Gathering at the top?: Environmental controls of microplastic uptake and biomagnification in freshwater food webs

Stefan Krause; Viktor Baranov; Holly A. Nel; Jennifer D. Drummond; Anna Kukkola; Timothy Hoellein; Gregory H. Sambrook Smith; Joerg Lewandowski; Berta Bonnet; Aaron I. Packman; Jon Sadler; Valentyna Inshyna; Steve Allen; Deonie Allen; Laurent Simon; Florian Mermillod-Blondin; Iseult Lynch

doi:10.1016/j.envpol.2020.115750

Gathering at the top? Environmental controls of microplastic uptake and biomagnification in freshwater food webs

Stefan Krause^*, Viktor Baranov, Holly A. Nel, Jennifer D. Drummond, Anna Kukkola, Timothy Hoellein, Gregory H. Sambrook Smith, Joerg Lewandowski, Berta Bonnet, Aaron I. Packman, Jon Sadler, Valentyna Inshyna, Steve Allen, Deonie Allen, Laurent Simon, Florian Mermillod-Blondin, Iseult Lynch

^*Corresponding author for this work

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

4 Citations (Scopus)

Abstract

Microplastics are ubiquitous in the environment, with high concentrations being detected now also in river corridors and sediments globally. Whilst there has been increasing field evidence of microplastics accumulation in the guts and tissues of freshwater and marine aquatic species, the uptake mechanisms of microplastics into freshwater food webs, and the physical and geological controls on pathway-specific exposures to microplastics, are not well understood. This knowledge gap is hampering the assessment of exposure risks, and potential ecotoxicological and public health impacts from microplastics. This review provides a comprehensive synthesis of key research challenges in analysing the environmental fate and transport of microplastics in freshwater ecosystems, including the identification of hydrological, sedimentological and particle property controls on microplastic accumulation in aquatic ecosystems. This mechanistic analysis outlines the dominant pathways for exposure to microplastics in freshwater ecosystems and identifies potentially critical uptake mechanisms and entry pathways for microplastics and associated contaminants into aquatic food webs as well as their risk to accumulate and biomagnify. We identify seven key research challenges that, if overcome, will permit the advancement beyond current conceptual limitations and provide the mechanistic process understanding required to assess microplastic exposure, uptake, hazard, and overall risk to aquatic systems and humans, and provide key insights into the priority impact pathways in freshwater ecosystems to support environmental management decision making.

Original language	English
Article number	115750
Number of pages	11
Journal	Environmental Pollution
Volume	268
Issue number	Pt A
Early online date	27 Oct 2020
DOIs	https://doi.org/10.1016/j.envpol.2020.115750
Publication status	Published - 1 Jan 2021

Bibliographical note

Funding Information:
This work was supported by the Birmingham Institute of Global Innovation and funded through the Leverhulme Trust research grants ( RPG-2017-377 and ECF-2019-309 ) and the EU H2020 ITN Grants HypoTrain ( H2020-MSCA-ITN-2014 - 641939 ) and HiFreq ( H2020-MSCA-RISE-2016 - 734317 ). Berta Bonnet was funded through the EU H2020 Marie Curie Individual Fellowship (NanoTOX - 706172 ) and Jen Drummond by the Royal Society International Newton Fellowship ( NIF∖R1∖180935 ).

Publisher Copyright:
© 2020 Elsevier Ltd

Keywords

Exposure
Fate
Food web
Freshwater
Microplastic
Water Pollutants, Chemical/analysis
Environmental Monitoring
Humans
Food Chain
Bioaccumulation
Ecosystem
Fresh Water
Microplastics
Plastics

ASJC Scopus subject areas

Pollution
Health, Toxicology and Mutagenesis
Toxicology

UN SDGs

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

Access to Document

10.1016/j.envpol.2020.115750Licence: None: All rights reserved

https://pureportal.strath.ac.uk/en/publications/gathering-at-the-top-environmental-controls-of-microplastic-uptakLicence: Creative Commons: Attribution-NonCommercial-NoDerivs (CC BY-NC-ND)

