Phycoremediation of wastewater for pollutant removal: A green approach to environmental protection and long-term remediation

Surface and water bodies in many parts of the world are affected due to eutrophication, contamination and depletion. The approach of wastewater treatment using algae for eliminating nutrients and other pollutants from domestic wastewater is growing interest among the researchers. However, sustainabl...

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Published inEnvironmental pollution (1987) Vol. 290; p. 117989
Main Authors Dayana Priyadharshini, Stephen, Suresh Babu, Palanisamy, Manikandan, Sivasubramanian, Subbaiya, Ramasamy, Govarthanan, Muthusamy, Karmegam, Natchimuthu
Format Journal Article
LanguageEnglish
Published Elsevier Ltd 01.12.2021
Subjects
adsorption
Algae
Biodegradation
biofuels
biomass
Chlamydomonas
Chlorella
eutrophication
feeds
flocculation
lipids
microalgae
microplastics
municipal wastewater
Phycoremediation
Pollutant removal
pollutants
pollution
remediation
Scenedesmus
Wastewater treatment
Biodegradation
PCBs
O2
PUFA
Algae
HRAPs
CO2
POPs
TPB
EPS
Phycoremediation
DO
HRT
MFC
Wastewater treatment
STP
CPB
BOD
COD
PAHs
TN
Pollutant removal
TP
UASB
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Abstract Surface and water bodies in many parts of the world are affected due to eutrophication, contamination and depletion. The approach of wastewater treatment using algae for eliminating nutrients and other pollutants from domestic wastewater is growing interest among the researchers. However, sustainable treatment of the wastewater is considered to be important in establishing more effective nutrient and pollutant reduction using algal systems. In comparison to the conventional method of remediation, there are opportunities to commercially viable businesses interest with phycoremediation, thus by achieving cost reductions and renewable bioenergy options. Phycoremediation is an intriguing stage for treating wastewater since it provides tertiary bio-treatment while producing potentially valuable biomass that may be used for a variety of applications. Furthermore, the phycoremediation provides the ability to remove heavy metals as well as harmful organic substances, without producing secondary contamination. In this review, the role of microalgae in treating different wastewaters and the process parameters affecting the treatment and future scope of research have been discussed. Though several algae are employed for wastewater treatment, species of the genera Chlamydomonas, Chlorella, and Scenedesmus are extensively utilized. Interestingly, there is a vast scope for employing algal species with high flocculation capacity and adsorption mechanisms for the elimination of microplastics. In addition, the algal biomass generated during phycoremediation has been found to possess high protein and lipid contents, promising their exploitation in biofuel, food and animal feed industries. [Display omitted] •Algal species offer remediation of toxicants in domestic and industrial wastewater.•Phycoremediation effectively removes pollutants along with conventional methods.•Chlorella, Chlamydomonas and Scenedesmus are ideally suited for phycoremediation.•Algal biomass can be used as feedstock for biochar, biofuel, H2 and electricity generation.
AbstractList Surface and water bodies in many parts of the world are affected due to eutrophication, contamination and depletion. The approach of wastewater treatment using algae for eliminating nutrients and other pollutants from domestic wastewater is growing interest among the researchers. However, sustainable treatment of the wastewater is considered to be important in establishing more effective nutrient and pollutant reduction using algal systems. In comparison to the conventional method of remediation, there are opportunities to commercially viable businesses interest with phycoremediation, thus by achieving cost reductions and renewable bioenergy options. Phycoremediation is an intriguing stage for treating wastewater since it provides tertiary bio-treatment while producing potentially valuable biomass that may be used for a variety of applications. Furthermore, the phycoremediation provides the ability to remove heavy metals as well as harmful organic substances, without producing secondary contamination. In this review, the role of microalgae in treating different wastewaters and the process parameters affecting the treatment and future scope of research have been discussed. Though several algae are employed for wastewater treatment, species of the genera Chlamydomonas, Chlorella, and Scenedesmus are extensively utilized. Interestingly, there is a vast scope for employing algal species with high flocculation capacity and adsorption mechanisms for the elimination of microplastics. In addition, the algal biomass generated during phycoremediation has been found to possess high protein and lipid contents, promising their exploitation in biofuel, food and animal feed industries. [Display omitted] •Algal species offer remediation of toxicants in domestic and industrial wastewater.•Phycoremediation effectively removes pollutants along with conventional methods.•Chlorella, Chlamydomonas and Scenedesmus are ideally suited for phycoremediation.•Algal biomass can be used as feedstock for biochar, biofuel, H2 and electricity generation.
