Water Science (Dec 2024)

Application of algae and zeolite in wastewater treatment: Effects on maize properties and soil fertility

  • Sahar A. Othman,
  • Mona S. S. Soliman,
  • Amel I. Ramadan

DOI
https://doi.org/10.1080/23570008.2024.2375460
Journal volume & issue
Vol. 38, no. 1
pp. 391 – 403

Abstract

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As a consequence of fresh water shortage, non-conventional water resources have become increasingly demandable in semi-arid and arid areas due to the increase in population and urbanization. In Egypt, the reuse of drainage water provides a demanding supplement to irrigation water. This research aims to present natural treatment process for drainage wastewater to be reused in irrigation to support water resources and water quality control. Two biological and chemical wastewater treatment techniques (Algae and Zeolite), under different conditions, were applied to allow the reuse of wastewater to be utilized in the agriculture of very economically important crop which is maize, and comparing the production and the chemical components of the crop with the one irrigated by fresh Nile water. Water, soil and plant analyses were performed. Zeolite was characterized by XRD, SEM and FTIR. Enzymes activities were assigned also (dehydrogenase, phosphatase and nitrogenase activities) and finally the statistical analysis was determined by CoStat software. The treated wastewater chemical and biological analyses showed much better results than El-Rahawy drain wastewater analyses. The plants growth parameters results showed the higher ones with plants subjected to the chemical and biological treatments. Protein and carbohydrate levels, which are the most important plant quality indicators, showed higher concentrations in the treated ones than that irrigated with Nile water. NPK concentration of both seeds and leaves also recorded better levels. The results of the enzymes activities in cases of T4, dehydrogenase, phosphatase, and nitrogenase enzyme activity were 127.66, 40.89, and 79.58, respectively, which increased when compared with control treated with Nile water which were (112.44, 28.4, and 41.39) for dehydrogenase, phosphatase and nitrogenase enzymes respectively.

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