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.
Environmental Sources
Marine & Wildlife
Remediation
Sign in to save
Modelling submerged biofouled microplastics and their vertical trajectories
Biogeosciences2022
57 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.
Linda Amaral‐Zettler,
Albert A. Koelmans,
Albert A. Koelmans,
Albert A. Koelmans,
Merel Kooi,
Merel Kooi,
Reint Fischer,
Victor Onink,
Victor Onink,
Victor Onink,
Victor Onink,
Victor Onink,
Victor Onink,
Victor Onink,
Victor Onink,
Victor Onink,
Delphine Lobelle,
Delphine Lobelle,
Delphine Lobelle,
Erik van Sebille
Erik van Sebille
Erik van Sebille
Erik van Sebille
Erik van Sebille
Erik van Sebille
Erik van Sebille
Erik van Sebille
Albert A. Koelmans,
Albert A. Koelmans,
Linda Amaral‐Zettler,
Albert A. Koelmans,
Erik van Sebille
Erik van Sebille
Erik van Sebille
Erik van Sebille
Erik van Sebille
Erik van Sebille
Erik van Sebille
Erik van Sebille
Albert A. Koelmans,
Erik van Sebille
Albert A. Koelmans,
Merel Kooi,
Albert A. Koelmans,
Merel Kooi,
Merel Kooi,
Merel Kooi,
Albert A. Koelmans,
Albert A. Koelmans,
Albert A. Koelmans,
Linda Amaral‐Zettler,
Albert A. Koelmans,
Linda Amaral‐Zettler,
Merel Kooi,
Albert A. Koelmans,
Albert A. Koelmans,
Albert A. Koelmans,
Linda Amaral‐Zettler,
Albert A. Koelmans,
Albert A. Koelmans,
Albert A. Koelmans,
Albert A. Koelmans,
Albert A. Koelmans,
Reint Fischer,
Albert A. Koelmans,
Albert A. Koelmans,
Albert A. Koelmans,
Merel Kooi,
Albert A. Koelmans,
Albert A. Koelmans,
Erik van Sebille
Erik van Sebille
Erik van Sebille
Erik van Sebille
Merel Kooi,
Erik van Sebille
Erik van Sebille
Erik van Sebille
Albert A. Koelmans,
Reint Fischer,
Albert A. Koelmans,
Albert A. Koelmans,
Erik van Sebille
Albert A. Koelmans,
Albert A. Koelmans,
Albert A. Koelmans,
Albert A. Koelmans,
Erik van Sebille
Albert A. Koelmans,
Merel Kooi,
Albert A. Koelmans,
Victor Onink,
Merel Kooi,
Albert A. Koelmans,
Erik van Sebille
Linda Amaral‐Zettler,
Merel Kooi,
Albert A. Koelmans,
Delphine Lobelle,
Merel Kooi,
Delphine Lobelle,
Delphine Lobelle,
Delphine Lobelle,
Delphine Lobelle,
Merel Kooi,
Merel Kooi,
Charlotte Laufkötter,
Merel Kooi,
Erik van Sebille
Erik van Sebille
Erik van Sebille
Erik van Sebille
Erik van Sebille
Erik van Sebille
Merel Kooi,
Albert A. Koelmans,
Albert A. Koelmans,
Linda Amaral‐Zettler,
Linda Amaral‐Zettler,
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,
Merel Kooi,
Merel Kooi,
Merel Kooi,
Erik van Sebille
Erik van Sebille
Erik van Sebille
Erik van Sebille
Erik van Sebille
Erik van Sebille
Erik van Sebille
Erik van Sebille
Erik van Sebille
Erik van Sebille
Erik van Sebille
Erik van Sebille
Erik van Sebille
Erik van Sebille
Erik van Sebille
Charlotte Laufkötter,
Charlotte Laufkötter,
Charlotte Laufkötter,
Reint Fischer,
Albert A. Koelmans,
Albert A. Koelmans,
Merel Kooi,
Albert A. Koelmans,
Albert A. Koelmans,
Albert A. Koelmans,
Albert A. Koelmans,
Merel Kooi,
Merel Kooi,
Merel Kooi,
Albert A. Koelmans,
Albert A. Koelmans,
Albert A. Koelmans,
Albert A. Koelmans,
Albert A. Koelmans,
Albert A. Koelmans,
Merel Kooi,
Albert A. Koelmans,
Erik van Sebille
Erik van Sebille
Erik van Sebille
Albert A. Koelmans,
Albert A. Koelmans,
Erik van Sebille
Erik van Sebille
Albert A. Koelmans,
Albert A. Koelmans,
Erik van Sebille
Linda Amaral‐Zettler,
Erik van Sebille
Albert A. Koelmans,
Albert A. Koelmans,
Erik van Sebille
Erik van Sebille
Erik van Sebille
Albert A. Koelmans,
Albert A. Koelmans,
Linda Amaral‐Zettler,
Albert A. Koelmans,
Erik van Sebille
Erik van Sebille
Erik van Sebille
Albert A. Koelmans,
Albert A. Koelmans,
Erik van Sebille
Charlotte Laufkötter,
Charlotte Laufkötter,
Charlotte Laufkötter,
Charlotte Laufkötter,
Albert A. Koelmans,
Albert A. Koelmans,
Albert A. Koelmans,
Albert A. Koelmans,
Albert A. Koelmans,
Albert A. Koelmans,
Albert A. Koelmans,
Charlotte Laufkötter,
Charlotte Laufkötter,
Albert A. Koelmans,
Albert A. Koelmans,
Albert A. Koelmans,
Victor Onink,
Albert A. Koelmans,
Victor Onink,
Albert A. Koelmans,
Erik van Sebille
Erik van Sebille
Andrew Yool,
Albert A. Koelmans,
Erik van Sebille
Albert A. Koelmans,
Albert A. Koelmans,
Erik van Sebille
Albert A. Koelmans,
Albert A. Koelmans,
Linda Amaral‐Zettler,
Linda Amaral‐Zettler,
Erik van Sebille
Albert A. Koelmans,
Albert A. Koelmans,
Albert A. Koelmans,
Albert A. Koelmans,
Albert A. Koelmans,
Linda Amaral‐Zettler,
Albert A. Koelmans,