Surface and water bodies in many parts of the world are affected due to eutrophication, contamination and depletion. The approach of wastewater treatment using algae for eliminating nutrients and other pollutants from domestic wastewater is growing interest among the researchers. However, sustainable treatment of the wastewater is considered to be important in establishing more effective nutrient and pollutant reduction using algal systems. In comparison to the conventional method of remediation, there are opportunities to commercially viable businesses interest with phycoremediation, thus by achieving cost reductions and renewable bioenergy options. Phycoremediation is an intriguing stage for treating wastewater since it provides tertiary bio-treatment while producing potentially valuable biomass that may be used for a variety of applications. Furthermore, the phycoremediation provides the ability to remove heavy metals as well as harmful organic substances, without producing secondary contamination. In this review, the role of microalgae in treating different wastewaters and the process parameters affecting the treatment and future scope of research have been discussed. Though several algae are employed for wastewater treatment, species of the genera Chlamydomonas, Chlorella, and Scenedesmus are extensively utilized. Interestingly, there is a vast scope for employing algal species with high flocculation capacity and adsorption mechanisms for the elimination of microplastics. In addition, the algal biomass generated during phycoremediation has been found to possess high protein and lipid contents, promising their exploitation in biofuel, food and animal feed industries.Surface and water bodies in many parts of the world are affected due to eutrophication, contamination and depletion. The approach of wastewater treatment using algae for eliminating nutrients and other pollutants from domestic wastewater is growing interest among the researchers. However, sustainable treatment of the wastewater is considered to be important in establishing more effective nutrient and pollutant reduction using algal systems. In comparison to the conventional method of remediation, there are opportunities to commercially viable businesses interest with phycoremediation, thus by achieving cost reductions and renewable bioenergy options. Phycoremediation is an intriguing stage for treating wastewater since it provides tertiary bio-treatment while producing potentially valuable biomass that may be used for a variety of applications. Furthermore, the phycoremediation provides the ability to remove heavy metals as well as harmful organic substances, without producing secondary contamination. In this review, the role of microalgae in treating different wastewaters and the process parameters affecting the treatment and future scope of research have been discussed. Though several algae are employed for wastewater treatment, species of the genera Chlamydomonas, Chlorella, and Scenedesmus are extensively utilized. Interestingly, there is a vast scope for employing algal species with high flocculation capacity and adsorption mechanisms for the elimination of microplastics. In addition, the algal biomass generated during phycoremediation has been found to possess high protein and lipid contents, promising their exploitation in biofuel, food and animal feed industries.
Surface and water bodies in many parts of the world are affected due to eutrophication, contamination and depletion. The approach of wastewater treatment using algae for eliminating nutrients and other pollutants from domestic wastewater is growing interest among the researchers. However, sustainable treatment of the wastewater is considered to be important in establishing more effective nutrient and pollutant reduction using algal systems. In comparison to the conventional method of remediation, there are opportunities to commercially viable businesses interest with phycoremediation, thus by achieving cost reductions and renewable bioenergy options. Phycoremediation is an intriguing stage for treating wastewater since it provides tertiary bio-treatment while producing potentially valuable biomass that may be used for a variety of applications. Furthermore, the phycoremediation provides the ability to remove heavy metals as well as harmful organic substances, without producing secondary contamination. In this review, the role of microalgae in treating different wastewaters and the process parameters affecting the treatment and future scope of research have been discussed. Though several algae are employed for wastewater treatment, species of the genera Chlamydomonas, Chlorella, and Scenedesmus are extensively utilized. Interestingly, there is a vast scope for employing algal species with high flocculation capacity and adsorption mechanisms for the elimination of microplastics. In addition, the algal biomass generated during phycoremediation has been found to possess high protein and lipid contents, promising their exploitation in biofuel, food and animal feed industries.
