Article ? AI-assigned paper type based on the abstract. Classification may not be perfect — flag errors using the feedback button. Tier 2 ? Original research — experimental, observational, or case-control study. Direct primary evidence. Environmental Sources Human Health Effects Marine & Wildlife Nanoplastics Sign in to save

Exposure to nanoplastics affects the outcome of infectious disease in phytoplankton

Environmental Pollution 2021 32 citations ? Citation count from OpenAlex, updated daily. May differ slightly from the publisher's own count. Score: 50 ? 0–100 AI score estimating relevance to the microplastics field. Papers below 30 are filtered from public browse.

Miguel González-Pleiter Miguel González-Pleiter Miguel González-Pleiter Miguel González-Pleiter Miguel González-Pleiter Anderson Abel de Souza Machado, Anderson Abel de Souza Machado, Anderson Abel de Souza Machado, Miguel González-Pleiter Anderson Abel de Souza Machado, Anderson Abel de Souza Machado, Anderson Abel de Souza Machado, Miguel González-Pleiter Charlotte Schampera, Roberto Rosal, Miguel González-Pleiter Miguel González-Pleiter Miguel González-Pleiter Miguel González-Pleiter Miguel González-Pleiter Anderson Abel de Souza Machado, Ramsy Agha, Roberto Rosal, Miguel González-Pleiter Miguel González-Pleiter Wolinska, Justyna, Miguel González-Pleiter Miguel González-Pleiter Wolinska, Justyna, Wolinska, Justyna, Wolinska, Justyna, Wolinska, Justyna, Wolinska, Justyna, Wolinska, Justyna, Wolinska, Justyna, Miguel González-Pleiter Miguel González-Pleiter Miguel González-Pleiter Miguel González-Pleiter Miguel González-Pleiter Miguel González-Pleiter Miguel González-Pleiter Miguel González-Pleiter Miguel González-Pleiter Miguel González-Pleiter Miguel González-Pleiter Roberto Rosal, Roberto Rosal, Roberto Rosal, Roberto Rosal, Roberto Rosal, Roberto Rosal, Ramsy Agha, Ramsy Agha, Ramsy Agha, Anderson Abel de Souza Machado, Anderson Abel de Souza Machado, Julien Bachelier, Roberto Rosal, Wolinska, Justyna, Wolinska, Justyna, Roberto Rosal, Wolinska, Justyna, Roberto Rosal, Roberto Rosal, Miguel González-Pleiter Roberto Rosal, Roberto Rosal, Wolinska, Justyna, Wolinska, Justyna, Miguel González-Pleiter Miguel González-Pleiter Miguel González-Pleiter Miguel González-Pleiter Anderson Abel de Souza Machado, Roberto Rosal, Miguel González-Pleiter Miguel González-Pleiter Miguel González-Pleiter Miguel González-Pleiter Miguel González-Pleiter Roberto Rosal, Roberto Rosal, Roberto Rosal, Roberto Rosal, Julien Bachelier, Roberto Rosal, Miguel González-Pleiter Wolinska, Justyna, Charlotte Schampera, Wolinska, Justyna, Charlotte Schampera, Charlotte Schampera, Miguel González-Pleiter Miguel González-Pleiter Wolinska, Justyna, Miguel González-Pleiter Miguel González-Pleiter Miguel González-Pleiter Miguel González-Pleiter Roberto Rosal, Roberto Rosal, Roberto Rosal, Wolinska, Justyna, Wolinska, Justyna, Roberto Rosal, Miguel González-Pleiter Roberto Rosal, Wolinska, Justyna, Roberto Rosal, Roberto Rosal, Roberto Rosal, Roberto Rosal, Roberto Rosal, Roberto Rosal, Roberto Rosal, Roberto Rosal, Roberto Rosal, Roberto Rosal, Roberto Rosal, Roberto Rosal, Roberto Rosal, Roberto Rosal, Roberto Rosal, Roberto Rosal, Miguel González-Pleiter Wolinska, Justyna, Roberto Rosal, Roberto Rosal, Ramsy Agha, Miguel González-Pleiter Roberto Rosal, Wolinska, Justyna, Miguel González-Pleiter Miguel González-Pleiter Miguel González-Pleiter Miguel González-Pleiter Roberto Rosal, Roberto Rosal, Miguel González-Pleiter Miguel González-Pleiter Miguel González-Pleiter Miguel González-Pleiter Roberto Rosal, Roberto Rosal, Roberto Rosal, Roberto Rosal, Roberto Rosal, Roberto Rosal, Roberto Rosal, Roberto Rosal, Roberto Rosal, Roberto Rosal, Miguel González-Pleiter

Summary

Researchers exposed a cyanobacterium-fungal parasite system to polystyrene nanoplastics and found that at high concentrations, NPs formed heteroaggregates with phytoplankton cells, altered host-parasite dynamics, and disrupted disease outcomes in an ecologically relevant model.

Polymers

Infectious diseases of humans and wildlife are increasing globally but the contribution of novel artificial anthropogenic entities such as nano-sized plastics to disease dynamics remains unknown. Despite mounting evidence for the adverse effects of nanoplastics (NPs) on single organisms, it is unclear whether and how they affect the interaction between species and thereby lead to ecological harm. In order to incorporate the impact of NP pollution into host-parasite-environment interactions captured in the "disease triangle", we evaluated disease outcomes in the presence of polystyrene NP using an ecologically-relevant host-parasite system consisting of a common planktonic cyanobacterium and its fungal parasite. NP at high concentrations formed hetero-aggregates with phytoplankton and inhibited their growth. This coincided with a significant reduction in infection prevalence, highlighting the close interdependency of host and parasite fitness. Lower intensity of infection in the presence of NP indicates that reduced disease transmission results from the parasite's diminished ability to establish new infections as NP formed aggregates around phytoplankton cells. We propose that NP aggregation on the host's surface acts as a physical barrier to infection and, by reducing host light harvesting, may also hamper parasite chemotaxis. These results demonstrate that the consequences of NP pollution go well beyond toxic effects at the individual level and modulate the intensity of species interactions, thereby potentially eliciting diverse cascading effects on ecosystem functioning.

Read via DOI PubMed Download PDF

Share this paper

Post Share Share Pin Email