Removal of metronidazole from aqueous media by C. vulgaris

Schematic diagram of MDZ removal in Chlorella vulgaris culture. [Display omitted] •Metronidazole is efficiently removed during algal treatment.•Metronidazole is removed via sorption onto the biomass.•Metronidazole showed toxicity to C. vulgaris at stationary phase of life cycle.•The removal efficien...

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Published in:Journal of hazardous materials Vol. 384; p. 121400
Main Authors: Hena, Sufia, Gutierrez, Leo, Croué, Jean-Philippe
Format: Journal Article
Language:English
Published: Netherlands Elsevier B.V 15.02.2020
Elsevier
Subjects:
acute toxicity
Adsorption
antibiotics
Biomass
biomass production
C. vulgaris
Chlorella vulgaris - drug effects
Chlorella vulgaris - growth & development
Chlorella vulgaris - metabolism
Dose-Response Relationship, Drug
EC50
Environmental Sciences
inoculum
Metronidazole
Metronidazole - analysis
Metronidazole - metabolism
Metronidazole - toxicity
Microalgae - growth & development
Microalgae - metabolism
Models, Theoretical
Surface Properties
Toxicity Tests
Water Pollutants, Chemical - analysis
Water Pollutants, Chemical - metabolism
Water Pollutants, Chemical - toxicity
Water Purification - methods
zeta potential
C. vulgaris
EC50
Metronidazole
Adsorption
ISSN:0304-3894, 1873-3336, 1873-3336
Online Access:Get full text
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Abstract Schematic diagram of MDZ removal in Chlorella vulgaris culture. [Display omitted] •Metronidazole is efficiently removed during algal treatment.•Metronidazole is removed via sorption onto the biomass.•Metronidazole showed toxicity to C. vulgaris at stationary phase of life cycle.•The removal efficiency of C. vulgaris decreased with increase of antibiotic. This current study investigated the removal of metronidazole from aqueous media by C. vulgaris. Two different initial sizes of inoculum (0.05 and 0.5 g L−1) were tested for a wide concentration range of metronidazole (1–50 μM). The effect of metronidazole concentrations on biomass production was studied for 20 days. The exopolymeric substances (EPS) were quantified and correlated with the removal of antibiotics from aqueous media. Specifically, MDZ stimulated the production of EPS in C. vulgaris, which played the major role in the adsorption of this antibiotic. Also, metronidazole significantly influenced the zeta potential of C. vulgaris in the test cultures, indicating a change in surface characteristics. This decrease in surface negative charge caused auto-flocculation phenomena at a stationary phase. Chronic and acute toxicity experiments showed that metronidazole was harmful to C. vulgaris at stationary phase. Results from this study would advance our knowledge on the treatment of metronidazole-contaminated waters with C. vulgaris as a green technology-oriented process.
AbstractList This current study investigated the removal of metronidazole from aqueous media by C. vulgaris. Two different initial sizes of inoculum (0.05 and 0.5 g L⁻¹) were tested for a wide concentration range of metronidazole (1–50 μM). The effect of metronidazole concentrations on biomass production was studied for 20 days. The exopolymeric substances (EPS) were quantified and correlated with the removal of antibiotics from aqueous media. Specifically, MDZ stimulated the production of EPS in C. vulgaris, which played the major role in the adsorption of this antibiotic. Also, metronidazole significantly influenced the zeta potential of C. vulgaris in the test cultures, indicating a change in surface characteristics. This decrease in surface negative charge caused auto-flocculation phenomena at a stationary phase. Chronic and acute toxicity experiments showed that metronidazole was harmful to C. vulgaris at stationary phase. Results from this study would advance our knowledge on the treatment of metronidazole-contaminated waters with C. vulgaris as a green technology-oriented process.
This current study investigated the removal of metronidazole from aqueous media by C. vulgaris. Two different initial sizes of inoculum (0.05 and 0.5 g L ) were tested for a wide concentration range of metronidazole (1-50 μM). The effect of metronidazole concentrations on biomass production was studied for 20 days. The exopolymeric substances (EPS) were quantified and correlated with the removal of antibiotics from aqueous media. Specifically, MDZ stimulated the production of EPS in C. vulgaris, which played the major role in the adsorption of this antibiotic. Also, metronidazole significantly influenced the zeta potential of C. vulgaris in the test cultures, indicating a change in surface characteristics. This decrease in surface negative charge caused auto-flocculation phenomena at a stationary phase. Chronic and acute toxicity experiments showed that metronidazole was harmful to C. vulgaris at stationary phase. Results from this study would advance our knowledge on the treatment of metronidazole-contaminated waters with C. vulgaris as a green technology-oriented process.
Schematic diagram of MDZ removal in Chlorella vulgaris culture. [Display omitted] •Metronidazole is efficiently removed during algal treatment.•Metronidazole is removed via sorption onto the biomass.•Metronidazole showed toxicity to C. vulgaris at stationary phase of life cycle.•The removal efficiency of C. vulgaris decreased with increase of antibiotic. This current study investigated the removal of metronidazole from aqueous media by C. vulgaris. Two different initial sizes of inoculum (0.05 and 0.5 g L−1) were tested for a wide concentration range of metronidazole (1–50 μM). The effect of metronidazole concentrations on biomass production was studied for 20 days. The exopolymeric substances (EPS) were quantified and correlated with the removal of antibiotics from aqueous media. Specifically, MDZ stimulated the production of EPS in C. vulgaris, which played the major role in the adsorption of this antibiotic. Also, metronidazole significantly influenced the zeta potential of C. vulgaris in the test cultures, indicating a change in surface characteristics. This decrease in surface negative charge caused auto-flocculation phenomena at a stationary phase. Chronic and acute toxicity experiments showed that metronidazole was harmful to C. vulgaris at stationary phase. Results from this study would advance our knowledge on the treatment of metronidazole-contaminated waters with C. vulgaris as a green technology-oriented process.
