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The role of turbulence in the deposition of intrinsically buoyant MPs
The Science of The Total Environment2023
19 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.
Fan Liu,
Fan Liu,
Fan Liu,
Guilherme Calabro,
Rachid Dris,
Rachid Dris,
Guilherme Calabro,
Rachid Dris,
Guilherme Calabro,
Rachid Dris,
Rachid Dris,
Guilherme Calabro,
Marziye Molazadeh,
Marziye Molazadeh,
Marziye Molazadeh,
Marziye Molazadeh,
Rachid Dris,
Rachid Dris,
Jes Vollertsen,
Rachid Dris,
Fan Liu,
Rachid Dris,
Fan Liu,
Fan Liu,
Rachid Dris,
Rachid Dris,
Rachid Dris,
Rachid Dris,
Fan Liu,
Rachid Dris,
Rachid Dris,
Rachid Dris,
Fan Liu,
Bruno Tassin
Rachid Dris,
Rachid Dris,
Rachid Dris,
Rachid Dris,
Rachid Dris,
Rachid Dris,
Rachid Dris,
Rachid Dris,
Rachid Dris,
Rachid Dris,
Rachid Dris,
Rachid Dris,
Rachid Dris,
Guilherme Calabro,
Guilherme Calabro,
Lorenzo Rovelli,
Guilherme Calabro,
Guilherme Calabro,
Bruno Tassin
Bruno Tassin
Bruno Tassin
Rachid Dris,
Rachid Dris,
Rachid Dris,
Fan Liu,
Andreas Lorke,
Fan Liu,
Fan Liu,
Fan Liu,
Rachid Dris,
Rachid Dris,
Rachid Dris,
Rachid Dris,
Fan Liu,
Jes Vollertsen,
Bruno Tassin
Jes Vollertsen,
Andreas Lorke,
Jes Vollertsen,
Bruno Tassin
Jes Vollertsen,
Bruno Tassin
Bruno Tassin
Rachid Dris,
Rachid Dris,
Fan Liu,
Bruno Tassin
Andreas Lorke,
Rachid Dris,
Rachid Dris,
Rachid Dris,
Jes Vollertsen,
Rachid Dris,
Jes Vollertsen,
Andreas Lorke,
Andreas Lorke,
Rachid Dris,
Jes Vollertsen,
Rachid Dris,
Bruno Tassin
Jes Vollertsen,
Bruno Tassin
Fan Liu,
Bruno Tassin
Bruno Tassin
Fan Liu,
Bruno Tassin
Bruno Tassin
Jes Vollertsen,
Jes Vollertsen,
Jes Vollertsen,
Jes Vollertsen,
Jes Vollertsen,
Fan Liu,
Rachid Dris,
Rachid Dris,
Rachid Dris,
Bruno Tassin
Bruno Tassin
Bruno Tassin
Bruno Tassin
Bruno Tassin
Bruno Tassin
Bruno Tassin
Bruno Tassin
Bruno Tassin
Bruno Tassin
Bruno Tassin
Jes Vollertsen,
Jes Vollertsen,
Bruno Tassin
Bruno Tassin
Bruno Tassin
Jes Vollertsen,
Bruno Tassin
Bruno Tassin
Jes Vollertsen,
Jes Vollertsen,
Jes Vollertsen,
Bruno Tassin
Jes Vollertsen,
Jes Vollertsen,
Jes Vollertsen,
Bruno Tassin
Rachid Dris,
Bruno Tassin
Jes Vollertsen,
Jes Vollertsen,
Bruno Tassin
Bruno Tassin
Bruno Tassin
Jes Vollertsen,
Jes Vollertsen,
Rachid Dris,
Fan Liu,
Jes Vollertsen,
Fan Liu,
Jes Vollertsen,
Jes Vollertsen,
Jes Vollertsen,
Jes Vollertsen,
Jes Vollertsen,
Rachid Dris,
Jes Vollertsen,
Rachid Dris,
Jes Vollertsen,
Rachid Dris,
Fan Liu,
Jes Vollertsen,
Jes Vollertsen,
Jes Vollertsen,
Jes Vollertsen,
Jes Vollertsen,
Jes Vollertsen,
Jes Vollertsen,
Jes Vollertsen,
Jes Vollertsen,
Jes Vollertsen,
Jes Vollertsen,
Jes Vollertsen,
Jes Vollertsen,
Jes Vollertsen,
Jes Vollertsen,
Jes Vollertsen,
Jes Vollertsen,
Jes Vollertsen,
Jes Vollertsen,
Fan Liu,
Fan Liu,
Fan Liu,
Fan Liu,
Fan Liu,
Rachid Dris,
Rachid Dris,
Rachid Dris,
Rachid Dris,
Rachid Dris,
Rachid Dris,
Rachid Dris,
Bruno Tassin
Bruno Tassin
Bruno Tassin
Bruno Tassin
Bruno Tassin
Bruno Tassin
Bruno Tassin
Bruno Tassin
Bruno Tassin
Bruno Tassin
Bruno Tassin
Bruno Tassin
Bruno Tassin
Lorenzo Rovelli,
Bruno Tassin
Bruno Tassin
Bruno Tassin
Jes Vollertsen,
Jes Vollertsen,
Jes Vollertsen,
Bruno Tassin
Bruno Tassin
Bruno Tassin
Jes Vollertsen,
Jes Vollertsen,
Bruno Tassin
Rachid Dris,
Fan Liu,
Rachid Dris,
Jes Vollertsen,
Lorenzo Rovelli,
Bruno Tassin
Bruno Tassin
Bruno Tassin
Rachid Dris,
Rachid Dris,
Bruno Tassin
Jes Vollertsen,
Jes Vollertsen,
Jes Vollertsen,
Jes Vollertsen,
Bruno Tassin
Bruno Tassin
