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Modeling the Fate and Transport of Plastic Debris in Freshwaters: Review and Guidance
The handbook of environmental chemistry2017
147 citations
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Citation count from OpenAlex, updated daily. May differ slightly from the publisher's own count.
Score: 40
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0–100 AI score estimating relevance to the microplastics field. Papers below 30 are filtered from public browse.
Albert A. Koelmans,
Ellen Besseling,
Ellen Besseling,
Ellen Besseling,
Albert A. Koelmans,
Ellen Besseling,
Annemarie P. van Wezel
Albert A. Koelmans,
Albert A. Koelmans,
Albert A. Koelmans,
Merel Kooi,
Albert A. Koelmans,
Merel Kooi,
Albert A. Koelmans,
Albert A. Koelmans,
Albert A. Koelmans,
Merel Kooi,
Albert A. Koelmans,
Ellen Besseling,
Ellen Besseling,
Ellen Besseling,
Ellen Besseling,
Merel Kooi,
Albert A. Koelmans,
Merel Kooi,
Merel Kooi,
Merel Kooi,
Ellen Besseling,
Albert A. Koelmans,
Albert A. Koelmans,
Ellen Besseling,
Albert A. Koelmans,
Albert A. Koelmans,
Albert A. Koelmans,
Albert A. Koelmans,
Albert A. Koelmans,
Albert A. Koelmans,
Albert A. Koelmans,
Albert A. Koelmans,
Ellen Besseling,
Ellen Besseling,
Albert A. Koelmans,
Albert A. Koelmans,
Ellen Besseling,
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,
Annemarie P. van Wezel
Albert A. Koelmans,
Ellen Besseling,
Ellen Besseling,
Ellen Besseling,
Ellen Besseling,
Ellen Besseling,
Ellen Besseling,
Ellen Besseling,
Ellen Besseling,
Ellen Besseling,
Ellen Besseling,
Carolien Kroeze,
Carolien Kroeze,
Carolien Kroeze,
Carolien Kroeze,
Merel Kooi,
Merel Kooi,
Merel Kooi,
Merel Kooi,
Merel Kooi,
Merel Kooi,
Merel Kooi,
Albert A. Koelmans,
Merel Kooi,
Merel Kooi,
Merel Kooi,
Annemarie P. van Wezel
Albert A. Koelmans,
Albert A. Koelmans,
Albert A. Koelmans,
Albert A. Koelmans,
Annemarie P. van Wezel
Annemarie P. van Wezel
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,
Carolien Kroeze,
Carolien Kroeze,
Carolien Kroeze,
Carolien Kroeze,
Ellen Besseling,
Ellen Besseling,
Ellen Besseling,
Ellen Besseling,
Ellen Besseling,
Ellen Besseling,
Merel Kooi,
Albert A. Koelmans,
Albert A. Koelmans,
Annemarie P. van Wezel
Merel Kooi,
Carolien Kroeze,
Merel Kooi,
Carolien Kroeze,
Ellen Besseling,
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,
Carolien Kroeze,
Albert A. Koelmans,
Albert A. Koelmans,
Carolien Kroeze,
Carolien Kroeze,
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,
Annemarie P. van Wezel
Albert A. Koelmans,
Annemarie P. van Wezel
Albert A. Koelmans,
Albert A. Koelmans,
Albert A. Koelmans,
Albert A. Koelmans,
Albert A. Koelmans,
Albert A. Koelmans,
Albert A. Koelmans,
Carolien Kroeze,
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,
Carolien Kroeze,
Albert A. Koelmans,
Albert A. Koelmans,
Carolien Kroeze,
Albert A. Koelmans,
Annemarie P. van Wezel
Ellen Besseling,
Albert A. Koelmans,
Albert A. Koelmans,
Albert A. Koelmans,
Ellen Besseling,
Albert A. Koelmans,
Albert A. Koelmans,
Albert A. Koelmans,
Ellen Besseling,
Albert A. Koelmans,
Albert A. Koelmans,
Albert A. Koelmans,
Albert A. Koelmans,
Albert A. Koelmans,
Annemarie P. van Wezel
Albert A. Koelmans,
Annemarie P. van Wezel
Albert A. Koelmans,
Albert A. Koelmans,
Albert A. Koelmans,
Albert A. Koelmans,
Albert A. Koelmans,
Albert A. Koelmans,
Annemarie P. van Wezel
Annemarie P. van Wezel
Annemarie P. van Wezel
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,
Carolien Kroeze,
Albert A. Koelmans,
Albert A. Koelmans,
Annemarie P. van Wezel
Annemarie P. van Wezel
Summary
Researchers reviewed current mathematical models for tracking how plastic debris — including microplastics and nanoplastics — moves through freshwater environments, finding that while many principles from existing particle models apply, plastic's unique combination of high persistence, low density, and extreme size range makes its behavior far more varied and complex to predict.
Contamination with plastic debris has been recognized as one of today’s major environmental quality problems. Because most of the sources are land based, concerns are increasingly focused on the freshwater and terrestrial environment. Fate and transport models for plastic debris can complement information from measurements and will play an important role in the prospective risk assessment of plastic debris. We review the present knowledge with respect to fate and transport modeling of plastic debris in freshwater catchment areas, focusing especially on nano- and microplastics. Starting with a brief overview of theory and models for nonplastic particles, we discuss plastic-specific properties, processes, and existing mass-balance-, multimedia-, and spatiotemporally explicit fate models. We find that generally many theoretical and conceptual approaches from models developed earlier for other types of (low density) particles apply also to plastic debris. A unique feature of plastic debris, however, is its combination of high persistence, low density, and extremely wide size distribution, ranging from the nanometer to the >cm scale. This causes the system behavior of plastic debris to show a far wider variety than most other materials or chemicals. We provide recommendations for further development of these models and implications and guidance for how fate and transport models can be used in a framework for the tiered risk assessment of plastic debris.