Gi Myung Han scite author profile

It is important to understand the fragmentation processes and mechanisms of plastic litter to predict microplastic production in the marine environment. In this study, accelerated weathering experiments were performed in the laboratory, with ultraviolet (UV) exposure for up to 12 months followed by mechanical abrasion (MA) with sand for 2 months. Fragmentation of low-density polyethylene (PE), polypropylene (PP), and expanded polystyrene (EPS) was evaluated under conditions that simulated a beach environment. PE and PP were minimally fragmented by MA without photooxidation by UV (8.7 ± 2.5 and 10.7 ± 0.7 particles/pellet, respectively). The rate of fragmentation by UV exposure duration increased more for PP than PE. A 12-month UV exposure and 2-month MA of PP and PE produced 6084 ± 1061 and 20 ± 8.3 particles/pellet, respectively. EPS pellets were susceptible to MA alone (4220 ± 33 particles/pellet), while the combination of 6 months of UV exposure followed by 2 months of MA produced 12,152 ± 3276 particles/pellet. The number of fragmented polymer particles produced by UV exposure and mechanical abrasion increased with decreasing size in all polymer types. The size-normalized abundance of the fragmented PE, PP, and EPS particles according to particle size after UV exposure and MA was predictable. Up to 76.5% of the initial EPS volume was unaccounted for in the final volume of pellet produced particle fragments, indicating that a large proportion of the particles had fragmented into undetectable submicron particles.

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A comparison of microscopic and spectroscopic identification methods for analysis of microplastics in environmental samples

Song

Hong

Jang

et al. 2015

Marine Pollution Bulletin

678

268

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Large Accumulation of Micro-sized Synthetic Polymer Particles in the Sea Surface Microlayer

Song

Hong²,

Jang³

et al. 2014

Environ. Sci. Technol.

481

202

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Determining the exact abundance of microplastics on the sea surface can be susceptible to the sampling method used. The sea surface microlayer (SML) can accumulate light plastic particles, but this has not yet been sampled. The abundance of microplastics in the SML was evaluated off the southern coast of Korea. The SML sampling method was then compared to bulk surface water filtering, a hand net (50 μm mesh), and a Manta trawl net (330 μm mesh). The mean abundances were in the order of SML water > hand net > bulk water > Manta trawl net. Fourier transform infrared spectroscopy (FTIR) identified that alkyds and poly(acrylate/styrene) accounted for 81 and 11%, respectively, of the total polymer content of the SML samples. These polymers originated from paints and the fiber-reinforced plastic (FRP) matrix used on ships. Synthetic polymers from ship coatings should be considered to be a source of microplastics. Selecting a suitable sampling method is crucial for evaluating microplastic pollution.

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Abundance and characteristics of microplastics in market bivalves from South Korea

Cho

Shim

Jang

et al. 2019

Environmental Pollution

370

132

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Relationships among the abundances of plastic debris in different size classes on beaches in South Korea

Lee

Hong

Song

et al. 2013

Marine Pollution Bulletin

362

107

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Gi Myung Han

Combined Effects of UV Exposure Duration and Mechanical Abrasion on Microplastic Fragmentation by Polymer Type

A comparison of microscopic and spectroscopic identification methods for analysis of microplastics in environmental samples

Large Accumulation of Micro-sized Synthetic Polymer Particles in the Sea Surface Microlayer

Abundance and characteristics of microplastics in market bivalves from South Korea

Relationships among the abundances of plastic debris in different size classes on beaches in South Korea

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