] [online]. DR-09-04. Sainte-Foy. Centre d’expertise en analyse environnementale du Québec pp. 8. [Access 20.03.2020]. Available at: http://collections.banq.qc.ca/ark:/52327/bs35056
  • CHAOUA S., BOUSSAA S., EL GHARMALI A., BOUMEZZOUGH A. 2019. Impact of irrigation with wastewater on accumulation of heavy metals in soil and crops in the region of Marrakech in Morocco. Journal of the Saudi Society of Agricultural Sciences. Vol. 18(4) p. 429–36. DOI 10.1016/j.jssas.2018.02.003.
  • CURTIN D., PETERSON M.E., ANDERSON C.R. 2016. PH-dependence of organic matter solubility: Base type effects on dissolved organic C, N, P, and S in soils with contrasting mineralogy. Geoderma. Vol. 271 p. 161–172. DOI 10.1016/j.geoderma.2016.02.009.
  • DING W., LIU X., FEINAN H., HUALING Z., YAXUE L., SONG L., HANG L. 2019. How the particle interaction forces determine soil water infiltration: Specific ion effects. Journal of Hydrology. Vol. 568 (Jan) p. 492–500. DOI 10.1016/j.jhydrol. 2018.11.017.
  • DJEDIDI N., HASSEN A. 1991. Propriétés physiques des sols et pouvoir colmatant des eaux usées en fonction de leur degré de trai-tement [Physical properties of soils and clogging power of wastewater according to their degree of treatment]. Cahiers ORSTOM. Série Pédologie. Vol. 26. No. 1 p. 3–10.
  • DROUBI A., FRITZ B., TARDY Y. 1979. Equilibres entre minéraux et solutions : Programmes de calcul appliqués à la prédiction de la salure des sols et des doses optimales d’irrigation [Balances between minerals and solutions: Calculation programs applied to the prediction of soil salinity and optimal irrigation doses]. Cahiers ORSTOM. Série Pédologie. Vol. 14(1) p. 13–28.
  • GATTA G., LIBUTTI A., BENEDUCE L., GAGLIARDI A., DISCIGLIO G., LONIGRO A., TARANTINO E. 2016. Reuse of treated municipal wastewater for globe artichoke irrigation: Assessment of effects on morpho-quantitative parameters and microbial safety of yield. Scientia Horticulturae. Vol. 213 (Dec) p. 55–65. DOI 10.1016/j.scienta.2016.10.011.
  • HANJRA M A., BLACKWELL J., CARR G., ZHANG F., JACKSON T.M. 2012. Wastewater irrigation and environmental health: Implications for water governance and public policy. International Journal of Hygiene and Environmental Health. Vol. 215(3) p. 255–269. DOI 10.1016/j.ijheh.2011.10.003.
  • HBAIZ E.M., OUIHMAN E.M., LEBKIRI M., EZZARHOUNY D., LEB-KIRI A., RIFI E.H. 2014. Effet des eaux usées d´une station d’épuration sur la croissance du poivron (Capsicum annuum L.) cultivé sur deux sols différents [Effect sewage of wastewater from the treatment plant on the growth in pepper (Capsicum annuum L.) cultivated on two different grounds]. Journal of Materials and Environmental Science. Vol. 5(5) p. 1376–1381.
  • ISO 5815-2 :2003(fr). Détermination de la demande biochimique en oxygène après n jours (DBOn). Partie 2: Méthode pour échantillons non dilués [Water quality — Determination of biochemical oxygen demand after n days (BODn). Part 2: Method for undiluted samples].
  • LIU B. 2019. Mechanisms and feedbacks for evapotranspiration-induced salt accumulation and precipitation in an arid wetland of China. Journal of Hydrology. No. 568 p. 403–415. DOI 10.1016/j.jhydrol.2018.11.004.
  • Ministre de l’Equipement 2002. Arrêté conjoint du ministre de l’équipement et du ministre chargé de l’aménagement du territoire, de l’urbanisme, de l’habitat et de l’environnement n° 1276-01 du 10 chaabane 1423 (17 octobre 2002) portant fixation des normes de qualité des eaux destinées à l’irrigation [Joint order of the Minister of Equipment and the Minister responsible for regional planning, town planning, housing and the environment n° 1276-01 of 10 chaabane 1423 (October 17, 2002) establishing the water quality standards for irrigation] [online]. [Access 20.03.2020]. Available at: http://www.eau-tensift.net/fileadmin/user_files/pdf/reglementation/ControleQualiteEau/Arrete1276_01NormeQualitepourIrrigation.pdf
  • MOLLE B., BAUDEQUIN D., HAIDAR S. 1998.Choix du busage et conduite de l’irrigation par pivots – Prise en compte de la capacité d’infiltration du sol [Choice of nozzle and pipe irrigation by pivots – Consideration of the soil's infiltration capacity]. Ingénieries – EAT. No. 13. IRSTEA, CEMAGREF p. 57–69.
