SEM images of polyethylene (PE) (A) and polyvinyl chloride (PVC) particles (B). Credit: WBG Microplastic particles (particle size<5 mm) have caused severe contamination in global aquatic environments, leading to potential adverse effects on ecosystem services and environmental quality. However, few studies have focused on the impact to macrophytes, which are important aquatic primary producers.
Utricularia genus are rootless macrophytes commonly found in small lakes and ponds. They use bladders to capture prey, which makes them have tremendous potential to interact with microplastic particles in aquatic ecosystems, therefore, increases risk from aquatic environments containing microplastics.
Researchers from the Wuhan Botanical Garden conducted a test in different media to investigate whether the uptake of microplastic affects the growth of Utricularia aurea Lour.
After a 10-day test, with all parameters detected, results showed that U. aurea could take in microplastic from its bladders and also microplastic could adhere to the plant. Pictures demonstrated this ingestion. Polyvinyl chloride (PVC), but not polyethylene (PE) particles had negative effects on the growth of U. aurea, which was mainly dependent on particle size .
PVC might induce toxicity in these carnivorous macrophytes via intake of particles through the bladder. In addition, these particles adhered to the outside of the bladders, […]
read more here —> phys.org