Outputs (3)

Non-buoyant microplastic settling velocity varies with biofilm growth and ambient water salinity (2023)
Journal Article
Mendrik, F., Fernández, R., Hackney, C. R., Waller, C., & Parsons, D. R. (2023). Non-buoyant microplastic settling velocity varies with biofilm growth and ambient water salinity. Communications Earth & Environment, 4(1), Article 30. https://doi.org/10.1038/s43247-023-00690-z

Rivers are the major conveyor of plastics to the marine environment, but the mechanisms that impact microplastic (<5 mm) aquatic transport, and thus govern fate are largely unknown. This prevents progress in understanding microplastic dynamics and id...

On the transport mechanisms, ecological interactions and fate of microplastics in aquatic environments (2022)
Thesis
Mendrik, F. On the transport mechanisms, ecological interactions and fate of microplastics in aquatic environments. (Thesis). University of Hull. https://hull-repository.worktribe.com/output/4224632

Microplastics are now persistent throughout aquatic systems globally and can cause a range of ecological damage. The transport of microplastics is influenced by the polymer type, in addition to physical, biological, and chemical gradients plastic par... Read More about On the transport mechanisms, ecological interactions and fate of microplastics in aquatic environments.

Species-specific impact of microplastics on coral physiology (2020)
Journal Article
Mendrik, F., Henry, T., Burdett, H., Hackney, C., Waller, C., Parsons, D., & Hennige, S. (2021). Species-specific impact of microplastics on coral physiology. Environmental pollution, 269, Article 116238. https://doi.org/10.1016/j.envpol.2020.116238

There is evidence that microplastic (MP) pollution can negatively influence coral health; however, mechanisms are unknown and most studies have used MP exposure concentrations that are considerably higher than current environmental conditions. Furthe... Read More about Species-specific impact of microplastics on coral physiology.