Using REACH registration data to rank the environmental emission potential of persistent and mobile organic chemicals

Organic chemicals that are persistent and mobile in the aquatic environment exhibit a hazard to contaminate drinking water resources. In this study an emission score model was developed to rank the potential of substances registered under the REACH legislation to be emitted into the environment. It...

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Published inThe Science of the total environment Vol. 625; pp. 1122 - 1128
Main Authors Schulze, Stefanie, Sättler, Daniel, Neumann, Michael, Arp, Hans Peter H., Reemtsma, Thorsten, Berger, Urs
Format Journal Article
LanguageEnglish
Published Netherlands Elsevier B.V 01.06.2018
Subjects
aquatic environment
business enterprises
Drinking water
emissions
Environmental emissions
groundwater
laws and regulations
markets
organic compounds
Polar contaminants
Prioritization
Transformation products
Water quality
Transformation products
Prioritization
Drinking water
Environmental emissions
Water quality
Polar contaminants
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Abstract Organic chemicals that are persistent and mobile in the aquatic environment exhibit a hazard to contaminate drinking water resources. In this study an emission score model was developed to rank the potential of substances registered under the REACH legislation to be emitted into the environment. It was applied to a list of 2167 REACH registered substances that were previously identified to be persistent and mobile organic chemicals (PMOCs) in groundwater or to be hydrolyzed to form transformation products fulfilling the PMOC criteria. The emission score model is based on the tonnage placed on the European market and on seven emission-related use characteristics (high release to environment, wide dispersive use, intermediate use, closed system use, professional use, consumer use, and substance in article), reported in the companies' registrations under REACH. Applying the model resulted in a list of 1110 substances (936 PMOCs and 174 precursors to PMOCs) that were estimated to be released into the environment, while 1054 substances had indicators of negligible environmental emissions and 3 substances could not be evaluated due to severe data gaps. The 936 PMOCs and the 174 precursors were ranked in two lists with regard to their emission potential. The model was shown to be fit for purpose in terms of suggesting and prioritizing substances for scientific investigations with a focus on environmental water quality. Though targeted for PMOCs, the presented scoring system is illustrative of how REACH registration data can be used to assess the emission potential of various substances. [Display omitted] •The emission potential of 2167 persistent and mobile organic chemicals is modeled.•Use characteristics and marketed volumes registered under REACH are used.•The 936 PMOCs that are estimated to be emitted into the environment are ranked.•Additionally, 174 PMOC precursors that are estimated to be emitted are ranked.•The ranked lists can be used to prioritize substances for environmental investigations.
AbstractList Organic chemicals that are persistent and mobile in the aquatic environment exhibit a hazard to contaminate drinking water resources. In this study an emission score model was developed to rank the potential of substances registered under the REACH legislation to be emitted into the environment. It was applied to a list of 2167 REACH registered substances that were previously identified to be persistent and mobile organic chemicals (PMOCs) in groundwater or to be hydrolyzed to form transformation products fulfilling the PMOC criteria. The emission score model is based on the tonnage placed on the European market and on seven emission-related use characteristics (high release to environment, wide dispersive use, intermediate use, closed system use, professional use, consumer use, and substance in article), reported in the companies' registrations under REACH. Applying the model resulted in a list of 1110 substances (936 PMOCs and 174 precursors to PMOCs) that were estimated to be released into the environment, while 1054 substances had indicators of negligible environmental emissions and 3 substances could not be evaluated due to severe data gaps. The 936 PMOCs and the 174 precursors were ranked in two lists with regard to their emission potential. The model was shown to be fit for purpose in terms of suggesting and prioritizing substances for scientific investigations with a focus on environmental water quality. Though targeted for PMOCs, the presented scoring system is illustrative of how REACH registration data can be used to assess the emission potential of various substances. [Display omitted] •The emission potential of 2167 persistent and mobile organic chemicals is modeled.•Use characteristics and marketed volumes registered under REACH are used.•The 936 PMOCs that are estimated to be emitted into the environment are ranked.•Additionally, 174 PMOC precursors that are estimated to be emitted are ranked.•The ranked lists can be used to prioritize substances for environmental investigations.
Organic chemicals that are persistent and mobile in the aquatic environment exhibit a hazard to contaminate drinking water resources. In this study an emission score model was developed to rank the potential of substances registered under the REACH legislation to be emitted into the environment. It was applied to a list of 2167 REACH registered substances that were previously identified to be persistent and mobile organic chemicals (PMOCs) in groundwater or to be hydrolyzed to form transformation products fulfilling the PMOC criteria. The emission score model is based on the tonnage placed on the European market and on seven emission-related use characteristics (high release to environment, wide dispersive use, intermediate use, closed system use, professional use, consumer use, and substance in article), reported in the companies' registrations under REACH. Applying the model resulted in a list of 1110 substances (936 PMOCs and 174 precursors to PMOCs) that were estimated to be released into the environment, while 1054 substances had indicators of negligible environmental emissions and 3 substances could not be evaluated due to severe data gaps. The 936 PMOCs and the 174 precursors were ranked in two lists with regard to their emission potential. The model was shown to be fit for purpose in terms of suggesting and prioritizing substances for scientific investigations with a focus on environmental water quality. Though targeted for PMOCs, the presented scoring system is illustrative of how REACH registration data can be used to assess the emission potential of various substances.
