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The uptake of microfibers by freshwater Asian clams (Corbicula fluminea) varies based upon physicochemical properties

Chemosphere 2019 69 citations ? Citation count from OpenAlex, updated daily. May differ slightly from the publisher's own count. Score: 45 ? 0–100 AI score estimating relevance to the microplastics field. Papers below 30 are filtered from public browse.
Chelsea M. Rochman Jinping Peng, Lei Su, Qipei Li, Lingyun Li, Prabhu Kolandhasamy, Chelsea M. Rochman Chelsea M. Rochman Chelsea M. Rochman Chelsea M. Rochman Chelsea M. Rochman Huiwen Cai, Chelsea M. Rochman Chelsea M. Rochman Chelsea M. Rochman Lei Su, Qipei Li, Chelsea M. Rochman Chelsea M. Rochman Lei Su, Huiwen Cai, Lei Su, Huahong Shi, Lei Su, Huiwen Cai, Jinping Peng, Chelsea M. Rochman Lei Su, Lei Su, Lei Su, Huahong Shi, Lei Su, Chelsea M. Rochman Lei Su, Chelsea M. Rochman Prabhu Kolandhasamy, Lingyun Li, Jinping Peng, Jinping Peng, Chelsea M. Rochman Huahong Shi, Qipei Li, Qipei Li, Prabhu Kolandhasamy, Prabhu Kolandhasamy, Jinping Peng, Jinping Peng, Huiwen Cai, Prabhu Kolandhasamy, Huiwen Cai, Chelsea M. Rochman Chelsea M. Rochman Chelsea M. Rochman Chelsea M. Rochman Chelsea M. 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Rochman Chelsea M. Rochman Qipei Li, Lei Su, Lei Su, Lei Su, Lei Su, Lei Su, Lei Su, Lei Su, Lei Su, Lei Su, Lei Su, Prabhu Kolandhasamy, Huahong Shi, Huahong Shi, Huiwen Cai, Huahong Shi, Huahong Shi, Chelsea M. Rochman Chelsea M. Rochman Huahong Shi, Huahong Shi, Huahong Shi, Huahong Shi, Huahong Shi, Chelsea M. Rochman Huiwen Cai, Huahong Shi, Chelsea M. Rochman Chelsea M. Rochman Chelsea M. Rochman Huahong Shi, Jinping Peng, Chelsea M. Rochman Prabhu Kolandhasamy, Jinping Peng, Huahong Shi, Chelsea M. Rochman Chelsea M. Rochman Huahong Shi, Huahong Shi, Chelsea M. Rochman Chelsea M. Rochman Huahong Shi, Chelsea M. Rochman Huahong Shi, Huahong Shi, Huiwen Cai, Chelsea M. Rochman Chelsea M. Rochman Jinping Peng, Huahong Shi, Chelsea M. Rochman Huahong Shi, Huahong Shi, Jinping Peng, Huahong Shi, Huahong Shi, Huahong Shi, Chelsea M. Rochman Huahong Shi, Huahong Shi, Chelsea M. Rochman Huahong Shi, Chelsea M. Rochman Chelsea M. Rochman Lei Su, Lei Su, Lingyun Li, Qipei Li, Qipei Li, Chelsea M. Rochman Prabhu Kolandhasamy, Prabhu Kolandhasamy, Chelsea M. Rochman Chelsea M. Rochman Huahong Shi, Huahong Shi, Chelsea M. Rochman Chelsea M. Rochman Huahong Shi, Huahong Shi, Chelsea M. Rochman Huahong Shi, Jinping Peng, Chelsea M. Rochman Prabhu Kolandhasamy, Prabhu Kolandhasamy, Huahong Shi, Chelsea M. Rochman Huahong Shi, Chelsea M. Rochman Jinping Peng, Chelsea M. Rochman Huiwen Cai, Huahong Shi, Huahong Shi, Chelsea M. Rochman Lei Su, Huahong Shi, Prabhu Kolandhasamy, Chelsea M. Rochman Chelsea M. Rochman Huahong Shi, Chelsea M. Rochman Jinping Peng, Chelsea M. Rochman Huahong Shi, Huahong Shi, Chelsea M. Rochman Chelsea M. Rochman Huahong Shi, Chelsea M. Rochman Chelsea M. Rochman Chelsea M. Rochman Chelsea M. Rochman Chelsea M. Rochman Prabhu Kolandhasamy, Huahong Shi, Huahong Shi, Huahong Shi, Huahong Shi, Chelsea M. Rochman Chelsea M. Rochman Huahong Shi, Chelsea M. Rochman Chelsea M. Rochman Jinping Peng, Jinping Peng, Chelsea M. Rochman Chelsea M. Rochman Chelsea M. Rochman Chelsea M. Rochman Chelsea M. Rochman Chelsea M. Rochman Chelsea M. Rochman Chelsea M. Rochman Chelsea M. Rochman Chelsea M. Rochman Chelsea M. Rochman Chelsea M. Rochman Lei Su, Lei Su, Lei Su, Huahong Shi, Huahong Shi, Huahong Shi, Huahong Shi, Huahong Shi, Huahong Shi, Huahong Shi, Huahong Shi, Huahong Shi, Huahong Shi, Huahong Shi, Huahong Shi, Huahong Shi, Huahong Shi, Huahong Shi, Huahong Shi, Huahong Shi, Huahong Shi, Huahong Shi, Huahong Shi, Huahong Shi, Huahong Shi, Huahong Shi, Huahong Shi, Huahong Shi, Jinping Peng, Jinping Peng, Jinping Peng, Jinping Peng, Jinping Peng, Jinping Peng, Jinping Peng, Huahong Shi, Huahong Shi, Huahong Shi, Chelsea M. Rochman Jinping Peng, Huahong Shi, Jinping Peng, Jinping Peng, Huahong Shi, Qipei Li, Huahong Shi, Chelsea M. Rochman Chelsea M. Rochman Jinping Peng, Huahong Shi, Huahong Shi, Jinping Peng, Huahong Shi, Huahong Shi, Chelsea M. Rochman Huahong Shi, Jinping Peng, Huahong Shi, Jinping Peng, Huahong Shi, Chelsea M. Rochman Chelsea M. Rochman Chelsea M. Rochman Huahong Shi, Huahong Shi, Huahong Shi, Huahong Shi, Huahong Shi, Huahong Shi, Huahong Shi, Lei Su, Qipei Li, Chelsea M. Rochman Chelsea M. Rochman Prabhu Kolandhasamy, Huahong Shi, Huahong Shi, Jinping Peng, Huahong Shi, Huahong Shi, Huahong Shi, Chelsea M. Rochman Chelsea M. Rochman Huahong Shi, Chelsea M. Rochman Chelsea M. Rochman Chelsea M. Rochman Lei Su, Chelsea M. Rochman Chelsea M. Rochman Huahong Shi, Chelsea M. Rochman Chelsea M. Rochman Chelsea M. Rochman Chelsea M. Rochman Chelsea M. Rochman Chelsea M. Rochman Huahong Shi, Chelsea M. Rochman Chelsea M. Rochman Huahong Shi, Prabhu Kolandhasamy, Chelsea M. Rochman Chelsea M. Rochman Chelsea M. Rochman

