Article
?
AI-assigned paper type based on the abstract. Classification may not be perfect — flag errors using the feedback button.
Tier 2
?
Original research — experimental, observational, or case-control study. Direct primary evidence.
Environmental Sources
Marine & Wildlife
Remediation
Sign in to save
Preferential adsorption of Cd, Cs and Zn onto virgin polyethylene microplastic versus sediment particles
Marine Pollution Bulletin2020
47 citations
?
Citation count from OpenAlex, updated daily. May differ slightly from the publisher's own count.
Score: 35
?
0–100 AI score estimating relevance to the microplastics field. Papers below 30 are filtered from public browse.
Hugo Jacob,
Hugo Jacob,
Hugo Jacob,
Marc Besson,
Hugo Jacob,
Hugo Jacob,
Marc Besson,
François Oberhaënsli,
Peter W. Swarzenski,
Hugo Jacob,
François Oberhaënsli,
Marc Métian
Marc Métian
Peter W. Swarzenski,
Marc Besson,
Hugo Jacob,
Marc Métian
Marc Métian
Marc Métian
Marc Métian
Marc Métian
Marc Métian
Marc Métian
Angus Taylor,
Angus Taylor,
Marc Métian
Marc Métian
François Oberhaënsli,
François Oberhaënsli,
François Oberhaënsli,
François Oberhaënsli,
François Oberhaënsli,
François Oberhaënsli,
François Oberhaënsli,
François Oberhaënsli,
François Oberhaënsli,
François Oberhaënsli,
François Oberhaënsli,
Peter W. Swarzenski,
Peter W. Swarzenski,
Marc Métian
Peter W. Swarzenski,
Marc Métian
François Oberhaënsli,
François Oberhaënsli,
François Oberhaënsli,
François Oberhaënsli,
François Oberhaënsli,
François Oberhaënsli,
François Oberhaënsli,
François Oberhaënsli,
François Oberhaënsli,
Marc Besson,
Hugo Jacob,
Peter W. Swarzenski,
Marc Métian
Marc Métian
Marc Métian
Peter W. Swarzenski,
Angus Taylor,
Angus Taylor,
Angus Taylor,
Angus Taylor,
François Oberhaënsli,
François Oberhaënsli,
François Oberhaënsli,
François Oberhaënsli,
François Oberhaënsli,
François Oberhaënsli,
Marc Métian
Angus Taylor,
Marc Métian
Marc Métian
Marc Métian
Peter W. Swarzenski,
François Oberhaënsli,
Peter W. Swarzenski,
Marc Métian
Marc Métian
Marc Métian
Peter W. Swarzenski,
Marc Besson,
Marc Métian
Marc Métian
François Oberhaënsli,
Marc Métian
François Oberhaënsli,
Peter W. Swarzenski,
Marc Métian
Marc Métian
Marc Métian
François Oberhaënsli,
Marc Besson,
Marc Besson,
François Oberhaënsli,
François Oberhaënsli,
François Oberhaënsli,
François Oberhaënsli,
Marc Métian
François Oberhaënsli,
Marc Métian
François Oberhaënsli,
François Oberhaënsli,
Marc Métian
Marc Métian
Hugo Jacob,
François Oberhaënsli,
Marc Métian
François Oberhaënsli,
Marc Métian
François Oberhaënsli,
Peter W. Swarzenski,
Peter W. Swarzenski,
Marc Métian
Peter W. Swarzenski,
Peter W. Swarzenski,
Marc Métian
Marc Métian
Marc Métian
Summary
Polyethylene microplastics preferentially adsorb the heavy metals cadmium, cesium, and zinc compared to natural sediment particles. This means microplastics may act as concentrated vectors for toxic metals in marine environments, increasing exposure risks for organisms that ingest them.
Plastic pollution has become a major environmental concern worldwide, and marine ecosystems have become polluted with ubiquitous microplastic particles (MP). MP can contain chemical additives and can also scavenge pollutants from the surrounding environment, and these co-contaminants may threaten the marine biota when MP become inadvertently ingested and transferred up the food chain. However, our understanding of the sorption-desorption kinetics of chemical compounds bound to MP remains limited. Moreover, whether MP are better transport vectors of co-contaminants than other natural particles (e.g. sediment) has not received much attention. Here, we used radiotracers to examine the partition coefficients (K) of three trace metals (Cd, Cs, and Zn) to virgin MP (32-75 μm polyethylene beads) and to natural sediment particles of a similar size (35-91 μm) in seawater. After 72 h, sediment particles adsorbed 2.5% of Cd, 68.0% of Cs, and 71.0% of Zn, while MP adsorbed <0.8% of these three elements. Results highlight that under these experimental conditions, virgin polyethylene MP may not be effective transport vectors for these trace metals. Important variations in K were observed between elements, inciting for further studies to decipher how chemical characteristics, MP composition, and associated-biofilms, all interact in these biokinetic processes. These results demonstrate how radiotracers can allow us to address important knowledge gaps and broaden our understanding regarding the interactions between waterborne contaminants, naturally occurring particles and marine wildlife.