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.
Marine & Wildlife
Sign in to save
The effect of particle properties on the depth profile of buoyant plastics in the ocean
Scientific Reports2016
277 citations
?
Citation count from OpenAlex, updated daily. May differ slightly from the publisher's own count.
Score: 45
?
0–100 AI score estimating relevance to the microplastics field. Papers below 30 are filtered from public browse.
Albert A. Koelmans,
Albert A. Koelmans,
Albert A. Koelmans,
Albert A. Koelmans,
Albert A. Koelmans,
Albert A. Koelmans,
Albert A. Koelmans,
Albert A. Koelmans,
Albert A. Koelmans,
Albert A. Koelmans,
Albert A. Koelmans,
Merel Kooi,
Albert A. Koelmans,
Albert A. Koelmans,
Albert A. Koelmans,
Rosanna I. Schoeneich-Argent,
Albert A. Koelmans,
Merel Kooi,
Rosanna I. Schoeneich-Argent,
Merel Kooi,
Albert A. Koelmans,
Merel Kooi,
Serena Cunsolo,
Merel Kooi,
Júlia Reisser
Júlia Reisser
Albert A. Koelmans,
Júlia Reisser
Júlia Reisser
Albert A. Koelmans,
Merel Kooi,
Albert A. Koelmans,
Albert A. Koelmans,
Merel Kooi,
Albert A. Koelmans,
Albert A. Koelmans,
Albert A. Koelmans,
Albert A. Koelmans,
Albert A. Koelmans,
Júlia Reisser
Albert A. Koelmans,
Albert A. Koelmans,
Merel Kooi,
Albert A. Koelmans,
Albert A. Koelmans,
Merel Kooi,
Boyan Slat,
Merel Kooi,
Merel Kooi,
Albert A. Koelmans,
Merel Kooi,
Albert A. Koelmans,
Albert A. Koelmans,
Merel Kooi,
Albert A. Koelmans,
Merel Kooi,
Boyan Slat,
Merel Kooi,
Albert A. Koelmans,
Boyan Slat,
Júlia Reisser
Merel Kooi,
Albert A. Koelmans,
Boyan Slat,
Albert A. Koelmans,
Merel Kooi,
Albert A. Koelmans,
Merel Kooi,
Albert A. Koelmans,
Merel Kooi,
Albert A. Koelmans,
Albert A. Koelmans,
Albert A. Koelmans,
Albert A. Koelmans,
Albert A. Koelmans,
Merel Kooi,
Albert A. Koelmans,
Albert A. Koelmans,
Merel Kooi,
Albert A. Koelmans,
Albert A. Koelmans,
Boyan Slat,
Boyan Slat,
Boyan Slat,
Boyan Slat,
Boyan Slat,
Boyan Slat,
Francesco F. Ferrari,
Júlia Reisser
Júlia Reisser
Júlia Reisser
Merel Kooi,
Albert A. Koelmans,
Albert A. Koelmans,
Albert A. Koelmans,
Albert A. Koelmans,
Albert A. Koelmans,
Albert A. Koelmans,
Albert A. Koelmans,
Albert A. Koelmans,
Albert A. Koelmans,
Albert A. Koelmans,
Albert A. Koelmans,
Merel Kooi,
Albert A. Koelmans,
Albert A. Koelmans,
Albert A. Koelmans,
Albert A. Koelmans,
Albert A. Koelmans,
Albert A. Koelmans,
Albert A. Koelmans,
Albert A. Koelmans,
Albert A. Koelmans,
Merel Kooi,
Merel Kooi,
Albert A. Koelmans,
Albert A. Koelmans,
Albert A. Koelmans,
Albert A. Koelmans,
Albert A. Koelmans,
Albert A. Koelmans,
Albert A. Koelmans,
Albert A. Koelmans,
Albert A. Koelmans,
Albert A. Koelmans,
Albert A. Koelmans,
Albert A. Koelmans,
Albert A. Koelmans,
Albert A. Koelmans,
Albert A. Koelmans,
Albert A. Koelmans,
Albert A. Koelmans,
Albert A. Koelmans,
Albert A. Koelmans,
Albert A. Koelmans,
Albert A. Koelmans,
Albert A. Koelmans,
Albert A. Koelmans,
Albert A. Koelmans,
Albert A. Koelmans,
Albert A. Koelmans,
Albert A. Koelmans,
Albert A. Koelmans,
Albert A. Koelmans,
Albert A. Koelmans,
Albert A. Koelmans,
Albert A. Koelmans,
Albert A. Koelmans,
Albert A. Koelmans,
Albert A. Koelmans,
Merel Kooi,
Merel Kooi,
Merel Kooi,
Merel Kooi,
Merel Kooi,
Júlia Reisser
Júlia Reisser
Francesco F. Ferrari,
Francesco F. Ferrari,
Boyan Slat,
Boyan Slat,
Albert A. Koelmans,
