Optimization of screening-level risk assessment and priority selection of emerging pollutants – The case of pharmaceuticals in European surface waters

Pharmaceuticals in surface waters have raised significant concern in recent years for their potential environmental effects. This study identified that at present a total of 477 substances (including 66 metabolites and transformation products) have been analyzed in European surface waters. Around 60...

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Published inEnvironment international Vol. 128; pp. 1 - 10
Main Authors Zhou, Shangbo, Di Paolo, Carolina, Wu, Xinda, Shao, Ying, Seiler, Thomas-Benjamin, Hollert, Henner
Format Journal Article
LanguageEnglish
Published Netherlands Elsevier Ltd 01.07.2019
Elsevier
Subjects
aquatic ecosystems
aquatic environment
drugs
Emerging pollutants
environmental impact
Europe
metabolites
Pharmaceuticals
pollutants
Prioritization
risk
Risk assessment
surface water
therapeutics
Europe
LOECs
NOECs
AF
QSAR
WWTPs
Risk assessment
Prioritization
PNEC
MECs
Emerging pollutants
RQ
Pharmaceuticals
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Abstract Pharmaceuticals in surface waters have raised significant concern in recent years for their potential environmental effects. This study identified that at present a total of 477 substances (including 66 metabolites and transformation products) have been analyzed in European surface waters. Around 60% (284) of these compounds belonging to 16 different therapeutic groups were positively detected in one or more of 33 European countries. To conveniently and effectively prioritize potential high-risk compounds, an optimized method that considers the frequency of concentrations above predicted no effects levels was developed on the basis of the traditional method, and it was then used to identify and screen candidate priority pollutants in European surface waters. The results proved the feasibility and advantages of the optimized method. Pharmaceuticals detected in European surface waters were classified into 5 categories (high, moderate, endurable, negligible and safe) depending on their potential environmental effects and the distribution of pharmaceuticals. Circa 9% (45 out of 477) analyzed compounds showed a potential environmental risk to aquatic ecosystems. Among these 45 compounds, 12 compounds were indicated to have high environmental risk in aquatic environments, while 17 and 7 compounds showed moderate and small-scale environmental risks, respectively. [Display omitted] •An optimized method was developed to identify and screen candidate priority pollutants in surface waters.•Different therapeutic groups were positively detected in many European countries.•45 compounds showed potential environmental risks in European surface waters.
AbstractList Pharmaceuticals in surface waters have raised significant concern in recent years for their potential environmental effects. This study identified that at present a total of 477 substances (including 66 metabolites and transformation products) have been analyzed in European surface waters. Around 60% (284) of these compounds belonging to 16 different therapeutic groups were positively detected in one or more of 33 European countries. To conveniently and effectively prioritize potential high-risk compounds, an optimized method that considers the frequency of concentrations above predicted no effects levels was developed on the basis of the traditional method, and it was then used to identify and screen candidate priority pollutants in European surface waters. The results proved the feasibility and advantages of the optimized method. Pharmaceuticals detected in European surface waters were classified into 5 categories (high, moderate, endurable, negligible and safe) depending on their potential environmental effects and the distribution of pharmaceuticals. Circa 9% (45 out of 477) analyzed compounds showed a potential environmental risk to aquatic ecosystems. Among these 45 compounds, 12 compounds were indicated to have high environmental risk in aquatic environments, while 17 and 7 compounds showed moderate and small-scale environmental risks, respectively. Keywords: Pharmaceuticals, Emerging pollutants, Prioritization, Risk assessment
Pharmaceuticals in surface waters have raised significant concern in recent years for their potential environmental effects. This study identified that at present a total of 477 substances (including 66 metabolites and transformation products) have been analyzed in European surface waters. Around 60% (284) of these compounds belonging to 16 different therapeutic groups were positively detected in one or more of 33 European countries. To conveniently and effectively prioritize potential high-risk compounds, an optimized method that considers the frequency of concentrations above predicted no effects levels was developed on the basis of the traditional method, and it was then used to identify and screen candidate priority pollutants in European surface waters. The results proved the feasibility and advantages of the optimized method. Pharmaceuticals detected in European surface waters were classified into 5 categories (high, moderate, endurable, negligible and safe) depending on their potential environmental effects and the distribution of pharmaceuticals. Circa 9% (45 out of 477) analyzed compounds showed a potential environmental risk to aquatic ecosystems. Among these 45 compounds, 12 compounds were indicated to have high environmental risk in aquatic environments, while 17 and 7 compounds showed moderate and small-scale environmental risks, respectively.Pharmaceuticals in surface waters have raised significant concern in recent years for their potential environmental effects. This study identified that at present a total of 477 substances (including 66 metabolites and transformation products) have been analyzed in European surface waters. Around 60% (284) of these compounds belonging to 16 different therapeutic groups were positively detected in one or more of 33 European countries. To conveniently and effectively prioritize potential high-risk compounds, an optimized method that considers the frequency of concentrations above predicted no effects levels was developed on the basis of the traditional method, and it was then used to identify and screen candidate priority pollutants in European surface waters. The results proved the feasibility and advantages of the optimized method. Pharmaceuticals detected in European surface waters were classified into 5 categories (high, moderate, endurable, negligible and safe) depending on their potential environmental effects and the distribution of pharmaceuticals. Circa 9% (45 out of 477) analyzed compounds showed a potential environmental risk to aquatic ecosystems. Among these 45 compounds, 12 compounds were indicated to have high environmental risk in aquatic environments, while 17 and 7 compounds showed moderate and small-scale environmental risks, respectively.
