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Breakdown and Modification of Microplastic Beads by Aeolian Abrasion

Joanna E. Bullard, Zhaoxia Zhou, Samuel P. Davis, Shaun Fowler

2022Environmental Science & Technology48 citationsDOIOpen Access PDF

Abstract

. 80%. For abrasion periods up to 200 h, the microplastic beads remained spherical with minimal change to overall shape. Over 95% of the fragments of plastic removed from the surface of the microbeads during the abrasion process had a diameter of ≤10 μm. In addition, during the abrasion process, fine particles derived from breakdown of the quartz grains became attached to the surfaces of the microbeads resulting in a reduction in carbon and an increase in silicon detected on the particle surface. The results suggest that microplastics may be mechanically broken down during aeolian saltation and small fragments produced have the potential for long distance transport as well as being within the size range for human respiration.

Topics & Concepts

Abrasion (mechanical)Aeolian processesMicroplasticsMaterials scienceQuartzComposite materialParticle sizeMineralogyChemistryGeologyEnvironmental chemistryGeomorphologyPhysical chemistryAeolian processes and effectsMicroplastics and Plastic PollutionParticle Dynamics in Fluid Flows
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