Organic chemicals that are persistent and mobile in the aquatic environment exhibit a hazard to contaminate drinking water resources. In this study an emission score model was developed to rank the potential of substances registered under the REACH legislation to be emitted into the environment. It was applied to a list of 2167 REACH registered substances that were previously identified to be persistent and mobile organic chemicals (PMOCs) in groundwater or to be hydrolyzed to form transformation products fulfilling the PMOC criteria. The emission score model is based on the tonnage placed on the European market and on seven emission-related use characteristics (high release to environment, wide dispersive use, intermediate use, closed system use, professional use, consumer use, and substance in article), reported in the companies' registrations under REACH. Applying the model resulted in a list of 1110 substances (936 PMOCs and 174 precursors to PMOCs) that were estimated to be released into the environment, while 1054 substances had indicators of negligible environmental emissions and 3 substances could not be evaluated due to severe data gaps. The 936 PMOCs and the 174 precursors were ranked in two lists with regard to their emission potential. The model was shown to be fit for purpose in terms of suggesting and prioritizing substances for scientific investigations with a focus on environmental water quality. Though targeted for PMOCs, the presented scoring system is illustrative of how REACH registration data can be used to assess the emission potential of various substances.Organic chemicals that are persistent and mobile in the aquatic environment exhibit a hazard to contaminate drinking water resources. In this study an emission score model was developed to rank the potential of substances registered under the REACH legislation to be emitted into the environment. It was applied to a list of 2167 REACH registered substances that were previously identified to be persistent and mobile organic chemicals (PMOCs) in groundwater or to be hydrolyzed to form transformation products fulfilling the PMOC criteria. The emission score model is based on the tonnage placed on the European market and on seven emission-related use characteristics (high release to environment, wide dispersive use, intermediate use, closed system use, professional use, consumer use, and substance in article), reported in the companies' registrations under REACH. Applying the model resulted in a list of 1110 substances (936 PMOCs and 174 precursors to PMOCs) that were estimated to be released into the environment, while 1054 substances had indicators of negligible environmental emissions and 3 substances could not be evaluated due to severe data gaps. The 936 PMOCs and the 174 precursors were ranked in two lists with regard to their emission potential. The model was shown to be fit for purpose in terms of suggesting and prioritizing substances for scientific investigations with a focus on environmental water quality. Though targeted for PMOCs, the presented scoring system is illustrative of how REACH registration data can be used to assess the emission potential of various substances.
Author Arp, Hans Peter H.
Neumann, Michael
Schulze, Stefanie
Sättler, Daniel
Berger, Urs
Reemtsma, Thorsten
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  givenname: Stefanie
  surname: Schulze
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  givenname: Daniel
  surname: Sättler
  fullname: Sättler, Daniel
  organization: Section IV 2.3 Chemicals, German Environment Agency – UBA, Wörlitzer Platz 1, 06844 Dessau-Roßlau, Germany
– sequence: 3
  givenname: Michael
  surname: Neumann
  fullname: Neumann, Michael
  organization: Section IV 2.3 Chemicals, German Environment Agency – UBA, Wörlitzer Platz 1, 06844 Dessau-Roßlau, Germany
– sequence: 4
  givenname: Hans Peter H.
  surname: Arp
  fullname: Arp, Hans Peter H.
  organization: Norwegian Geotechnical Institute – NGI, Postboks 3930 Ullevål Stadion, 0806 Oslo, Norway
– sequence: 5
  givenname: Thorsten
  surname: Reemtsma
  fullname: Reemtsma, Thorsten
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  givenname: Urs
  orcidid: 0000-0002-0364-6443
  surname: Berger
  fullname: Berger, Urs
  email: urs.berger@ufz.de
  organization: Department of Analytical Chemistry, Helmholtz Centre for Environmental Research – UFZ, Permoserstrasse 15, 04318 Leipzig, Germany
BackLink https://www.ncbi.nlm.nih.gov/pubmed/29996409$$D View this record in MEDLINE/PubMed
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Keywords Transformation products
Prioritization
Drinking water
Environmental emissions
Water quality
Polar contaminants
Language English
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Snippet Organic chemicals that are persistent and mobile in the aquatic environment exhibit a hazard to contaminate drinking water resources. In this study an emission...
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StartPage 1122
SubjectTerms aquatic environment
business enterprises
Drinking water
emissions
Environmental emissions
groundwater
laws and regulations
markets
organic compounds
Polar contaminants
Prioritization
Transformation products
Water quality
Title Using REACH registration data to rank the environmental emission potential of persistent and mobile organic chemicals
URI https://dx.doi.org/10.1016/j.scitotenv.2017.12.305
https://www.ncbi.nlm.nih.gov/pubmed/29996409
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https://www.proquest.com/docview/2068913956
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