Effects of adsorption onto silica sand particles on the hydrolysis of tetracycline antibiotics

Effects of adsorption onto silica sand particles on the hydrolysis of tetracycline antibiotics

Due to high usage of tetracycline antibiotics, concerns have been raised about their environmental fate. In this study, potential changes in the pseudo-first-order hydrolysis rate constants for three tetracyclines, tetracycline (TC), oxytetracycline (OTC) and chlortetracycline (CTC), were evaluated...

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Bibliographic Details
Published in:Journal of environmental monitoring Vol. 14; no. 7; p. 1853
Main Authors: Kang, Hyun-Joong, Lim, Mi-Young, Kwon, Jung-Hwan
Format: Journal Article
Language:English
Published: England 01-07-2012
Subjects:
Adsorption
Aliivibrio fischeri
Anti-Bacterial Agents - chemistry
Anti-Bacterial Agents - toxicity
Hydrogen-Ion Concentration
Hydrolysis
Silicon Dioxide - chemistry
Silicon Dioxide - toxicity
Tetracyclines - chemistry
Tetracyclines - toxicity
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Summary:Due to high usage of tetracycline antibiotics, concerns have been raised about their environmental fate. In this study, potential changes in the pseudo-first-order hydrolysis rate constants for three tetracyclines, tetracycline (TC), oxytetracycline (OTC) and chlortetracycline (CTC), were evaluated by measuring the rate constants in batch and column leaching experiments. The first-order hydrolysis rate constants were measured at pH 5, 7, and 9 using batch tests. The values were highest at pH 7 for all three tetracyclines (0.0030 ± 0.0004, 0.0042 ± 0.0001, and 0.0323 ± 0.0003 h(-1) for TC, OTC, and CTC, respectively), indicating relatively short environmental half-lives of tetracyclines. Interestingly, it was found that the rates of degradation of the parent tetracyclines were much faster when silica sand was present in a batch solution or when the solution was passed through a silica column. For example, the ratios of the first-order degradation rate constants obtained in the column experiments to those in batch experiments were 13.2, 2.1, and 2.0 for TC, OTC, and CTC at a volumetric flow rate of 0.08 mL h(-1), with an observed tendency for this ratio to increase with an increased flow rate. This indicates that the silica surface may serve as a catalyst for hydrolysis and that the actual environmental half-lives of tetracycline antibiotics could be shorter than those estimated from laboratory hydrolysis rate constants using the standard batch protocol. Furthermore, the toxicity of the column effluent containing hydrolysis metabolites was assessed using bioluminescence inhibition in Vibrio fischeri. It was estimated that the toxicity of the metabolites of CTC was lower than that of their parent compound, whereas the toxicity of metabolites of TC and OTC was as high as or higher than that of their parent compounds.
ISSN:1464-0333
DOI:10.1039/c2em10961a