Real-time assessment of the impacts of polystyrene and silver nanoparticles on the hatching process and early-stage development of <i>Artemia</i> using a microfluidic platform

Dey, Preyojon; Bradley, Terence M.; Boymelgreen, Alicia

doi:10.1039/d4en00116h

Environ. Sci.: Nano

2024

DOI: 10.1039/d4en00116h

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Real-time assessment of the impacts of polystyrene and silver nanoparticles on the hatching process and early-stage development of Artemia using a microfluidic platform

Preyojon Dey,

Terence M. Bradley,

Alicia Boymelgreen

Abstract: Development of real-time in-situ monitoring techniques is crucial for a mechanistic understanding of the impacts of pollution on the marine environment. Here, we investigate how different nanopollutants impact the vulnerable...

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Trophic transfer and bioaccumulation of nanoplastics inCoryphaena hippurus(Mahi-mahi) and effect of depuration

Dey,

Bradley,

Boymelgreen

2024

Preprint

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Ocean plastic pollution is a global concern, exacerbated by the distinctive physiochemical characteristics of nanoplastics (NPs), making it crucial to study the impacts on marine animals. While most studies focus on the impacts of waterborne NP exposure, trophic transfer is another key transport mechanism that may also provide insight into the potential transfer of NPs to humans through the food chain. This study investigates polystyrene NP transfer toCoryphaena hippurus(mahi-mahi) larvae, a widely consumed fish and significant marine predator, during the early life stage. Using a two-step food chain,Brachionus plicatilis(rotifers) were exposed to NPs, and subsequently fed toC. hippuruslarvae, with exposure durations ranging from 24 to 96 h. Significant NP transfer was observed via the food chain, varying with exposure duration. A depuration study over 72 h, simulating environmental intermittent NP exposure, revealed substantial NP excretion but also notable retention in the larvae. Biodistribution analysis indicated that most NPs accumulated in the gut, with a significant portion remaining post-depuration and some translocating to other body parts. Despite no significant effects on body length and eye diameter during this short study period, histopathological analysis revealed intestinal tissue damage in the larvae.Graphical abstract

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Trophic transfer and bioaccumulation of nanoplastics inCoryphaena hippurus(Mahi-mahi) and effect of depuration

Dey,

Bradley,

Boymelgreen

2024

Preprint

View full text Add to dashboard Cite

show abstract

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Real-time assessment of the impacts of polystyrene and silver nanoparticles on the hatching process and early-stage development of Artemia using a microfluidic platform

Abstract: Development of real-time in-situ monitoring techniques is crucial for a mechanistic understanding of the impacts of pollution on the marine environment. Here, we investigate how different nanopollutants impact the vulnerable...

Cited by 1 publication

References 144 publications

Trophic transfer and bioaccumulation of nanoplastics inCoryphaena hippurus(Mahi-mahi) and effect of depuration

Trophic transfer and bioaccumulation of nanoplastics inCoryphaena hippurus(Mahi-mahi) and effect of depuration

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