Albert A. Koelmans,
Albert A. Koelmans,
Victor Onink,
Erik van Sebille
Albert A. Koelmans,
Albert A. Koelmans,
Albert A. Koelmans,
Charlotte Laufkötter,
Albert A. Koelmans,
Erik van Sebille
Albert A. Koelmans,
Albert A. Koelmans,
Linda Amaral‐Zettler,
Erik van Sebille
Albert A. Koelmans,
Linda Amaral‐Zettler,
Linda Amaral‐Zettler,
Albert A. Koelmans,
Linda Amaral‐Zettler,
Charlotte Laufkötter,
Merel Kooi,
Erik van Sebille
Erik van Sebille
Albert A. Koelmans,
Linda Amaral‐Zettler,
Linda Amaral‐Zettler,
Erik van Sebille
Erik van Sebille
Albert A. Koelmans,
Albert A. Koelmans,
Albert A. Koelmans,
Albert A. Koelmans,
Erik van Sebille
Erik van Sebille
Albert A. Koelmans,
Linda Amaral‐Zettler,
Erik van Sebille
Albert A. Koelmans,
Charlotte Laufkötter,
Erik van Sebille
Erik van Sebille
Erik van Sebille
Linda Amaral‐Zettler,
Linda Amaral‐Zettler,
Linda Amaral‐Zettler,
Erik van Sebille
Andrew Yool,
Erik van Sebille
Delphine Lobelle,
Albert A. Koelmans,
Andrew Yool,
Albert A. Koelmans,
Albert A. Koelmans,
Albert A. Koelmans,
Albert A. Koelmans,
Albert A. Koelmans,
Albert A. Koelmans,
Albert A. Koelmans,
Albert A. Koelmans,
Linda Amaral‐Zettler,
Albert A. Koelmans,
Albert A. Koelmans,
Erik van Sebille
Erik van Sebille
Erik van Sebille
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,
Linda Amaral‐Zettler,
Linda Amaral‐Zettler,
Erik van Sebille
Albert A. Koelmans,
Erik van Sebille
Erik van Sebille
Delphine Lobelle,
Albert A. Koelmans,
Linda Amaral‐Zettler,
Erik van Sebille
Erik van Sebille
Summary
Using an ocean circulation model, researchers simulated the vertical trajectories of biofouled microplastic particles of different sizes across three ocean regions with distinct biological and physical properties. Larger particles (0.1 to 1.0 mm) showed rapid oscillatory sinking and resurfacing behavior with cycles under 10 days, while smaller particles oscillated over up to 130 days, explaining how biofouling drives microplastic distribution through the water column.
Study Type
Environmental
Abstract. The fate of (micro)plastic particles in the open ocean is controlled by biological and physical processes. Here, we model the effects of biofouling on the subsurface vertical distribution of spherical, virtual plastic particles with radii of 0.01–1 mm. The biological specifications include the attachment, growth and loss of algae on particles. The physical specifications include four vertical velocity terms: advection, wind-driven mixing, tidally induced mixing and the sinking velocity of the biofouled particle. We track 10 000 particles for 1 year in three different regions with distinct biological and physical properties: the low-productivity region of the North Pacific Subtropical Gyre, the high-productivity region of the equatorial Pacific and the high mixing region of the Southern Ocean. The growth of biofilm mass in the euphotic zone and loss of mass below the euphotic zone result in the oscillatory behaviour of particles, where the larger (0.1–1.0 mm) particles have much shorter average oscillation lengths (<10 d; 90th percentile) than the smaller (0.01–0.1 mm) particles (up to 130 d; 90th percentile). A subsurface maximum particle concentration occurs just below the mixed-layer depth (around 30 m) in the equatorial Pacific, which is most pronounced for larger particles (0.1–1.0 mm). This occurs because particles become neutrally buoyant when the processes affecting the settling velocity of a particle and the seawater's vertical movement are in equilibrium. Seasonal effects in the subtropical gyre result in particles sinking below the mixed-layer depth only during spring blooms but otherwise remaining within the mixed layer. The strong winds and deepest average mixed-layer depth in the Southern Ocean (400 m) result in the deepest redistribution of particles (>5000 m). Our results show that the vertical movement of particles is mainly affected by physical (wind-induced mixing) processes within the mixed-layer and biological (biofilm) dynamics below the mixed layer. Furthermore, positively buoyant particles with radii of 0.01–1.0 mm can sink far below the euphotic zone and mixed layer in regions with high near-surface mixing or high biological activity. This work can easily be coupled to other models to simulate open-ocean biofouling dynamics, in order to reach a better understanding of where ocean (micro)plastic ends up.