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Abstract
In this study, the wastewater analyses of Oued K’sob for one year showed a spatiotemporal diminution of zinc content seasonally, it rest light than copper. But Zinc and copper a threat to the environment of the region. The wastewater analyses of Oued K’sob water for one year showed a spatiotemporal diminution of zinc content seasonally, with a minimum and maximum range of 249 ± 219 µg/l and 2382 ± 3426 µg/l obtained in autumn and summer for the zinc and 75 ± 24 µg/l and 433 ± 310 µg/l obtained in winter and spring at the first and fifth station for the copper. These concentrations of zinc and copper a threat to the environment of the region. Like a solution for this problem, the absorption, accumulation and translocation abilities of Phragmites australis were determined toward iron (Fe), copper (Cu), zinc (Zn) and lead (Pb). In the soils contaminated by different concentrations (100, 200 and 500 mg/L), the absorption, accumulation and transport ability of elements were evaluated via the Bio-concentration (BCF), Bioaccumulation (BF) and Translocation (TF) factors. A proportional increase between the BCF, BFs, TFs and the irrigation concentrations, where BCFs of all metallic elements exceed 1 and the Zn BCF, BFs and TFL are the highest and exceed 1 relative to the other elements which remain lower than 1, which has a low accumulation. Therefore, according to the BCFs obtained and which exceed 1, we can consider this plant as a hyper-accumulator of Zn, Fe, Cu and Pb. Extraction of fatty and organic acids followed by HPLC confirmed the oxalic, citric, malic, succinic, fumaric, formic, acetic, propionic, and butyric acid presence, which are responsible for the transport of the metal from roots to leaves. In the light of these results, we can therefore propose Phragmites australis species as an alternative and natural solution to reduce the high concentrations of zinc and copper in the Oued k‘sob (region of Bordj Bou Arreridj, Algeria).
NOVELTY STATEMENT
The main objective of this study was to carry out and determine the phyto-remedial effect of Phragmites australis species in pots from artificial contaminated soils in order to classify this plant as an accumulator or hyper-accumulator of metals, in particular against zinc, iron, copper and lead in order to reduce their toxicities in the environment through decontamination and/or protection of the ecosystems (soil and water); and why not use this bioremediation system via this species during wastewater treatment at wastewater treatment plants to increase the quality of treatment of one side and reduce the cost on the other side.
Graphical Abstract
Acknowledgements
This work was carried out at the regional laboratory of the national water resources agency (NWRA) and the national center of toxicology (NCT) Algeria.
Conflicts of interest
The authors announce no conflict of interest.