Reducing Uncertainty and Confronting Ignorance about the Possible Impacts of Weathering Plastic in the Marine Environment

Plastic in the global oceans fulfills two of the three conditions for pollution to pose a planetary boundary threat because it is causing planetary-scale exposure that is not readily reversible. Plastic is a planetary boundary threat if it is having a currently unrecognized disruptive effect on a vi...

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Published in	Environmental science & technology letters Vol. 4; no. 3; pp. 85 - 90
Main Authors	Jahnke, Annika, Arp, Hans Peter H, Escher, Beate I, Gewert, Berit, Gorokhova, Elena, Kühnel, Dana, Ogonowski, Martin, Potthoff, Annegret, Rummel, Christoph, Schmitt-Jansen, Mechthild, Toorman, Erik, MacLeod, Matthew
Format	Journal Article
Language	English
Published	American Chemical Society 14.03.2017
Subjects	additives adverse effects Applied Environmental Science aquatic organisms biofilm decision making Earth system science environmental fate marine environment monitoring oceans plastics pollution risk assessment tillämpad miljövetenskap toxicity uncertainty weathering
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Abstract	Plastic in the global oceans fulfills two of the three conditions for pollution to pose a planetary boundary threat because it is causing planetary-scale exposure that is not readily reversible. Plastic is a planetary boundary threat if it is having a currently unrecognized disruptive effect on a vital Earth system process. Discovering possible unknown effects is likely to be aided by achieving a fuller understanding of the environmental fate of plastic. Weathering of plastic generates microplastic, releases chemical additives, and likely also produces nanoplastic and chemical fragments cleaved from the polymer backbone. However, weathering of plastic in the marine environment is not well understood in terms of time scales for fragmentation and degradation, the evolution of particle morphology and properties, and hazards of the chemical mixture liberated by weathering. Biofilms that form and grow on plastic affect weathering, vertical transport, toxicity, and uptake of plastic by marine organisms and have been underinvestigated. Laboratory studies, field monitoring, and models of the impact of weathering on plastic debris are needed to reduce uncertainty in hazard and risk assessments for known and suspected adverse effects. However, scientists and decision makers must also recognize that plastic in the oceans may have unanticipated effects about which we are currently ignorant. Possible impacts that are currently unknown can be confronted by vigilant monitoring of plastic in the oceans and discovery-oriented research related to the possible effects of weathering plastic.
AbstractList	Plastic in the global oceans fulfills two of the three conditions for pollution to pose a planetary boundary threat because it is causing planetary-scale exposure that is not readily reversible. Plastic is a planetary boundary threat if it is having a currently unrecognized disruptive effect on a vital Earth system process. Discovering possible unknown effects is likely to be aided by achieving a fuller understanding of the environmental fate of plastic. Weathering of plastic generates microplastic, releases chemical additives, and likely also produces nanoplastic and chemical fragments cleaved from the polymer backbone. However, weathering of plastic in the marine environment is not well understood in terms of time scales for fragmentation and degradation, the evolution of particle morphology and properties, and hazards of the chemical mixture liberated by weathering. Biofilms that form and grow on plastic affect weathering, vertical transport, toxicity, and uptake of plastic by marine organisms and have been underinvestigated. Laboratory studies, field monitoring, and models of the impact of weathering on plastic debris are needed to reduce uncertainty in hazard and risk assessments for known and suspected adverse effects. However, scientists and decision makers must also recognize that plastic in the oceans may have unanticipated effects about which we are currently ignorant. Possible impacts that are currently unknown can be confronted by vigilant monitoring of plastic in the oceans and discovery-oriented research related to the possible effects of weathering plastic. Plastic in the global oceans fulfills two of the three conditions for pollution to pose a planetary boundary threat because it is causing planetary-scale exposure that is not readily reversible. Plastic is a planetary boundary threat if it is having a currently unrecognized disruptive effect on a vital Earth system process. Discovering possible unknown effects is likely to be aided by achieving a fuller understanding of the environmental fate of plastic. Weathering of plastic generates microplastic, releases chemical additives, and likely also produces nanoplastic and chemical fragments cleaved from the polymer backbone. However, weathering of plastic in the marine environment is not well understood in terms of time scales for fragmentation and degradation, the evolution of particle morphology and properties, and hazards of the chemical mixture liberated by weathering. Biofilms that form and grow on plastic affect weathering, vertical transport, toxicity, and uptake of plastic by marine organisms and have been underinvestigated. Laboratory studies, monitoring, and models weathering on plastic debris are needed to reduce uncertainty in hazard and risk assessments for known and field of the impact of suspected adverse effects. However, scientists and decision makers must also recognize that plastic in the oceans may have unanticipated effects about which we are currently ignorant. Possible impacts that are currently unknown can be confronted by vigilant monitoring of plastic in the oceans and discovery-oriented research related to the possible effects of weathering plastic.