  • MOUHANNI H., HAMDI H., BENDOU A., BENZINE L., CAVALLI E. 2012. Impact de la réutilisation des eaux usées épurées en irrigation : Analyse ionique des lixiviats [Impact of the reuse of treated wastewater in irrigation: ionic analysis of leachate]. Revue des sciences de l’eau. Vol. 25(1) p. 69–73. DOI 10.7202/ 1008536ar.
  • N’GUESSAN K.A., ALUI K.A., DIARRASOUBA N., GNAGNE A.V.L.G. 2019. Impact de la culture continue et l’intensification agricoles sur la teneur en carbone organique et la composition solide minérale des sols au nord de la Côte d’Ivoire [Impact of continuous cultivation and agricultural intensification on the organic carbon content and the solid mineral composition of soils in the north of Côte d'Ivoire]. Journal of Applied Biosciences. Vol. 142 p. 14519–14528. DOI 10.4314/jab. v142i1.6.
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  • RECHACHI M.Z. 2017. Impact de la qualité des eaux d’irrigation sur la salinisation des sols en régions arides et semi arides : Cas de la région du Ziban [Impact of the quality of irrigation water on soil salinization in arid and semi-arid regions: Case of the Ziban region] [online]. PhD Thesis. Biskra. Université Mohamed Khider pp. 379. [Access 20.03.2020]. Available at: http://thesis.univ-biskra.dz/2892/
  • RICHARDS L.A. (ed.) 1954. Diagnosis and improvement of saline and alkali soils. United States Salinity Laboratory Staff pp. 166.
  • SÁNCHEZ-GONZÁLEZ A., CHAPELA-LARA M., GERMÁN-VENEGAS E., FUENTES-GARCÍA R., DEL RÍO-PORTILLA F., SIEBE C. 2017. Changes in quality and quantity of soil organic matter stocks resulting from wastewater irrigation in formerly forested land. Geoderma. Vol. 306 p. 99–107. DOI 10.1016/j.geoderma. 2017.07.009.
  • SCOTT C.A., FARUQUI N I., RASCHID-SALLY L. (ed.) 2004. Wastewater use in irrigated agriculture: Confronting the live-lihood and environmental realities. Wallingford. CABI. ISBN 9780851998237 pp. 208. DOI 10.1079/9780851998237.0000.
  • SINGH P.K., DESHBHRATAR B., RAMTEKE D.S. 2012. Effects of sewage wastewater irrigation on soil properties, crop yield and environment. Agricultural Water Management. Vol. 103 p. 100–104. DOI 10.1016/j.agwat.2011.10.022.
  • SOLÍS C., ANDRADE E., MIRELES A., REYES-SOLÍS I.E., GARCÍA-CALDERÓN N., LAGUNAS-SOLAR M.C., PIÑA C U., FLOCCHINI R.G. 2005. Distribution of heavy metals in plants cultivated with wastewater irrigated soils during different periods of time. Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms. Vol. 241(1–4) p. 351–355. DOI 10.1016/j.nimb.2005.07.040.
  • TARCHOUNA L.G., MERDY P., RAYNAUD M., PFEIFER H R., LUCAS Y. 2010. Effects of long-term irrigation with treated wastewater. Part I: Evolution of soil physico-chemical properties. Applied Geochemistry. Vol. 25(11) p. 1703–1710. DOI 10.1016/j.apgeochem.2010.08.018.
  • URBANO V.R., MENDONÇA T.G., BASTOS R.G., SOUZA F.C. 2017. Effects of treated wastewater irrigation on soil properties and lettuce yield. Agricultural Water Management. Vol. 181 p. 108–115. DOI 10.1016/j.agwat.2016.12.001.
Uwagi
Opracowanie rekordu ze środków MNiSW, umowa Nr 461252 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2021).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-c39de56b-76d5-48ba-9256-9d444a3de8ea
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