Detection and Tertiary Treatment Technologies of Poly-and Perfluoroalkyl Substances in Wastewater Treatment Plants

Rafael G. Araújo; Jesús A. Rodríguez-Hernandéz; Reyna Berenice González-González; Rodrigo Macias-Garbett; Manuel Martínez-Ruiz; Humberto Reyes-Pardo; Saúl Antonio Hernández Martínez; Lizeth Parra-Arroyo; Elda M. Melchor-Martínez; Juan Eduardo Sosa-Hernández; Karina G. Coronado-Apodaca; Sunita Varjani; Damià Barceló; Hafiz M.N. Iqbal; Roberto Parra-Saldívar

doi:10.3389/fenvs.2022.864894

Detection and Tertiary Treatment Technologies of Poly-and Perfluoroalkyl Substances in Wastewater Treatment Plants

Rafael G. Araújo, Jesús A. Rodríguez-Hernandéz, Reyna Berenice González-González, Rodrigo Macias-Garbett, Manuel Martínez-Ruiz, Humberto Reyes-Pardo, Saúl Antonio Hernández Martínez, Lizeth Parra-Arroyo, Elda M. Melchor-Martínez, Juan Eduardo Sosa-Hernández, Karina G. Coronado-Apodaca, Sunita Varjani, Damià Barceló, Hafiz M.N. Iqbal, Roberto Parra-Saldívar

Plant Sciences

Research output: Contribution to journal › Review article › peer-review

22 Citations (Scopus)

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Abstract

PFAS are a very diverse group of anthropogenic chemicals used in various consumer and industrial products. The properties that characterize are their low degradability as well as their resistance to water, oil and heat. This results in their high persistence in the environment and bioaccumulation in different organisms, causing many adverse effects on the environment as well as in human health. Some of their effects remain unknown to this day. As there are thousands of registered PFAS, it is difficult to apply traditional technologies for an efficient removal and detection for all. This has made it difficult for wastewater treatment plants to remove or degrade PFAS before discharging the effluents into the environment. Also, monitoring these contaminants depends mostly on chromatography-based methods, which require expensive equipment and consumables, making it difficult to detect PFAS in the environment. The detection of PFAS in the environment, and the development of technologies to be implemented in tertiary treatment of wastewater treatment plants are topics of high concern. This study focuses on analyzing and discussing the mechanisms of occurrence, migration, transformation, and fate of PFAS in the environment, as well the main adverse effects in the environment and human health. The following work reviews the recent advances in the development of PFAS detection technologies (biosensors, electrochemical sensors, microfluidic devices), and removal/degradation methods (electrochemical degradation, enzymatic transformation, advanced oxidation, photocatalytic degradation). Understanding the risks to public health and identifying the routes of production, transportation, exposure to PFAS is extremely important to implement regulations for the detection and removal of PFAS in wastewater and the environment.

Original language	English
Article number	864894
Number of pages	20
Journal	Frontiers in Environmental Science
Volume	10
DOIs	https://doi.org/10.3389/fenvs.2022.864894
Publication status	Published - 29 Apr 2022

Keywords

biosensors
detection
PFAS
tertiary treatment
WWTP

ASJC Scopus subject areas

General Environmental Science

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.3389/fenvs.2022.864894Licence: CC BY

Final Published VersionFinal published version, 1.98 MBLicence: CC BY

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Araújo, R. G., Rodríguez-Hernandéz, J. A., González-González, R. B., Macias-Garbett, R., Martínez-Ruiz, M., Reyes-Pardo, H., Hernández Martínez, S. A., Parra-Arroyo, L., Melchor-Martínez, E. M., Sosa-Hernández, J. E., Coronado-Apodaca, K. G., Varjani, S., Barceló, D., Iqbal, H. M. N., & Parra-Saldívar, R. (2022). Detection and Tertiary Treatment Technologies of Poly-and Perfluoroalkyl Substances in Wastewater Treatment Plants. Frontiers in Environmental Science, 10, Article 864894. https://doi.org/10.3389/fenvs.2022.864894