Cite this

Krause, S., Baranov, V., Nel, H. A., Drummond, J. D., Kukkola, A., Hoellein, T., Sambrook Smith, G. H., Lewandowski, J., Bonnet, B., Packman, A. I., Sadler, J., Inshyna, V., Allen, S., Allen, D., Simon, L., Mermillod-Blondin, F., & Lynch, I. (2021). Gathering at the top? Environmental controls of microplastic uptake and biomagnification in freshwater food webs. Environmental Pollution, 268(Pt A), Article 115750. Advance online publication. https://doi.org/10.1016/j.envpol.2020.115750

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abstract = "Microplastics are ubiquitous in the environment, with high concentrations being detected now also in river corridors and sediments globally. Whilst there has been increasing field evidence of microplastics accumulation in the guts and tissues of freshwater and marine aquatic species, the uptake mechanisms of microplastics into freshwater food webs, and the physical and geological controls on pathway-specific exposures to microplastics, are not well understood. This knowledge gap is hampering the assessment of exposure risks, and potential ecotoxicological and public health impacts from microplastics. This review provides a comprehensive synthesis of key research challenges in analysing the environmental fate and transport of microplastics in freshwater ecosystems, including the identification of hydrological, sedimentological and particle property controls on microplastic accumulation in aquatic ecosystems. This mechanistic analysis outlines the dominant pathways for exposure to microplastics in freshwater ecosystems and identifies potentially critical uptake mechanisms and entry pathways for microplastics and associated contaminants into aquatic food webs as well as their risk to accumulate and biomagnify. We identify seven key research challenges that, if overcome, will permit the advancement beyond current conceptual limitations and provide the mechanistic process understanding required to assess microplastic exposure, uptake, hazard, and overall risk to aquatic systems and humans, and provide key insights into the priority impact pathways in freshwater ecosystems to support environmental management decision making.",

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author = "Stefan Krause and Viktor Baranov and Nel, {Holly A.} and Drummond, {Jennifer D.} and Anna Kukkola and Timothy Hoellein and {Sambrook Smith}, {Gregory H.} and Joerg Lewandowski and Berta Bonnet and Packman, {Aaron I.} and Jon Sadler and Valentyna Inshyna and Steve Allen and Deonie Allen and Laurent Simon and Florian Mermillod-Blondin and Iseult Lynch",

note = "Funding Information: This work was supported by the Birmingham Institute of Global Innovation and funded through the Leverhulme Trust research grants ( RPG-2017-377 and ECF-2019-309 ) and the EU H2020 ITN Grants HypoTrain ( H2020-MSCA-ITN-2014 - 641939 ) and HiFreq ( H2020-MSCA-RISE-2016 - 734317 ). Berta Bonnet was funded through the EU H2020 Marie Curie Individual Fellowship (NanoTOX - 706172 ) and Jen Drummond by the Royal Society International Newton Fellowship ( NIF∖R1∖180935 ). Publisher Copyright: {\textcopyright} 2020 Elsevier Ltd",

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Krause, S, Baranov, V, Nel, HA, Drummond, JD, Kukkola, A, Hoellein, T, Sambrook Smith, GH, Lewandowski, J, Bonnet, B, Packman, AI, Sadler, J, Inshyna, V, Allen, S, Allen, D, Simon, L, Mermillod-Blondin, F & Lynch, I 2021, 'Gathering at the top? Environmental controls of microplastic uptake and biomagnification in freshwater food webs', Environmental Pollution, vol. 268, no. Pt A, 115750. https://doi.org/10.1016/j.envpol.2020.115750

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AU - Krause, Stefan

AU - Baranov, Viktor

AU - Nel, Holly A.

AU - Drummond, Jennifer D.

