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Azithromycin removal using pine bark, oak ash and mussel shell

Adsorption is considered an interesting option for removing antibiotics from the environment because of its simple design, low cost, and potential efficiency. In this work we evaluated three by-products (pine bark, oak ash, and mussel shell) as bio-adsorbents for the antibiotic azithromycin (AZM). F...

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Bibliographic Details
Published in:Environmental research 2024-07, Vol.252 (Pt 3), p.119048-119048, Article 119048
Main Authors: Cela-Dablanca, Raquel, Barreiro, Ana, Rodríguez-López, Lucía, Arias-Estévez, Manuel, Fernández-Sanjurjo, María, Álvarez-Rodríguez, Esperanza, Núñez-Delgado, Avelino
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Language:English
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Summary:Adsorption is considered an interesting option for removing antibiotics from the environment because of its simple design, low cost, and potential efficiency. In this work we evaluated three by-products (pine bark, oak ash, and mussel shell) as bio-adsorbents for the antibiotic azithromycin (AZM). Furthermore, they were added at doses of 48 t ha−1 to four different soils, then comparing AZM removal for soils with and without bio-adsorbents. Batch-type experiments were used, adding AZM concentrations between 2.5 and 600 μmol L−1 to the different bio-adsorbents and soil + bio-adsorbent mixtures. Regarding the bio-adsorbents, oak ash showed the best adsorption scores (9600 μmol kg−1, meaning >80% retention), followed by pine bark (8280 μmol kg−1, 69%) and mussel shell (between 3000 and 6000 μmol kg−1, 25–50% retention). Adsorption data were adjusted to different models (Linear, Freundlich and Langmuir), showing that just mussel shell presented an acceptable fitting to the Freundlich equation, while pine bark and oak ash did not present a good adjustment to any of the three models. Regarding desorption, the values were always below the detection limit, indicating a rather irreversible adsorption of AZM onto these three by-products. Furthermore, the results showed that when the lowest concentrations of AZM were added to the not amended soils they adsorbed 100% of the antibiotic, whereas when the highest concentrations of AZM were spread, the adsorption decreased to 55%. However, when any of the three bio-adsorbents was added to the soils, AZM adsorption reached 100% for all the antibiotic concentrations used. Desorption was null in all cases for both soils with and without bio-adsorbents. These results, corresponding to an investigation carried out for the first time for the antibiotic AZM, can be seen as relevant in the search of low-cost alternative treatments to face environmental pollution caused by this emerging contaminant. •When 600 μmol L−1 of azithromycin were added, oak ash adsorbed up to 82%.•Pine bark adsorbed up to 69% of the antibiotic.•Mussel shell retained up to 25% of this pollutant.•Each of the three adsorbents increased soil adsorption capacity for azithromycin.•When pine bark was added to soil, 100% of azithromycin was adsorbed.
ISSN:0013-9351
1096-0953
DOI:10.1016/j.envres.2024.119048