4.7 Review

Weathering pathways and protocols for environmentally relevant microplastics and nanoplastics: What are we missing?

Journal

JOURNAL OF HAZARDOUS MATERIALS
Volume 423, Issue -, Pages -

Publisher

ELSEVIER
DOI: 10.1016/j.jhazmat.2021.126955

Keywords

Aging; Leachate; Ecotoxicity; ASTM standard; Quality criteria; Contamination

Funding

  1. Canada Research Chairs Program
  2. Natural Sciences and Engineering Research Council of Canada
  3. Killam Research Fellowship program
  4. Petroleum Technology Development Fund of Nigeria
  5. Mitacs Canada
  6. Kemira
  7. Fisheries and Oceans Canada

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Most studies on microplastics have been conducted using pristine particles, neglecting the effects of weathering. Current weathering protocols are not sufficient for microplastics research. There is a need to use environmentally relevant microplastics and critically assess the appropriateness of weathering methods in future research efforts.
To date, most studies of microplastics have been carried out with pristine particles. However, most plastics in the environment will be aged to some extent; hence, understanding the effects of weathering and accurately mimicking weathering processes are crucial. By using microplastics that lack environmental relevance, we are unable to fully assess the risks associated with microplastic pollution in the environment. Emerging studies advocate for harmonization of experimental methods, however, the subject of reliable weathering protocols for realistic assessment has not been addressed. In this work, we critically analysed the current knowledge regarding protocols used for generating environmentally relevant microplastics and leachates for effects studies. We present the expected and overlooked weathering pathways that plastics will undergo throughout their lifecycle. International standard weathering protocols developed for polymers were critically analysed for their appropriateness for use in microplastics research. We show that most studies using weathered microplastics involve sorption experiments followed by toxicity assays. The most frequently reported weathered plastic types in the literature are polystyrene>polyethylene>polypropylene>polyvinyl chloride, which does not reflect the global plastic production and plastic types detected globally. Only similar to 10% of published effect studies have used aged microplastics and of these, only 12 use aged nanoplastics. This highlights the need to embrace the use of environmentally relevant microplastics and to pay critical attention to the appropriateness of the weathering methods adopted moving forward. We advocate for quality reporting of weathering protocols and characterisation for harmonization and reproducibility across different research efforts.

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