ArticleNumber 117989
Author Govarthanan, Muthusamy
Manikandan, Sivasubramanian
Subbaiya, Ramasamy
Dayana Priyadharshini, Stephen
Suresh Babu, Palanisamy
Karmegam, Natchimuthu
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  givenname: Stephen
  surname: Dayana Priyadharshini
  fullname: Dayana Priyadharshini, Stephen
  organization: National Institute of Technology (Alumnus), Tiruchirappalli, 620 015, Tamil Nadu, India
– sequence: 2
  givenname: Palanisamy
  surname: Suresh Babu
  fullname: Suresh Babu, Palanisamy
  organization: Department of Biotechnology, Saveetha School of Engineering, Saveetha Institute of Medical and Technical Sciences (SIMATS), Saveetha Nagar, Thandalam, Chennai, 602 105, Tamil Nadu, India
– sequence: 3
  givenname: Sivasubramanian
  surname: Manikandan
  fullname: Manikandan, Sivasubramanian
  organization: Department of Biotechnology, Saveetha School of Engineering, Saveetha Institute of Medical and Technical Sciences (SIMATS), Saveetha Nagar, Thandalam, Chennai, 602 105, Tamil Nadu, India
– sequence: 4
  givenname: Ramasamy
  surname: Subbaiya
  fullname: Subbaiya, Ramasamy
  organization: Department of Biological Sciences, School of Mathematics and Natural Sciences, The Copperbelt University, Riverside, Jambo Drive, P O Box 21692, Kitwe, Zambia
– sequence: 5
  givenname: Muthusamy
  surname: Govarthanan
  fullname: Govarthanan, Muthusamy
  organization: Department of Environmental Engineering, Kyungpook National University, Daegu, 41566, Republic of Korea
– sequence: 6
  givenname: Natchimuthu
  surname: Karmegam
  fullname: Karmegam, Natchimuthu
  email: kanishkarmegam@gmail.com
  organization: Department of Botany, Government Arts College (Autonomous), Salem, 636 007, Tamil Nadu, India
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1873-6424
IngestDate Fri Jul 11 07:51:22 EDT 2025
Fri Jul 11 08:04:36 EDT 2025
Thu Apr 24 23:03:55 EDT 2025
Tue Jul 01 03:15:14 EDT 2025
Fri Feb 23 02:45:10 EST 2024
IsPeerReviewed true
IsScholarly true
Keywords Biodegradation
PCBs
O2
PUFA
Algae
HRAPs
CO2
POPs
TPB
EPS
Phycoremediation
DO
HRT
MFC
Wastewater treatment
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COD
PAHs
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Pollutant removal
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crossref_citationtrail_10_1016_j_envpol_2021_117989
elsevier_sciencedirect_doi_10_1016_j_envpol_2021_117989
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  text: 2021-12-01
  day: 01
PublicationDecade 2020
PublicationTitle Environmental pollution (1987)
PublicationYear 2021
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Snippet Surface and water bodies in many parts of the world are affected due to eutrophication, contamination and depletion. The approach of wastewater treatment using...
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SubjectTerms adsorption
Algae
Biodegradation
biofuels
biomass
Chlamydomonas
Chlorella
eutrophication
feeds
flocculation
lipids
microalgae
microplastics
municipal wastewater
Phycoremediation
Pollutant removal
pollutants
pollution
remediation
Scenedesmus
Wastewater treatment
Title Phycoremediation of wastewater for pollutant removal: A green approach to environmental protection and long-term remediation
URI https://dx.doi.org/10.1016/j.envpol.2021.117989
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