Co-contaminant risks in water reuse and biosolids application for agriculture

Laura J. Carter; Beth Adams; Tamar Berman; Nririt Cohen; Eddie Cytryn; F. C.T. Elder; Andrea Lorena Garduño-Jiménez; Danny Greenwald; Barbara Kasprzyk-Hordern; Hila Korach-Rechtman; Elma Lahive; Ian Martin; Evyatar Ben Mordechay; Aimee K. Murray; Laura M. Murray; John Nightingale; Adi Radian; Andrey Ethan Rubin; Brett Sallach; Dalit Sela-Donenfeld; Olivia Skilbeck; Harriet Sleight; Thomas Stanton; Ines Zucker; Benny Chefetz

doi:10.1016/j.envpol.2025.126219

Co-contaminant risks in water reuse and biosolids application for agriculture

Laura J. Carter^*, Beth Adams, Tamar Berman, Nririt Cohen, Eddie Cytryn, F. C.T. Elder, Andrea Lorena Garduño-Jiménez, Danny Greenwald, Barbara Kasprzyk-Hordern, Hila Korach-Rechtman, Elma Lahive, Ian Martin, Evyatar Ben Mordechay, Aimee K. Murray, Laura M. Murray, John Nightingale, Adi Radian, Andrey Ethan Rubin, Brett Sallach, Dalit Sela-DonenfeldOlivia Skilbeck, Harriet Sleight, Thomas Stanton, Ines Zucker, Benny Chefetz

^*Corresponding author for this work

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

Abstract

Agriculture made the shift toward resource reuse years ago, incorporating materials such as treated wastewater and biosolids. Since then, research has documented the widespread presence of contaminants of emerging concern in agricultural systems. Chemicals such as pesticides, pharmaceuticals and poly- and -perfluoroalkyl substances (PFASs); particulate matter such as nanomaterials and microplastics; and biological agents such as antibiotic resistance genes (ARGs) and bacteria (ARB) are inadvertently introduced into arable soils where they can be taken up by crops and introduced to the food-web. Thus, concern about the presence of contaminants in agricultural environments has grown in recent years with evidence emerging linking agricultural exposure and accumulation in crops to ecosystem and human health effects. Our current assessment of risk is siloed by working within disciplines (i.e., chemistry and microbiology) and mostly focused on individual chemical classes. By not acknowledging the fact that contaminants are mostly introduced as a mixture, with the potential for interactions, with each other and with environmental factors, we are limiting our current approach to evaluate the real potential for ecosystem and human health effects. By uniting expertise across disciplines to integrate recent understanding regarding the risks posed by a range of chemically diverse contaminants in resources destined for reuse, this review provides a holistic perspective on the current regulatory challenges to ensure safe and sustainable reuse of wastewater and biosolids to support a sanitation-agriculture circular economy.

Original language	English
Article number	126219
Journal	Environmental Pollution
Volume	375
DOIs	https://doi.org/10.1016/j.envpol.2025.126219
State	Published - 15 Jun 2025

Bibliographical note

Publisher Copyright:
© 2025 The Authors

Keywords

Antimicrobial resistance
Biosolids
Human health
Irrigation
Sewage sludge
Wastewater

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10.1016/j.envpol.2025.126219

Cite this

Carter, L. J., Adams, B., Berman, T., Cohen, N., Cytryn, E., Elder, F. C. T., Garduño-Jiménez, A. L., Greenwald, D., Kasprzyk-Hordern, B., Korach-Rechtman, H., Lahive, E., Martin, I., Ben Mordechay, E., Murray, A. K., Murray, L. M., Nightingale, J., Radian, A., Rubin, A. E., Sallach, B., ... Chefetz, B. (2025). Co-contaminant risks in water reuse and biosolids application for agriculture. Environmental Pollution, 375, Article 126219. https://doi.org/10.1016/j.envpol.2025.126219

@article{03647497b8dd4a2187f0080a41ef06b8,

title = "Co-contaminant risks in water reuse and biosolids application for agriculture",

abstract = "Agriculture made the shift toward resource reuse years ago, incorporating materials such as treated wastewater and biosolids. Since then, research has documented the widespread presence of contaminants of emerging concern in agricultural systems. Chemicals such as pesticides, pharmaceuticals and poly- and -perfluoroalkyl substances (PFASs); particulate matter such as nanomaterials and microplastics; and biological agents such as antibiotic resistance genes (ARGs) and bacteria (ARB) are inadvertently introduced into arable soils where they can be taken up by crops and introduced to the food-web. Thus, concern about the presence of contaminants in agricultural environments has grown in recent years with evidence emerging linking agricultural exposure and accumulation in crops to ecosystem and human health effects. Our current assessment of risk is siloed by working within disciplines (i.e., chemistry and microbiology) and mostly focused on individual chemical classes. By not acknowledging the fact that contaminants are mostly introduced as a mixture, with the potential for interactions, with each other and with environmental factors, we are limiting our current approach to evaluate the real potential for ecosystem and human health effects. By uniting expertise across disciplines to integrate recent understanding regarding the risks posed by a range of chemically diverse contaminants in resources destined for reuse, this review provides a holistic perspective on the current regulatory challenges to ensure safe and sustainable reuse of wastewater and biosolids to support a sanitation-agriculture circular economy.",

keywords = "Antimicrobial resistance, Biosolids, Human health, Irrigation, Sewage sludge, Wastewater",

