13C-labeled nanoplastic model materials: Synthesis and evaluation of their use in ecotoxicology through bioaccumulation studies in aquatic crustaceans
Journal of Hazardous Materials2025
2 citations
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Roxane Danquigny,
Stéphanie Reynaud
Stéphanie Reynaud
Roxane Danquigny,
Roxane Danquigny,
Roxane Danquigny,
Roxane Danquigny,
Roxane Danquigny,
Roxane Danquigny,
Roxane Danquigny,
Roxane Danquigny,
Roxane Danquigny,
Roxane Danquigny,
Roxane Danquigny,
Marc Métian,
Marc Métian,
Marc Métian,
Marc Métian,
Marc Métian,
Bruno Grassl,
Bruno Grassl,
Bruno Grassl,
Bruno Grassl,
François Oberhaënsli,
Stéphanie Reynaud
François Oberhaënsli,
Marc Métian,
Bruno Grassl,
Bruno Grassl,
Marc Métian,
Marc Métian,
Bruno Grassl,
Bruno Grassl,
Marc Métian,
Marc Métian,
Marc Métian,
François Oberhaënsli,
Marc Métian,
Bruno Grassl,
Khalil Sdiri,
Marc Métian,
Khalil Sdiri,
Khalil Sdiri,
Stéphanie Reynaud
François Oberhaënsli,
François Oberhaënsli,
François Oberhaënsli,
François Oberhaënsli,
François Oberhaënsli,
François Oberhaënsli,
François Oberhaënsli,
François Oberhaënsli,
François Oberhaënsli,
François Oberhaënsli,
Javier Jiménez-Lamana,
Javier Jiménez-Lamana,
Séverine Le Faucheur,
Séverine Le Faucheur,
Séverine Le Faucheur,
Séverine Le Faucheur,
François Oberhaënsli,
François Oberhaënsli,
François Oberhaënsli,
François Oberhaënsli,
François Oberhaënsli,
François Oberhaënsli,
François Oberhaënsli,
François Oberhaënsli,
François Oberhaënsli,
François Oberhaënsli,
Marc Métian,
Stéphanie Reynaud
Javier Jiménez-Lamana,
Bruno Grassl,
Stéphanie Reynaud
Stéphanie Reynaud
Stéphanie Reynaud
Stéphanie Reynaud
Stéphanie Reynaud
Bruno Grassl,
François Oberhaënsli,
Marc Métian,
Bruno Grassl,
Marc Métian,
Bruno Grassl,
Bruno Grassl,
François Oberhaënsli,
François Oberhaënsli,
Bruno Grassl,
Séverine Le Faucheur,
François Oberhaënsli,
Stéphanie Reynaud
François Oberhaënsli,
Marc Métian,
Bruno Grassl,
Bruno Grassl,
Bruno Grassl,
Bruno Grassl,
Bruno Grassl,
Bruno Grassl,
Stéphanie Reynaud
Stéphanie Reynaud
Marc Métian,
Marc Métian,
Stéphanie Reynaud
Stéphanie Reynaud
Stéphanie Reynaud
Marc Métian,
Marc Métian,
François Oberhaënsli,
Marc Métian,
Marc Métian,
Marc Métian,
Marc Métian,
Marc Métian,
François Oberhaënsli,
Séverine Le Faucheur,
Bruno Grassl,
Bruno Grassl,
Bruno Grassl,
Bruno Grassl,
Bruno Grassl,
Bruno Grassl,
Bruno Grassl,
Bruno Grassl,
Marc Métian,
Bruno Grassl,
François Oberhaënsli,
Bruno Grassl,
Bruno Grassl,
Stéphanie Reynaud
François Oberhaënsli,
François Oberhaënsli,
Stéphanie Reynaud
Stéphanie Reynaud
Stéphanie Reynaud
François Oberhaënsli,
Stéphanie Reynaud
Marc Métian,
Marc Métian,
Stéphanie Reynaud
François Oberhaënsli,
Khalil Sdiri,
Stéphanie Reynaud
Marc Métian,
François Oberhaënsli,
François Oberhaënsli,
François Oberhaënsli,
François Oberhaënsli,
Bruno Grassl,
François Oberhaënsli,
Erik Bonjour,
Erik Bonjour,
Stéphanie Reynaud
Marc Métian,
Marc Métian,
Khalil Sdiri,
Stéphanie Reynaud
Marc Métian,
François Oberhaënsli,
Marc Métian,
Bruno Grassl,
Bruno Grassl,
Marc Métian,
Bruno Grassl,
Bruno Grassl,
Bruno Grassl,
Karin Mattsson,
Karin Mattsson,
Bruno Grassl,
Marc Métian,
François Oberhaënsli,
Stéphanie Reynaud
Stéphanie Reynaud
Patrick Jame,
Patrick Jame,
Marc Métian,
Anthony Anchisi,
Anthony Anchisi,
Stéphanie Reynaud
Bruno Grassl,
Erik Bonjour,
Karin Mattsson,
Erik Bonjour,
Erik Bonjour,
Stéphanie Reynaud
Marc Métian,
Marc Métian,
Erik Bonjour,
Stéphanie Reynaud
Stéphanie Reynaud
Stéphanie Reynaud
Stéphanie Reynaud
Stéphanie Reynaud
Bruno Grassl,
Bruno Grassl,
Bruno Grassl,
Stéphanie Reynaud
Stéphanie Reynaud
Stéphanie Reynaud
Summary
Researchers developed carbon-13 labeled nanoplastic particles as a new tool for accurately tracking and measuring nanoplastics in living organisms. By combining stable isotope labeling with mass spectrometry, they could detect nanoplastics in complex biological samples like brine shrimp without the extensive sample preparation that current methods require. The approach provides a more reliable way to study how nanoplastics accumulate in aquatic food chains.
Considerable advances have been made recently to quantify nanoplastics in the environment but their analyses in complex matrices such as biota remain a challenge. Here, we present a novel labeling strategy for quantifying nanoplastics in complex matrices, without interferences or extensive sample preparation (Limit Of Detection ranging from 2 and 50 mg kg in Artemia sp.). The approach is based on the use of stable isotopes combined with elemental analysis - isotope ratio mass spectrometry (EA-IRMS), as a way to minimize any labeling effects onto the nanoplastic composition and properties, while enabling accurate quantification in complex organic. This quantification method was compared to pyrolysis coupled with gas chromatography and mass spectrometry (Py-GC/MS) to quantify C-labeling nanoplastics in relevant matrices. C-labeled nanoplastic model materials, with 214 ± 2 nm diameter, were synthesized without additives (including surfactants). Aquatic crustaceans (Artemia sp.) were exposed to these nanoplastics at different concentrations including environmentally realistic ones. The nanoplastic accumulation was related to the exposure time and concentration (ranging from 0.001 to 7 mg kg), with a tendency for higher accumulation in females. The depuration kinetics showed the elimination of more than 50 % of the nanoplastics within the first few hours, and levels below the detection limit after 4 days of depuration.