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Environmental Sources
Marine & Wildlife
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Numerical modeling of microplastic interaction with fine sediment under estuarine conditions
Water Research2023
42 citations
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Citation count from OpenAlex, updated daily. May differ slightly from the publisher's own count.
Score: 60
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0–100 AI score estimating relevance to the microplastics field. Papers below 30 are filtered from public browse.
Gunnar Gerdts,
Maurits Halbach,
Maurits Halbach,
Gholamreza Shiravani,
Maurits Halbach,
Lisa Roscher,
Maurits Halbach,
Sarmite Kernchen,
Lisa Roscher,
Sarmite Kernchen,
Gunnar Gerdts,
Gunnar Gerdts,
Lisa Roscher,
Lisa Roscher,
Lisa Roscher,
Lisa Roscher,
Gholamreza Shiravani,
Barbara M. Scholz‐Böttcher
Gunnar Gerdts,
Gholamreza Shiravani,
Maurits Halbach,
Lisa Roscher,
Lisa Roscher,
Lisa Roscher,
Barbara M. Scholz‐Böttcher
Lisa Roscher,
Gunnar Gerdts,
Gunnar Gerdts,
Lisa Roscher,
Lisa Roscher,
Gunnar Gerdts,
Gunnar Gerdts,
Maurits Halbach,
Lisa Roscher,
D. Oberrecht,
Maurits Halbach,
Gunnar Gerdts,
Lisa Roscher,
Lisa Roscher,
Lisa Roscher,
Gunnar Gerdts,
D. Oberrecht,
Gunnar Gerdts,
Gunnar Gerdts,
Lisa Roscher,
Maurits Halbach,
Barbara M. Scholz‐Böttcher
Lisa Roscher,
Gunnar Gerdts,
Barbara M. Scholz‐Böttcher
Gunnar Gerdts,
Gunnar Gerdts,
Gunnar Gerdts,
Gunnar Gerdts,
Barbara M. Scholz‐Böttcher
Barbara M. Scholz‐Böttcher
Andreas Wurpts,
Lisa Roscher,
Gunnar Gerdts,
Barbara M. Scholz‐Böttcher
Lisa Roscher,
Barbara M. Scholz‐Böttcher
Barbara M. Scholz‐Böttcher
Barbara M. Scholz‐Böttcher
Barbara M. Scholz‐Böttcher
Gunnar Gerdts,
Gunnar Gerdts,
Barbara M. Scholz‐Böttcher
Barbara M. Scholz‐Böttcher
Barbara M. Scholz‐Böttcher
Gunnar Gerdts,
Gunnar Gerdts,
Barbara M. Scholz‐Böttcher
Gunnar Gerdts,
Gunnar Gerdts,
Barbara M. Scholz‐Böttcher
Barbara M. Scholz‐Böttcher
Lisa Roscher,
Barbara M. Scholz‐Böttcher
Gunnar Gerdts,
Gunnar Gerdts,
Gunnar Gerdts,
Gunnar Gerdts,
Gunnar Gerdts,
Gunnar Gerdts,
Gunnar Gerdts,
Gunnar Gerdts,
Gunnar Gerdts,
Gunnar Gerdts,
Gunnar Gerdts,
Gunnar Gerdts,
Gunnar Gerdts,
Gunnar Gerdts,
Gunnar Gerdts,
Barbara M. Scholz‐Böttcher
Gunnar Gerdts,
Gunnar Gerdts,
Gunnar Gerdts,
Gunnar Gerdts,
Barbara M. Scholz‐Böttcher
Gunnar Gerdts,
Sarmite Kernchen,
Gunnar Gerdts,
Gunnar Gerdts,
Gunnar Gerdts,
Gunnar Gerdts,
Gunnar Gerdts,
Maurits Halbach,
Gunnar Gerdts,
Gunnar Gerdts,
Gunnar Gerdts,
Gunnar Gerdts,
Gunnar Gerdts,
Gunnar Gerdts,
Gunnar Gerdts,
Gunnar Gerdts,
Gunnar Gerdts,
Gunnar Gerdts,
Gunnar Gerdts,
Barbara M. Scholz‐Böttcher
Gunnar Gerdts,
Barbara M. Scholz‐Böttcher
Gunnar Gerdts,
Sarmite Kernchen,
Gunnar Gerdts,
Gunnar Gerdts,
Barbara M. Scholz‐Böttcher
Gunnar Gerdts,
Gunnar Gerdts,
Gunnar Gerdts,
Barbara M. Scholz‐Böttcher
Gunnar Gerdts,
Barbara M. Scholz‐Böttcher
Barbara M. Scholz‐Böttcher
Gunnar Gerdts,
Gunnar Gerdts,
Gunnar Gerdts,
Gunnar Gerdts,
Gunnar Gerdts,
Maurits Halbach,
Gunnar Gerdts,
Gunnar Gerdts,
Andreas Wurpts,
Gunnar Gerdts,
Gholamreza Shiravani,
Gunnar Gerdts,
Gunnar Gerdts,
Gunnar Gerdts,
Lisa Roscher,
Gunnar Gerdts,
Gunnar Gerdts,
Gunnar Gerdts,
Sarmite Kernchen,
Barbara M. Scholz‐Böttcher
Gunnar Gerdts,
Gunnar Gerdts,
Barbara M. Scholz‐Böttcher
Michaela Gerriets,
Barbara M. Scholz‐Böttcher
Gunnar Gerdts,
Barbara M. Scholz‐Böttcher
Barbara M. Scholz‐Böttcher
Barbara M. Scholz‐Böttcher
Gunnar Gerdts,
Gunnar Gerdts,
Gunnar Gerdts,
Gunnar Gerdts,
Gunnar Gerdts,
Gunnar Gerdts,
Gunnar Gerdts,
Gunnar Gerdts,
Gunnar Gerdts,
Gunnar Gerdts,
Gunnar Gerdts,
Gunnar Gerdts,