AU - Kukkola, Anna

AU - Hoellein, Timothy

AU - Sambrook Smith, Gregory H.

AU - Lewandowski, Joerg

AU - Bonnet, Berta

AU - Packman, Aaron I.

AU - Sadler, Jon

AU - Inshyna, Valentyna

AU - Allen, Steve

AU - Allen, Deonie

AU - Simon, Laurent

AU - Mermillod-Blondin, Florian

AU - Lynch, Iseult

N1 - Funding Information: This work was supported by the Birmingham Institute of Global Innovation and funded through the Leverhulme Trust research grants ( RPG-2017-377 and ECF-2019-309 ) and the EU H2020 ITN Grants HypoTrain ( H2020-MSCA-ITN-2014 - 641939 ) and HiFreq ( H2020-MSCA-RISE-2016 - 734317 ). Berta Bonnet was funded through the EU H2020 Marie Curie Individual Fellowship (NanoTOX - 706172 ) and Jen Drummond by the Royal Society International Newton Fellowship ( NIF∖R1∖180935 ). Publisher Copyright: © 2020 Elsevier Ltd

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N2 - Microplastics are ubiquitous in the environment, with high concentrations being detected now also in river corridors and sediments globally. Whilst there has been increasing field evidence of microplastics accumulation in the guts and tissues of freshwater and marine aquatic species, the uptake mechanisms of microplastics into freshwater food webs, and the physical and geological controls on pathway-specific exposures to microplastics, are not well understood. This knowledge gap is hampering the assessment of exposure risks, and potential ecotoxicological and public health impacts from microplastics. This review provides a comprehensive synthesis of key research challenges in analysing the environmental fate and transport of microplastics in freshwater ecosystems, including the identification of hydrological, sedimentological and particle property controls on microplastic accumulation in aquatic ecosystems. This mechanistic analysis outlines the dominant pathways for exposure to microplastics in freshwater ecosystems and identifies potentially critical uptake mechanisms and entry pathways for microplastics and associated contaminants into aquatic food webs as well as their risk to accumulate and biomagnify. We identify seven key research challenges that, if overcome, will permit the advancement beyond current conceptual limitations and provide the mechanistic process understanding required to assess microplastic exposure, uptake, hazard, and overall risk to aquatic systems and humans, and provide key insights into the priority impact pathways in freshwater ecosystems to support environmental management decision making.

AB - Microplastics are ubiquitous in the environment, with high concentrations being detected now also in river corridors and sediments globally. Whilst there has been increasing field evidence of microplastics accumulation in the guts and tissues of freshwater and marine aquatic species, the uptake mechanisms of microplastics into freshwater food webs, and the physical and geological controls on pathway-specific exposures to microplastics, are not well understood. This knowledge gap is hampering the assessment of exposure risks, and potential ecotoxicological and public health impacts from microplastics. This review provides a comprehensive synthesis of key research challenges in analysing the environmental fate and transport of microplastics in freshwater ecosystems, including the identification of hydrological, sedimentological and particle property controls on microplastic accumulation in aquatic ecosystems. This mechanistic analysis outlines the dominant pathways for exposure to microplastics in freshwater ecosystems and identifies potentially critical uptake mechanisms and entry pathways for microplastics and associated contaminants into aquatic food webs as well as their risk to accumulate and biomagnify. We identify seven key research challenges that, if overcome, will permit the advancement beyond current conceptual limitations and provide the mechanistic process understanding required to assess microplastic exposure, uptake, hazard, and overall risk to aquatic systems and humans, and provide key insights into the priority impact pathways in freshwater ecosystems to support environmental management decision making.

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KW - Fate

KW - Food web

KW - Freshwater

KW - Microplastic

KW - Water Pollutants, Chemical/analysis

KW - Environmental Monitoring

KW - Humans

KW - Food Chain

KW - Bioaccumulation

KW - Ecosystem

KW - Fresh Water

KW - Microplastics

KW - Plastics

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