Joint toxicity of tetracycline with copper(II) and cadmium(II) to Vibrio fischeri: effect of complexation reaction

Joint toxicity of tetracycline with copper(II) and cadmium(II) to Vibrio fischeri: effect of complexation reaction

Co-contamination of antibiotic and heavy metals commonly occurs in the environment. Tetracycline (TC), a common antibiotic, can behave as an efficient organic ligand to complex with cations. In this paper, the joint toxicity of TC with two commonly existing metals, copper(II) and cadmium(II), toward...

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Bibliographic Details
Published in:Ecotoxicology (London) Vol. 24; no. 2; pp. 346 - 355
Main Authors: Tong, Fei, Zhao, Yanping, Gu, Xueyuan, Gu, Cheng, Lee, Charles C.C.
Format: Journal Article
Language:English
Published: Boston Springer US 01-03-2015
Springer Nature B.V
Subjects:
Aliivibrio fischeri - drug effects
Anti-Bacterial Agents - pharmacology
Bacteria
Benzopyrans - metabolism
Cadmium
Cadmium - toxicity
Cations
Citric Acid - metabolism
Complexation
Copper
Copper - toxicity
Earth and Environmental Science
Ecology
Ecotoxicology
Environment
Environmental Management
Fulvic acids
Heavy metals
Ligands
Mathematical models
Prediction models
Speciation
Synergistic effect
Tetracycline - pharmacology
Tetracyclines
Toxicity
Toxicity Tests - methods
Vibrio
Vibrio fischeri
Cadmium
Copper
Joint toxicity
Tetracycline
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Summary:Co-contamination of antibiotic and heavy metals commonly occurs in the environment. Tetracycline (TC), a common antibiotic, can behave as an efficient organic ligand to complex with cations. In this paper, the joint toxicity of TC with two commonly existing metals, copper(II) and cadmium(II), towards a luminescent bacteria, Vibrio fischeri, are investigated. Results showed that coexistence of TC and Cu(II) showed a significant antagonistic effect, while TC and Cd(II) showed a synergistic effect. The aqueous speciation of TC with two metal cations was calculated using a chemical equilibrium software Visual MINTEQ and results indicated that a strong complexation exist between TC and Cu(II), while much weaker interaction between TC and Cd(II). Traditional joint toxicity prediction model based on independent action failed to predict the combined toxicity of TC with metals. A new method based on speciation calculation was used to evaluate the joint toxicity of ligands and cations. It is assumed that the metal–ligand complexes are non-toxic to V. fischeri and the joint toxicity is determined by the sum of toxic unit of free metal-ions and free organic ligands. It explained the joint toxicity of the mixed systems reasonably well. Meanwhile, citric acid (CA) and fulvic acid (FA) were also introduced in this study to provide a benchmark comparison with TC. Results showed it is also valid for mixed systems of CA and FA with metals except for the Cd–CA mixture.
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ISSN:0963-9292
1573-3017
DOI:10.1007/s10646-014-1383-7