Gunnar Gerdts,
Gunnar Gerdts,
Gunnar Gerdts,
Gunnar Gerdts,
Gunnar Gerdts,
Gunnar Gerdts,
Michaela Gerriets,
Michaela Gerriets,
Michaela Gerriets,
Gunnar Gerdts,
Gunnar Gerdts,
Gunnar Gerdts,
Gunnar Gerdts,
Thomas H. Badewien,
Sarmite Kernchen,
Sarmite Kernchen,
Sarmite Kernchen,
Sarmite Kernchen,
Sarmite Kernchen,
Gunnar Gerdts,
Gunnar Gerdts,
Gunnar Gerdts,
Gunnar Gerdts,
Gunnar Gerdts,
Gunnar Gerdts,
Gunnar Gerdts,
Gunnar Gerdts,
Barbara M. Scholz‐Böttcher
Gunnar Gerdts,
Andreas Wurpts,
Gunnar Gerdts,
Gunnar Gerdts,
Gunnar Gerdts,
Sarmite Kernchen,
Gunnar Gerdts,
Gunnar Gerdts,
Gunnar Gerdts,
Barbara M. Scholz‐Böttcher
Gunnar Gerdts,
Gunnar Gerdts,
Gunnar Gerdts,
Gunnar Gerdts,
Barbara M. Scholz‐Böttcher
Barbara M. Scholz‐Böttcher
Barbara M. Scholz‐Böttcher
Gholamreza Shiravani,
Gunnar Gerdts,
Andreas Wurpts,
Gunnar Gerdts,
Sarmite Kernchen,
Gunnar Gerdts,
Gunnar Gerdts,
Gunnar Gerdts,
Gunnar Gerdts,
Gunnar Gerdts,
Gunnar Gerdts,
Thomas H. Badewien,
Andreas Wurpts,
Gunnar Gerdts,
Gunnar Gerdts,
Sarmite Kernchen,
Thomas H. Badewien,
Sarmite Kernchen,
Thomas H. Badewien,
Thomas H. Badewien,
Sarmite Kernchen,
Barbara M. Scholz‐Böttcher
Gunnar Gerdts,
Barbara M. Scholz‐Böttcher
Barbara M. Scholz‐Böttcher
Gunnar Gerdts,
Gunnar Gerdts,
Barbara M. Scholz‐Böttcher
Barbara M. Scholz‐Böttcher
Gunnar Gerdts,
Gunnar Gerdts,
Barbara M. Scholz‐Böttcher
Gunnar Gerdts,
Gunnar Gerdts,
Gunnar Gerdts,
Barbara M. Scholz‐Böttcher
Barbara M. Scholz‐Böttcher
Barbara M. Scholz‐Böttcher
Barbara M. Scholz‐Böttcher
Barbara M. Scholz‐Böttcher
Barbara M. Scholz‐Böttcher
Gunnar Gerdts,
Barbara M. Scholz‐Böttcher
Summary
This study developed a numerical model to simulate how microplastics interact with fine sediment particles under estuary conditions. Researchers found that interactions with suspended sediment significantly influence where microplastics travel and accumulate in coastal waterways. The model provides a new tool for predicting microplastic transport patterns and identifying pollution hotspots in estuarine environments.
Study Type
Environmental
Microplastic (MP) pollution is an important challenge for human life which has consequently affected the natural system of other organisms. Mismanagement and also careless handling of plastics in daily life has led to an accelerating contamination of air, water and soil compartments with MP. Under estuarine conditions, interactions with suspended particulate matter (SPM) like fine sediment in the water column play an important role on the fate of MP. Further studies to better understand the corresponding transport and accumulation mechanisms are required. This paper aims at providing a new modeling approach improving the MP settling velocity formulation based on higher suspended fine sediment concentrations, as i.e. existent in estuarine turbidity zones (ETZ). The capability of the suggested approach is examined through the modeling of released MP transport in water and their interactions with fine sediment (cohesive sediment/fluid mud). The model results suggest higher concentrations of MP in ETZ, both in the water column as well as the bed sediment, which is also supported by measurements. The key process in the modeling approach is the integration of small MP particles into estuarine fine sediment aggregates. This is realized by means of a threshold sediment concentration, above which the effective MP settling velocity increasingly approaches that of the sediment aggregates. The model results are in good agreement with measured MP mass concentrations. Moreover, the model results also show that lighter small MP particles can easier escape the ETZ towards the open sea.