Albert A. Koelmans,
Albert A. Koelmans,
Albert A. Koelmans,
Albert A. Koelmans,
Albert A. Koelmans,
Albert A. Koelmans,
Albert A. Koelmans,
Albert A. Koelmans,
Francesco F. Ferrari,
Moritz S. Schmid,
Albert A. Koelmans,
Albert A. Koelmans,
Albert A. Koelmans,
Albert A. Koelmans,
Albert A. Koelmans,
Albert A. Koelmans,
Albert A. Koelmans,
Júlia Reisser
Albert A. Koelmans,
Albert A. Koelmans,
Albert A. Koelmans,
Albert A. Koelmans,
Albert A. Koelmans,
Merel Kooi,
Albert A. Koelmans,
Serena Cunsolo,
Francesco F. Ferrari,
Albert A. Koelmans,
Albert A. Koelmans,
Júlia Reisser
Albert A. Koelmans,
Roberto Brambini,
Albert A. Koelmans,
Albert A. Koelmans,
Albert A. Koelmans,
Roberto Brambini,
Albert A. Koelmans,
Albert A. Koelmans,
Albert A. Koelmans,
Albert A. Koelmans,
Boyan Slat,
Albert A. Koelmans,
Kimberly Noble,
Boyan Slat,
Albert A. Koelmans,
Albert A. Koelmans,
Serena Cunsolo,
Albert A. Koelmans,
Albert A. Koelmans,
Boyan Slat,
Albert A. Koelmans,
Boyan Slat,
Kimberly Noble,
Albert A. Koelmans,
Albert A. Koelmans,
Júlia Reisser
Albert A. Koelmans,
Lys-Anne Sirks,
Albert A. Koelmans,
Albert A. Koelmans,
Lys-Anne Sirks,
Theo Linders,
Albert A. Koelmans,
Albert A. Koelmans,
Albert A. Koelmans,
Rosanna I. Schoeneich-Argent,
Albert A. Koelmans,
Albert A. Koelmans,
Rosanna I. Schoeneich-Argent,
Albert A. Koelmans,
Boyan Slat,
Merel Kooi,
Boyan Slat,
Albert A. Koelmans,
Merel Kooi,
Rosanna I. Schoeneich-Argent,
Rosanna I. Schoeneich-Argent,
Roberto Brambini,
Roberto Brambini,
Albert A. Koelmans,
Júlia Reisser
Albert A. Koelmans,
Júlia Reisser
Summary
Using sampling at multiple depths from 0 to 5 meters in the North Atlantic subtropical gyre, researchers measured how turbulent mixing redistributes buoyant microplastics below the ocean surface. The results show that surface net sampling alone significantly underestimates total microplastic concentrations, particularly in windy conditions.
Study Type
Environmental
Most studies on buoyant microplastics in the marine environment rely on sea surface sampling. Consequently, microplastic amounts can be underestimated, as turbulence leads to vertical mixing. Models that correct for vertical mixing are based on limited data. In this study we report measurements of the depth profile of buoyant microplastics in the North Atlantic subtropical gyre, from 0 to 5 m depth. Microplastics were separated into size classes (0.5-1.5 and 1.5-5.0 mm) and types ('fragments' and 'lines'), and associated with a sea state. Microplastic concentrations decreased exponentially with depth, with both sea state and particle properties affecting the steepness of the decrease. Concentrations approached zero within 5 m depth, indicating that most buoyant microplastics are present on or near the surface. Plastic rise velocities were also measured, and were found to differ significantly for different sizes and shapes. Our results suggest that (1) surface samplers such as manta trawls underestimate total buoyant microplastic amounts by a factor of 1.04-30.0 and (2) estimations of depth-integrated buoyant plastic concentrations should be done across different particle sizes and types. Our findings can assist with improving buoyant ocean plastic vertical mixing models, mass balance exercises, impact assessments and mitigation strategies.