Add to ORKGThe effect of vertical turbulent mixing on the dynamics of Persistent Organic Pollutants has long been overlooked and its role is still hardly understood. Here we present the first comprehensive analysis of the role of turbulent diffusion on the distribution of those contaminants and its interplay with sinking fluxes. To this end, a 1D dynamic coupled hydrodynamic-contaminant model has been developed and applied to a Mediterranean continental shelf environment. The hydrodynamic sub-model is adapted from COHERENS, the contaminant sub-model is an improvement from the BIODEP model and considers the contaminant in 3 states: dissolved-colloidal-particulate. The simulation highlights the role of the turbulent processes in determining the POP dist...
The dynamics of persistent organic pollutants in the oceans are not well constrained, in particular ...
Estuaries are extensive habitats that are vulnerable to rising sea levels; a detailed understanding ...
The fate of persistent organic pollutants (POPs) in riverine environments is strongly influenced by ...
Using the North Sea as a case scenario, a combined three-dimensional hydrodynamic-biogeochemical-pol...
Vertical distribution processes of sediment contaminants in water were studied by flume experiments....
A simple approach is presented to model the effect that turbulence has on the sedimentation loss of ...
Floating plastic litter in the marine environment is not just passively transported by wind and surf...
In this paper, we develop and validate a rigorous modeling framework, based on Duhamel’s Theorem, fo...
In this paper, we develop and validate a rigorous modeling framework, based on Duhamel\u27s Theorem,...
In many water quality models production of dissolved organic carbon (DOC) is modelled as mineralisat...
Floating plastic litter in the marine environment is hardly found as clean fragments, rather it is o...
We develop and test a modeling approach to quantify turbulence-driven solute transport and mixing in...
The paper describes the problem and specifies the key sources of marine pollution. A mathematical mo...
Plastic pollution is widespread in the global oceans, but at the same time several other types ofhyd...
The dynamics of persistent organic pollutants in the oceans are not well constrained, in particular ...
Estuaries are extensive habitats that are vulnerable to rising sea levels; a detailed understanding ...
The fate of persistent organic pollutants (POPs) in riverine environments is strongly influenced by ...
Using the North Sea as a case scenario, a combined three-dimensional hydrodynamic-biogeochemical-pol...
Vertical distribution processes of sediment contaminants in water were studied by flume experiments....
A simple approach is presented to model the effect that turbulence has on the sedimentation loss of ...
Floating plastic litter in the marine environment is not just passively transported by wind and surf...
In this paper, we develop and validate a rigorous modeling framework, based on Duhamel’s Theorem, fo...
In this paper, we develop and validate a rigorous modeling framework, based on Duhamel\u27s Theorem,...
In many water quality models production of dissolved organic carbon (DOC) is modelled as mineralisat...
Floating plastic litter in the marine environment is hardly found as clean fragments, rather it is o...
We develop and test a modeling approach to quantify turbulence-driven solute transport and mixing in...
The paper describes the problem and specifies the key sources of marine pollution. A mathematical mo...
Plastic pollution is widespread in the global oceans, but at the same time several other types ofhyd...
The dynamics of persistent organic pollutants in the oceans are not well constrained, in particular ...
Estuaries are extensive habitats that are vulnerable to rising sea levels; a detailed understanding ...
The fate of persistent organic pollutants (POPs) in riverine environments is strongly influenced by ...