Microalgae-based technology for antibiotics removal: From mechanisms to application of innovational hybrid systems

[Display omitted] •Microalgae-based technology is a promising alternative for antibiotics removal.•The underlying mechanisms of microalgae-based antibiotics removal are summarized.•Several novel approaches and hybrid techniques are recommended to promote antibiotics removal.•This review also outline...

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Published inEnvironment international Vol. 155; p. 106594
Main Authors Xiong, Qian, Hu, Li-Xin, Liu, You-Sheng, Zhao, Jian-Liang, He, Liang-Ying, Ying, Guang-Guo
Format Journal Article
LanguageEnglish
Published Netherlands Elsevier Ltd 01.10.2021
Elsevier
Subjects
acclimation
activated sludge
Antibiotics
bioaccumulation
biodegradation
cost effectiveness
environment
human health
Innovational hybrid systems
microalgae
Microalgae-based technology
oxidation
polymers
Removal mechanisms
wastewater treatment
Removal mechanisms
Antibiotics
Innovational hybrid systems
Microalgae-based technology
Online AccessGet full text
ISSN0160-4120
1873-6750
1873-6750
DOI10.1016/j.envint.2021.106594

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Abstract [Display omitted] •Microalgae-based technology is a promising alternative for antibiotics removal.•The underlying mechanisms of microalgae-based antibiotics removal are summarized.•Several novel approaches and hybrid techniques are recommended to promote antibiotics removal.•This review also outlines future research directions of microalgae-based technology. Antibiotics contamination is an emerging environmental concern, owing to its potential risks to ecosystems and human health. Microalgae-based technology has been widely reported as a promising alternative to conventional wastewater treatment, since it is a solar-power driven, ecologically friendly, cost-effective, and sustainable reclamation strategy. This review provides fundamental insights into the major mechanisms underpinning microalgae-based antibiotics removal, including bioadsorption, bioaccumulation, and biodegradation. The critical role of extracellular polymeric substances on bioadsorption and extracellular biodegradation of antibiotics are also covered. Moreover, this review sheds light on the important factors affecting the removal of antibiotics by microalgae, and summarizes several novel approaches to improve the removal efficiency, including acclimation, co-metabolism and microbial consortium. Besides, hybrid systems (such as, microalgae-based technologies combined with the conventional activated sludge, advanced oxidation processes, constructed wetlands, and microbial fuel cells), and genetic engineering are also recommended, which will be feasible for enhanced removal of antibiotics. Finally, this review also highlights the need for further studies aimed at optimizing microalgae-based technology, with emphasis on improving performance and expanding its application in large-scale settings, especially in terms of technical, environmental-friendly and economically competitiveness. Overall, this review summarizes current understanding on microalgae-based technologies for removal of antibiotics and outlines future research directions.
AbstractList Antibiotics contamination is an emerging environmental concern, owing to its potential risks to ecosystems and human health. Microalgae-based technology has been widely reported as a promising alternative to conventional wastewater treatment, since it is a solar-power driven, ecologically friendly, cost-effective, and sustainable reclamation strategy. This review provides fundamental insights into the major mechanisms underpinning microalgae-based antibiotics removal, including bioadsorption, bioaccumulation, and biodegradation. The critical role of extracellular polymeric substances on bioadsorption and extracellular biodegradation of antibiotics are also covered. Moreover, this review sheds light on the important factors affecting the removal of antibiotics by microalgae, and summarizes several novel approaches to improve the removal efficiency, including acclimation, co-metabolism and microbial consortium. Besides, hybrid systems (such as, microalgae-based technologies combined with the conventional activated sludge, advanced oxidation processes, constructed wetlands, and microbial fuel cells), and genetic engineering are also recommended, which will be feasible for enhanced removal of antibiotics. Finally, this review also highlights the need for further studies aimed at optimizing microalgae-based technology, with emphasis on improving performance and expanding its application in large-scale settings, especially in terms of technical, environmental-friendly and economically competitiveness. Overall, this review summarizes current understanding on microalgae-based technologies for removal of antibiotics and outlines future research directions.
Antibiotics contamination is an emerging environmental concern, owing to its potential risks to ecosystems and human health. Microalgae-based technology has been widely reported as a promising alternative to conventional wastewater treatment, since it is a solar-power driven, ecologically friendly, cost-effective, and sustainable reclamation strategy. This review provides fundamental insights into the major mechanisms underpinning microalgae-based antibiotics removal, including bioadsorption, bioaccumulation, and biodegradation. The critical role of extracellular polymeric substances on bioadsorption and extracellular biodegradation of antibiotics are also covered. Moreover, this review sheds light on the important factors affecting the removal of antibiotics by microalgae, and summarizes several novel approaches to improve the removal efficiency, including acclimation, co-metabolism and microbial consortium. Besides, hybrid systems (such as, microalgae-based technologies combined with the conventional activated sludge, advanced oxidation processes, constructed wetlands, and microbial fuel cells), and genetic engineering are also recommended, which will be feasible for enhanced removal of antibiotics. Finally, this review also highlights the need