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Tier 2
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Original research — experimental, observational, or case-control study. Direct primary evidence.
Gut & Microbiome
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Size-dependent transfer of microplastics across the intestinal wall of the echinoid Paracentrotus lividus
Aquatic Toxicology2022
16 citations
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Citation count from OpenAlex, updated daily. May differ slightly from the publisher's own count.
Score: 45
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0–100 AI score estimating relevance to the microplastics field. Papers below 30 are filtered from public browse.
Marine Pyl,
Marine Pyl,
Marine Pyl,
Marine Pyl,
Marc Besson,
Marine Pyl,
Bruno Danis,
Marine Pyl,
Marine Pyl,
Marc Métian
Peter W. Swarzenski,
Marc Besson,
Bruno Danis,
Marc Besson,
Angus Taylor,
Marc Métian
Marc Métian
Marc Métian
Marc Métian
Marc Métian
Marc Métian
Peter W. Swarzenski,
Marc Métian
Angus Taylor,
Marc Métian
Marc Métian
Marc Métian
Peter W. Swarzenski,
François Oberhänsli,
François Oberhänsli,
François Oberhänsli,
François Oberhänsli,
François Oberhänsli,
Marc Métian
Marc Métian
Peter W. Swarzenski,
Bruno Danis,
Peter W. Swarzenski,
François Oberhänsli,
François Oberhänsli,
François Oberhänsli,
François Oberhänsli,
François Oberhänsli,
Peter W. Swarzenski,
François Oberhänsli,
François Oberhänsli,
Angus Taylor,
Angus Taylor,
Angus Taylor,
François Oberhänsli,
François Oberhänsli,
François Oberhänsli,
Angus Taylor,
Marc Besson,
Marc Métian
Marc Métian
Marc Métian
Peter W. Swarzenski,
François Oberhänsli,
Leila Hussamy,
Peter W. Swarzenski,
Marc Métian
Marc Métian
Marc Métian
Marc Métian
Marc Métian
Marc Métian
Peter W. Swarzenski,
Marc Métian
Peter W. Swarzenski,
Marc Métian
Marc Métian
Marc Métian
Angus Taylor,
Bruno Danis,
Bruno Danis,
Bruno Danis,
Marc Besson,
Leila Hussamy,
Peter W. Swarzenski,
Bruno Danis,
Bruno Danis,
Bruno Danis,
Marc Besson,
Marc Besson,
Marc Métian
Marc Métian
Marc Métian
Marc Métian
Bruno Danis,
Marc Métian
Marc Métian
Marc Métian
Marc Métian
Peter W. Swarzenski,
Marc Métian
Marc Métian
Peter W. Swarzenski,
François Oberhänsli,
François Oberhänsli,
Peter W. Swarzenski,
Marc Métian
Peter W. Swarzenski,
Marc Métian
Marc Métian
Summary
Researchers examined microplastic contamination in drinking water sources across multiple regions, detecting particles in both treated and untreated water samples. The findings highlight the need for improved filtration and monitoring standards for potable water.
The fate and toxicity of ingested marine microplastics (MPs) have been of major concern in aquatic ecotoxicology for the last decade. Although their ingestion by a wide range of marine organisms has been proven, the uptake of MPs within organs is not yet fully understood and relies on the ability of ingested microplastics to transfer from the gut to tissues beyond the digestive wall (i.e., translocation). The present study investigates the in vitro transfer of fluorescent high-density polyethylene particles of different sizes classes (1-5 µm; 10-29 µm; 38-45 µm) across the intestinal wall of the sea urchin Paracentrotus lividus using Ussing chambers. Small microplastics (1-5 µm) were proven to be able to cross the intestinal wall of P. lividus and reach the coelomic fluid, while larger microplastics (≥ 10 µm) were not observed to cross the intestinal wall. Results demonstrate a size-dependent passage of polyethylene microparticles across the intestinal walls of P. lividus for the first time, highlighting the suitability of Ussing chamber systems to study the transfer of MPs across the intestinal wall of animals.