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 Paci...
© 2018 Elsevier B.V. The Floc Size Distributions (FSDs) of biomineral suspended particles are of gre...
Most studies on buoyant microplastics in the marine environment rely on sea surface sampling. Conseq...
Floating plastic debris is an increasing source of pollution in the world's oceans. Numerical simula...
The fate of (micro)plastic particles in the open ocean is controlled by biological and physical proc...
The fate of (micro)plastic particles in the open ocean is controlled by biological and physical proc...
The fate of (micro)plastic particles in the open ocean is controlled by physical and biological proc...
Recent studies suggest size-selective removal of small plastic particles from the ocean surface, an ...
Microplastic debris ending up at the sea surface has become a known major environmental issue. Howev...
Recent studies suggest size-selective removal of small plastic particles from the ocean surface, an ...
Buoyant microplastic in the ocean can be submerged to deeper layers through biofouling and the conse...
When microplastic ends up at the ocean surface, it can get rapidly colonized by microscopic organism...
The Mediterranean is considered a hot-spot for plastic pollution, due to its semi- enclosed nature a...
Sinking of microplastics (MPs) after biofouling is considered an important mechanisms responsible fo...
Degraded plastic debris has been found in nearly all waters within and nearby urban developments as ...
© 2018 Elsevier B.V. The Floc Size Distributions (FSDs) of biomineral suspended particles are of gre...
Most studies on buoyant microplastics in the marine environment rely on sea surface sampling. Conseq...
Floating plastic debris is an increasing source of pollution in the world's oceans. Numerical simula...
The fate of (micro)plastic particles in the open ocean is controlled by biological and physical proc...
The fate of (micro)plastic particles in the open ocean is controlled by biological and physical proc...
The fate of (micro)plastic particles in the open ocean is controlled by physical and biological proc...
Recent studies suggest size-selective removal of small plastic particles from the ocean surface, an ...
Microplastic debris ending up at the sea surface has become a known major environmental issue. Howev...
Recent studies suggest size-selective removal of small plastic particles from the ocean surface, an ...
Buoyant microplastic in the ocean can be submerged to deeper layers through biofouling and the conse...
When microplastic ends up at the ocean surface, it can get rapidly colonized by microscopic organism...
The Mediterranean is considered a hot-spot for plastic pollution, due to its semi- enclosed nature a...
Sinking of microplastics (MPs) after biofouling is considered an important mechanisms responsible fo...
Degraded plastic debris has been found in nearly all waters within and nearby urban developments as ...
© 2018 Elsevier B.V. The Floc Size Distributions (FSDs) of biomineral suspended particles are of gre...
Most studies on buoyant microplastics in the marine environment rely on sea surface sampling. Conseq...
Floating plastic debris is an increasing source of pollution in the world's oceans. Numerical simula...