author = "Carter, {Laura J.} and Beth Adams and Tamar Berman and Nririt Cohen and Eddie Cytryn and Elder, {F. C.T.} and Gardu{\~n}o-Jim{\'e}nez, {Andrea Lorena} and Danny Greenwald and Barbara Kasprzyk-Hordern and Hila Korach-Rechtman and Elma Lahive and Ian Martin and {Ben Mordechay}, Evyatar and Murray, {Aimee K.} and Murray, {Laura M.} and John Nightingale and Adi Radian and Rubin, {Andrey Ethan} and Brett Sallach and Dalit Sela-Donenfeld and Olivia Skilbeck and Harriet Sleight and Thomas Stanton and Ines Zucker and Benny Chefetz",

note = "Publisher Copyright: {\textcopyright} 2025 The Authors",

year = "2025",

month = jun,

day = "15",

doi = "10.1016/j.envpol.2025.126219",

language = "אנגלית",

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Carter, LJ, Adams, B, Berman, T, Cohen, N, Cytryn, E, Elder, FCT, Garduño-Jiménez, AL, Greenwald, D, Kasprzyk-Hordern, B, Korach-Rechtman, H, Lahive, E, Martin, I, Ben Mordechay, E, Murray, AK, Murray, LM, Nightingale, J, Radian, A, Rubin, AE, Sallach, B, Sela-Donenfeld, D, Skilbeck, O, Sleight, H, Stanton, T, Zucker, I & Chefetz, B 2025, 'Co-contaminant risks in water reuse and biosolids application for agriculture', Environmental Pollution, vol. 375, 126219. https://doi.org/10.1016/j.envpol.2025.126219

TY - JOUR

T1 - Co-contaminant risks in water reuse and biosolids application for agriculture

AU - Carter, Laura J.

AU - Adams, Beth

AU - Berman, Tamar

AU - Cohen, Nririt

AU - Cytryn, Eddie

AU - Elder, F. C.T.

AU - Garduño-Jiménez, Andrea Lorena

AU - Greenwald, Danny

AU - Kasprzyk-Hordern, Barbara

AU - Korach-Rechtman, Hila

AU - Lahive, Elma

AU - Martin, Ian

AU - Ben Mordechay, Evyatar

AU - Murray, Aimee K.

AU - Murray, Laura M.

AU - Nightingale, John

AU - Radian, Adi

AU - Rubin, Andrey Ethan

AU - Sallach, Brett

AU - Sela-Donenfeld, Dalit

AU - Skilbeck, Olivia

AU - Sleight, Harriet

AU - Stanton, Thomas

AU - Zucker, Ines

AU - Chefetz, Benny

PY - 2025/6/15

Y1 - 2025/6/15

N2 - Agriculture made the shift toward resource reuse years ago, incorporating materials such as treated wastewater and biosolids. Since then, research has documented the widespread presence of contaminants of emerging concern in agricultural systems. Chemicals such as pesticides, pharmaceuticals and poly- and -perfluoroalkyl substances (PFASs); particulate matter such as nanomaterials and microplastics; and biological agents such as antibiotic resistance genes (ARGs) and bacteria (ARB) are inadvertently introduced into arable soils where they can be taken up by crops and introduced to the food-web. Thus, concern about the presence of contaminants in agricultural environments has grown in recent years with evidence emerging linking agricultural exposure and accumulation in crops to ecosystem and human health effects. Our current assessment of risk is siloed by working within disciplines (i.e., chemistry and microbiology) and mostly focused on individual chemical classes. By not acknowledging the fact that contaminants are mostly introduced as a mixture, with the potential for interactions, with each other and with environmental factors, we are limiting our current approach to evaluate the real potential for ecosystem and human health effects. By uniting expertise across disciplines to integrate recent understanding regarding the risks posed by a range of chemically diverse contaminants in resources destined for reuse, this review provides a holistic perspective on the current regulatory challenges to ensure safe and sustainable reuse of wastewater and biosolids to support a sanitation-agriculture circular economy.

AB - Agriculture made the shift toward resource reuse years ago, incorporating materials such as treated wastewater and biosolids. Since then, research has documented the widespread presence of contaminants of emerging concern in agricultural systems. Chemicals such as pesticides, pharmaceuticals and poly- and -perfluoroalkyl substances (PFASs); particulate matter such as nanomaterials and microplastics; and biological agents such as antibiotic resistance genes (ARGs) and bacteria (ARB) are inadvertently introduced into arable soils where they can be taken up by crops and introduced to the food-web. Thus, concern about the presence of contaminants in agricultural environments has grown in recent years with evidence emerging linking agricultural exposure and accumulation in crops to ecosystem and human health effects. Our current assessment of risk is siloed by working within disciplines (i.e., chemistry and microbiology) and mostly focused on individual chemical classes. By not acknowledging the fact that contaminants are mostly introduced as a mixture, with the potential for interactions, with each other and with environmental factors, we are limiting our current approach to evaluate the real potential for ecosystem and human health effects. By uniting expertise across disciplines to integrate recent understanding regarding the risks posed by a range of chemically diverse contaminants in resources destined for reuse, this review provides a holistic perspective on the current regulatory challenges to ensure safe and sustainable reuse of wastewater and biosolids to support a sanitation-agriculture circular economy.

KW - Antimicrobial resistance

KW - Biosolids

KW - Human health

KW - Irrigation

KW - Sewage sludge

KW - Wastewater

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VL - 375

JO - Environmental Pollution

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M1 - 126219

ER -

Co-contaminant risks in water reuse and biosolids application for agriculture

Abstract

Bibliographical note

Keywords

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