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abstract = "PFAS are a very diverse group of anthropogenic chemicals used in various consumer and industrial products. The properties that characterize are their low degradability as well as their resistance to water, oil and heat. This results in their high persistence in the environment and bioaccumulation in different organisms, causing many adverse effects on the environment as well as in human health. Some of their effects remain unknown to this day. As there are thousands of registered PFAS, it is difficult to apply traditional technologies for an efficient removal and detection for all. This has made it difficult for wastewater treatment plants to remove or degrade PFAS before discharging the effluents into the environment. Also, monitoring these contaminants depends mostly on chromatography-based methods, which require expensive equipment and consumables, making it difficult to detect PFAS in the environment. The detection of PFAS in the environment, and the development of technologies to be implemented in tertiary treatment of wastewater treatment plants are topics of high concern. This study focuses on analyzing and discussing the mechanisms of occurrence, migration, transformation, and fate of PFAS in the environment, as well the main adverse effects in the environment and human health. The following work reviews the recent advances in the development of PFAS detection technologies (biosensors, electrochemical sensors, microfluidic devices), and removal/degradation methods (electrochemical degradation, enzymatic transformation, advanced oxidation, photocatalytic degradation). Understanding the risks to public health and identifying the routes of production, transportation, exposure to PFAS is extremely important to implement regulations for the detection and removal of PFAS in wastewater and the environment.",

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author = "Ara{\'u}jo, {Rafael G.} and Rodr{\'i}guez-Hernand{\'e}z, {Jes{\'u}s A.} and Gonz{\'a}lez-Gonz{\'a}lez, {Reyna Berenice} and Rodrigo Macias-Garbett and Manuel Mart{\'i}nez-Ruiz and Humberto Reyes-Pardo and {Hern{\'a}ndez Mart{\'i}nez}, {Sa{\'u}l Antonio} and Lizeth Parra-Arroyo and Melchor-Mart{\'i}nez, {Elda M.} and Sosa-Hern{\'a}ndez, {Juan Eduardo} and Coronado-Apodaca, {Karina G.} and Sunita Varjani and Dami{\`a} Barcel{\'o} and Iqbal, {Hafiz M.N.} and Roberto Parra-Sald{\'i}var",

note = "Copyright {\textcopyright} 2022 Ara{\'u}jo, Rodr{\'i}guez-Hernand{\'e}z, Gonz{\'a}lez-Gonz{\'a}lez, Macias-Garbett, Mart{\'i}nez-Ruiz, Reyes-Pardo, Hern{\'a}ndez Mart{\'i}nez, Parra-Arroyo, Melchor-Mart{\'i}nez, Sosa-Hern{\'a}ndez, Coronado-Apodaca, Varjani, Barcel{\'o}, Iqbal and Parra-Sald{\'i}var.",

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Araújo, RG, Rodríguez-Hernandéz, JA, González-González, RB, Macias-Garbett, R, Martínez-Ruiz, M, Reyes-Pardo, H, Hernández Martínez, SA, Parra-Arroyo, L, Melchor-Martínez, EM, Sosa-Hernández, JE, Coronado-Apodaca, KG, Varjani, S, Barceló, D, Iqbal, HMN & Parra-Saldívar, R 2022, 'Detection and Tertiary Treatment Technologies of Poly-and Perfluoroalkyl Substances in Wastewater Treatment Plants', Frontiers in Environmental Science, vol. 10, 864894. https://doi.org/10.3389/fenvs.2022.864894

TY - JOUR

T1 - Detection and Tertiary Treatment Technologies of Poly-and Perfluoroalkyl Substances in Wastewater Treatment Plants

AU - Araújo, Rafael G.

AU - Rodríguez-Hernandéz, Jesús A.

AU - González-González, Reyna Berenice

AU - Macias-Garbett, Rodrigo

AU - Martínez-Ruiz, Manuel

AU - Reyes-Pardo, Humberto

AU - Hernández Martínez, Saúl Antonio

AU - Parra-Arroyo, Lizeth

AU - Melchor-Martínez, Elda M.