Author	Gorokhova, Elena Kühnel, Dana MacLeod, Matthew Escher, Beate I Toorman, Erik Jahnke, Annika Arp, Hans Peter H Potthoff, Annegret Rummel, Christoph Ogonowski, Martin Gewert, Berit Schmitt-Jansen, Mechthild
AuthorAffiliation	Aquabiota Water Research AB Norwegian Geotechnical Institute Fraunhofer Institute for Ceramic Technologies and Systems (IKTS) Department of Cell Toxicology Hydraulics Division, Department of Civil Engineering Helmholtz Centre for Environmental Research-UFZ Department of Environmental Engineering Department of Characterization Department of Environmental Science & Analytical Chemistry (ACES) Department of Bioanalytical Ecotoxicology Stockholm University
AuthorAffiliation_xml	– name: Helmholtz Centre for Environmental Research-UFZ – name: Hydraulics Division, Department of Civil Engineering – name: Stockholm University – name: Aquabiota Water Research AB – name: Department of Bioanalytical Ecotoxicology – name: Fraunhofer Institute for Ceramic Technologies and Systems (IKTS) – name: Norwegian Geotechnical Institute – name: Department of Characterization – name: Department of Cell Toxicology – name: Department of Environmental Engineering – name: Department of Environmental Science & Analytical Chemistry (ACES)
Author_xml	– sequence: 1 givenname: Annika surname: Jahnke fullname: Jahnke, Annika organization: Helmholtz Centre for Environmental Research-UFZ – sequence: 2 givenname: Hans Peter H surname: Arp fullname: Arp, Hans Peter H organization: Norwegian Geotechnical Institute – sequence: 3 givenname: Beate I surname: Escher fullname: Escher, Beate I organization: Helmholtz Centre for Environmental Research-UFZ – sequence: 4 givenname: Berit surname: Gewert fullname: Gewert, Berit organization: Stockholm University – sequence: 5 givenname: Elena surname: Gorokhova fullname: Gorokhova, Elena organization: Stockholm University – sequence: 6 givenname: Dana surname: Kühnel fullname: Kühnel, Dana organization: Helmholtz Centre for Environmental Research-UFZ – sequence: 7 givenname: Martin surname: Ogonowski fullname: Ogonowski, Martin organization: Aquabiota Water Research AB – sequence: 8 givenname: Annegret surname: Potthoff fullname: Potthoff, Annegret organization: Fraunhofer Institute for Ceramic Technologies and Systems (IKTS) – sequence: 9 givenname: Christoph surname: Rummel fullname: Rummel, Christoph organization: Helmholtz Centre for Environmental Research-UFZ – sequence: 10 givenname: Mechthild surname: Schmitt-Jansen fullname: Schmitt-Jansen, Mechthild organization: Helmholtz Centre for Environmental Research-UFZ – sequence: 11 givenname: Erik surname: Toorman fullname: Toorman, Erik organization: Hydraulics Division, Department of Civil Engineering – sequence: 12 givenname: Matthew orcidid: 0000-0003-2562-7339 surname: MacLeod fullname: MacLeod, Matthew email: matthew.macleod@aces.su.se organization: Stockholm University
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SubjectTerms	additives adverse effects Applied Environmental Science aquatic organisms biofilm decision making Earth system science environmental fate marine environment monitoring oceans plastics pollution risk assessment tillämpad miljövetenskap toxicity uncertainty weathering
Title	Reducing Uncertainty and Confronting Ignorance about the Possible Impacts of Weathering Plastic in the Marine Environment
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