Summary

Researchers exposed freshwater Asian clams to microfibers of different polymer types, sizes, and surface charges, finding that uptake varied substantially based on these physicochemical properties. The study highlights that standardized spherical bead models may not accurately represent how real-world microfibers interact with filter-feeding organisms.

Polymers
PE PET PS
Study Type Environmental

Microplastic is an umbrella term that covers particles with various physical and chemical properties. However, microplastics with a consistent shape, polymer type and size are generally used in exposure studies (e.g., spherical polyethylene or polystyrene beads 1-100 μm in size). In the present study, we exposed freshwater Asian clams (Corbicula fluminea) to microfibers with different physicochemical properties at concentrations of 100 and 1000 fibers/L. The first experiment in this study exposed clams to microfibers made from six different polymers, demonstrating that Asian clams uptake more polyester (PET) (4.1 items/g) relevant to other polymers. The next experiment exposed clams to PET fibers of different size classes, demonstrating that uptake in the size range 100-250 μm (1.7 items/g) was greater than other size classes. These results suggest that physicochemical properties such as polymer and size play important roles in the uptake of microfibers by organisms. Thus, we strongly suggest that the properties of microplastics used in future laboratory exposure experiments be considered, with the aim of being "environmentally relevant", i.e., similar to what is found in nature.

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