Meta Analysis ? AI-assigned paper type based on the abstract. Classification may not be perfect — flag errors using the feedback button. Tier 1 ? Systematic review or meta-analysis. Synthesizes findings across many studies. Strongest evidence. Human Health Effects Marine & Wildlife Sign in to save

Ecological implications beyond the ecotoxicity of plastic debris on marine phytoplankton assemblage structure and functioning

Environmental Pollution 2021 58 citations ? Citation count from OpenAlex, updated daily. May differ slightly from the publisher's own count. Score: 65 ? 0–100 AI score estimating relevance to the microplastics field. Papers below 30 are filtered from public browse.

Alice Sbrana, Silvia Casabianca, Silvia Casabianca, Silvia Casabianca, Ilaria Corsi Ilaria Corsi Arianna Bellingeri, Arianna Bellingeri, Arianna Bellingeri, Alice Sbrana, Alice Sbrana, Ilaria Corsi Alice Sbrana, Ilaria Corsi Ilaria Corsi Ilaria Corsi Alice Sbrana, Alice Sbrana, Ilaria Corsi Arianna Bellingeri, Ilaria Corsi Arianna Bellingeri, Arianna Bellingeri, Ilaria Corsi Ilaria Corsi Samuela Capellacci, Samuela Capellacci, Silvia Casabianca, Alice Sbrana, Alice Sbrana, Ilaria Corsi Ilaria Corsi Ilaria Corsi Ilaria Corsi Samuela Capellacci, Ilaria Corsi Ilaria Corsi Arianna Bellingeri, Ilaria Corsi Samuela Capellacci, Alice Sbrana, Arianna Bellingeri, Ilaria Corsi Ilaria Corsi Ilaria Corsi Arianna Bellingeri, Alice Sbrana, Ilaria Corsi Ilaria Corsi Alice Sbrana, Ilaria Corsi Tommaso Russo, Ilaria Corsi Ilaria Corsi Ilaria Corsi Tommaso Russo, Ilaria Corsi Ilaria Corsi Ilaria Corsi Ilaria Corsi Ilaria Corsi Ilaria Corsi Alice Sbrana, Ilaria Corsi Alice Sbrana, Ilaria Corsi Ilaria Corsi Ilaria Corsi Ilaria Corsi Ilaria Corsi Ilaria Corsi Ilaria Corsi Ilaria Corsi Ilaria Corsi Antonella Penna, Alice Sbrana, Tommaso Russo, Ilaria Corsi Antonella Penna, Ilaria Corsi Ilaria Corsi Alice Sbrana, Ilaria Corsi Ilaria Corsi Ilaria Corsi Alice Sbrana, Arianna Bellingeri, Arianna Bellingeri, Tommaso Russo, Ilaria Corsi Ilaria Corsi Tommaso Russo, Ilaria Corsi Ilaria Corsi Antonella Penna, Antonella Penna, Ilaria Corsi Ilaria Corsi Alice Sbrana, Tommaso Russo, Tommaso Russo, Ilaria Corsi

Summary

PVC, polystyrene, and polyethylene microplastics and nanoplastics significantly reduced phytoplankton cell density, with polymer type being a key factor; given phytoplankton's role in atmospheric CO2 fixation, plastic pollution could potentially impact the marine carbon pump.

Polymers

PE PS PVC

Study Type Review

Plastic pollution is a global issue posing a threat to marine biota with ecological implications on ecosystem functioning. Micro and nanoplastic impact on phytoplankton autotrophic species (e.g., cell growth inhibition, decrease in chlorophyll a and photosynthetic efficiency and hetero-aggregates formation) have been largely documented. However, the heterogeneity of data makes rather difficult a comparison based on size (i.e. micro vs nano). In addition, knowledge gaps on the ecological impact on phytoplankton assemblage structure and functioning are evident. A new virtual meta-analysis on cause-effect relationships of micro and nanoplastics on phytoplankton species revealed the significant effect posed by polymer type on reducing cell density for tested PVC, PS and PE plastics. Linked with autotrophic phytoplankton role in atmospheric CO fixation, a potential impact of plastics on marine carbon pump is discussed. The understanding of the effects of microplastics and nanoplastics on the phytoplankton functioning is fundamental to raise awareness on the overall impact on the first level of marine food web. Interactions between micro and nanoplastics and phytoplankton assemblages have been quite documented by in vitro examinations; but, further studies considering natural plankton assemblages and/or large mesocosm experiments should be performed to evaluate and try predicting ecological impacts on primary producers.

Read via DOI PubMed Download PDF

Share this paper

Post Share Share Pin Email