for further studies aimed at optimizing microalgae-based technology, with emphasis on improving performance and expanding its application in large-scale settings, especially in terms of technical, environmental-friendly and economically competitiveness. Overall, this review summarizes current understanding on microalgae-based technologies for removal of antibiotics and outlines future research directions.Antibiotics contamination is an emerging environmental concern, owing to its potential risks to ecosystems and human health. Microalgae-based technology has been widely reported as a promising alternative to conventional wastewater treatment, since it is a solar-power driven, ecologically friendly, cost-effective, and sustainable reclamation strategy. This review provides fundamental insights into the major mechanisms underpinning microalgae-based antibiotics removal, including bioadsorption, bioaccumulation, and biodegradation. The critical role of extracellular polymeric substances on bioadsorption and extracellular biodegradation of antibiotics are also covered. Moreover, this review sheds light on the important factors affecting the removal of antibiotics by microalgae, and summarizes several novel approaches to improve the removal efficiency, including acclimation, co-metabolism and microbial consortium. Besides, hybrid systems (such as, microalgae-based technologies combined with the conventional activated sludge, advanced oxidation processes, constructed wetlands, and microbial fuel cells), and genetic engineering are also recommended, which will be feasible for enhanced removal of antibiotics. Finally, this review also highlights the need for further studies aimed at optimizing microalgae-based technology, with emphasis on improving performance and expanding its application in large-scale settings, especially in terms of technical, environmental-friendly and economically competitiveness. Overall, this review summarizes current understanding on microalgae-based technologies for removal of antibiotics and outlines future research directions.
[Display omitted] •Microalgae-based technology is a promising alternative for antibiotics removal.•The underlying mechanisms of microalgae-based antibiotics removal are summarized.•Several novel approaches and hybrid techniques are recommended to promote antibiotics removal.•This review also outlines future research directions of microalgae-based technology. Antibiotics contamination is an emerging environmental concern, owing to its potential risks to ecosystems and human health. Microalgae-based technology has been widely reported as a promising alternative to conventional wastewater treatment, since it is a solar-power driven, ecologically friendly, cost-effective, and sustainable reclamation strategy. This review provides fundamental insights into the major mechanisms underpinning microalgae-based antibiotics removal, including bioadsorption, bioaccumulation, and biodegradation. The critical role of extracellular polymeric substances on bioadsorption and extracellular biodegradation of antibiotics are also covered. Moreover, this review sheds light on the important factors affecting the removal of antibiotics by microalgae, and summarizes several novel approaches to improve the removal efficiency, including acclimation, co-metabolism and microbial consortium. Besides, hybrid systems (such as, microalgae-based technologies combined with the conventional activated sludge, advanced oxidation processes, constructed wetlands, and microbial fuel cells), and genetic engineering are also recommended, which will be feasible for enhanced removal of antibiotics. Finally, this review also highlights the need for further studies aimed at optimizing microalgae-based technology, with emphasis on improving performance and expanding its application in large-scale settings, especially in terms of technical, environmental-friendly and economically competitiveness. Overall, this review summarizes current understanding on microalgae-based technologies for removal of antibiotics and outlines future research directions.
ArticleNumber 106594
Author Hu, Li-Xin
Xiong, Qian
Liu, You-Sheng
Ying, Guang-Guo
He, Liang-Ying
Zhao, Jian-Liang
Author_xml – sequence: 1
  givenname: Qian
  surname: Xiong
  fullname: Xiong, Qian
– sequence: 2
  givenname: Li-Xin
  surname: Hu
  fullname: Hu, Li-Xin
– sequence: 3
  givenname: You-Sheng
  surname: Liu
  fullname: Liu, You-Sheng
  email: yousheng.liu@m.scnu.edu.cn
– sequence: 4
  givenname: Jian-Liang
  surname: Zhao
  fullname: Zhao, Jian-Liang
– sequence: 5
  givenname: Liang-Ying
  surname: He
  fullname: He, Liang-Ying
– sequence: 6
  givenname: Guang-Guo
  surname: Ying
  fullname: Ying, Guang-Guo
  email: guangguo.ying@m.scnu.edu.cn
BackLink https://www.ncbi.nlm.nih.gov/pubmed/33940395$$D View this record in MEDLINE/PubMed
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Keywords Removal mechanisms
Antibiotics
Innovational hybrid systems
Microalgae-based technology
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Snippet [Display omitted] •Microalgae-based technology is a promising alternative for antibiotics removal.•The underlying mechanisms of microalgae-based antibiotics...
Antibiotics contamination is an emerging environmental concern, owing to its potential risks to ecosystems and human health. Microalgae-based technology has...
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StartPage 106594
SubjectTerms acclimation
activated sludge
Antibiotics
bioaccumulation
biodegradation
cost effectiveness
environment
human health
Innovational hybrid systems
microalgae
Microalgae-based technology
oxidation
polymers
Removal mechanisms
wastewater treatment
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Title Microalgae-based technology for antibiotics removal: From mechanisms to application of innovational hybrid systems
URI https://dx.doi.org/10.1016/j.envint.2021.106594
https://www.ncbi.nlm.nih.gov/pubmed/33940395
https://www.proquest.com/docview/2522188194
https://www.proquest.com/docview/2551924349
https://doaj.org/article/8c055d83dca947019536b1f08908ef21
Volume 155
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