Bruno Tassin
Rachid Dris,
Jes Vollertsen,
Bruno Tassin
Jes Vollertsen,
Bruno Tassin
Andreas Lorke,
Bruno Tassin
Jes Vollertsen,
Bruno Tassin
Jes Vollertsen,
Bruno Tassin
Jes Vollertsen,
Jes Vollertsen,
Bruno Tassin
Bruno Tassin
Rachid Dris,
Rachid Dris,
Bruno Tassin
Rachid Dris,
Bruno Tassin
Jes Vollertsen,
Rachid Dris,
Jes Vollertsen,
Bruno Tassin
Jes Vollertsen,
Rachid Dris,
Jes Vollertsen,
Andreas Lorke,
Jes Vollertsen,
Bruno Tassin
Jes Vollertsen,
Jes Vollertsen,
Rachid Dris,
Marziye Molazadeh,
Bruno Tassin
Jes Vollertsen,
Jes Vollertsen,
Jes Vollertsen,
Jes Vollertsen,
Jes Vollertsen,
Jes Vollertsen,
Marziye Molazadeh,
Rachid Dris,
Marziye Molazadeh,
Bruno Tassin
Fan Liu,
Jes Vollertsen,
Rachid Dris,
Jes Vollertsen,
Jes Vollertsen,
Bruno Tassin
Jes Vollertsen,
Bruno Tassin
Bruno Tassin
Bruno Tassin
Jes Vollertsen,
Bruno Tassin
Bruno Tassin
Jes Vollertsen,
Bruno Tassin
Bruno Tassin
Bruno Tassin
Bruno Tassin
Jes Vollertsen,
Jes Vollertsen,
Jes Vollertsen,
Jes Vollertsen,
Jes Vollertsen,
Bruno Tassin
Rachid Dris,
Jes Vollertsen,
Jes Vollertsen,
Bruno Tassin
Bruno Tassin
Bruno Tassin
Bruno Tassin
Jes Vollertsen,
Jes Vollertsen,
Jes Vollertsen,
Jes Vollertsen,
Jes Vollertsen,
Rachid Dris,
Bruno Tassin
Jes Vollertsen,
Rachid Dris,
Bruno Tassin
Bruno Tassin
Bruno Tassin
Bruno Tassin
Bruno Tassin
Bruno Tassin
Bruno Tassin
Bruno Tassin
Bruno Tassin
Bruno Tassin
Jes Vollertsen,
Bruno Tassin
Jes Vollertsen,
Jes Vollertsen,
Rachid Dris,
Jes Vollertsen,
Bruno Tassin
Jes Vollertsen,
Rachid Dris,
Bruno Tassin
Summary
This flume study found that turbulence causes the vertical velocity of buoyant polyethylene microplastics to vary over 4 orders of magnitude compared to their rise rate in still water, explaining how lighter-than-water particles end up deposited in river and lake sediments.
Intrinsically floating microplastics (MP) such as polyethene (PE) or polypropylene (PP) are among the most common MPs found in aquatic sediments. There must hence be mechanisms that cause lighter-than-water MPs to deposit despite them being buoyant. How these MPs end up in the sediment bed is only partly understood. This study explores how turbulence in the water can affect the vertical movement of buoyant MP and bring them in contact with the bed. The deposition of PE (995 kg m) in slow-flowing water (average flow velocities of 1.85 and 4.17 cm s) was measured by tracking them and analyzing their motion in an open, rectangular, glass-sided flume. Flow characteristics in terms of turbulent kinetic energy and shear velocity were measured by particle image velocimetry. Experiments were conducted at a water depth of 27 cm and at various hydraulic conditions created by adjusting inflow speeds and using different bed materials: medium gravel, fine gravel, medium sand, cohesive sediment, and glass. The results showed that the vertical velocity of the MPs in the turbulent flow regimes varied over 4 orders of magnitude from their predicted rising velocity in quiescent water (laminar flow). Turbulence mixing resulted in distribution throughout the water column with a substantial quantity consistently subject to downward vertical transport, which in turn increased the chance of the PE particles encountering the bed and potentially getting immobilized. This work provides a plausible explanation and further experimental validation for the concept of mixing induced transfer of MPs from the water surface to the sediments of shallow waters.