Pharmaceuticals in surface waters have raised significant concern in recent years for their potential environmental effects. This study identified that at present a total of 477 substances (including 66 metabolites and transformation products) have been analyzed in European surface waters. Around 60% (284) of these compounds belonging to 16 different therapeutic groups were positively detected in one or more of 33 European countries. To conveniently and effectively prioritize potential high-risk compounds, an optimized method that considers the frequency of concentrations above predicted no effects levels was developed on the basis of the traditional method, and it was then used to identify and screen candidate priority pollutants in European surface waters. The results proved the feasibility and advantages of the optimized method. Pharmaceuticals detected in European surface waters were classified into 5 categories (high, moderate, endurable, negligible and safe) depending on their potential environmental effects and the distribution of pharmaceuticals. Circa 9% (45 out of 477) analyzed compounds showed a potential environmental risk to aquatic ecosystems. Among these 45 compounds, 12 compounds were indicated to have high environmental risk in aquatic environments, while 17 and 7 compounds showed moderate and small-scale environmental risks, respectively.
Pharmaceuticals in surface waters have raised significant concern in recent years for their potential environmental effects. This study identified that at present a total of 477 substances (including 66 metabolites and transformation products) have been analyzed in European surface waters. Around 60% (284) of these compounds belonging to 16 different therapeutic groups were positively detected in one or more of 33 European countries. To conveniently and effectively prioritize potential high-risk compounds, an optimized method that considers the frequency of concentrations above predicted no effects levels was developed on the basis of the traditional method, and it was then used to identify and screen candidate priority pollutants in European surface waters. The results proved the feasibility and advantages of the optimized method. Pharmaceuticals detected in European surface waters were classified into 5 categories (high, moderate, endurable, negligible and safe) depending on their potential environmental effects and the distribution of pharmaceuticals. Circa 9% (45 out of 477) analyzed compounds showed a potential environmental risk to aquatic ecosystems. Among these 45 compounds, 12 compounds were indicated to have high environmental risk in aquatic environments, while 17 and 7 compounds showed moderate and small-scale environmental risks, respectively. [Display omitted] •An optimized method was developed to identify and screen candidate priority pollutants in surface waters.•Different therapeutic groups were positively detected in many European countries.•45 compounds showed potential environmental risks in European surface waters.
Author Di Paolo, Carolina
Wu, Xinda
Hollert, Henner
Shao, Ying
Zhou, Shangbo
Seiler, Thomas-Benjamin
Author_xml – sequence: 1
  givenname: Shangbo
  surname: Zhou
  fullname: Zhou, Shangbo
  organization: Department of Ecosystem Analysis, ABBt - Aachen Biology and Biotechnology, Institute for Environmental Research, RWTH Aachen University, 52074 Aachen, Germany
– sequence: 2
  givenname: Carolina
  orcidid: 0000-0002-4281-1034
  surname: Di Paolo
  fullname: Di Paolo, Carolina
  organization: Department of Ecosystem Analysis, ABBt - Aachen Biology and Biotechnology, Institute for Environmental Research, RWTH Aachen University, 52074 Aachen, Germany
– sequence: 3
  givenname: Xinda
  surname: Wu
  fullname: Wu, Xinda
  organization: EcoLab (le laboratoire écologie fonctionnelle et environnement), Université Toulouse III - Paul Sabatier, Castanet-Tolosan 31326, France
– sequence: 4
  givenname: Ying
  surname: Shao
  fullname: Shao, Ying
  organization: Department of Ecosystem Analysis, ABBt - Aachen Biology and Biotechnology, Institute for Environmental Research, RWTH Aachen University, 52074 Aachen, Germany
– sequence: 5
  givenname: Thomas-Benjamin
  orcidid: 0000-0001-8127-510X
  surname: Seiler
  fullname: Seiler, Thomas-Benjamin
  organization: Department of Ecosystem Analysis, ABBt - Aachen Biology and Biotechnology, Institute for Environmental Research, RWTH Aachen University, 52074 Aachen, Germany
– sequence: 6
  givenname: Henner
  surname: Hollert
  fullname: Hollert, Henner
  email: henner.hollert@bio5.rwth-aachen.de
  organization: Department of Ecosystem Analysis, ABBt - Aachen Biology and Biotechnology, Institute for Environmental Research, RWTH Aachen University, 52074 Aachen, Germany
BackLink https://www.ncbi.nlm.nih.gov/pubmed/31029973$$D View this record in MEDLINE/PubMed
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Keywords LOECs
NOECs
AF
QSAR
WWTPs
Risk assessment
Prioritization
PNEC
MECs
Emerging pollutants
RQ
Pharmaceuticals
Language English
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Snippet Pharmaceuticals in surface waters have raised significant concern in recent years for their potential environmental effects. This study identified that at...
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SubjectTerms aquatic ecosystems
aquatic environment
drugs
Emerging pollutants
environmental impact
Europe
metabolites
Pharmaceuticals
pollutants
Prioritization
risk
Risk assessment
surface water
therapeutics
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Title Optimization of screening-level risk assessment and priority selection of emerging pollutants – The case of pharmaceuticals in European surface waters
URI https://dx.doi.org/10.1016/j.envint.2019.04.034
https://www.ncbi.nlm.nih.gov/pubmed/31029973
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