ORCID

Abstract

Because paint particles consist of a resin (polymer) combined with one or more additives, they bear compositional similarities with microplastics. Despite these shared characteristics, however, paint particles are oftenundetected, deliberately overlooked or evade classification in the pool of micro-debris (all synthetic debris of < 5mm in size), and in particular in the marine setting where an extensive body of microplastic literature exists.Accordingly, the present paper provides a critical insight into the physico-chemical properties, sources, distributions, behaviour and toxicity of paint particles in the marine environment.Paint particles contain a greater proportion of additives than plastics and, consequently, are more brittle,angular, opaque, dense, heterogeneous and layered than microplastics of equivalent dimensions. Land-basedsources of paint particles, including deteriorating or disturbed coatings on roads and building, are transportedto the ocean with other microplastics via urban runoff, water treatment facilities and the atmosphere. However,inputs of paint particles are enhanced significantly and more directly by the disturbance, erosion and weatheringof coatings on coastal structures, boats and ships. Estimates of paint particle emissions to the marine environmentvary widely, with calculated contributions to the total synthetic micro-debris input as high as 35%. Upper estimates are consistent with available (albeit limited) quantitative information on the relative abundance of paintparticles amongst synthetic material captured by sea surface trawls and ingested by marine animals. Of greatestenvironmental concern is the high chemical toxicity of paint particles compared with similarly-sized microplastics and other synthetic debris. This results from the contemporary and historical use of high concentrationsof hazardous inorganic additives in marine antifouling and land-based paints, and the relatively ready mobilisation of harmful ions, like Cu+/Cu2+, TBT+, Pb2+ and CrO42− , from the matrix. Recommendations arising fromthis review include greater use of particulate capturing devices, waste collection systems and recycling facilitiesduring paint disturbance, raising awareness of the potential impacts of discarded paint amongst users, andalerting the microplastic community to the significance of paint particles and developing means by which theyare isolated from environmental samples.

Publication Date

2021-08-01

Publication Title

Water Research X

Volume

12

Acceptance Date

2021-07-21

Deposit Date

2021-10-19

Embargo Period

2021-10-20

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