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Original research — experimental, observational, or case-control study. Direct primary evidence.
Marine & Wildlife
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Adherence of microplastics to soft tissue of mussels: A novel way to uptake microplastics beyond ingestion
The Science of The Total Environment2017
525 citations
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Citation count from OpenAlex, updated daily. May differ slightly from the publisher's own count.
Score: 60
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0–100 AI score estimating relevance to the microplastics field. Papers below 30 are filtered from public browse.
Khalida Jabeen,
Lei Su,
Jiana Li,
Lei Su,
Jiana Li,
Jiana Li,
Khalida Jabeen,
Lei Su,
Prabhu Kolandhasamy
Lei Su,
Prabhu Kolandhasamy
Jiana Li,
Prabhu Kolandhasamy
Khalida Jabeen,
Lei Su,
Khalida Jabeen,
Lei Su,
Lei Su,
Lei Su,
Lei Su,
Jiana Li,
Xiaoyun Qu,
Xiaoyun Qu,
Prabhu Kolandhasamy
Huahong Shi,
Khalida Jabeen,
Jiana Li,
Huahong Shi,
Prabhu Kolandhasamy
Khalida Jabeen,
Lei Su,
Huahong Shi,
Jiana Li,
Lei Su,
Xiaoyun Qu,
Khalida Jabeen,
Huahong Shi,
Khalida Jabeen,
Lei Su,
Lei Su,
Lei Su,
Lei Su,
Lei Su,
Lei Su,
Khalida Jabeen,
Khalida Jabeen,
Lei Su,
Lei Su,
Huahong Shi,
Huahong Shi,
Huahong Shi,
Lei Su,
Huahong Shi,
Prabhu Kolandhasamy
Jiana Li,
Xiaoyun Qu,
Khalida Jabeen,
Khalida Jabeen,
Huahong Shi,
Huahong Shi,
Huahong Shi,
Lei Su,
Khalida Jabeen,
Lei Su,
Lei Su,
Khalida Jabeen,
Lei Su,
Lei Su,
Khalida Jabeen,
Khalida Jabeen,
Prabhu Kolandhasamy
Prabhu Kolandhasamy
Huahong Shi,
Jiana Li,
Huahong Shi,
Jiana Li,
Jiana Li,
Jiana Li,
Jiana Li,
Huahong Shi,
Huahong Shi,
Huahong Shi,
Lei Su,
Lei Su,
Huahong Shi,
Khalida Jabeen,
Huahong Shi,
Huahong Shi,
Khalida Jabeen,
Lei Su,
Lei Su,
Lei Su,
Lei Su,
Jiana Li,
Huahong Shi,
Huahong Shi,
Huahong Shi,
Huahong Shi,
Huahong Shi,
Huahong Shi,
Huahong Shi,
Huahong Shi,
Huahong Shi,
Huahong Shi,
Huahong Shi,
Huahong Shi,
Khalida Jabeen,
Xiaoyun Qu,
Khalida Jabeen,
Xiaoyun Qu,
Lei Su,
Huahong Shi,
Lei Su,
Lei Su,
Lei Su,
Lei Su,
Prabhu Kolandhasamy
Jiana Li,
Prabhu Kolandhasamy
Khalida Jabeen,
Khalida Jabeen,
Khalida Jabeen,
Khalida Jabeen,
Lei Su,
Lei Su,
Prabhu Kolandhasamy
Prabhu Kolandhasamy
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,
Jiana Li,
Jiana Li,
Khalida Jabeen,
Khalida Jabeen,
Khalida Jabeen,
Khalida Jabeen,
Prabhu Kolandhasamy
Huahong Shi,
Huahong Shi,
Huahong Shi,
Huahong Shi,
Jiana Li,
Huahong Shi,
Khalida Jabeen,
Huahong Shi,
Huahong Shi,
Huahong Shi,
Jiana Li,
Prabhu Kolandhasamy
Khalida Jabeen,
Huahong Shi,
Huahong Shi,
Huahong Shi,
Jiana Li,
Prabhu Kolandhasamy
Khalida Jabeen,
Huahong Shi,
Khalida Jabeen,
Huahong Shi,
Huahong Shi,
Huahong Shi,
Huahong Shi,
Lei Su,
Prabhu Kolandhasamy
Huahong Shi,
Huahong Shi,
Huahong Shi,
Jiana Li,
Jiana Li,
Huahong Shi,
Huahong Shi,
Huahong Shi,
Huahong Shi,
Huahong Shi,
Huahong Shi,
Huahong Shi,
Huahong Shi,
Lei Su,
Huahong Shi,
Huahong Shi,
Lei Su,
Huahong Shi,
Huahong Shi,
Huahong Shi,
Huahong Shi,
Huahong Shi,
Huahong Shi,
Huahong Shi,
Huahong Shi,
Huahong Shi,
Huahong Shi,
Lei Su,
Huahong Shi,
Jiana Li,
Jiana Li,
Huahong Shi,
Jiana Li,
Huahong Shi,
Huahong Shi,
Huahong Shi,
Khalida Jabeen,
Huahong Shi,
Khalida Jabeen,
Khalida Jabeen,
Huahong Shi,
Huahong Shi,
Huahong Shi,
Huahong Shi,
Huahong Shi,
Huahong Shi,
Huahong Shi,
Huahong Shi,
Huahong Shi,
Huahong Shi,
Khalida Jabeen,
Huahong Shi,
Huahong Shi,
Huahong Shi,
Huahong Shi,
Huahong Shi,
Huahong Shi,
Lei Su,
Huahong Shi,
Huahong Shi,
Huahong Shi,
Khalida Jabeen,
Huahong Shi,
Huahong Shi,
Khalida Jabeen,
Huahong Shi,
Huahong Shi,
Prabhu Kolandhasamy
Huahong Shi,
Huahong Shi,
Jiana Li,
Huahong Shi,
Lei Su,
Huahong Shi,
Huahong Shi,
Jiana Li,
Khalida Jabeen,
Prabhu Kolandhasamy
Summary
Researchers discovered that mussels can take up microplastics not only by swallowing them but also through direct adherence to soft tissues like the foot and mantle. Field investigations found microplastics in multiple mussel organs, with the intestine containing the highest concentration by weight. The study proposes adherence as a previously unrecognized pathway for microplastic uptake in marine organisms, which could mean current exposure estimates are incomplete.
Microplastic pollution is recognized as an emerging threat to aquatic ecosystems. One of the main environmental risks associated with microplastics is their bioavailability to marine organisms. Up to date, ingestion has been widely accepted as the sole way for the animals to uptake microplastics. Nevertheless, microplastics have also been found in some organs which are not involved in the process of ingestion. We hypothesize that the animal might uptake microplastics through adherence in addition to ingestion. To test this hypothesis, we collected mussels from the fishery farms, conducted exposure/clearance experiments and analyzed the accumulation of microplastics in specific organ of mussels. Our studies clearly showed the uptake of microplastic in multiple organs of mussels. In the field investigations, we found that the abundance of microplastic by weight but not by individual showed significant difference among organs, and the intestine contained the highest level of microplastics (9.2items/g). In the uptake and clearance experiment, the accumulation and retention of microfibers could also be observed in all tested organs of mussels including foot and mantle. Our results strongly suggest that adherence rather than ingestion led to the accumulation of microplastics in those organs which are not involved in ingestion process. To our best knowledge, it is the first time to propose that adherence is a novel way for animals to uptake microplastics beyond ingestion. This new finding makes us rethink about the bioavailability, accumulation and toxicity of microplastics to aquatic animals.