AU - Sosa-Hernández, Juan Eduardo

AU - Coronado-Apodaca, Karina G.

AU - Varjani, Sunita

AU - Barceló, Damià

AU - Iqbal, Hafiz M.N.

AU - Parra-Saldívar, Roberto

N1 - Copyright © 2022 Araújo, Rodríguez-Hernandéz, González-González, Macias-Garbett, Martínez-Ruiz, Reyes-Pardo, Hernández Martínez, Parra-Arroyo, Melchor-Martínez, Sosa-Hernández, Coronado-Apodaca, Varjani, Barceló, Iqbal and Parra-Saldívar.

PY - 2022/4/29

Y1 - 2022/4/29

N2 - PFAS are a very diverse group of anthropogenic chemicals used in various consumer and industrial products. The properties that characterize are their low degradability as well as their resistance to water, oil and heat. This results in their high persistence in the environment and bioaccumulation in different organisms, causing many adverse effects on the environment as well as in human health. Some of their effects remain unknown to this day. As there are thousands of registered PFAS, it is difficult to apply traditional technologies for an efficient removal and detection for all. This has made it difficult for wastewater treatment plants to remove or degrade PFAS before discharging the effluents into the environment. Also, monitoring these contaminants depends mostly on chromatography-based methods, which require expensive equipment and consumables, making it difficult to detect PFAS in the environment. The detection of PFAS in the environment, and the development of technologies to be implemented in tertiary treatment of wastewater treatment plants are topics of high concern. This study focuses on analyzing and discussing the mechanisms of occurrence, migration, transformation, and fate of PFAS in the environment, as well the main adverse effects in the environment and human health. The following work reviews the recent advances in the development of PFAS detection technologies (biosensors, electrochemical sensors, microfluidic devices), and removal/degradation methods (electrochemical degradation, enzymatic transformation, advanced oxidation, photocatalytic degradation). Understanding the risks to public health and identifying the routes of production, transportation, exposure to PFAS is extremely important to implement regulations for the detection and removal of PFAS in wastewater and the environment.

AB - PFAS are a very diverse group of anthropogenic chemicals used in various consumer and industrial products. The properties that characterize are their low degradability as well as their resistance to water, oil and heat. This results in their high persistence in the environment and bioaccumulation in different organisms, causing many adverse effects on the environment as well as in human health. Some of their effects remain unknown to this day. As there are thousands of registered PFAS, it is difficult to apply traditional technologies for an efficient removal and detection for all. This has made it difficult for wastewater treatment plants to remove or degrade PFAS before discharging the effluents into the environment. Also, monitoring these contaminants depends mostly on chromatography-based methods, which require expensive equipment and consumables, making it difficult to detect PFAS in the environment. The detection of PFAS in the environment, and the development of technologies to be implemented in tertiary treatment of wastewater treatment plants are topics of high concern. This study focuses on analyzing and discussing the mechanisms of occurrence, migration, transformation, and fate of PFAS in the environment, as well the main adverse effects in the environment and human health. The following work reviews the recent advances in the development of PFAS detection technologies (biosensors, electrochemical sensors, microfluidic devices), and removal/degradation methods (electrochemical degradation, enzymatic transformation, advanced oxidation, photocatalytic degradation). Understanding the risks to public health and identifying the routes of production, transportation, exposure to PFAS is extremely important to implement regulations for the detection and removal of PFAS in wastewater and the environment.

KW - biosensors

KW - detection

KW - PFAS

KW - tertiary treatment

KW - WWTP

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DO - 10.3389/fenvs.2022.864894

M3 - Review article

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VL - 10

JO - Frontiers in Environmental Science

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M1 - 864894

ER -

Detection and Tertiary Treatment Technologies of Poly-and Perfluoroalkyl Substances in Wastewater Treatment Plants

Abstract

Keywords

ASJC Scopus subject areas

UN SDGs

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