Environmental Fate Modeling of Nanoplastics in a Salinity Gradient Using a Lab-on-a-Chip: Where Does the Nanoscale Fraction of Plastic Debris Accumulate?
Environmental Science & Technology2021
37 citations
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Score: 40
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Alice Pradel,
Alice Pradel,
Alice Pradel,
Alice Pradel,
Julien Gigault,
Julien Gigault,
Julien Gigault,
Julien Gigault,
Hind El Hadri,
Hind El Hadri,
Hind El Hadri,
Zélie Venel,
Julien Gigault,
Magalie Baudrimont,
Magalie Baudrimont,
Alice Pradel,
Alice Pradel,
Alice Pradel,
Alice Pradel,
Alice Pradel,
Zélie Venel,
Julien Gigault,
Julien Gigault,
Julien Gigault,
Julien Gigault,
Hervé Tabuteau,
Bruno Grassl
Bruno Grassl
Bruno Grassl
Bruno Grassl
Bruno Grassl
Bruno Grassl
Bruno Grassl
Bruno Grassl
Alice Pradel,
Alice Pradel,
Alice Pradel,
Magalie Baudrimont,
Zélie Venel,
Hind El Hadri,
Hind El Hadri,
Hind El Hadri,
Julien Gigault,
Zélie Venel,
Alice Pradel,
Alice Pradel,
Hind El Hadri,
Hervé Tabuteau,
Julien Gigault,
Julien Gigault,
Alice Pradel,
Julien Gigault,
Julien Gigault,
Julien Gigault,
Julien Gigault,
Magalie Baudrimont,
Julien Gigault,
Julien Gigault,
Hind El Hadri,
Bruno Grassl
Julien Gigault,
Julien Gigault,
Julien Gigault,
Julien Gigault,
Julien Gigault,
Julien Gigault,
Julien Gigault,
Julien Gigault,
Pierre‐Yves Pascal,
Julien Gigault,
Julien Gigault,
Julien Gigault,
Julien Gigault,
Hind El Hadri,
Julien Gigault,
Zélie Venel,
Zélie Venel,
Julien Gigault,
Hervé Tabuteau,
Hervé Tabuteau,
Hervé Tabuteau,
Hervé Tabuteau,
Hind El Hadri,
Bruno Grassl
Bruno Grassl
Hind El Hadri,
Pierre‐Yves Pascal,
Hind El Hadri,
Bruno Grassl
Bruno Grassl
Magalie Baudrimont,
Bruno Grassl
Magalie Baudrimont,
Bruno Grassl
Julien Gigault,
Bruno Grassl
Bruno Grassl
Bruno Grassl
Bruno Grassl
Bruno Grassl
Magalie Baudrimont,
Julien Gigault,
Bruno Grassl
Julien Gigault,
Bruno Grassl
Bruno Grassl
Magalie Baudrimont,
Julien Gigault,
Julien Gigault,
Magalie Baudrimont,
Julien Gigault,
Julien Gigault,
Bruno Grassl
Julien Gigault,
Julien Gigault,
Bruno Grassl
Julien Gigault,
Bruno Grassl
Bruno Grassl
Bruno Grassl
Magalie Baudrimont,
Bruno Grassl
Julien Gigault,
Bruno Grassl
Julien Gigault,
Julien Gigault,
Julien Gigault,
Bruno Grassl
Julien Gigault,
Julien Gigault,
Hind El Hadri,
Julien Gigault,
Julien Gigault,
Magalie Baudrimont,
Bruno Grassl
Hind El Hadri,
Julien Gigault,
Julien Gigault,
Julien Gigault,
Julien Gigault,
Julien Gigault,
Julien Gigault,
Julien Gigault,
Julien Gigault,
Julien Gigault,
Julien Gigault,
Julien Gigault,
Hind El Hadri,
Hind El Hadri,
Bruno Grassl
Magalie Baudrimont,
Julien Gigault,
Bruno Grassl
Julien Gigault,
Julien Gigault,
Julien Gigault,
Julien Gigault,
Bruno Grassl
Pierre‐Yves Pascal,
Julien Gigault,
Bruno Grassl
Bruno Grassl
Hervé Tabuteau,
Julien Gigault,
Bruno Grassl
Julien Gigault,
Julien Gigault,
Bruno Grassl
Julien Gigault,
Julien Gigault,
Julien Gigault,
Julien Gigault,
Julien Gigault,
Julien Gigault,
Magalie Baudrimont,
Bruno Grassl
Magalie Baudrimont,
Magalie Baudrimont,
Magalie Baudrimont,
Julien Gigault,
Julien Gigault,
Julien Gigault,
Julien Gigault,
Julien Gigault,
Julien Gigault,
Magalie Baudrimont,
Magalie Baudrimont,
Magalie Baudrimont,
Julien Gigault,
Magalie Baudrimont,
Magalie Baudrimont,
Julien Gigault,
Magalie Baudrimont,
Magalie Baudrimont,
Bruno Grassl
Bruno Grassl
Bruno Grassl
Summary
Researchers used a lab-on-a-chip approach to model how salinity gradients found in mangrove swamp environments influence nanoplastic flow, diffusion, and aggregation pathways, finding that salinity transitions significantly affect where the nanoscale fraction of plastic debris accumulates.
Study Type
Environmental
The aim of this study is to demonstrate how the flow and diffusion of nanoplastics through a salinity gradient (SG), as observed in mangrove swamps (MSPs), influence their aggregation pathways. These two parameters have never yet been used to evaluate the fate and behavior of colloids in the environment, since they cannot be incorporated into classical experimental setups. Land-sea continuums, such as estuaries and MSP systems, are known to be environmentally reactive interfaces that influence the colloidal distribution of pollutants. Using a microfluidic approach to reproduce the SG and its dynamics, the results show that nanoplastics arriving in a MSP are fractionated. First, a substantial fraction rapidly aggregates to reach the microscale, principally governed by an orthokinetic aggregation process and diffusiophoresis drift. These large nanoplastic aggregates eventually float near the water's surface or settle into the sediment at the bottom of the MSP, depending on their density. The second, smaller fraction remains stable and is transported toward the saline environment. This distribution results from the combined action of the spatial salt concentration gradient and orthokinetic aggregation, which is largely underestimated in the literature. Due to nanoplastics' reactive behavior, the present work demonstrates that mangrove and estuarine systems need to be better examined regarding plastic pollution.