his current study investigated the removal of metronidazole from aqueous media by C. vulgaris. Two different initial sizes of inoculum (0.05 and 0.5 g L−1) were tested for a wide concentration range of metronidazole (1–50 μM). The effect of metronidazole concentrations on biomass production was studied for 20 days. The exopolymeric substances (EPS) were quantified and correlated with the removal of antibiotics from aqueous media. Specifically, MDZ stimulated the production of EPS in C. vulgaris, which played the major role in the adsorption of this antibiotic. Also, metronidazole significantly influenced the zeta potential of C. vulgaris in the test cultures, indicating a change in surface characteristics. This decrease in surface negative charge caused auto-flocculation phenomena at a stationary phase. Chronic and acute toxicity experiments showed that metronidazole was harmful to C. vulgaris at stationary phase. Results from this study would advance our knowledge on the treatment of metronidazole-contaminated waters with C. vulgaris as a green technology-oriented process.
This current study investigated the removal of metronidazole from aqueous media by C. vulgaris. Two different initial sizes of inoculum (0.05 and 0.5 g L-1) were tested for a wide concentration range of metronidazole (1-50 μM). The effect of metronidazole concentrations on biomass production was studied for 20 days. The exopolymeric substances (EPS) were quantified and correlated with the removal of antibiotics from aqueous media. Specifically, MDZ stimulated the production of EPS in C. vulgaris, which played the major role in the adsorption of this antibiotic. Also, metronidazole significantly influenced the zeta potential of C. vulgaris in the test cultures, indicating a change in surface characteristics. This decrease in surface negative charge caused auto-flocculation phenomena at a stationary phase. Chronic and acute toxicity experiments showed that metronidazole was harmful to C. vulgaris at stationary phase. Results from this study would advance our knowledge on the treatment of metronidazole-contaminated waters with C. vulgaris as a green technology-oriented process.This current study investigated the removal of metronidazole from aqueous media by C. vulgaris. Two different initial sizes of inoculum (0.05 and 0.5 g L-1) were tested for a wide concentration range of metronidazole (1-50 μM). The effect of metronidazole concentrations on biomass production was studied for 20 days. The exopolymeric substances (EPS) were quantified and correlated with the removal of antibiotics from aqueous media. Specifically, MDZ stimulated the production of EPS in C. vulgaris, which played the major role in the adsorption of this antibiotic. Also, metronidazole significantly influenced the zeta potential of C. vulgaris in the test cultures, indicating a change in surface characteristics. This decrease in surface negative charge caused auto-flocculation phenomena at a stationary phase. Chronic and acute toxicity experiments showed that metronidazole was harmful to C. vulgaris at stationary phase. Results from this study would advance our knowledge on the treatment of metronidazole-contaminated waters with C. vulgaris as a green technology-oriented process.
ArticleNumber 121400
Author Gutierrez, Leo
Croué, Jean-Philippe
Hena, Sufia
Author_xml – sequence: 1
  givenname: Sufia
  surname: Hena
  fullname: Hena, Sufia
  organization: Curtin Water Quality Research Centre, Department of Chemistry, Curtin University, Australia
– sequence: 2
  givenname: Leo
  orcidid: 0000-0001-7573-6635
  surname: Gutierrez
  fullname: Gutierrez, Leo
  organization: Facultad del Mar y Medio Ambiente, Universidad del Pacifico, Ecuador
– sequence: 3
  givenname: Jean-Philippe
  surname: Croué
  fullname: Croué, Jean-Philippe
  email: jean-philippe.croue@curtin.edu.au
  organization: Curtin Water Quality Research Centre, Department of Chemistry, Curtin University, Australia
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Keywords C. vulgaris
EC50
Metronidazole
Adsorption
Language English
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Snippet Schematic diagram of MDZ removal in Chlorella vulgaris culture. [Display omitted] •Metronidazole is efficiently removed during algal treatment.•Metronidazole...
This current study investigated the removal of metronidazole from aqueous media by C. vulgaris. Two different initial sizes of inoculum (0.05 and 0.5 g L )...
This current study investigated the removal of metronidazole from aqueous media by C. vulgaris. Two different initial sizes of inoculum (0.05 and 0.5 g L-1)...
This current study investigated the removal of metronidazole from aqueous media by C. vulgaris. Two different initial sizes of inoculum (0.05 and 0.5 g L⁻¹)...
his current study investigated the removal of metronidazole from aqueous media by C. vulgaris. Two different initial sizes of inoculum (0.05 and 0.5 g L−1)...
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StartPage 121400
SubjectTerms acute toxicity
Adsorption
antibiotics
Biomass
biomass production
C. vulgaris
Chlorella vulgaris - drug effects
Chlorella vulgaris - growth & development
Chlorella vulgaris - metabolism
Dose-Response Relationship, Drug
EC50
Environmental Sciences
inoculum
Metronidazole
Metronidazole - analysis
Metronidazole - metabolism
Metronidazole - toxicity
Microalgae - growth & development
Microalgae - metabolism
Models, Theoretical
Surface Properties
Toxicity Tests
Water Pollutants, Chemical - analysis
Water Pollutants, Chemical - metabolism
Water Pollutants, Chemical - toxicity
Water Purification - methods
zeta potential
Title Removal of metronidazole from aqueous media by C. vulgaris
URI https://dx.doi.org/10.1016/j.jhazmat.2019.121400
https://www.ncbi.nlm.nih.gov/pubmed/31624001
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Volume 384
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